ABSTRACT
We investigated the systematic relationships within the pleurocarpous moss genus Plagiothecium, based on cladistic analyses of sequence data from one nuclear (ITS) and two plastid (trnK-psbA (matK) and rpl16 intron) DNA regions for 110 specimens of Plagiothecium and similar hypnalean mosses. Plastid and nuclear trees were mostly similar, but differed in the placement of several species of Plagiothecium, and in the relationships among other genera. The phylogenetic hypotheses based on plastid markers were well resolved; in contrast, nuclear data were insufficient to resolve some of the lowest-level relationships within the genus. In the main Plagiothecium is natural, includes more taxa than are often recognized, and is most closely related to Isopterygiopsis and Herzogiella. Nine sections are recognized within Plagiothecium, four new: Section Pseudo-Neckera to accommodate P. neckeroideum and its allies, Section Ortholimnobium for P. handelii and P. paleaceum, Section Struckia for P. argentatum and P. enerve, and Section Rectithecium for P. piliferum. The geographical distribution of the sections suggests that Plagiothecium originated in Asia. The derived, mainly autoicous sections Plagiothecium and Leptophyllum may have spread to the Southern Hemisphere through long distance dispersal. Three new species in section Leptophyllum (P. funale, P. pacificum and P. rhizolucidum) and two new taxa in section Pseudo-Neckera (P. decoratum and P. neckeroideum fo. exile) are described. A limited phylogenetic hypothesis for the superficially similar hypnalean genus Taxiphyllum, which was used as outgroup, is included. A related genus (Longiella) is described, with a single species (L. plagiothecioides). The aquarium species T. barbieri is transferred to Ectropothecium.
ABSTRACT
PREMISE OF THE STUDY: Within the Hypnales-the most derived and species-rich order of pleurocarpous mosses - phylogenies at or below the family level often show poor resolution. In preparation for a phylogeny of the genus Plagiothecium, we wished to identify the DNA markers best suited for evolutionary reconstruction in this group of hypnalean pleurocarps. METHODS: For each of 25 collections of Plagiothecium and associated taxa, 16 DNA regions were sequenced: nuclear ITS and 26S, and plastid rps4, rps4-trnL, trnL-F, trnK (matK)-psbA, psbA-trnH, trnM-V, trnD-T, rbcL, atpB-rbcL, psbT-H, rpoC1 exon 2 (partial), the trnG intron, the rpl16 intron and the plastid ribosomal spacer DNA (cpITS). Each region was evaluated on the basis of its ability to resolve clades, the amount of homoplasy present in the data set, and the relative ease of obtaining the data. Descriptive statistics for each region are given. KEY RESULTS: Under-utilized plastid markers for bryophytes such as trnK-psbA, rps4-trnL, and trnD-T outperformed more traditional markers such as trnL-F and rps4. Individual plastid topologies were similar, suggesting that only a limited amount of plastid data are needed to recover a backbone phylogeny. Adding a small amount of nuclear ribosomal data to a large plastid matrix restructured the recovered topology, emphasizing the importance of sampling multiple genomes and the need for new low-copy nuclear markers in bryophyte systematics. CONCLUSIONS: Future genus-level phylogenies of pleurocarpous mosses should target under-utilized plastid markers such as trnK-psbA and rps4-trnL in conjunction with low-copy nuclear markers.
