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The lichen genus Rinodina (Physciaceae, Caliciales) in north-eastern Asia

Published online by Cambridge University Press:  14 November 2017

John W. SHEARD
Affiliation:
Department of Biology, University of Saskatchewan, 112 Science Place, Saskatoon, SK S7N 5E2, Canada. Email: [email protected]
Alexander K. EZHKIN
Affiliation:
Institute of Marine Geology and Geophysics, Nauki Str., 1B, Yuzhno-Sakhalinsk, 693022, Russia
Irina A. GALANINA
Affiliation:
Federal Scientific Center of East Asian Terrestrial Biodiversity, Far Eastern Branch of the Russian Academy of Sciences, Vladivostok Str. 100-leta, Vladivostok 159, 690024, Russia
Dmitry HIMELBRANT
Affiliation:
Department of Botany, St. Petersburg State University, Universitetskaya Emb. 7–9, St. Petersburg 199034, Russia; Laboratory of Lichenology and Bryology, Komarov Botanical Institute RAS, Professor Popov St. 2, St. Petersburg 197376, Russia
Ekaterina KUZNETSOVA
Affiliation:
Department of Botany, St. Petersburg State University, Universitetskaya Emb. 7–9, St. Petersburg 199034, Russia; Laboratory of Lichenology and Bryology, Komarov Botanical Institute RAS, Professor Popov St. 2, St. Petersburg 197376, Russia
Akira SHIMIZU
Affiliation:
Graduate School of Environmental Earth Science, Hokkaido University, Hokkaido, 060-0810, Japan
Irina STEPANCHIKOVA
Affiliation:
Department of Botany, St. Petersburg State University, Universitetskaya Emb. 7–9, St. Petersburg 199034, Russia; Laboratory of Lichenology and Bryology, Komarov Botanical Institute RAS, Professor Popov St. 2, St. Petersburg 197376, Russia
Göran THOR
Affiliation:
Department of Ecology, Swedish University of Agricultural Sciences, P.O. Box 7044, SE-750 07 Uppsala, Sweden
Tor TØNSBERG
Affiliation:
Department of Natural History, University Museum, University of Bergen, Allégaten 41, P.O. Box 7800, N-5020 Bergen, Norway
Lidia S. YAKOVCHENKO
Affiliation:
Federal Scientific Center of East Asian Terrestrial Biodiversity, Far Eastern Branch of the Russian Academy of Sciences, Vladivostok Str. 100-leta, Vladivostok 159, 690024, Russia
Toby SPRIBILLE*
Affiliation:
Institute of Plant Sciences, Karl-Franzens-Universität Graz, Holteigasse 6, A-8010 Graz, Austria; current address: Biological Sciences CW405, University of Alberta, Edmonton, AB T6G 2E9, Canada.

Abstract

Rinodina is a widespread, polyphyletic genus of crustose Physciaceae with c. 300 species worldwide. A major missing link in understanding its global biogeography has been eastern Asia where the genus has never been systematically revised. Here we review specimen and literature records for Rinodina for north-eastern Asia (Russian Far East, Japan and the Korean Peninsula) and recognize 43 species. We describe two species, R. hypobadia and R. orientalis, as new to science. Rinodina hypobadia is distinguished by its pigmented hypothecium, Dirinaria-type ascospores and pannarin in both thallus and epihymenium. Rinodina orientalis is characterized by its erumpent apothecia that remain broadly attached, with discs sometimes becoming convex and excluding the thalline margins, ascospores belonging to the Physcia-type and secondary metabolites absent. Nine other species are reported from the region for the first time. These include R. dolichospora, R. freyi, R. metaboliza, R. sicula, R. subminuta and R. willeyi. Of particular biogeographical interest are three additional new records that have western North American–eastern Asian distributions: the corticolous species R. endospora, R. macrospora and R. megistospora. Six species have the better known eastern North American–eastern Asian distributions: R. ascociscana (syn. R. akagiensis, R. melancholica), R. buckii, R. chrysidiata, R. subminuta, R. tenuis (syn. R. adirondackii) and R. willeyi, and two have eastern North American–eastern Asian–European distributions: R. excrescens and R. moziana (syn. R. destituta, R. vezdae). Our study begins to close one of the largest gaps in our knowledge of circumboreal species distributions in Rinodina and, together with previous studies in North America and Europe, provides new insights into circumboreal crustose lichen biogeography. Rinodina cinereovirens (syn. R. turfacea var. cinereovirens) is also reported as new to North America.

