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Ramalina europaea and R. labiosorediata, two new species of the R. pollinaria group (Ascomycota: Ramalinaceae), and new typifications for Lichen pollinarius and L. squarrosus

Published online by Cambridge University Press:  24 July 2017

Arsen GASPARYAN
Affiliation:
Botanischer Garten und Botanisches Museum Berlin-Dahlem, Freie Universität Berlin, Königin-Luise-Str. 6–8, 14195 Berlin, Germany. Email: [email protected]; [email protected] WWF-Armenia, 11/1 Proshyan str. 0019 Yerevan, Republic of Armenia
Harrie J. M. SIPMAN
Affiliation:
Botanischer Garten und Botanisches Museum Berlin-Dahlem, Freie Universität Berlin, Königin-Luise-Str. 6–8, 14195 Berlin, Germany. Email: [email protected]; [email protected]
Robert LÜCKING
Affiliation:
Botanischer Garten und Botanisches Museum Berlin-Dahlem, Freie Universität Berlin, Königin-Luise-Str. 6–8, 14195 Berlin, Germany. Email: [email protected]; [email protected]

Abstract

Ramalina europaea Gasparyan, Sipman & Lücking and R. labiosorediata Gasparyan, Sipman & Lücking, two species of the R. pollinaria group, are described here as new to science. Ramalina europaea, widely distributed in Europe, can be distinguished by small, punctiform, often terminal soralia starting out on small, spine-like branchlets, whereas R. labiosorediata from North America differs from R. pollinaria s. str. and R. europaea in the almost exclusively terminal soralia formed on the tips of normal lobes, originating from the underside and becoming irregularly labriform. Morphological characters, chemistry, ecology and geographical distribution are discussed and a key to the species of the Ramalina pollinaria group is provided. The topology of a maximum likelihood tree based on ITS shows the presence of three well-supported clades, corresponding to the morphological differences of the three species. The status of several historical names variously placed in synonymy with or described as infraspecific entities of R. pollinaria is reassessed and a new neotype and an epitype are designated for Lichen pollinarius, a neotype for L. squarrosus, making it a synonym of R. farinacea, and lectotypes for R. pollinaria var. elatior, making it a synonym of R. pollinaria s. str., and for var. humilis, a taxon of yet unknown affinity.

