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Opegrapha multipuncta and Schismatomma quercicola (Arthoniomycetes) belong to the Lecanoromycetes

Published online by Cambridge University Press:  04 November 2019

Damien ERTZ Open the ORCID record for Damien ERTZ [Opens in a new window] ,
Neil SANDERSON ,
Brian J. COPPINS ,
Jon T. KLEPSLAND  and
Andreas FRISCH
Damien ERTZ
Affiliation:
Research Department, Meise Botanic Garden, Nieuwelaan 38, B-1860 Meise, Belgium; and Fédération Wallonie-Bruxelles, Direction Générale de l'Enseignement non obligatoire et de la Recherche scientifique, Rue A. Lavallée 1, B-1080 Bruxelles, Belgium. Email: [email protected]
Neil SANDERSON
Affiliation:
3 Green Close, Woodlands, Southampton, SO40 7HU, UK.
Brian J. COPPINS
Affiliation:
Royal Botanic Garden Edinburgh, 20A Inverleith Row, Edinburgh EH3 5LR, UK.
Jon T. KLEPSLAND
Affiliation:
BioFokus, Gaustadalléen 21, NO-0349 Oslo, Norway.
Andreas FRISCH
Affiliation:
NTNU University Museum, Erling Skakkes Gate 47A, NO-7012 Trondheim, Norway.
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Abstract

Opegrapha multipuncta and Schismatomma quercicola are two sterile European lichens reproducing 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 & Sanderson. 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

GraphidaceaelichensOstropalesphylogenyPorinaceaeSchizotremataxonomy
Type
Articles
Information
The Lichenologist , Volume 51 , Issue 5 , September 2019 , pp. 395 - 405
Copyright
Copyright © British Lichen Society 2019 