Type
Articles
Copyright
© British Lichen Society, 2017 

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References

Afonina, O. M., Bredkina, L. I. & Makarova, I. I. (1980) Distribution of lichens and mosses in forest-steppe landscapes in the middle reaches of the River Indigurka. Botanicheskii Zhurnal 65: 6682. [in Russian]Google Scholar
Almquist, E. (1879) Lichenologiska iakttagelser på Sibiriens nordkust. Öfversigt af Kongliga Vetenskaps-Akademiens Förhandlingar, Stockholm 1879 (9): 2959.Google Scholar
Alors, D., Lumbsch, H. T., Divakar, P., Leavitt, S. D. & Crespo, A. (2016) An integrative approach for understanding diversity in the Punctelia rudecta species complex (Parmeliaceae, Ascomycota). PLoS ONE 11: e0146537.CrossRefGoogle ScholarPubMed
Andreev, M., Kotlov, Y. & Makarova, I. (1996) Checklist of lichens and lichenicolous fungi of the Russian Arctic. Bryologist 99: 137169.CrossRefGoogle Scholar
Aptroot, A. & Moon, K. H. (2014) 114 new reports of microlichens from Korea, including the description of five new species, show that the microlichen flora is predominantly Eurasian. Herzogia 27: 347365.CrossRefGoogle Scholar
Aptroot, A. & Sparrius, L. B. (2003) New microlichens from Taiwan. Fungal Diversity 14: 150.Google Scholar
Aptroot, A., Saipunkaew, W., Sipman, H. J. M., Sparrius, L. B. & Wolseley, P. (2007) New lichens from Thailand, mainly microlichens from Chiang Mai. Fungal Diversity 24: 75134.Google Scholar
Athukorala, S. N. P., Pino-Bodas, R., Stenroos, S., Ahti, T. & Piercey-Normore, M. D. (2016) Phylogenetic relationships among reindeer lichens of North America. Lichenologist 48: 209227.CrossRefGoogle Scholar
Baas Becking, L. G. M. (1934) Geobiologie of Inleiding tot de Milieukunde. The Hague: W. P. Van Stockum & Zoon. [in Dutch]Google Scholar
Belikovich, A. V., Galanin, A. V., Afonina, O. M. & Makarova, I. I. (2006) Redkie vidy lishaynikov okhranyaemykh territoriy Chukotki. In Rastitel’niy mir Osobo Okhranyaemyx Territoriy Chukotki (A. V. Belikovich, A. V. Galanin, O. M. Afonina & I. I. Makarova, eds): 1260. Vladivostok: BSI DBO. [in Russian]Google Scholar
Boufford, D. E. & Spongberg, S. A. (1983) Eastern Asian–eastern North American phytogeographical relationships: a history from the time of Linnaeus to the twentieth century. Annals of the Missouri Botanical Garden 70: 423439.CrossRefGoogle Scholar
Bredkina, L. I., Dobrysh, A. A., Makarova, I. I. & Titov, A. N. (1992) The lichen flora of Kunashir Island (Kuril Islands). Novosti Sistematiki Nizshikh Rastenii 28: 9094. [in Russian]Google Scholar
Chabanenko, S. I. (2002) Konspekt Flory Lishaynikov Yuga Rossiyskogo dal’nego Vostoka [Conspectus of the Lichen Flora of the Southern Russian Far East]. Vladivostok: Dalnauka. [in Russian]Google Scholar
Chesnokov, S. & Konoreva, L. (2015) Additions to the lichen biota of SE Siberia: records from the Stanovoye Nagor’e highlands (Trans-Baikal region, Russia). Polish Botanical Journal 60: 203216.CrossRefGoogle Scholar
