Search

Your search keyword '"V. E. Fedosov"' showing total 24 results
Start Over Author "V. E. Fedosov"
24 results on '"V. E. Fedosov"'

2. Bryophyte molecular barcoding records. 7

Author

O. I. Kuznetsova, O. A. Belkina, O. D. Dugarova, A. V. Fedorova, V. E. Fedosov, I. V. Filippov, S. G. Kazanovsky, E. D. Lapshina, O. Yu. Pisarenko, A. D. Potemkin, D. Ya. Tubanova, and A. A. Vilnet

Subjects
Plant Science, Ecology, Evolution, Behavior and Systematics
Published
2022

5. New bryophyte records. 19

Author

E. V. Sofronova, O. M. Afonina, O. A. Belkina, M. A. Boychuk, V. V. Chakov, I. V. Czeernyadjeva, G. Ya. Doroshina, M. V. Dilun, A. P. Dyachenko, V. E. Fedosov, I. V. Filippov, E. A. Glazkova, O. G. Grishutkin, M. S. Ignatov, E. A. Ignatova, T. G. Ivchenko, A. S. Kartasheva, Kh. M. Khetagurov, N. A. Konstantinova, M. N. Kozhin, V. A. Kuptsova, S. A. Kutenkov, E. Yu. Kuzmina, E. D. Lapshina, M. A. Makarova, A. I. Maksimov, T. Ju. Minayeva, I. A. Nikolayev, N. N. Popova, A. D. Potemkin, D. S. Schuryakov, L. A. Sergienko, A. V. Shkurko, S. A. Suragina, G. S. Taran, V. V. Teleganova, R. A. Tsvizhba, and D. Ya. Tubanova

Subjects
Plant Science, Ecology, Evolution, Behavior and Systematics
Published
2022

7. New national and regional bryophyte records, 71

Author

L. T. Ellis, C. Arrocha, Á. Benítez, M. Beyrouthy, V. K Chandini, I. V. Czernyadjeva, J. Deme, P. Erzberger, V. E. Fedosov, P. Górski, J. Guerra, V. Hugonnot, T. Lautenschläger, G. E. Lee, P. Mair, Yu. S. Mamontov, C. N Manju, K. M Manjula, A. Mesterházy, B Mufeed, F. Müller, C. Neinhuis, Cs. Németh, R. R. Paul, T. Pócs, R. D. Porley, K. P. Rajesh, F. Raouf Fard, K. K. Rawat, E. Rodríguez-Quiel, A. Schäfer-Verwimp, S. Ștefănuţ, W. Tratter, I. Verwimp, A. A. Vilnet, I. M. Wolf, and R. H. Zander

Subjects
Plant Science, Ecology, Evolution, Behavior and Systematics
Published
2022

8. New Bryophyte Records. 18

Author

E. V. Sofronova, O. M. Afonina, A. G. Bezgodov, M. A. Boychuk, I. V. Czernyadjeva, G. Ya. Doroshina, R. S. Erzhapova, V. E. Fedosov, O. G. Grishutkin, I. B. Kucheerov, L. E. Kurbatova, S. A. Kutenkov, E. Yu. Kuzmina, N. S. Liksakova, A. I. Maksimov, Yu. S. Mamontov, V. Yu. Neshataeva, K. O. Pechenkina, N. N. Popova, A. D. Potemkin, D. S. Schutyakov, K. V. Shchukina, A. V. Shkurko, K. I. Skvortsov, and A. R. Yambushev

Subjects
Plant Science, Ecology, Evolution, Behavior and Systematics
Published
2022

11. New bryophyte records. 17

Author

E. V. Sofronova, Z. I. Abdurakhmanova, O. M. Afonina, E. A. Borovichev, M. A. Boychuk, O. V. Cherednichenko, I. V. Czernyadjeva, G. Ya. Dorosina, M. V. Dulin, I. G. Esina, V. E. Fedosov, G. L. Freydin, M. G. Gadzhiataev, O. G. Grishutkin, M. S. Ignatov, E. A. Ignatova, D. S. Kessel, A. A. Khapugin, M. N. Kozhin, E. V. Kushnevskaya, E. Yu. Kuzmina, N. S. Liksakova, A. I. Maksimov, S. A. Moshkovskii, N. N. Popova, A. D. Potemkin, N. A. Semenova, K. V. Shcukina, A. D. Sinichkina, E. V. Smirnova, E. G. Suslova, D. Ya. Tubanova, and G. V. Zheleznova

