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The lichen genera Cryptothecia, Herpothallon and Helminthocarpon (Arthoniales) in the Galapagos Islands, Ecuador

Published online by Cambridge University Press:  31 October 2013

Frank BUNGARTZ ,
Valeria Leonor DUTÁN-PATIÑO  and
John A. ELIX
Frank BUNGARTZ
Affiliation:
Biodiversity Assessment, Charles Darwin Foundation (AISBL), Puerto Ayora, Santa Cruz, Galapagos, Ecuador; postal address: Avenida Juan Gonzales N35–26 y Juan Pablo Sanz, Quito, Ecuador. Email: frank.bungartz@fcdarwin.org.ec
Valeria Leonor DUTÁN-PATIÑO
Affiliation:
Biodiversity Assessment, Charles Darwin Foundation (AISBL), Puerto Ayora, Santa Cruz, Galapagos, Ecuador; postal address: Avenida Juan Gonzales N35–26 y Juan Pablo Sanz, Quito, Ecuador. Email: frank.bungartz@fcdarwin.org.ec Universidad del Azuay, Cuenca, Ecuador
John A. ELIX
Affiliation:
Research School of Chemistry, Australian National University, Canberra, A.C.T. 0200, Australia
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Abstract

As part of a comprehensive biodiversity inventory of Galapagos lichens, all species in two closely related genera, Cryptothecia and Herpothallon, are reviewed. Both genera are superficially similar, ecorticate, cottony-byssoid crusts and are unusual insofar as their asci do not develop in distinct ascomata, but instead within ascigerous areas or even solitary inside pseudisidia. Species of Herpothallon typically have an I− medulla and are covered in ecorticate pseudisidia; only a single species is known fertile. Cryptothecia is characterized by ascigerous areas with loosely aggregated asci. In some species the asci are isolated, but others have closely aggregated asci embedded in a hyphal matrix with some carbonization, perhaps indicating preliminary stages towards a development of true ascomata. Lirellate ascomata of the enigmatic, monotypic Helminthocarpon leprevostii show similarity with these ascigerous areas, especially of C. darwiniana and C. galapagoana, two species newly described here. Both also have similar asci and ascospores. As previously suggested, Helminthocarpon should thus not be included in Graphidaceae, but it belongs in Arthoniales, possibly in Arthoniaceae or Opegraphaceae. A key to all species and brief descriptions are provided. Two of the three Cryptothecia species and two of the seven Herpothallon species reported here are new to science. All records apart from Herpothallon rubrocinctum are new to Galapagos and Ecuador.

Keywords

Census of Galapagos BiodiversityGalapagos Lichen Inventorytaxonomylichenized Ascomycota
Type
Articles
Information
The Lichenologist , Volume 45 , Issue 6 , November 2013 , pp. 739 - 762
Copyright
Copyright © British Lichen Society 2013 

