Literature Cited |
BlomHH. 1996. A revision of the Schistidium apocarpum complex in Norway and Sweden Bryophytorum Bibliotheca 49: 333 pp.Google Scholar
|
BlomHH, Bednarek-Ochyra H, Ochyra R. 2016. Studies on Schistidium (Grimmiaceae, Bryophyta) in Europe, with particular reference to the Alps: I. A description of S. marginale sp. nov Phytotaxa 247(3): 210–218.Google Scholar
|
BlomHH, Darigo CE. 2009. Schistidium viride (Grimmiaceae), a new name for a common but neglected species in eastern North America The Bryologist 112: 273–277.Google Scholar
|
BlomHH, Shevock JR, Long DG, Ochyra R. 2011. Two new rheophytic species of Schistidium (Grimmiaceae) from China Journal of Bryology 33(3): 179–188.Google Scholar
|
FengC, Kou J, Bai XL, Li W. 2013. Schistidium ignatovae (Grimmiaceae), a new species from Sichuan, China Annales Botanici Fennici 50(6): 386–392.Google Scholar
|
GardinerAA, Ignatov MS, Huttunen S, Troitsky AV. 2005. On resurrection of the families Pseudoleskeaceae Schimp. and Pylaisiaceae Schimp. (Musci, Hypnales) Taxon 54: 651–663.Google Scholar
|
GoryunovDV, Ignatova EA, Ignatov MS, Milyutina IA, Troitsky AV. 2007. Support from DNA data for a narrow species concept in Schistidium (Grimmiaceae, Musci) Journal of Bryology 29: 98–103.Google Scholar
|
Guerra,J, Martinez M, Jimenez JA, Cano MJ, Gallego MT. 2021[2020]. A new species of moss emerges from molecular and morphological data: Schistidium memnonium sp. nov. (Grimmiaceae, Bryophyta) Plant Biosystems 155(3): 567–578.Google Scholar
|
HallTA. 1999. BioEdit: a user-friendly biological sequence alignment editor and analysis program for Windows 95/98/NT. Nucleic Acids Research Symposium Series 41: 95–98.Google Scholar
|
[IgnatovaEA, Blom HH] Игнатова ЕА, Блом ХХ. 2017. Род Schistidium Brid – Схистидиум [The genus Schistidium Brid.] В кн.: М.С. Игнатов (отв. ред.). Флора мхов России. Том 2. Oedipodiales – Grimmiales. [In: Moss flora of Russia. Volume 2. Oedipodiales – Grimmiales] М., КМК [Moscow, KMK], pp. 40–114.Google Scholar
|
IgnatovaEA, Blom HH, Goryunov DV, Milyutina IA. 2010. On the genus Schistidium (Grimmiaceae, Musci) in Russia Arctoa 19: 195–233.Google Scholar
|
IgnatovaEA, Blom HH, Kuznetsova OI. 2016. Schistidium austrosibiricum sp. nov. and S. scabripilum sp. nov. (Grimmiaceae, Bryophyta) – two closely related species from Asian Russia Arctoa 25: 107–115.Google Scholar, Crossref
|
KatohK, Standley DN. 2013. MAFFT Multiple sequence alignment software version 7: improvements in performance and usability. Molecular Biology and Evolution 30(4): 772–780.Google Scholar
|
KiebacherT, Köckinger H, Blom HH. 2021. Schistidium foraminis-martini sp. nov. (Grimmiaceae), a high mountain calcicole from the European Alps molecularly related to S. agassizii Bryophyte Diversity and Evolution 44(1): 1–11.Google Scholar
|
KozubD, Khmelik V, Shapoval Yu, Chentsov V, Yatsenko S, Litovchenko B, Starykh V. 2008. Heicon Focus Software. http://www.heliconsoft.comGoogle Scholar
|
McintoshTT, Blom HH, Toren DR, Shevock JR. 2015. Two new species of Schistidium (Grimmiaceae, Bryophyta) from western North America Phytotaxa 213(1): 57–64.Google Scholar
|
McintoshTT, Blom HH, Kuznetsova OI, Ignatova EA. 2017. Schistidium relictum (Grimmiaceae, Bryophyta), a new moss species from Northwest North America and Siberia Phytotaxa 299(2): 234–242.Google Scholar
|
[MilyutinaIA, Gorynov DV, Ignatov MS, Ignatova EA, Troitsky AV] Милютина ИА, Горюнов ДВ, Игнатов МС, Игнатова ЕА, Троицкий АВ. 2010. Филогения мхов рода Schistidium (Bryophyta, Grimmiaceae) по нуклеотидным последовательностям и вторичной структуре внутренних транс¬кри¬бируемых спейсеров ядерной рДНК [Phylogeny of the moss genus Schistidium (Bryophyta, Grimmiaceae) inferred from the sequences an secondary structure of the inner transcribed spacers of the nuclear ribosomal DNA] Молекулярная биология [Molecular biology] 44(6): 994–1009.Google Scholar
|
OchyraR, Bednarek-Ochyra H. 2015. The earliest recognition of Schistidium occidentale (Grimmiaceae, Bryophyta), with a review of species of Schistidium subg. Canalicularia Arctoa 24(1): 32–36.Google Scholar
|
OchyraR, Żarnowiec J, Bednarek-Ochyra H. 2003. Census catalogue of Polish mosses Biodiversity of Poland 3: 1–372.Google Scholar
|
RonquistF, Teslenko M, Mark P, Van Der, Ayres DL, Darling A, Höhna S, Larget B, Liu L, Suchard MA, Huelsenbeck JP. 2012. MrBayes 3.2: efficient Bayesian phylogenetic inference and model choice across a large model space Systematic Biology 61: 539–542.Google Scholar
|
SulaymanM, Fedosov V, Plášek V. 2022. Four remarkable additions to the biodiversity of Chinese Mosses Plants 11(19): e2590.Google Scholar, Crossref
|
TrifinopoulosJ, Nguyen LT, Von Haeseler A, Minh BQ. 2016. W-IQ-TREE: a fast online phylogenetic tool for maximum likelihood analysis Nuclear Acids Research 44(W1): W232-W235.Google Scholar, Crossref
|