Type
Articles
Copyright
© British Lichen Society, 2017 

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References

Acharius, E. (1810) Lichenographia Universalis. Göttingen.Google Scholar
Andreev, M. P., Dobrysh, A. A., Golubkova, N. S., Himelbrant, D. E., Kataeva, O. A., Kotlov, Yu. V., Makarova, I. I., Titov, A. N., Tolpysheva, T. Yu., Urbanavichene, I. N., et al. (2008) Handbook of the Lichens of Russia 10. Agyriaceae, Anamylopsoraceae, Aphanopsidaceae, Arthrorhaphidaceae, Brigantiaeaceae, Chrysotrichaceae, Clavariaceae, Ectolechiaceae, Gomphillaceae, Gypsoplacaceae, Lecanoraceae, Lecideaceae, Mycoblastaceae, Phlyctidaceae, Physciaceae, Pilocarpaceae, Psoraceae, Ramalinaceae, Stereocaulaceae, Vezdaeaceae, Tricholomataceae. St. Petersburg: Nauka.Google Scholar
Brodo, I. M., Sharnoff, S. D. & Sharnoff, S. (2001) Lichens of North America. New Haven & London: Yale University Press.Google Scholar
Consortium of North American Lichen Herbaria (CNALH) (2016) http//:lichenportal.org/portal/index.php. Accessed June 25 2016.Google Scholar
Del Campo, E. M., Catalá, S., Gimeno, J., Del Hoyo, A., Martínez-Alberola, F., Casano, L. M., Grube, M. & Barreno, E. (2013) The genetic structure of the cosmopolitan three-partner lichen Ramalina farinacea evidences the concerted diversification of symbionts. FEMS Microbiology Ecology 83: 310323.CrossRefGoogle ScholarPubMed
Dillenius, J. J. (1741) Historia Muscorum. Oxonii: E Theatro Sheldoniano.Google Scholar
Francisco de Oliveira, P. M., Timsina, B. & Piercey-Normore, M. D. (2012) Diversity of Ramalina sinensis and its photobiont in local populations. Lichenologist 44: 649660.CrossRefGoogle Scholar
Galloway, D. J. (2007) Flora of New Zealand Lichens, 2nd edition. Lincoln: Manaaki Whenua Press.Google Scholar
Gardes, M. & Bruns, T. D. (1993) ITS primers with enhanced specificity for basidiomycetes – application to the identification of mycorrhizae and rusts. Molecular Ecology 2: 113118.Google Scholar
GBIF (2016) GBIF Backbone Taxonomy. doi: 10.15468/39omei. Accessed via http://www.gbif.org/species/2608099 on 2016-08-01Google Scholar
Groner, U. & LaGreca, S. (1997) The ‘Mediterranean’ Ramalina panizzei north of the Alps: morphological, chemical and rDNA sequence data. Lichenologist 29: 441454.Google Scholar
Hayward, G. C., Blanchon, D. J. & Lumbsch, H. T. (2014) Molecular data support Ramalina ovalis as a distinct lineage (Ramalinaceae, Ascomycota). Lichenologist 46: 553561.Google Scholar
Hoffmann, G. F. (1796) Deutschlands Flora oder Botanisches Taschenbuch. Zweyter Theil für das Jahr 1795, Cryptogamie. Erlangen: Palm.Google Scholar
Howe, R. H. (1913) North American species of the genus Ramalina – Part II. Bryologist 16: 8189.CrossRefGoogle Scholar
Index Fungorum (2016) http://www.indexfungorum.org. Accessed on 25 June 2016.Google Scholar
Kashiwadani, H. (1990) Some Chilean species of the genus Ramalina (lichens). Bulletin of the National Science Museum, Tokyo, Series B 16 (1): 112.Google Scholar
Kashiwadani, H. & Moon, K. H. (2002) A new or interesting species of the genus Ramalina (Ascomycotina: Ramalinaceae) from Korea and Japan. Bulletin of the National Science Museum, Tokyo, Series B 28 (1): 16.Google Scholar
Kataeva, O. A. (2014) Ramalina sekika (Ramalinaceae), a new species for the lichen flora of Russia from the Far East. Novosti Sistematiki Nizshikh Rasteniy 48: 256263.CrossRefGoogle Scholar
Katoh, K. & Standley, D. M. (2013) MAFFT multiple sequence alignment software version 7: improvements in performance and usability. Molecular Biology and Evolution 30: 772780.Google Scholar
Krog, H. & James, P. W. (1977) The genus Ramalina in Fennoscandia and the British Isles. Norwegian Journal of Botany 24: 1543.Google Scholar
Krog, H. & Østhagen, H. (1980) The genus Ramalina in the Canary Islands. Norwegian Journal of Botany 27: 255296.Google Scholar
LaGreca, S. (1999) A phylogenetic evaluation of the Ramalina americana chemotype complex (lichenized Ascomycota, Ramalinaceae) based on rDNA ITS sequence data. Bryologist 102: 602618.Google Scholar
Nimis, P. L. (2016) The Lichens of Italy. A Second Annotated Catalogue. Trieste: E.U.T.Google Scholar
Ohmura, Y., Moon, K. H. & Kashiwadani, H. (2008) Morphology and molecular phylogeny of Ramalina pollinaria, R. sekika and R. yasudae (Ramalinaceae, lichenized Ascomycotina) Journal of Japanese Botany 83: 156164.Google Scholar
Orange, A., James, P. W. & White, F. J. (2010) Microchemical Methods for the Identification of Lichens. 2nd Edition. London: British Lichen Society.Google Scholar
Persoon, C. H. (1795) Botanische Beobachtungen. Annalen der Botanick 14: 3339.Google Scholar
Schoch, C. L., Seifert, K. A., Huhndorf, S., Robert, V., Spouge, J. L., Levesque, C. A., Chen, W., Bolchacova, E., Voigt, K., Crous, P. W., et al. (2012) Nuclear ribosomal internal transcribed spacer (ITS) region as a universal DNA barcode marker for Fungi. Proceedings of the National Academy of Sciences of the United States of America 109: 62416246.Google Scholar
Serusiaux, E., van den Boom, P. & Ertz, D. (2010) A two-gene phylogeny shows the lichen genus Niebla (Lecanorales) is endemic to the New World and does not occur in Macaronesia nor in the Mediterranean basin. Fungal Biology 114: 528537.Google Scholar
Smith, C. W., Aptroot, A., Coppins, B. J., Fletcher, A., Gilbert, O. L., James, P.W. & Wolseley, P. A. (eds) (2009) The Lichens of Great Britain and Ireland. London: British Lichen Society.Google Scholar
Stamatakis, A. (2014) RAxML version 8: a tool for phylogenetic analysis and post-analysis of large phylogenies. Bioinformatics 30: 13121313.Google Scholar
Stevens, G. N. (1987) The lichen genus Ramalina in Australia. Bulletin of the British Museum (Natural History), Botany Series 16: 107223.Google Scholar
Stocker-Wörgötter, E., Elix, J. A. & Grube, M. (2004) Secondary chemistry of lichen-forming fungi: chemosyndromic variation and DNA-analyses of cultures and chemotypes in the Ramalina farinacea complex. Bryologist 107: 152162.Google Scholar
Timsina, B. A., Stocker-Wörgötter, E. & Piercey-Normore, M. D. (2012) Monophyly of some North American species of Ramalina and inferred polyketide synthase gene function. Botany 90: 12951307.Google Scholar
Westring, J. P. (1795) Försök att af de flesta Lafarter hereda Färgstoffter, som sätta höga och vackra färgor på ylle och silke. Femte Afdelningen öfver Läder-Lafvarne, Lichenes coriacei. Kongl. Vetenskapsakademiens nya Handlingar 16: 4158.Google Scholar
White, T. J., Bruns, T. D., Lee, S. B. & Taylor, J. W. (1990) Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics. In PCR Protocols: A Guide to Methods and Applications (M. A. Innis, D. H. Gelfand, J. J. Sninsky & T. J. White, eds): 315322. New York: Academic Press.Google Scholar
Wirth, V., Hauck, M. & Schultz, M. (2013) Die Flechten Deutschlands, 2 Volumes. Stuttgart: Ulmer.Google Scholar
Zahlbruckner, A. (1930) Catalogus Lichenum Universalis. Vol. 6. Leipzig: Borntraeger.Google Scholar
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