Coleman, R. G. & Kruckeberg, A. R. (1999) Geology and plant life of the Klamath-Siskiyou Mountain Region. Natural Areas Journal 19: 320340.Google Scholar
Coppins, B. J. (1983) A new corticolous sorediate Rinodina from Swedish Lappland. Lichenologist 15: 146150.CrossRefGoogle Scholar
Cornejo, C., Nelson, P. R., Stepanchikova, I., Himelbrant, D., Jørgensen, P. M. & Scheidegger, C. (2016) Contrasting pattern of photobiont diversity in the Atlantic and Pacific populations of Erioderma pedicellatum (Pannariaceae). Lichenologist 48: 275291.CrossRefGoogle Scholar
Crespo, A. & Pérez-Ortega, S. (2009) Cryptic species and species pairs in lichens: a discussion on the relationship between molecular phylogenetics and morphological characters. Anales del Jardín Botánico de Madrid 66S1: 7181.CrossRefGoogle Scholar
Culberson, C. F. (1972) Improved conditions and new data for identification of lichen products by a standardized thin-layer chromatographic method. Journal of Chromatography 72: 113125.CrossRefGoogle ScholarPubMed
Culberson, C. F. & Kristinsson, H. (1970) A standardized method for the identification of lichen products. Journal of Chromatography 46: 8593.CrossRefGoogle Scholar
Culberson, W. L. (1972) Disjunctive distributions in the lichen-forming fungi. Annals of the Missouri Botanical Garden 59: 165173.CrossRefGoogle Scholar
Davydov, E. A., Peršoh, D. & Rambold, G. (2010) The systematic position of Lasallia caroliniana (Tuck.) Davydov, Peršoh & Rambold comb. nova and considerations on the generic concept of Lasallia (Umbilicariaceae, Ascomycota). Mycological Progress 9: 261266.CrossRefGoogle Scholar
Elix, J. A. & Tønsberg, T. (1999) Notes on the chemistry of some lichens from Norway. Graphis Scripta 10: 46.Google Scholar
Galanina, I. A., Yakovchenko, L. S., Tsarenko, N. A. & Spribille, T. (2011) Notes on Rinodina excrescens in the Russian Far East (Physciaceae, lichenized Ascomycota). Herzogia 24: 5964.Google Scholar
Giavarini, V., James, P. W. & Purvis, O. W. (2009) Rinodina (Ach.) Gray. In The Lichens of Great Britain and Ireland, 2nd edition (C. W. Smith, A. Aptroot, B. J. Coppins, A. Fletcher, O. L. Gilbert, P. W. James & P. A. Wolseley, eds): 812826. London: British Lichen Society.Google Scholar
Giralt, M. (2001) The lichen genera Rinodina and Rinodinella (lichenized Ascomycetes, Physciaceae) in the Iberian Peninsula. Bibliotheca Lichenologica 79: 1160.Google Scholar
Giralt, M. (2010) Flora Liquenológica Ibérica, Vol. 5: Physciaceae I. Endohyalina, Rinodina y Rinodinella. Barcelona: Sociedad Española de Liquenología (SEL).Google Scholar
Giralt, M. & Mayrhofer, H. (1994) Four corticolous species of the genus Rinodina (lichenized Ascomycetes, Physciaceae) with polyspored asci. Herzogia 10: 2937.CrossRefGoogle Scholar
Giralt, M. & Mayrhofer, H. (1995) Some corticolous and lignicolous species of the genus Rinodina (lichenized Ascomycetes, Physciaceae) lacking secondary lichen compounds and vegetative propagules in Southern Europe and adjacent regions. Bibliotheca Lichenologica 57: 127160.Google Scholar
