Extended Phylogeny and a Revised Generic Classification of The

Extended Phylogeny and a Revised Generic Classification of The

The Lichenologist 46(5): 627–656 (2014) 6 British Lichen Society, 2014 doi:10.1017/S002428291400019X Extended phylogeny and a revised generic classification of the Pannariaceae (Peltigerales, Ascomycota) Stefan EKMAN, Mats WEDIN, Louise LINDBLOM and Per M. JØRGENSEN Abstract: We estimated phylogeny in the lichen-forming ascomycete family Pannariaceae. We specif- ically modelled spatial (across-site) heterogeneity in nucleotide frequencies, as models not incorpo- rating this heterogeneity were found to be inadequate for our data. Model adequacy was measured here as the ability of the model to reconstruct nucleotide diversity per site in the original sequence data. A potential non-orthologue in the internal transcribed spacer region (ITS) of Degelia plumbea was observed. We propose a revised generic classification for the Pannariaceae, accepting 30 genera, based on our phylogeny, previously published phylogenies, as well as available morphological and chemical data. Four genera are established as new: Austroparmeliella (for the ‘Parmeliella’ lacerata group), Nebularia (for the ‘Parmeliella’ incrassata group), Nevesia (for ‘Fuscopannaria’ sampaiana), and Pectenia (for the ‘Degelia’ plumbea group). Two genera are reduced to synonymy, Moelleropsis (included in Fuscopannaria) and Santessoniella (non-monophyletic; type included in Psoroma). Lepido- collema, described as monotypic, is expanded to include 23 species, most of which have been treated in the ‘Parmeliella’ mariana group. Homothecium and Leightoniella, previously treated in the Collemataceae, are here referred to the Pannariaceae. We propose 41 new species-level combinations in the newly described and re-circumscribed genera mentioned above, as well as in Leciophysma and Psoroma. Key words: Collemataceae, lichen taxonomy, model adequacy, model selection Accepted for publication 13 March 2014 Introduction which include c. 90% of the total number of species in the order, that is, Lobariaceae, Peltigerales is one out of nine named orders Pannariaceae, Collemataceae,andPeltigeraceae in the most species-rich class among the (Kirk et al. 2008). Several recent contribu- ascomycetes, the Lecanoromycetes (Schoch tions have significantly increased knowledge et al. 2009), and incorporates the majority of about broad phylogenetic relationships in lichen-forming fungi with cyanobacteria as the Peltigerales (Wedin et al. 2007, 2009; their photosynthesizing symbiotic partner. Ota´lora et al. 2010; Muggia et al. 2011; Spri- The Peltigeralean lichens play an important bille & Muggia 2013). role in the terrestrial nitrogen cycle of many Current estimates indicate that the Pan- ecosystems through the fixation of atmo- nariaceae is the second most species-rich spheric nitrogen (Cleveland et al. 1999; family of the Peltigerales, and includes more Belnap 2003). Current classifications of the than 300 known species (Kirk et al. 2008). Peltigerales include ten families (Wedin et al. In its original description (Tuckerman 1872), 2007; Spribille & Muggia 2013), four of however, the Pannariaceae included only two genera, Pannaria and Heppia. It was not until the treatment by Zahlbruckner (1926) that S. Ekman: Museum of Evolution, Uppsala University, Norbyva¨gen 16, SE-75236 Uppsala, Sweden. the familial circumscription was stabilized Email: [email protected] and came to include large and well-known M. Wedin: Department of Botany, Swedish Museum of genera such as Psoroma and Parmeliella,which Natural History, Box 50007, SE-10405 Stockholm, are still treated in the Pannariaceae. Zahl- Sweden. bruckner included eleven genera altogether, L. Lindblom and P. M. Jørgensen: Department of Natural History, University Museum of Bergen, Box although he excluded Heppia. Some genera 7800, NO-5020 Bergen, Norway. included by Zahlbruckner, Hydrothyrea, Mas- Downloaded from https://www.cambridge.org/core. Open University Library, on 11 May 2019 at 18:52:45, subject to the Cambridge Core terms of use, available at https://www.cambridge.org/core/terms. https://doi.org/10.1017/S002428291400019X 628 THE LICHENOLOGIST Vol. 46 salongia, Placynthium and Coccocarpia,have taxonomic section below. The morphology and anatomy later been excluded from the Pannariaceae of the specimens were examined, and chemistry was investigated by thin-layer chromatography (Culberson (see, e.g. Wedin et al. 2007, 2009). Jørgensen & Kristinsson 1970). (1978, 1994) pointed out that Zahlbruckner’s generic classification had paid too much at- Taxon selection for molecular studies tention to the photobiont (green-algal or cyanobacterial) and presence or absence of a We selected representatives of all genera included in the Pannariaceae as circumscribed by Jørgensen (2003), thalline margin in the