|31919||Burgaz A.R. & Tretiach M. (2002): Lectotypification of Lobaria amplissima (Scop.) Forssell (Lobariaceae, Ascomycotina). - Taxon, 51: 765–766.|
The top figure of tab. 46 in Micheli’s Nova Genera Plantarum is selected as lectotype, and a specimen from his herbarium (FI‐M) as epitype of the name of the lichen, Lobaria amplissima (Scop.) Forssell.
|31918||Boch S., Martins A., Ruas S., Fontinha S., Carvalho P., Reis F., Bergamini A. & Sim‐Sim M. (2019): Bryophyte and macrolichen diversity show contrasting elevation relationships and are negatively affected by disturbances in laurel forests of Madeira island
. - Journal of Vegetation Science, 30: 1122–1133.|
Questions: Studies on bryophyte and lichen diversity patterns along elevational gradients are scarce, although this approach can serve as space‐for‐time substitution to predict diversity changes because of climate warming. Therefore, we investigated bryophytes and macrolichens in disturbed and undisturbed stands along an elevational gradient in the unique laurel forest of Madeira island by addressing the following questions: (a) how does the species richness of functional‐taxonomic bryophyte and macrolichen groups differ with elevation; (b) how is the species richness of these groups affected by disturbances? Location: UNESCO World Natural Heritage site laurel forest of Madeira island (Madeira, Portugal). Methods: We analyzed species richness of bryophytes and macrolichens in 92 plots in response to elevation and to disturbances. Results: Bryophyte species richness showed a mid‐elevational peak, while macrolichen richness increased with elevation. Disturbed plots harbored on average 20% less bryophyte and macrolichen species than undisturbed plots. Conclusions: The laurel forest of Madeira island is a bryophyte and lichen diversity hotspot. Our findings indicate future biodiversity threats by changing environmental conditions. This calls for the need for a strict protection status of the laurel forest on Madeira island to minimize human‐related disturbances, for the development of management measures that could mitigate climate change effects by maximizing habitat suitability and for the implementation of species conservation programs to prevent future extinctions, in particular of endemic species. Keywords: bryophyte life strategy, climate change, elevational gradient, endemic species, functionaltaxonomic group, lichen growth form, liverwort, moss, photobiont.
|31917||Hurtado P., Prieto M., Aragón G., Escudero A. & Martínez I. (2019): Critical predictors of functional, phylogenetic and taxonomic diversity are geographically structured in lichen epiphytic
communities. - Journal of Ecology, 107: 2303–2316.|
Assessing the response of biological communities to contrasting environmental conditions is crucial to predict the effects of global change drivers. The influence of multiple environmental factors may differ depending on the diversity facet considered, which emphasizes the need to simultaneously evaluate the functional (FD), phylogenetic (PD) and taxonomic (TD) diversity. To examine how these facets of biodiversity respond to environmental changes, we studied lichen epiphytic communities across 47 beech forest fragments from two biogeographic regions. We applied structural equation modelling to relate habitat fragmentation, climate and habitat quality with FD, PD and TD. We compared the community response to contrasting climatic conditions by analysing independently Atlantic and Mediterranean communities. We found different major drivers of biodiversity patterns across biogeographic regions. Habitat fragmentation performed the highest effect on lichen communities, with a reduction of FD, PD and TD at both regions. However, the influence of climate was stronger in the Atlantic region than in the Mediterranean region, where the effect of habitat quality was superior. The effect of the environmental predictors over PD and TD was both direct and indirect through the different components of FD, and their intensity and sign differed across regions. Changes in PD were not related to changes in TD. Synthesis. Our results evidenced that the major environmental drivers affecting epiphytic communities were geographically structured. These drivers modified the diversity of the epiphytic community directly but also indirectly through changes in FD, which emerged as a causal but not unique determinant of PD and TD. Our findings also showed the difficulty for inferring TD through PD. These results emphasize the essential role of FD predicting part of the response of lichen communities to global change drivers but also highlight the importance of considering multiple biodiversity facets to understand the effects of environmental change on community structure. Keywords: biogeographic regions, environmental drivers, forest fragmentation, functional diversity, lichens, phylogenetic diversity, structural equation modelling, taxonomic diversity.
|31916||Fabritius H., Singer A., Pennanen J. & Snäll T. (2019): Estimation of metapopulation colonization rates from disturbance history and occurrence-pattern data. - Ecology, 100(10): e02814 [11 p.].|
Occurrence patterns of many sessile species in dynamic landscapes are not in equilibrium due to their slow rates of metapopulation colonization and extinction. Colonization–extinction data enable the estimation of colonization rates for such species, but collecting the necessary data may require long waiting times between sampling years. Methods for estimating colonization rates of nonequilibrium metapopulations from single occurrence‐pattern data have so far relied on additional data on patch ages and on past patch connectivities. We present an approach where metapopulation colonization rates are estimated from occurrence‐pattern data and from disturbance history data that inform of past patch dynamics and that can be collected together with occurrence‐pattern data. We estimated parameter values regulating patch and metapopulation dynamics by simulating patch network and metapopulation histories that result in present‐like patch network configurations and metapopulation occurrence patterns. We tested our approach using occurrence‐pattern data of the epiphytic lichen Lobaria pulmonaria in Fennoscandian forests, and fire‐scar data that inform of the 400‐yr history of fires and host tree dynamics in the same landscapes. The estimated model parameters were similar to estimates obtained using colonization–extinction data. The projected L. pulmonaria occupancy into the future also agreed with the respective projections that were made using the model estimated from colonization–extinction data. Our approach accelerates the estimation of metapopulation colonization rates for sessile species that are not in metapopulation equilibrium with the current landscape structure. Key words: approximate Bayesian computation; disturbance history; metapopulation dynamics; patch colonization rate; sessile species; snapshot data.
|31915||Roos R.E., van Zuijlen K., Birkemoe T., Klanderud K., Lang S.I., Bokhorst S., Wardle D.A. & Asplund J. (2019): Contrasting drivers of community‐level trait variation for vascular plants, lichens and bryophytes across an elevational
gradient. - Functional Ecology, 33: 2430–2446.|
Across environmental gradients, community‐level functional traits of plants can change due to species turnover, intraspecific variation and their covariation. Studies on vascular plants suggest that species turnover is the main driver of trait variation across gradients, although intraspecific variation can also be important. However, there is limited knowledge about whether this holds for non‐vascular primary producers such as lichens and bryophytes. We hypothesized that intraspecific variation is more important for non‐vascular than for vascular primary producers because they lack specialized structures to maintain homeostasis and should therefore be more responsive to extrinsic factors. To assess the relative importance of species turnover versus intraspecific variation for vascular plants, lichens and bryophytes, we estimated species abundance and measured chemical (tissue nitrogen (N) and phosphorous (P) content, N:P ratio and pH) and non‐chemical (specific leaf or thallus area, dry matter content and water holding capacity) functional traits along an elevational gradient in alpine southern Norway. We calculated community‐weighted mean traits and quantified the relative contribution of species turnover, intraspecific variation and their covariation to total trait variation across the gradient. We found mixed support for our hypothesis: the contribution of intraspecific variation to total trait variation for N and N:P was higher in lichens than in vascular plants and bryophytes, but in general the contribution of intraspecific variation differed among functional traits and producer groups. Nutrient variables (N, P and N:P) were significantly impacted by intraspecific variation for vascular plants and lichens but not for bryophytes. Non‐chemical traits and pH were mainly driven by species turnover effects in all primary producer groups. Our results highlight that while nearly all studies on primary producer trait variation across environments have focused on vascular plants, trait variation of other largely neglected but ecologically important producer groups, such as lichens and bryophytes, may show very different responses to the same environmental factors. In order to fully understand how future environmental changes impact on community‐ and ecosystem‐level processes, traits of primary producers other than vascular plants—and their within‐species variation—need to be considered in systems where these groups are abundant. Keywords: alpine ecology, climate gradient, community‐weighted mean, functional traits, intraspecific variation, non‐vascular plants, species turnover, tundra.
|31914||Blanár D., Guttová A., Mihál I., Plášek V., Hauer T., Palice Z. & Ujházy K. (2019): Effect of magnesite dust pollution on biodiversity and composition of oak-hornbeam woodlands in the Western Carpathians. - Biologia, 74: 1591–1611.|
We aimed to identify how the alkaline dust fallout from magnesite factories (Slovenské rudohorie Mts, Western Carpathians) affects biodiversity and species composition of oak-hornbeam forests, and to compare sensitivity of local biodiversity represented by vascular plants (including flowering plants and ferns) and cryptogams (cyanobacteria, macromycetes, slime molds, lichens, bryophytes). Altogether 24 plots were sampled along four degradation stages during the vegetation seasons 2011–2016: A – poorly developed vegetation on the magnesite crust, B – dense grassland vegetation almost without a tree-layer, C – degraded woodland with opened canopy, and D – visually unaffected original closed-canopy woodland. For each plot we sampled phytocoenological relevés including vascular plants and terrestrial cryptogams (cyanobacteria, lichens and bryophytes), and presence records for epiphytic lichens, epiphytic bryophytes, sporocarps of macromycetes (terrestrial, saprotrophic, parasitic and ectomycorrhizal) and sporocarps of slime molds.We also analyzed concentrations of C, Ca, Mg, S, N, P, K in the soil, light conditions, bark pH and the distance from two emission sources (ES). Increased alkaline dust, corresponding to a smaller distance from the emission source correlated with higher concentrations of Mg, Ca, Fe, S, C/N in soil samples. Regressive succession converted oak-hornbeam woodland to degraded woodland with opened canopy, further to ruderal grasslands, then to halophilous procoenoses of Agrostis stolonifera and Puccinellia distans on degraded soils with eroded magnesite crust and biocrusts (formed by cyanobacteria Microcoleus steenstrupii, Nostoc microscopicum and Schizothrix arenaria; bryophytes Desmatodon cernuus, Didymodon tophaceus; pioneer terrestrial lichen Thelidium zwackhii) and finally into habitat with no vegetation. This is the first report on early successional stages with halophilous procoenoses in the Western Carpathians. We also recorded significant differences in species richness and the species pools in all organism groups along the gradient. Overall species diversity decreased. The degradation stages are characterized by low representation of symbiotic macromycetes and by a high proportion of saprotrophic macromycetes. The highest species richness of vascular plants was recorded in degradation stages B and C, the highest herb-layer cover in stage B. The highest species richness of terrestrial bryophytes is also found in dense grassland vegetation in stage B. Occurrence of nitrophilous epiphytic lichens differentiates unaffected oak-hornbeam woodlands from the plots close to the emission source. Keywords: Alkaline dust . Terrestrial cyanobacteria . Macrofungi . Terrestrial and epiphytic lichens and bryophytes . Vascular plants . Post-industrial habitats . Slovakia.
|31913||Blanco-Sacristán J., Panigada C., Tagliabue G., Gentili R., Colombo R., Ladrón de Guevara M., Maestre F.T. & Rossini M. (2019): Spectral diversity successfully estimates the α-diversity of biocrust-forming lichens. - Remote Sensing, 11(24): 2942 [16 p.] doi:10.3390/rs11242942.|
Biocrusts, topsoil communities formed by mosses, lichens, liverworts, algae, and cyanobacteria, are a key biotic component of dryland ecosystems worldwide. Experiments carried out with lichen- and moss-dominated biocrusts indicate that climate change may dramatically reduce their cover and diversity. Therefore, the development of reproducible methods to monitor changes in biocrust diversity and abundance across multiple spatio-temporal scales is key for evaluating how climate change may impact biocrust communities and the myriad of ecosystem functions and services that rely on them. In this study, we collected lichen-dominated biocrust samples from a semi-arid ecosystem in central Spain. Their α-diversity was then evaluated using very high spatial resolution hyperspectral images (pixel size of 0.091 mm) measured in laboratory under controlled conditions. Support vector machines were used to map the biocrust composition. Traditional α-diversity metrics (i.e., species richness, Shannon’s, Simpson’s, and Pielou’s indices) were calculated using lichen fractional cover data derived from their classifications in the hyperspectral imagery. Spectral diversity was calculated at different wavelength ranges as the coefficient of variation of different regions of the reflectance spectra of lichens and as the standard deviation of the continuum removal algorithm (SD_CR). The accuracy of the classifications of the images obtained was close to 100%. The results showed the best coefficient of determination (r2 = 0.47) between SD_CR calculated at 680 nm and the α-diversity calculated as the Simpson’s index, which includes species richness and their evenness. These findings indicate that this spectral diversity index could be used to track spatio-temporal changes in lichen-dominated biocrust communities. Thus, they are the first step to monitor α-diversity of biocrust-forming lichens at the ecosystem and regional levels, a key task for any program aiming to evaluate changes in biodiversity and associated ecosystem services in drylands. Keywords: biocrusts; biological soil crust; spectral diversity; chlorophyll; continuum removal; biodiversity; α-diversity; support vector machine; remote sensing.
|31912||Lindblom L., Blom H.H. & Timdal E. (2019): The genus Xanthomendoza in Norway. - Graphis Scripta, 31(7): 54–75.|
We distinguish five Xanthomendoza species in Norway, viz., X. borealis, X. fallax, X. fulva, X. oregana, and X. ulophyllodes, based on morphology and molecular evidence. This paper gives an updated taxonomy of the Norwegian species of Xanthomendoza, and addresses previous misconceptions. Xanthomendoza ulophyllodes is reported as occurring in Norway. The species was previously misunderstood in Norway and removed from the Nordic checklist. We show that the nuclear internal transcribed spacer (nrITS) is a useful barcode marker for the treated species. We provide a key and short descriptions of the species, with notes on specific issues, ecology, geographic distribution, illustrations, maps, and a DNA reference library (DNA barcoding).
|31911||Fryday A.M., Orange A., Ahti T., Øvstedal D.O. & Crabtree D.E. (2019): An annotated checklist of lichen-forming and lichenicolous fungi reported from the Falkland Islands (Islas Malvinas). - Glalia, 8(1): 1–100.|
An annotated checklist of lichen-forming and lichenicolous fungi reported from the Falkland Islands is presented. A total of 408 taxa are reported: 402 species, and six additional infra-specific taxa (four subspecies, one variety and one forma), in 161 genera. Included in these are 15 species of lichenicolous fungi in 12 different genera. One hundred and fifty taxa are reported for the first time from the archipelago. Six new combinations are proposed: Lambiella andreaeicola (Fryday) Fryday, L. subpsephota (Fryday) Fryday, Notoparmelia kerguelensis (F. Wilson) Fryday, N. lindsayana (Øvstedal & Elix) Fryday, Palicella xantholeuca (Müll.Arg.) Fryday & Orange and Pseudephebe mariensis (Øvstedal, Common & Fryday) Øvstedal & Fryday. Key Words — new combinations, South America, southern subpolar region.
|31910||Jørgensen P.M., Andersen H.L. & Elvebakk A. (2019): The genus Massalongia (lichenised ascomycetae) in the Southern Hemisphere. - MycoKeys, 60: 125–140.|
The species of Massalongia recorded and described from the Southern Hemisphere are revised and it is shown that only one is present; M. patagonica which is widespread, with populations in Australia and New Zealand that differ from the South American populations, but at present best regarded as part of the variation of that species. Records from this hemisphere of all other species placed in the genus are incorrect. The type species, M. carnosa, is restricted to the Northern Hemisphere. Two species, M. antarctica and M. novozelandica cannot be identified precisely due to lack of sufficient type material and with the types as the only collections known of these, but none belongs in Massalongia according to available data. Massalongia griseolobata (from Gough Isl.) is shown here to belong in the Pannariaceae and is part of the parmelielloid clade. M. intricata (from South Georgia) and M. olechiana (from South Shetland) have both recently been correctly transferred to the genus Steinera in the Arctomiaceae. Keywords: Peltigerales, Massalongiaceae, phylogeny, taxonomy, South Hemisphere.
|31909||Petrzik K., Koloniuk I., Sehadová H. & Sarkisova T. (2019): Chrysoviruses inhabited symbiotic fungi of lichens. - Viruses, 11:1120 [15 p.], doi:10.3390/v11121120.|
A lichen body is formed most often from green alga cells trapped in a net of ascomycetous fungi and accompanied by endolichenic or parasitic fungi, other algae, and symbiotic or free-living bacteria. The lichen’s microcosmos is inhabited by mites, insects, and other animals for which the lichen is a source of food or a place to live. Novel, four-segmented dsRNA viruses were detected in saxicolous Chrysothrix chlorina and Lepraria incana lichens. Comparison of encoded genome proteins revealed classification of the viruses to the genus Alphachrysovirus and a relationship to chrysoviruses from filamentous ascomycetous fungi. We propose the names Chrysothrix chrysovirus 1 (CcCV1) and Lepraria chrysovirus 1 (LiCV1) as acronyms for these viruses. Surprisingly, observation of Chrysothrix chlorina hybridization with fluorescent-labelled virus probe by confocal microscope revealed that the CcCV1 virus is not present in the lichen body-forming fungus but in accompanying endolichenic Penicillium citreosulfuratum fungus. These are the first descriptions of mycoviruses from a lichen environment. Keywords: saxicolous lichen; ascomycete; chrysovirus; complete genome; confocal microscopy.
|31908||Ametrano C.G., Grewe F., Crous P.W., Goodwin S.B., Liang C., Selbmann L., Lumbsch H.T., Leavitt S.D. & Muggia L. (2019): Genome-scale data resolve ancestral rock-inhabiting lifestyle in Dothideomycetes (Ascomycota). - IMA Fungus, 10:19 [12 p.].|
Dothideomycetes is the most diverse fungal class in Ascomycota and includes species with a wide range of lifestyles. Previous multilocus studies have investigated the taxonomic and evolutionary relationships of these taxa but often failed to resolve early diverging nodes and frequently generated inconsistent placements of some clades. Here, we use a phylogenomic approach to resolve relationships in Dothideomycetes, focusing on two genera of melanized, extremotolerant rock-inhabiting fungi, Lichenothelia and Saxomyces, that have been suggested to be early diverging lineages. We assembled phylogenomic datasets from newly sequenced (4) and previously available genomes (238) of 242 taxa. We explored the influence of tree inference methods, supermatrix vs. coalescent-based species tree, and the impact of varying amounts of genomic data. Overall, our phylogenetic reconstructions provide consistent and well-supported topologies for Dothideomycetes, recovering Lichenothelia and Saxomyces among the earliest diverging lineages in the class. In addition, many of the major lineages within Dothideomycetes are recovered as monophyletic, and the phylogenomic approach implemented strongly supports their relationships. Ancestral character state reconstruction suggest that the rock-inhabiting lifestyle is ancestral within the class. Keywords: Lichenothelia, Phylogenomics, Saxomyces, Species tree, Supermatrix, Supertree.
|31907||He M.-Q., Zhao R.-L., Hyde K.D., Begerow D., Kemler M., Yurkov A., McKenzie E.H.C., Raspé O., Kakishima M., Sánchez-Ramírez S., Vellinga E.C., Halling R., Papp V., Zmitrovich I.V., Buyck B., Ertz D., Wijayawardene N.N., Cui B.-K., Schoutteten N., Liu X.-Z., Li T.-H., Yao Y.-J., Zhu X.-Y., Liu A.-Q., Li G.-J., Zhang M.-Z., Ling Z.-L., Cao B., Antonín V., Boekhout T., da Silva B.D.B., De Crop E., Decock C., Dima B., Dutta A.K., Fell J.W., Geml J., Ghobad-Nejhad M., Giachini A.J., Gibertoni T.B., Gorjón S.P.,Haelewaters D., He S.-H., Hodkinson B.P., Horak E., Hoshino T., Justo A., Lim Y.W., Menolli Jr. N., Mešić A., Moncalvo J.-M., Mueller G.M., Nagy L.G., Nilsson R.H., Noordeloos M., Nuytinck J., Orihara T., Ratchadawan C., Rajchenberg M., Silva-Filho A.G.S., Sulzbacher M.A., Tkalčec Z., Valenzuela R., Verbeken A., Vizzini A., Wartchow F., Wei T.-Z., Weiß M., Zhao C.-L. & Kirk P.M. (2019): Notes, outline and divergence times of Basidiomycota. - Fungal Diversity, 99: 105–367.|
The Basidiomycota constitutes a major phylum of the kingdom Fungi and is second in species numbers to the Ascomycota. The present work provides an overview of all validly published, currently used basidiomycete genera to date in a single document. An outline of all genera of Basidiomycota is provided, which includes 1928 currently used genera names, with 1263 synonyms, which are distributed in 241 families, 68 orders, 18 classes and four subphyla. We provide brief notes for each accepted genus including information on classification, number of accepted species, type species, life mode, habitat, distribution, and sequence information. Furthermore, three phylogenetic analyses with combined LSU, SSU, 5.8s, rpb1, rpb2, and ef1 datasets for the subphyla Agaricomycotina, Pucciniomycotina and Ustilaginomycotina are conducted, respectively. Divergence time estimates are provided to the family level with 632 species from 62 orders, 168 families and 605 genera. Our study indicates that the divergence times of the subphyla in Basidiomycota are 406–430 Mya, classes are 211–383 Mya, and orders are 99–323 Mya, which are largely consistent with previous studies. In this study, all phylogenetically supported families were dated, with the families of Agaricomycotina diverging from 27–178 Mya, Pucciniomycotina from 85–222 Mya, and Ustilaginomycotina from 79–177 Mya. Divergence times as additional criterion in ranking provide additional evidence to resolve taxonomic problems in the Basidiomycota taxonomic system, and also provide a better understanding of their phylogeny and evolution. Keywords: Classification; Molecular clock; Fungi; Systematics; Taxonomy.
|31906||Jung P., Emrich D., Briegel‐Williams L., Schermer M., Weber L., Baumann K., Colesie C., Clerc P., Lehnert L.W., Achilles S., Bendix J. & Büdel B. (2019): Ecophysiology and phylogeny of new terricolous and epiphytic chlorolichens in a fog oasis of the Atacama Desert. - MicrobiologyOpen, 8:e894 [21 p.].|
The Atacama Desert is one of the driest and probably oldest deserts on Earth where only a few extremophile organisms are able to survive. This study investigated two terricolous and two epiphytic lichens from the fog oasis “Las Lomitas” within the National Park Pan de Azúcar which represents a refugium for a few vascular desert plants and many lichens that can thrive on fog and dew alone. Ecophysiological measurements and climate records were combined with molecular data of the mycobiont, their green algal photobionts and lichenicolous fungi to gain information about the ecology of lichens within the fog oasis. Phylogenetic and morphological investigations led to the identification and description of the new lichen species Acarospora conafii sp. nov. as well as the lichenicolous fungi that accompanied them and revealed the trebouxioid character of all lichen photobionts. Their photosynthetic responses were compared during natural scenarios such as reactivation by high air humidity and in situ fog events to elucidate the activation strategies of this lichen community. Epiphytic lichens showed photosynthetic activity that was rapidly induced by fog and high relative air humidity whereas terricolous lichens were only activated by fog. Keywords: gas exchange, ITS, lichen, lichenicolous fungi, rbcL, Trebouxia.
|31905||Guzmán-Guillermo J., Díaz-Escandón D. & Medel-Ortiz R. (2019): Leucodermia guzmaniana sp. nov. (Physciaceae, Lecanorales), a new species from Mexican cloud forest, and a key to Leucodermia in Mexico. - Asian Journal of Mycology, 2(1): 209–212.|
Leucodermia guzmaniana Guzmán-Guillermo, Díaz-Escandón & Medel is described as a new species of lichen fungus, being characterized by terminal soredia and marginal white cilia covered with a red pigment that reacts K+ purple. The new species named after renowned Mexican Mycologist Dr. Gastón Guzmán. Leucodermia guzmaniana was collected in a cloud forest in Veracruz, Mexico. Key words – Cloud forest – Heterodermia – new species.
|31904||Yang Y., Nguyen T.T., Pereira I., Hur J.-S. & Kim H. (2019): Lichen secondary metabolite physciosporin decreases the stemness potential of colorectal cancer cells. - Biomolecules, 9: 797 [13 p.].|
Secondary metabolites of lichens are promising bioresources for candidate anti-cancer drugs. Accordingly, several approaches have been proposed for screening these molecules for novel anti-cancer lead compounds. In this study, we found that a non-toxic concentration of physciosporin, a compound isolated from Pseudocyphellaria granulata, significantly decreased colony formation on soft agar and spheroid formation by CSC221 cancer stem-like cells. Physciosporin also decreased spheroid formation in other colorectal cancer cell lines, including DLD1, Caco2, and HT29. Aldehyde dehydrogenase-1 (ALDH1), the most important cancer stem marker, was sharply downregulated at both the protein and mRNA level following treatment with physciosporin. Physciosporin also decreased the transcriptional activity of the glioma-associated oncogene homolog zinc finger protein (Gli), as well as the Hes1 and CSL promoters, in reporter assays. Moreover, the drug significantly suppressed spheroid formation in CSC221 cells overexpressing Gli1/2 or ΔEN1 (an S2-cleaved but membrane-tethered form of human Notch1) but did not suppress spheroid formation in cells overexpressing both Gli1/2 and ΔEN1, suggesting that physciosporin suppresses colon cancer cell stemness through the Sonic hedgehog and Notch signaling pathways. Together, these results demonstrate for the first time that physciosporin is a potent inhibitor of colorectal cancer cell stemness. Keywords: lichen; Pseudocyphellaria granulata; secondary metabolites; physciosporin; cancer stemness inhibition; colorectal cancer cells.
|31903||Olivier-Jimenez D., Chollet-Krugler M., Rondeau D., Beniddir M.A., Ferron S., Delhaye T., Allard P.-M., Wolfender J.-L., Sipman H.J.M., Lücking R., Boustie J. & Le Pogam P. (2019): A database of high-resolution MS/ MS spectra for lichen metabolites. - Scientific Reports, 9:294 [11 p.].|
While analytical techniques in natural products research massively shifted to liquid chromatographymass spectrometry, lichen chemistry remains reliant on limited analytical methods, Thin Layer Chromatography being the gold standard. To meet the modern standards of metabolomics within lichenochemistry, we announce the publication of an open access MS/MS library with 250 metabolites, coined LDB for Lichen DataBase, providing a comprehensive coverage of lichen chemodiversity. These were donated by the Berlin Garden and Botanical Museum from the collection of Siegfried Huneck to be analyzed by LC-MS/MS. Spectra at individual collision energies were submitted to MetaboLights (https://www.ebi.ac.uk/metabolights/MTBLS999) while merged spectra were uploaded to the GNPS platform (CCMSLIB00004751209 to CCMSLIB00004751517). Technical validation was achieved by dereplicating three lichen extracts using a Molecular Networking approach, revealing the detection of eleven unique molecules that would have been missed without LDB implementation to the GNPS. From a chemist’s viewpoint, this database should help streamlining the isolation of formerly unreported metabolites. From a taxonomist perspective, the LDB offers a versatile tool for the chemical profiling of newly reported species.
|31902||Weiss-Penzias P.S., Bank M.S., Clifford D.L., Torregrosa A., Zheng B., Lin W. & Wilmers C.C. (2019): Marine fog inputs appear to increase methylmercury bioaccumulation in a coastal terrestrial food web. - Scientific Reports, 9:17611 [11 p.].|
Coastal marine atmospheric fog has recently been implicated as a potential source of ocean-derived monomethylmercury (MMHg) to coastal terrestrial ecosystems through the process of sea-to-land advection of foggy air masses followed by wet deposition. This study examined whether pumas (Puma concolor) in coastal central California, USA, and their associated food web, have elevated concentrations of MMHg, which could be indicative of their habitat being in a region that is regularly inundated with marine fog. We found that adult puma fur and fur-normalized whiskers in our marine fog-influenced study region had a mean (±SE) total Hg (THg) (a convenient surrogate for MMHg) concentration of 1544 ± 151 ng g−1 (N = 94), which was three times higher (P < 0.01) than mean THg in comparable samples from inland areas of California (492 ± 119 ng g−1, N = 18). Pumas in California eat primarily black-tailed and/or mule deer (Odocoileus hemionus), and THg in deer fur from the two regions was also significantly different (coastal 28.1 ± 2.9, N = 55, vs. inland 15.5 ± 1.5 ng g−1, N = 40). We suggest that atmospheric deposition of MMHg through fog may be contributing to this pattern, as we also observed significantly higher MMHg concentrations in lace lichen (Ramalina menziesii), a deer food and a bioindicator of atmospheric deposition, at sites with the highest fog frequencies. At these oceanfacing sites, deer samples had significantly higher THg concentrations compared to those from more inland bay-facing sites. Our results suggest that fog-borne MMHg, while likely a small fraction of Hg in all atmospheric deposition, may contribute, disproportionately, to the bioaccumulation of Hg to levels that approach toxicological thresholds in at least one apex predator. As global mercury levels increase, coastal food webs may be at risk to the toxicological effects of increased methylmercury burdens.
|31901||Outhwaite C.L., Powney G.D., August T.A., Chandler R.E., Rorke S., Pescott O.L., Harvey M., Roy H.E., Fox R., Roy D.B., Alexander K., Ball S., Bantock T., Barber T., Beckmann B.C., Cook T., Flanagan J., Fowles A., Hammond P., Harvey P., Hepper D., Hubble D., Kramer J., Lee P., MacAdam C., Morris R., Norris A., Palmer S., Plant C.W., Simkin J., Stubbs A., Sutton P., Telfer M., Wallace I. & Isaac N.J.B. (2019): Annual estimates of occupancy for bryophytes, lichens and invertebrates in the UK, 1970–2015. - Scientific Data, 6:259 [12 p.].|
Here, we determine annual estimates of occupancy and species trends for 5,293 UK bryophytes, lichens, and invertebrates, providing national scale information on UK biodiversity change for 31 taxonomic groups for the time period 1970 to 2015. The dataset was produced through the application of a Bayesian occupancy modelling framework to species occurrence records supplied by 29 national recording schemes or societies (n = 24,118,549 records). In the UK, annual measures of species status from fine scale data (e.g. 1 × 1 km) had previously been limited to a few taxa for which structured monitoring data are available, mainly birds, butterflies, bats and a subset of moth species. By using an occupancy modelling framework designed for use with relatively low recording intensity data, we have been able to estimate species trends and generate annual estimates of occupancy for taxa where annual trend estimates and status were previously limited or unknown at this scale. these data broaden our knowledge of UK biodiversity and can be used to investigate variation in and drivers of biodiversity change.
|31900||England J.K., Hansen C.J., Allen J.L., Beeching S.Q., Buck W.R., Charny V., Guccion J.G., Harris R.C., Hodge M., Howe N.M., Lendemer J.C., McMullin R.T., Tripp E.A. & Waters D.P. (2019): Checklist of the lichens and allied fungi of Kathy Stiles Freeland Bibb County Glades Preserve, Alabama, U.S.A.. - Opuscula Philolichenum, 18: 420–434.|
The first checklist of lichenized, lichenicolous and lichen-allied fungi from the Kathy Stiles Freeland Bibb County Glades Preserve in Bibb County, Alabama, is presented. Collections made during the 2017 Tuckerman Workshop and additional records from herbaria and online sources are included. Two hundred and thirty-eight taxa in 115 genera are enumerated. Thirty taxa of lichenized, lichenicolous and lichen-allied fungi are newly reported for Alabama: Acarospora fuscata, A. novomexicana, Circinaria contorta, Constrictolumina cinchonae, Dermatocarpon dolomiticum, Didymocyrtis cladoniicola, Graphis anfractuosa, G. rimulosa, Hertelidea pseudobotryosa, Heterodermia pseudospeciosa, Lecania cuprea, Marchandiomyces lignicola, Minutoexcipula miniatoexcipula, Monoblastia rappii, Multiclavula mucida, Ochrolechia trochophora, Parmotrema subsumptum, Phaeographis brasiliensis, Phaeographis inusta, Piccolia nannaria, Placynthiella icmalea, Porina scabrida, Psora decipiens, Pyrenographa irregularis, Ramboldia blochiana, Thyrea confusa, Trichothelium americanum, Verrucaria calkinsiana, V. fayettensis, and Xanthocarpia feracissima. Protoblastenia ozarkana an undescribed species originally recognized from the Ozarks is also reported. This checklist serves as an important baseline for future studies of glade communities in Bibb County and, more generally, for calcareous glades across Alabama and throughout the southeastern United States. Keywords. – Dolomite, limestone, Little Cahaba River, Valley and Ridge Province.
|31899||McMullin R.T. & Dorin B.C. (2016): The Chic-Choc Mountains are the last southern refuge for Arctic lichens in eastern North America. - Arctic Science, 2: 183–193.|
Endemic and disjunct populations of vascular plants and cryptogams occurring in the Chic-Choc Mountains on the Gaspé Peninsula in eastern Québec, Canada, have been attracting botanists for over a century. Although controversial, these ancient mountains have been hypothesized to have been nunataks during the Wisconsin glaciation in part because they contain vascular plants that are not known to colonize nearby mountains with similar environments that were not thought to be nunataks. To determine whether there are lichen species that have the same pattern as the vascular plants, we examined the North American distribution of all the approximately 600 lichens known from the Chic-Chocs. Fifteen Arctic-alpine species were found to reach the edge of their southeastern North American range in the Chic-Chocs. Six of these species are not known to occur again for over 1000 km to the north. These results provide an additional layer of biogeographic knowledge about the unusual flora of the Chic-Chocs and lend some support to the hypothesis that the Chic-Chocs might have been nunataks during the last glacial period. Any Arcticalpine species occurring in the Chic-Chocs are good candidates for monitoring the effects of climate change, but the 15 lichen species that reach their southeastern limit in this range might be the most vulnerable. Key words: biogeography, alpine, climate change, protected areas, nunataks.
|31898||McMullin R.T. & Wiersma Y.F. (2017): Lichens and allied fungi of Salmonier Nature Park, Newfoundland. - Journal of the Torrey Botanical Society, 144(3): 357–369.|
We conducted the first comprehensive floristic study of the lichens and allied fungi of Salmonier Nature Park on the Avalon Peninsula in Newfoundland, Canada. By comparing our results to those from other provincial parks in Newfoundland, we show that Salmonier Nature Park has a regionally rich lichen biota that includes several uncommon species. We carry out an assessment of landscape-level drivers including geographic location and land cover diversity to determine whether lichen richness corresponds to patterns at the landscape extent. Within Salmonier, one species (Erioderma pedicellatum) is listed as ‘‘special concern’’ by the federal Committee on the Status of Endangered Wildlife in Canada and ‘‘critically endangered’’ by the International Union for Conservation of Nature. Two species are new to the island of Newfoundland: Phaeophyscia ciliata and Stereocaulon subcoralloides. Six species are new to the province of Newfoundland and Labrador: Ephebe hispidula, Muellerella lichenicola, Mycoblastus sanguinarioides, Placynthium flabellosum, Usnea flammea, and Xanthoparmelia angustiphylla. Our results provide baseline knowledge that allows changes in the lichen community to be monitored, the discovery of new species in the park to be acknowledged, regional distributions and frequencies to be better understood, and accurate comparisons to be made with other parks. Key words: Atlantic Canada, Avalon Forest Ecoregion, biogeography, landscape ecology, lichen biodiversity.
|31897||Suija A., Haldeman M., Zimmermann E., Braun U. & Diederich P. (2020): Phylogenetic placement and lectotypification of Pseudotryblidium neesii (Helotiales, Leotiomycetes). - Fungal Systematics and Evolution, 5: 139–149.|
A phylogenetic analysis of combined rDNA LSU and ITS sequence data was carried out to determine the phylogenetic placement of specimens identified as Pseudotryblidium neesii. The species forms a distinct clade within Dermateaceae (Helotiales, Leotiomycetes) with Rhizodermea veluwiensis and two Dermea species. The geographical distribution of this species, previously known only from Europe on Abies alba, is extended to north-western North America where it grows exclusively on A. grandis. The name P. neesii is lectotypified in order to disentangle the complicated nomenclature of the species. A new, detailed description of P. neesii with illustrations is provided after comparison of sequenced specimens with the type material. Furthermore, the new combination Pseudographis rufonigra (basionym Peziza rufonigra) is made for a fungus previously known as Pseudographis pinicola. Key words: Abies alba; A. grandis; Dermea; Dermateaceae; nomenclature; phylogeny; Pseudographis.
