| Literature Cited |
| ALLENB.H. 2014. Maine mosses: Drummondiaceae – Polytrichaceae. Memoirs of The New York Botanical Garden 111: i–xvi, 1–607.Google Scholar
|
|
| ALLENB.H. 2018. Moss flora of Central America. Part 4. Fabroniaceae–Polytrichaceae. Monographs in Systematic Botany from the Missouri Botanical Garden 132: i–x, 1–830.Google Scholar
|
|
| AUSTINC.F. 1880. Bryological notes. Bulletin of the Torrey Botanical Club 7: 15–16.Google Scholar
|
|
| BUCKW.R. 1991. The Generic Placement of Anomodon lagoensis The Bryologist 94: 82.Google Scholar, Crossref
|
|
| BUCKW.R., CRUM H.A. 1990. An evaluation of familial limits among the genera traditionally aligned with the Thuidiaceae and Leskeaceae. Contributions from the University of Michigan Herbarium 17: 55–69.Google Scholar
|
|
| CAIQ.-Y., GUAN B.C., GE G., FANG Y.M. 2019. Molecular Phylogeny of Chinese Thuidiaceae with emphasis on Thuidium and Pelekium. arXiv:1902.06032 [q-bio].Google Scholar
|
|
| DESHMUKHU.B. 2021. Ignatovia, a new replacement name for Lazarenkoa Ignatov & Ignatova (Leskeaceae, Bryophyta). Hytotaxa 497: 173–174.Google Scholar, Crossref
|
|
| GARCНA-AVILAD., DE LUNA E., NEWTON A.E. 2009. Phylogenetic relationships of the Thuidiaceae and the non-monophyly of the Thuidiaceae and the Leskeaceae based on rbcL, rps4 and the rps4-trnS intergenic spacer. The Bryologist 112: 80–93.Google Scholar, Crossref
|
|
| IGNATOVM.S., DUGAROVA O.D., FEDOROVA A.V., E.A. IGNATOVA. 2019. Lazarenkoa a new moss genus from the Russian Far East. Arctoa 28: 226–230.Google Scholar, Crossref
|
|
| IGNATOVM.S.,KUČERA J., HEDENÄS L., KUZNETSOVA O.I., IGNATOVA E.A. 2020. A revision of the genus Orthothecium (Plagiotheciaceae, Bryophyta) in northern Eurasia. Arctoa 29: 10–48.Google Scholar, Crossref
|
|
| KUČERAJ., KUZNETSOVA O.I., MANUKJANOVÁ A., IGNATOV M.S. 2019. phylogenetic revision of the genus Hypnum: Towards Completion. Taxon 68: 628–660.Google Scholar, Crossref
|
|
| NOGUCHIA., IWATSUKI Z., YAMAGUCHI T. 1991. Illustrated Moss Flora of Japan Vol. 4. Hattori Botanical Laboratory, Nichinan, pp. 743–1012.Google Scholar
|
|
| REIMERSH.J.O. 1937. Die europäischen Haplocladium-Arten mit besonderer Berücksichtigung ihrer außereuropäischen Verbreitung und ihrer Verwandtschaft. Hedwigia 76: 191–298.Google Scholar
|
|
| RONQUISTF., TESLENKO M., VAN DER MARK M., AYRES D.L., DARLING A., HÖHNA S., LARGET B., LIU L., SUCHARD M.A., HUELSENBECK J.P. 2012. MrBayes 3.2: Efficient Bayesian Phylogenetic Inference and Model Choice Across a Large Model Space. Systematic Biology 61: 539–542.Google Scholar, Crossref
|
|
| SOARESA.E.R. 2015. A Família Thuidiaceae Schimp. no Brasil, um estudo taxonômico, filogenético e morfológico. Universidade de Brasília, 201 pp.Google Scholar
|
|
| STAMATAKISA. 2014. RAxML version 8: a tool for phylogenetic analysis and post-analysis of large phylogenies. Bioinformatics 30: 1312–1313.Google Scholar, Crossref
|
|
| TOUWA. 2001. A review of the Thuidiaceae (Musci) and a realignment of taxa traditionally accommodated in Thuidium sensu amplo (Thuidium Schimp., Thuidiopsis (Broth.) M. Fleisch., and Pelekium Mitt.) including Aequatoriella gen. nov., and Indothuidium gen. nov. Journal of the Hattori Botanical Laboratory 90: 167–209.Google Scholar
|
|
| WIJK,R., MARGADANT W.D. 1962. New combinations in mosses VII. Taxon 11: 221–223.Google Scholar, Crossref
|
|