| Literature Cited |
| BomfleurB, Hedenäs L, Friis EM, Crane PR, Pedersen KR, Mendes MM, Kvaček J. 2023. Fossil mosses from the Early Cretaceous Catefica mesofossil flora, Portugal — a window into the Mesozoic history of Bryophytes. Fossil Imprint 79(2): 103–125.Google Scholar, Crossref
|
|
| BechtelerJ, Peńaloza-Bojacá GF, Bell D, Burleigh G, Mcdaniel SF, Davis EC, Sessa EB, Bippus AC, Cargill DC, Chantanaorrapint S, Draper I, Endara L, Forrest LL, Garilleti R, Graham SW, Huttunen S, Jáuregui-Lazo JA, Lara F, Larraín J, Lewis LR, Long DG, Quandt D, Renzaglia KS, Schäfer-Verwimp A, Lee GE, Sierra AM, Von Konrat M, Zartman CE, Pereira MR, Goffinet B, Villarreal JC. 2023. Comprehensive phylogenomic time tree of bryophytes reveals deep relationships and uncovers gene incongruences in the last 500 million years of diversification. American Journal of Botany 110(11): e16249 [1–20].Google Scholar
|
|
| DuringHJ, Verduyn B, Jägerbrand AK. 2015. Biomechanical properties of the terrestrial mosses Pleurozium schreberi (Brid.) Mitt. and Pogonatum japonicum Sull. & Lesq. along altitudinal gradients in northern Japan. Arctoa 24: 375–381.Google Scholar, Crossref
|
|
| [GomankovAV] Гоманьков АВ. 2002. Флора и стратиграфия татарского яруса Восточно-Европейской платформы. – [Flora and stratigraphy of the Tatarian Stage of the East-European Platform]. Dr.Sc. Thesis, Geological Institute of Russ. Acad. Sci., Moscow.Google Scholar
|
|
| GomankovAV, Meyen SV] Гоманьков АВ, Мейен СВ. 1986. Татариновая флора (состав и распространение в поздней перми Евразии). – [Tatarina flora (composition and distribution in the Late Permian of Eurasia)] Труды геологического института АН СССР [Trudy Geologicheskogo Instituta Akademii Nauk SSSR] 401: 1–174.Google Scholar
|
|
| IgnatovM.S. 1990. Permian mosses from the Russian Paltform. Palaeontographica Abt. B, 217(4–6): 147–189.Google Scholar
|
|
| IgnatovMS. 2021. Upper Permian mosses from the Russian Paltform. Palaeontographica Abt. B, 217(4–6): 147–189.Google Scholar
|
|
| IgnatovMS, Maslova EV. 2021. Fossil mosses: what do they tell us about moss evolution? Bryophyte Diversity and Evolution 43(1): 72–97.Google Scholar
|
|
| IvanovOV, Maslova EV, Ignatov MS. 2018. Development of the sphagnoid areolation pattern in leaves of Palaeozoic protosphagnalean mosses. Annals of Botany (Oxford), n.s. 112(5): 915–925.Google Scholar
|
|
| KozubD, Khmelik V, Shapoval Y, Chentsov S, Yatsenko B, Litovchenko B, Starykh V. 2008. Helicon Focus Software. http://www.heliconsoft.com.Google Scholar
|
|
| LaenenB, Shaw B, Schneider H, Goffinet B, Paradis É, Désamoré A, Heinrichs J, Villarreal AJC, Gradstein SR, Mcdaniel SF, Long DG, Forrest LL, Hollingsworth ML, Crandall-Stotler BJ, Davis EC, Engel JJ, Von Konrat M, Cooper ED, Patiño J, Cox CJ, Vanderpoorten A, Shaw AJ. 2014. Extant diversity of bryophytes emerged from successive post-Mesozoic diversification bursts. Nature Communications 5: 6134 [1–6].Google Scholar
|
|
| LiuY, Johnson MG, Cox CJ, Medina R, Devos N, Vanderpoorten A, Hedenäs L, Bell NE, Shevock JR, Aguero B, Quandt D, Wickett NJ, Shaw AJ, Goffinet B. 2019. Resolution of the ordinal phylogeny of mosses using targeted exons from organellar and nuclear genomes. Nature Communications 10: 1485 [1–11].Google Scholar
|
|
| MaslovaEV, Ivanov OV, Ignatov MS. 2012. On the distinction of two species of Palaeozoic moss genus Intia (Protosphagnales). Arctoa 21: 237–240.Google Scholar
|
|
| MaslovaEV, Mosseichik YuV, Ignatiev IA, Ivanov OV, Ignatov MS. 2012. On the leaf development in Palaeozoic mosses of the order Protosphagnales. Arctoa 21: 241–264.Google Scholar
|
|
| NeuburgMF. 1956. The discovery of mosses in the Permian deposits of the USSR. Doklady Akademii Nauk SSSR 107(2): 321–324.Google Scholar
|
|
| [NeuburgMF] Нейбург МФ. 1960. Листостебельные мхи из пермских отложений Ангариды. – [Mosses from the Permian of Angaraland] Труды геологического института АН СССР [Trudy Geologicheskogo Instituta Akademii Nauk SSSR] 19: 1–104 + 78 pl.Google Scholar
|
|
| NewtonAE, Wikström N, Bell NE, Forrest LL, Ignatov MS. 2007. Dating the diversification of the pleurocarpous mosses. In: A. E. Newton & R. S. Tangney (eds.), Pleurocarpous mosses: systematics and evolution. Systematics Association Special Volume 71: 337–366.Google Scholar
|
|
| TomescuAMF. 2016. The Early Cretaceous Apple Bay flora of Vancouver Island: a hotspot of fossil bryophyte diversity. Botany (Ottawa) 94(9): 683–695.Google Scholar
|
|
| TomescuAMF, Bomfleur B, Bippus AC, Savoretti A. 2018. Why are bryophytes so rare in the fossil record? A spotlight on taphonomy and fossil preservation. In: M. Krings, C. J. Harper, N. R. Cúneo & G. W. Rothwell (eds.) Transformative Paleobotany. Papers to Commemorate the Life and Legacy of Thomas N. Taylor. Academic Press, Elsevier, Amsterdam. Pp. 375–416.Google Scholar
|
|