|31896||Hoppert M. & König S. (2019): The succession of biofilms on building stone and its possible impact on biogenic weathering. . - In: Fort R, A'lvarez de Buergo M, Gomez-Heras M, Vazquez-Calvo C, editors. Heritage, weathering and conservation, London: Taylor & Francis; 2006. p. 311–5.|
All surfaces of building stone are exposed to the environment and may be colonized by organisms. The organisms are often organized as microbial biofilms that cover the surface of the material and/or penetrate the substratum. During initial stages of biofilm development, organisms grow rapidly and achieve fast colonization of the surface. This strategy also allows for a high loss rate of the organisms either by biogenic or abiogenic weathering. Rapid growth rates quickly compensate for these losses. In an advanced state of biofilm development, the pioneer colonizers are replaced by colonizers with different life strategies: they exhibit slower growth rates and longer generation cycles, but are generally better adapted to their environment than the primary colonizers. This leads to a step-by-step displacement of the pioneers. This stage of colonization does only take place, if weathering (biogenic as well as non-biogenic) is low. Thus, the secondary colonizers have developed mechanisms for a more \"sustainable\" colonization of their substratum, which means that on these surfaces material losses by biogenic or non-biogenic weathering are reduced. Schematic view of a euendolithic lichen on homogeneous (carbonate) stone. The alga (small globules) and filaments of the ascomycete fungi (dark lines) are located in cavi- ties formed by the activity of organic acids produced by the organisms. An epilithic lichen penetrates the substratum. The lower part of the lichen thallus builds up a chasmoendolithic network by entering fissures or the soft matrix around rigid mineral particles. Verrucaria dufourii
|31895||Kistenich S., Ekman S., Bendiksby M. & Timdal E. (2019): (2687) Proposal to conserve the name Phyllopsora against Triclinum and Crocynia (Ramalinaceae, lichenized Ascomycota). - Taxon, 68(3): 590–592.|
|31894||Spribille T., Tuovinen V., Resl P., Vanderpool D., Wolinski H., Aime M.C., Schneider K., Stabentheiner E., Toome-Heller M., Thor G., Mayrhofer H., Johannesson H. & McCutcheon J.P. (2016): Basidiomycete yeasts in the cortex of ascomycete macrolichens. - Science, 353(6298): 488–492.|
For over 140 years, lichens have been regarded as a symbiosis between a single fungus, usually an ascomycete, and a photosynthesizing partner. Other fungi have long been known to occur as occasional parasites or endophytes, but the one lichen–one fungus paradigm has seldom been questioned. Here we show that many common lichens are composed of the known ascomycete, the photosynthesizing partner, and, unexpectedly, specific basidiomycete yeasts. These yeasts are embedded in the cortex, and their abundance correlates with previously unexplained variations in phenotype. Basidiomycete lineages maintain close associations with specific lichen species over large geographical distances and have been found on six continents. The structurally important lichen cortex, long treated as a zone of differentiated ascomycete cells, appears to consistently contain two unrelated fungi.
|31893||Sales K., Kerr L. & Gardner J. (2016): Factors inﬂuencing epiphytic moss and lichen distribution within Killarney National Park. - Bioscience Horizons, 9: hzw08 [12 p.].|
The niches of epiphytes are widely studied and have been shown to be complex involving interspeciﬁc competition, succession and predation. This study is unique in that it applies the niche concept to moss and lichen distributions within Killarney National Park, Kerry, Ireland. We studied 75 trees between three pristine ancient woodlands and measured a range of physical and biological factors to ascertain inﬂuences on epiphyte cover. The species of tree was found as the principal determinant in community structure as it bioengineers conditions such as light, temperature and humidity that the epiphytes are reliant upon. Furthermore, the bark character and trunk circumference were important. Zonation of the epiphytes was apparent with both aspect and height on the trunk. Typically, moss dominated over lichen within a niche that was relatively sheltered. Lichen tolerated drier and lighter niches often being further up the trunk on sun facing aspects. Ultimately, there was succession up the tree mediated through competition. This study highlights the complexity and interrelatedness between biotic and abiotic factors in a relatively unstudied geographical and biological area. Understanding agents behind a population’s distribution enables manipulation for conservation or sustainable exploitation. Key words: competition, niche, epiphyte, resource availability, succession, Killarney national park.
|31892||Ford M., Blanchon D.J., Veale A., Doyle E.J., Rolfe J.R. & de Lange P.J. (2019): Hidden in plain sight-a new Strigula species segregated from Strigula novae- zelandiae (Lichenized Ascomycota: Strigulaceae). - Phytotaxa, 424(5): 267–281.|
A new species, Strigula oleistrata, segregated from S. novae-zelandiae is described. The new species is widely sympatric with Strigula novae-zelandiae from which it is separated by a range of morphological characters and also by its nrDNA ITS sequence. As a result of this segregation, a new circumscription of S. novae-zelandiae is also provided. Comments on the ecology and conservation status of both species, and a revised key to the foliicolous Strigula species of New Zealand are provided.
|31891||Joshi Y. (2019): Opegrapha physciae (Arthoniales: Opegraphaceae), a new lichenicolous species from The Philippines. - Kew Bulletin, 74: 57 [3 p.].|
A new species of lichenicolous fungus Opegrapha Ach., O. physciae Y.Joshi, is described from The Philippines. The new taxon was found growing on thalli of Physcia sorediosa (Vain.) Lynge and is characterised by its small, flat to slightly convex ascomata, inducing the formation of basally constricted galls, with small lirellae and 3- septate ascospores measuring (11 –) 13.90 – 20.09 (– 21) × (3 –) 3.88 – 5.71 (– 6) μm. Key Words. Ascomycota, lichens, new species, parasite, Physcia.
|31890||Els N., Larose C., Baumann-Stanzer K., Tignat-Perrier R., Keuschnig C., Vogel T.M. & Sattler B. (2019): Microbial composition in seasonal time series of free tropospheric air and precipitation reveals community separation. - Aerobiologia, 35: 671–701.|
Primary biological aerosols are transported over large distances, are traveling in various media such as dry air masses, clouds or fog, and eventually deposited with dry deposition, especially for larger particles, or precipitation like rain, hail or snow. To investigate relative abundance and diversity of airborne bacterial and fungal communities, samples have been collected with a liquid impinger (Coriolis l) from the top of Mount Sonnblick (3106 m a.s.l., Austrian Alps) from the respective sources under a temporal aspect over four seasons over the year to include all climatic conditions. Bacterial and fungal samples (16S rRNA and ITS) were sequenced using Illumina MiSeq paired-end sequencing, investigated for relative abundance by qPCR(16S rRNA and 18S rRNA) and ice nucleation activity. Results show that there is no stable free tropospheric air microbial community and air mass origin was different for the four sampling periods which exerted influence on the microbial composition of the atmosphere although a core microbiome could be identified consisting of 61 bacterial OTUs and eight fungal genera. Differentiation between seasons was stronger pronounced in air than in precipitation, with rain being most different and variable of precipitation types, indicating distinct forces driving microbial fate in the air. Microorganisms precipitated with snow, hail or rain or being transported by clouds differ in their species composition from free tropospheric air masses and do not mirror the air community structure. They were more diverse, distinct in composition, 16S:18S ratio and abundance from free-floating PBA. Hence, snow or cloud samples are not suitable proxies for free tropospheric air microbiome composition, since separation processes in aerosolization, transport and scavenging occur. The microbial composition of arriving precipitation or clouds represents only a part of the microbial air composition communities of the cumulative sources of origin. Relative abundance and composition of ice nucleation-active bacteria showed a higher share of relative % reads of known ice nucleation-active bacteria present in all wet phases compared to air. Results propose a separation of IN active reads with higher shares occurring in precipitation. This study presents the first comparison of free tropospheric bacterial and fungal abundance and diversity in time series of air over several seasons in contrast to various precipitation forms in the free troposphere. Keywords: Free troposphere; 16SrRNA; 18SrRNA; ITS; Precipitation; Aerobiology. [p. 689: ] "Fungi displayed a high seasonal variability with a range of different genera and phyla dominating the fungal composition at the different seasons. Sporulation strategy, dissemination adaption and lifestyledependent patterns are critical aspects for airborne fungal occurrence (Pickersgill et al. 2017). 53.9% of all fungal genera were unique to August air masses. These samples were dominated by a large group of lichenized fungi (Miadlikowska et al. 2014) and the largest non-lichenous fungal group Leotiomycetes (Wang et al. 2006), whereas xerophilic and psychrophilic Eurotiomycetes (Geiser et al. 2006), highly resistant, yeast forming Saccharomycetes (Mu¨hlhausen and Kollmar 2014), yeast forming Tremellomycetes (Liu et al. 2015) and xerophilic Wallemiomycetes (Zalar et al. 2005) were dominant in May."
|31889||Jiang L.-Q., Zhang K., Li G.-D., Wang X.-Y., Shi S.-B., Li Q.-Y., An D.-F., Lang L., Wang L.-S., Jiang C.-L. & Jiang Y. (2019): Rubellimicrobium rubrum sp. nov., a novel bright reddish bacterium isolated from a lichen sample. - Antonie van Leeuwenhoek, 112: 1739–1745.|
Keywords: Rubellimicrobium rubrum ; New species ; Physcia sp. lichen ; 16S rRNA gene ; Draft genome sequences.
|31888||Phinney N.H., Solhaug K.A. & Gauslaa Y. (2019): Photobiont‑dependent humidity threshold for chlorolichen photosystem II activation. - Planta, 250: 2023–2031.|
Water vapor uptake alone can activate photosynthesis in lichens with green algal photobionts. However, the minimum relative humidity needed for activation is insufficiently known. The objective of this study was to quantify the humidity threshold for photosystem II (PSII) activation in a range of chlorolichen species associated with photobionts from Trebouxiaceae, Coccomyxaceae and Trentepohliaceae. These lichens exhibit distribution, habitat and substrate patterns that are likely coupled to their efficiency in utilizing water vapor at lower levels of relative humidity (RH) for photosynthesis. Using chlorophyll fluorescence imaging during water uptake from humid air of 25 species of chlorolichens representing the above photobiont groups, we monitored PSII activation within controlled chambers with constant RH at five levels ranging from 75.6 to 95.4%. The results demonstrate clear photobiont-specific activation patterns: the trentepohlioid lichens activated PSII at significantly lower RH (75.6%) than trebouxioid (81.7%) and coccomyxoid (92.0%) lichens. These responses are consistent with a preference for warm and sheltered habitats for trentepohlioid lichens, with cool and moist habitats for the coccomyxoid lichens, and with a more widespread occurrence of the trebouxioid lichens. Within each photobiont group, lichen species exposed to marine aerosols in their source habitats seemed to be activated at lower RH than lichens sampled from inland sites. High osmolyte concentration may therefore play a role in lowering a photobiont’s activation threshold. We conclude that photobiont type influences water vapor-driven photosynthetic activation of lichens, thereby shaping the ecological niches in which they occur. Main conclusion: Photobiont type influences the relative humidity threshold at which photosystem II activates in green algal lichens. Keywords: Chlorophyll fluorescence · Ecophysiology · Green algae · Osmolytes.
|31887||Czernyadjeva I.V. (ed.), Afonina O.M., Ageev D.V., Baisheva E.Z., Bulyonkova T.M., Cherenkova N.N., Doroshina G.Ya., Drovnina S.I., Dugarova O.D., Dulepova N.A., Dyachenko A.P., Filippova N.V., Ginzburg E.G., Gogorev R.M., Himelbrant D.E., Ignatov M.S., Kataeva O.A., Kotkova V.M., Kuragina N.S., Kurbatova L.E., Kushnevskaya E.V., Kuzmina E.Yu., Melekhin A.V., Notov A.A., Novozhilov Yu.K., Popov S.Yu., Popova N.N., Potemkin A.D., Stepanchikova I.S., Stepanova V.A., Tubanova D.Ya., Vlasenko A.V., Vlasenko V.O., Voronova O.G. & Zhalov Kh.Kh. (2019): New cryptogamic records. 4. - Новости систематики низших растений [Novosti sistematiki nizshikh rastenii] / Novitates systematicae plantarum non vascularium, 53(2): 429–430.|
First records of diatom species from the Barents and East-Siberian seas, of Myxomycetes for the Khanty-Mansi Autonomous Area — Yugra, Novosibirsk Region, Trans-Baikal Territory, Basidiomycetes for the Arkhangelsk, Novosibirsk, Rostov and Volgograd regions, Altai Republic, Altai Territory, lichens, calicioid and lichenicolous fungi for the Murmansk, Novgorod and Tver regions, bryophytes for the Lipezk, Voronezh and Volgograd regions, St. Petersburg, Stavropol Territory, Caucasus, Republic of Bashkortostan, Yamal and Gydan peninsulas, Trans-Baikal Territory, Magadan Region, Sakhalin Island, Republic of Uzbekistan are presented. Data on localities, habitats, distribution of recorded species are provided. Keywords: Amundsenia approximata, Anomodon minor, Arthonia tenellula, Athallia pyracea, Athelia salicum, Bacteriastrum delicatulum, Baeomyces carneus, Biatora albohyalina, Biatora meiocarpa, Bucklandiella microcarpa, Calicium pinastri, Candelaria pacifica, Catoscopium nigritum, Chaenotheca brunneola, Chaenothecopsis nana, Chaenothecopsis pusiola, Chaetoceros atlanticus, Chaetoceros ceratosporus, Chaetoceros ingolfianus, Chaetoceros simplex, Chaetoceros volans, Climacodon pulcherrimus, Comatricha laxa, Comatricha nigra, Coscinodiscus concinnus, Cribraria atrofusca, Cribraria violacea, Cylindrobasidium evolvens, Cytidia salicina, Dacrymyces chrysospermus, Dermatocarpon deminuens, Diderma deplanatum, Diderma montanum, Diderma saundersii, Didymium dubium, Didymium nullifilum, Diplomitoporus crustulinus, Diplotomma alboatrum, Echinostelium apitectum, Efibula avellanea, Encalypta trachymitria, Erythricium hypnophilum, Erythricium laetum, Favolus pseudobetulinus, Fissidens dubius, Gloiodon strigosus, Granulobasidium vellereum, Guinardia delicatula, Gymnodinium wulffii, Gyrodinium fusiforme, Heliocybe sulcata, Heterocephalacria bachmannii, Hydnellum aurantiacum, Hyphodontia alienata, Kavinia alboviridis, Lecidea plebeja, Leocarpus fragilis, Lepidoderma granuliferum, Licea kleistobolus, Licea pusilla, Lyomyces erastii, Lyomyces incrustatus, Lyomyces juniperi, Merismatium decolorans, Myuroclada longiramea, Navicula distans, Nitzschia longissima, Ochrolechia alboflavescens, Octactis octonaria, Oncophorus elongatus, Oreas martiana, Orthotrichum hallii, Paradiacheopsis fimbriata, Peniophora laurentii, Perichaena depressa, Perichaena luteola, Perichaena quadrata, Perichaena taimyriensis, Perichaena vermicularis, Phaeocalicium tremulicola, Phanerochaete cumulodentata, Phellodon fuligineoalbus, Phellodon tomentosus, Phlebia nitidula, Physarum compressum, Physarum leucophaeum, Placynthium tantaleum, Pohlia elongata, Pohlia obtusifolia, Protoperidinium depressum, Pseudocraterellus undulatus, Pteroncola inane, Pulvigera lyellii, Radulomyces rickii, Ramalina europaea, Rhizosolenia styliformis, Rhynchostegium arcticum, Riccia canaliculata, Riccia glauca, Rinodina oleae, Rinodina turfacea, Sarcodon scabrosus, Scopuloides rimosa, Scrippsiella acuminata, Sebacina epigaea, Sistotrema diademiferum, Skeletonema costatum, Sphagnum alaskense, Sphagnum fimbriatum, Strigula jamesii, Thalassiosira antarctica, Tomentella crinalis, Trapelia glebulosa, Trapeliopsis wallrothii, Trichia alpina, Trichostomum crispulum, Tripos arcticus, Varicellaria hemisphaerica, algae, basidiomycetes, calicioid fungi, chrysophytes, diatoms, dinoflagellatae, lichenicolous fungi, lichens, liverworts, mosses, mycobiota, myxomycetes, Altai Republic, Altai Territory, Arkhangelsk Region, Barents Sea, Caucasus, East-Siberian Sea,Gydan Peninsula, Kenozersky National Park, Khanty-Mansi Autonomous Area — Yugra, Lipezk Region, Magadan Region, Murmansk Region, Novgorod Region, Novosibirsk Region, Republic of Bashkortostan, Republic of Uzbekistan, Rostov Region, Russia, Sakhalin Region, St. Petersburg, Stavropol Territory, Trans-Baikal Territory, Tver Region, Volgo-Akhtubinsk Nature Park, Volgograd Region, Voronezh Region, Yamal Peninsula.
|31886||Sokolova I.V. & Makryi T.V. (2019): Cryptogamic nomenclatural notes. 4. - Новости систематики низших растений [Novosti sistematiki nizshikh rastenii] / Novitates systematicae plantarum non vascularium, 53(2): 429–430.|
The lectotypes of Dermatocarpon ferganense and D. terrigenum are designated in accordance with Art. F.5.4 of the International Code of Nomenclature for algae, fungi, and plants. Keywords: Dermatocarpon ferganense, Dermatocarpon terrigenum, lichens, lectotypification.
|31885||Урбанавичене И.Н. & Урбанавичюс Г.П. [Urbanavichene I.N. & Urbanavichus G.P.] (2019): К лихенофлоре Северо-Осетинского заповедника (Северная Осетия — Алания). I. Кластер «Шуби» [Contributions to the lichen flora of the North Ossetia Nature Reserve
(Republic of North Ossetia — Alania). I. Cluster “Shubi”]. - Новости систематики низших растений [Novosti sistematiki nizshikh rastenii] / Novitates systematicae plantarum non vascularium, 53(2): 349–368.|
[in Russian with English abstract: ] New data on the lichen flora of the North Ossetia Nature Reserve from cluster “Shubi” are provided. This cluster is located in Skalistyy and Pastbishchnyy ranges. The specimens of lichens, lichenicolous fungi and non-lichenized saprophytic fungi were collected from 8 localities in cluster “Shubi” in June 2016. In total, 273 lichen species, 4 non-lichenized saprobic fungi and 17 lichenicolous fungi were recorded. Among them 254 species are new for North Ossetia Nature Reserve, 214 species are new for Republic of North Ossetia — Alania, 130 species are new for the Central Caucasus, and 14 species are new for the Caucasus. Bacidina mendax, B. sulphurella, Candelariella boleana, Cryptodiscus tabularum, Halecania elaeiza, H. viridescens, Leptorhaphis maggiana, Verrucaria hegetschweileri were not previously reported from Asia. Nine species are reported for the first time for Russia: Bacidina mendax, Bagliettoa steineri, Candelariella boleana, C. xanthostigmoides, Chaenothecopsis trassii, Halecania elaeiza, H. viridescens, Leptorhaphis maggiana, Verrucaria hegetschweileri. Keywords: lichen flora, new records, North Ossetia Nature Reserve, Caucasus, Russia.
|31884||Tarasova V.N., Ahti T., Vitikainen O., Sonina A.V. & Myllys L. (2019): The revision of lichens, lichenicolous and non-lichenized fungi from the Vodlozersky National Park (Republic of Karelia, Russia) in the Herbarium of the Botanical Museum, University of Helsinki. - Новости систематики низших растений [Novosti sistematiki nizshikh rastenii] / Novitates systematicae plantarum non vascularium, 53(2): 337–348.|
This is a report of a revision of 565 herbarium specimens of lichens, lichenicolous or non-lichenized fungi and additional locality records of common species produced from a visit of the Russian-Finnish expedition to Vodlozersky National Park right after its foundation in 1991. The analyzed collection and field records represent the earliest information about the lichen flora of the territory of the park. In total, 177 species are listed including 173 lichens, 3 non-lichenized and 1 lichenicolous fungi. Xylographa rubescens is new to the Republic of Karelia. Twenty two species are reported for the first time for biogeographic province Karelia transonegensis; 47 species for the Karelian part of Vodlozersky National Park; and 17 species for the whole territory of the park. Keywords: Xylographa rubescens, lichen flora, middle taiga, Karelia transonegensis, Northwest European Russia.
|31883||Zhurbenko M.P. (2019): A new finding of an enigmatic lichenicolous ‘lichen’ from the Arctic. - Новости систематики низших растений [Novosti sistematiki nizshikh rastenii] / Novitates systematicae plantarum non vascularium, 53(2): 333–335.|
A lichen-like association occurring on thalli of other lichens and outwardly resembling species of genus Sphaerellothecium is briefly described, illustrated and discussed based on its new collection in the Arctic. Keywords: lichenization, extreme environments, Russia, Siberia.
|31882||Gandhi A.D., Murugan K., Umamahesh K., Babujanarthanam R., Kavitha P. & Selvi A. (2019): Lichen Parmelia sulcata mediated synthesis of gold nanoparticles: an eco-friendly tool against Anopheles stephensi and Aedes aegypti. - Environmental Science and Pollution Research, 26: 23886–23898.|
The goldnanoparticles (AuNPs) weresynthesized using the lichenParmeliasulcataextract (PSE)and characterized.Thepeaks of ultraviolet spectrophotometer and Fourier transmission infrared confirmed the formation of nanoparticles and the bioactive compounds of the lichen being responsible for reducing and capping of the particles. The face-centered cubic particles were determined byXRD peaksat111,200,220,and 311.The elemental composition andspherical shapeofAuNPswereconfirmed by energy-dispersive spectroscopy and transmission electron microscopy. The average particle size is 54 nm, and the zeta potential −18 was ascertained by dynamic light scattering. The potential effect of synthesized nanoparticles and lichen extracts was evaluated for antioxidant bioassays likeDPPH and H2O2 and testedfor mosquitocidal activity against Anophelesstephensi. ResultsshowedthatthelichenextractandAuNPshavethecapabilitytoscavengethefreeradicalswiththeIC50 valuesofDPPH being1020and 815 μg/mlandtheIC50 valuesofH2O2 being 694 and 510 μg/ml, respectively.The mosquitocidal experimental results in this study showed the inhibition of A. stephensi and A. aegypti against the larvae (I–IVinstar), pupae, adult, and egg hatching. On comparison, A. stephensi showed effective inhibition than A. aegypti even at low concentration. Based on the obtained results, gold nanoparticles synthesized using PSE showed an excellent mosquitocidal effect against Anopheles stephensi. Keywords: Lichen .Parmelia sulcata . Gold nanoparticles .TEM . Antioxidant assay . Mosquitocidal activity.
|31881||Kroukamp E.M., Godeto T.W. & Forbes P.B.C. (2019): Optimized extraction of inorganic arsenic species from a foliose lichen biomonitor. - Environmental Science and Pollution Research, 26: 29896–29907.|
To assess the two most toxicologically relevant species of As, namely arsenite (As(III)) and arsenate (As(V)), chromatographic separations often require two separate chromatographic columns to address the co-elution of arsenobetaine (AsB) with As(III). This issue is typically observed using conventional isocratic methods on anion exchange columns, increasing cost and analysis time. Here, we optimize the extraction of inorganic As from a lichen air biomonitor and develop an isocratic method for the chromatographic separation of five common As species on a PRP X-100 anion exchange column, resulting in the complete baseline separation of all species under study. This method was then applied to lichen biomonitors from an urban and rural site to demonstrate its use. In order of abundance, the various arsenic species in lichens from the urban site in South Africa were As(V) > As(III) > AsB > dimethylarsinic acid (DMA) > monomethylarsonic acid (MMA), and As(V) > AsB > As(III) > DMA > MMA for the rural site, where MMA was present in extremely low, non-quantifiable concentrations in lichens from both sites. Total concentrations of As were higher in samples from the urban site (6.43 ± 0.25 μg/g) than in those from the rural site (1.87 ± 0.05 μg/g), with an overall extraction efficiency of 19% and 40%, respectively. The optimized method utilized relatively inexpensive solvents and is therefore low-cost and eco-friendly in comparison with conventional chromatographic techniques. This is the first study which addresses the optimized extraction and characterization of As species in a South African lichen biomonitor of air pollution. Keywords: Arsenic speciation . HPLC-ICP-MS . Extraction .Biomonitor . Airpollution . Lichen.
|31880||Rai H., Nayaka S., Upreti D.K. & Gupta R.K. (2019): A new record of Canomaculina (Parmeliaceae, Ascomycota) from Western Himalaya, India
. - National Academy Science Letters, 42(5): 429–431.|
The study hereby describes the occurrence of a new record of Parmelioid-lichenized fungi Canomaculina haitiensis (Hale) Elix from India. The species is described on nylon net house from western Himalaya. A revised key to the genus Canomaculina in India is provided incorporating the new record. Keywords: Canomaculina; Isidiate; Net house; Western Himalaya.
|31879||Panichev N., Mokgalaka N. & Panicheva S. (2019): Assessment of air pollution by mercury in South African provinces using lichens Parmelia caperata as bioindicators
. - Environmental Geochemistry and Health, 41: 2239–2250.|
Large-scale assessment of atmospheric air pollution by mercury (Hg) using lichen Parmelia caperata as biological indicator was undertaken using samples from ﬁve provinces of South Africa collected between 2013 and 2017. Analysis of lichens provides time-integrated data, which correspond to the mean Hg concentration in air at a speciﬁc location over a long time period. Determination of Hg in lichens was carried out by direct thermal decomposition of samples using a Zeeman-effect atomic absorption spectrometer, thereby requiring no chemical pretreatment. The lowest mercuryconcentration of 60 ± 8.0 ng g-1 (n = 45) was measured in lichens from Limpopo province. This value was accepted as a background Hg concentration in SA lichens. The Hg in lichens from northern parts of Mpumalanga province varied from 72 ± 9.0 to 100 ± 17 ng g-1 (n = 45), while in southern parts of the province, where 11 coal-ﬁred electrical power stations are located, values ranged from 139 ± 7.0 to 183 ± 10 ng g-1 (n = 28). The highest Hg concentration, 218 ± 21 ng g-1 (n = 10), was found in lichens from Secunda, Mpumalanga province. It could be traced to the possible Hg emission during thermal treatment of coal at the largest SA industrial plant that transforms coal into liquid fuels. In Pretoria and Johannesburg, cities in Gauteng province, Hg in lichens was between 110 and 162 ng g-1 (n = 48). Based on the results of measurements, the equation connecting Hg concentration in lichens with Hg concentration in air has been derived. It was used for the calculation of atmospheric Hg concentration in South African provinces. Calculated values (0.8–1.45 ng m-3) were found to be within statistical summary of mean atmospheric Hg in remote places (1.70 ± 0.17 ng m-3), and in other locations (1.5–3.0 ng m-3) lower than in impacted areas of the world (5.20 ± 3.47 ng m-3). Keywords: Gaseous elemental mercury; Atmospheric air; Lichens; Hg in lichens and air correlation.
|31878||Bertrand R.L. & Sorensen J.L. (2019): Transcriptional heterologous expression of two type III PKS from the lichen Cladonia uncialis. - Mycological Progress, 18: 1437–1447.|
Type III polyketide synthases (PKS) are an under-explored group of enzymes that are responsible for producing a variety of bioactive molecules. In a previous study, we identified two type III PKS genes (t3pks1 and t3pks2) in the lichenizing fungus Cladonia uncialis. Here, we report efforts to functionally characterize these PKS using bioinformatics and heterologous expression. Phylogenetic analysis of t3pks1 indicated that the encoded PKS produces an alkylresorcinol. To estimate the size of the polyketide produced by T3PKS1, crystal structures of fungal type III PKS known to produce alkylresorcinols were examined. A strong correlation (R2 = 0.85) was observed between the active site cavity volume and the size of the largest alkylresorcinol produced by these PKS. Cavity volume measurements of modeled T3PKS1 suggested that this PKS can recruit long (C20) fatty acid-CoA primers to produce a polyketide of approximately 400 g/mol. To functionally characterize both lichen PKS, the t3pks1 and t3pks2 genes were transformed into NSAR1 Aspergillus oryzae. Transcriptional heterologous expression (including intron removal) of both genes was achieved. However, no new metabolites were observed within the host. This study is the first attempt to functionally characterize type III PKS from lichen fungi. Keywords: Heterologous expression . Protein modeling . Resorcinol . Fatty acids . Phylogenetics . Polyketides . Lichen.
|31877||Lõhmus P. & Lõhmus A. (2019): The potential of production forests for sustaining lichen diversity: A perspective on sustainable forest management. - Forests, 10(12): 1063 [23 p.].|
There is a critical gap in our knowledge about sustainable forest management in order to maintain biodiversity with respect to allocating conservation efforts between production forests and set-asides. Field studies on this question are notably scarce on species-rich, poorly detectable taxon groups. On the basis of forest lichen surveys in Estonia, we assessed the following: (i) how much production stands contribute to maintaining the full species pool and (ii) how forest habitat conditions affect this contribution for habitat specialist species. The field material was collected in a “semi-natural forestry” system, which mitigates negative environmental impacts of even-aged forestry and forestry drainage by frequently using natural regeneration, tree retention, and low intensity of thinnings. We performed standard-effort surveys of full assemblages of lichens and allied fungi (such as non-lichenized calicioid and lichenicolous fungi) and measured stand structure in 127 2 ha plots, in mainland Estonia. The plots represented four management stages (old growth, mature preharvest forests, clear-cut sites with retention trees, and clear-cut sites without retention trees). The 369 recorded species represent an estimated 70% of the full species pool studied. Our main finding was that production forests supported over 80% of recorded species, but only one-third appears tolerant of management intensification. The landscape-scale potential of production forests through biodiversity-friendly silviculture is approximately twice as high as the number of tolerant species and, additionally, many very rare species depend on setting aside their scattered localities. The potential is much smaller at the scale of individual stands. The scale effect emerges because multiple stands contribute different sets of sensitive and infrequent species. When the full potential of production forests is realized, the role of reserves is to protect specific old-growth dependent taxa (15% to 20% of the species pool). Our study highlights that production forests form a heterogeneous and dynamic target for addressing the biodiversity conservation principle of sustainable forest management. Keywords: biodiversity conservation; epiphytes; even-aged forestry; forest set-asides; habitat specialist species; life-history traits; mixed-species forests; retention forestry; silviculture; threatened species.
|31876||Leśniański G. (2012): Czerwona lista porostów województwa śląskiego [The red list of lichens of Silesian Voivodship]. - In: Parusel J.B. (ed.), Czerwone listy wybranych grup grzybów i roślin województwa śląskiego. Raporty Opinie 6, p. 35–71, Centrum Dziedzictwa Przyrody Górnego Śląska, Katowice.|
Poland; Regional Redlist; [in Polish with English summary: ] the third regional list of threatened lichens and allied fungi is presented. the list is a result of investigation studies in Silesian Voivodship. the status of thread to the lichen species used has been determined according to the iUCN Red list Categories in Version 7.0. (2008). the red list included 768 taxa of lichens, which constitute about 48% of the Polish biota. the status of threatened lichen biota has the following categories: Regionally Extincts (RE) – 82 taxa, Critically Endangered (CR) – 59 taxa; Endangered (EN) – 76 taxa, Vulnerable (VU) – 78 taxa, Near threatended (Nt) – 89 taxa, least Concern (lC) – 162, Data Deficient (DD) – 222 taxa.
|31875||Tripp E.A. & Lendemer J.C. (2019): Highlights from 10+ years of lichenological research in Great Smoky Mountains National Park: Celebrating the United States National Park Service Centennial. - Systematic Botany, 44(4): 943–980.|
Great Smoky Mountains National Park is renowned as one of the most biologically diverse tracts of land in North America and is the most visited national park in the United States. The park comprises ;830 square miles, epitomizes eastern temperate hardwood forests of North America, and serves as a refuge for nearly 20,000 documented species from microbes to plants and mammals. Lichens comprise one particularly diverse group of organisms in the park. In this study, we review data from our 11 years of lichenological research in Great Smoky Mountains National Park. Based on approximately 6,000 new field collections generated, the park checklist now includes 920 species, a 129% increase over estimatesmade two decades ago.Nearly a quarter of the lichens reported in the park are known from only a single occurence whereas only 7%of the lichens are known from 20 or more occurences. An assessment of commonness/rarity for all 920 species indicates that nearly half of the park’s lichens should be considered to be infrequent, rare, or exceptionally rare.We assessed the distributions of all 920 species and found that 54 are endemic to the southeastern United States, 30 are endemic to the southern Appalachians, and eight occur nowhere else than within the confines of the national park. We discuss biogeographical affinities of the park’s lichen biota as a whole, delimiting six regional “floristic” connections. Our 11 years of research have resulted in the discovery of several species presumed to be extinct or near-extinct.We make one new combination (Fuscopannaria frullaniae) and describe five species as new to science, each commemorating National Park Service staff instrumental to the completion of the study: Heterodermia langdoniana, Lecanora darlingiae, Lecanora sachsiana, Leprocaulon nicholsiae, and Pertusaria superiana. Keywords—Accumulation curve, Appalachians, biodiversity, commonality, endemism, extinct, hotspot, lichens, rarity, symbiotic.
|31874||Толпышева Т.Ю. [Tolpysheva T.Yu.] (2017): Рецензия на книгу: Л.В. Гагарина «Гиалектовые лишайники (семейства Gyalectaceae Stizenb. и Coenogoniaceae (Fr.) Stizenb.) внетропической Евразии». СПб., 2015. 240 с. [Book review L.V. Gagarina «Gyalectoid lichens (families Gyalectaceae Stizenb. and Coenogoniaceae (Fr.) Stizenb.) in extratropical Eurasia». SPb., 2015, 240 p.]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 122(5): 76.|
Book review [in Russian]
|31873||Эльканова М.Х., Ахметжанова А.А., Елумеева Т.Г. & Онипченко В.Г. [Elkanova M.Kh., Akhmetzhanova A.A., Elumeeva T.G. & Onipchenko V.G.] (2016): Изменение структуры надземной фитомассы альпийской пустоши Северо-Западного Кавказа при долговременном
внесении элементов минерального питания [Changes of aboveground phytomass structure of alpine lichen heath of the northwestern Caucasus in response to long-term nutrient addition]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 121(2): 47–58.|
[in Russian with English summary: ] Aboveground phytomass structure of the alpine lichen heath (Teberda reserve, the Northwestern Caucasus) was studied on the plots with the long-term (1999–2008) nutrient addition. Six treatments were established: 1) control, 2) lime addition, 3) nitrogen addition, 4) phosphorous addition, 5) both nitrogen and phosphorous addition, 6) water stress reduction under low precipitation. Phytomass was sampled in late July – August 2008. Total phytomass signifi cantly increased after ten years of treatment only in response to both nitrogen and phosphorous addition. Share of vascular plants doubled at NP treatment and increased by 1,4 times at P treatment. Lichens almost completely disappeared at N and NP treatments. Necromass increased at N and NP treatments. Changes in alpine lichen heath community structure were caused by changes in the role of separate components of community, and were based on species initially growing on the experimental plots; no invasions of new species were observed. Key words: alpine ecosystems, nitrogen, phosphorous, lime, water.
|31872||Бязров Л.Г. [Biazrov L.G.] (2015): Пространственное распределение на присоединенной в 2012 г. к Москве территории Индекса чистоты атмосферы, определенного по показателям эпифитной лихенобиоты [Spatial distribution of an Index of Atmospheric Purity on area integrated to Moscow city territory in 2012 determined by parameters of epiphytic lichen biota]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 120(4): 51–59.|
[in Russian with English summary: ] The data are given on distribution of values of an Index of Atmospheric Purity on parameters of epiphytic lichen biota, collected in 2012–2013 on 850 deciduous trees from 17 plots of area integrated to Moscow city territory in 2012. The index is determined for each plot. The results of research are offered as baseline for possible future monitoring of an environment quality of the territory under study by parameters of lichen biota. Key words: Moscow; monitoring; baseline; lichens; index of atmospheric purity.
|31871||Урбанавичюс Г.П. [Urbanavichus G.P.] (2015): Новые для России и Мурманской области виды лишайников и лихенофильных грибов из заповедника Пасвик [Lichens and lichenicolous fungi New for Russia and Murmansk province from Pasvik reserve]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 120(3): 74–75.|
|31870||Урбанавичюс Г.П. & Урбанавичене И.Н. [Urbanavichus G.P. & Urbanavichene I.N.] (2015): Второе дополнение к лихенофлоре Республики Мордовия и Средней России [The second addition to the lichenflora of the Republic of Mordovia and Middle Russia]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 120(3): 75–77.|
|31869||Бязров Л.Г. [Biazrov L.G.] (2015): Рецензия на книгу: Вертика Шукла, Д.К. Упрети, Раджеш Баджпай «Лишайники как биомониторы среды». Шпрингер Индия. 2014. 185 с. [Review on the book: Vertika Shukla, D.K. Upreti, Rajesh Bajpai «Lichens to Biomonitor the Environment». Springer India. 2014. 185 p.]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 120(2): 75–76.|
Book review [in Russian]
|31868||Бязров Л.Г. & Пельгунова Л.А. [Biazrov L.G. & Pelgunova L.A.] (2015): Концентрации свинца (Pb) в слоевищах лишайника Xanthoria parietina с различных участков присоединенной в 2012 г. к Москве территории [Concentrations of lead (Pb) in thalli of lichen Xanthoria parietina from different plots of area integrated to Moscow city territory in 2012]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 120(2): 49–57.|
[in Russian with English summary: ] Data about concentrations of lead in thalli of epiphytic lichen Xanthoria parietina, sampled in 2012 in joined part of the Moscow region to Moscow city in the same year are presented. This territory was divided into 17sections, on each of which outside of settlements and far from motor roads have sampled on 10 lichen specimens from trunks of deciduous trees. The range of mean concentration Pb vary between sections from 0,28 up to 8,30, at mean value of 2,42 mg/kg for all 170 specimens. We are determined the factors of enrichment Pb normalized to Ti. Their values in sections are from 1 up to 85,5 at mean value 19,3 for all 17 sections. The ranking of understudy area on parameters of metal mean concentration in the thalli was carried out. Increased concentrations of Pb are allocated in northern sections adjoining from the south to former territory of city. These results are offered as “baseline” for future monitoring of air quality in the territory under study. Key words: lichens, Xanthoria parietina, lead, poisoning, concentration, air quality, monitoring, baseline, Moscow city.