Subjects
Plant Science, Ecology, Evolution, Behavior and Systematics
Published
2021

12. New national and regional bryophyte records, 65

Author

L. T. Ellis, C. Ah-Peng, G. Aslan, V. A. Bakalin, A. Bergamini, D. A. Callaghan, P. Campisi, F. M. Raimondo, S. S. Choi, J. Csiky, É. Csikyné Radnai, B. Cykowska-Marzencka, I. V. Czernyadjeva, Yu M. Kalinina, O. M. Afonina, G. Domina, P. Drapela, V. E. Fedosov, E. Fuertes, R. Gabriel, M. Kubová, I. Soares Albergaria, G. Gospodinov, R. Natcheva, A. Graulich, T. Hedderson, E. Hernández-Rodríguez, V. Hugonnot, C. W. Hyun, M. Kırmacı, U. Çatak, S. Kubešová, J. Kučera, C. La Farge, J. Larraín, P. Martin, B. Mufeed, C. N. Manju, K. P. Rajesh, Cs. Németh, J. Nagy, N. Norhazrina, N. Syazwana, S. V. O’Leary, S. J. Park, A. P. Peña-Retes, A. Rimac, A. Alegro, V. Šegota, N. Koletić, N. Vuković, S. Rosadziński, J. A. Rosselló, M. S. Sabovljević, A. D. Sabovljević, A. Schäfer-Verwimp, C. Sérgio, A. V. Shkurko, D. Shyriaieva, V. M. Virchenko, M. Smoczyk, D. Spitale, P. Srivastava, I. Omar, A. K. Asthana, M. Staniaszek-Kik, A. Cienkowska, M.-M. Ștefănuţ, S. Ștefănuţ, G. Tamas, C.-C. Bîrsan, G.-R. Nicoară, M. C. Ion, T. Pócs, G. Kunev, E. I. Troeva, J. van Rooy, P. Wietrzyk-Pełka, M. H. Węgrzyn, G. J. Wolski, D. Bożyk, The Natural History Museum [London] (NHM), Peuplements végétaux et bioagresseurs en milieu tropical (UMR PVBMT), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut de Recherche pour le Développement (IRD)-Université de La Réunion (UR)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Adnan Menderes Üniversitesi, Botanical Garden-Institute, Far-East Branch, Russian Academy of Sciences, Vladivostok, Russia, Swiss Federal Institute for Forest, Snow and Landscape Research WSL, Bryophyte Surveys Ltd, Università degli studi di Palermo - University of Palermo, National Institute of Environmental Research [South Korea] (NIER), University of Pecs, Lajos Nagy Grammar School of the Cistercian Order, Polish Academy of Sciences (PAN), Komarov Botanical Institute of Russian Academy of Science, Russian Academy of Sciences [Moscow] (RAS), Lomonosov Moscow State University (MSU), Universidad Complutense de Madrid = Complutense University of Madrid [Madrid] (UCM), University of the Azores, Centre for Ecology, Evolution and Environmental Changes (cE3c) /Azorean Biodiversity Group and Universidade dos Açores - Faculdade de Ciências Agrárias e do Ambiente, Angra do Heroísmo, Açores, Bulgarian Academy of Sciences (BAS), Institute of Biodiversity and Ecosystem Research, University of Cape Town, Department of Biological Sciences, Bolus Herbarium, Université du Québec en Abitibi-Témiscamingue (UQAT), Incheon National University, Biyoloji Bolumu, Moravian Museum, University of South Bohemia, University of Alberta, Pontificia Universidad Católica de Valparaíso (PUCV), The Zamorin's Guruvayurappan College, Szent István University, Universiti Kebangsaan Malaysia, Jeonbuk National University, Univ Nacl Autonoma Mexico, University of Zagreb, Universitat de València (UV), University of Belgrade [Belgrade], Université de Belgrade, Botanical Garden, Centre for Ecology - Evolution and Environmental Changes (cE3c), Universidade de Lisboa (ULISBOA), Natl Acad Sci Ukraine, Museo delle Scienze, Lucknow University, Council of Scientific and Industrial Research [India] (CSIR), University of Lódź, University of Bucharest (UniBuc), Institute of Biology Bucharest of Romanian Academy, Université Eszterházy Károly/Eszterházy Károly Egyetem [Eger, Hungary] (UEK/EKE), Institute of Biological Problems of Cryolithozone, Siberian Branch of the Russian Academy of Sciences (SB RAS), South African National Biodiversity Institute, University of the Witwatersrand [Johannesburg] (WITS), School of Animal, Plant & Environmental Sciences, Uniwersytet Jagielloński w Krakowie = Jagiellonian University (UJ), The field work in the study was particulary supported by The Rufford Foundation (project ID 27637-1). The work of G. Gospodinov was supported by the