Literature Cited |
Blom, H. H. 1996. A revision of the Schistidium apocarpum complex in Norway and Sweden. Bryophytorum Bibliotheca 49, 333 pp. Google Scholar
|
Blom, H. H. , H. Bednarek-Ochyra & R. Ochyra. 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, Crossref
|
Ellis, L. T. , A. K. Asthana, P. Srivastava, I. Omar, K. K. Rawat, V. Sahu, M. J. Cano, D. P. Costa, E. M. Dias, N. Dias dos Santos, J. B. Silva, V. E. Fedosov, M. N. Kozhin, E. A. Ignatova, S. R. Germano, E. O. Golovina, N. J. M. Gremmen, R. Ion, S. Ştefanuţ, M. von Konrat, M. S. Jimenez, G. M. Suárez, T. Kiebacher, M. Lebouvier, D. G. Long, D. Maity, R. Ochyra, I. Parnikoza, V. Plášek, L. Fialová, Z. Skoupá, S. Poponessi, M. Aleffi, M. S. Sabovljević, A. D. Sabovljević, P. Saha, M. N. Aziz, J. Sawicki, M. Suleiman, B. -Y. Sun, J. Váňa, T. Wójcik, Y. -J. Yoon, J. Żarnowiec & J. Larraín. 2016. New national and regional bryophyte records, 46. Journal of Bryology 38: 47–63. Google Scholar, Crossref
|
Gardiner, A. , M. Ignatov, S. Huttunen & A. Troitsky. 2005. On resurrection of the families Pseudoleskeaceae Schimp. and Pylaisiaceae Schimp. (Musci, Hypnales). Taxon 54: 651–663. Google Scholar
|
Hall, T. A. 1999. BioEdit: a user-friendly biological sequence alignment editor and analysis program for Windows 95/98/NT. Nuclar Acids Symposium Series 41: 95–98. Google Scholar
|
Goryunov D.V., E.A. Ignatova, M.S. Ignatov, I.A. Milyutina & A.V. Troitsky. 2007. Support from DNA data for a narrow species concept in Schistidium (Grimmiaceae, Musci). Journal of Bryology 29: 98 103.Google Scholar, Crossref
|
Hofbauer, W.K., L.L. Forrest, P.M. Hollingworth & M.L. Hart. 2016– Preliminary insights from DNA barcoding into the diversity of mosses colonizing building surfaces. Bryophyte Diversity and Evolution 38: 1–22.Google Scholar
|
Ignatova, E.A., H.H. Blom, D.V. Goryunov & I.A. Milyutina. 2010. On the genus Schistidium (Grimmiaceae, Musci) in Russia. Arctoa 19: 195–223.Google Scholar, Crossref
|
Keane, T., C. Creevey, M. Pentony, T. Naughton & J. Mclnerney. 2006. Assessment of methods for amino acid matrix selection and their use on empirical data shows that ad hoc assumptions for choice of matrix are not justified. BMC Evol. Biol. 6: 29.Google Scholar, Crossref
|
[Milyutina, I.A., D.V. Goryunov, M.S. Ignatov, E.A. Ignatova & A.V. Troitsky] Милютина И.А., Д.В. Горюнов, М.С. Игнатов, Е.А. Игнатова, А.В. Троицкий. 2010. Филогения мхов рода Schistidium (Bryophyta, Grimmiaceae) по нуклеотидным последовательностям и вторичной структуре внутренних транскрибируемых спейсеров ядерной рДНК. - [The phylogeny of Schistidium (Bryophyta, Grimmiaceae) based on the primary and secondary structure of nuclear rDNA internal transcribed spacers] Молекулярная биология [Molecular biology] 44(6): 994-1009.Google Scholar, Crossref
|
Ochyra, R. & O. M. Afonina. 2010. Schistidium frahmianum (Bryopsida, Grimmiaceae), a new arctic species from Beringia. Tropical Bryology 31: 139–143. Google Scholar, Crossref
|
Ronquist, F. & J.P. Huelsenbeck. 2003. MrBayes 3: Bayesian phylogenetic inference under mixed models. Bioinformatics 19(12): 1572-1574.Google Scholar, Crossref
|