|31867||Жданов И.С. [Zhdanov I.S.] (2014): Новые и редкие виды лишайников из разных регионов России [New and rare lichen species from various regions of Russia]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 119(6): 76–78.|
|31866||Урбанавичюс Г.П. & Урбанавичене И.Н. [Urbanavichus G.P. & Urbanavichene I.N.] (2013): Дополнения к лихенофлоре Кавказа. Виды семейства Verrucariaceae [Additions to the lichenflora of the Caucasus. Verrucariaceae species]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 118(6): 51–56.|
|31865||Мелехин А.В., Давыдов Д.А., Шалыгин С.С. & Боровичев Е.А. [Melechin A.V., Davydov D.A., Shalygin S.S. and Borovichev E.A.] (2013): Общедоступная информационная система по биоразнообразию цианопрокариот и лишайников CRIS
(Cryptogamic Russian Information System) [Open information system on biodiversity cyanoprokaryotes and lichens CRIS (Cryptogamic Russian Information System)]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 118(6): 51–56.|
An information system supporting a convenient tool storage, organization, integration, visualization and analysis of data on the biodiversity of cyanoprokaryotes and lichens has been developed. [in Russian with English summary: ] The system allows you to add herbarium data or published material, to make publicly available the information on sample collections, learn about the literature, and analyze the distribution and degree of scrutiny of individual groups of cryptogamic plants in the Murmansk Province. Key words: information system, biodiversity, cyanoprokaryotes, lichens.
|31864||Толпышева Т.Ю. [Tolpysheva T.Yu.] (2013): С.Э. Будаева. Аннотированный список лишайников Республики Бурятия: Монография. Улан-Удэ, 2012. 182 с. [S.E. Budaeva. Annotated list of lichens revealed in Republic Buryatia: A Monograph. Ulan-Ude, 2012. 182 p.]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 118(4): 83.|
Book review [in Russian]
|31863||Пчелкин А.В. [Pchelkin A.V.] (2018): Rusavskia elegans (Link.) S. Kondr. & Kärnefelt на стенах Соловецкого монастыря: биоповреждение или биозащита? [Rusavskia elegans (Link.) S. Kondr. & Kärnefelt on the walls of the Solovetsky Monastery: biodeterioration or bioprotection?]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 123(6): 41–47.|
[in Russian with English summary: ] During the restoration with the help of metal brushes restorers removed the lichen thalli of Rusavskia elegans from the walls of the Solovetsky monastery. Special studies have shown that this lichen has no negative impact on the stones of the Solovetsky monastery. Under the Rusavskia elegans, the substrate is somewhat more durable, but on most sample plots for the signifi cance level of 0.05 according to Student’s t-test, there are no signifi cant differences between the strength characteristics of concrete in areas under lichen thalli and control sample plots. On one sample plot, a signifi cant positive effect of Rusavskia elegans on the substrate was noted. Remove lichen from the walls will harm the monastery walls. Key words: lichens, Rusavskia elegans, restoration, bioprotection, biodeterioration, biological weathering, Solovetsky monastery.
|31862||Пчелкин А.В. [Pchelkin A.V.] (2018): Лишайники природно-ландшафтного парка «Зарядье» (Москва): перспектива мониторинга [Lichens of the natural-landscape park «Zaryadye» (Moscow): the possibility of monitoring]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 123(4): 44–49.|
[in Russian with English summary: ] In October 2017, 86 epilithic and 13 epiphytic species of lichens were found in the territory of the Natural-landscape park «Zaryadye». Most epilithic species are confi ned to the «Northern Landscape». The lichen fl ora of the park is of some interest, as an example of a massive transplantation of lichens into urban conditions with a high concentration of atmospheric pollution. This makes it possible to monitor the vitality of transplanted lichens. Key words: lichens, monitoring, transplantation, Natural-landscape park «Zaryadye».
|31861||Толпышева Т.Ю. [Tolpysheva T.Yu.] (2018): Рецензия на книгу: Н.В. Седельникова «Видовое разнообразие лихенобиоты Западной Сибири и оценка участия видов лишайников в основных ее горных и равнинных фитоценозах» Новосибирск, 2017. 611 с. [Book review: N.V. Sedelnikova «Species diversity of lichenobioty in Westeren Siberis and the assessment of lichen species participation in its main mountain and lowland phytocoenosises». Novosibirsk, 2017. . - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 123(4): 84.|
Book review [in Russian]
|31860||Толпышева Т.Ю. [Tolpysheva T.Yu.] (2018): Рецензия на книгу: Флора лишайников России: Род Protoparmelia, семейства Coenogoniaceae, Gyalectaceae и Umbilicariaceae / Отв. ред. М.П. Андреев, Д.Е. Гимельбрант. М.; СПб., 2017. 195 с. [Book review: Russian Lichens Flora: Genera Protoparmelia, families Coenogoniaceae, Gyalectaceae and Umbilicariaceae / M.P. Andreev, D.E. Himelbrant, M.; SPb, 2017. 195 p.]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 123(5): 73.|
Book review [in Russian]
|31859||Толпышева Т.Ю. [Tolpysheva T.Yu.] (2018): Рецензия на книгу: Рецензия на монографию: А.А. Нотов, Д.Е. Гимельбрант, И.С. Степанчикова, В.П. Волков «Лишайники Центрально-лесного государственного природного биосферного заповедника». Тверь, 2016. 332 с. [Book review A.A. Notov, D.E. Himelbrant, I.S. Stepanchikova, V.P. Volkov «Lichens of Central Forest State Natural Biosphere Reserve». Tver, 2016. 332 р.]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 123(1): 78.|
Book review [in Russian]
|31858||Пчелкин А.В. & Пчелкина Т.А. [Pchelkin A.V. & Pchelkina T.A.] (2014): Криоконсервация – перспективный метод сохранения биоразнообразия лишайников для трансплантации [Cryopreservation – a promising method for the conservation of biodiversity of lichens for transplantation]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 119(4): 41–46.|
[in Russian with English summary]
|31857||Лихачева О.В. [Likhacheva O.V.] (2010): Эпифитные лишайники усадебных парков - памятников садово-паркового искусства Псковской области [Epiphytic lichens of the country estate parks - memorials of the garden art (Pskov region)]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 115(4): 66–72.|
[in Russian with English summary: ] The article describes epiphytic lichens of the 12 country estate parks of Pskov region, protected by local authority. The list of lichens is arrnnged in alphabetical order and includes 104 species from 49 genuses. The taxonomic analysis and the analysis of lichen life forms are given. The substrate ecology of epiphytic lichens in country estate parks and the distributions of lichens in relation to tree state are discussed. There 7 rare and protected species and I new for Pskov region are noted. Key words: country estate parks, memorials of the garden art, epiphytic lichens, rare and protected species.
|31856||Вехов Н.В. & Кулиев А.Н. [Vekhov N.V. & Kuliev A.N.] (1998): Лишайники, мохообразные и сосудистые растения полярных пустынь архипелаrа Новая Земля [Lichens, bryophytes and vascular plants of polar deserts of Novaya Zemlya Archipelago]. - Бюллетень Московского общества испытателей природы. Oтдел биологический [Bulletin of Moscow Society of Naturalists. Biological series], 103(3): 44–50.|
[in Russian with English summary: ] Species composition and distribution of lichens and vascular plants in three places of Arctic deserts on Severnyi Island of Novaya Zemlya Archipelago are considered in the present paper. The data were obtained in summer, 1995. 55 lichen species and subspecies, 64 species and subspecies of hepatic and leafy mosses and 54 species of flowering plants were found there for the first time. Lichenoflora includes species with arctic-alpine areas, common for the Arctic region. In contrast with the Western Arctic, its species composition is poor. Mossy flora of Arctic deserts at Novaya Zemlya Archipelago is mixed and includes polyzonal species. It comprises species, characteristic to both Siberian and European Arctic; some of them are considered new for Eurasian Arctic deserts. Among the flowering plants the species with arctalpine latitude areas and circumpolar distribution are found to be dominating. By their Angiosperm floral composition polar deserts of Novaya Zemlya Archipelago are in the intermediate position between the floras of European (Western) and Siberian (Eastern) Arctic.
|31855||Li T., Li C.-T., Butler K., Hays S.G., Guarnieri M.T., Oyler G.A. & Betenbaugh M.J. (2017): Mimicking lichens: incorporation of yeast strains together with sucrose-secreting cyanobacteria improves survival, growth, ROS removal, and lipid production in a stable mutualistic co-culture production platform. - Biotechnology for Biofuels, 10: 55 [11 p.].|
Background: The feasibility of heterotrophic–phototrophic symbioses was tested via pairing of yeast strains Cryptococcus curvatus, Rhodotorula glutinis, or Saccharomyces cerevisiae with a sucrose-secreting cyanobacterium Synechococcus elongatus. Keywords: Cyanobacteria, Yeasts, Co-culture, Sucrose, ROS, Artificial lichen, Hydrogen peroxide, Lipid production. Results: The phototroph S. elongatus showed no growth in standard BG-11 medium with yeast extract, but grew well in BG-11 medium alone or supplemented with yeast nitrogen base without amino acids (YNB w/o aa). Among three yeast species, C. curvatus and R. glutinis adapted well to the BG-11 medium supplemented with YNB w/o aa, sucrose, and various concentrations of NaCl needed to maintain sucrose secretion from S. elongatus, while growth of S. cerevisiae was highly dependent on sucrose levels. R. glutinis and C. curvatus grew efficiently and utilized sucrose produced by the partner in co-culture. Co-cultures of S. elongatus and R. glutinis were sustained over 1 month in both batch and in semi-continuous culture, with the final biomass and overall lipid yields in the batch co-culture 40 to 60% higher compared to batch mono-cultures of S. elongatus. The co-cultures showed enhanced levels of palmitoleic and linoleic acids. Furthermore, cyanobacterial growth in co-culture with R. glutinis was significantly superior to axenic growth, as S. elongatus was unable to grow in the absence of the yeast partner when cultivated at lower densities in liquid medium. Accumulated reactive oxygen species was observed to severely inhibit axenic growth of cyanobacteria, which was efficiently alleviated through catalase supply and even more effectively with co-cultures of R. glutinis. Conclusions: The pairing of a cyanobacterium and eukaryotic heterotroph in the artificial lichen of this study demonstrates the importance of mutual interactions between phototrophs and heterotrophs, e.g., phototrophs provide a carbon source to heterotrophs, and heterotrophs assist phototrophic growth and survival by removing/eliminating oxidative stress. Our results establish a potential stable production platform that combines the metabolic capability of photoautotrophs to capture inorganic carbon with the channeling of the resulting organic carbon directly to a robust heterotroph partner for producing biofuel and other chemical precursors.
|31854||Bricaud O. (1999): Les peuplements lichéniques saxicoles du Parc naturel régional du Luberon. - Courrier scientifique du Parc naturel régional du Luberon, 3: 97–109.|
[in French] Après un historique des recherches sur les peuplements lichéniques saxicoles du Luberon, ceux-ci sont sommairement présentés, avec indication de leurs préférences écologiques, de leurs espèces caractéristiques et de leur répartition sur le territoire du Parc naturel régional.
|31853||James P.W., Allen A. & Hilton B. (1997): The lichen flora of Lundy: II The communities. - Annual Report of the Lundy Field Society, 47: 93–126.|
|31852||Sipman H.J.M. (2010): A conspectus of the lichens (lichenized Fungi) of Singapore. - Gardens’ Bulletin Singapore, 61(2): 437–481.|
A total of 296 species of lichenized fungi are reported from Singapore and presented in an annotated list with local distributional information. it is based on herbarium and literature study and the fieldwork done in the year 2000. Unidentified samples suggest the figure to be an underestimation, while some of the listed species may have become extinct. Lists of synonyms and collectors are added.
|31851||Mereschkovsky C. (1921): Diagnoses of some lichens. - The Annals and Magazine of Natural History (London), ser. IX, 8: 246–290.|
taxonomy; Russia, France, Austria, Switzerland, Estonia, Italy, Germany; Parmelia taurica sp. nov., Squmaria crozalsiana sp. nov., Lecanora crenulatissima sp. nov., L. elenkinii sp. nov., L. perplexa sp. nov., Aspicilia asterias sp. nov., A. hispida sp. nov., A. lacunosa sp. nov., Gasparrinia flava sp. nov., Gasparrinia jailensis sp. nov., and numerous new infraspecific taxa within species of Parmelia s.lat., Physcia s.lat., Lecanora s.lat., Caloplaca s.lat. Appendix with enumeration of "Lichenes Rossiae exsiccati" and of "Tabulae Generum Lichenum" included in the end of the article (p. 285–290).
|31850||Sobreira P.N.B., Cáceres M.E.S., Maia L.C. & Lücking R. (2018): Flabelloporina, a new genus in the Porinaceae (Ascomycota, Ostropales), with the first record of F. squamulifera from Brazil. - Phytotaxa, 358(1): 67–75.|
A new genus of lichenized fungi of the family Porinaceae is described, known from Costa Rica and Brazil. Flabelloporina Sobreira, M. Cáceres & Lücking is a thus far monospecific genus with an isolated position of its only species in the family, morphologically different from all other genera in Porinaceae. The genus is characterized by the production of numerous, flabelliform squamules on the surface of the thallus, together with black perithecia and transversally septate ascospores (with three septa in the only species). The new combination Flabelloporina squamulifera (Breuss, Lücking & Navarro) Sobreira, M. Cáceres & Lücking is proposed, based on Porina squamulifera Breuss, Lücking & Navarro, and the species is for the first time reported from Brazil. Keywords: lichens, molecular phylogeny, Flabelloporina, taxonomy.
|31849||Rundel P.W. (1978): The ecological role of secondary lichen substances. - Biochemical and Systematic Ecology, 6: 157–170.|
Considerable evidence, both direct and indirect, supports the hypothesis that many lichen secondary substances have significant ecological roles. Thus secondary chemistry may be important in determining the relative ecological success of individual lichen species and thus the structure and diversity of natural lichen communities. Primary ecological roles of secondary lichen substances can be classified into four groups: light-screen compounds, chemical weathering compounds, allelopathic compounds (including antibiotic compounds), and anti-herbivore defense compounds. Key Words: chemosystematics; herbivory; allelopathy; chemical weathering; depsides; depsidones; terpenes; pulvinic acid derivatives; anthraquinones; xanthones; usnic acid.
|31848||Salisbury G. (1978): Thelotremata Achariana et Feeana. - Nova Hedwigia, 89: 405–427.|
About 30 species of Thelotrema described by Acharius and Fée are revised and arranged in sections and groups based on the excipulum structure. The following are new: T. sect. Myriotrema (Fée) comb. nov., T. sect. Ascidium (Fée) comb. nov., T. acharianum nom. nov., and T. demersum (Müll. Arg.) comb. nov.
|31847||Llop E. (2007): Flora Liquenológica Ibérica 3: Lecanorales: Bacidiaceae I: Bacidia y Bacidina. - Sociedad Española de Liquenología, Barcelona, 49 pp.|
[in Spanish] monograph; Iberian Peninsula, Portugal, Spain
|31846||Egea J.M., Burgaz A.R., Llimona X. & López de Silanes M.E. [eds] (2004): Flora Liquenológica Ibérica 2: Ostropales: Graphidaceae, Solorinellaceae; Gyalectales: Gyalectaceae. - Sociedad Española de Liquenología, Murcia, 48 pp.|
[in Spanish] monograph, Iberian Peninsula, Portugal, Spain
|31845||Sheard J.W. (2010): The lichen genus Rinodina (Ach.) Gray (Lecanoromycetidae, Physciaceae) in North America, north of Mexico. - NRC Research Press, Ottawa, Ontario, Canada, 246 pp.|
Ninety-six Rinodina species are recorded for North America, including five species new to science: R. albertana, R. austroborealis, R. imshaugii, R. siouxiana, and R. wetmorei. One new combination is made, R. notabilis (= Buellia notabilis) and ten species are recorded from the continent for the first time: R. confragosula, R. fimbriata, R. freyi, R. intrusa, R. maculans, R. obnascens, R. notabilis, R. oleae, R. pycnocarpa, and R. sibirica . Rinodina "insularis" is excluded from the genus on the basis of its lecideine apothecial characters and ascus type, but no formal recombination has been made. Thirty species are placed into synonymy, including 13 North American taxa: Lecanora exigua f. pruinosa (= R. hallii), R. annulata (= R. subminuta), R. applanata (= R. maculans), R. arctica (= R. olivaceobrunnea), R. constrictula (= R. straussii), R. glauca (= R.jreyi), R. halei (= R. subminuta), R. hyperborea (= R. septentrionalis), R. iowensis (= R. cana), R. ochrocea (= R. destituta) , R. subsophodes (= R. ascociscana), R. thomsonii (= R. santaemonicae), and R. vezdae (= R. destituta). Other non-North American taxa placed into synonymy for the first time are R. erumpens (= R. subminuta); R. erysiphaea and R. guianensis (= R. colobinoides); R. consocians, R. exigua f. lecideina, and R. phaeostigmella (= R. metaboliza); R. exiguella and R. jenisejensis (= R. septentrionalis); R. haplosporoides, R. metabolica f. leioplaca, R. neglecta, and R. prasina (= R. maculans); R. parvula (= R. notabilis); R. sibirica f. aggregata and R. sophodiodes (= R. sibirica); R. subfusca (= R. laevigata); and R. succedens (= R. turfacea) . Thirty-six species are endemic to North America. These include the five new species listed above and R. adirondackii, R. ascociscana, R. athallina, R. aurantiaca, R. badiexcipula, R. bolanderi, R. boulderensis, R. brouardii, R. californiensis, R. chrysomelaena, R. coloradiana, R. endospora, R. grandilocularis, R. granuligera, R. hallii, R. herrei, R. innata, R. juniperina, R. lobulata, R. macrospora, R. marysvillensis, R. oregana, R. pachysperma, R. pacifica, R. papillata, R. perreagens, R. populicola, R. riparia, R. santae-monicae, R. verruciformis, and R. willeyii. All but six of these endemic species are exclusively corticolous. Rinodina xanthomelana is reported from Jamaica, the first record of this tropical species from the Western Hemisphere. A full discussion of the characters upon which the taxonomy of the genus is based is given, together with accounts of the limits of the genus and natural groups of species within the genus. Thirteen groups of species are listed based on spore type. The Physcia- and Physconia-types represent a continuum of structure, as the Physcia-type is always a developmental stage of the Physconia-type. The Milvina-type spore may be ancestral to them. The Pachysporaria-type is divided into two types, based on spore size and structure. The two resulting species groups are also distinguished by chemistry and type of vegetative propagule. Sixteen phytogeographic elements are recognized corresponding to phanerogam and other lichen distribution patterns in North America. Individual saxicolous species of all species groups have extensive distributions in other parts of the world, which may be indicative of an ancient origin. The calcareous Bicincta-type species group is of particular interest, since it is over-represented in the Colorado plateau fioristic element. These species are also found in arid areas of southern Europe and China and may have a very ancient origin, dating back to the Middle Triassic (240-230 Ma). Rinodina confragosula, from southern California, is a remarkable Southern Hemisphere disjunct that may have rafted from eastern Gondwanaland during the breakup of that supercontinent 160-100 Ma. Corticolous species generally have more restricted distributions, suggesting more recent origins. The majority of the Physcia-Physconia-group, the most common group of species, are corticolous and are most frequent in the temperate regions of the Northern Hemisphere. In contrast, the two Pachysporaria-groups, which are also primarily corticolous, have more southerly distributions, and some species are pantropical. Key words; lichenized Ascomycetes, new species, endemic species, taxonomy, phytogeography, paleogeography.
|31844||Pykälä J., Launis A. & Myllys L. (2019): Taxonomy of the Verrucaria kalenskyi – V. xyloxena species complex in Finland. - Nova Hedwigia, 109: 489–511.|
The taxonomy of species related to Verrucaria kalenskyi and V. xyloxena in Finland was studied using morphological characters and analyses of the ITS region. Nine species are accepted as part of the V. kalenskyi – V. xyloxena-complex: V. danica, V. inverecundula sp. nov., V. juankoskiensis sp. nov., V. kalenskyi, V. kiskoensis sp. nov., V. raesaenenii sp. nov., V. tallbackaensis sp. nov., V. aff. trabicola and V. xyloxena. The species group is characterised by relatively small perithecia and spores, a predominantly brown non-areolate thallus and their similarity in the nuclear ITS region. Only V. inverecundula differs from all other species in this group by a pale endolithic thallus and shorter involucrellum. All species are restricted to calcareous rocks and/or pebbles except V. xyloxena, which occurs mainly on calcareous soils, and V. aff. trabicola, which is epiphytic. Although morphologically similar V. modica sp.nov. is not part of the V. kalenskyi – V. xyloxenacomplex according to our ITS-genetree. In the ITS all other taxa of the complex form a strongly supported monophyletic clade. Verrucaria kalenskyi and V. xyloxena share almost identical ITS sequences, but are morphologically distinct. Most species treated in this study resemble V. kalenskyi but differ from that species in the following features: Verrucaria danica has a fimbriate prothallus, smaller perithecia and thinner involucrellum, V. juankoskiensis has broader spores, a poorly developed thallus and more sparsely occurring perithecia, V. kiskoensis has a thicker thallus and narrower spores, V. modica has a thicker involucrellum, V. raesaenenii has a fimbriate prothallus and perithecia often leaving pits in the substratum, and V. tallbackaensis has thalline covered, more sparsely occurring and slightly larger perithecia. Occurrences of V. xyloxena on calcareous pebbles are confirmed. Most studied species are very rare in Finland except for V. kalenskyi and V. xyloxena. Occurrences of V. danica, V. juankoskiensis, V. kalenskyi and V. raesaenenii are also confirmed from Norway. Verrucaria amylacea and V. anceps are excluded from the Finnish lichen biota. A lectotype is selected for V. danica. Key words: calcareous rocks, ITS, lichen, Norway, rarity.
|31843||Habib K. & Khalid A.N. (2019): New records of lichens from the State of Azad Jammu and Kashmir, Pakistan corroborated by ITS sequences. - Nova Hedwigia, 109: 457–473.|
During a survey of the lichens in the state of Azad Jammu and Kashmir, many specimens were collected from Peer Chinasi, district Muzaffarabad and characterized using morpho-anatomical, molecular and spot test methods. This yielded two new records for Pakistan, namely Acarospora badiofusca, and Peltigera didactyla, while Punctelia ruderata is taxonomically corrected as it was previously misidentified from Pakistan as Punctelia rudecta. Brief descriptions and phylogenetic analyses of the taxa are given. Key words: Additions; diversity; taxonomic correction.
|31842||Riemenschneider M. (1956): Vergleichende Vegetationsstudien über die Heidewiesen im Isarbereich. - Berichte der Bayerischen Botanischen Gesellschaft, 31: 75–120.|
|31841||Wiedmann W. (1953): Die Trockenfasen zwischen Würm- und Ammersee. - Berichte der Bayerischen Botanischen Gesellschaft, 30: 126–162.|
|31840||Geissler P. (1977): Zur Moos- und Flechtenflora Nordgriechenlands. - Bauhinia, 6(1): 189–213.|
A list of the lichens and bryophytes collected during the excursion of the Botanical Institute of the University of Basle to Mt. Olympos, Voras Mts. and Rhodope Mts. is given and compared with reports from Bulgaria and Greece. 44 species are apparently new to Greece.
|31839||Zoller H., Geissler P. & Athanasiadis N. (1977): Beiträge zur Kenntnis der Wälder, Moos- und Flechtenassoziationen in den Gebirgen Nordgriechenlands. - Bauhinia, 6(1): 215–255.|
|31838||Neuwirth G. (2000): Untersuchungen zur Kenntnis der epilithischen Flechtenflora im Stadtgebiet von Ried im Innkreis (Oberösterreich). - Österreichische Zeitschrift für Pilzkunde, 9: 1–10.|
After first studies on the lichenflora in Ried im Innkreis (Upper Austria) (NEUWIRTH 1998) the investigations were continued in 1999. Central interest was the registration of epilithic species. A checklist of all current lichen species in the urban area of Ried im Innkreis is presented. Key words: Epilithic lichens. - Lichenflora of Ried, Upper Austria.
|31837||Dierschke H. (1986): Botanische Exkursion ins Hannoversche Wendland. Bericht über eine Exkursion anläßlich der Jahrestagung der Floristisch-soziologischen Arbeitsgemeinschaft in Lüneburg am 25.06.1983. - Tuexenia, 6: 431–444.|
summary of a botanical excursion, phytosociology
|31836||Braun A. (1837): Wanderungen nach den Gränzbezirken der Flora von Baden. - Flora (Regensburg), 17: 65–75.|
|31835||Haupt W. (1985): Die aktuelle Vegetation der östlichen Lechtaler Alpen: II. Strauch-, Fels-, Schutt-, Schneeboden- und Feuchtbiotopgesellschaften. - Veröffentlichungen des Tiroler Landesmuseum Ferdinandeum, 65: 13–57.|
phytosociology; high mountain communities
|31834||Korneck D. (1975): Beitrag zur Kenntnis mitteleuropäischer Felsgrus-Gesellschaften (Sedo-Scleranthetalia). - Mitteilungen der Floristisch-Soziologischen Arbeitsgemeinschaft, 18: 45–102.|
phytosociology, lichens included in relevés, especially species of Cladonia
|31833||McMullin R.T. (2019): New and interesting Canadian lichens and allied fungi II: Reports from British Columbia, New Brunswick, Nova Scotia, Nunavut, Prince Edward Island, Ontario, and Quebec. - Opuscula Philolichenum, 18: 396–419.|
Major range extensions for Canadian lichens and allied fungi are presented. Six species are reported for the first time from Canada: Chaenothecopsis lecanactidis, C. nigripunctata, Chrysothrix insulizans, Julella lactea, Parmotrema stuppeum, and Porina scabrida. New reports are made for the first time from six provinces and one territory: British Columbia (Bryoria furcellata, Chaenothecopsis lecanactidis, C. nigripunctata), New Brunswick (J. lactea), Nova Scotia (Bacidia polychroa, Chaenothecopsis tsugae, C. insulizans, Cladonia cryptochlorophaea, Diplotomma venustum, Herteliana schuyleriana, J. lactea, Lepraria hodkinsoniana, L. humida, L. oxybapha, Megalaria pulverea, Parmotrema stuppeum, Plectocarpon lichenum), Ontario (Chaenothecopsis consociata, P. stuppeum, Porina scabrida), Nunavut (Nephroma parile, Ochrolechia mahluensis), Prince Edward Island (Cladonia merochlorophaea, Lepraria eburnea, Physcia alnophila, Thelotrema suecicum, Trapeliopsis gelatinosa, Xylographa pallens) and Quebec (Japewia subaurifera). Parmelia fraudans is reported for the first time from southern Ontario, and five species are reported new to the Canadian Arctic Archipelago (B. furcellata, Icmadophila ericetorum, Parmeliopsis ambigua, P. hyperopta, Vulpicida pinastri). Keywords. – Algonquin Provincial Park, Arctic, biogeography, calicioids, Calvert Island, Kejimkujik National Park and National Historic Site, Kugluk/Bloody Falls Territorial Park, parc national de la Gaspésie, Sleeping Giant Provincial Park, Sylvia Grinnell Territorial Park.
|31832||Elix J.A. (2019): Notes on the genus Tetramelas (Caliciaceae, Ascomycota) in South America: Two new species from Peru, and a new combination. - Opuscula Philolichenum, 18: 390–395.|
Tetramelas peruviensis Elix and T. weberianus Elix are described as new to science from high altitudes in Peru. The new combination, T. coquimbensis (C.W. Dodge) Elix is proposed for Buellia coquimbensis and a key to the eight species of Tetramelas present in South America is given. Keywords. – Biodiversity, fungal systematics, taxonomy.
|31831||Masumoto H., Ohmura Y. & Degawa Y. (2019): Lichenomphalia meridionalis (Hygrophoraceae, lichenized Basidiomycota) new to Asia. - Opuscula Philolichenum, 18: 379–389.|
Lichenomphalia meridionalis, a lichenized basidiomycete, is reported as new to Asia. It was found on Andosols along a road bank at elevations from 1,200 to 1,900 meters in Nagano and Yamanashi Prefectures, central Japan. Analyses of nrLSU sequence data showed that L. meridionalis formed a monophyletic clade together with Japanese and Spanish samples, and the close relationship with L. grisella was also confirmed by nrLSU, ITS1, and ITS2. Lichenomphalia meridionalis has been known exclusively from Mediterranean countries, but our results show that it could be much more widely distributed than previously thought. Keywords. – Basidiolichen, Coccomyxa, distribution, Japan, molecular phylogeny, taxonomy.
|31830||Kantvilas G. & Jarman S.J. (1991): Lichens and bryophytes of the Tasmanian world heritage area I. Mount Sprent. - In: Banks M.R. et al. (eds), Aspects of Tasmanian Botany - a tribute to Winifred Curtis, p. 149–162, Royal Society of Tasmania, Hobart.|
Over 280 lichens and bryophytes were recorded during a botanical survey of Mount Sprent. The number of species is approximately twice that of the vascular species (136 species) and demonstrates the importance of lichens and bryophytes in assessing the botanical significance of the area. Six species, Catillaria contristans, Ochrolechia androgyna, Polychidium contortum, Thelotrema suecicum, Acromastigum verticale and Tylimanthus diversifolius are reported from Tasmania for the first time. Many of the species recorded are widespread in the high rainfall parts of Tasmania, but a significant number are confined mainly to the west. Lichen diversity is richest in subalpine and alpine heathland and on alpine rock outcrops, whilst bryophytes are most diverse in sheltered habitats such as young forest, scrub and amongst alpine rocks. Key Words: Lichens, bryophytes, Tasmania.
|31829||Thwaites G.H.K. (1877): Note on Lichens. - The Annals and Magazine of Natural History (London), ser. IV, 20: 386–388.|
|31828||Leighton W.A. (1872): Notulæ Lichenologicæ. No. XXXV. Recognitio Monographia Ramalinarum. Scripsit William Nylander, Caen, 1870. - The Annals and Magazine of Natural History (London), ser. IV, 9: 122–132.|
Summary (including identification key) and discussion of the monograph on Ramalina published by W. Nylander in Bulletin de la Societe Linnéenne de Normandie,' ser. 2. t. iv.
|31827||Leighton W.A. (1870): Notulæ Lichenologicæ. No. XXXIV. Notes on the Chemical Reaction in the British species of Pertusaria. - The Annals and Magazine of Natural History (London), ser. IV, 6: 473–474.|
|31826||Leighton W.A. (1870): Notulæ Lichenologicæ. No. XXXIII. - The Annals and Magazine of Natural History (London), ser. IV, 6: 249–250.|
Extraction and discussion of/on recent papers dealing with Peltula euploca. W. Nylander (Endocarpiscum quepinii) and F. Baglietto (Guepinella myriocarpa).
|31825||Leighton W.A. (1870): Notulæ Lichenologicæ. No. XXXII. - The Annals and Magazine of Natural History (London), ser. IV, 5: 123–127.|
English translation of the identification key on Lecidea (Bacidia) with multiseptate ascospores from the Stizenberger's " Monograph of Lecidea sabuletorum Floerke, and the Lichens allied to it" published in 'Acta Acad. Nat. Curios.' vol. xxxiv.
|31824||Leighton W.A. (1870): Notulæ Lichenologicæ. No. XXXI. On certain new characters in the species of the genera Nephroma (Ach.) and Nephromium, NyI.. - The Annals and Magazine of Natural History (London), ser. IV, 5: 37–41.|
|31823||Leighton W.A. (1869): Notulæ Lichenologicæ. No. XXIX. - The Annals and Magazine of Natural History (London), ser. IV, 3: 420–423.|
Treatment on and chemical testing of specimens from the 1-st Fascicle of the Cladoniae exsiccatae Bavaria by H. Rehm.
|31822||Leighton W.A. (1869): Notulæ Lichenologicæ. No. XXVIII. - The Annals and Magazine of Natural History (London), ser. IV, 3: 351–352.|
Extraction of the paper by W. Nylander on cephalodia published in ' Flora ' of Sept. 30, 1868.
|31821||Leighton W.A. (1869): Notulæ Lichenologicæ. No. XXVII. On the Germination of the Spores of Varicellaria. By Dr. W. Nylander. - The Annals and Magazine of Natural History (London), ser. IV, 3: 264–270.|
Extract of two papers by W. Nylander published in Flora, Aug. 30, 1868, and Nov. 8, 1868, pertaining lichen additions to the British Isles.
|31820||Leighton W.A. (1869): Notulæ Lichenologicæ. No. XXVI. On the change of the Gonidia of Lichens into Zoospores. By MM. A. Famintzin and J. Boranetzky. - The Annals and Magazine of Natural History (London), ser. IV, 3: 102–106.|
English translation of the paper published in 'Ann. Sc. Nat.' ser. 5. vol. viii.
|31819||Leighton W.A. (1868): Notulæ Lichenologicæ. No. XXV. On the Germination of the Spores of Varicellaria. By Dr. W. Nylander. - The Annals and Magazine of Natural History (London), ser. IV, 2: 446–447.|
English translation of the paper by W. Nylander published in the journal Flora, Sept. 10, 1868.
|31818||Leighton W.A. (1868): Notulæ Lichenologicæ. No. XXIV. On the Gonimic Evolution of the Collemacei. By Dr. W. Nylander. - The Annals and Magazine of Natural History (London), ser. IV, 2: 370–371.|
English translation of the paper published by W. Nylander in ' Flora,' Sept, 10, 1868.
|31817||Leighton W.A. (1868): Notulæ Lichenologicæ. No. XXIII. - The Annals and Magazine of Natural History (London), ser. IV, 2: 245–249.|
Extraction of Dr. W. Nylander's paper on Lichens in the Luxembourg Gardens published in the 'Bulletin of the Botanical Society of France', vol. XIII.
|31816||Karsten H. (1867): On the fecundation of the fungi. - The Annals and Magazine of Natural History (London), ser. III, 19(110): 73–80.|
Translation into English by W. S. Dallas of the German original published in the journal "Botanischen Untersuchungen", 1866, pp. 160-169.
|31815||Leighton W.A. (1867): Notulæ Lichenologicæ. No. XVIII. - The Annals and Magazine of Natural History (London), ser. III, 20: 439–442.|
Summary of the monograph by Th. M. Fries: 'Lichenes Spitsbergenses'.
|31814||Leighton W.A. (1867): Notulæ Lichenologicæ. No. XVII. - The Annals and Magazine of Natural History (London), ser. III, 20: 256–260.|
On new British Lichens (including Ireland) described by W. Nylander in three preceding papers in the journal Flora.
|31813||Leighton W.A. (1867): Notulæ Lichenologicæ. No. XVI. - The Annals and Magazine of Natural History (London), ser. III, 20: 106–109.|
Extract and translation of the part "Verrucarriæ quadriloculares" of the work by S. Garovaglio "Tentamen Dispositionis Methodicæ Lichenum".
|31812||Leighton W.A. (1866): Notulæ Lichenologicæ. No. XI. On the examination and rearrangement of the Cladoniei, as tested by hydrate of potash. - The Annals and Magazine of Natural History (London), ser. III, 18: 405–420.|
|31811||Leighton W.A. (1866): Notulæ Lichenologicæ. No. X. Cladoniæ Acharianæ. - The Annals and Magazine of Natural History (London), ser. III, 18: 306–321.|
Summary of the monograph by E. Coemans on Cladonia from the herbarium of Acharius.
|31810||Leighton W.A. (1866): Notulæ Lichenologicæ. No. IX. - The Annals and Magazine of Natural History (London), ser. III, 18: 169–171.|
English summary of paper published by W. Nylander in Flora on new chemical tests for lichens.
|31809||Leighton W.A. (1866): Notulæ Lichenologicæ. No. VIII. - The Annals and Magazine of Natural History (London), ser. III, 18: 103–106.|
Extracts of Nylanders papers published in Flora referring to New British lichens, cephalodia, gonimia, leptogonimia, gonimidia, division Cladonia and Cladina, spermogonia and usage of iodine.
|31808||Leighton W.A. (1866): Notulæ Lichenologicæ. No. VII. - The Annals and Magazine of Natural History (London), ser. III, 18: 23–24.|
Summary on Thelocarpon described by Nylander in Flora and discussion on British species
|31807||Leighton W.A. (1866): Notulæ Lichenologicæ. No. VI. - The Annals and Magazine of Natural History (London), ser. III, 17: 437–444.|
English translation of the monograph by E. Stizenberger "Conspectus specierum saxicolarum generis Opegraphæ".
|31806||Leighton W.A. (1866): Notulæ Lichenologicæ. No. V. - The Annals and Magazine of Natural History (London), ser. III, 17: 348–351.|
On new British Lichens described by W. Nylander in three preceding papers in the journal Flora.
|31805||Leighton W.A. (1866): Notulæ Lichenologicæ. No. IV. - The Annals and Magazine of Natural History (London), ser. III, 17: 270–274.|
English summary of the paper by G. Gibbelli "Sugli Organi Reproduttori del Genera Verrucaria".
|31804||Anonymus [Leighton W.A.] (1866): Reaction of Iodine in lichens. - The Annals and Magazine of Natural History (London), ser. III, 17: 190.|
Corrigenda to Notulæ Lichenologicæ. No. I
|31803||Leighton W.A. (1866): Notulæ Lichenologicæ. No. III. - The Annals and Magazine of Natural History (London), ser. III, 17: 183–190.|
Extract and translation of part of the work by S. Garovaglio "Tentamen Dispositionis Methodicæ Lichenum in Longobardia nascentium": i.e. Species of Verrucaria found in Lombardy.