Bulgarian Ministry of Education and Science under 249 the National Research Programme ‘Young scientists and postdoctoral students’ approved by 250 DCM no. 577/17.08.2018. Esther Fuertes and Juan Larraín thank Jörn Hentschel for confirming the identity of the Tierra del Fuego specimen of Frullania glomerata. E. Fuertes' research is funded by projects AECI, A-3818-2005, A-6307-2006 y A- 8930-2007 of the Science and Innovation Ministry of Spain. J. Larraín's research is funded by CONICYT postdoctoral grant 3160556. N. Norhazrina and N. Syazwana would like to thank Universiti Kebangsaan Malaysia for supporting this research project through Geran Universiti Penyelidikan (GUP-2018-016 and GGPM-2017-090), and thank L.T. Ellis (BM) for confirming the identity of their collection of Calymperes. The work of S. S. Choi, V. A. Bakalin and S. J. Park was supported by the grant ‘National ecosystem Survey’ from the National Institute of Ecology, while that of S. S. Choi, V. A. Bakalin and C. W. Hyun was supported by the grant ‘Biological Diversity Survey of the Flora of Korean Bryophyta (NIBR201902104)’ from the National Institute of Biological Resources of Ministry of Environment in Korea to C. W. Hyun. Laboratory work of S. S Choi was also supported by the grant ‘National ecosystem Survey’ from the National Institute of Ecology. The study by Yu. M. Kalinina and O. M. Afonina was funded by RFBR, project number 19-34-90033. The work of V. Fedosov was supported by RSF Grant 18-14-00121. T. A. Hedderson is grateful to the National Research Foundation of South Africa for their continued financial support, and to the Himalayan Wildlife Project for their logistical support in Pakistan. The contribution of E. Hernández-Rodríguez and A. P. Peña-Retes is part of the project ‘Effect of forest management on two contrasting groups: mosses and medium and large mammals, Sierra Norte, Oaxaca, Mexico’ supported by Consejo Nacional de Ciencia y Tecnología, Mexico (ID 595991) and The Sigma Xi Grant-in-Aid of Research (ID G201603152071095) through scholarships to E. Hernández-Rodríguez. The work of I. V. Czernyadjeva was supported by Russian Foundation for Basic Research (grants # 18-05-60093) and it was carried out within the framework of the institutional research project (no. АААА-А19-119020690077-4) of the Komarov Botanical Institute of the Russian Academy of Sciences. The work of G. Gospodinov and R. Natcheva was supported by The Bulgarian National Science Fund, project ‘Cryptic species in Bulgarian flora—molecular species delimitation in the Aneura pinguis complex’. Thanks are also due to the Department of Biotechnology, New Delhi for providing financial assistance. S. Ştefănuţ, G. Tamas, C.-C. Bîrsan, G.-R. Nicoară and M. C. Ion acknowledge the support by project no. RO1567-IBB03/2020 through Institute of Biology Bucharest of Romanian Academy. A. V. Shkurko was supported by governmental contract 118021490111-5 of Tsitsin Main Botanical Garden. The contribution by Beata Cykowska-Marzencka has been financially supported by the statutory fund of the W. Szafer Institute of Botany of the Polish Academy of Sciences. The field research in 2017 leading to her results has received funding from the European Union’s Horizon 2020 project INTERACT, under grant agreement No 730938. The laboratory analyses were financed by National Science Centre in Poland (research project No. 2017/27/N/ST10/00862). The work of Paulina Wietrzyk-Pełka was supported by Etiuda project of the National Science Centre in Poland (research project No. 2019/32/T/ST10/00182). M. Kırmacı, G. Aslan and U. Çatak give many thanks to Aydın Adnan Menderes University's scientific research project department (BAP) for supporting their research (FEF 18018) and to Dr Metin Armağan (Adnan Menderes University) for helping during their field trip., European Project: 262693,EC:FP7:INFRA,FP7-INFRASTRUCTURES-2010-1,INTERACT(2011), Universiti Kebangsaan Malaysia (UKM), and Universidade de Lisboa = University of Lisbon (ULISBOA)

