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Phylogeographic reconstructions can be biased by ancestral shared alleles: the case of the polymorphic lichen <em>Bryoria fuscescens</em> in Europe and North Africa
Boluda, C. G., Rico, V. J., Naciri, Y., Hawksworth, D. L., & Scheidegger, C. (2021). Phylogeographic reconstructions can be biased by ancestral shared alleles: the case of the polymorphic lichen Bryoria fuscescens in Europe and North Africa. Molecular Ecology. https://doi.org/10.1111/mec.16078
Biology roadmap for research infrastructures 2025-2028 by the Swiss Biology Community
Brunner, D., Durinx, C., Erb, M., Fischer, M., Hari, Y., Jazwinska, A., … Walter, A. (2021). Biology roadmap for research infrastructures 2025-2028 by the Swiss Biology Community. (Swiss Academies Reports). Swiss Academy of Sciences (SCNAT). https://doi.org/10.5281/zenodo.4572622
Changing climate requires shift from refugia to sanctuaries for floodplain forests
Fink, S., & Scheidegger, C. (2021). Changing climate requires shift from refugia to sanctuaries for floodplain forests. Landscape Ecology, 36, 1423-1439. https://doi.org/10.1007/s10980-021-01224-8
Citizen science data predict high potential for macrofungal refugia outside protected riparian areas
Fink, S., Gross, A., Senn-Irlet, B., & Scheidegger, C. (2021). Citizen science data predict high potential for macrofungal refugia outside protected riparian areas. Fungal Ecology, 49, 100981 (9 pp.). https://doi.org/10.1016/j.funeco.2020.100981
Saproxylic species are linked to the amount and isolation of dead wood across spatial scales in a beech forest
Haeler, E., Bergamini, A., Blaser, S., Ginzler, C., Hindenlang, K., Keller, C., … Lachat, T. (2021). Saproxylic species are linked to the amount and isolation of dead wood across spatial scales in a beech forest. Landscape Ecology, 36, 89-104. https://doi.org/10.1007/s10980-020-01115-4
Flechten
Scheidegger, C., & Aebli, A. (2021). Flechten. In Mitteilungen der Naturforschenden Gesellschaft des Kantons Glarus: Vol. XXII. Artenvielfalt im Fryberg Kärpf. Prozesse der Talbildung Gliederung des Eiszeitalters (pp. 29-34). Naturforschende Gesellschaft des Kantons Glarus (NGG).
High alpine lichens
Scheidegger, C. (2021). High alpine lichens. In B. Büdel & T. Friedl (Eds.), Life in extreme environments: Vol. 9. Life at rock surfaces. Challenged by extreme light, temperature and hydration fluctuations (pp. 161-173). https://doi.org/10.1515/9783110646467-006
Deep divergence between island populations in lichenized fungi
Werth, S., Meidl, P., & Scheidegger, C. (2021). Deep divergence between island populations in lichenized fungi. Scientific Reports, 11, 7428 (13 pp.). https://doi.org/10.1038/s41598-021-86448-z
Gene flow in a highly dynamic habitat and a single founder event: proof from a plant population on a relocated river site
Woellner, R., Scheidegger, C., & Fink, S. (2021). Gene flow in a highly dynamic habitat and a single founder event: proof from a plant population on a relocated river site. Global Ecology and Conservation, 28, e01686 (12 pp.). https://doi.org/10.1016/j.gecco.2021.e01686
Ethnolichenology—the use of lichens in the himalayas and southwestern parts of China
Yang, M. X., Devkota, S., Wang, L. S., & Scheidegger, C. (2021). Ethnolichenology—the use of lichens in the himalayas and southwestern parts of China. Diversity, 13(7), 330 (16 pp.). https://doi.org/10.3390/d13070330
Low genetic differentiation between apotheciate &lt;em&gt;Usnea florida&lt;/em&gt; and sorediate &lt;em&gt;Usnea subfloridana&lt;/em&gt; (Parmeliaceae, Ascomycota) based on microsatellite data
Degtjarenko, P., Mark, K., Moisejevs, R., Himelbrant, D., Stepanchikova, I., Tsurykau, A., … Scheidegger, C. (2020). Low genetic differentiation between apotheciate Usnea florida and sorediate Usnea subfloridana (Parmeliaceae, Ascomycota) based on microsatellite data. Fungal Biology, 124(10), 892-902. https://doi.org/10.1016/j.funbio.2020.07.007
Monitoring von naturschutzrelevanten Pflanzen und Flechten in Auenlandschaften
Fink, S., & Scheidegger, C. (2020). Monitoring von naturschutzrelevanten Pflanzen und Flechten in Auenlandschaften. Ingenieurbiologie: Mitteilungsblatt, 2020(4), 45-54.