|31802||Leighton W.A. (1866): Notulæ Lichenologicæ. No. II. - The Annals and Magazine of Natural History (London), ser. III, 17: 59–65.|
On new British Lichens described by W. Nylander in three preceding papers in the journal Flora.
|31801||Leighton W.A. (1866): Notulæ Lichenologicæ. No. I. On the reaction of Iodine in lichens and fungi. - The Annals and Magazine of Natural History (London), ser. III, 17: 58–59.|
|31800||Leighton W.A. (1865): Notes on British Lichens. - The Annals and Magazine of Natural History (London), ser. III, 16: 8–12 [+ pt. IV].|
Great Britain; Ireland; cyanolichens; Thermutis, Spilonema, Ephebe.
|31799||Leighton W.A. (1865): New British Lichens. - The Annals and Magazine of Natural History (London), ser. III, 15: 233.|
Short note - correspondance.
|31798||Leighton W.A. (1864): New British Lichens. - The Annals and Magazine of Natural History (London), ser. III, 14: 401–405 [+ pt. IX].|
Great Britain; Thelocarpon laureri, Lecidea caradocensis sp. nov.
|31797||Karsten H. (1861): On the sexual life of plants, and parthenogenesis. - The Annals and Magazine of Natural History (London), ser. III, 8: 81–99 & 200–209 [+ Pts. IXa, X & XI].|
Translation by J. T. Arlidge from the German original. A note on Coenogonium at p. 203–209.
|31796||Zakeri Z., Sipman H.J.M., Paukov A. & Otte V. (2019): Validation of the typifications of Aspiciliella cupreoglauca and Aspicilia reticulata. - Lichenologist, 51(5), 493-493.|
In a recently published paper, ‘Neotypification of Aspiciliella cupreoglauca and lectotypification and synonymization of Aspicilia reticulata (Megasporaceae, Ascomycota)’ (Zakeri et al. 2019), we designated a neotype for Aspiciliella cupreoglauca and a lectotype for Aspicilia reti- culata. This paper was published in 2019, but these designations were not valid because from 1 January 2019 onwards, typifications have to be accompanied by a registration number (Turland et al. 2018). We therefore validate these typifications here, by providing the necessary registration numbers: Aspiciliella cupreoglauca (B. de Lesd.) Zakeri, Divakar & Otte, Lecanora reticulata (J. Steiner) J. Steiner
|31795||Kantvilas G. & Coppins B.J. (2019): Studies on Micarea in Australasia II. A synopsis of the genus in Tasmania, with the description of ten new species. - Lichenologist, 51(5), 431-481.|
Thirty-five species of Micarea are recorded for Tasmania. Ten are described as new to sci- ence: M. ceracea Coppins & Kantvilas (also known from Victoria and New South Wales), characterized by a thallus containing perlatolic and didymic acids, pallid apothecia and 3(–4)-septate ascospores, 10–21 × 3·5–6 μm; M. cinereopallida Coppins & Kantvilas (also known from Chile), with a granular to coralloid, goniocyst-like thallus containing superlatolic acid, pallid to piebald apothecia and (0–)1- septate ascospores, 8–15 × 2·5–5 μm; M. micromelaena Kantvilas & Coppins, similar to the widespread M. melaena but with markedly smaller, 0–1-septate ascospores, 8–12·5 × 2·5–4 μm; M. oreina Kantvilas & Coppins, characterized by a thallus of globose areoles containing gyrophoric acid, black, subglobose apothecia, and 1-septate ascospores, 11–16·5 × 4·5–6·5 μm; M. pallida Coppins & Kantvilas, similar to M. ceracea but distinguished by the presence of porphyrilic acid and relatively small, 3-septate ascos- pores, 9·5–15 × 2·5–4 μm; M. prasinastra Coppins & Kantvilas (also known from New Zealand), a mem- ber of the M. prasina group with a finely granular-sorediose thallus containing gyrophoric acid, unpigmented apothecia and (0–)1-septate ascospores, 7–11·5 × 1·8–3·5 μm; M. rubiginosa Coppins & Kantvilas (also known from Chile), likewise allied to M. prasina but with apothecia containing Rubella-orange pigment and ascospores 0–1-septate, 9·5–17 × 3·5–5·5 μm; M. sandyana Kantvilas, related to M. ternaria (Nyl.) Vĕzda but differing by smaller ascospores, 7–13·5 × 3·5–6 μm; M. saxicola Coppins & Kantvilas, characterized by a relatively thick, grey-brown, areolate thallus, convex, black apothecia and 0(–1)-septate ascospores, 7–18 × 4·5–7 μm; and M. tubaeformis Coppins & Kantvilas, related to M. flagellispora and with filiform ascospores, 45–100 × 1–2 μm, but differing by containing 2′-O-methylperlatolic acid and having funnel-shaped pycnidia. Ten species of Micarea are reported for Tasmania for the first time: M. almbornii Coppins, M. argopsinosa P. M. McCarthy & Elix, M. byssa- cea (Th. Fr.) Czarnota et al., M. contexta Hedl., M. farinosa Coppins & Aptroot, M. humilis P. M. McCarthy & Elix, M. incrassata Hedl., M. myriocarpa V. Wirth & Vězda ex Coppins, M. nowakii Czarnota & Coppins and M. pseudocoppinsii Brand et al. Also recorded for the first time for Victoria are M. alabastrites (Nyl.) Coppins and M. cinerea (Schaer.) Hedl. A key to Micarea-like lichens in Tasmania, which includes Micarea itself as well as Brianaria, Psilolechia and Leimonis, is presented. Leimonis erratica (Körb.) R. C. Harris & Lendemer and Brianaria tuberculata (Sommerf.) S. Ekman & M. Svensson are recorded for Tasmania for the first time. Australia, Chile, indicator species, lichens, pigments, Pilocarpaceae, taxonomy
|31794||Fryday A.M., Elvebakk A., Anderson F.L, & Gagnon J.Y. (2019): Psoroma nivale (Pannariaceae, lichenized Ascomycota) a new species with dark, elongate squamules and bacilliform ascospores from arctic Québec, Canada . - Lichenologist, 51(5), 419-429.|
The new species Psoroma nivale is described from an area of late snow-lie in the Keglo Bay area on the eastern side of Ungava Bay, northern Québec, Canada. It is superficially similar to P. hypnorum but has a dark, brownish black thallus colour without reddish hues, much-branched, pro- liferating squamules, thick paraphyses, distinct but inconspicuous IKI+ ascus tube structures, and char- acteristic elongate, bacilliform, often asymmetrical ascospores. The new species is compared with possible related taxa and its systematic position discussed. A key to the species of pannarioid lichens reported from arctic areas of North America is also provided. identification key, late snow-lie, Nunavik, perispore, taxonomy, variable ascus structure
|31793||Ertz D., Sanderson N., Coppins B.J., Klepsland J.T. & Frisch A. (2019): Opegrapha multipuncta and Schismatomma quercicola (Arthoniomycetes) belong to the Lecanoromycetes. - Lichenologist, 51(5), 395-405.|
Opegrapha multipuncta and Schismatomma quercicola are two sterile European lichens repro- ducing only vegetatively by means of soredia. RAxML and Bayesian analyses of newly generated sequence data from the mitochondrial ribosomal RNA small subunit provide clear evidence that these two species do not belong to the Arthoniomycetes, but to the Lecanoromycetes. In our phylogenetic analyses, O. multipuncta is nested in the genus Porina (Porinaceae) as sister to P. austroatlantica, while S. quercicola is nested in the genus Schizotrema (Graphidaceae) as sister to S. zebrinum. The following new combinations are introduced: Porina multipuncta (Coppins & P. James) Ertz, Coppins & Frisch and Schizotrema quercicola (Coppins & P. James) Ertz, Frisch & San- derson. Schizotrema quercicola represents the first record of the genus Schizotrema for Europe and the first sorediate member in this genus. The species is newly recorded from Norway. The lichenicolous habit of Arthonia invadens is confirmed. Keywords: Graphidaceae, lichens, Ostropales, phylogeny, Porinaceae, Schizotrema, taxonomy.
|31792||Chesnokov S.V., Prokopiev I.A., Frolov I.V., Konoreva L.A., Evdokimov G.S. & Shavarda A.L. (2019): Arctoparmelia collatolica (Parmeliaceae), a new species from Siberia, Russia. - Lichenologist, 51(5), 407-417.|
Arctoparmelia collatolica is described as a species new to science based on morphological, chemical and molecular data. The species is similar to the usnic acid-deficient chemotype of A. centri- fuga but differs in the grey-brown to brown upper surface in the central part of the thallus and ivory white to pale brown rhizines. The species contains collatolic acid and its derivatives. Seven secondary lichen substances are reported as new for the genus Arctoparmelia. A key to Arctoparmelia taxa is provided. collatolic acid, lichens, metabolite profiling, taxonomy, Trans-Baikal Territory, usnic acid, Yakutia
|31791||Beckett R.P., Solhaug K.A., Gauslaa Y. & Minibayeva F. (2019): Improved photoprotection in melanized lichens is a result of fungal solar radiation screening rather than photobiont acclimation. - Lichenologist, 51(5), 483-491.|
Some lichenized ascomycetes synthesize melanic pigments in their upper cortices when exposed to ultraviolet light and high solar radiation. Our previous work showed that melanized chloro- and cyanolichens from both high light and more shaded habitats were less photoinhibited than pale ones during controlled exposure to high light. However, protection from high light might not necessarily be the consequence of just sun-screening by melanins in upper cortices. An inherent problem with earlier experiments was that the photobionts of melanized thalli might have received more light than those beneath pale cortices. The photobionts may therefore have possessed other light-induced tolerance mechanisms that gave protection from photoinhibition. Here, we aimed to test directly the inherent tol- erance of lichen photobionts to photoinhibition. The method involved removing the lower cortices and medullas of three lichen species, Cetraria islandica, Crocodia aurata and Lobaria pulmonaria, and exposing the photobionts to light from below. Results confirmed that most of the improvement in tolerance to photoinhibition in melanized lichens derives from fungal melanization in the upper cortex. However, in C. islandica, the most heavily melanized species, algae from melanized thalli possessed a significantly higher tolerance to photoinhibition than those from pale thalli, suggesting that photobionts can also adapt themselves to high light. acclimation, chlorophyll fluorescence, desiccation, lichens, melanin, photoinhibition, UV-B
|31790||Kuhn V., Geisberger T., Huber C., Beck A. & Eisenreich W. (2019): A facile in vivo procedure to analyze metabolic pathways in intact lichens. - New Phytologist, 224: 1657–1667.|
Lichen secondary metabolites show important biological activities as well as pharmaceutical and chemotaxonomic potential. In order to utilize such substances of interest, detailed knowledge of their biosynthetic pathways is essential. 13CO2-pulse/chase experiments using intact thalli of the lichen Usnea dasopoga resulted in multiple 13C-labeled isotopologs in amino acids, but not in the dibenzofuran derivative usnic acid – one of the best-studied lichen metabolites, with considerable and renewed interest for pharmaceutical and lifestyle applications. Spraying an aqueous solution of [U-13C6]glucose onto the thalli of U. dasopoga afforded a specific mixture of multiple 13C-labeled isotopologs in usnic acid. One- and two-dimensional NMR analysis of the crude lichen extract corroborated the polyketide biosynthetic pathway via methylphloroacetophenone but not via phloroacetophenone. With usnic acid as an exemplar, we provide proof-of-principle experiments that can be used in general to study metabolic pathways and fluxes in intact lichens. Key words: biosynthesis, 13CO2, lichen, methylphloroacetophenone, polyketide pathway, [U-13C6]glucose, Usnea dasopoga, Usnic acid.
|31789||De Guidi G., Brighenti F., Carnemolla F., Cataldo D. & Piro A.G. (2019): New dating of rapid vertical deformation of Santa Tecla Fault scarps (Mt. Etna volcano, Sicily) by lichenometry method. - Quaternary International, 525: 78–88.|
The eastern slope of Mt. Etna is characterised by shallow seismicity originating from normal-oblique faulting, Timpe Fault System, related to WNW-ESE regional extension. Recent research has demonstrated that in the fault population of Mt. Etna's eastern flank the minimum earthquake magnitude that will have a ground rupture effect is ca. 2.5. This system is characterised by high frequency seismic activity, due to thinned seismogenic crustal layer. This characteristic, together with the high density of the fault segments, does not always for identification of the segments responsible for the earthquake. The earthquakes, affecting the medium-lower eastern flank, have been historically reconstructed by macroseismic analysis and reported in a macroseismic database, and in recent decades by instrumental seismic registration, which provide the seismological parameters capable of evaluating focal mechanism, hypocentre and relative algorithms related to geometric parameters which control the growth of fault segments. In this paper, we present a methodology to evaluate the age of the rapid exhumation of the free-face fault plane of the NNW-SSE oriented normal fault segment named S. Tecla (Timpe Fault System). It consists of the measurement of the thalli species (Lichenometry method) in order to evaluate the parameters which characterise their growth. The seismic history of the S. Tecla Fault indicates eight certain events from 1865 to 2005 with 3.4 ÷ 4.7 Magnitude (De Guidi et al., 2012 and reference therein). We found evidence of two different recent rapid vertical deformation events at the base of the S. Tecla fault escarpment, the oldest 20 m long and 0.25 m in height, and the youngest with a 0.02 m high nude surface exposed. We have observed that there are thalli of Xanthoparmelia conspersa (Ehrh. Ex Ach.) Hale, colonizing part of the nude surface on the escarpment. The results highlight that the oldest thalli was dated at 43.7 years old, showing that rapid vertical deformation generated the surface where the thalli, after 4 years, took root. The displacement of this surface could be related to the seismic events occurring on 3rd August 1973 (3.8 M) in S. M. Ammalati area probably accompanied by intense post seismic deformation. The second and last event could be attributable to a 3.1 M seismic event occurring on 25th September 2014 (ISIDe, 2016). Keywords: Coseismic exhumation; Free-face fault plane; Lichenometry.
|31788||Rampazzi L. (2019): Calcium oxalate films on works of art: A review. - Journal of Cultural Heritage, 40: 195–214.|
This work presents a review of the findings of calcium oxalate films, a widespread decay phenomenon recovered on stone and other substrates (mortars, wall and easel paintings, written materials, glass). The specific attention given to the issue in the 1990s has decreased, although articles have documented films until the present day. The review provides critical insights into the literature, focusing on the general properties of films, numerous case studies, the instrumental techniques used to characterise and datefilms, insights into the possible origin of the decay phenomenon, and an evaluation of the protective role of calcium oxalate layers. The practice of creating artificial films on stone surfaces for protective purposes is also considered. An evaluation of the literature over the last few decades shows various open issues. The origin is still up for debate, and the issue is still of major concern to conservation scientists, conservators, and restorers. The scientific community tends to attribute a biological origin to these films,however further studies are needed to study exactly how they form, focusing for example on simulation tests of the chemical and atmospheric pathway. How these films protect the artwork in terms of the mechanical properties of the surface underneath deserves more study. This would also help restorers to reproduce the calcium oxalate. The bibliography highlights the prevalence of calcium oxalate findings in the Mediterranean Basin and the formation of the least stable form, i.e. weddellite, which has yet to be explained. Keywords: Calcium oxalate films; Cultural heritage; Decay; Protective effect; Weddellite; Whewellite.
|31787||Lucadamo L., Gallo L. & Corapi A. (2019): Power plants: The need for effective bio-monitoring of the contribution of bio(wood) fuelled stations to atmospheric contamination. - Atmospheric Pollution Research, 10: 2040–2052.|
[Review article] Wood resources will increase their share of the world energy market in the next 20 years due to state subsidies and increased global pellet exportation. Although environmental impacts of wood combustion are worse than those of combustion of coal, a literature review revealed very few works investigating the effects of Biomass Power Plants (BPPs). Coal Power Plants made a significant contribution to atmospheric enrichment in Cr, Pb, Ni, Zn, As, Mn and V. Regarding Biomass Power Facilities (BPFs), waste-to-energy plant emissions were traced by Hg, Mn, Cu, As, V and Fe monitoring and the lichen biodiversity index. Works investigating wood-powered stations showed that emissions are consistent with the geochemical properties of substrates where forestall resources were grown (Al, Ti, V and Co enrichment), as well as the combustion of timber from both Short Rotation Forestries/Coppices and chemically treated demolition wood (Cu, Mn, Cr, As, Sb). Overall Cu, due to frequent detection within contaminants, may be considered a potential tracer of atmospheric emissions of BPFs. Two were the most important results of the review: a) important factors affecting the studies’ outcomes were stack height of the facility, wind speed and direction, monitoring stations density and distance from the point sources, b) improvements in the accurate detection of contamination levels/extent of the affected area and the association between facilities and spatial trend of atmospheric impacts can be obtained by the use of an internal control group, an a posteriori null hypothesis and quantitative relationships between winds and toxic substances. Keywords: Coal power plants; Biomass power plants; Biomonitors; Copper; Monitoring conditions; Better experimental design.
|31786||Masumoto H. & Degawa Y. (2019): The effect of surface sterilization and the type of sterilizer on the genus composition of lichen-inhabiting fungi with notes on some frequently isolated genera. - Mycoscience , 60: 331–342.|
Surface sterilization is generally used for isolating lichen-inhabiting fungi as well as endophytic fungi, and ethanol and sodium hypochlorite are commonly used as the sterilizer. However, there are few studies on whether the type of chemicals used for surface sterilization affects the isolation results of lichen-inhabiting fungi. In this study, the genus composition of the lichen-inhabiting fungi of two lichen species (Flavoparmelia caperata and Peltigera dilacerata) were investigated 1) to reveal how the isolation result changes before and after surface sterilization and 2) to examine the effect of the sterilizer (ethanol, sodium hypochlorite, or hydrogen peroxide) on the composition of the isolated fungi. We isolated 652 non-lichenized fungal isolates from the two-lichen species and identified 84 genera. It was found that 1) every sterilizer effectively removed the fungi on the lichen surface and that 2) the composition of isolated fungi varied depending on the type of surface sterilizer. It was also shown that, such as the genus Sarea, there were some lichen-inhabiting fungi which could not be isolated at all by surface sterilization with ethanol or sodium hypochlorite, which are commonly used. In addition, the genus Virgaria was detected as lichen-inhabiting fungi for the first time. Our results suggest that single surface sterilization alone may underestimate the genus composition of lichen-inhabiting fungi. Keywords: Endophyte; Endolichenic fungi; Isolation method; Nemania; Sarea; Virgaria.
|31785||Silva J.A., Nielsen S.E., Lamb C.T., Hague C. & Boutin S. (2019): Modelling lichen abundance for woodland caribou in a fire-driven boreal landscape. - Forests, 10: 962 [23 p.].|
Woodland caribou (Rangifer tarandus caribou) are reliant on Cladonia spp. ground lichens as a major component of their diet and lichen abundance could be an important indicator of habitat quality, particularly in winter. The boreal forest is typified by large, stand-replacing forest fires that consume ground lichens, which take decades to recover. The large spatial extent of caribou ranges and the mosaic of lichen availability created by fires make it challenging to track the abundance of ground lichens. Researchers have developed various techniques to map lichens across northern boreal and tundra landscapes, but it remains unclear which techniques are best suited for use in the continuous boreal forest, where many of the conflicts amongst caribou and human activities are most acute. In this study, we propose a two-stage regression modelling approach to map the abundance (biomass, kg/ha) of Cladonia spp. ground lichens in the boreal forest. Our study was conducted in Woodland Caribou Provincial Park, a wilderness-class protected area in northwestern Ontario, Canada. We used field sampling to characterize lichen abundance in 109 upland forest stands across the local time-since-fire continuum (2–119 years-since-fire). We then used generalized linear models to relate lichen presence and lichen abundance to forest structure, topographic and remote sensing attributes. Model selection indicated ground lichens were best predicted by ecosite, time-since-fire, and canopy closure. Lichen abundance was very low (<1000 kg/ha) across the time-since-fire continuum in upland forest stands with dense tree cover. Conversely, lichen abundance increased steadily across the time-since-fire continuum in upland forest stands with sparse tree cover, exceeding 3000 kg/ha in mature stands. We interpolated the best lichen presence and lichen abundance models to create spatial layers and combined them to generate a map that provides a reasonable estimation of lichen biomass (R2 = 0.39) for our study area. We encourage researchers and managers to use our method as a basic framework to map the abundance of ground lichens across fire-prone, boreal caribou ranges. Mapping lichens will aid in the identification of suitable habitat and can be used in planning to ensure habitat is maintained in adequate supply in areas with multiple land-use objectives. We also encourage the use of lichen abundance maps to investigate questions that improve our understanding of caribou ecology. Keywords: forage; forest fire; Landsat; lichen; spatial modelling; woodland caribou.
|31784||Mohl H. von (1858): On the investigation of vegetable tissue by the aid of polarized light. - The Annals and Magazine of Natural History (London), ser. III, 1: 198–209 & 263–275.|
|31783||Radlkofer L. (1857): The Process of Fecundation in the Vegetable Kingdom, and its relation to that in the Animal Kingdom. - The Annals and Magazine of Natural History (London), ser. II, 20: 241–262, 344–365 & 439–459.|
Part on lichens at p. 248–252
|31782||Leighton W.A. (1857): New British lichens. - The Annals and Magazine of Natural History (London), ser. II, 19: 129–133 [+ 1 pt.].|
Great Britain, Ireland; Opegrapha anomala sp. nov., Coniocybe citrina sp. nov., Sphinctrina septata sp. nov.
|31781||Leighton W.A. (1856): New British Arthoniae. - The Annals and Magazine of Natural History (London), ser. II, 18: 330–333 [+ 1 pt.].|
Great Britain; Arthoniaceae; Arthonia vinosa sp. nov., A. aspersa sp. nov.
|31780||Leighton W.A. (1856): Monograph of the British Umbilicariae. - The Annals and Magazine of Natural History (London), ser. II, 18(106): 273–297 [+ 1 pt.].|
Great Britain; Umbilicariaceae
|31779||Balfour [J.H.] (1856): Notice of the Flora of the Cumbrae Islands. - The Annals and Magazine of Natural History (London), ser. II, 18: 67–73.|
Extract from the presentation on the session of the Botanical Society of Edinburgh taken in April 10th. List of lichens and discussion on them (p. 69-71) provided by Mr. H. MacMillan.
|31778||Lendemer J.C. (2019): Recent literature on lichens—255. - Bryologist, 122(4): 625–635.|
|31777||Lauriault P. & Wiersma Y.F. (2019): Reducing the rate of false absences of cryptic species in inventory and sampling work. - Bryologist, 122(4): 578–585.|
When doing inventory for cryptic and rare species, it can be difficult to determine with great confidence that a sampled area has no occurrences of the target species. Boreal Felt lichen (Erioderma pedicellatum (Hue.) P.M.Jørg.) and Vole Ears lichen (Erioderma mollissimum (G.Sampaio) Du Rietz) are two rare species of cyanolichens that have several populations in North America, including Nova Scotia, Newfoundland and Alaska. These lichens occur in small numbers and are difficult to spot with the untrained eye; therefore, they are likely to be overlooked in standard sampling protocols. In this paper, we develop and test a sampling method that enables us to determine with confidence that a sample site has zero occurrences of the species of interest within a defined area (i.e., an absence of detections indicates an absence of the target lichen species and is not a false absence). On 50 sites, we randomly assigned ‘‘decoy lichen’’ treatments (small pieces of felt that resemble boreal felt lichen) and three seekers with different survey experience and time limits carried out their respective searches for these decoys. This sampling method is very applicable to sessile, rare organisms, such as lichens and mosses. Using circular sample plots of 5m in radius, we determined that 20 minutes is the required search effort to detect at least one rare and cryptic lichen individuals within the plot. We also found that decoy density on a plot had a strong influence on decoy detectability, regardless of seeker experience. Detection reliability was greater for the two seekers with prior cryptic survey experience compared to the seeker with none. High confidence in the ‘‘true absence’’ rate is useful for comparative studies of optimal and non-optimal habitat, and the methods here are useful to estimate detection rates for other cryptic organisms.
|31776||Guttová A., Halda J.P. & Palice Z. (2019): Lišajníky Muránskej planiny V. - Bull. Slov. Bol. Spoločn., 41(2): 159–186.|
We present occurrences of 94 lichen species recorded during our field work in va rious sites of the National park Muránska planina and we comment on noteworthy findings. The following 25 species have not been reported from Muránska planina so far: Acrocordia cono idea, Anema decipiens, Arthonia leucopellaea, Bacidia laurocerasi, Biatorella hemisphaerica. Calidum viride, Cladonia norvegica, Farnoldia hypocrita, Hymenelia epulotica, Lecanactis abietina, Lecanora albella, Leptogium turgidum, Mycobilimbia hypnorum, Oxneria huculica, Parabagliettoa cyanea, Peltigera elisabethae, P. lepidophora, P. neopolydactyla, Pertusaria ophthalmiza, Polyblastia albida, Pycnora leucococca, Ramalina capitata, Rinodina conra- dii, Solorina spongiosa and Thelopsis flaveola. Several species are currently rarely recorded in Slovakia, due to their peculiar requirements for biotope and climatic forest conditions, e. g. the epiphytes Alectoria sarmentosa, Arthonia leucopellaea, Cladonia norvegica, Gyalecta truncigena, Lecanactis abietina, Leptogium Saturninum, L. hildenbrandii, Menegazzia terebrata, Mycoblastus sanguinarius. Nephroma parile, Parmeliella triptophylla, Protopannaria pezizoides, Sclerophora pallida, Strigula stigmatella, Thelopsisflaveola, T. rubella and Thelotrema lepadinum. Suitable humidity as well as presence o f wood in forests support the occurrence o f species significantly lin ked to these kind of substrates, e. g. Cladonia botrytes, Icmadophila ericetorum, Multiclavula mu cida or Xylographa parallela. Out of epipetric species, we recorded several phytogeographically interesting elements, such as Dirina stenhammari and Thelopsis lojkana. Interesting epibryophytic records are those of Biatorella hemisphaerica and Normandina acroglypta. lichens, diversity, the Western Carpathians
|31775||Leighton W.A. (1854): Monograph of the British Graphideae. - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, ser. II, 13: 81–97, 202–212, 264–279, 387–395 & 436–446 [+ 4 plates].|
Great Britain; Graphidaceae, Opegraphaceae, Arthoniaceae; numerous new taxa
|31774||Deakin R. (1854): Description and Illustrations of new species of Verrucaria and Sagedia found about Torquay, Devonshire. - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, ser. II, 13: 32–41 [+ 4 plates].|
Great Britain; Verrucariaceae; Porinaceae; new taxa: Verrucaria viridis Deakin sp. nov. [= Thelidium pyrenophorum], Sagedia ampullacea Deakin sp. nov., Sagedia marina Deakin sp. nov. [= Stigmidium marinum], Sagedia calcarea Deakin sp. nov., Verrucaria neglecta Deakin sp. nov., Verrucaria ovata sp. nov., Verrucaria leightonii sp. nov. [nom. illegit.], Verrucaria parva Deakin sp. nov. [= V. murina], Verrucaria fugax sp. nov. [= V. murina], Verrucaria perminuta sp. nov.
|31773||Tulasne L.R. (1851): On the Reproductive Organs of the Lichens and Fungi. - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, ser. II, 8: 114–121.|
Translation into English from French original: Tulasne L.-R. (1851): Note sur l'appareil reproducteur dans les Lichens et les Champignons. - Annales des Sciences Naturelles, trois. sér., Bot., 15: 370-380. [see JPH 20387]
|31772||Anonymus (1852): The British Species of Angiocarpous Lichens, elucidated by their Sporidia. By the Rev. W. A. Leighton, B.A. London : Printed
for the Ray Society, 1851. - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, ser. II, 9: 226–229.|
|31771||Leighton W.A. (1842): Excerpta Botanica, or abridged Extracts translated from the Foreign Journals, illustrative of, or connected with, the Botany of Great Britain. No. 11. On the Structure of the Nucleus of the genera Sphaerophoron of the Family of the Lichenes, and Lichina of that of the Byssaceae. By Camille Montagne, M.D. (Ann. des Sc. Nat. n. s. xv. p. 147.). - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, 10: 267–270.|
Translation into English from the French original: Montagne C. (1841): Recherches sur la structure du nucléus des genres Sphaerophoron, de la famille des Lichens, et Lichina, de celle des Byssacées. - Annales des Sciences naturelles, sec. sér., Bot., 15: 146-156 [+ pl. xv]. [see jph 20275]
|31770||Don D. (1841): A List of Plants collected by Charles Fellows, Esq., during his Tour in Lycia and Caria ; with descriptions of the New Species. - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, 7: 454–460.|
Turkey; one lichen listed (Evernia prunastri)
|31769||Berkeley M.J. (1842): Organography and Physiologic Sketch of the Class Fungi, by C. Montagne, D.M. Extracted from ´Histoire physique, politique et naturelle de ľȋle de Cuba´ par M. Ramon de la Sagra, and translated and illustrated with short notes. - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, 9: 1–10, 107–116, 230–236 & 283–296.|
|31768||Berkeley M.J. (1842): Notice of some Fungi collected by C. Darwin, Esq., in South America and the Islands of the Pacific. - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, 9: 443–448.|
Darwin, Brazil, two lichens listed (Cora pavonia, Borrera chrysophthalma)
|31767||Thwaites G.H.K. (1848): On an apparently undescribed state of the Palmelleae; with a few observations on Gemmation in the lower tribes of Plants. - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, ser. II, 2: 312–316.|
observations on Palmella botryoides [= Lichenomphalia umbellifera, 'Botrydina'-type of thallus]
|31766||Bainbridge F. (1843): Lecidea Wahlenbergii. - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, 11: 485.|
Letter to the editors of the journal
|31765||Bainbridge F. (1843): Lecidea Wahlenbergii (Acharius), a lichen new to the British flora. - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, 12: 68.|
Extract from a presentation on the session of the Botanical Society of London held in June 2, 1843.
|31764||McMullin R.T. & Arsenault A. (2019): Lichens and allied fungi of Hall's Gullies: A hotspot for rare and endangered species in Newfoundland, Canada. - Northeastern Naturalist, 26(4): 729–748.|
Biodiversity hotspots are regions with high numbers of rare species that are conservation priorities. Hall’s Gullies is a region on the Avalon Peninsula in Newfoundland, Canada, that is well known for a large population of Erioderma pedicellatum, a lichen that is listed globally as critically endangered by the International Union for Conservation of Nature. To determine if there are other species of conservation interest in this region, we completed a detailed survey of the lichens and allied fungi. We combined our results with historical collections and report 179 species in 86 genera, which include 18 cyanolichens and 20 calicioids. Three species are listed on the federal Species at Risk Act: Degelia plumbea, Erioderma mollissimum, and E. pedicellatum. Fifteen species discovered during our study were new to Newfoundland and Labrador. Eleven of those species (the calicioids) we reported in a previous publication, but 4 are reported here for the first time from the province: Abrothallus santessonii, Biatora chrysantha, Heterodermia neglecta, and Plectocarpon scrobiculatae. Hall’s Gullies is a hotspot for rare lichen species, but it is not legally protected and, as a result, should be a conservation priority.
|31763||Taylor T. (1843): Observations on some varieties of Hypna and on a new species of Lichen. - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, 12: 295–296.|
Extract from a presentation on the session of the Botanical Society of London held in Sept. 1, 1843. A note on possibly new Cladonia similar to C. foliacea collected by G. Watson from the vicinity of Philadelphia.
|31762||Thwaites G.H.K. (1849): Note on Cystocoleus, a new genus of minute Plants. - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, Ser. II, 3: 241–242.|
|31761||Thwaites G.H.K. (1849): On the Gonidia of Lichens. - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, Ser. II, 3: 219–222.|
|31760||Spruce R. (1849): The Musci and Hepaticae of the Pyrenees. - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, Ser. II, 3: 81–106, 269–293, 358–380 & 478–503.|
Pyrenees, Spain, France; several lichens listed in a Table at p. 103–104
|31759||Salwey T. (1849): Stirpes Cryptogamae Sarnienses ; or Contributions towards the Cryptogamic Flora of Guernsey. - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, Ser. II, 3: 22–29.|
|31758||Salwey T. (1844): A List of Lichens gathered in different parts of Wales, principally in the neighbourhood of Barmouth, with a few casual observations upon some of the species. - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, 13: 25–32 & 260–263.|
|31757||Salwey T. (1845): A List of the scarcer amongst the Lichens which are found in the neighbourhood of Oswestry and Ludlow, with occasional observations upon some of them. - The Annals and Magazine of Natural History; including Zoology, Botany, and Geology, 16: 90–99.|
|31756||Temu S.G., Tibell S., Tibuhwa D.D. & Tibell L. (2019): Crustose calicioid lichens and fungi in mountain cloud forests of Tanzania. - Microorganisms, 7: 491 [14 p.].|
A total of 26 crustose calicioid lichens and fungi were found in Tanzania. Most of them belong to a group of species with wide distributions in cool areas of both hemispheres and occasional occurrence in high mountains at low latitudes. In Tanzania calicioids mainly occur in the middle and upper forest zones and their niches are found on the bark of old trees and on lignum, most of them restricted to mountain cloud forests. Calicioids are rare and often red-listed, and are also bioindicators of long forest continuity. Consequently, they form an important biota in mountain cloud forests and deserve attention in the context of preserving biodiversity and developing conservation policies. One new species, Chaenothecopsis kilimanjaroensis, is described. Chaenotheca hispidula and Pyrgillus cambodiensis are reported as new to Africa and Calicium lenticulare and Chaenothecopsis debilis are reported as new to Tanzania. Keywords: calicioid; conservation; lichen diversity; taxonomy.
|31755||Frank-Kamenetskaya O.V., Ivanyuk G.Yu., Zelenskaya M.S., Izatulina A.R., Kalashnikov A.O., Vlasov D.Yu. & Polyanskaya E.I. (2019): Calcium oxalates in lichens on surface of apatite-nepheline ore (Kola Peninsula, Russia). - Minerals, 9: 656 [13 p.].|
The present work contributes to the essential questions on calcium oxalate formation under the influence of lithobiont community organisms. We have discovered calcium oxalates in lichen thalli on surfaces of apatite-nepheline rocks of southeastern and southwestern titanite-apatite ore fields of the Khibiny peralkaline massif (Kola Peninsula, NW Russia) for the first time; investigated biofilm calcium oxalates with different methods (X-ray powder diffraction, scanning electron microscopy, and EDX analysis) and discussed morphogenetic patterns of its formation using results of model experiments. The influence of inorganic and organic components of the crystallization medium on the phase composition and morphology of oxalates has been analyzed. It was shown that, among the complex of factors controlling the patterns of biogenic oxalate formation, one of the main roles belongs to the metabolic activity of the lithobiont community organisms, which differs significantly from the activity of its individuals. Keywords: microbial biomineralization; calcium oxalates; lichens; apatite-nepheline ore; X-ray powder diffraction; scanning electron microscopy; EDX analysis.
|31754||Czernyadjeva I.V. (ed.), Kotkova V.M., Zemlyanskaya I.V., Novozhilov Yu.K., Vlasenko A.V., Vlasenko V.A., Blagoveshchenskaya E.Yu., Georgieva M.L., Notov A.A., Himelbrant D.E., Muchnik E.E., Urbanavichene I.N., Aristarkhova E.A., Bocharnikov M.V. & Ismailov A.B. (2018): New cryptogamic records. 2. - Новости систематики низших растений [Novosti sistematiki nizshikh rastenii] / Novitates systematicae plantarum non vascularium, 52(1): 209–223.|
First records of aphyllophoroid fungi for the Novgorod Region, myxomycetes for the Volgograd and Novosibirsk regions and Altai Territory, rust fungi for the Trans-Baikal Territory, lichens for the Tver and Moscow regions, lichenicolous fungus for Russia and the Republic of Dagestan, mosses for the Republic of Buryatia and data on their localities, habitats, distribution are provided. Keywords: Abrothallus usneae, Bryoria vrangiana, Chaetodermella luna, Cribraria intricata, Cribraria lepida, Diachea leucopodia, Didymium vaccinum, Drepanocladus longifolius, Kelleromyxa fimicola, Macbrideola synsporos, Muellerella hospitans, Mycoblastus affinis, Paradiacheopsis rigida, Physarum pseudonotabile, Piccolia ochrophora, Postia luteocaesia, Trichia botrytis, Trichia munda, Uromyces chenopodii, Vezdaea leprosa, Altai Territory, Moscow Region, Novgorod Region, Novosibirsk Region, Republic of Buryatia, Republic of Dagestan, Trans-Baikal Territory, Tver Region, Volgograd Region, Caucasus, West Siberian Plain, Russia.