Giralt, M., Kalb, K. & Mayrhofer, H. (2009) Rinodina brasiliensis, a new corticolous isidiate species, and closely related taxa. Lichenologist 41: 179187.CrossRefGoogle Scholar
Gray, A. (1846) Analogy between the flora of Japan and that of the States. American Journal of Science and Arts 2: 135136.Google Scholar
Harada, H., Okomoto, T. & Yoshimura, I. (2004) A checklist of lichens and lichen-allies of Japan. Lichenology 2: 47174.Google Scholar
Hauck, M. & Javkhlan, S. (2006) Additions to the lichen flora of Mongolia: records from Khentey and Khangay. Willdenowia 36: 895912.CrossRefGoogle Scholar
Hauck, M., Tønsberg, T., Mayrhofer, H., de Bruyn, U., Enkhtuya, O. & Javkhlan, S. (2013) New records of lichen species from western Mongolia. Folia Cryptogamica Estonica 50: 1322.CrossRefGoogle Scholar
Helms, G., Friedl, T. & Rambold, G. (2003) Phylogenetic relationships of the Physciaceae inferred from rDNA sequence data and selected phenotypic characters. Mycologia 95: 10781099.CrossRefGoogle ScholarPubMed
Hijmans, R. J., Cameron, S. E., Parra, J. L., Jones, P. G. & Jarvis, A. (2005) Very high resolution interpolated climate surfaces for global land areas. International Journal of Climatology 25: 19651978.CrossRefGoogle Scholar
Himelbrant, D. E. & Stepanchikova, I. S. (2011) The lichen flora of Kamchatka fir groves (Kronotsky Reserve). Novosti Sistematiki Nizshikh Rastenii 45: 150158. [in Russian]CrossRefGoogle Scholar
Himelbrant, D. E., Stepanchikova, I. S. & Kuznetsova, E. S. (2009) Lichens of some shrubs and dwarf shrubs of Kamchatka Peninsula. Novosti Sistematiki Nizshikh Rastenii 43: 150171. [in Russian]CrossRefGoogle Scholar
Hinteregger, E. (1994) Krustenflechten auf den Rhododendron-Arten (Rh. ferrugineum und Rh. hirsutum) der Ostalpen unter besonderer Berücksichtigung einiger Arten der Gattung Biatora. Bibliotheca Lichenologica 55: 1346.Google Scholar
Hue, A. (1909) Le Lecanora oreina Ach. et quelques lichens Coréens. Journal de Botanique, sér. 2 2: 7785.Google Scholar
Hur, J.-S., Koh, Y. J. & Harada, H. (2005) A checklist of Korean lichens. Lichenology 4: 6595.Google Scholar
Jørgensen, P. M. (1983) Distribution patterns of lichens in the Pacific region. Australian Journal of Botany, Supplementary Series 10: 4366.Google Scholar
Joshi, S., Kondratyuk, S. Y., Crişan, F., Jayalal, U., Oh, S.-O. & Hur, J.-S. (2013) New additions to lichen mycota of the Republic of Korea. Mycobiology 41: 177182.CrossRefGoogle ScholarPubMed
Kärnefelt, I. (1990) Evidence of a slow evolutionary change in the evolution of lichens. Bibliotheca Lichenologica 38: 291306.Google Scholar
Kaschik, M. (2006) Taxonomic studies on saxicolous species of the genus Rinodina (lichenized Ascomycetes, Physciaceae) in the Southern Hemisphere with emphasis in Australia and New Zealand. Bibliotheca Lichenologica 93: 1162.Google Scholar
Kondratyuk, S., Lökös, L., Tschabanenko, S., Haji Moniri, M., Farkas, K., Wang, X. Y., Oh, S.-O. & Hur, J.-S. (2013) New and noteworthy lichen-forming fungi. Acta Botanica Hungarica 55 (3–4): 275349.Google Scholar