Quelles sont les espèces fongiques qui fructifient fréquemment dans les plaines inondables et comment nous devons les protéger?
Fink, S., Senn-Irlet, B., Scheidegger, C., & Gross, A. (2020). Quelles sont les espèces fongiques qui fructifient fréquemment dans les plaines inondables et comment nous devons les protéger? Schweizerische Zeitschrift für Pilzkunde (4), 16-17.
Welche Pilze kommen in Flussauen häufig vor und wie können wir sie schützen?
Fink, S., Senn-Irlet, B., Scheidegger, C., & Gross, A. (2020). Welche Pilze kommen in Flussauen häufig vor und wie können wir sie schützen? Schweizerische Zeitschrift für Pilzkunde (4), 14-15.
Contrasting co-occurrence patterns of photobiont and cystobasidiomycete yeast associated with common epiphytic lichen species
Mark, K., Laanisto, L., Bueno, C. G., Niinemets, Ü., Keller, C., & Scheidegger, C. (2020). Contrasting co-occurrence patterns of photobiont and cystobasidiomycete yeast associated with common epiphytic lichen species. New Phytologist, 227(5), 1362-1375. https://doi.org/10.1111/nph.16475
Evaluating methodologies for species delimitation: the mismatch between phenotypes and genotypes in lichenized fungi (<i>Bryoria</i> sect. <i>Implexae</i>, <i>Parmeliaceae</i>)
Boluda, C. G., Rico, V. J., Divakar, P. K., Nadyeina, O., Myllys, L., McMullin, R. T., … Hawksworth, D. L. (2019). Evaluating methodologies for species delimitation: the mismatch between phenotypes and genotypes in lichenized fungi (Bryoria sect. Implexae, Parmeliaceae). Persoonia, 42, 75-100. https://doi.org/10.3767/persoonia.2019.42.04
Microsatellite based genetic diversity of the widespread epiphytic lichen &lt;em&gt;Usnea subfloridana&lt;/em&gt; (Parmeliaceae, Ascomycota) in Estonia: comparison of populations from the mainland and an island
Degtjarenko, P., Jüriado, I., Mandel, T., Tõrra, T., Saag, A., Scheidegger, C., & Randlane, T. (2019). Microsatellite based genetic diversity of the widespread epiphytic lichen Usnea subfloridana (Parmeliaceae, Ascomycota) in Estonia: comparison of populations from the mainland and an island. MycoKeys, 58, 27-45. https://doi.org/10.3897/mycokeys.58.36557
Climate change-induced range shift of the endemic epiphytic lichen <i>Lobaria pindarensis</i> in the Hindu Kush Himalayan region
Devkota, S., Dymytrova, L., Chaudhary, R. P., Werth, S., & Scheidegger, C. (2019). Climate change-induced range shift of the endemic epiphytic lichen Lobaria pindarensis in the Hindu Kush Himalayan region. Lichenologist, 51(2), 157-173. https://doi.org/10.1017/S002428291900001X
Genetic diversity and structure of the epiphytic foliose lichen &lt;em&gt;Lobaria&lt;/em&gt; &lt;em&gt;pindarensis&lt;/em&gt; in the Himalayas depends on elevation
Devkota, S., Chaudhary, R. P., Werth, S., & Scheidegger, C. (2019). Genetic diversity and structure of the epiphytic foliose lichen Lobaria pindarensis in the Himalayas depends on elevation. Fungal Ecology, 41, 245-255. https://doi.org/10.1016/j.funeco.2019.07.002
Beiträge zur bryofloristischen Erforschung der Schweiz - Folge 1
Dietrich, M., Groner, U., Keller, C., Scheidegger, C., Vust, M., & Zimmermann, E. (2019). Beiträge zur bryofloristischen Erforschung der Schweiz - Folge 1. Meylania, 64, 7-21.
 

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