|31753||Czernyadjeva I.V. (ed.), Afonina O.M., Boldyrev V.A., Doroshina G.Ya., Fedosov V.E., Ganasevich G.N., Himelbrant D.E., Kholod S.S., Kozyreva E.A., Kutenkov S.A., Kuzmina E.Yu., Kuznetsova E.F., Lamkowski P., Lavrskiy A.Yu., Lapshina E.D., Maksimov A.I., Maksimova T.A., Neshataeva V.Yu., Pisarenko O.Yu., Popova N.N., Potemkin A.D. & Sergeeva Yu.M. (2019): New cryptogamic records. 3. - Новости систематики низших растений [Novosti sistematiki nizshikh rastenii] / Novitates systematicae plantarum non vascularium, 53(1): 181–197.|
First records of lichens for the Saratov Region, of mosses for the Franz Josef Land Archipelago, the republics of Karelia and Khakassia, Stavropol, Khabarovsk and Kamchatka Territories, Khanty-Mansi Autonomous Area – Yugra, Magadan Region and first records of liverworts for the Tula Region are presented. Data on localities, habitats, distribution of recorded species are provided. Keywords: Buellia griseovirens, Lecidea nylanderi, Melanelixia subaurifera, Phlyctis argena, Ramalina fraxinea, Aquilonium plicatulum, Amphidium mougeotii, Barbula convoluta, Brachythe cium geheebii, Callicla dium haldanianum, Campylium protensum, Cephaloziella divaricata, Cirriphyllum piliferum, Dicranum groenlandicum, Dicranum setifolium, Dicranum spadiceum, Endogemma caespiticia, Eucladium verticillatum, Eurhynchium striatum, Fissidens dubius, Flexitrichum gracile, Grimmia poecilostoma, Hedwigia emodica, Herzogiella seligeri, Loeskypnum badium, Ochyraea alpestris, Oncophorus demetrii, Oncophorus elongatus, Oncophorus wahlenbergii, Polytrichum densifolium, Rhizomnium tuomikoskii, Schisti dium lancifolium, Schistidium papillosum, Solenostoma caespiticium, Sphagnum alaskense, Sphagnum annulatum, Sphagnum perfoliatum, Sphagnum tundrae, Stereodon plicatulus, lichens, liver worts, mosses, Franz Josef Land Archipelago, Khabarovsk Territory, Khanty-Mansi Autonomous Area — Yugra, North Koryakia, Kamchatka Territory, Koryak District, Magadan Region, Republic of Karelia, Republic of Khakassia, Russia, Saratov Region, Stavropol Territory, Tula Region.
|31752||Himelbrant D.E., Stepanchikova I.S., Ahti T. & Neshataeva V.Yu. (2019): The first lichenological survey in Koryakia (northern Kamchatka, Russia) — the last unexplored part of Beringia. - Новости систематики низших растений [Novosti sistematiki nizshikh rastenii] / Novitates systematicae plantarum non vascularium, 53(1): 107–142.|
The first lichenological inventory in Koryakia has resulted in the list of 315 species reported from Parapolsky Dale, within and in vicinities of the Koryak State Reserve. Altogether 46 species are published from the Kamchatka Territory for the first time, including Lecanographa grumulosa new to Russia, East Asia and Beringia; Cercidospora trypetheliza, Lecania dubitans, Pertusaria borealis, Piccolia ochrophora, Protoparmelia cupreobadia, Rimularia badioatra and Strangospora moriformis new to Russian Far East; Abrothallus bertianus, Cladonia strepsilis, Physciella melanchra, Rimularia badioatra, Sclerococcum parasiticum, Sphinctrina leucopoda and Strangospora moriformis new to Beringia. The lichen diversity of the study area is relatively poor due to natural reasons. Comparison with neighboring regions (Kamchatka Peninsula, Chukotka, Magadan Region, Yakutia and Alaska) shows that the lichen flora of Parapolsky Dale contains almost no specific species. The majority of the species recorded here are also known from neighboring regions, especially Alaska and Kamchatka Peninsula. Keywords: lichen flora, new records, Beringia, Kamchatka, Koryak State Reserve, Koryakia.
|31751||Макрый Т.В. & Яцына А.П. [Makryi T. & Yatsyna A.P.] (2019): О типовых образцах названий и таксономическом статусе видов рода Dermatocarpon s. l. (Verrucariaceae), описанных М. П. Томиным в 1950–1951 гг. [On the type specimens of the names and taxonomic status of species of the genus Dermatocarpon s. l. (Verrucariaceae), described by M. P. Tomin in 1950–1951]. - Новости систематики низших растений [Novosti sistematiki nizshikh rastenii] / Novitates systematicae plantarum non vascularium, 53(1): 143–156.|
[in Russian with English abstract: ] Based on the study of the original material and the protologues of 4 Dermatocarpon species described by Tomin, kept in the Herbarium of V. F. Kuprevich Institute of Experimental Botany of the NAS of Belarus (MSK) and the Herbarium of V. L. Komarov Botanical Institute of the RAS (LE), 2 lectotypes (D. ferganense, D. terrigenum), are designated, 5 isolectotypes are indicated. The herbaria have been revealed where 4 lectotypes, 6 isolectotyps, 10 syntypes are kept. The correct nomenclature quotes for two species, D. elisavetae and D. terrigenum, are given. The ranges of the species are characterized according to published data. Neocatapyrenium rhizinosum is reported for the first time for Turkmenistan. Keywords: Clavascidium, Dermatocarpon elisavetae, Dermatocarpon ferganense, Dermatocarpon krylovianum, Dermatocarpon terrigenum, Neocatapyrenium, Placidium, lichens, species distribution, typification, Alay Range, Asia, Turkmenistan, Uzbekistan.
|31750||Notov A.A., Himelbrant D.E. & Stepanchikova I.S. (2019): New records of lichens and lichenicolous fungi from the Tver Region. - Новости систематики низших растений [Novosti sistematiki nizshikh rastenii] / Novitates systematicae plantarum non vascularium, 53(1): 157–166.|
Eight species of lichens and five parasitic (mainly lichenicolous) fungi are reported for the first time for the Tver Region. The lichens Bacidina neosquamulosa and Bellemerea cinereorufescens are new to Central European Russia. Data on localities and habitats in the Tver Region are provided for all species; nearest known localities in European Russia and distinguishing characters of the species are briefly discussed. Keywords: Bacidina neosquamulosa, Bellemerea cinereorufescens, Central European Russia.
|31749||Урбанавичене И.Н. & Урбанавичюс Г.П. [Urbanavichene I.N. & Urbanavichus G.P.] (2015): Дополнения к лихенофлоре Мордовского заповедника, Республики Мордовия и Средней России [Additions to lichen flora of Mordovskii Reserve, Republic of Mordovia, and Middle Russia]. - Учёные записки Петрозаводского государственного университета [Uchenye zapiski Petrozavodskogo gosudarstvennogo universiteta / Proceedings of Petrozavodsk State University], 8(153): 75–79.|
[in Russian with English summary: ] Mordovskii Reserve is one of the most valuable woodland localities in the Middle Russia. Although the first lichen records on Mordovskii Reserve date back to the 1937–1938, the first list was published only in 1960, and the study of the Reserve’s lichen flora was rather poor. The second list of 2004 contains only 136 taxa, therefore, in 2013–2015 the authors explored virgin forests of Mordovskii Reserve. Results of the conducted lichen study are presented in the article. As a result of the research, 43 taxa were recorded in the Reserve for the first time. 39 species are new to the Republic of Mordovia. Six species: Briancoppinsia cytospora (Vouaux) Diederich, Ertz, Lawrey et van den Boom, Bryobilimbia sanguineoatra (Wulfen) Fryday, Printzen et S. Ekman, Epicladonia sandstedei (Zopf) D. Hawksw., Lecania croatica (Zahlbr.) Kotlov, Lichenodiplis lichenicola Dyko et D. Hawksw. and Pyrenochaeta xanthoriae Diederich are new to the Middle Russia. Therefore, Mordovskii Nature Reserve accounts for 340 species of lichens and lichenicolous fungi and is currently characterized by the highest diversity of flora when compared to other protected areas of the Middle Russia. Thus, this Reserve can play an important role as a key territory for further dissemination of rare lichen species onto the territories of cross-border regions. Key words: lichens, lichenicolous fungi, Mordovskii Reserve, Middle Russia, new records.
|31748||Turner D. [& Borrer W.] (1839): Specimen of a Lichenographia Britannica; or, attempt at a history of the British Lichens. - C. Sloman, Yarmouth, [i-ii +] 240 p. [+ index - 8 p.].|
|31747||Kantvilas G. (2019): An annotated catalogue of the lichens of Kangaroo Island, South Australia. - Swainsona, 32: 1–97.|
A ten-year study of the lichens of Kangaroo Island, South Australia, based on extensive fieldwork and a review of more than 1500 herbarium specimens, revealed a remarkable flora of 366 taxa. Fourteen appear to be restricted to the island, although they could be expected to occur on the southern Australian mainland, which is most similar to Kangaroo Island with respect to floristics and ecology, and where similar habitats can be found. In the course of the project, many species were recorded for South Australia for the first time, and a further 95 are reported here, including 19 that are first records for Australia as a whole. The most noteworthy of these include Aspicilia praecrenata (Nyl.) Hue, Catillaria nigroclavata (Nyl.) Schuler, Clauzadea metzleri Clauzade & Cl.Roux ex D.Hawksw., Halecania spodomela (Nyl.) M.Mayrhofer, Lecania koerberiana Lahm, Metamelanea melambola (Tuck.) Henssen, Schismatomma rediunta (Hasse) Tehler and Strangospora pinicola (A.Massal.) Körb., all previously known only from the Northern Hemisphere. The history of lichen investigations on the island, from the visit by Matthew Flinders in 1802 up to the present, is reviewed briefly. For the lichen study, the island’s vegetation was classified into the following major habitat types: mallee woodland, Melaleucadominated swampy woodland, Callitris-dominated coniferous woodland, Eucalyptus-dominated dry sclerophyll forest, Allocasuarina woodland, the littoral zone, agricultural land, consolidated calcareous soil communities, and semi-inundated rocks in fresh-water streams. Keywords: Australia, biodiversity, islands, lichenised fungi, new records.
|31746||dos Santos L.A., Aptroot A., Lücking R. & Cáceres M.E.S. (2019): High diversification in the Neoprotoparmelia multifera complex (Ascomycota, Parmeliaceae) in northeast Brazil revealed by DNA barcoding and phenotypical characters. - Bryologist, 122(4): 539–552.|
Phylogenetic studies revealed a high level of diversity within the lichen-forming fungus so far identified with the name Maronina multifera (Protoparmelioideae, Parmeliaceae), currently accommodated in the genus Neoprotoparmelia. Here, six new species of Neoprotoparmelia are described as new to science based on morphological and molecular data, mostly from northeastern Brazil. The new species are: Neoprotoparmelia nigra (Brazil), with 32-spored asci, lacking alectoronic acid, and with pale, Knegative apothecial base, and blackish apothecial disc; N. paramultifera (Brazil), with 64-spored asci, alectoronic acid, pale, K-negative apothecial base, and purplish brown apothecial disc and thick apothecial margins; N. pseudomultifera (Brazil), with 32-spored asci, lacking alectoronic acid, and with pale, K-negative apothecial base and brown apothecial disc (no reddish or purplish tinge); N. purpurea (Brazil), with 32-spored asci, lacking alectoronic acid, and with pigmented, K+ purplish-violet apothecial base and purplish brown apothecial disc; N. rubrofusca (Colombia), with 32-spored asci, lacking alectoronic acid, and with pigmented, K+ purplish-violet apothecial base, and red-brown apothecial disc and thin, evanescent margins; and N. sexdecimspora (Brazil), with 16-spored asci, alectoronic acid, pale, K-negative apothecial base, and purplish brown apothecial disc. The name N. multifera is restricted to a species from the northern Andes with 64-spored asci, alectoronic acid, pale, K-negative apothecial base, and purplish brown apothecial disc with thin margins, while the new combination N. camptotheca is adopted for a species in eastern Brazil with 32-spored asci, alectoronic acid, pale, K-negative apothecial base, purplish brown apothecial disc, and smooth margin (all other species in the complex having crenulate margins). The following two new combinations are also proposed: Neoprotoparmelia saxicola and N. rogersii (syn.: N. capensis V.J.Rico, A.Crespo & Garima Singh). Keywords: ITS, lichenized fungi, multispored asci, Parmeliaceae, phylogeny, taxonomy.
|31745||Cavalcante J.G., dos Santos L.A., Aptroot A., Lücking R. & Cáceres M.E.S. (2019): A new species of Lecanora (Ascomycota: Lecanoraceae) from mangrove in northeast Brazil identified using DNA barcoding and phenotypical characters. - Bryologist, 122(4): 553–558.|
Molecular phylogenetic analyses revealed a high diversity of unrecognized species of Lecanora s.l. in Brazil, with many near-cryptic species that require a combined analysis of morphology, secondary metabolites and molecular sequences for accurate delimitation. In this study, a new species of Lecanora is described which is morphologically close to L. achroa and L. helva. The new species was collected in the Guadalupe environmental protection area, located in the municipality of Barra de Sirinha´em, a mangrove region in the state of Pernambuco in the Brazilian Northeast. Lecanora parachroa sp. nov. agrees with L. achroa in morphological and anatomical features but differs in secondary chemistry, lacking usnic acid and 2-O-methylperlatolic acid. Molecular data using the ITS barcoding marker suggest that commonly identified species in this group, including L. helva and L. leprosa, are collective taxa, each including several lineages. Keywords: Australia, Cuba, Lecanora achroella, Lecanora albellaria, Lecanora chlaroterodes, Lecanora subflavicans, Reunion, Parmelia varia var. cinereocarnea.
|31744||Giordani P. (2019): Lichen Diversity and Biomonitoring: A Special Issue. - Diversity, 11: 171 [3 p.].|
[Editorial] Lichens are symbiotic organisms susceptible to environmental alteration due to their morphological and physiological features. For this reason, researchers and decision-makers are extensively using lichen biomonitoring for assessing the eects of various anthropogenic disturbances. The Special Issue was launched to fulfil some knowledge gaps in this field, such as the development of procedures to interpret and compare results. The SI includes three reviews that explore the application of lichen biomonitoring for detecting the eects of climate change. Three articles and one review paper examined the use at a decision level of biomonitoring of air pollution employing lichens, including the application in environmental forensic. Finally, six research articles are illustrative examples of lichen biomonitoring in poorly known habitats, providing data from the physiological to the community level of observation, and pose the basis for extending comparable approaches on a global scale. Keywords: air pollution; climate change; functional traits; environmental forensic.
|31743||Peña Cañón E.R., de Albuquerque M.P., Alves R.P., Pereira A.B. & Victoria F.C. (2019): Morphological and molecular characterization of three endolichenic isolates of Xylaria (Xylariaceae), from Cladonia curta Ahti & Marcelli (Cladoniaceae). - Plants, 8: 399 [24 p.].|
Endophyte biology is a branch of science that contributes to the understanding of the diversity and ecology of microorganisms that live inside plants, fungi, and lichen. Considering that the diversity of endolichenic fungi is little explored, and its phylogenetic relationship with other lifestyles (endophytism and saprotrophism) is still to be explored in detail, this paper presents data on axenic cultures and phylogenetic relationships of three endolichenic fungi, isolated in laboratory. Cladonia curta Ahti & Marcelli, a species of lichen described in Brazil, is distributed at three sites in the Southeast of the country, in mesophilous forests and the Cerrado. Initial hyphal growth of Xylaria spp. on C. curta podetia started four days after inoculation and continued for the next 13 days until the hyphae completely covered the podetia. Stromata formation and dierentiation was observed, occurring approximately after one year of isolation and consecutive subculture of lineages. Phylogenetic analyses indicate lineages of endolichenic fungi in the genus Xylaria, even as the morphological characteristics of the colonies and anamorphous stromata confirm this classification. Our preliminary results provide evidence that these endolichenic fungi are closely related to endophytic fungi, suggesting that the associations are not purely incidental. Further studies, especially phylogenetic analyses using robust multi-locus datasets, are needed to accept or reject the hypothesis that endolichenic fungi isolated from Xylaria spp. and X. berteri are conspecific. Keywords: fungi; phylogeny; lichen; ITS; qPCR; Brazil; Xylaria berteri; Xylaroideae.
|31742||Oh S.-Y., Woo J.-J. & Hur J.-S. (2019): Distribution of foliicolous lichen Strigula and genetic structure of S. multiformis on Jeju Island, South Korea. - Microorganisms, 7: 430 [15 p.].|
Strigula is a pantropic foliicolous lichen living on the leaf surfaces of evergreen broadleaf plants. In South Korea, Strigula is the only genus of foliicolous lichen recorded from Jeju Island. Several Strigula species have been recorded, but the ecology of Strigula in South Korea has been largely unexplored. This study examined the distribution and genetic structure of Strigula on Jeju Island. The distribution was surveyed and the influence of environmental factors (e.g., elevation, forest availability, and bioclimate) on the distribution was analyzed using a species distribution modeling analysis. In addition, the genetic variations and dierentiation of Strigula multiformis populations were analyzed using two nuclear ribosomal regions. The distribution of Strigula was largely restricted to a small portion of forest on Jeju Island, and the forest availability was the most important factor in the prediction of potential habitats. The genetic diversity and dierentiation of the S. multiformis population were found to be high and were divided according to geography. On the other hand, geographic and environmental distance did not explain the population dierentiation. Distribution and population genetic analysis suggested that the available habitat and genetic exchange of Strigula on Jeju Island are limited by the lack of available forest in the lowlands. Keywords: Dothideomycetes; foliicolous lichen; gene flow; Jeju Island; lichens; MaxEnt; population genetics; species distribution modeling; Strigula multiformis.
|31741||Wu X.-H., Wang W.-C., Dou M.-Z. & Jia Z.-F. (2019): Coenogonium hainanense sp. nov. and new records from China. - Mycotaxon, 134(3): 561–576.|
A new species, Coenogonium hainanense, is proposed, characterized by its small slightly transparent pale yellow to brownish apothecia with plane to concave discs; slightly thick, not prominent, denticulate margins with short dense hairs; and uniseriate or irregularly biseriate, ellipsoid 1-septate ascospores (10–11.25 × 2.5–3.75 μm). Eight additional Coenogonium species reported as new to China are C. coronatum, C. curvulum, C. fallaciosum, C. geralense, C. hypophyllum, C. moniliforme, C. siquirrense, and C. usambarense. Descriptions and distributions of the new species and records are presented, and a key to the 20 Coenogonium species known from China is provided. Key words: Coenogoniaceae, Lecanoromycetes, lichens, Ostropales, taxonomy.
|31740||Wang C.-X., Zheng C.-F. & Zhao Z.-T. (2019): New records of Acarospora and Psora from China. - Mycotaxon, 134(3): 535–543.|
Acarospora impressula, A. umbilicata, Psora gresinonis, and P. himalayana are reported for the first time from China and Psora decipiens for the first time from Qinghai Province. Descriptions, illustrations, and distributions are given for each species. Keywords: Acarosporaceae, East Asia, lichenized fungi, Psoraceae, taxonomy.
|31739||Wieczorek A. & Łysko A. (2017): Lichen biota of the “Wrzosowiska Cedyńskie im. inż. Wiesława Czyżewskiego” nature reserve in the Cedynia Landscape Park (NW Poland). - Acta Biologica, 24: 159–169.|
Lichens of the “Wrzosowiska Cedyńskie im. inż. Wiesława Czyżewskiego” nature reserve were studied in 2005 and 2011. Within the examined area, 103 species of lichens were observed. These include 23 species that are new to this area, some of them calciphilous, e.g. Agonima gelatinosa and Collema crispum. Many of them are rare in the Polish lowlands, e.g. Cladonia stellaris, Rhizocarpon geographicum, R. polycarpum, Stereocaulon condensatum, and S. incrustatum. Keywords: xerothermic lichens, rare lichens, protected species, threatened lichens, nature reserve, NW Poland.
|31738||Wieczorek A. & Hnat K. (2017): Lichens and lichenicolous fungi of the “Wrzosowisko Sowno” nature reserve (NW Poland). - Acta Biologica, 24: 149–158.|
Lichens of the “Wrzosowisko Sowno” nature reserve in the western part of Polish Pomerania were studied in 2006 and 2014. Within the examined area, 90 species of lichens were observed. Eighteen species are included in the red list of threatened lichens in Poland, eight as vulnerable (VU) (Bacidia rubella, Bryoria fuscescens, Buellia disciformis, Calicium viride, Ochrolechia androgyna, Pertusaria pertusa, Pseudoschismatomma rufescens, Ramalina farinacea, R. pollinaria and Tuckermannopsis chlorophylla), seven as near threatened (NT) (Chaenotheca furfuracea, Evernia prunastri, Graphis scripta, Hypogymnia tubulosa, Pertusaria coccodes, Vulpicida pinastri and Zwackhia viridis), two as endangered (EN)( Melanelixia glabra and Pleurostica acetabulum) and one as critically (CR) (Melanohalea exasperata). Keywords: lichens, nature reserve, Poland, Pomerania.
|31737||Wieczorek A. & Tyczkowska K. (2017): Lichens and lichenicolous fungi of the “Golczewskie Uroczysko” nature reserve (NW Poland). - Acta Biologica, 24: 141–148.|
Lichens of the “Golczewskie Uroczysko” nature reserve were studied in 2007–2008 and 2015–2016. Within the examined area, 68 species of lichens and 5 lichenicolous fungi were observed. Eleven species are included in the red list of threatened lichens in Poland, six as vulnerable (VU) (Bryoria fuscescens, Buellia disciformis, Calicium viride, Ochrolechia androgyna, Pertusaria pertusa and Tuckermannopsis chlorophylla) and five as near threatened (NT) (Alyxoria varia, Chaenotheca furfuracea, Evernia prunastri, Graphis scripta and Hypogymnia tubulosa). Keywords: lichens, nature reserve, Poland, Pomerania.
|31736||Owe-Larsson B., von Hirschheydt G., Arup U. & Westberg M. (2018): SLF:s vårexkursion till Värmlandsnäs 20–22 april 2018. - Lavbulletinen, 2018(2): 52–65.|
[in Swedish] Sweden; excursion; Halecania giraltiae reported new to Scandinavia, 16 lichen species are new for Värmland province
|31735||Reichardt H.W. (1865): Beitrag zur Kryptogamen-Flora des Maltathales in Kärnthen. - Verhandlungen der Zoologisch-Botanischen Gesellschaft in Wien, 14: 721–732.|
Carinthia; lichens at p. 725-726
|31734||de Lange P.J. (2019): The unexpected near demise of Caloplaca maculata (Teloschistaceae; lichenized mycobiota) from the Chatham Islands. - Trilepidea, 190: 8–12.|
popular paper; endangered species, New Zealand
|31733||Scholz P. (2013): Hochgefährdete Flechten in den Steppenlebensräumen Thüringens. - In: Steppenlebensräume Europas - Gefährdung, Erhaltungsmaßnahmen und Schutz, p. 275–278, Erfurt: Thüringer Ministerium für Landwirtschaft, Forsten, Umwelt und Naturschutz.|
[Highly endangered lichens in steppe habitats of Thuringia] Steppe habitats of the Thuringian Basin and its borders harbour a rich diversity of highly endangered lichens. Among them especially the elements of the Toninio-Psorodetum decipientis and related associations are restricted to the most continental parts and some of them are restricted to gypsum soil in addition. At least 20 of them are red-listed in Thuringia or Germany in higher categories. In Central Europe Acarospora placodiiformis occurs only on the southern slopes of the Kyffhäuser Mountains. The distribution of Psora saviczii in Central Europe is concentrated in Thuringia. Therefore Thuringia has a high responsibility for the survival of these species in Germany and in Central Europe. Strategies for maintaining steppe habitats in Thuringia cannot be developed without taking into consideration the very sensitive lichen flora of these habitats.
|31732||Villella J., Benson S., Carlberg T., Miller J.E.D., Patton R. & Peterson E. (2010): The lichens of the Horseshoe Ranch Wildlife Area. - Bulletin of the California Lichen Society, 17: 9–12.|
|31731||Suija A. (2019): New Estonian records: Lichenicolous fungi. - Folia Cryptogamica Estonica, 56: 137.|
|31730||Melekhin A.V., Davydov D.A., Borovichev E.A., Shalygin S.S. & Konstantinova N.A. (2019): CRIS – service for input, storage and analysis of the biodiversity data of the cryptogams. - Folia Cryptogamica Estonica, 56: 99–108.|
Here we describe Cryptogamic Russian Information System (CRIS), a web service cataloguing the biodiversity of cryptogams: cyanobacteria, fungi (including lichens), and bryophytes. CRIS incorporates a wide spectrum of data types, allowing for greater ease of use. It is possible to print the labels for herbarium collections, to input literature references, media files, etc., using CRIS which has a flexible interface and specific technical abilities. Currently, CRIS contains ~ 90,000 herbarium records, including 67,861 records of bryophytes, 12,486 records of lichens and 3,800 records of cyanobacteria. Data analysis of the different taxonomic groups is provided below. Perspectives and directions for the future development of CRIS are discussed. Keywords: biodiversity, herbarium collections, information system, cyanobacteria, lichens, bryophytes.
|31729||Tarasova V.N., Pystina T.N., Androsova V.I., Sonina A.V., Valekzhanin A.A. & Konoreva L.A. (2019): New records of lichens and allied fungi from Vodlozersky National Park within Arkhangelsk Region (NW Russia). - Folia Cryptogamica Estonica, 56: 87–98.|
The paper presents the results of the ongoing research of lichen diversity in Arkhangelsk Region of Russia, in Vodlozersky National Park which is the largest protected area in the territory of NW Russia. In total, 155 species of lichens and allied fungi are recorded for the first time for the Arkhangelsk part of the Vodlozersky National Park, and 69 species – for the whole mainland area of Arkhangelsk Region. Keywords: lichen diversity, new lichen records.
|31728||Lõhmus P., Marmor L., Jüriado I., Suija A., Oja E., Degtjarenko P. & Randlane T. (2019): Red List of Estonian lichens: revision in 2019. - Folia Cryptogamica Estonica, 56: 63–76.|
The second assessment of the threat status of Estonian lichens based on IUCN system was performed in 2019. The main basis for choosing the species to be currently assessed was the list of legally protected lichens and the list of species assigned to the Red List Categories RE–DD in 2008. Species that had been assessed as Least Concern (LC) in 2008 were not evaluated. Altogether, threat status of 229 lichen species was assessed, among them 181 were assigned to the threatened categories (CR, EN, VU), while no species were assigned to the LC category. Compared to the previous red list, category was deteriorated for 58% and remained the same for 32% of species. In Estonia, threatened lichens inhabit mainly forests (particularly dry boreal and nemoral deciduous stands), alvar grasslands, sand dunes and various saxicolous habitats. Therefore, the most frequent threat factors were forest cutting and overgrowing of alvars and dunes (main threat factor for 96 and 70 species, respectfully). Keywords: IUCN, regional red-listing, status deterioration, threat factors.
|31727||Darmostuk V.V. & Khodosovtsev A.Ye. (2019): Epibryon kondratyukii sp. nov., a new algicolous fungus, and notes on rare lichenicolous fungi collected in Southern Ukraine. - Folia Cryptogamica Estonica, 56: 109–116.|
The new algicolous fungus Epibryon kondratyukii sp. nov. grows on Coccomyxa-like films on leaves of Polytrichum piliferum in Southern Ukraine. The species is characterized by sessile black setose pseudothecia, short 0–2-celled paraphysoids, 8-spored fissitunicate asci and hyaline 0–1-septate ascospores. The lichenicolous fungi Adelococcus interlatens, Ascochyta candelariellicola, Clypeococcum psoromatis, Epithamnolia rangiferinae, Lawalreea lecanorae, Llimoniella adnata, Merismatium decolorans, Sphaerellothecium cladoniae, Stigmidium bellemerei, S. ramalinae and Weddellomyces epicallopisma are new to the mycobiota of the Ukraine. Cladonia foliacea is a new host for Epithamnolia rangiferinae, Lecidea fuscoatra for Katherinomyces cetrariae, and Flavoplaca austrocitrina for Weddellomyces epicallopisma. Keywords: Ascochyta, Epibryon, Epithamnolia, Katherinomyces.
|31726||Brunbjerg A.K., Bruun H.H., Brøndum L., Classen A.T., Dalby L., Fog K., Frøslev T.G., Goldberg I., Hansen A.J., Hansen M.D.D., Høye T.T., Illum A.A., Læssøe T., Newman G.S., Skipper L., Søchting U. & Ejrnæs R. (2019): A systematic survey of regional multi‑taxon biodiversity: evaluating strategies and coverage. - BMC Ecology, 19:43 [15 p.].|
Background: In light of the biodiversity crisis and our limited ability to explain variation in biodiversity, tools to quantify spatial and temporal variation in biodiversity and its underlying drivers are critically needed. Inspired by the recently published ecospace framework, we developed and tested a sampling design for environmental and biotic mapping. We selected 130 study sites (40 × 40 m) across Denmark using stratified random sampling along the major environmental gradients underlying biotic variation. Using standardized methods, we collected site species data on vascular plants, bryophytes, macrofungi, lichens, gastropods and arthropods. To evaluate sampling efficiency, we calculated regional coverage (relative to the known species number per taxonomic group), and site scale coverage (i.e., sample completeness per taxonomic group at each site). To extend taxonomic coverage to organisms that are difficult to sample by classical inventories (e.g., nematodes and non-fruiting fungi), we collected soil for metabarcoding. Finally, to assess site conditions, we mapped abiotic conditions, biotic resources and habitat continuity. Results: Despite the 130 study sites only covering a minute fraction (0.0005%) of the total Danish terrestrial area, we found 1774 species of macrofungi (54% of the Danish fungal species pool), 663 vascular plant species (42%), 254 bryophyte species (41%) and 200 lichen species (19%). For arthropods, we observed 330 spider species (58%), 123 carabid beetle species (37%) and 99 hoverfly species (33%). Overall, sample coverage was remarkably high across taxonomic groups and sufficient to capture substantial spatial variation in biodiversity across Denmark. This inventory is nationally unprecedented in detail and resulted in the discovery of 143 species with no previous record for Denmark. Comparison between plant OTUs detected in soil DNA and observed plant species confirmed the usefulness of carefully curated environmental DNA-data. Correlations among species richness for taxonomic groups were predominantly positive, but did not correlate well among all taxa suggesting differential and complex biotic responses to environmental variation. Conclusions: We successfully and adequately sampled a wide range of diverse taxa along key environmental gradients across Denmark using an approach that includes multi-taxon biodiversity assessment and ecospace mapping. Our approach is applicable to assessments of biodiversity in other regions and biomes where species are structured along environmental gradient. Keywords: Abiotic gradients, Biotic factors, Continuity, Denmark, Disturbance, eDNA, Moisture, Productivity.
|31725||Nystuen K.O., Sundsdal K., Opedal Ø.H., Holien H., Strimbeck G.R. & Graae B.J. (2019): Lichens facilitate seedling recruitment in alpine heath. - Journal of Vegetation Science, 30: 868–880.|
Questions: How do mat thickness, physical structure and allelopathic properties of terricolous mat‐forming lichens affect recruitment of vascular plants in dwarf‐shrub and lichen heath vegetation? Location: The mountains of Dovrefjell, central Norway. Methods: In autumn, seeds of ten vascular plant species were collected and sown in a common garden experiment with mats of six lichen species and bare soil controls as experimental treatments. We recorded growing season soil temperature and moisture, and seedling recruitment and growth after one year. The effect of lichen secondary compounds on germination was tested in a growth chamber experiment and compared to the lichen–plant interactions detected under field conditions. Results: The lichen mats buffered extreme soil temperatures and soil drying in dry weather, with soils below the thickest mats (Cladonia stellaris and C. rangiferina) experiencing the lowest temperature fluctuations. Seedling recruitment and seedling growth in the field and seed germination in the lab were species‐specific. Seedling recruitment rates were overall higher within lichen mats than on bare soil, but the c. 6.5‐cm‐thick mats of C. stellaris reduced recruitment of many species. The lab experiment suggested no overall strong effect of lichen allelopathy on seed germination, and effects on seed germination were only moderately correlated with the lichen–plant interactions observed for seedling recruitment in the field. Conclusions: In harsh environments like alpine dwarf‐shrub and lichen heaths, the presence of lichens and the resulting amelioration of the microclimate seem more important for vascular plant recruitment than are allelopathic effects often reported in lab experiments. We might therefore expect most terricolous lichens, depending on the plant species in focus, to facilitate rather than hamper the early stages of plant recruitment into lichen‐dominated arctic‐alpine heath vegetation. Keywords: Alectoria, Cetraria, Cladonia heath, Flavocetraria, ground lichen, lichen secondary metabolites, lichen–plant interaction, microclimate, seedling emergence, soil moisture, Stereocaulon, tundra, vascular plant colonization.
|31724||Kaufmann S., Weinrich T., Hauck M. & Leuschner C. (2019): Vertical variation in epiphytic cryptogam species richness and composition in a primeval Fagus sylvatica forest. - Journal of Vegetation Science, 30: 881–892.|
Question: Biodiversity surveys of epiphytic bryophytes and lichens on standing trees are mostly restricted to the lowermost 2 m, since sampling above this level is timeconsuming and therefore expensive. However, sampling only the stem base is likely to result in underestimation of forest epiphyte diversity, because microclimate and physico‐chemical site conditions, both of which vary with height above the ground, play important roles for poikilohydric organisms. We investigate variation in epiphyte diversity and composition along the vertical gradient in forests and discuss factors that may potentially account for height‐dependent distribution patterns. Location: Montane primeval beech forest Havešová in the Carpathians, eastern Slovakia. Methods: Ten circular plots, each 500 m2, were selected randomly in an area severely affected by windfall. Epiphytes were sampled along the stems of recently uprooted trees, from base to the canopy. Mean Ellenberg indicator values (EIV) for light, moisture, acidity and nitrogen availability were used as surrogate variables for environmental interpretation of compositional patterns for sampling segments of 2 m along the stem. Results: By sampling only the lowest 2 m, 10% of the total bryophyte and 48% of the lichen species would have been missed. We detected systematic patterns of compositional variation for both groups along the vertical gradient. While pleurocarpous mosses and liverworts were mostly restricted to the stem base, acrocarpous mosses and crustose lichens occurred along the stem almost to the top. Foliose and fruticose lichens were concentrated at intermediate heights and in the upper canopy. Patterns of variation in EIVs suggested that increasing light availability, decreasing moisture and increasing inputs of acidic and nitrous substances are responsible for the compositional shifts along the vertical gradient. Conclusions: Sampling only the stem base implies severe underestimation of the epiphyte diversity in temperate broad‐leaved forests. The middle and the upper parts of tree stems have distinctive compositions of epiphytic cryptogams, because microclimate and physico‐chemical site factors vary with height above the ground. Keywords: acidity, bryophytes, canopy, Ellenberg indicator values, Fagus sylvatica, lichens, light, moisture, primeval forests, species composition, vertical gradient.
|31723||Stenroos S., Pino-Bodas R. & Ahti T. (2019): Rexiella, a new name for Rexia S. Stenroos, Pino-Bodas & Ahti (2018), non Rexia D. A. Casamatta, S. R. Gomez & J. R. Johansen (2006). - Cladistics, 35: 603.|
Corrigendum. A new generic name, Rexiella, is published to replace the recently published name Rexia S. Stenroos, Pino-Bodas and Ahti, which turned out to be an illegitimate later homonym of the cyanobacterial genus Rexia D. A. Casamatta, S. R. Gomez and J. R. Johansen.
|31722||Adams L.G., Farnell R., Oakley M.P., Jung T.S., Larocque L.L., Lortie G.M., Mclelland J., Reid M.E., Roffler G.H. & Russell D.E. (2019): Evaluation of maternal penning to improve calf survival in the Chisana Caribou Herd. - Wildlife Monographs, 204: 5–46.|
Key words: Alaska, body mass, calf mortality, caribou, maternal penning, natality, population dynamics, population recovery, predation, Rangifer tarandus, sex ratio, survival, Yukon. [p. 14:] "Animal care and monitoring during captivity.—We provided caribou ad libitum a commercial pelleted ration formulated specifically for caribou (Barboza and Parker 2006, Thompson and Barboza 2014; ¯x = 2.9 kg dry/adult caribou/day) and terrestrial lichens ( ¯x = 0.5 kg dry/adult caribou/day) in plywood feeding troughs each morning and evening. Lichens were predominantly Cladonia arbuscula, C. mitis, and C. stellaris collected elsewhere and transported to pen facilities. Caribou also consumed native forages available within the pen." [p. 24:] "Diets of adult females in captivity.—Adult females placed in captivity quickly accepted the pelleted ration. Based on microhistological analyses of feces in 2006, the commercial feed constituted about 27% of the diet of females in the pen following their first week in captivity (Fig. 13A). The addition of the pelleted feed to their diets primarily resulted in a reduction in the proportion of lichen, which constituted 70% of the diet of free‐ranging caribou (Fig. 13A), even though we provided 0.5 kg dry lichen/caribou/day on average and additional lichen was naturally available in the pen."
|31721||Rodríguez-Peñate A.E., Escudero A., Martínez I. & Madrigal-González J. (2019): Unveiling annual growth chronologies from inter-nodal branch elongations in a fruticose lichen in southern Europe. - Fungal Biology, 123(11): 824–829.|
Techniques for retrospective analysis of size dynamics at annual resolution remain poorly developed in lichens in general, and fruticose lichens in particular. Only a few attempts in very high latitudes suggested that growth might be studied as a chronosequence of inter-nodal branch elongations. Here we evaluated, for the first time, this hypothesis in a dry Mediterranean environment using the lichen Cladonia rangiformis as a case study. Mixed models supported a strong positive relationship between humidity measured as precipitation/PET and inter-nodal branch elongations. Importantly, model selection suggested that (i) the number of intermodal elongations were a major determinant of stem elongation, and (ii) a second-order temporal autocorrelation denoted legacies of environmental influences at least over the next 2 y. The strong growth–humidity relationship, along with the potential legacies observed, support the idea that inter-nodal branch elongations could be used to reconstruct growth chronologies at annual resolution in drylands. This finding highlights the high vulnerability of these organisms to rising aridity, and opens a new venue for climate reconstruction and other potential applications in Ecology and Earth Science disciplines. Keywords: Aridity; Cladonia rangiformis; Climate change; Fruticose lichens; Legacies; Lichenometry.
