View or download the article (Rus)
About the Authors
Anna A. Vysotskaya
Leninskie Gory 1, 119991, Moscow, Russia;
E-mail: an.vys@yandex.ru
Alexey A. Medvedkov
Leninskie Gory 1, 119991, Moscow, Russia;
E-mail: a-medvedkov@bk.ru
Abstract
The paper considers changes in the biological productivity of the landscapes recorded in the Yenisei Siberian taiga kurums associated with climate warming of mid-1970s to early 1980s. Specifically, changes in NDVI (as an indicator of plant-mass productivity) from 1992 to 2018 were assessed within representative sites of the key study area located in the west of the Central Siberian Plateau. To study the bioproductivity dynamics and the current state of kurum landscapes, 30-meter resolution satellite images—Landsat 4.5 (TM), 7 (ETM+), and 8 (OLI) series—with atmospheric correction (Landsat Surface Reflectance) were used. Refinement of data on individual kurums was carried out with the help of WorldView-1 (2.4 m) and PlanetScope (3 m) multi-zone images. From the end of the first decade of the 21st century to 2019, NDVI increased by 0.38 units, on average. This is manifested in a larger area under moss cover, spread of shrubs and small-leaved species undergrowth, and emergence of sparse stands. The data calculated from processing of the 30-meter resolution satellite images (Landsat) exhibit a high-degree correlation with the results obtained by using higher-resolution analogous images (WorldView-1 and PlanetScope). It appeared that the cold-exposure slopes covered with block accumulations were more responsive to the growth of plant-mass. The results of remote-sensing data processing allow for a field-based extrapolation within a large and genetically unified territory. It was revealed that the intensity of kurums “greening” in the considered middle taiga area is comparable with the increase in NDVI in even higher latitude regions (north taiga, forest-tundra, and tundra) of Central Siberia.
Keywords
References
- Gorshkov S., Evseeva L., Mochalova O., Touchart L., Ballais J., Simone Y. Environment, economy and community of the upper Angara and middle Yenisei regions: impact of climate change and water reservoir cascades built on the Angara and Yenisei rivers. Polar Record, 2013. V. 49. No. 3. Р. 254–260. DOI: 10.1017/S0032247413000107.
- Gorshkov S.P., Vandenberg J., Alekseev B.A., Mochalova O.I., Tishkova M.A. Climate, permafrost and landscapes of the Middle Yenisei region. Moscow: MSU, 2003. 81 p. (in Russian).
- Govorushko S.M. Kurum morpholithogenesis. Vladivostok: Far Eastern Research Centre of the USSR Academy of Sciences, 1986. 120 p. (in Russian).
- Jia G., Epstein H., Walker D. Vegetation greening in the Canadian Arctic related to decadal warming. Journal of Environmental Monitoring, 2009. V. 11. P. 2231–2238. DOI: 10.1039/B911677J.
- Ju J., Masek J. The vegetation greenness trend in Canada and US Alaska from 1984–2012 Landsat data. Remote Sensing of Environment, 2016. V. 176. P. 1–16. DOI: 10.1016/J.RSE.2016.01.001.
- Medvedkov A.A. Climatogenic dynamics of Siberian taiga landscapes in the Middle Yenisei basin. Geography and Natural Resources, 2018. No. 4. P. 122–129 (in Russian). DOI: 10.21782/GIPR0206-1619-2018-4(122-129).
- Medvedkov A.A. Geoenvironmental Response of the Yenisei Siberia Mid-Taiga Landscapes to Global Warming during Late XX–Early XXI Centuries. Water Resources, 2015. V. 42. No. 7. P. 922–931. DOI: 10.1134/S0097807815070076.
- Osipov V.I., Viktorov A.S., Orlov T.V., Trapeznikova O.N., Arkhipova M.V., Kapralova V.N. Geoindicators of environmental changes in areas of development of deposits of solid minerals and methods of their assessment. Georesources, Geoenergy, Geopolitics, 2012. No. 2 (6). P. 21–39 (in Russian).
- Rouse J., Haas R., Schell J., Deering D. Monitoring vegetation systems in the Great Plains with ERTS / 3rd ERTS Symposium. NASA SP-351, 1973. V. 1. P. 309-317.
- Tishkov A.A., Krenke-Jr. A.N. “Greening” of the Arctic in the 19th century. as a synergistic effect of global warming and economic development. Arctic: Ecology and Economics, 2015. No. 4. P. 28–37 (in Russian).
- Titkova T.B., Vinogradova V.V. Climate changes in the transitional natural zones of the North of Russia and their manifestation in the spectral characteristics of landscapes. Modern problems of remote sensing of the Earth from space, 2019. V. 16. No. 5. P. 310–323 (in Russian). DOI: 10.21046/2070-7401-2019-16-5-310-323.
- Tsepelev V.Yu., Panidi E.A., Torlopova N.V., Bobkov A.A. Using the characteristics of the vegetation cover of the taiga zone for monitoring climate change in the 19th century. Scientific Notes of the Russian State Hydrometeorological University, 2015. No. 40. P. 221–235 (in Russian).
For citation: Vysotskaya A.A., Medvedkov A.A. Climate-driven “greening” of the kurum landscape in the valley of the lower reaches of the Podkamennaya Tunguska river. InterCarto. InterGIS. Moscow: MSU, Faculty of Geography, 2022. V. 28. Part 1. P. 305–313. DOI: 10.35595/2414-9179-2022-1-28-305-313 (in Russian)