Source: http://geocartography.ru/en/scientific_article/2018_9_10-19
Timestamp: 2019-04-20 01:15:12+00:00

Document:
Bioclimatic modeling enables not only mapping the areas of certain plant or animals species on the basis of environmental characteristics, but also investigating the influence of environmental factors on the occurrence of these species. We simulated the possible habitats of three species of higher vascular plants on the northern macroslope of the Khamar-Daban ridge: Waldsteinia ternata and Anemone baicalensis, which are nemorose cladotypes and included in the Red Lists, as well as the Tussilago farfara , a ruderal species in the study area. Their distribution in Baikal region is completely or predominantly restricted by the Khamar-Daban ridge. As parameters of the environment we use the relief parameters calculated on the basis of the digital elevation model SRTM, as well as the principal components computed from the three differently seasoned cloudless satellite images Landsat 8. Using the MaxEnt software two models of potential range for each species is created, taking into account the influence of only the relief parameters, and also taking into account space images. The similarity of possible habitats for all three model species is noted. It is shown that taking into account the data of space images strongly influences the result.
1. Bajkal. Atlas. / Pod red. G. I. Galaziya. - Moskva: Federal'naya sluzhba geodezii i kartografii Rossii, - 1993. - 160 p.
2. Dudov S. V. Modelirovanie rasprostraneniya vidov po dannym rel'efa i distantsionnogo zondirovaniya na primere sosudistyh rastenij nizhnego gornogo poyasa hr. Tukuringra (Zejskij zapovednik, Amurskaya oblast'). Zhurnal obshchej biologii, - Vol. 77. - No 2. - 2016. - pp. 122–134.
3. Epova N. A. Relikty shirokolistvennyh lesov v pihtovoj tajge Hamar-Dabana. Izv. Biol.-geogr. NII pri Irkut. gos. un-te im. A. A. Zhdanova, - Vol. XVI. 1–4. - 1956. - pp. 25–61.
4. Sandanov D. V. Geoinformatsionnyj analiz rasprostraneniya redkih sosudistyh rastenij na territorii Buryatii. Uchjonye zapiski Zabajkal'skogo gosudarstvennogo universiteta, - Vol. 11. - No 1. - 2016. - pp. 38–45.
5. Solodyankina S. V., Istomina E. A., Sorokovoj A. A., Chepinoga V. V. Modelirovanie potentsial'nogo areala vetrenitsy bajkal'skoj (Anemone baicalensis, Ranunculaceae) s ispol'zovaniem dannyh tematicheskih kart. Geografiya i prirodnye resursy, - No 5. - 2016. - pp. 92–99. DOI: 10.21782/GiPR0206-1619-2016-5(92-99).
6. Tolmachev A. I. Vvedenie v geografiju rastenij. - L.: Izd-vo Leningradskogo universiteta, - 1974. - 244 p.
7. Tupitsyna N. N., Chepinoga V. V. Inventarizatsiya yastrebinok i yastrebinochek (Hieracium, Pilosella, Asteraceae) v Bajkal'skoj Sibiri. Turczaninowia, - Vol. 19. - No 3. - 2016. - pp. 73–87. DOI: 10.14258/turczaninowia.19.3.4.
8. Chepinoga V. V., Protopopova M. V., Pavlichenko V. V. Vyyavlenie veroyatnyh plejstotsenovyh mikrorefugiumov na severnom makrosklone hrebta Hamar-Daban (Juzhnoe Pribajkal'e). Sibirskij jekologicheskij zhurnal, - No 1. - 2017. - pp. 44–50. DOI: 10.15372/SEJ20170105.
9. Byeon D., Jung S., Lee W. (2018) Review of CLIMEX and MaxEnt for studying species distribution in South Korea. Journal of Asia-Pacific Biodiversity, 11, pp. 325–333, DOI: 10.1016/j.japb.2018.06.002.
10. Elith J., Leathwick J. R. (2009) Species distribution models: ecological explanation and prediction across space and time. Annual Review of Ecology, Evolution, and Systematics, 40, pp. 677–697, DOI: 10.1146/annurev.ecolsys.110308.120159.
12. Phillips S. J., Dudik M. (2008) Modelling of species distribution with Maxent: new extensions and a comprehensive evaluation. Ecography, 31, pp. 161–175, DOI: 10.1111/j.2007.0906-7590.05203.x.

References: V. 
 V. 
 V. 
 V. 
 V. 
 V.