Subjects
Riccia rhenana, liverworts, bryophytes, Croatia, 0106 biological sciences, Pseudoamblystegium subtile (Hedw.), business.industry, [SDV]Life Sciences [q-bio], Aneura maxima, Bryophytes, Coal mining, Forestry, Plant Science, 15. Life on land, 010603 evolutionary biology, 01 natural sciences, Geography, Bryophyte, business, Azores, ComputingMilieux_MISCELLANEOUS, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany
Abstract

Pseudoamblystegium subtile (Hedw.) Vanderp. & Hedenäs. CONTRIBUTORS: R. Gabriel, M. Kubová, C. Sérgio and I. Soares Albergaria. PORTUGAL, AZORES: Terceira Island, Angra do Heroísmo, municipal garden ‘Jardim Duque da Terceira’, 38° 39′ 24.0′′N, 27°13′ 05.99′′W, 31 m a.s.l, on the base of a shrub, in acidic conditions, 7 April 2017, leg. Michaela Kubová s.n. (AZU). A new understanding of the pleurocarpous moss species Pseudoamblystegium subtile was proposed by Vanderpoorten and Hedenäs (2009). The new genus is separated from the other Amblystegiaceae primarily due to its phylogenetic consistency and is characterised by the possession of leaves with a very short nerve, and erect capsules (Vanderpoorten and Hedenäs 2009). (excerpt) info:eu-repo/semantics/publishedVersion

Published
2021

13. The vegetation of the class Scheuchzerio–Caricetea fuscae Tx. 1937 in the Yanganape mountain massif area (Eastern macroslope of the Polar Urals)