Kondratyuk, S. Y., Lökös, L., Halda, J. P., Haji Moniri, M., Farkas, E., Park, J.-S., Lee, B. G., Oh, S.-O. & Hur, J.-S. (2016) New and noteworthy lichen-forming and lichenicolous fungi. 4. Acta Botanica Hungarica 58 (1–2): 75136.Google Scholar
Kotlov, Y. V. (2008) Rinodina (Ach.) Gray. In Handbook of the Lichens of Russia, Volume 10 (N. S. Golubkova, ed): 309360. St. Petersburg: Nauka. [in Russian]Google Scholar
Kurokawa, S. (2003) Checklist of Japanese Lichens. Tokyo: National Science Museum.Google Scholar
Kurokawa, S. (2006) Phytogeographical elements in the lichen flora of Japan. Journal of the Hattori Botanical Laboratory 100: 721738.Google Scholar
Kurokawa, S. & Kashiwadani, H. (2006) Checklist of Japanese lichens and allied fungi. National Science Museum Monograph 33: 189.Google Scholar
Lamb, I. M. (1963) Index Nominum Lichenum Inter Annos 1932 et 1960 Divulgatorum. New York: Ronald Press.Google Scholar
Lendemer, J. C., Sheard, J. W., Thor, G. & Tønsberg, T. (2012) Rinodina chrysidiata, a new species from far eastern Asia and the Appalachian Mountains of North America. Lichenologist 44: 179187.CrossRefGoogle Scholar
Lendemer, J. C., Harris, R. C. & Tripp, E. A. (2013) The lichens and allied fungi of Great Smoky Mountains National Park. Memoirs of the New York Botanical Garden 104: 1152.Google Scholar
Lendemer, J. C., Tripp, E. A. & Sheard, J. (2014) A review of Rinodina (Physciaceae) in Great Smoky Mountains National Park highlights the growing significance of this “island of biodiversity” in eastern North America. Bryologist 117: 259281.CrossRefGoogle Scholar
Magnusson, A. H. (1944) Lichens from central Asia. Part II. Sino-Swedish Expedition Publication 22, XI Botany 2: 168.Google Scholar
Magnusson, A. H. (1947) Studies in non-saxicolous species of Rinodina, mainly from Europe and Siberia. Acta Horti Gothoburgensis 17: 191338.Google Scholar
Magnusson, A. H. (1952) Lichens from Torne Lappmark. Arkiv för Botanik, Ser. 2, 2(2): 45249.Google Scholar
Makarova, I. I. & Katenin, A. E. (1983) Lichens in the mountains south-east of the Chukotka Peninsula. Botanicheskii Zhurnal 68: 14771487.Google Scholar
Makryy, T. V. (2008) Likhenoflora yugo-zapadnogo Pribaykaliya. In Fundamental’nye i Prikladnye Problemy Botaniki v Nachale XXI Veka: Materialy vserossiyskoy konferenstii (Petrozadovsk, 22–27 Sentabrya 2008 g.). Chast’ 2: Al’gologiya, Mikologiya, Likhenologiya, Briologiya (K. L. Vinogradova, L. V. Gagarina, A. E. Kovalenko, L. E. Kurbatova, A. F. Luknitskaya, Yu. K. Novozhilov, A. D. Potemkin, O. O. Predtechenskaya & I. N. Urbanavichene, eds): 201203. Petrozadovsk: Karel’skiy Nauchnyy Tsentr RAN. [In Russian]Google Scholar
Mayrhofer, H. (1984) Die saxicolen Arten der Flechtengattungen Rinodina und Rinodinella in der Alten Welt. Journal of the Hattori Botanical Laboratory 55: 327493.Google Scholar
Mayrhofer, H. & Moberg, R. (2002) Rinodina . In Nordic Lichen Flora, Volume 2: Physciaceae (T. Ahti, P. M. Jørgensen, H. Kristinsson, R. Moberg, U. Søchting & G. Thor, eds): 4169. Uddevalla: Nordic Lichen Society.Google Scholar