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References

Aptroot, A. (1999) Note no. 2603, Helminthocarpon Feé. In Eriksson, O. E. (ed.) Notes on ascomycete systematics. Nos 2440–2755 Myconet 2: 141. Available at: http://archive.fieldmuseum.org/myconet/.Google Scholar
Aptroot, A., Thor, G., Lücking, R., Elix, J. A. & Chaves, J. L. (2009) The lichen genus Herpothallon reinstated. Bibliotheca Lichenologica 99: 1966.Google Scholar
Arup, U., Ekman, S., Lindblom, L. & Mattsson, J.-E. (1993) High performance thin layer chromatography (HPTLC), an improved technique for screening lichen substances. Lichenologist 25: 6171.CrossRefGoogle Scholar
Awasthi, D. D. & Joshi, M. (1979) The lichen genera Helminthocarpon, Cyclographa, and Cyclographina (gen. nov.). Norwegian Journal of Botany 26: 165177.Google Scholar
Bungartz, F., Herrera, H. W., Jaramillo, P., Tirado, N., Jímenez-Uzcategui, G., Ruiz, D., Guézou, A. & Ziemmeck, F. (2010 a) Charles Darwin Foundation Galapagos Species Checklist. Puerto Ayora: Charles Darwin Foundation. Available at http://checklists.datazone.darwinfoundation.org/, last updated 1-Jul-2013.Google Scholar
Bungartz, F., Ziemmeck, F., Aptroot, A. & Nugra, F. (2010 b) Checklist of Galapagos Lichenized Fungi. In Charles Darwin Foundation Galapagos Species Checklist (Bungartz, F., Herrera, H., Jaramillo, P., Tirado, N., Jímenez-Uzcategui, G., Ruiz, D., Guézou, A. & Ziemmeck, F. eds). Puerto Ayora: Charles Darwin Foundation. Available at http://checklists.datazone.darwinfoundation.org/true-fungi/lichens/, last updated 18-Nov-2012.Google Scholar
Bungartz, F., Lücking, R. & Aptroot, A. (2010 c) The lichen family Graphidaceae in the Galapagos Islands. Nova Hedwigia 90: 144.CrossRefGoogle Scholar
Elix, J. A. & McCarthy, P. M. (1998) Catalogue of the lichens of the smaller Pacific Islands. Bibliotheca Lichenologica 70: 361.Google Scholar
Ertz, D. & Diederich, P. (2007) Revision of the Opegrapha species with muriform ascospores (previously Dictyographa) (lichenized Roccellaceae). Lichenologist 39: 143151.CrossRefGoogle Scholar
Ertz, D. & Tehler, A. (2011) The phylogeny of Arthoniales (Pezizomycotina) inferred from nucLSU and RPB2 sequences Fungal Diversity 49: 4771.CrossRefGoogle Scholar
Frisch, A. & Thor, G. (2010) Crypthonia, a new genus of byssoid Arthoniaceae (lichenised Ascomyctoa). Mycological Progress 9: 281303.CrossRefGoogle Scholar
Kirk, P. M. (2011) Index Fungorum. CABI Bioscience, CBS and Landcare Research. Available online at www.indexfungorum.org, last accessed: 19-Sep-2011.Google Scholar
Kirk, P. M., Cannon, P. F., Minter, D. W. & Stalpers, J. A. (2011) Dictionary of Fungi, 10th Edition. Wallingford: CAB International.Google Scholar
Lumbsch, H. T. & Huhndorf, S. M. (2010) Myconet Volume 14 Part One. Outline of Ascomycota-2009. Part Two. Notes on Ascomycete Systematics. Nos. 4751–5113. Fieldiana, Life and Earth Sciences 1: 142.Google Scholar
Lendemer, J. C. (2011) A standardized morphological terminology and descriptive scheme for Lepraria (Stereocaulaceae). Lichenologist 43: 379399.CrossRefGoogle Scholar
Lima, E. L., Mendonça, C. de O., Aptroot, A. & Cácares, M. E. da S. (2013) Two new species of Cryptothecia from Brazil. Lichenologist 45: 361365.CrossRefGoogle Scholar
Makhija, U. & Patwardhan, P. G. (1994) A contribution towards a monograph of the lichen genus Cryptothecia (family Arthoniaceae). In Current Researches in Plant Sciences (Sarma, T. A., Saini, S. S., Trivedi, M. L. & Sharma, M., eds): 5772. Dehra Dun: Bishen Singh Mahendra Pal Singh.Google Scholar