|31720||Mallavadhani U.V., Tirupathamma R.S., Sagarika G. & Ramakrishna S. (2019): Isolation, chemical modification, and anticancer activity of major metabolites of the lichen Parmotrema mesotropum. - Chemistry of Natural Compounds, 55(5): 825–831.|
Extensive chromatographic purification of the chloroform–methanol (1:1) extract of the lichen Parmotrema mesotropum led to the isolation of methyl hematommate (1), methyl-2,4-dihydroxy-3,6-dimethylbenzoate (2), orcinol (3), and atranorin (4). The two major metabolites (1 and 2) were subjected to chemical modification and a total of 15 analogues were synthesized. The synthesized analogues and their parent compounds were evaluated for their anticancer potential against a panel of five human cancer cell lines. Among the tested samples, compound 1g showed potent activity against three cancer cell lines, namely DU145 (IC50 20.07 μM), MCF-7 (IC50 20.94 μM), and U87MG (IC50 25.32 μM). This compound can be considered as lead a molecule for further development. Keywords: Lichen, Parmotrema mesotropum, methyl hematommate, methyl 2,4-dihydroxy-3,6-dimethylbenzoate, synthetic analogues, anticancer activity.
|31719||Minelli A. (2019): The galaxy of the non‑Linnaean nomenclature. - History and Philosophy of the Life Sciences, 41: 31 [20 p.].|
Contrary to the traditional claim that needs for unambiguous communication about animal and plant species are best served by a single set of names (Linnaean nomenclature) ruled by international Codes, I suggest that a more diversified system is required, especially to cope with problems emerging from aggregation of biodiversity data in large databases. Departures from Linnaean nomenclature are sometimes intentional, but there are also other, less obvious but widespread forms of not Code-compliant grey nomenclature. A first problem is due to the circumstance that the Codes are intended to rule over the way names are applied to species and other taxonomic units, whereas users of taxonomy need names to be applied to specimens. For different reasons, it is often impossible to refer a specimen with certainty to a named species, and in those cases an open nomenclature is employed. Second, molecular taxonomy leads to the discovery of clusters of gene sequence diversity not necessarily equivalent to the species recognized and named by taxonomists. Those clusters are mostly indicated with informal names or formulas that challenge comparison between different publications or databases. In several instances, it is not even clear if a formula refers to an individual voucher specimen, or is a provisional species name. The use of non-Linnaean names and formulas must be revised and strengthened by fixing standard formats for the different kinds of objects or hypotheses and providing permanent association of ‘grey names’ with standardized source information such as author and year. In the context of a broad-scope revisitation of aims and scope of scientific nomenclature, it may be worth rethinking if natural objects like plant galls and lichens, although other than the ‘single-entity’ objects traditionally covered by biological classifications, may nevertheless deserve taxonomic names. Keywords: Open nomenclature · Grey nomenclature · Data aggregation · Taxonomic concept · Rules for non-Linnaean nomenclature · Lichen names · Plant gall names.
|31718||杨美霞 王欣宇 刘栋 张雁云 李丽娟 银安城 王立松 [Yang M.-X., Wang X.-Y., Liu D., Zhang Y.-Y., Li L.-J., Yin A.C. & Wang L.-S.] (2018): 中国食药用地衣资源综述 [Evaluation of edible and medicinal lichen resources in China]. - Mycosystema, 37(7): 819–837.|
[in Chinese with English abstract: ] Utilization of edible and medicinal lichen in China has a long history. Textual research of Chinese ancient and modern literatures and investigation of folk usages proved that lichen species used as medicine in China totalled 130 species belonging to 16 families and 43 genera, and as food 31 species belonging to seven families and 14 genera. A proposal concerning protection of the species with narrow distribution in special ecological environment, having important scientific significance is put forward. Key words: lichen; medicinal use; edible species; resource investigation.
|31717||Marthinsen G., Rui S. & Timdal E. (2019): OLICH: A reference library of DNA barcodes for Nordic lichens. - Biodiversity Data Journal, 7: e36252 [146 p.].|
Background: DNA barcodes are increasingly being used for species identification amongst the lichenised fungi. This paper presents a dataset aiming to provide an authoritative DNA barcode sequence library for a wide array of Nordic lichens. New information: We present 1324 DNA barcode sequences (nrITS) for 507 species in 175 genera and 25 orders. Thirty-eight species are new to GenBank and, for 25 additional species, ITS sequences are here presented for the first time. The dataset covers 20–21% of the Nordic lichenised species. Barcode gap analyses are given and discussed for the three genera Cladonia, Ramalina and Umbilicaria. The new combination Bryobilimbia fissuriseda (Poelt) Timdal, Marthinsen & Rui is proposed for Mycobilimbia fissuriseda and Nordic material of the species, currently referred to as Pseudocyphellaria crocata and Psoroma tenue ssp. boreale, are shown to belong in Pseudocyphellaria citrina and Psoroma cinnamomeum, respectively.
|31716||Temu S.G., Clerc P., Tibell L., Tibuhwa D.D. & Tibell S. (2019): Phylogeny of the subgenus Eumitria in Tanzania. - Mycology, 10(4): 250–260.|
Several Usnea species in subgenus Eumitria (Parmeliaceae, lichenized Ascomycota) have been described from East Africa in the past decades. These have been based on morphology and chemistry data while molecular studies remain very limited. In this paper we are for the first time publishing phylogenetic analyses along with morphological and chemical data for Eumitria. A total of 62 new sequences of Eumitria (26 ITS, 20 nuLSU, 6 MCM7, 10 RPB1) were generated in this study. nuLSU, MCM7 and RPB1 sequences are here for the first time reported for U. baileyi. A phylogeny of subgenus Eumitria from Tanzania based on Bayesian and maximum likelihood analyses of a concatenated four-loci data set is presented, confirming the monophyly of Eumitria. Further, secondary chemistry and variation in characters, such as the pigmentation of the central axis and branch shape were investigated. Keywords: Lichens; molecular phylogeny; morphology; secondary chemistry.
|31715||Singh P. & Singh K.P. (2019): Buelliella indica (Dothideomycetes), a new lichenicolous species from India. - Acta Botanica Hungarica, 61: 435–439.|
A new lichenicolous fungus Buelliella indica colonising on the thallus of Graphis longiramea is described from the state of Nagaland, a part of the Indo-Burma biodiversity hotspot region in India. It is characterised by its brown epihymenium, much smaller ascospores with dimensions of 11.5–13.8 × 4.8–6 μm and the new host Graphis. Key words: Buelliella, India, lichenicolous fungi, taxonomy.
|31714||Kondratyuk S., Lőkös L., Farkas E., Jang S.-H., Liu D., Halda J., Persson P.-E., Hansson M., Kärnefelt I., Thell A., Fačkovcová Z., Yamamoto Y. & Hur J.-S. (2019): New and noteworthy lichen-forming and lichenicolous fungi 9. - Acta Botanica Hungarica, 61: 325–367.|
The new for science genus Loekoeslaszloa S. Y. Kondr. et J.-S. Hur, confirmed by three gene phylogeny of the subfamily Teloschistoideae of the Teloschistaceae based on nrITS, nrLSU and mtSSU sequences, and ten new to science species from Eastern Asia, i.e. from South Korea: Bacidina loekoesiana S. Y. Kondr. et J.-S. Hur, Fauriea jejuensis S. Y. Kondr., L. Lőkös et J.-S. Hur, Gyalecta ulleungdoensis S. Y. Kondr., L. Lőkös et J.-S. Hur, Loekoeslaszloa huriana S. Y. Kondr., Orientophila dodongana S. Y. Kondr., L. Lőkös et J.-S. Hur, O. imjadoensis S. Y. Kondr., L. Lőkös et J.-S. Hur, O. incheonensis S. Y. Kondr., L. Lőkös et J.-S. Hur, Oxneriopsis taehaensis S. Y. Kondr., L. Lőkös et J.-S. Hur, Yoshimuria ivanpisutiana S. Y. Kondr., L. Lőkös et J.-S. Hur and Y. seokpoensis S. Y. Kondr., L. Lőkös et J.-S. Hur are described, illustrated and compared with closely related taxa. Molecular data for the recently described species Flavoplaca laszloana are for the first time provided. Position of Tassiloa magellanica in the subfamily Teloschistoideae as well as Yoshimuria stipitata in the Ikaerioideae ad int. is for the first time illustrated. An identification key to Fauriea species (including six species, i.e.: F. chujaensis, F. jejuensis, F. orientochinensis, F. patwolseleyae, F. tabidella and F. yonaguniensis), a key to Orientophila species of the Eastern Asian region (of the Orientophila loekoesii and the O. diffluens groups), and a key to Yoshimuria and Loekoeslaszloa species of the Eastern Asian region (including four species, i.e.: Y. galbina, Y. ivanpisutiana, Y. seokpoensis, and Y. spodoplaca, as well as Loekoeslaszloa geumohdoensis and L. huriana) are presented. Seven new combinations, i.e. Fauriea patwolseleyae (basionym: Caloplaca patwolseleyae S. Y. Kondr., U. Jayalal et J.-S. Hur), Fauriea tabidella (basionym: Lecanora tabidella Nyl.), Loekoeslaszloa geumohdoensis (basionym: Mikhtomia geumohdoensis S. Y. Kondr., D. Liu et Hur), Niesslia coarctatae (basionym: Stigmidium coarctatae S. Y. Kondr., L. Lőkös et J.-S. Hur), Opeltia epiphyta (basionym: Caloplaca epiphyta Lynge), Tassiloa magellanica (basionym: Caloplaca magellanica Søchting et Sancho) and Yoshimuria stipitata (basionym: Caloplaca stipitata Wetmore) are proposed. Yoshimuria galbina and Lecanora ussuriensis are for the first time recorded from Japan. Key words: Bacidina, Fauriea, Gyalecta, Loekoeslaszloa, new clade, new species, Niesslia, Orientophila, Oxneriopsis, taxonomy, Yoshimuria.
|31713||Kondratyuk S., Lőkös L., Farkas E., Jang S.-H., Liu D., Halda J., Persson P.-E., Hansson M., Kärnefelt I., Thell A. & Hur J.-S. (2019): Three new genera of the [sic!] Ramalinaceae (lichen-forming Ascomycota) and the phenomenon of presence of ‘extraneous mycobiont DNA’ in lichen associations. - Acta Botanica Hungarica, 61: 275–323.|
Three new genera Coppinsidea, Vandenboomia and Wolseleyidea are described and the genera Ivanpisutia, Lecaniella and Myrionora are resurrected on the basis of a phylogenetic analysis of multi-locus sequence data of the Ramalinaceae including the nuclear protein-coding marker rpb2, the internal transcribed spacer and a fragment of the small mitochondrial subunit. The genus Hertelidea was positioned within the Ramalina clade of the phylogenetic tree of the Ramalinaceae. Bacidia sipmanii, Phyllopsora chlorophaea, P. castaneocincta and Ramalina subbreviuscula were recorded from South Korea for the first time here confirming by molecular data, too. Forty-eight new combinations are proposed: Bacidia alnetorum (basionym: Biatora alnetorum S. Ekman et Tønsberg), Biatora amazonica (basionym: Phyllopsora amazonica Kistenich et Timdal), Biatora cuyabensis (basionym: Lecidea cuyabensis Malme), Biatora halei (basionym: Pannaria halei Tuck.), Biatora kalbii (basionym: Phyllopsora kalbii Brako), Biatora subhispidula (basionym: Psoroma subhispidulum Nyl.), Coppinsidea alba (basionym: Catillaria alba Coppins et Vězda), Coppinsidea aphana (basionym: Lecidea aphana Nyl.), Coppinsidea croatica (basionym: Catillaria croatica Zahlbr.), Coppinsidea fuscoviridis (basionym: Bilimbia fuscoviridis Anzi), Coppinsidea pallens (basionym: Bilimbia pallens Kullh.), Coppinsidea ropalosporoides (basionym: Gyalidea ropalosporoides S. Y. Kondr., L. Lőkös et J.-S. Hur), Coppinsidea scotinodes (basionym: Lecidea scotinodes Nyl.), Coppinsidea sphaerella (basionym: Lecidea sphaerella Hedl.), Ivanpisutia hypophaea (basionym: Biatora hypophaea Printzen et Tønsberg), Ivanpisutia ocelliformis (basionym: Lecidea ocelliformis Nyl.), Lecaniella belgica (basionym: Lecania belgica van den Boom et Reese Naesb.), Lecaniella cyrtellina (basionym: Lecanora cyrtellina Nyl.), Lecaniella dubitans (basionym: Lecidea dubitans Nyl.), Lecaniella erysibe (basionym: Lichen erysibe Ach.), Lecaniella hutchinsiae (basionym: Lecanora hutchinsiae Nyl.), Lecaniella naegelii (basionym: Biatora naegelii Hepp), Lecaniella prasinoides (basionym: Lecania prasinoides Elenkin), Lecaniella sylvestris (basionym: Biatora sylvestris Arnold), Lecaniella tenera (basionym: Scoliciosporum tenerum Lönnr.), Mycobilimbia albohyalina (basionym: Lecidea anomala f. albohyalina Nyl.), Mycobilimbia cinchonarum (basionym: Triclinum cinchonarum Fée), Mycobilimbia concinna (basionym: Phyllopsora concinna Kistenich et Timdal), Mycobilimbia ramea (basionym: Bacidina ramea S. Ekman), Mycobilimbia siamensis (basionym: Phyllopsora siamensis Kistenich et Timdal), Myrionora australis (basionym: Biatora australis Rodr. Flakus et Printzen), Myrionora ementiens (basionym: Lecidea ementiens Nyl.), Myrionora flavopunctata (basionym: Lecanora flavopunctata Tønsberg), Myrionora globulosa (basionym: Lecidea globulosa Flörke), Myrionora hemipolia (basionym: Lecidea arceutina f. hemipolia Nyl.), Myrionora lignimollis (basionym: Biatora ligni-mollis T. Sprib. et Printzen), Myrionora malcolmii (basionym: Phyllopsora malcolmii Vězda et Kalb), Myrionora vacciniicola (basionym: Lecidea vacciniicola Tønsberg), Phyllopsora agonimioides (basionym: Coenogonium agonimioides J. P. Halda, S.-O. Oh et J.-S. Hur), Phyllopsora sunchonensis (basionym: Agonimia sunchonensis S. Y. Kondr. et J.-S. Hur), Vandenboomia chlorotiza (basionym: Lecidea chlorotiza Nyl.), Vandenboomia falcata (basionym: Lecania falcata van den Boom, M. Brand, Coppins, Magain et Sérus.), Wolseleyidea africana (basionym: Phyllopsora africana Timdal et Krog), Wolseleyidea byssiseda (basionym: Lecidea byssiseda Nyl. ex Hue), Wolseleyidea canoumbrina (basionym: Lecidea canoumbrina Vain.), Wolseleyidea furfurella (basionym: Phyllopsora furfurella Kistenich et Timdal), Wolseleyidea ochroxantha (basionym: Lecidea ochroxantha Nyl.), and Wolseleyidea swinscowii (basionym: Phyllopsora swinscowii Timdal et Krog). The combination Biatora longispora (Degel.) Lendemer et Printzen is validated here. The new names Biatora vezdana for Lecania furfuracea Vĕzda and Coppinsidea vainioana for Lecidea sphaeroidiza Vain. are proposed. The phenomenon of presence of ‘extraneous mycobiont DNA’ in lichen association, i.e. DNA, belonging neither to mycobiont nor photobiont or to endophytic fungi is for the first time illustrated. So the presence of nrITS and mtSSU sequences of crustose lichen Coppinsidea ropalosporoides in thalli of crustose Verrucaria margacea and foliose Kashiwadia orientalis, as well as nrITS of Phyllopsora sp. KoLRI in Agonimia pacifica and Biatora longispora, or nrITS and mtSSU of Biatora longispora in thalli of Agonimia pacifica, Oxneriopsis oxneri and Pyxine limbulata, Ivanpisutia oxneri in thalli of Rinodina xanthophaea, etc. is documented. Scarce cases of presence of ‘extraneous mycobiont DNA’ in representatives of the Teloschistaceae, Physciaceae known from literature data are discussed, too. Key words: Agonimia, Bacidia, Biatora, Coppinsidea, Ivanpisutia, Lecania, Lecaniella, Mycobilimbia, Myrionora, Phyllopsora, phylogeny, taxonomy, Vandenboomia, Wolseleyidea.
|31712||Soto-Medina E., Lücking R., Silverstone-Sopkin P.A. & Torres A.M. (2019): Changes in functional and taxonomic diversity and composition of corticolous lichens in an altitudinal gradient in Colombia. - Cryptogamie, Mycologie, 40(6): 97–115.|
The variation of the diversity, composition, functional diversity and species richness of lichen communities along an altitudinal gradient in the Chocó biogeographic region of the department of Valle del Cauca, Colombia, is evaluated basing on 2732 samples belonging to 690 species of corticolous lichens. The dominant families were Graphidaceae, Parmeliaceae, Lobariaceae and Pyrenulaceae. Alpha lichen diversity showed a concave pattern with respect to altitude, and the zones at low and high elevations had greater diversity. Beta diversity and total richness estimated by rarefaction for locality presented a bell-shaped pattern, with a peak at 1600 m. Lichen functional traits strongly changed with the increase of altitude. Functional diversity presented the same pattern of total richness estimated by rarefaction. These results suggest that the lichen communities of the altitudinal extremes are structured by a strong environmental filter effect, while in the intermediate zones there is an overlap of functional traits, which is reflected in both a high functional and taxonomic diversity. The results suggest that the functional traits used are good substitutes for species to study altitudinal patterns. The high number of indicator species for the altitudinal extremes implies that in a context of climate change, these zones will be more susceptible to the loss of species. Key words: Chocó, Rao, functional diversity, rarefaction, traits, elevation, mid-domain effect.
|31711||Haugan R. & Timdal E. (2019): Peltigera wulingensis new to Europe. - Graphis Scripta, 31(6): 47–53.|
The lichen species Peltigera wulingensis is reported as new to Europe from a single locality in the Gudbrandsdalen valley, southeast Norway. The species was previously known from China (Hebei), Canada (Ontario and Quebec), and Russia (Krasnoyarsk region). In Norway, it grows on moss carpets on schistose, somewhat calcareous rock outcrops in open habitat along the shore of a major river. The specimen was first identified by the DNA barcode marker (nrITS), and the identification was confirmed by the morphology (phyllidiate lobe margin, tomentose lobe ends, and no lichen substances in the thallus).
|31710||Lewis C.J. & Schultz M. (2019): Lempholemma syreniarum (Lichinaceae), a new species from Ontario, Canada. - Bryologist, 122(3): 423–429.|
Lempholemma syreniarum is described from Ontario, Canada in North America. The new species grows on the bark of deciduous tree bases that are seasonally flooded. In seasonally dry periods, its black areolate thallus, typically with numerous light brown apothecia, is easily seen on tree bases and root flares but is underwater during most other parts of the year. A key is given aiding identification of small crustose-squamulose and corticolous cyanolichens with simple ascospores. Keywords: Lempholemma, Lichinaceae, Nostoc, Ontario, Great Lakes region, taxonomy.
|31709||Liberati L., Messerli S., Matteodo M. & Vittoz P. (2019): Contrasting impacts of climate change on the vegetation of windy ridges and snowbeds in the Swiss Alps. - Alpine Botany, 129: 95–105.|
The impacts of climate change on alpine summit floras have been widely investigated. However, only few studies included alpine grasslands and generally concluded that snowbeds, with a long snow cover duration and a short growing season, and windy ridges, with a short snow cover duration and strong winter frosts, are the most sensitive alpine grasslands. However, these habitats were mostly investigated in different regions, where local factors (e.g. nitrogen deposition, grazing) can co-vary with climate changes, potentially obscuring differences between habitats. Here, we focused on the Zermatt region (Swiss Alps) to investigate the impacts of climate change on snowbeds and windy ridges. Forty-three exhaustive historical plant inventories on windy ridges (acidophilic or basophilic) and 31 inventories in snowbeds (typical or wet) were repeated in quasi-permanent plots after approximately 23 years. Historical and recent records were compared with the Simpson index, Bray–Curtis dissimilarity, a PCA, ecological indicator values and the frequency and cover changes of species. There was a general increase in α-diversity and a decrease in β-diversity (homogenisation). Most of the new species in the plots were generalists from surrounding grasslands. The plant composition tended to be more thermophilous on acidophilic windy ridges and in typical snowbeds. The flora of acidophilic windy ridges became more similar to that of basophilic windy ridges and more eutrophic. We interpreted this as possibly arising from fertilisation by the aeolian dust deposition coming from the expanding glacial moraine in the valley. In snowbeds, the species indicated increasingly drier conditions, especially in wet snowbeds. Warming climate induces lower snowfall and earlier snowmelt, leading to a shorter snow cover duration. Hence, wet snowbeds are certainly among the most threatened plant communities by climate change in the Alps. Keywords: Salicion herbaceae · Elynion · Snow cover · Temperature · Quasi-permanent plots · Vegetation dynamics · Switzerland. [p. 98:] "Our data showed extremely strong differences in the frequency and composition of lichens between historical and recent data on windy ridges. Added to the fact that many occurrences in the historical data set were identified only at the genus level, we had to conclude that the historical data were most likely not complete enough for a valid comparison. Hence, lichens were not included in the analyses."
|31708||Malíček J., Palice Z., Vondrák J., Kostovčík M., Lenzová V. & Hofmeister J. (2019): Lichens in old‑growth and managed mountain spruce forests in the Czech Republic: assessment of biodiversity, functional traits and bioindicators. - Biodiversity and Conservation, 28: 3497–3528.|
Natural spruce forests are restricted to the highest mountain ranges in the Czech Republic. Spruce is also the commonest tree species in managed forests. Owing to a massive decline of spruce forests in Central Europe, caused by recent climatic fluctuations and disturbances, the lichen diversity and species composition was compared between ten representative natural mountain old-growth forests in the Czech Republic and their counterparts in mature managed forests. The old-growth forests are characterized by a higher species richness, abundance, number of Red-listed species, functional, taxonomic and phylogenetic diversities. Plots with the highest species richness are situated in the Šumava Mountains, an area with a relatively low sulphur deposition in the past. Bioindication analysis searching for lichen indicators supported several species (e.g. Xylographa vitiligo, Chaenotheca sphaerocephala) and genera (e.g. Calicium, Xylographa) with a strong preference for oldgrowth forests. Analysis of lichen functional traits revealed a higher abundance of species with a vegetative reproduction in managed forests that may be explained by a higher efficiency in colonization by young successional stages. Lichens with stalked apothecia, pigmented ascospores and large ascospores are more frequent in old-growth forests. Our results are briefly discussed in terms of nature conservation, focusing on national refugees of old-growth forest species, biodiversity hot-spots, practical use of indicator species and representative measures for an evaluation of forest quality. Keywords: Functional diversity · Functional traits · Phylogenetic diversity · Species richness · Substrate specialists · Taxonomic diversity.
|31707||Poengsungnoen V., Buaruang K., Vongshewarat K., Sangvichien E., Boonpragob K., Mongkolsuk P. & Lumbsch H.T. (2019): Three new crustose lichens from Thailand. - Bryologist, 122(3): 451–456.|
Three corticolous crustose lichens are described from Thailand as new to science. Astrochapsa elongata Poengs. & Lumbsch is characterized by elongated apothecia, a clear hymenium, submuriform ascospores and the lack of secondary metabolites. Graphis khaoyaiensis Poengs. & Lumbsch is characterized by a laterally carbonized exciple, striate labia, a clear hymenium, muriform ascospores and the absence of secondary metabolites, differing from Graphis dichotoma in having smaller ascospores, and not radiately branched ascomata. Phlyctis sirindhorniae Poengs., Vongshew. & Lumbsch is distinguished by apothecia being solitary or sometimes aggregate or fused into groups, muriform ascospores and the presence of norstictic acid, differing from P. agelaea in having larger apothecia and more ascospores per ascus. Descriptions of the new species are provided and discussions on similar species. Keywords: Diversity, lichenized fungi, morphology, taxonomy, tropical lichens.
|31706||Ure J.D. & Stanton D.E. (2019): Co-dominant anatomically disparate lichens converge in hydrological functional traits. - Bryologist, 122(3): 463–470.|
Epiphytic lichens play a key hydrological role in ecosystems by intercepting and retaining water. These attributes can be characterized at an individual thallus scale by considering the retention and loss rates of water, themselves influenced by growth form and anatomy. We compared the hydrological attributes (water-holding capacity and standard drying rate) of two common northern temperate-boreal lichen genera, Evernia and Usnea, which differ greatly in internal anatomy. Despite conspicuous morphological and anatomical differences between the taxa that were hypothesized to affect thallus-water dynamics, their hydrological traits were found to be remarkably similar. This suggests either limited influence of internal anatomy on these ecologically relevant traits or convergence in hydrological attributes in co-occurring taxa. Keywords: Macrolichen, epiphyte, fruticose lichen, water-holding capacity, specific thallus mass.
|31705||Brodo I.M. & Tønsberg T. (2019): Opegrapha halophila (Opegraphaceae), a new lichen species from coastal British Columbia, Canada, and Alaska, U.S.A.. - Bryologist, 122(3): 457–462.|
Opegrapha halophila Brodo & Tønsberg is described based on material from British Columbia, Canada, and Alaska, U.S.A. It is distinctive due to its lirellate apothecia, the (mainly) discrete soralia, the production of roccellic/angardianic acid, and its habitat on coastal rocks in the salt spray zone. A key to sorediate species of Opegrapha is provided. Keywords: Enterographa zonata, Gyrographa gyrocarpa, Pacific Northwest, sterile crusts, saxicolous crusts, maritime lichens, fatty acids, Haida Gwaii, Kuiu Island.
|31704||Brodo I.M., Haldeman M. & Malíček J. (2019): Notes on species of the Lecanora albella group (Lecanoraceae) from North America and Europe. - Bryologist, 122(3): 430–450.|
Lecanora excludens (syn. L. septentrionalis) is reported as new for North America from Oregon. The synonymy of the two names is discussed. Lecanora intumescens, with two new synonyms: L. hispanica and L. krempelhuberi, is reported from Idaho and confirmed as new for the United States. Additional localities and range extensions for L. albella s.l., L. cateilea and L. carpinea are given. Lecanora carpinea is newly reported for Ontario, Newfoundland and Nova Scotia. Lecanora protervula is shown to be the oldest name at the species level for what has been called Lecanora subpallens Zahlbr. (syn. L. caesiorubella subsp. prolifera, L. caesiorubella subsp. lathamii). Lecanora caesiorubella subsp. saximontana is confirmed for Canada from Alberta, Manitoba and Ontario, and L. cateilea f. pallidotestacea is new for North America. The presence of taxonomically important fatty acids and zeorin are newly noted for some species or subspecies in the group. An argument is made for the appropriateness of using the category of subspecies for geographically meaningful chemotypes in L. caesiorubella, at least in North America, but the presence or absence of norstictic acid is not found to be taxonomically important in L. albella. A key to the North American species of the L. albella group is also provided. Keywords: Lichen taxonomy, chemosystematics, key, Lecanora pallida, Canada, United States of America.
|31703||Lendemer J.C. (2019): Recent literature on lichens—254. - Bryologist, 122(3): 525–536.|
|31702||Søchting U. & Arup U. (2018): Marchantiana asserigena comb. nov., a possible European immigrant from Australia. - Graphis Scripta, 30(6): 115–120.|
Caloplaca asserigena is known to have a secondary compound different from other species of Teloschistaceae in the Northern Hemisphere. Studies of the secondary chemistry of the Australian Teloschistaceae have revealed the same compound to be present in Marchantiana michelagoensis and Caloplaca marchantiorum. Subsequent molecular studies based on three genes support the affinity of C. asserigena and M. michelagoensis. Accordingly, the species is tentatively included in the genus Marchantiana. Marchantiana asserigena, which was earlier regarded as extinct in Denmark, has been found to be widespread on very thin twigs of dwarf shrubs in Danish heathlands.
|31701||U’Ren J.M., Lutzoni F., Miadlikowska J., Zimmerman N.B., Carbone I., May G. & Arnold A.E. (2019): Host availability drives distributions of fungal endophytes in the imperilled boreal realm. - Nature Ecology and Evolution, 3: 1430–1437.|
Boreal forests represent the world’s largest terrestrial biome and provide ecosystem services of global importance. Highly imperilled by climate change, these forests host Earth’s greatest phylogenetic diversity of endophytes, a hyperdiverse group of symbionts that are defined by their occurrence within living, symptomless plant and lichen tissues. Endophytes shape the ecological and evolutionary trajectories of plants and are therefore key to the function and resilience of terrestrial ecosystems. A critical step in linking the ecological functions of endophytes with those of their hosts is to understand the distributions of these symbionts at the global scale; however, turnover in host taxa with geography and climate can confound insights into endophyte biogeography. As a result, global drivers of endophyte diversity and distributions are not known. Here, we leverage sampling from phylogenetically diverse boreal plants and lichens across North America and Eurasia to show that host filtering in distinctive environments, rather than turnover with geographical or environmental distance, is the main determinant of the community composition and diversity of endophytes. We reveal the distinctiveness of boreal endophytes relative to soil fungi worldwide and endophytes from diverse temperate biomes, highlighting a high degree of global endemism. Overall, the distributions of endophytes are directly linked to the availability of compatible hosts, highlighting the role of biotic interactions in shaping fungal communities across large spatial scales, and the threat that climate change poses to biological diversity and function in the imperilled boreal realm.
|31700||Fischer A., Fickert T., Schwaizer G., Patzelt G. & Groß G. (2019): Vegetation dynamics in Alpine glacier forelands tackled from space. - Scientific Reports, 9: 13918 [13 p.].|
Monitoring of plant succession in glacier forelands has so far been restricted to field sampling. In this study, in situ vegetation sampling along a chronosequence between Little Ice Age (LIA) maximum extent and the recent glacier terminus at Jamtalferner in the Austrian Alps is compared to time series of the Normalized Difference Vegetation Index (NDVI) calculated from 13 Landsat scenes (1985–2016). The glacier terminus positions at 16 dates between the LIA maximum and 2015 were analysed from historical maps, orthophotos and LiDAR images. We sampled plots of different ages since deglaciation, from very recent to approx. 150 years: after 100 years, roughly 80% of the ground is covered by plants and ground cover does not increase significantly thereafter. The number of species increases from 10–20 species on young sites to 40–50 species after 100 years. The NDVI increases with the time of exposure from a mean of 0.11 for 1985–1991 to 0.20 in 2009 and 0.27 in 2016. As the increase in ground cover is clearly reproduced by the NDVI (R² ground cover/NDVI 0.84) – even for sparsely vegetated areas –, we see a great potential of satellite-borne NDVI to perform regional characterizations of glacier forelands for hydrological, ecological and hazard management-related applications. 3 terricolous macrolichens distinguished (Alectoria ochroleuca, Cetraria islandica, Stereocaulon alpinum) and listed in Table S3. Proportionality of lichens shown in pie-graphs in Fig. 4 (PCA scatter plot of the chronosequence samples in the glacier foreland of Jamtalferner).
|31699||Vargas Castillo R. (2018): Lichens on the edge: Studying the lichens at the Union Glacier. - Advances in Chilean Antarctic Science, 4: 11–12.|
Continental Antarctica presents a range of extreme environments where only the most adapted organisms can survive. Although it is mostly microorganisms which can withstand these conditions, lichens are among the few macroscopic organisms present inland in continental Antarctica. A recent exploration on the surroundings of the Union Glacier base opened a window on a so far little known diversity of species.
|31698||Ekman S., Svensson M., Westberg M. & Zamora J.C. (2019): Additions to the lichen flora of Fennoscandia III. - Graphis Scripta, 31(5): 34–46.|
Six lichen-forming fungi, Ameliella grisea, Bacidina mendax, B. modesta, Biatora chrysanthoides, B. radicicola and Micarea sambuci, as well as seven lichenicolous fungi, Adelococcus alpestris, Heteroacanthella ellipsospora, Llimoniella catapyrenii, Sphaerellothecium siphulae, Tremella christiansenii, T. macrobasidiata and T. tuckerae, are reported for the first time from Sweden. Bacidina mendax and Biatora radicicola are also reported as new to Norway and Bacidina indigens is reported as new to Finland. The new combination Bacidina modesta (Zwackh ex Vain.) S. Ekman is proposed and Raphiospora viridescens, a synonym of Bacidia bagliettoana that has been misused for Bacidina indigens, is lectotypified.
|31697||Beck A., Bechteler J., Casanova-Katny A. & Dzhilyanova I. (2019): The pioneer lichen Placopsis in maritime Antarctica: Genetic diversity of their mycobionts and green algal symbionts, and their correlation with deglaciation time. - Symbiosis, 79: 1–24.|
Since ice-free areas in Antarctica are predicted to increase by up to 25% before the end of this century, lichens such as the genus Placopsis will be important colonizers of these newly available grounds and will still be present in later successional stages of the lichen community. The main symbionts of Placopsis species are examined for 56 specimens collected from the South Shetland Islands, Antarctica using molecular (fungal and algal nrITS, fungal RPB1, algal rbcL sequences) and morphological methods. The specimens were collected from soils with different deglaciation times. Eight uni-algal photobiont cultures were obtained and analysed from two specimens. Placopsis antarctica and P. contortuplicata proved to be monophyletic and are sister species, only the former producing vegetative diaspores (soredia). Both share the same photobiont pool and are lichenized with two closely related species, Stichococcus antarcticus and S. allas. Two haplotypes of S. antarcticus are restricted to areas deglaciated for more than 5000 years and the volcanic Deception Island indicating a shift in the photobionts of Placopsis in the course of the soil and lichen community development. These photobiont haplotypes exhibit different ecological preferences, possibly leading to adaptation of the symbiotic entity to changing environmental conditions. Keywords: Selectivity . Phylogeny . Stichococcus . Climate Change . Haplotypes.
|31696||Ranius T., Hämäläinen A., Sjögren J., Hiron M., Jonason D., Kubart A., Schroeder M., Dahlberg A., Thor G. & Jonsell M. (2019): The evolutionary species pool concept does not explain occurrence patterns of dead‑wood‑dependent organisms: implications for logging residue extraction. - Oecologia, 191: 241–252.|
Emulation of natural disturbances is often regarded as a key measure to make forestry biodiversity-oriented. Consequently, extraction of logging residues is assumed to have little negative effect in comparison to extraction of dead wood mainly formed at natural disturbances. This is consistent with the evolutionary species pool hypothesis, which suggests that most species are evolutionary adapted to the naturally most abundant habitats. We tested this hypothesis for dead-wood-dependent macrofungi, lichens, and beetles in a boreal forest landscape in central Sweden, assuming that species are adapted to conditions similar to today’s unmanaged forest. No occurrence patterns, for the species groups which we investigated, were consistent with the hypothesis. Overall, stumps and snags had the highest habitat quality (measured as average population density with equal weight given to each species) and fine woody debris the lowest, which was unexpected, since stumps were the rarest dead-wood type in unmanaged forest. We conclude that the evolutionary species pool concept did not explain patterns of species’ occurrences, and for two reasons, the concept is not reliable as a general rule of thumb: (1) what constitute habitats harbouring different species communities can only be understood from habitat-specific studies and (2) the suitability of habitats is affected by their biophysical characteristics. Thus, emulation of natural disturbances may promote biodiversity, but empirical studies are needed for each habitat to understand how natural disturbances should be emulated. We also conclude that stump extraction for bioenergy is associated with larger risks for biodiversity than fine woody debris extraction. Keywords: Beetles; Fungi; Lichens; Slash; Woody debris.
|31695||Şenol Z.M., Gül Ü.D. & Şimşek S. (2019): Assessment of Pb2+ removal capacity of lichen (Evernia prunastri): application of adsorption kinetic, isotherm models, and thermodynamics. - Environmental Science and Pollution Research, 26: 27002–27013.|
Biological materials play a significant role in the treatment of heavy metal-contaminated soil and wastewater. In this study, the Pb2+ biosorption potential of lichen Evernia prunastri, extensively available at a forest in Bilecik-Turkey, was investigated at batch-scale level. The optimal conditions were determined and the adsorption isotherms, kinetics, and thermodynamic calculations were also done. In order to have detailed knowledge about metal biosorption, SEM, FTIR, and BET analyses were carried out before and after the biosorption process. The optimal pH was found pH 4 and the maximum metal uptake capacity was found as 0.067 mol kg−1. The results of this study indicate that the lichen was effectively applied to the removal of Pb2+ process as an inexpensive biosorbent from industrial wastewater. Keywords: Biosorption; Lichen; Pb2+; Wastewater treatment.