Mayrhofer, H. & Sheard, J. W. (2007) Rinodina archaea (Physciaceae, lichenized Ascomycetes) and related species. Bibliotheca Lichenologica 96: 229246.Google Scholar
Mayrhofer, H., Kantvilas, G. & Ropin, K. (1999) The corticolous species of the lichen genus Rinodina (Physciaceae) in temperate Australia. Muelleria 12 : 169194.CrossRefGoogle Scholar
Mayrhofer, H., Sheard, J. W., Grassler, M. C. & Elix, J. A. (2001) Rinodina intermedia (Physciaceae, lichenized Ascomycetes): a well-characterized species with submuriform ascospores. Bryologist 104: 456463.CrossRefGoogle Scholar
Menlove, J. E. (1974) Thin-layer chromatography for the identification of lichen substances. British Lichen Society Bulletin 34: 35.Google Scholar
Moon, K. H. (2013) Lichen-forming and Lichenicolous Fungi of Korea. Incheon Metropolitan City, South Korea: National Institute of Biological Resources.Google Scholar
Nadyeina, O., Grube, M. & Mayrhofer, H. (2010) A contribution to the taxonomy of the genus Rinodina (Physciaceae, lichenized Ascomycotina) using combined ITS and mtSSU rDNA data. Lichenologist 42: 521531.CrossRefGoogle Scholar
Nylander, W. (1890) Lichenes Japoniae. Accedunt Observationibus Lichenes Insulae Labuan. Paris: P. Schmidt.Google Scholar
Oxner [“Oksner”], A. M. (1948) Malovidomi i novi dlya SRSR lishayniki. Botanicheskiy Zhurnal AN URSR 5: 9298. [in Ukrainian]Google Scholar
Pczelkin, A. V. (1987) Novy i interesnye taksony lishainikovepifitov dal’nego vostoka (Lichenum epiphytorum taxa nonnulla ex oriente extremo nova et curiosa). Novosti Sistematiki Nizshikh Rastenii 24: 166168. [in Russian]Google Scholar
Pebesma, E. J. & Bivand, R. S. (2005) Classes and methods for spatial data in R. R News 5 (2): 913. http://cran.r-project.org/doc/Rnews/.Google Scholar
Qian, H. (2002) Floristic relationships between eastern Asia and North America: test of Gray’s hypothesis. American Naturalist 160: 317332.CrossRefGoogle ScholarPubMed
Resl, P., Mayrhofer, H., Clayden, S. R., Spribille, T., Thor, G., Tønsberg, T. & Sheard, J. W. (2016) Morphological, chemical and species delimitation analyses provide new taxonomic insights into two groups of Rinodina . Lichenologist 45: 469488.CrossRefGoogle Scholar
Rodnikova, I. M. (2012) The present state of lichen cover of Putjatin Island (Peter the Great Bay, Sea of Japan). Turczaninowia 15: 6369. [in Russian]Google Scholar
Rodnikova, I. M. (2013) On the lichen flora of islands and mainland coast of Peter the Great Bay (Sea of Japan). Novosti Sistematiki Nizshikh Rastenii 47: 253261. [in Russian]CrossRefGoogle Scholar
Schofield, W. B. (1969) Phytogeography of northwestern North America. Madroño 20: 155207.Google Scholar
Sheard, J. W. (2010) The Lichen Genus Rinodina (Ach.) Gray (Lecanoromycetidae, Physciaceae) in North America, North of Mexico. Ottawa: NRC Research Press.Google Scholar
Sheard, J. W. & Mayrhofer, H. (2002) New species of Rinodina (Physciaceae, lichenized Ascomycetes) from western North America. Bryologist 105: 645672.CrossRefGoogle Scholar
