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Results of Actinometric Measurements in the Valley of the Nekrasov Glacier
- Authors: Kuznetsova M.R.1, Pryakhina G.V.2, Rasputina V.A.2, Zyryanova D.S.2
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Affiliations:
- Arctic and Antarctic Research Institute
- St. Petersburg State University
- Issue: Vol 157, No 1 (2025)
- Pages: 3-13
- Section: Articles
- URL: https://journal-vniispk.ru/0869-6071/article/view/292693
- DOI: https://doi.org/10.31857/S0869607125010012
- EDN: https://elibrary.ru/LIZNAT
- ID: 292693
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Abstract
Results of field actinometric measurements that were obtained in July 2023 in the valley of Nekrasov mountain glacier (the South Chujsky Range, Altai) are shown in the paper. Values of total incoming and of reflected solar radiation were measured; field works were carried out between 14.07.2023 and 27.07.2023, the pyranometer “Peleng SF-06” was used. Expressed daily cycle of the total solar radiation is found and approximated by a parabola; major variations of incoming radiation in the morning (9 a.m.) and in the evening (6 p.m.) are caused by shading of the relief. The albedo values of nature surfaces in the valley of Nekrasov glacier are determined: snowfield in the valley (0.39), dry moraine without moss (0.10) and with moss (0.11), snow cover on the glacier (0.44), snowfield in the edge part of glacier (0.25), wet firn (0.27), sand on wet ice (0.09), stream on the glacier (0.11).
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About the authors
M. R. Kuznetsova
Arctic and Antarctic Research Institute
Author for correspondence.
Email: rotefliege@mail.ru
Russian Federation, St. Petersburg
G. V. Pryakhina
St. Petersburg State University
Email: rotefliege@mail.ru
Russian Federation, St. Petersburg
V. A. Rasputina
St. Petersburg State University
Email: rotefliege@mail.ru
Russian Federation, St. Petersburg
D. S. Zyryanova
St. Petersburg State University
Email: rotefliege@mail.ru
Russian Federation, St. Petersburg
References
- Zhuravskij D. M., Proxorova U. V., Ivanov B. V., Yanzhura A. S., Kuprikov N. M., Kurapov M. V. Polevye ispytaniya metodiki fotogrammetricheskoj ocenki al’bedo snezhno-lednikovyx poverxnostej // Issledovanie Zemli iz kosmosa. 2019. № 4. S. 18–28. https://doi.org/10.31857/S0205-96142019418-28
- Zaklyuchenie o sostoyanii i rabote meteorologicheskoj, aktinometricheskoj i teplobalansovoj setej Rosgidrometa v 2022 godu // voeikovmgo.ru: [online] / Glavnaya geofizicheskaya observatoriya im. A. I. Voejkova. SPb, [2022]. URL: http://voeikovmgo.ru/images/stories/publications/2023/%D0%97%D0%B0%D0%BA%D0%BB%D1%8E%D1%87%D0%B5%D0%BD%D0%B8%D0%B5_2022.pdf (дата обращения: 05.11.2023).
- Kondrat’ev K. Ya. Aktinometriya / Monografiya. L.: Gidrometeoizdat, 1965. 691 s.
- Konovalov V. G. Tayanie i stok s lednikov v bassejnax rek Srednej Azii. Pod red. Suslova V. F. L.: Gidrometeoizdat, 1985. 238 s.
- Krass M. S., Merzlikin V. G. Radiacionnaya teplofizika snega i l’da. Monografiya. L.: Gidrometeoizdat, 1990. 261 s.
- Sevast’yanov V. V., Andrejchik M. F. Radiacionnyj rezhim Altae-Sayanskoj gornoj strany // Vestnik Tuvinskogo gosudarstvennogo universiteta. Estestvennye i sel’skoxozyajstvennye nauki. 2011. № 2, vyp. 9. S. 116–121.
- Sevast’yanov V. V. Radiacionnye faktory klimatoobrazovaniya Altae-Sayanskoj gornoj oblasti v period sovremennyx izmenenij klimata // Geosfernye issledovaniya. 2020. № 1. S. 102–115. https://doi.org/10.17223/25421379/14/8
- Sivkov S. I. Metody rascheta xarakteristik solnechnoj radiacii. L.: Gidrometeorologicheskoe izdatel’stvo, 1968. 232 s.
- Toropov P. A., Mixalenko V. N., Kutuzov S. S., Morozova P. A., Shestakova A. A. Temperaturnyj i radiacionnyj rezhim lednikov na sklonax El’brusa v period ablyacii za poslednie 65 let // Led i sneg. 2016. T. 56, № 1. S. 5–19.
- Toropov P. A., Shestakova A. A., Polyuxov A. A., Semenova A. A., Mixalenko V. N. Osobennosti letnego meteorologicheskogo rezhima Zapadnogo plato El’brusa // Led i sneg. 2020. T. 60, № 1. S. 58–76.
- Toropov P. A., Shestakova A. A., Smirnov A. M., Popovnin V. V. Ocenka komponentov teplovogo balansa lednika Dzhankuat (Central’nyj Kavkaz) v period ablyacii v 2007–2015 godax // Kriosfera Zemli. 2018. T. 22, № 4. S. 42–54.
- Google Earth Engine, satellite images data MODIS MOD10A1.006 Terra Snow Cover Daily Global500m // Earthengine.google.co: [online]. Available at: https://earthengine.google.com/ (Accessed 28.09.2021).
- Litt M., Sicart J.-E., Six D., Wagnon P., Helgason W. D. Surface-layer turbulence, energy balance and links to atmospheric circulations over a mountain glacier in the French Alps // The Cryosphere. 2017. Vol. 11. P. 971–987.
- Rohrer M. B., Braun L. N. Long-Term Records of Snow Cover Water Equivalent in the Swiss Alps // Nordic Hydrology. 1994. № 25. P. 65–78.
- Toropov P. A., Shestakova A. A., Smirnov A. M. Methodological aspects of heat balance components estimation on mountain glaciers // Russian Journal of Earth Sciences. 2017. Vol. 17, ES4002.
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