|31694||Gamrat R., Gałczyńska M., Sotek Z. & Stasińska M. (2019): The impact of neighbouring ecosystems on species composition in the ecotone of small forest plots: case study
in Choszczno Forest Inspectorate in NW Poland. - Russian Journal of Ecology, 50(5): 465–473.|
The aim of the study was to verify a hypothesis that the proximity of different ecosystems have an impact on the richness of flora in three forest patches in the Choszczno Forest Inspectorate (West Pomeranian Province in NW Poland). Between 2013–2015, the survey involved three areas with different adjacent ecosystems: forest, built−up area, and grassland. At each object we analyzed four test plots consisting of inner, middle and outer zones. The composition of tree, shrub, herbaceous, moss and lichen species was determined in each object, plot and zone. It was shown that adjacent ecosystems influenced the richness of flora in the analyzed forest areas. Differences in the numbers of species and in their habitat affiliation were also found between ecotone zones. The outer ecotone zone had the richest flora composition, particularly in terms of grassland species – present in 12 zones of all three objects. Keywords: diversity, grassland, rural buildings, West Pomeranian Province.
|31693||Bird A., Watmough S.A., Carson M.A., Basiliko N. & McDonough A. (2019): Nitrogen retention of terricolous lichens in a Northern Alberta jack pine forest. - Ecosystems, 22: 1308–1324.|
The Athabasca Oil Sands in Alberta, Canada, is one of the largest point sources of nitrogen oxides in Canada. There are concerns that elevated nitrogen (N) deposition will adversely impact forest ecosystems located downwind of emission sources. The role of the forest ﬂoor in regulating these potential eutrophication effects was investigated following a 5-year enrichment study in which N was applied as NH4NO3 above the canopy of a jack pine (Pinus banksiana Lamb) stand in northern Alberta close to Fort McMurray at rates ranging from 5 to 25 kg N ha-1 y-1 in addition to background deposition of approximately 2 kg N ha-1 y-1. Chemical analysis of lichen mats revealed that the N concentration in the apical (upper) lichen tissue and necrotic tissue increased with treatment. When expressed as a N pool, the ﬁbric–humic material held the largest quantity of N across all treatments due to its relatively large mass (172–214 kg N ha-1), but there was no signiﬁcant treatment effect. Soil net N mineralization and net nitriﬁcation rates did not differ among N treatments after ﬁve years of application. A 15N tracer applied to the forest ﬂoor showed that N is initially absorbed by the apical lichen (16.6% recovery), FH material (29.4% recovery), and the foliage of the vascular plant Vaccinium myrtilloides (31.7% recovery) in particular. After 2 years, the FH 15N pool size was elevated and all other measured pools were depleted, indicating a slow transfer of N to the FH material. Applied 15N was not detectable in mineral soil. The microbial functional gene ammonia monooxygenase (amoA) responsible for catalyzing the ﬁrst step in nitriﬁcation was undetectable using PCR screening of mineral soil microbial communities in all treatments, and broad fungal/bacterial qPCR assays revealed a weak treatment effect on fungal: bacterial ratios in mineral soil with decreasing relative fungal abundance under higher N deposition. This work suggests that terricolous lichen mats, which form the majority of ground cover in upland jack pine systems, have a large capacity to effectively retain elevated N deposition in soil humus. Key words: nitrogen; oil sands; eutrophication; lichens; nitrogen saturation.
|31692||Khadhri A., Mendili M., Araújo M.A.M. & Seaward M.R.D. (2019): Comparative study of secondary metabolites and bioactive properties of the lichen Cladonia foliacea with and without the lichenicolous fungus Heterocephalacria bachmannii. - Symbiosis, 79: 25–31.|
The phenolic, flavonoid, tannin and proanthocyanidin content of the lichen Cladonia foliacea with and without its lichenicolous fungus Heterocephalacria (Syzygospora) bachmannii was investigated. The phenolic compounds were quantified in organic extracts using ultrasonic extraction (acetone and methanol) and in milled material (the ground material diluted with microcrystalline cellulose). The total phenolic content depended on the solvent polarity, the extraction technique and the species. The results demonstrated that the highest total phenolic content was recorded in untreated milled material (935.75 μg GAE/g DW) of H. bachmannii plus C. foliacea, followed by C. foliacea (668.29 μg GAE/g DW). The antioxidant activities were evaluated by the in vitro scavenging capacity, iron reducing power, and iron chelating power. The results showed that the highest scavenging capacity were obtained in methanol extracts of C. foliacea with IC50 = 0.015 mg/mL, followed by methanolic extract of H. bachmannii plus C. foliacea that had a scavenging capacity and iron reducing power of (IC50 = 0.030 mg/mL and IC50 = 0.054 mg/mL, respectively). The milled material showed the highest iron chelating power (IC50 = 0.279 mg/mL). We conclude that Cladonia foliacea when parasitized by H. bachmannii possesses a high antioxidant potential in the methanolic extract. Acetone and methanol extracts, showed that extracts from lichen plus lichenicolous fungus contained different and possibly more effective bioactive molecules than the lichen alone. These included phenolic acids, alkanes and aromatic compounds. This is the first study to investigate the phenolic content and antioxidant capacity of a lichenicolous fungus, albeit based on differences between the lichen with and without the mycoparasite H. bachmannii. Keywords: Antioxidant capacity . FTIR . 1H NMR . Phenolic compounds . QUENCHER approach . Secondary metabolites . Syzygospora bachmannii .Tunisia.
|31691||Hilpold A., Seeber J., Fontana V., Niedrist G., Rief A., Steinwandter M., Tasser E. & Tappeiner U. (2018): Decline of rare and specialist species across multiple taxonomic groups after grassland intensification and abandonment. - Biodiversity and Conservation, 27: 3729–3744.|
Traditionally managed mountain grasslands are declining as a result of abandonment or intensification of management. Based on a common chronosequence approach we investigated species compositions of 16 taxonomic groups on traditionally managed dry pastures, fertilized and irrigated hay meadows, and abandoned grasslands (larch forests). We included faunal above- and below-ground biodiversity as well as species traits (mainly rarity and habitat specificity) in our analyses. The larch forests showed the highest species number (345 species), with slightly less species in pastures (290 species) and much less in hay meadows (163 species). The proportion of rare species was highest in the pastures and lowest in hay meadows. Similar patterns were found for specialist species, i.e. species with a high habitat specificity. After abandonment, larch forests harbor a higher number of pasture species than hay meadows. These overall trends were mainly supported by spiders and vascular plants. Lichens, bryophytes and carabid beetles showed partly contrasting trends. These findings stress the importance to include a wide range of taxonomic groups in conservation studies. All in all, both abandonment and intensification had similar negative impacts on biodiversity in our study, underlining the high conservation value of InnerAlpine dry pastures. Keywords: Biodiversity survey · Land-use change · Multi-taxon study · Trait-based approach · Biodiversity conservation.
|31690||Benítez Á., Aragón G. & Prieto M. (2019): Lichen diversity on tree trunks in tropical dry forests is highly influenced by host tree traits. - Biodiversity and Conservation, 28: 2909–2929.|
Tropical dry forests have been recognized as one of the most threatened ecosystems in the world due to deforestation. These ecosystems harbour a high endemicity of epiphytes, which play a major role in the functioning of the forests. Lichens constitute an important fraction of the epiphytes. These poikilohydric organisms respond drastically to disturbance, which is strongly linked to humidity and light availability. We hypothesized that richness and species composition of lichens would be related to differences in forest structure (e.g., canopy openness) promoted by deforestation, and by host tree characteristics, due to the fact that dry forests generally have poor microclimatic stratification and low diversity of tree species. In this study, we assessed the richness and composition of epiphytic lichens on the trunks of 513 trees in undisturbed and disturbed dry forests of southern Ecuador. Both lichen composition and richness were highly correlated with tree species and host tree traits such as bark structure and tree diameter. Additionally, epiphytic lichen diversity was related to canopy cover and tree richness at different disturbance levels. We conclude that epiphytic lichen communities in seasonal dry tropical forests of Ecuador are mainly limited by host tree traits and tree species. Loss of epiphytic lichen species in the studied forests is particularly due to loss of host trees such as Cochlospermum vitifolium and Eriotheca ruizii, that maintain high species richness. Keywords: Bark texture · Ecuador · Epiphytic communities · Forest disturbance · Lichens · Tree species.
|31689||Allen J.L., McMullin R.T., Tripp E.A. & Lendemer J.C. (2019): Lichen conservation in North America: a review of current practices and research in Canada and the United States. - Biodiversity and Conservation, 28: 3103–3138.|
Lichens are diverse symbiotic organisms that contribute essential functions to ecosystems worldwide. Generally, lichens are under-represented in conservation assessments and implementation when compared to other groups of organisms (e.g., plants and vertebrates). However, some progress has been made towards better conservation of lichens in recent decades. Here we review the current state of lichen conservation in Canada and the United States, a region that includes nearly 6000 species of lichens. Through detailed case studies, we document threats and declines of diversity and abundance, then review the legal frameworks that exist to protect lichens at different spatial scales in both countries. We highlight progress in effectively using ‘Big Data’ to inform conservation, monitoring rare and endangered species, expanding the professional capacity of lichenologists, and building interdisciplinary networks between scientists and the broader community of conservation and resource managers. Moving forward, there are clear actions that must be taken to accelerate lichen conservation. Keywords: Climate change · Fungi · Habitat loss · Land use · Mycology · Symbiosis.
|31688||Vondrák J., Urbanavichus G., Palice Z., Malíček J., Urbanavichene I., Kubásek J. & Ellis C. (2019): The epiphytic lichen biota of Caucasian virgin forests: a comparator for European conservation. - Biodiversity and Conservation, 28: 3257–3276.|
The north-western Caucasus is exceptional in Europe because of its 1.3 million hectares of unmanaged ‘virgin’ forest. The Caucasus State Nature Reserve protects some 200,000 hectares, but contiguous areas are exposed to forest loss, fragmentation and degradation. Such an extensive region of virgin forest provides a unique opportunity to document diversity along key ecological gradients for an undisturbed system in Europe. Focusing on lichen epiphytes, we surveyed local diversity hot-spots along a 1200 m altitudinal gradient. Our main results are that: (a) species richness is enormously high in 1-hectare plots (between 233 and 358) representing a new baseline for Europe, (b) species composition differs substantially among plots with turnover increasing for difference in altitude. Cumulative species richness along the gradient was 597. More than a half of detected species had an affinity for, or were restricted to either the lower or the uppermost parts of the altitudinal gradient. However, this was related to differences in forest structure, rather than altitude per se. Species richness in plots increased significantly with the proportion of sparse/open forest. Length of an ecotone line, number of available tree and shrub species and number of dominant tree species also tend to increase species richness. These four variables had higher values at the lower and upper parts of the gradient, than at mid-altitudes, explaining a bimodal relationship of species richness with altitude. We conclude that loss of forest habitat at the lower and upper margins of the altitudinal gradient will cause the most significant decline in epiphytic lichen diversity. Keywords: Altitudinal gradient · Diversity hot-spots · Species richness · Forest structure · Habitat conservation.
|31687||Yakovchenko L.S., Davydov E.A., Paukov A.G. & Ohmura Y. (2019): New records of lichens from the Russian Far East. I. Fuscidea submollis and other arctic-alpine species. - Turczaninowia, 22(3): 91–96.|
Fuscidea submollis Mas. Inoue is reported for the first time from the Russian Far East. Distinctive features of the taxon are discussed, and a comparison with known saxicolous Fuscidea V. Wirth & Vězda species with amyloid medulla is made. Three arctic-alpine species: Sporastatia testudinea (Ach.) A. Massal., Buellia concinna Th. Fr., Amygdalaria panaeola (Ach.) Hertel et Brodo, and Aspilidea myrinii (Fr.) Hafellner are recorded for the first time in the South Far East from the Sikhote Alin Range (Primorye Territory). Calvitimela aglaea (Sommerf.) Hafellner is reported for the first time from Sikhote Alin Range and Primorye Territory. Keywords: Asia, biogeography, Fuscideaceae, saxicolous lichen community, South Siberia.
|31686||Lehnert L., Thies B., Trachte K., Achilles S., Osses P., Baumann K., Schmidt J., Samolov E., Jung P., Leinweber P., Karsten U., Büdel B. & Bendix J. (2018): A case study on fog/low stratus occurrence at Las Lomitas, Atacama Desert (Chile) as a water source for biological soil crusts. - Aerosol and Air Quality Research, 18: 254–269.|
The Atacama Desert is well known for the high occurrence of large-scale fog (spatial extents: hundreds of kilometers) emerging as low stratus (LST) decks over the Pacific Ocean. By contrast, the small-scale and heterogeneous occurrence of small-scale fog (hundreds of meters) particularly during summers is widely unconsidered. However, these events are important for the local vegetation and particularly for the biological soil crusts (BSC) that are widely distributed in this extreme ecosystem. Consequently, a case study in a typical fog oasis in the Pan de Azúcar National Park was conducted to test the feasibility combining field measurements, drone profiling, remote sensing and numerical modeling (i) to investigate fog-type specific differences regarding dynamics, physical properties and formation, (ii) to test the applicability of remote sensing technology for fog monitoring based on existing low-resolution and a proposed new high-resolution product and (iii) to estimate the related fog water input to BSCs. Two types of fog were observed. The well-known fog/LST deck emerging from the Pacific Ocean with high water path and large spatial extent was the first type. Fog of the second type was patchier, small-scale and not necessarily connected to the LST over the ocean. Instead, fog formation of the second type was related to thermal breeze systems, which produced shallow clouds containing less water than those of type 1. In general, such small-scale fog events were not captured well by existing remote sensing products but could be detected with the proposed new high-resolution product which provided promising results. Both fog types were important water resources for the BSCs, with approximately 8% to 24% of the fog water flux available to the BSCs at the surface. The results indicated the feasibility of the proposed methods’ pool to estimate the water budget of BSCs with a high spatial resolution in the future. Keywords: Orographic fog; Landsat; WRF-modeling; Biological soil crusts; Vertical fog droplet spectra.
|31685||Williams L., Borchhardt N., Colesie C., Baum C., Komsic-Buchmann K., Rippin M., Becker B., Karsten U. & Büdel B. (2017): Biological soil crusts of Arctic Svalbard and of Livingston Island, Antarctica. - Polar Biology, 40: 399–411.|
Biological soil crusts (BSCs) occur in arid and semi-arid regions worldwide including the Polar Regions. They are important ecosystem engineers, and their composition and areal coverage should be understood before assessing key current functional questions such as their role in biogeochemical nutrient cycles and possible climate change scenarios. Our aim was to investigate the variability of BSCs from Arctic Svalbard and the Antarctic Island, Livingston, using vegetation surveys based on classification by functional group. An additional aim was to describe the structure of BSCs and represent a classification system that can be used in future studies to provide a fast and efficient way to define vegetation type and areal coverage. Firstly, this study demonstrates huge areas occupied by BSCs in Arctic Svalbard, with up to 90 % of soil surface covered, dominated by bryophytes and cyanobacteria, and showing an unexpectedly high variability in many areas. Livingston Island has lower percentage coverage, up to 55 %, but is dominated by lichens. Our findings show that both Polar Regions have varied BSC coverage, within the sites and between them, especially considering their harsh climates and latitudinal positions. Secondly, we have classified the BSCs of both areas into a system that describes the dominant functional groups and local geography, creating a simple scheme that allows easy identification of the prevailing vegetation type. Our results represent the first contribution to the description of BSCs based on their functional group composition in Polar Regions. Keywords: Biological soil crusts (BSCs); Vegetation; Functional groups; Svalbard; Livingston Island.
|31684||Bilovitz P.O., Tutzer V., Wallner A., Nascimbene J. & Mayrhofer H. (2014): Terricolous lichens in the glacier forefield of the Matscherferner (Eastern Alps, South Tyrol, Italy). - Acta ZooBot Austria, 150/151: 197–202.|
Two sampling sites were established at increasing distance from the glacier to investigate lichen communities on soil, plant debris and terricolous mosses in the glacier forefield of the Matscherferner. The survey yielded 34 lichen species and one lichenicolous fungus. In addition, 19 lichen species and one lichenicolous fungus were found by collecting at random, outside the two sampling sites. Keywords: Lichenized ascomycetes, biodiversity, ecology, flora, floristics, Alps, alpine belt, glacier retreat.
|31683||Zheng L.-J., Maier S., Grube M., Türk R., Gruber J.P. & Peer T. (2014): Alpine biological soil crusts on the Hochtor (Grossglockner high alpine route, Hohe Tauern, Austria): soils, function and biodiversity. - Acta ZooBot Austria, 150/151: 175–196.|
The Plattenkar, to the east of the Hochtor in the Hohe Tauern, is characterized by numerous karstic forms and by large areas of biological soil crusts (BSCs). BSCs were investigated in a comparative approach as a part of the international SCIN-project. The present study describes the predominant soil types (on fine weathered Rauwacke), compares the chemical and physical characteristics of BSC and underlying soil, and discusses the effects of BSCs on the composition of vascular plants. The most important factors characterizing the soil types in the study area are the BSC layer (composed primarily of microorganisms and lichens), eolian deposits, hydromorphic processes, and slides that lead to buried horizons. Finally, a new soil type “Biogene Krusten-Rendzina” is proposed. We also provide an overview of vascular plants, bryophytes and lichens that cover the BSC layer. The predominant phyla of bacteria and microfungi are presented for the first time from alpine BSCs on the Hochtor, and their ecosystem services such as nitrogen fixation and dissimilatory Fe(III) reduction are addressed. Keywords: Soil types, soil characteristics, Biogene Krusten-Rendzina, vascular plants, bryophytes, lichens, bacteria, microfungi.
|31682||Zschacke H. (1905): Vorarbeiten zu einer Moosflora des Herzogtums Anhalt. II. Die Moose des Nordostharzes. - Verhandlungen des Botanischen Vereins Berlin Brandenburg, 47: 223–316.|
Germany; lichens occassionally mentioned within text; at p. 315-316 appendix amended with a comprehensive list of lichens of N Harz ("Verzeichnis der von mir 1905 im Nordost-Harze und in seinem vorlande gesammelten Flechten")
|31681||Bültmann H. & Daniëls F.J.A. (2009): Die Flechtenflora des Naturschutzgebiets „Heiliges Meer“ bei Hopsten (Kreis Steinfurt), im Jahr 2009 unter besonderer Berücksichtigung der corticolen, lignicolen und terricolen Arten. - Abhandlungen aus dem Westfälischen Museum für Naturkunde, 71(4): 71–90.|
Die corticolen, lignicolen und terricolen Arten des Naturschutzgebietes „Heiliges Meer“ wurden im März 2009 aufgenommen und eine kommentierte Artenliste aller bisher aus dem Gebiet nachgewiesenen Arten zusammengestellt. In der vorliegenden Kartierung wurden 64 corticole, lignicole und terricole Arten nachgewiesen von jetzt insgesamt 95 für das Gebiet beschriebenen (dazu kommen bisher 21 nachgewiesene saxicole Flechten). Die im Gebiet gefundenen Flechtengesellschaften werden kurz umrissen. Gegenüber den Bearbeitungen von MUHLE (1967) und WOELM (1985) wurden 20 corticole, lignicole oder terricole Arten neu entdeckt, davon 14 auch neu für das Messtischblatt (MTB). Dreißig in den beiden anderen Arbeiten genannte Arten wurden dagegen nicht gefunden. Die Arealspektren zeigen im Vergleich zu 1967 und 1985 einen deutlichen Anstieg in der Artenzahl der corticolen Flechten mit mitteleuropäisch-mediterranem Arealtyp. Auch die Zeigerwerte ergeben eine geringfügige Erhöhung der Temperaturzahl. Eindeutig ist ebenfalls die Zunahme der nitrophytischen corticolen Arten v. a. hinsichtlich ihrer Häufigkeit. Für die Erdflechten der Heiden und Sandtrockenrasen wurde dagegen bereits 1985 eine Abnahme der Abundanz beschrieben, ein Trend, der sich bis heute fortsetzt. Klimaerwärmung, Eutrophierung oder Veränderungen im Pflegeregime können hier die Ursache sein.
|31680||Geringhoff H.J.T. & Daniëls F.J.A. (2003): Zur Syntaxonomie des Vaccinio-Callunetum Büker 1942 unter besonderer Berücksichtigung der Bestände im Rothaargebirge. - Abhandlungen aus dem Westfälischen Museum für Naturkunde, 65(3): 3–79 [+ Tabs 2–13].|
|31679||Krain V. (2003): Vegetationsökologische Untersuchungen zur calciphytischen Gesteinsflechtenvegetation des nordöstlichen Sauerlandes und zentralen Münsterlandes. - Abhandlungen aus dem Westfälischen Museum für Naturkunde, 65(4): 3–64.|
Zusammenfassung: Die calciphytische Gesteinsfiechtenvegetation des nordöstlichen Sauerlandes und des zentralen Münsterlandes wurde erstmals systematisch vegetationsökologisch untersucht und mit 221 Vegetationsaufnahmen dokumentiert. Die Bearbeitung erfolgte nach der Methode von Braun-Blanquet. Für die phytosoziologische Einordnung fragmentarisch entwickelter Flechtenvegetation fand erstmals die Methode der deduktiven Klassifikation (KoPECKY & HEJNY 1978, KoPECKY 1992; Derivat- /Basalgesellschaft) Verwendung. Die Standortanalyse erfolgte auf Basis der durch TWINSPAN (HILL 1979) abgesicherten Vegetationsaufnahmen. Es werden 12 Vegetationstypen vorgestellt. Zehn dieser Coena sind der Klasse Verrucarietea nigrescentis Wirth 1980 zuzuordnen. Der Verband Aspicilion calcareae Albertson 1946 ex Roux 1978 wird durch zwei Basalgesellschaften vertreten, die Bsg. Aspicilia contorta - [Aspicilion calcareae] und die Bsg. Aspicilia calcarea - [Aspicilion calcareae]. Diese Basalgesellschaften stellen fragmentarische Ausbildungen des Aspicilietum contortae Kaiser 1926 ex Klement 1955 bzw. des Aspicilietum calcareae (Du Rietz 1925) Klement 1955 em. Roux 1978 dar. Dem Verband Caloplacion decipientis Klement 1955 sind folgende Gesellschaften zugehörig: Das Caloplacetum teicholytae Wilmanns 1966. Gut entwickelte Bestände dieses Vegetationstyps sind nur im kernmünsterländischen Teil des Untersuchungsraumes zu finden. Das Physcio nigricantis - Candelarielletum mediantis Nowak 1960 in einer typischen Variante sowie einer Variante von Lecanora muralis. Das Caloplacetum saxicolae (Du Rietz 1925) Kaiser 1926, die Dg. (Derivatgesellschaft) Lecanora albescens [Caloplacion decipientis], die Bsg. Caloplaca fiavescens - [Caloplacion decipientis], die Gesellschaft von Lecania erysibe und Verrucaria muralis, das Caloplacetum citrinae (Galle 1930) Beschel 1950 und das Verrucario velanae - Caloplacetum xantholytae Nowak 1960. Dagegen ist die für schattige Massenkalkfelsen typische Gesellschaft von Bagliettoa steineri und Catillaria lenticularis in die Klasse Protoblastenietae immersae Roux 1978 prov. einzuordnen, ebenso das Gyalectetum jenensis Kaiser em. Roux & Wirth 1978.
|31678||Muhle H. (1967): Zur Flechtenflora des Naturschutzgebietes „Heiliges Meer" bei Hopsten (Westfalen). - Abhandlungen aus dem Westfälischen Museum für Naturkunde, 29(2): 40–45.|
Zusammenfassung: 73 Flechtenarten wurden in einem ca. 60 ha großen, diluvialen Sandgebiet mit eingestreuten Seen - z. T. rezente Nachsackungserscheinungen des bedeckten Karstes - wenige km nördlich vom Nordwesten (Kälberberg) des Teutoburger Waldes beobachtet.
|31677||Kleinebecker T., Vogel A. & Hölzel N. (2008): Die Vegetation ombrotropher Moore Südpatagoniens. - Abhandlungen aus dem Westfälischen Museum für Naturkunde, 70: 439–452.|
This paper gives an overview of South-Patagonian ombrotrophic peatland vegetation and summarizes floristic and ecological features of the major vegetation types. The most important coenocline in South Patagonian ombrotrophic bog vegetation is reflected by a gradient of continentality ranging from pacific blanket bogs dominated by cushion-building vascular plants via an ecotonal mixed type to Sphagnum-dominated continental raised bogs. Climatic constraints as well as biogeochemical peat characteristics significantly change along this gradient. At a local scale, South Patagonian bog vegetation shows a distinct variation along edaphic moisture gradients which is very similar to north-hemispherical ombrotrophic bog types. 8 lichen taxa are mentioned in the species list.
|31676||Ketner-Oostra R. & Sýkora K.V. (2008): Succession in lichen-rich vegetation in coastal dunes between 1995 and 2005. - Abhandlungen aus dem Westfälischen Museum für Naturkunde, 70: 125–142.|
Succession in lichen-rich stages of primary succession in calcium-poor coastal sand dunes was monitored from 1995 to 2005. The changes from lichen-rich to mossdominated stages in Corynephorus canescens grassland were related to acidification in connection with ageing of calcium-poor dune soil. Lichen diversity decreased and the terrestrial growing usually epiphytic species disappeared. The final stage in succession in the Violo-Corynephoretum (V.-C.) with mats of Cladina portentosa changed very slowly and this stage needs protection, especially from grazing, as it is a very vulnerable, and, if fragmented, it will be replaced by the neophytic moss Campylopus introflexus. Lichen diversity was neither restored by superficial cutting of sods in moss-encroached vegetation nor by fire in graminoid encroached V.-C. The best option in maintaining lichen vegetation in the V.-C. is to allow sand with a relatively high CaCO3 content to blow in. For sustainable conservation, formation of new dune ridges by natural processes is optimal or even necessary.
|31675||Sipman H. (2008): A remarkable new lichen from the Netherlands Antilles, Eremothecella microcephalica. - Abhandlungen aus dem Westfälischen Museum für Naturkunde, 70: 465–469.|
A description is presented for the new species of lichenized ascomycetes, Eremothecella microcephalica, and its affinity is discussed. The new species was discovered on the Windward Antilles, tropical America, and is characterised by rounded macropycnidia and microcephalic ascospores. Keywords: Arthoniomycetes, taxonomy, Caribbean, lichenized fungi, new species.
|31674||Türk R. (2017): Flechten: Eine verborgene Dreierbeziehung. Superorganismus "Flechte". - Natur und Land, 103(2): 20–24.|
|31673||Dittmann T., Heinken T. & Schmidt M. (2018): Die Wälder von Magdeburgerforth (Fläming, Sachsen-Anhalt) – eine Wiederholungsuntersuchung nach sechs Jahrzehnten. - Tuexenia, 38: 11–42.|
Between 1948 and 1950 the German phytosociologist Harro Passarge conducted 120 relevés in a 2,200 ha large forest area near Magdeburgerforth (Fläming, Saxony-Anhalt, NE Germany). The study area is characterized by a remarkable diversity of forest communities of the alliances Agrostio- Quercion petraeae, Alnion glutinosae, Alnion incanae, Carpinion betuli, Dicrano-Pinion and Quercion roboris. Because of this broad ecological spectrum, and because many processes which impact Central European forests today (nitrogen deposition, climate change) were not noticeable at the date of the first survey, it provides a good opportunity for a resurvey study after 60 years. As the position of Passarge’s relevés were not marked in a map, in the 2014 resurvey we sampled the most similar forest stands within a search area defined by the forest compartment and the Passarge vegetation map. In this way, 97 (81%) of the relevés could be repeated. Vegetation change was analysed by NMDS ordination and the comparison of α diversity, Ellenberg indicator values and linkage to forest habitats of species from both censuses, as well as by the identification of winner and loser species. Although, due to the methodology, only the smallest possible vegetation change was indicated, we nevertheless gained results which conform to those of resurveys based on quasi-permanent plots. The main trends (eutrophication, succession after management change, loss of plant species that are lightdemanding and linked to oligotrophic sites, spread of nitrophilous and mesophilous forest species, immigration of neophytes, no general decline in species richness) are in agreement with the results of several other resurvey studies in Central and Western European forests. Because of the wide spectrum of habitats within the study area (from wet to dry, as well as from acidic and nutrient-poor to relatively base-rich) we could demonstrate more clearly than in previous studies that the resilience of forests to vegetation change differs strongly according to the initial forest type, and that different drivers of temporal changes are active. Mesophilous forests (Stellario-Carpinetum and Luzulo-Quercetum) turned out to be relatively stable, while Circaeo-Alnetum forests also showed few signs of environmental change despite some species turnover. In contrast, forests of nutrient-poor habitats (Sphagno-Alnetum, Betulo- Quercetum, Dicrano-Pinion) were characterized by many loser species and a strong tendency towards eutrophication. Thermophilous forests and lichen-pine forests, which are especially dependent on historical forest management techniques, largely disappeared. Keywords: initial site conditions, nitrogen deposition, past land use, quasi-permanent plots, vegetation change, winner and loser species.
|31672||Stix S. & Erschbamer B. (2018): Zunahme der Artenvielfalt in zentralalpinen Mooren. - Tuexenia, 38: 251–267.|
Fens with their specialized plant communities are strictly protected in Europe. However, solid baseline data on fen development in relation to climate and landuse changes are hardly available. In order to close these gaps, long term studies are needed. This study investigates changes of fen vegetation at two locations in the Central Alps (inner Ötz valley, Tyrol, Austria) by comparing relevés from 1971 and 2014. In both fens species diversity increased. One former fen developed into a raised bog till 2014. Species number doubled, presumably cause of spatial differentiated vegetation development. The other location is characterized by two plant communities: the Amblystegio intermedii-Scirpetum austriaci where species number doubled within 40 years, and the Caricetum goodenowii which hardly changed. Species composition of both sites changed, but not with a trend to raised bog character. Since autogenic processes of vegetation development in fens need time, it can be hypothesized that allogenic processes or a mixture of both processes caused the detected species composition changes. Climate and landuse changes, especially climate warming and changes in pasture and forestry use and ski tourism with the therefore taken physical alterations, may be the most important driving forces. Keywords: Central Alps, climate, fen, landuse, species diversity, vegetation change.
|31671||Zięba A., Różański W. & Szwagrzyk J. (2018): Syntaxonomy of relic Swiss stone pine (Pinus cembra) forests in the Tatra Mountains. - Tuexenia, 38: 155–176.|
Pinus cembra forests in the Tatra Mountains were studied by MYCZKOWSKI (1970) and WOJTERSKA et al. (2004), and this research led to a description of a separate forest association called Cembro-Piceetum Myczkowski 1970 or, according to WOJTERSKA et al. (2004), Larici-Pinetum cembrae (Pallmann et Haffter 1933) Ellenberg 1963. However, due to insufficient data, the syntaxo-nomical status of Swiss stone pine forests remained arguable. Therefore, the aim of this study was to verify the syntaxonomical status of P. cembra forests in the Tatra as well as to check the possible oc-currence of these forests in the Western Tatra and on calcareous bedrock, which was omitted in earlier studies. We made 108 relevés based on the Braun-Blanquet method throughout the entire range of P. cembra. Data collected in the field were numerically analysed based on the modified Marczewski and Steinhaus similarity model. The classification was done for the qualitative and quantitative data using cluster analysis UPGMA. Each relevé was classified fourfold and identified based on the index of phytosociological agreement (IPA). Characteristic and differential species were identified by species percentage frequency, fidelity, cover ratio and dominance ratio. We determined two main syntaxonomi-cal units of relic Swiss stone pine forests, Vaccinio-Pinetum cembrae (Pallmann & Haffter 1933) Ober-dorfer 1962 and, on calcareous ground, Swertio perennis-Pinetum cembrae ass. nov. The Vaccinio-Pinetum cembrae was divided into two subassociations and three variants, while the Swertio perennis-Pinetum cembrae occurred in two variants. To establish their syntaxonomical status, data collected in the field were compared with relevés collected from the Tatra upper montane Picea abies forests, Tatra Pinus mugo shrubs, and Alpine P. cembra forests. Results of similarity analyses showed that relic P. cembra forests in the Tatra growing on granite bedrock are a distinct plant association, different from the Plagiothecio-Piceetum, and should be treated as one Swiss stone pine forest association Vaccinio-Pinetum cembrae, common to the Alps and to the Tatra. Furthermore, this study documented the occur-rence of P. cembra forests in the Western Tatra. Keywords: Vaccinio-Pinetum cembrae, Swertio perennis-Pinetum cembrae, phytosociology, Tatra Mountains, Central European upper montane forests, numerical classification.
|31670||Didukh Y.P. & Vasheniak Yu.A. (2018): Vegetation of limestone outcrops in Western and Central Podillia (Ukraine). - Tuexenia, 38: 419–444.|
This article characterises limestone outcrop vegetation. Such communities grow on limestone, chalk, gypsum and other kinds of rocks of the Devon and Paleogene period dispersed throughout Western and Central Podillia. The relief, geological structure, soil, distribution factors caused by climate, specificity and diversity of the communities and their particular floristic qualities are highlighted. The history of phytocoenological investigations of limestone outcrop communities in Ukraine is also shown. Syntaxonomical and ecological assessments with critical analyses and evaluations of 118 relevés, including bryophytes and lichens, were conducted based on scientific papers. Research activity involved the formation of a database with the help of TURBOVEG, processing the data with JUICE and creating clusters with the help of the Modified TWINSPAN algorithm and OptimClass. The resulting communities were assigned to two classes: the class Festuco-Brometea (order Brachypodietalia pinnati, alliance Cirsio-Brachypodion pinnati [Orchido militaris-Seslerietum heufleranae, Ranunculo zapalowiczi- Helictotrichetum desertori] and order Stipo pulcherrimae-Festucetalia pallentis, alliance Galio campanulati- Poion versicoloris [Schivereckio podolicae-Seselietum libanotidis, Poetum versicoloris]) and the class Sedo-Scleranthetea (order Alysso-Sedetalia, alliance Alysso-Sedion [Bryo argentei-Ajugetum chiae, Aurinio saxatilis-Allietum podolici]). Characteristics of the syntaxa are given, especially in case of newly described syntaxa. Syntaxonomical assignments were based on our preliminary results and need to be integrated into the comprehensive analyses of data from different countries. Based on the ECODID database (DIDUKH 2011), we considered 12 environmental factors to justify the position and assessment of syntaxa along environmental scales. Finally, some disputable questions regarding the syntaxonomical position of limestone outcrop communities are discussed. Keywords: dry grassland, Festuco-Brometea, Sedo-Scleranthetea, vegetation classification, Ukraine.
|31669||Neuwinger I. (1965): Die Vegetations und Bodenaufnahme als Beitrag zur Abgenzung von Standortseinheiten. - Mitteilungen der forstlichen Bundes-Versuchsanstalt Wien, 66: 129–158.|
The Vegetation and Soil Record as a Contribution to the Delimitation of Site Units
|31668||Mayer R. & Erschbamer B. (2012): Lärchen-Zirbenwälder und Zwergstrauch-heiden. - Publikationen Alpine Forschungsstelle Obergurgl, 2: 99–123.|
Cembran pine forests and dwarf shrub heaths are characteristic plant communities in the subalpine zone of the inner Oetz valley. In Obergurgl, a homogenously structured pine forest consists of old pines (Pinus cembra) in the terminal stage. The community was defined as Vaccinio-Pinetum cembrae nardetosum. According to tree crown cover and altitude, two variants were distinguished: a variant with Oxalis acetosella (higher tree crown cover, ≤2060 m a.s.l.) and a variant with Loiseleuria procumbens (lower tree crown cover, ≥2100 m a.s.l). The dwarf shrub heaths can be differentiated by canopy height and microrelief. They were attributed to the Rhododendretum ferruginei in troughs and the Loiseleurio-Cetrarietum on wind-exposed edges. Additionally, species composition and number of three dwarf shrub communities were studied for nine years (2000–2008) in 1-m² permanent plots. With the exception of the wind-exposed Loiseleurio-Cetrarietum, significant changes were detected in the dwarf shrub communities, probably caused by global climate warming, atmospheric nitrogen deposition and skiing.
|31667||Marstaller R. (2002): Die Moosgesellschaften des Schieferbergbaugebietes „Ausdauer“ bei Probstzella, Kreis Saalfeld-Rudolstadt. 93. Beitrag zur Moosvegetation Thüringens. - Hercynia, N.F., 35: 235–251.|
The bryophyte communities of the slate mining territory „Ausdauer“ near Probstzella, district Saalfeld-Rudolstadt. 93th contribution to the bryophyte vegetation of Thuringia. Bryosociology; numerous associated lichens listed.
|31666||Hartl H. (1978): Vegetationskarte der Großfragant (Hohe Tauern). - Carinthia II, 168/88: 339–367.|
Austria; lichens identified by R.Türk
|31665||Benzing A. & Bibinger H. (1968): Vegetationskundliche Notizen über das Blindensee-Moor (Mittlerer Schwarzwald). - Mitteilungen des Badischen Landesvereins für Naturkunde und Naturschutz e.V. Freiburg i. Br., N.F., 9(4): 741–754.|
peat-bog vegetation; numerous lichens listed
|31664||Silberberger I. (1992): Vegetation der nordöstlichen Kitzbüheler Alpen (subalpine und alpine Stufe) (Österreich). - Berichte des naturwissenschaftlichen-medizinischen Verein Innsbruck, 79: 103–122.|
Phytocenology; macrolichens included
|31663||Burgstaller B. & Schiffer R. (1995): Die aktuelle Vegetation des Gebietes um den Rifflsee (Pitztal, Nordtirol). - Berichte des naturwissenschaftlichen-medizinischen Verein Innsbruck, 82: 79–94.|
The current Vegetation of the Area around Lake "Rifflsee" (Pitztal, Northern Tyrol). The paper includes data on high-montane Vegetation including macrolichens.