Author

E. D. Lapshina, I. V. Filippov, V. E. Fedosov, Yu. V. Skuchas, P. Lamkowski, and I. N. Pospelov

Subjects
Plant Science, Ecology, Evolution, Behavior and Systematics
Abstract

There are very few publications on the classification of mountain mire vegetation in Russia. Several associations in the Southern Siberia mountains (Lapshina, 1996; Lashchinsky, 2009) and the Khibiny Mountains (Koroleva, 2001) are described. Mire vegetation in the Southern Urals is relatively well studied and described in the traditions of the ecological-phytocenotic dominant classification (Ivchenko, 2013; Ivchenko, Znamenskiy, 2015) while the knowledge on that of the Northern and Sub-Polar Urals is extremely limited. There is no information about the mires in the Polar Urals. The paper presents the results of classification of the class Scheuchzerio–Caricetea fuscae of the Yanganape mountain massif (67.68°—67.75° N, 67.72°—68.00° E) and adjacent plains in the Eastern macroslope of the Polar Urals, within the southern tundra subzone. The study area is mountain massif of about 250 m a. s. l., composed of limestone outcrops, with a wavy flat (60–90 m a. s. l.) plain around (Fig. 1–2). The classification is based on 138 relevés made in July 27–August 8, 2017 (Fig. 3). Relevés of similar syntaxa, established in the north of the Western Europe and the East European tundras (Ruuhijärvi, 1960; Dierssen, 1982; Lavrinenko et al., 2016), were included in analysis. DCA and t-SNE (t-distributed stochastic neighbor embedding) methods were used for ordination of syntaxa in multidimensional space (Maaten, Hinton, 2008). The calculations were made using the machine learning package for Python-Scikit-learn. In total, 13 associations, 11 subassociations, 12 variants from 6 alliances and 3 orders of the class Scheuchzerio–Caricetea fuscae were identified on the relatively small (about 70 km2) area. Within the order Caricion davallianae, syntaxa of the alliance Caricion atrofuscae-saxatilis, comprising low sedge-hypnum communities on carbonate mineral and organomineral soils in the mountains of the Western Europe, were identified and described for the first time on the territory of Russia. Three new associations (Ditricho flexicauli—Caricetum redowskianae, Tomentypno nitentis–Equisetetum palustre, Tomentypno nitentis–Eriophoretum vaginati) were described on the the Yanganape mountain massif (Table 1), which significantly expands the area of the alliance to the East. Alliance’ communities have some similarities with syntaxa of zonal dwarf shrub-grass-moss tundra vegetation (Lavrinenko, Lavrinenko, 2018), but are generally well differed by the species composition and community structure (Table 5). The order Caricetalia fuscae in the Eastern macroslope of the Polar Urals is represented by 4 alliances. In addition to Drepanocladion exannulati and Sphagno-Caricion canescentis, listed in the “Classification of Vegetation of Europe” (Mucina et al., 2016), we include into order the alliance Caricion stantis — moderately rich sedge-moss fen vegetation of the Subarctic and tundra zones, and the alliance Stygio–Caricion limosae, containing extremely waterlogged meso-oligotrophic and slightly acidic to neutral low sedge fens. There are 4 associations within the alliance Caricion stantis, including new ass. Scorpidio cossonii–Caricetum rariflorae (Table 2). Taking into account statistically significant differences in the species composition of sedge-moss communities dominated by various moss species (Fig. 15, 5-6), ass. Scorpidio scorpioidis–Caricetum chordorrhizae was taken out from ass. Drepanoclado revolventis–Caricetum chordorrhizae Osvald 1925 ex Dierssen 1982 broadly understood in the Western Europe. Its nomenclature type is the only relevé of Carex chordorrhizae-Amblistegium scorpioides-Ass. (Osvald 1925: 37), which sufficient for the original diagnosis, because it contains list of species with abundance and both name-giving taxa (ICPN, 2b, 7). The communities of both associations were identified in the Eastern macroslope of the Polar Urals, where they are represented by new subassociations, which significantly expands the distribution area of these associations to the East. Recently validly described in the Eastern European tundras (Lavrinenko et al., 1916) ass. Scorpidio revolventis–Caricetum rariflorae is also known for the North of the Western Europe (Dierssen, 1982). Its difference from western syntaxa is the absence of many boreal species, which are not able to exist in the severe climate in the North of Western Siberia, as well as the great number of plant communities with the diagnostic species of the alliance Caricion atrofuscae-saxatilis due to rich mineral nutrition, associated with the carbonate soils and calcium-rich groundwaters in the study area. New associations are established in two allian­ces: Carici aquatilis–Warnstorfietum tundrae in Drepanocladion exannulati and Sphagno squarrosi–Caricetum chordorrhizae in Sphagno–Caricion canescentis (Table 3). The floristic features of the latter alliance, whose communities on the northern limit of their distribution have a certain similarity to the arctic sedge-moss mire vegetation of the alliance Caricion stantis, are discussed. Oligotrophic communities of the alliance Scheuch­zerion palustris, occuring in acidic habitats, are placed in the order Scheuchzerietalia palustris that is in agreement with new interpretation of this alliance in the paper by Mucina et al. (2016). Two associations (Carici rotundatae–Sphagnetum baltici, Sphagno compaci–Caricetum rotundatae) are assigned to this alliance. There are few relevés for both Scheuchzerion palustris and Stygio–Caricion limosae alliances in the study area that is why their classification is preliminary, and it will be considered in the near future for the whole North of the Western Siberia on a larger data set. The classification results are confirmed by DCA-ordination of selected syntaxa (Fig.15, Б). However, the differentiation of communities is more clearly demonstrated by the t-SNE method, which allows displaying multidimensional hyperspaces on the plane (Fig.15, А).