Nelsen, M. P., Lücking, R., Andrew, C. J., Rivas Plata, E., Chaves, J. L., Cáceres, M. E. S. & Ventura, N. (2012) Dismantling Herpothallon: Herpothallon antillarum (Arthoniomycetes: Arthoniaceae) is a member of the genus Diorygma (Lecanoromycetes: Graphidaceae). Bryologist 115: 313321.CrossRefGoogle Scholar
Nelsen, M. P., Lücking, R., Rivaz Plata, E. & Mbatchou, J. S. (2010). Heiomasia, a new genus in the lichen-forming family Graphidaceae (Ascomycota: Lecanoromycetes: Ostropales) with disjunct distribution in Southeastern North America and Southeast Asia. Bryologist 113: 742745.Google Scholar
Nelsen, M. P., Lücking, R., Grube, M., Mbatchou, J. S., Muggia, L., Rivas Plata, E. & Lumbsch, H. T. (2009) Unravelling the phylogenetic relationships of lichensed fungi in Dothideomyceta. Studies in Mycology 64: 135144.Google Scholar
Orange, A., James, P. W. & White, F. J. (2001) Microchemical Methods for the Identification of Lichens. London: British Lichen Society.Google Scholar
Orange, A., James, P. W. & White, F. J. (2010) Microchemical Methods for the Identification of Lichens. Second edition with Additions and Corrections. London: British Lichen Society.Google Scholar
Seavey, F. (2009) Cryptothecia evergladensis sp. nov. (Arthoniaceae), a new lichen species from Everglades National Park, Florida. Opuscula Philolichenum 7: 4954.Google Scholar
Snell, H. L., Stone, P. A. & Snell, H. L. (1996) A summary of geographical characteristics of the Galapagos Islands. Journal of Biogeography 23: 619624.Google Scholar
Snell, H. L., Tye, A., Causton, C. & Bensted-Smith, R. (2002) The status and threats to terrestrial biodiversity. In A Biodiversity Vision for the Galapagos Islands (Bensted-Smith, R., ed.): 4359. Puerto Ayora: Charles Darwin Foundation and World Wildlife Fund.Google Scholar
Sparrius, L. B. & Saipunkaew, W. (2005) Cryptothecia punctosorediata, a new species from Northern Thailand. Lichenologist 37: 507509.CrossRefGoogle Scholar
Staiger, B. (2002) Die Flechtenfamilie Graphidaceae . Bibliotheca Lichenologica 85: 1526.Google Scholar
Trueman, M. & d'Ozouville, N. (2010) Characterizing the Galapagos terrestrial climate in the face of global climate change. Galapagos Research 67: 2637.Google Scholar
Tye, A., Snell, H. L., Peck, S. B. & Adersen, H. (2002) Outstanding terrestrial features of the Galapagos Archipelago. In A Biodiversity Vision for the Galapagos Islands (Bensted-Smith, R., ed.): 2535. Puerto Ayora: Charles Darwin Foundation and World Wildlife Fund.Google Scholar
Weber, W. A. (1986) The lichen flora of the Galapagos Islands, Ecuador. Mycotaxon 27: 451497.Google Scholar
Weber, W. A. (1993) Additions to the Galápagos and Cocos Islands lichen and bryophyte floras. Bryologist 96: 431434.Google Scholar
Weber, W. A. & Beck, H. T. (1985) Effects on cryptogamic vegetation (lichens, mosses, and liverworts). In El Niño en las Islas Galápagos: El Evento de 1982–1983 (Robinson, G. & Pino, E. M. Del eds): 343361. Quito: Charles Darwin Foundation.Google Scholar
Weber, W. A. & Gradstein, S. R. (1984) Lichens and bryophytes. In Key Environments: Galapagos. (Perry, P., ed.): 7184. Oxford: Pergamon Press.Google Scholar
Weber, W. A., Gradstein, S. R., Lanier, J. & Sipman, H. J. M. (1977) Bryophytes and lichens of the Galapagos Islands. Noticias de Galápagos 26: 711.Google Scholar
Wolseley, P. A. & Aptroot, A. (2009) The lichen genera Cryptothecia and Stirtonia in Northern Thailand. Bibliotheca Lichenologica 99: 411422.Google Scholar
Yánez, A., Dal-Forno, M., Bungartz, F., Lücking, R. & Lawrey, D. J. (2011) A first assessment of Galapagos basidiolichens. Fungal Diversity 52: 225244.Google Scholar