|31662||Schiffner V. (1886): Beiträge zur Kenntniss der Moosflora Böhmens. - Lotos, N.F., 7: 111–145.|
Czech Republic, Praha; Pycnothelia papillaria (as Cladonia p.) listed as an associate to the liverwort Jungermannia bicrenata (p. 117; "bei den Steinbrüchen hinter Wolschan")
|31661||Bhattacharya D., Friedl T. & Damberger S. (1996): Nuclear-encoded rDNA group I introns: origin and phylogenetic relationships of insertion site lineages in the green algae. - Molecular Biology and Evolution, 13(7): 978–989.|
Group I introns are widespread in eukaryotic organelles and nuclear-encoded ribosomal DNAs (rDNAs). The green algae are particularly rich in rDNA group I introns. To better understand the origins and phylogenetic relationships of green algal nuclear-encoded small subunit rDNA group I introns, a secondary structure-based alignment was constructed with available intron sequences and 11 new subgroup ICI and three new subgroup IB3 intron sequences determined from members of the Trebouxiophyceae (common phycobiont components of lichen) and the Ulvophyceae. Phylogenetic analyses using a weighted maximum-parsimony method showed that most group I introns form distinct lineages defined by insertion sites within the SSU rDNA. The comparison of topologies defining the phylogenetic relationships of 12 members of the 1512 group I intron insertion site lineage (position relative to the E. coli SSU rDNA coding region) with that of the host cells (i.e., SSU rDNAs) that contain these introns provided insights into the possible origin, stability, loss, and lateral transfer of ICI group I introns. The phylogenetic data were consistent with a viral origin of the 1512 group I intron in the green algae. This intron appears to have originated, minimally, within the SSU rDNA of the common ancestor of the trebouxiophytes and has subsequently been vertically inherited within this algal lineage with loss of the intron in some taxa. The phylogenetic analyses also suggested that the 1512 intron was laterally transferred among later-diverging trebouxiophytes; these algal taxa may have coexisted in a developing lichen thallus, thus facilitating cell-to-cell contact and the lateral transfer. Comparison of available group I intron sequences from the nuclear-encoded SSU rDNA of phycobiont and mycobiont components of lichens demonstrated that these sequences have independent origins and are not the result of lateral transfer from one component to the other.
|31660||Warshan D., Liaimer A., Pederson E., Kim S.Y., Shapiro N., Woyke T., Altermark B., Pawlowski K., Weyman P.D., Dupont C.L. & Rasmussen U. (2018): Genomic changes associated with the evolutionary transitions of Nostoc to a plant symbiont. - Molecular Biology and Evolution, 35(5): 1160–1175.|
Cyanobacteria belonging to the genus Nostoc comprise free-living strains and also facultative plant symbionts. Symbiotic strains can enter into symbiosis with taxonomically diverse range of host plants. Little is known about genomic changes associated with evolutionary transition of Nostoc from free-living to plant symbiont. Here, we compared the genomes derived from 11 symbiotic Nostoc strains isolated from different host plants and infer phylogenetic relationships between strains. Phylogenetic reconstructions of 89 Nostocales showed that symbiotic Nostoc strains with a broad host range, entering epiphytic and intracellular or extracellular endophytic interactions, form a monophyletic clade indicating a common evolutionary history. A polyphyletic origin was found for Nostoc strains which enter only extracellular symbioses, and inference of transfer events implied that this trait was likely acquired several times in the evolution of the Nostocales. Symbiotic Nostoc strains showed enriched functions in transport and metabolism of organic sulfur, chemotaxis and motility, as well as the uptake of phosphate, branched-chain amino acids, and ammonium. The genomes of the intracellular clade differ from that of other Nostoc strains, with a gain/enrichment of genes encoding proteins to generate l-methionine from sulfite and pathways for the degradation of the plant metabolites vanillin and vanillate, and of the macromolecule xylan present in plant cell walls. These compounds could function as C-sources for members of the intracellular clade. Molecular clock analysis indicated that the intracellular clade emerged ca. 600 Ma, suggesting that intracellular Nostoc symbioses predate the origin of land plants and the emergence of their extant hosts. Key words: cyanobacteria, symbiosis, evolution, plant–microbe interaction.
|31659||Rama Krishna B., Ramakrishna S., Rajendra S., Madhusudana K. & Mallavadhani U.V. (2019): Synthesis of some novel orsellinates and lecanoric acid related depsides as α-glucosidase inhibitors. - Journal of Asian Natural Products Research, 21(10): 1013–1027.|
Sixteen novel orsellinic esters (6a-l, 7a-d) along with four lecanoric acid related depsides (3a-c, 4) were synthesized and confirmed their structures by spectroscopic data (1H, 13C & HRMS). The synthesized compounds were evaluated for their in vitro α-glucosidase (Saccharomyces cerevisiae) inhibitory potential. Among the tested compounds, 3c (IC50: 140.9 μM) and 6c (IC50: 203.9 μM) displayed potent α-glucosidase inhibitory activity and found more active than the standard drug acarbose (IC50: 686.6 μM). Both the test compounds were subjected to in vivo antihyperglycemic activity using sucrose loaded model in Wistar rats and found compound 3c exhibited significant reduction in glucose levels.
|31658||Bayazıt G., Gül Ü.D. & Ünal D. (2019): Biosorption of Acid Red P-2BX by lichens as low-cost biosorbents. - International Journal of Environmental Studies, 76(4): 608–615.|
The aim of this study is to examine the dye biosorption properties of lichen species called Cladonia convoluta and Evernia prunastri. Since lichens are extensively found in the environment, their suitability as a cheap adsorbent has been investigated in this study. The optimal parameters for textile dye biosorption were also determined. The dried lichen biomass showed better dye biosorption capacity than ash lichen biomass. C. convoluta had better dye biosorption capacity than E. prunastri. Dye biosorption rate was found as 71.41% at optimal conditions. This study concluded that C. convoluta was a successful and cheap biosorbent for treatment of water contaminated by Acid Red P-2BX dye. Keywords: Acid Red P-2BX, biosorption, lichen, wastewater treatment.
|31657||Demková L., Árvay J., Bobul’ská L., Hauptvogl M. & Michalko M. (2019): Activity of the soil enzymes and moss and lichen biomonitoring method used for the evaluation of soil and air pollution from tailing pond in Nižná Slaná (Slovakia). - Journal of Environmental Science and Health, Part A, 54(6): 495–507.|
The surrounding of the poorly maintained tailing ponds is endangered by the toxic substances and represents a serious risk for the health of the local population. The aim of the study was to determine the soil pollution by the hazardous elements (As, Cr, Cd, Cu, Fe, Mn, Ni, Pb, Zn) around the tailing pond using contamination factor (Cf), degree of contamination (Cd) and pollution load index (PLI). The health and the condition of soil were evaluated by soil enzyme activity (urease, acid and alkaline phosphatase, florescein diacetate, and ß-glucosidase). The spreading of the airborne hazardous elements from the body of the tailing pond was evaluated by moss and lichen bag technique and relative accumulation factor was used for the result expression. Cd, Fe, and Mn in soils reached above the limit values at all sampling sites. According to the degree of contamination (Cd), the soils at the sampling area were very high contaminated by As, Cd, Cu, Fe, Mn, Ni, and Pb. The most part of the assessed area was according to the PLI values extremely polluted. The air pollution was the most serious around the tailing pond, but serious levels of some hazardous elements were determined also in the remote distances. Keywords: Air pollution and soil pollution, tailing pond, environmental pollution indices, soil enzyme activity, moss and lichen bag technique.
|31656||Rodríguez-Quiel E.E., Mendieta-Leiva G. & Bader M.Y. (2019): Elevational patterns of bryophyte and lichen biomass differ among substrates in the tropical montane forest of Baru Volcano, Panama. - Journal of Bryology, 41(2): 95–106.|
Tropical montane forests support a high abundance and diversity of bryophytes and lichens on different substrates. However, quantitative information about how their biomass and water-holding capacity change with elevation is scarce. The current project assessed variation in the biomass and water-holding capacity of bryophytes and lichens on Baru Volcano, Panama. Methods: On the western slope, the bryophyte and lichen layer was collected from 600 cm2 plots on six substrate types with four replications at eight elevations along a gradient from 1900 to 3300 m a.s.l. We recorded the thickness, water-holding capacity and biomass of all samples, as well as environmental parameters. Key results: At lower elevations substrates had a similar biomass and water-holding capacity per area, but with increasing elevation terricolous substrates showed the strongest increase (highest values at 3100 m). These patterns are associated with climatic variation along the gradient. At the highest elevations, the forest was of low stature and more light reached the forest floor. Also at these high elevations fog provides a daily wetting of the bryophytes and lichens. At lower elevations the water supply is increasingly in the form of rain, which is less frequent than the fog. Conclusions: The apparent strong coupling of biomass variations to precipitation regimes implies a high sensitivity of the bryophytes and lichens to climatic warming and changes in the cloud base elevation. Furthermore our data suggest that the importance of bryophytes and lichens for regulating ecosystem water fluxes increases with elevation, which underlines the necessity to conserve intact montane forests. Keywords: Biomass; bryophytes; elevational gradient; hydrology; lichens; tropical montane cloud forest; waterholding capacity.
|31655||Milne D. (2019): Notes on ‘Lichen’. - Textual Practice, 33(6): 883–900.|
‘Notes on “Lichen”’ develops a lichenised homage to Susan Sontag’s ‘Notes on “Camp”’, rewilding Sontag’s essay to suggest a poetics of Lichen, a poetics associated symbiotically with the manifestos of Donna Haraway. This Lichen poetics engages with questions of symbiosis and solidarity, mutualism and collective voicing, sketching the turn away from humanist poetics as a critical characteristic of contemporary ecopoetics. From Conceptual Art to contemporary pop, lichen perspectives are gleaned. The attempt is made to rewild earlier conceptual formations, to recycle and repurpose shifts in contemporary taste and their associated politics. New faultlines in contemporary biopolitics are outlined. A chorus of micro-political shifts and transpositions are sketched, revealing emergent and potential turning-points in the rewilding of textual practice. Keywords: Susan Sontag, Donna Haraway, Lichen poetics, symbiosis, ecopoetics.
|31654||Paz-Bermúdez G. & Etayo J. (2019): On three lichenicolous species on Roccella montagnei from Angola with a description of the new species Lecanographa rosea (Lecanographaceae) and a key to the lichenicolous fungi growing on Roccella (Roccellaceae). - Nova Hedwigia, 108: 547–554.|
Three species of lichenicolous fungi have been found growing on Roccella montagnei in Angola: Lecanographa imitans, Milospium graphideorum, and the newly described Lecanographa rosea, a species with pinkish ascomata, a poorly developed exciple and hyaline, 3-septate ascospores. A revised key of all known, lichenicolous fungi growing on Roccella is provided. Key words: Africa; fungi; Lecanographa imitans; Milospium graphideorum; taxonomy.
|31653||Moisejevs R., Motiejūnaité J. & Lõhmus P. (2019): Lichen assemblages on Scots pine stumps and fine woody debris in hemiboreal post-harvest sites: the impact of site age and green tree retention. - Nova Hedwigia, 109: 247–266.|
Retention of live trees and dead wood structures in clear-cut sites is a common sylviculture measure for biodiversity purposes. We studied lichen assemblages on pine stumps and fine woody debris (FWD) in 16 post-cut (4–6 and 9–11 yr. old) dry boreal pine stands in Latvia to explore what type of substrata and stand-scale characters (e. g., retention level, time since harvest) are related to lichen species richness and differences in composition. We found 48 lichen species on stumps and 43 species on FWD. Majority of the species (except Cladonia parasitica) were common lichens of coniferous forests in hemiboreal regions. Time since harvest and retention level had positive impacts on richness on stumps, but not on FWD. Increase in total species richness on stumps in older post-harvest sites compared to the younger ones was strong and relatively rapid. Notwithstanding species richness, assemblages on FWD and on stumps were distinct between older and younger cut sites. The impact of time also emerged when assemblages on vertical and horizontal stump surfaces were separated. We conclude that pine stumps are important to lichen richness and post-harvest recovery of the epixylic lichen biota, especially in the face of alarming scarcity of snags and logs in cut-over sites in Latvia, where dead wood legacies (particularly snags) are not retained in sufficient amount. Key words: coarse woody debris; epixylic; species diversity; logging; Latvia.
|31652||Lücking R. (2019): Stop the abuse of time! Strict temporal banding is not the future of rank-based classifications in fungi (including lichens) and other organisms. - Critical Reviews in Plant Sciences, 38(3): 199–253.|
Classification is the most important approach to cataloging biological diversity. It serves as a principal means of communication between scientific disciplines, as well as between scientists on one hand and lawmakers and the public on the other. Up to the present, classification of plants, fungi, and animals follows the fundamental principles laid out more than 250 years ago by Linnaeus, with less changes in the formalistic approach although with somewhat diverging rules for plants and fungi on one hand and animals on the other. Linnean classifications obey two fundamental rules, the binomial as basic format for species names, including a genus-level name and a specific epithet, and rank-based higher classifications, with the main ranks encompassing genus, family, order, class, phylum (division), and kingdom. Given that molecular phylogenies have reshaped our understanding of natural relationships between organisms, and following the cladistic principle of monophyly which defines groups but not ranks, it has been repeatedly argued that rank assignments are artificial and subjective, with the suggestion to either abandon rank-based classifications altogether or apply more objective criteria to determine ranks. The most fundamental of such approaches has been the correlation of rank with geological (evolutionary) age, first established by Hennig in the middle of the past century and around the turn of the millenium formalized as “temporal banding,” based on the advent of the molecular clock. While initially the temporal banding approach received less attention, in the past ten years several major studies mostly in vertebrates (birds, mammals) and fungi (chiefly lichenized lineages) have proposed novel classifications based on a strict temporal banding approach, partly with highly disruptive results. In this paper, the temporal banding approach is critically revised, pointing out strengths and flaws, and “best practice” recommendations are given how to employ this technique properly and with care to improve existing classifications while avoiding unnecessary disruptions. A main conclusion is that taxa recognized at the same rank do not have to be comparable in age, diversity, or disparity, or any other single criterion, but their ranking should follow integrative principles that best reflect their individual evolutionary history. In a critical appraisal of changes to the classification of Lecanoromycetes (lichenized Fungi) proposed based on temporal banding, the following amendments are accepted: Ostropales split into Graphidales, Gyalectales, Ostropales s.str., and Thelenellales; Arctomiales, Hymeneliales, and Trapeliales subsumed under Baeomycetales; Letrouitiaceae subsumed under Brigantiaeaceae; Lobariaceae and Nephromataceae subsumed under Peltigeraceae; Miltideaceae subsumed under Agyriaceae, and Protoparmeloideae and Austromelanelixia as new subfamily and genus within Parmeliaceae. The following changes are not accepted: Rhizocarpales split into Rhizocarpales s.str. and Sporastatiales (no information gain); Sarrameanales split into Sarrameanales s.str. and Schaereriales (no information gain); Carbonicolaceae subsumed under Lecanoraceae (topological conflict); Graphidaceae split into Diploschistaceae, Fissurinaceae, Graphidaceae s.str., Thelotremataceae (no information gain, topological conflict); Ochrolechiaceae split into Ochrolechiaceae s.str., Varicellariaceae, and Variolariaceae (no information gain, nomenclaturally incorrect); Porinaceae replaced by Trichotheliaceae (nomenclaturally incorrect); Ramalinaceae split into Biatoraceae and Ramalinaceae s.str. (no information gain, topological conflict); Stereocaulaceae subsumed under Cladoniaceae (nomenclaturally incorrect); Thrombiaceae subsumed under Protothelenellaceae (topological conflict); and all proposed genus level synonymies in Parmeliaceae. New fungal taxa: The new order Odontotrematales Lücking ordo nov. is established for the family Odontotremataceae s.str., based on topological grounds. Keywords: Aves; Bromeliaceae; Bryopsida; Cactaceae; Cebidae; Dendrobatidae; Diptera; Drosophila; Gregg’s paradox; Hominidae; Icmadophilaceae; Insecta; Iguanidae; lichens; Magnoliopsida; Mammalia; Megalospora; Metazoa; Oropogon; paraphyly; Parmotrema; Plantae; Teloschistaceae; Usnea; Xanthoparmelia.
|31651||Evans D.J.A., Guðmundsson S., Vautrey J.L., Fearnyough K. & Southworth W.G. (2019): Testing lichenometric techniques in the production of a new growth-rate (curve) for the Breiðamerkurjökull foreland, Iceland, and the analysis of potential climatic drivers of glacier recession. - Geografiska Annaler: Series A, Physical Geography, 101(3): 225–248.|
Independent dating of closely-spaced moraines on the west Breiðamerkurjökull foreland is used to test the accuracy of the size frequency (SF) and largest lichen (5LL) lichenometric dating techniques. The 5LL technique derived the most accurate ages for three undated moraines within the dated sequence but growth rates and lag times produced by the two methods (5LL = 0.71 mm yr−1 and 11 years; SF = 0.64 mm yr−1 and 7 years) were not significantly different. We therefore reject previous conclusions that any one technique is demonstrably inferior to the other, at least for dating glacial landforms created over the last 130 years in SE Iceland. Comparisons of climate trends and recession rates indicate that air temperature anomalies, particularly those of the summer, are the strongest driver of glacier retreat. No clear relationship between NAO trends and glacier retreat were identified, although a positive and/or rising trend in NAO is associated with the slowing of ice retreat overall, and the marked readvances of the mid-1950s, mid-1970s and mid-1990s are all coincident with positive and/or rising NAO 5yr moving averages. Summer and annual temperature trends, not the NAO, clearly show that recent accelerated global warming is driving the marked recession of the period 1995–2015. Over the last 100 years temperature has been the major driver of glacier terminus oscillations at west Breiðamerkurjökull but it is clear that extreme decreases in winter precipitation (i.e. 1960–1973) have the potential to increase retreat rates significantly even during times of below average annual temperatures. Keywords: Lichenometry, glacier retreat, Breiðamerkurjökull, historical glacier-climate relations.
|31650||Esslinger T.L. (2019): A cumulative checklist for the lichen-forming, lichenicolous and allied fungi of the continental United States and Canada, version 23. - Opuscula Philolichenum, 18: 102–378.|
Version 23 of the checklist of lichen-forming, lichenicolous and allied fungi occurring in North America north of Mexico is presented. It includes a total of 5,618 species in 766 genera, with an additional 44 subspecies, 45 varieties, and 3 forms. The total species number includes 631 lichenicolous fungi, 107 saprophytic fungi related to lichens or to lichenicolous fungi, and another 63 species of varying and/or uncertain biological status. Keywords. – Canada, floristics, lichens, nomenclature, United States.
|31649||Wiersma Y.F. & McMullin R.T. (2019): Out with proxies, in with biodiversity. - Frontiers in Ecology and the Environment, 17(7): 371–373.|
Correspondence / forum; Reply to criticism by Janssen P., Bergès L., Fuhr M. & Paillet Y. (2019): Do not drop OLD for NEW: conservation needs both forest continuity and stand maturity. Frontiers in Ecology and the Environment 17(7): 370–371. "Janssen et al. suggest that lichens are not the best indicators because some species are not dispersal limited and mainly respond to tree-level characteristics. We disagree; many lichens appear to be dispersal limited (Goward 1994; Sillett et al. 2000; Goward and Arsenault 2018). Indeed, Nordén and Appelqvist (2001) – one of the references cited by Janssen et al. – provided no empirical evidence that lichens are dispersal limited; in their literature review, they suggested that lichens used to measure forest continuity may be present in overmature stands in recent forests and, as such, may be unsuitable indicators of continuity. While this may be true, no lichens were tested. Moreover, as we previously stated, there are many variables in addition to continuity that influence species composition, and we are interested in the species present, not in how well those species indicate continuity. More recently, Goward and Arsenault (2018) showed that the colonization of calicioid lichens and fungi (the species we proposed as some of the best indicators) continues in old-growth forests in British Columbia over 500 years after establishment. This would not occur without dispersal limitation. Even if these lichen species were not dispersal limited, dispersal capabilities remain another variable that can confound conservation efforts and another reason to focus on the presence of unique biodiversity."
|31648||Kaiser E. (1944): Die Steppenheiden des mainfränkischen Welienkalkes zwischen Würzburg und dem Spessart. - Berichte der Bayerischen Botanischen Gesellschaft, 28: 125–180.|
steppe-like xerotherms; numerous calciphilous lichens listed
|31647||Suessenguth K. (1949): Zur Flora des Gebietes der Berliner Hütte in den Zillertaler Alpen. - Berichte der Bayerischen Botanischen Gesellschaft, 29: 72–82.|
Alps; more than dozen lichens listed (p. 75; identified by F. Mattick)
|31646||Dürhammer O. (2009): Kartierung von Kryptogamen im Zeitalter von GPS und modernen Eingabeprogrammen. - Berichte der Bayerischen Botanischen Gesellschaft, 79: 79–88.|
Modern methods of biological data mapping in the field are shown instance of some kryptogamic groups. The individual techniques have advantages and disadvantages. But for all that advancements the old technique with paper and pencil is propagated. The described improved method to take notes in the field with selective use of GPS-appliance is demonstrated as to be timesaving. The technique allows to concentrate on the species.
|31645||Ходосовцев О.Є., Бойко М.Ф., Громакова А.Б., Малюга Н.Г. & Дармостук В.В. [Khodosovtsev A.Ye., Boiko M.F., Gromakova A.B., Maliuga N.G. & Darmostuk V.V.] (2019): Сергій Якович Кондратюк: 60 років з дня народження [Sergei Y. Kondratyuk: 60th birthday]. - Чорноморський ботанічний журнал [Chornomorski Botanical Journal], 15(2): 202–213.|
[in Ukrainian] anniversary, list of taxa (co-)described by Kondratyuk amended.
|31644||Ходосовцев О.Є., Дармостук В.В., Мойсієнко I.I., Захарова М.Я. & Деркач О.М. [Khodosovtsev A.Ye., Darmostuk V.V., Moysiyenko I.I., Zakharova M.Ya. & Derkach O.M.] (2019): Fulgensia desertorum (Teloschistales, Teloschistaceae) та інші вразливі лишайники в угрупованні Toninio-Psoretum decipientis [Fulgensia desertorum (Teloschistales, Ascomycota) and other rare species in the association Toninio-Psoretum decipientis]. - Український Ботанічний Журнал [Ukrainian Botanical Journal], 76(3): 236–242.|
[in Ukrainian with English abstract: ] The second record of Fulgensia desertorum in Ukraine is reported. The lichen was found on loess outcrops along the right bank of the Bug River estuary (between villages Kotylyne and Prybuzke, Ochakiv District, Mykolaiv Region). It was observed on a gentle northern slope of the ravine near a cliff. The extent of its occurrence was calculated as 0.01 ha and its area of occupancy – 25 ha. Fulgensia desertorum was found in xerophytic association Toninio-Psoretum decipientis, which is newly reported for Ukraine. These communities occupy disjunct areas on open landscapes without plant cover along the right bank of the Dnipro-Bug estuary. In total, F. desertorum, sixteen species of lichens and lichenicolous fungi were recorded. Among them, Squamarina lentigera is listed in the Red Data Book of Ukraine and Psora decipiens is a candidate for inclusion in the next edition of the Red Data Book of Ukraine. Endocarpon pusillum, Fulgensia fulgens, and Megaspora verrucosa are rare lichen species which need to be protected at the regional level. Lichenicolous fungi Lichenohendersonia squamarinae on Squamarina lentigera, Didymellopsis perigena on Megaspora verrucosa are the first reports in Mykolaiv Region. Didymocyrtis cladoniicola is found for the first time on Fulgensia desertorum. The association Toninio-Psoretum decipientis is in urgent need of inclusion into the new edition of the Green Data Book of Ukraine. This association is a component of the habitat E1.2D21 – Sarmatic loess steppes (EUNIS). This habitat includes vascular plant communities of the union Festucion valesiacae as well. Prybuzki Reserve of regional level (zakaznyk) is proposed to be established for conservation of lichen species Fulgensia desertorum, Squamarina lentigera, as well as the threatened lichen community Toninio-Psoretum decipientis and the habitat of the Sarmatic loess steppes in general. Keywords: conservation, Dnipro-Bug estuary, habitats, loess cliffs, Festucion valesiacae, Red Data Book of Ukraine, Psoretea decipientis.
|31643||Дармостук В.В. [Darmostuk V.V.] (2019): До вивчення ліхенофільної мікобіоти України: рід Zwackhiomyces (Xanthopyreniaceae, Collemopsidiales) [Additions to the lichenicolous mycobiota of Ukraine: the genus Zwackhiomyces (Xanthopyreniaceae, Collemopsidiales)]. - Український Ботанічний Журнал [Ukrainian Botanical Journal], 76(4): 301–315.|
[in Ukrainian with English abstract: ] A taxonomic revision of the genus Zwackhiomyces in Ukraine is provided. The genus is characterized by globose to pyriform ascomata, brown wall pigments deposited between the cells, branched and anastomosing interascal filaments, fissitunicate asci and 0–1-sepate hyaline ascospores. Previously, ten species of Zwackhiomyces were known in Ukraine. They are Z. berengerianus, Z. calcariae, Z. cervinae, Z. coepulonus, Z. diederichii, Z. dispersus, Z. lecanorae, Z. lithoiceae, Z. polischukii, and Z. sphinctriniformis. Three species, Zwackhiomyces calcisedus, Z. inconspicuus, and Z. macrosporus, are for the first time reported in the country. Zwackhiomyces dispersus is a new record for the plain part of Ukraine. All species of these lichenicolous fungi were found on 10 different host genera. Rinodina calcarea is a new host species for Z. inconspicuus. All examined species have commensal life strategies, and infection does not cause any visible damage or discoloration of the host thallus and apothecia. Zwackhiomyces lecanorae and Z. inconspicuus can grow on several different host genera. Other species show strict host specificity. Two species, Z. coepulonus and Z. lecanorae, are apparently widespread in Ukraine. Description, host lichen species, data about distribution, examined specimens and notes are provided for each species. An original key to species of Zwackhiomyces in Ukraine is proposed. Keywords: lichenicolous life strategy, new records, phycoparasites.
|31642||Janssen P., Bergès L., Fuhr M. & Paillet Y. (2019): Do not drop OLD for NEW: conservation needs both forest continuity and stand maturity. - Frontiers in Ecology and the Environment, 17(7): 370–371.|
Correspondence / forum; criticism of the paper: McMullin R.T. & Wiersma Y.F. (2019): Out with OLD growth, in with ecological continNEWity: new perspectives on forest conservation. Frontiers in Ecology and the Environment, 17(3):176–181. "The use of forest continuity as a criterion for biodiversity conservation depends on reliable methods and sources, notably involving maps depicting historical land uses. Although the use of lichens as potential indicators of ancientness remains largely unexplored, we are not convinced that this taxon would be the best candidate (Dittrich et al. 2013; Ódor et al. 2013). Indeed, lichen species, at least epiphytic ones, largely depend on tree characteristics, notably tree diameters and deadwood (Nascimbene et al. 2013), which are stand maturity attributes. Moreover, the dispersal ability of these species remains unclear, and several specialized species have been found to benefit from long-distance dispersal events (Nordén and Appelqvist 2001; Werth et al. 2006). We therefore believe that the proposed lichen-based index for quantifying the relative value of forests could be better suited to identify overmature stands in ancient forests. Also, because their approach focused on lichens, we feel that McMullin and Wiersma overlooked research on the link between ancientness and other taxa over the past six decades in Europe and North America. In particular, numerous studies have highlighted clear links between forest continuity and vascular plants (Verheyen et al. 2003; Flinn and Vellend 2005), a taxonomic group that – relative to lichens – is much more accessible to forest managers, and many regional lists of ancient forest plant species have been developed (Hermy et al. 1999; Bergès et al. 2016). To maximize the effectiveness of conservation measures, we thus encourage further research efforts that aim to disentangle the relative influence of forest continuity and stand maturity on forest biodiversity."
|31641||Pasiche-Lisboa C.J., Booth T., Belland R.J. & Piercey-Normore M.D. (2019): Moss and lichen asexual propagule dispersal may help to maintain the extant community in boreal forests. - Ecosphere, 10(9):e02823 [13 p.].|
Asexual propagules produced by mosses and lichens may help to maintain their community composition in boreal forests. Understanding the factors affecting the deposition of asexual propagules and their link with the community composition may reveal how the community is maintained. The goal of this study was to understand how weather, the community of lichens and mosses, the dominant tree species in a stand, substrata, and tree aspect influenced and were linked to the deposition of asexual propagules (quantity, size, and type) in boreal forests. Species richness and cover were assessed for the substrata within the tree stands. Traps attached to trees and the ground (substrata) in balsam fir‐, white spruce‐, and poplar‐dominated stands were used to capture asexual propagules. Species and quantity of trapped asexual propagules were linked to the species richness and cover of the extant community. Propagules captured were dominated by lichen thallus fragments and were smaller and in higher quantities during colder times of the year, and in higher quantities and smaller sizes mostly on trees of conifer stands. Moss propagules were captured in low quantities compared to lichen propagules, on the forest floor, but mostly during warmer times of the year. The dispersal of mosses and lichen asexual propagules helps to maintain and is linked to their community in boreal forests. The linkage between asexual propagule deposition and the community (richness and abundance) was observed among lichen and moss communities on poplar trees, conifer trees, or the forest floor of boreal forest stands. Key words: cryptogams; fungal dispersal; plant dispersal; propagule dispersal.
|31640||Prokop′ev I.A. & Filippova G.V. (2019): Antioxidant activity of secondary metabolites from Cladonia lichens. - Chemistry of Natural Compounds, 55(5): 495–497.|
[Translated from the Russian original published in Khimiya Prirodnykh Soedinenii, No. 5, September–October, 2019, pp. 813–814.]
|31639||Voříšková J., Elberling B. & Priemé A. (2019): Fast response of fungal and prokaryotic communities to climate change manipulation in two contrasting tundra soils. - Environmental Microbiome, 14:6 [15 p.].|
[part of discussion at p. 10:] "Fungal community composition on order and phylum levels differed substantially between the dry and the wet sites (Fig. 2). At the dry site, the majority of identified sequences belonged to Ascomycota with the most abundant order Helotiales reported as a dominant fungal group in Arctic soils [28, 30, 89]. Interestingly, Basidiomycota dominated the wet site (Fig. 2). With respect to functional groups, ectomycorrhizal fungi showed highest relative abundance at both sites, followed by lichenized fungi at the dry site and saprotrophic fungi at the wet site (Fig. 4), which is in accordance with a study from Alaskan tundra . We conclude that ectomycorrhizal and saprotrophic fungi were more abundant at the wet site whereas conditions at the dry site favored lichenized fungi (Fig. 4a). However, taking fungal biomass at the individual sites into consideration, the dry site harbored a higher amount of ectomycorrhizal and saprotrophic fungi compared to the wet site (Fig. 4b), despite their lower sequence proportion. The higher proportion of lichenized fungi in dry tundra and almost no occurrence in wet tundra are likely due to denser vascular vegetation at the wet site, which outcompeted lichens preferring poorly vegetated habitats ."
|31638||Kalb K. & Schumm F. (2019): A new synonym and a new species in the lichen genus Dirinaria. - Archive for Lichenology, 13: 1–4.|
A restudy of two lichen taxa described by de Lesdain from Cuba revealed one later synonym of Dirinaria purpurascens and a new species, Dirinaria flavida, the primary species of D. flava.
|31637||Aptroot A. & Stapper N.J. (2019): Szczawinskia tsugae in Deutschland gefunden, eine für Europa neue Flechte. - Archive for Lichenology, 14: 1–6.|
In 2018, Szczawinskia tsugae A. Funk was detected on the trunk of a field maple tree (Acer campestre) during the inventory of epiphytic lichens as part of a permanent forest monitoring program in Baden-Württemberg (Germany).
|31636||Bystrek J. & Leśniewska J. (2018): Usnea jørgenseniana Bystr. & Leśniewska sp. nova Usnea (subgen. Usnea, Parmeliaceae) in Sweden. - Annales Universitatis Marie Curie-Skłodowska, Sectio C - Biologia [Lublin], 73: 31–39.|
Usnea jørgenseniana Bystr. & Leśniewska sp. nova, an epixilic species of bushy Usnea (Parmeliaceae) in Sweden, is similar to U. hirta var. minutissima (Mer.) Bystr., but the similarity to U. hirta is apparent. U. jørgenseniana is not a species from the foveatae Mot. section. The lack of soralia and a very small thallus (0.3–2.0 cm) makes it difficult to locate U. jørgenseniana in the section Comosae Mot. It colonizes exceptionally unfavorable climatic conditions, a coprophilous species. Collected by G. Ohrstedt in 1937. Dozens of specimens from one position. Keywords: Usnea jørgenseniana Bystr. & Leśniewska sp. nova, (Ascolichenes), taxonomy.
|31635||Szatala Ö. (1915): Peltigera erumpens (Tayl.) Wainio Magyarország zuzmóflórájában – Peltigera erumpens (Tayl.) Wainio in der Flechtenflora von Ungarn. - Magyar Botanikai Lapok, 14: 281–282.|
Hungary; Peltigera didactyla
|31634||Schneider T. (1941): Zur Flechtenflora der Schwellenburg. - Mittheilungen des Thüringischen Botanischen Vereins, N.F., 47: 140–150.|
|31633||Senft E. (1907): Über eigentümliche Gebilde in dem Thallus der Flechte Physma dalmaticum A. Zahlbr.. - Sitzungsberichte Kaiserliche Akademie der Wissenschaften in Wien, Mathematisch-Naturwissenschaftliche Klasse, Abt. I, 116: 429–438.|
|31632||Schneider T. (1936): Cladonia alpestris (L) Rabenh. Wain, im Thüringer Wald!. - Mittheilungen des Thüringischen Botanischen Vereins, N.F., 43: 19–22.|
Thuringia; Cladonia stellaris
|31631||Schubert R. (1974): Übersicht über die Pflanzengesellschaften des südlichen Teiles der DDR VIII. Basiphile Trocken- und Halbtrockenrasen. - Hercynia, 11: 22–46.|
|31630||Schubert R. (1974): Übersicht über die Pflanzengesellschaften des südlichen Teiles der DDR IX. Mauerpfefferreiche Pionierfluren. - Hercynia, 11: 201–214.|
|31629||Steiner J. (1900): Lichenes. – In: Fritsch K., Beiträge zur Flora von Constantinopel. Bearbeitung der von J. Nemetz in den Jahren 1894–1897 in den Umgebungen von Constantinopel gesammelten Pflanzen. I. Kryptogamen. - Denkschriften der Kaiserlichen Akademie der Wissenschaften, Mathematisch-Naturwissenschaftliche Classe, 68: 222–238.|
Turkey; new taxa: Ramalina nuda, Rinodina subrufa, Caloplaca (sect. Blastenia) ochronigra, Lecanora luteorufa, Lecanora (sect. Aspicilia) connectens, Haematomma nemetzi, Buellia scutariensis, Catocarpon simillimum var. subplumbeum, Secoliga denigrata, Arthonia turcica, Pharcidia leptaleae.
|31628||Krumbiegel A. & Otto B. (1999): Die Vegetation der Abraumhalden des Steinkohlentiefbaues nördlich von Wettin (Saalkreis, Sachsen-Anhalt). - Hercynia, N.F., 32: 251–274.|
Keywords: coal mine spoils, primary succession, woody vegetation, dry and semi dry grassland vegetation.
|31627||Osswald L. (1896): Aus dem Leben Wallroth's. - Mittheilungen des Thüringischen Botanischen Vereins, N.F., 9: 14–27.|
|31626||Quelle F. (1904): Die Kryptogamen in Thals „Sylva Hercynia“. - Mittheilungen des Thüringischen Botanischen Vereins, N.F., 19: 49–59.|
|31625||Hasslinger J. (1904): Die Wirkung der Dürre des Sommers 1904 auf die Pflanzen Prags. - Lotos, 52: 142–148.|
Czech Republic, Prague; one lichen listed among herbs (Cladonia pyxidata)
|31624||Schütt B. (1932): Die Beziehungen zwischen Atmung und Temperatur bei der Renntierflechte. - Abhandlungen des naturwissenschaftlichen Vereins Bremen, 22: 267–270.|
Cladonia (Cladina), Lobaria; ecophysiology
|31623||Schütt B. (1931): Flechtenstoffe in Cladonien. (I.) Cladonia mitis Sandst. CI. exs. 55. - Abhandlungen des naturwissenschaftlichen Vereins Bremen, 22: 87–90.|
|31622||Schütt B. (1931): Flechtenstoffe in Cladonien. (II.). - Abhandlungen des naturwissenschaftlichen Vereins Bremen, 22: 183–192.|
|31621||Osswald L. & Quelle F. (1907): Beiträge zu einer Flechtenflora des Harzes und Nordthüringens. - Mittheilungen des Thüringischen Botanischen Vereins, N.F., 22: 8–25.|
|31620||Szatala Ö. (1943): Lichenes. – In: Rechinger K.H., Flora Aegaea. Flora der Inseln und Halbinseln des ägäischen Meeres. - Denkschriften der Akademie der Wissenschaften, Mathematisch-Naturwissenschaftliche Classe, 105: 16–58.|