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References

Akaike, H. (1973) Information theory and an extension of the maximum likelihood principle. In Proceedings of the 2nd International Symposium on Information Theory (Petrov, B. N. & Csaki, F., eds): 267281. Budapest: Akademiai Kiado.Google Scholar
Alstrup, V. & Alstrup, K. (1989) Epiphytic lichens. Skónir á trøum og runnum. In A Century of Tree-Planting in the Faroe Islands (Hojgaard, A., Johansen, J. & Odum, S., eds): 157164. Tórshavn: Føroya Fródskaparfelag.Google Scholar
Aptroot, A. & Rodrigues, A. F. (2005) Additions to the Azorean lichen flora. Arquipélago - Life and Marine Sciences 22A: 7175.Google Scholar
Aptroot, A., Jordaens, D., Sparrius, L., Spier, L. & Van den Broeck, D. (2007) Korstmossen in Finistère (Bretagne). Buxbaumiella 78: 5264.Google Scholar
Baloch, E. & Grube, M. (2006) Evolution and phylogenetic relationships within Porinaceae (Ostropomycetidae), focusing on foliicolous species. Mycological Research 110: 125136.Google Scholar
Bricaud, O. (2007) Aperçu de la végétation lichénique de quelques stations du parc naturel régional du Luberon (Vaucluse et Alpes-de-haute-Provence). Bulletin d'Informations de l'Association Française de Lichénologie 32: 3386.Google Scholar
British Lichen Society (2019) The BLS Lichen Database [WWW resource] URL http://www.britishlichensociety.org.uk/recordingmapping/bls-databases. [Accessed 1 March 2019].Google Scholar
Coppins, B. J. (1989) Notes on the Arthoniaceae in the British Isles. Lichenologist 21: 195216.Google Scholar
Coppins, B. J. & James, P. W. (1989) The identity of ‘Lecidea cinnabarina’ in the British Isles. Lichenologist 21: 237242.Google Scholar
Coppins, B. J., James, P. W. & Hawksworth, D. L. (1992) New species and combinations in the lichen flora of Great Britain and Ireland. Lichenologist 24: 351369.Google Scholar
Darriba, D., Taboada, G. L., Doallo, R. & Posada, D. (2012) jModelTest 2: more models, new heuristics and parallel computing. Nature Methods 9: 772.Google Scholar
Diederich, P., Lücking, R., Aptroot, A., Sipman, H. J. M., Braun, U., Ahti, T. & Ertz, D. (2017) New species and new records of lichens and lichenicolous fungi from the Seychelles. Herzogia 30: 182236.Google Scholar
Ertz, D. & Tehler, A. (2011) The phylogeny of Arthoniales (Pezizomycotina) inferred from nucLSU and RPB2 sequences. Fungal Diversity 49: 4771.Google Scholar
Ertz, D., Tehler, A., Irestedt, M., Frisch, A., Thor, G. & van den Boom, P. (2015) A large-scale phylogenetic revision of Roccellaceae (Arthoniales) reveals eight new genera. Fungal Diversity 70: 3153. http://dx.doi.org/10.1007/s13225-014-0286-5Google Scholar
Ertz, D., Coppins, B. J. & Sanderson, N. A. (2018 a) The British endemic Enterographa sorediata is the widespread Syncesia myrticola (Roccellaceae, Arthoniales). Lichenologist 50: 153160.Google Scholar
Ertz, D., Guzow-Krzemińska, B., Thor, G., Łubek, A. & Kukwa, M. (2018 b) Photobiont switching causes changes in the reproduction strategy and phenotypic dimorphism in the Arthoniomycetes. Scientific Reports 8: 4952. https://doi.org/10.1038/s41598-018-23219-3Google Scholar
Ertz, D., Sanderson, N., Łubek, A. & Kukwa, M. (2018 c) Two new species of Arthoniaceae from old-growth European forests, Arthonia thoriana and Inoderma sorediatum, and a new genus for Schismatomma niveum. Fungal Diversity 70: 3153. http://dx.doi.org/10.1017/s0024282917000688Google Scholar
Frisch, A., Kalb, K. & Grube, M. (2006) Contributions towards a new systematics of the lichen family Thelotremataceae III. Molecular phylogeny of the Thelotremataceae. Bibliotheca Lichenologica 92: 517539.Google Scholar
Frisch, A., Ohmura, Y., Ertz, D. & Thor, G. (2015) Inoderma and related genera in Arthoniaceae with elevated white pruinose pycnidia or sporodochia. Lichenologist 47: 233256. http://dx.doi.org/10.1017/S0024282915000201Google Scholar
Grube, M., Baloch, E. & Lumbsch, H. T. (2004) The phylogeny of Porinaceae (Ostropomycetidae) suggests a neotenic origin of perithecia in Lecanoromycetes. Mycological Research 108: 11111118.Google Scholar
Huelsenbeck, J. P. & Ronquist, F. (2001) MRBAYES: Bayesian inference of phylogenetic trees. Bioinformatics 17: 754755.Google Scholar
James, P. W. (1971) New or interesting British lichens: 1. Lichenologist 5: 114148.Google Scholar
Katoh, K., Misawa, K., Kuma, K. & Miyata, T. (2002) MAFFT: a novel method for rapid multiple sequence alignment based on fast Fourier transform. Nucleic Acids Research 30: 30593066. http://dx.doi.org/10.1093/nar/gkf436Google Scholar
Lücking, R. (2008) Foliicolous lichenized fungi. Flora Neotropica Monograph 103: 1866.Google Scholar
Lumbsch, H. T., Divakar, P. K., Messuti, M. I., Mangold, A. & Lücking, R. (2010) A survey of thelotremoid lichens (Ascomycota: Ostropales) in subantarctic regions excluding Tasmania. Lichenologist 42: 203224.Google Scholar
Maddison, W. P. & Maddison, D. R. (2015) Mesquite: a modular system for evolutionary analysis. Version 3.04. Available from: http://mesquiteproject.org.Google Scholar
Mangold, A., Martín, M. P., Lücking, R. & Lumbsch, H. T. (2008) Molecular phylogeny suggests synonymy of Thelotremataceae within Graphidaceae (Ascomycota: Ostropales). Taxon 57: 476486.Google Scholar
Mangold, A., Elix, J. A. & Lumbsch, H. T. (2009) Thelotremataceae. In Flora of Australia Volume 57. Lichens 5. (McCarthy, P. M., ed.): 195–420 + (appendix) 653659. Canberra and Melbourne: ABRS and CSIRO Publishing.Google Scholar