Sheard, J. W., Lendemer, J. C. & Tripp, E. A. (2008) Buellia japonica (Physciaceae), a new lichen record for North America. Bryologist 111: 124127.CrossRefGoogle Scholar
Sheard, J. W., Knudsen, K., Mayrhofer, H. & Morse, C. A. (2011) Three new species of Rinodina and a new record from North America. Bryologist 114: 453465.CrossRefGoogle Scholar
Sheard, J. W., Lendemer, J., Spribille, T. & Tønsberg, T. (2012) Further contributions to the genus Rinodina (Physciaceae, Lecanoromycetidae): two new species to science and a new record for North America. Herzogia 25: 125143.CrossRefGoogle Scholar
Sheard, J. W., McCune, B. & Tønsberg, T. (2014) A new corticolous species of Rinodina (Physciaceae) and two interesting range extensions for species collected in Katmai National Park, Alaska. Bryologist 117: 253258.CrossRefGoogle Scholar
Skirina, I. F. (1996) Lishayniki ostrovov zaliva Petra Velikogo (Yaponskoe more). Botanicheskii Zhurnal 81 (11): 4145. [in Russian]Google Scholar
Skirina, I. F. (2010) Addition to lichen flora of islands and coast of Peter the Great Bay (the Sea of Japan, Primori Territory). Novosti Sistematiki Nizshikh Rastenii 44: 221236. [in Russian]CrossRefGoogle Scholar
Skirina, I. F. (2012) An annotated list of lichens of Bolshekhekhtsirsky Nature Reserve (Khabarovsk Territory). Novosti Sistematiki Nizshikh Rastenii 46: 202216. [in Russian]CrossRefGoogle Scholar
Spribille, T. (2011) Circumboreal lichen diversification: phylogenetic and phylogeographic studies in the genus Mycoblastus. Ph.D. thesis, Karl-Franzens-University of Graz.Google Scholar
Spribille, T., Pérez-Ortega, S., Tønsberg, T. & Schirokauer, D. (2010) Lichens and lichenicolous fungi of the Klondike Gold Rush National Historic Park, Alaska, in a global biodiversity context. Bryologist 113: 439515.CrossRefGoogle Scholar
Stenroos, S., Pino-Bodas, R., Weckman, D. & Ahti, T. (2015) Phylogeny of Cladonia uncialis (Cladoniaceae, Lecanoromycetes) and its allies. Lichenologist 47: 215231.CrossRefGoogle Scholar
Tønsberg, T. (1992 a) The sorediate and isidiate, corticolous, crustose lichens in Norway. Sommerfeltia 14: 1331.CrossRefGoogle Scholar
Tønsberg, T. (1992 b) Rinodina sheardii, a new lichen species from northwest Europe and northwest North America. Bryologist 95: 216217.CrossRefGoogle Scholar
Trinkaus, U., Mayrhofer, H. & Matzer, M. (1999) Rinodina gennarii (Physciaceae), a widespread species in the temperate regions of the Southern Hemisphere. Australasian Lichenology 45: 1521.Google Scholar
Urbanavichene, I. N. (2010) New and rare species for lichen flora of Siberia. Novosti Sistematiki Nizshikh Rastenii 44: 245249. [in Russian]CrossRefGoogle Scholar
Urbanavichene, I. N. & Palice, Z. (2016) Rarely recorded lichens and lichen-allied fungi from the territory of the Baikal Reserve – additions for [the] lichen flora of Russia. Turczaninowia 19: 4246.CrossRefGoogle Scholar
Urbanavichene, I. N. & Skirina, I. F. (2011) Rinodina xanthophaea (Physciaceae) in Russia. Novosti Sistematiki Nizshikh Rastenii 45: 237241. [in Russian]CrossRefGoogle Scholar