Published
2021

14. Mosses and lichens of Shokalsky Island (Kara Sea, Yamal-Nenets Autonomous Area)

Author

V. E. Fedosov, L. N. Beldiman, I. N. Urbanavichene, and E. Yu. Kuzmina

Subjects
0106 biological sciences, Geography, Plant Science, Physical geography, Lichen, 010603 evolutionary biology, 01 natural sciences, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany
Abstract

We studied in detail a moss-lichen component of Shokalsky Island vegetation for the first time and identified 79 species of mosses and 54 species and 2 subspecies of lichens and lichenicolous fungi. All species of mosses and 23 species and 2 subspecies of lichens and lichenicolous fungi are recorded for the first time for the island. The study is based on collections made in South West part of the island, in arctic tundra. We also explored the participation of the mosses and lichens in the main types of plant communities and the species distribution in 10 ecotopes. The paper describes the noteworthy findings (Abrothallus parmeliarum, Aongstroemia longipes, Arthonia peltigerea, Caloplaca caesiorufella, Catillaria stereocaulorum, Ceratodon heterophyllus, Lecanora leptacinella, Sphagnum concinnum, S. olafii) and features of bryo- and lichenoflora of Shokalsky Island.

Published
2020

15. New national and regional bryophyte records, 69

Author

L. T. Ellis, O. M. Afonina, I. V. Czernyadjeva, A. Alegro, V. Šegota, M. Boiko, N. Zagorodniuk, M. Burghardt, M. Alataş, G. Aslan, N. Batan, S. Dragićević, H. Erata, M. Kırmacı, H. Özenoğlu, M. Evangelista, E. B. Valente, T. A. Feletti, T. Ezer, V. E. Fedosov, E. Fuertes, G. Oliván, R. Natcheva, G. Gospodinov, A. Hodgson, T. Kiebacher, H. Köckinger, M. von Konrat, S. S. Krajšek, Ž. L. Cimerman, J. Kučera, E. Mikulášková, F. Müller, J. Muñoz, R. Ochyra, D. F. Peralta, M. Philippe, R. D. Porley, K. K. Rawat, R. R. Paul, R. M. Ros, O. Werner, A. Schäfer-Verwimp, C. Sérgio, A. V. Shkurko, L. Söderström, A. M. de Souza, D. Spitale, S. Ștefănuţ, M. Tabua, and G. Winter

Subjects
Plant Science, Ecology, Evolution, Behavior and Systematics
Abstract

descripción no proporcionada por scopus

Published
2022

16. New bryophyte records

Author

E. V. Sofronova, O. M. Afonina, V. K. Antipin, O. A. Belkina, M. A. Boychuk, I. V. Czernyadjeva, G. Ya. Doroshina, A. P. Dyachenko, V. E. Fedosov, M. S. Ignatov, E. A. Ignatova, S. S. Kholod, M. A. Kolesnikova, D. E. Koltysheva, A. S. Komarova, N. A. Konstantinova, N. E. Koroleva, T. I. Koroteeva, M. N. Kozhin, E. V. Kudr, E. Yu. Kuzmina, M. V. Lavrentiev, Yu. S. Mamontov, V. Yu. Neshataeva, D. A. Philippov, S. Yu. Popov, N. N. Popova, Yu. M. Sergeeva, N. E. Shevchenko, V. A. Smagin, G. S. Taran, V. V. Teleganova, K. U. Teplov, N. P. Tikhomirov, T. V. Voronkova, and A. G. Zakharova

Subjects
Plant Science, Ecology, Evolution, Behavior and Systematics
Published
2019

17. Bryophyte molecular barcoding records.2

Author

O. I. Kusnetsova, Brinda C John, A. V. Fedorova, V. E. Fedosov, M. S. Ignatov, E. A. Ignatova, and J. Kucera

Subjects
Plant Science, Ecology, Evolution, Behavior and Systematics
Published
2020

18. Bryophyte molecular barcoding records. 5

Author

O. I. Kuznetsova, V. E. Fedosov, A. V. Fedorova, E. D. Lapshina, and M. S. Ignatov

Subjects
Plant Science, Ecology, Evolution, Behavior and Systematics
Published
2021