McCarthy, P. M. (2018) Checklist of the Lichens of Australia and its Island Territories. Australian Biological Resources Study, Canberra. Version 17 May 2018. [WWW document] URL http://www.anbg.gov.au/abrs/lichenlist/introduction.html.Google Scholar
McCarthy, P. M. & Elix, J. A. (1996) Myeloconis, a new genus of pyrenocarpous lichens from the tropics. Lichenologist 28: 401414.Google Scholar
McCarthy, P. M. & Fryday, A. M. (2009) A new saxicolous species of Porina (Ostropales; Porinaceae) from the Falkland Islands. Opuscula Philolichenum 7: 187190.Google Scholar
Miadlikowska, J., Kauff, F., Hofstetter, V., Fraker, E., Grube, M., Hafellner, J., Reeb, V., Hodkinson, B. P., Kukwa, M., Lücking, R., et al. (2006) New insights into classification and evolution of the Lecanoromycetes (Pezizomycotina, Ascomycota) from phylogenetic analyses of three ribosomal RNA- and two protein-coding genes. Mycologia 98: 10881103.Google Scholar
Miller, M. A., Pfeiffer, W. & Schwartz, T. (2010) Creating the CIPRES Science Gateway for inference of large phylogenetic trees. In Proceedings of the Gateway Computing Environments Workshop (GCE), 14 November 2010, New Orleans, Louisiana, pp. 18.Google Scholar
Nelsen, M. P., Lücking, R., Rivas 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: 742751.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.Google Scholar
Nelsen, M. P., Lücking, R., Andrew, C. J., Aptroot, A., Cáceres, M. E. S., Mercado-Díaz, J. A., Rivas Plata, E. & Lumbsch, H. T. (2014) Molecular phylogeny reveals the true colours of Myeloconidaceae (Ascomycota: Ostropales). Australian Systematic Botany 27: 3847.Google Scholar
Orange, A. (2015) A new freshwater Porina (Porinaceae, Ostropales) from Great Britain. Lichenologist 47: 351358.Google Scholar
Orange, A., James, P. W. & White, F. J. (2001) Microchemical Methods for the Identification of Lichens. London: British Lichen Society.Google Scholar
Øvstedal, D. O. & Schaefer, C. E. G. R. (2013) A new lichen species from the Heritage Range, Ellsworth Mountains, Antarctica. Hoehnea 40: 361364.Google Scholar
Pentecost, A. & Coppins, B. (1983) Key to Opegrapha in Great Britain. British Lichen Society Bulletin 53: 2735.Google Scholar
Pentecost, A. & James, P. W. (2009) Opegrapha Ach. (1809). In The Lichens of Great Britain and Ireland (Smith, C. W., Aptroot, A., Coppins, B. J., Fletcher, A., Gilbert, O. L., James, P. W. & Wolseley, P. A., eds): 631647. London: British Lichen Society.Google Scholar
Rambaut, A. (2012) FigTree v1.4.2. Available from: http://tree.bio.ed.ac.uk/software/figtree/Google Scholar
Rambaut, A. & Drummond, A. J. (2007) Tracer v1.6. Available from: http://beast.bio.ed.ac.uk/Google Scholar
Rivas Plata, E., Hernández, J. E., Lücking, R., Staiger, B., Kalb, K. & Cáceres, M. E. S. (2011) Graphis is two genera: a remarkable case of parallel evolution in lichenized Ascomycota. Taxon 60: 99107.Google Scholar
Rivas Plata, E., Parnmen, S., Staiger, B., Mangold, A., Frisch, A., Weerakoon, G., Hernández, J. E., Cáceres, M. E. S., Kalb, K., Sipman, H. J. M., et al. (2013) A molecular phylogeny of Graphidaceae (Ascomycota, Lecanoromycetes, Ostropales) including 428 species. Mycokeys 6: 5594.Google Scholar
Ronquist, F. & Huelsenbeck, J. P. (2003) MrBayes 3: Bayesian phylogenetic inference under mixed models. Bioinformatics 19: 15721574.Google Scholar
Roux, C. et coll. (2014) Catalogue des Lichens et Champignons Lichénicoles de France Métropolitaine. Fougères: Henry des Abbayes.Google Scholar
Sanderson, N. A. (2001) Epiphytic Lichen Monitoring in the New Forest 2000. LIFE Job L33A2U. Lyndhurst: Forest Enterprise.Google Scholar
Sanderson, N. A., Wilkins, T. C., Bosanquet, S. D. S. & Genney, D. R. (2018) Guidelines for the Selection of Biological SSSIs. Part 2: Detailed Guidelines for Habitats and Species Groups. Chapter 13, Lichens and Associated Microfungi. Peterborough: Joint Nature Conservation Committee.Google Scholar
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: 6775.Google Scholar
Stamatakis, A. (2014) RAxML version 8: a tool for phylogenetic analysis and post-analysis of large phylogenies. Bioinformatics 30: 13121313. https://doi.org/10.1093/bioinformatics/btu033.Google Scholar
Tønsberg, T. (1992) The sorediate and isidiate, corticolous, crustose lichens in Norway. Sommerfeltia 14: 1331.Google Scholar
Tretiach, M. (2004) Further additions to the Italian lichen flora. Cryptogamie, Mycologie 25: 173183.Google Scholar
Van den Broeck, D., Frisch, A., Razafindrahaja, T., Van de Vijver, B. & Ertz, D. (2018) Phylogenetic position of Synarthonia (lichenized Ascomycota, Arthoniaceae), with the description of six new species. Plant Ecology and Evolution 151: 327351. https://doi.org/10.5091/plecevo.2018.1506.Google Scholar
Vězda, A. (1994) Neue foliicole Flechten II. Nova Hedwigia 58: 123143.Google Scholar
Wolseley, P. A. & Hawksworth, D. L. (2009) Schismatomma Flot. & Körb. ex A. Massal. (1852). In The Lichens of Great Britain and Ireland (Smith, C. W., Aptroot, A., Coppins, B. J., Fletcher, A., Gilbert, O. L., James, P. W. & Wolseley, P. A., eds): 834837. London: British Lichen Society.Google Scholar
Zefeng, J. I. A. & Lücking, R. (2019) A genus Schizotrema (Graphidaceae) new to China, with a world-wide key. 广西植物.ChinaXiv 201902.00011. http://chinaxiv.org/abs/201902.00011Google Scholar
Zoller, S., Scheidegger, C. & Sperisen, C. (1999) PCR primers for the amplification of mitochondrial small subunit ribosomal DNA of lichen-forming ascomycetes. Lichenologist 31: 511516.Google Scholar