Urbanavichene, I. N. & Urbanavichus, G. P. (1998) Lishayniki baykal’skogo zapovednika. Flora i Fauna Zapovednikov 68: 155. [in Russian]Google Scholar
Urbanavichene, I. N. & Urbanavichus, G. P. (2008) Pervye rezul’taty izucheniya likhenoflory okinskogo ploskogor’ya (vostochnyy Sayan, respublika Buryatiya). In Fundamental’nye i Prikladnye Problemy Botaniki v Nachale XXI Veka: Materialy vserossiyskoy konferenstii (Petrozadovsk, 22–27 Sentabrya 2008 g.). Chast’ 2: Al’gologiya, Mikologiya, Likhenologiya, Briologiya (K. L. Vinogradova, L. V. Gagarina, A. E. Kovalenko, L. E. Kurbatova, A. F. Luknitskaya, Yu. K. Novozhilov, A. D. Potemkin, O. O. Predtechenskaya & I. N. Urbanavichene, eds): 249252. Petrozadovsk: Karel’skiy Nauchnyy Tsentr RAN. [In Russian] Google Scholar
Urbanavichus, G. P. & Andreev, M. P. (eds) (2010) Spisok Likhenoflory Rossii. A Checklist of the Lichen Flora of Russia. St. Petersburg: Nauka.Google Scholar
Vainio, E. (1909) Lichenes in viciniis hibernae expeditionis Vegae prope pagum Pitlekai septentrionalis a Dr. E. Almquist collecti. Arkiv för Botanik 8 (4): 1175.Google Scholar
Wang, X. Y., Goffinet, B., Liu, D., Liang, M. M., Shi, H. X., Zhang, Y. Y., Zhang, J. & Wang, L. S. (2015) Taxonomic study of the genus Anzia (Lecanorales, lichenized Ascomycota) from Hengduan Mountains, China. Lichenologist 47: 99115.CrossRefGoogle Scholar
Wen, J. (1999) Evolution of eastern Asian and eastern North American disjunct distributions of flowering plants. Annual Review of Ecology, Evolution and Systematics 30: 421455.CrossRefGoogle Scholar
Xiang, Q.-Y., Soltis, D. E. & Soltis, P. S. (1998) The eastern Asian and eastern and western North American disjunction: congruent phylogenetic patterns in seven diverse genera. Molecular Phylogenetics and Evolution 10: 178190.CrossRefGoogle ScholarPubMed
Xiang, Q.-Y., Soltis, D. E., Soltis, P. S., Steven, R. M. & Crawford, D. J. (2000) Timing the eastern Asian–eastern North American disjunction: molecular clock corroborates paleontological estimates. Molecular Phylogenetics and Evolution 15: 462472.CrossRefGoogle ScholarPubMed
Yakovchenko, L. S., Galanina, I. A., Malashkina, E. V. & Bakalin, V. A. (2013) Mokhoobraznye i lishayniki malonarushennykh lesnykh soobshchestv v nizhnem Priamur’e (Rossiyskiy Dal’niy Vostok). Mosses and lichens in the minimally disturbed forest communities of the Lower Amur River areas (Russian Far East). Komarovskie Chteniya [Komarov Lectures] 60: 966. [in Russian; http://www.biosoil.ru/kr/Downloads/60_9.pdf] Google Scholar
Yoshimura, I. (1968) The phytogeographical relationships between the Japanese and North American species of Cladonia . Journal of the Hattori Botanical Laboratory 31: 227246.Google Scholar
Zhou, Q.-M., Wei, J.-C., Ahti, T., Stenroos, S. & Högnabba, F. (2006) The systematic position of Gymnoderma and Cetradonia based on SSU rDNA sequences. Journal of the Hattori Botanical Laboratory 100: 871880.Google Scholar
Zhurbenko, M. P. (2014) Lichenicolous fungi from Far East of Russia. Folia Cryptogamica Estonica 51: 113119.CrossRefGoogle Scholar