apothecia. In the survey Wedin et al. (2009), Muggia et al. (2011), and Spribille by Henssen & Jahns (1973), only four genera & Muggia (2013) except Kroswia (Jørgensen & Gjerde were included in the Pannariaceae: Lepido- 2012), Leptogidium (Muggia et al. 2011), Psoromidium collema, Pannaria, Parmeliella,andPsoroma. (Galloway & James 1985), and Steineropsis (Spribille et A preliminary single-gene phylogeny of the al. 2010; Spribille & Muggia 2013). We were unable to obtain fresh enough material of Lepidocollema and Psoro- family (Ekman & Jørgensen 2002) confirmed midium, whereas repeated attempts to generate PCR that Protopannaria is distinct from Pannaria products from Kroswia were unsuccessful. Leptogidium (in which it had previously been included), and Steineropsis were not included because they were that Pannaria included a mixture of species recognized as members of the Pannariaceae only after the initiation of this study (Muggia et al. 2011; Spribille with a green-algal and cyanobacterial photo- & Muggia 2013). Altogether, the data matrix included biont, and excluded the Fuscopannaria leuco- 110 ingroup terminals representing 88 species (see phaea group, later described as Vahliella Supplementary Materials Table S1, available online). (Jørgensen 2008), from the Pannariaceae. Vahliella leucophaea, a member of the Vahliellaceae (Wedin Continued revision of familial and generic et al. 2011), was used as outgroup. boundaries led Jørgensen (2003) to recognize 17 genera altogether, although some with DNA extraction, PCR amplification and sequence doubt. Later investigations demonstrated that editing all studied genera with non-septate asco- We obtained DNA sequences from three different spores (Leciophysma, Physma, Ramalodium, genes, the largest subunit of the RNA polymerase II gene (RPB1), the internal transcribed spacer (ITS) re- and Staurolemma), traditionally referred to gion (including ITS1, 5.8S, and ITS2) of the nuclear the Collemataceae because of their gelatinous ribosomal RNA gene, and the small subunit of the mito- thallus, should be transferred to the Pannar- chondrial ribosomal RNA gene (mrSSU). Laboratory iaceae (Wedin et al. 2009; Ota´lora et al. 2010; methods followed Lindblom & Ekman (2005), Ekman Muggia et al. 2011). In addition, Vahliella et al. (2008), Wedin et al. (2009), and Ekman & Blaalid (2011). was shown to belong in a family of its own, Vahliellaceae (Wedin et al. 2009, 2011), Alignment of ITS whereas species with a Scytonema photobiont previously treated in Polychidium belong in a The ITS1 region was assumed to start immediately genus of Pannariaceae, Leptogidium (Muggia after the GATCATTA pattern at the end of the small subunit of the nuclear ribosomal RNA gene region. The et al. 2011). ITS2 region was assumed to end after the 9th nucleotide Despite previous efforts, phylogenetic rela- preceding the TCGGATCA pattern at the beginning of tionships within the Pannariaceae remain in- the large subunit of the nuclear ribosomal RNA gene re- sufficiently known. Our aim was to estimate gion. Borders between ITS1 and 5.8S and between 5.8S and ITS2 were defined using the Rfam 5.8S seed align- phylogenetic relationships in the Pannaria- ment (Gardner et al. 2009). A preliminary alignment ceae based on an expanded sampling of taxa, was created using the G-INS-I algorithm of MAFFT and provide a revised taxonomic overview of version 6.820 (Katoh & Toh 2008). The ITS region the family in light of the phylogenetic esti- was subsequently split into separate data sets. The 5.8S mate, previous phylogenetic estimates, as well region was considered unambiguously and finally aligned, whereas the ITS1 and ITS2 regions were prepared for as morphological data. downstream structural alignment by stripping all gaps introduced by the preliminary alignment procedure. The two gene regions were subsequently aligned sepa- Material and Methods rately using three different structural aligners, viz. Murlet Taxonomy and nomenclature version 0.1 (Kiryu et al. 2007), CentroidAlign version 1.0 (Hamada et al. 2009), and MAFFT with the X- We studied the type species of most described genera INS-i algorithm using MXSCARNA pairwise structural in the Pannariaceae, located in the herbaria cited in the alignments and Contrafold base-pairing probabilities Downloaded from https://www.cambridge.org/core. Open University Library, on 11 May 2019 at 18:52:45, subject to the Cambridge Core terms of use, available at https://www.cambridge.org/core/terms. https://doi.org/10.1017/S002428291400019X 2014 Pannariaceae phylogeny—Ekman et al. 629 (Katoh & Toh 2008). The three structural alignments thorough model selection from among the GTR family (for each gene region) were combined into a single align- of likelihood models, including rate heterogeneity across ment for each gene region using

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