19. The family Orthotrichaceae (Bryophyta) in flora of Russia: results of revision and biogeographical review

Author

V. E. Fedosov

Subjects
0106 biological sciences, Flora, Geography, biology, Ecology, Plant Science, Orthotrichaceae, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany
Abstract

Recent studies on Orthotrichoid mosses in Russia are summarized genus by genus. Orthotrichum furcatum Otnyukova is synonymized with Nyholmiella obtusifolia. Orthotrichum vittii is excluded from the Russian moss flora. Description of O. dagestanicum is amended. Fifty four currently recognized species from 9 genera of the Orthotrichaceae are presently known to occur in Russia; list of species with common synonyms and brief review of distribution in Russia is presented. Numerous problematic specimens with unresolved taxonomy were omitted for future. Revealed taxonomical inconsistencies in the genera Zygodon, Ulota, Lewinskya, Nyholmiella, Orthotrichum are briefly discussed. Main regularities of spatial differentiation of the family Orthotrichaceae in Russia are considered. Recently presented novelties contribute to the certain biogeographic pattern, indicating three different centers of diversity of the family, changing along longitudinal gradient. Unlike European one, continental Asian diversity of Orthotrichaceae is still poorly known, the Siberian specimens which were previously referred to European species in most cases were found to represent other, poorly known or undescribed species. North Pacific Region houses peculiar and poorly understood hot spot of diversity of Orthotrichoid mosses. Thus, these hot spots are obligatory to be sampled in course of revisions of particular groups, since they likely comprise under-recorded cryptic- or semi-cryptic species. Latitudinal gradient also contributes to the spatial differentiation of the revealed taxonomic composition of Orthotrichaceae.

Published
2018

20. Numerical modeling of the formation and transport of condensed moisture in the lower pool of a hydroproject during the operation of spring-board spillways

Author

V. V. Belikov, V. N. Koterov, V. V. Solbakov, V. E. Fedosov, and B. V. Arkhipov

Subjects
Condensed Matter::Quantum Gases, Hydrology, geography, geography.geographical_feature_category, Moisture, Spring (hydrology), Energy Engineering and Power Technology, Numerical modeling, Environmental science, Physics::Atmospheric and Oceanic Physics, Forced convection
Abstract

A model of three-dimensional forced convection and transport of condensed moisture in the lower pools of hydroprojects is developed.

Published
2007

21. [Untitled]

Author

V. E. Fedosov

Subjects
General Energy, Petroleum engineering, business.industry, Hydraulic engineering, Environmental science, Ocean Engineering, Geotechnical Engineering and Engineering Geology, business, Energy source, Water Science and Technology, Renewable energy
Published
2000

22. Materials for roller compacted concrete used in modern dam construction

Author

A. D. Osipov, V. E. Fedosov, and E. A. Kogan

Subjects
Roller-compacted concrete, business.industry, Energy Engineering and Power Technology, Ocean Engineering, High effectiveness, engineering.material, Geotechnical Engineering and Engineering Geology, Civil engineering, law.invention, Portland cement, General Energy, Compressive strength, law, Crushed stone, engineering, Geotechnical engineering, Pozzolana, business, Water Science and Technology
Abstract

1. The high effectiveness of roller compacted concrete technology is proved by its wide use in world practice. In the world there are presently more than 160 dams more than 15-m high constructed by this technology. One of the reasons for the effectiveness of RCC is the use of various types of pozzolana additives to the cement clinker, which is confirmed by the experience of constructing more than 90% of the dams constructed.

Published
1998

23. Water-Passing structures of the kapanda hydraulic development

Author

V. B. Rodionov, V. E. Fedosov, and N. N. Pupyshev

Subjects
General Energy, Development (topology), Petroleum engineering, Energy Engineering and Power Technology, Environmental science, Ocean Engineering, Geotechnical Engineering and Engineering Geology, Water Science and Technology
Published
1995

24. The Capanda hydro development in Angola

Author

V. E. Fedosov

Subjects
Engineering, General Energy, business.industry, Energy Engineering and Power Technology, Ocean Engineering, Geotechnical Engineering and Engineering Geology, business, Environmental planning, Water Science and Technology
Published
1990

Catalog

Books, media, physical & digital resources
See catalog results