Расчёт и прогноз ледникового питания в речных бассейнах

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Впервые разработан и проверен метод регионального предсказания с месячной заблаговременностью годовой абляции Ab на высоте фирновой границы Zfg = Zmean как функции прогнозируемой средней летней температуры воздуха Ts. Для определения Ts в начале мая установлены региональные зависимости Ts от температуры воздуха апреля T4. Разработан метод прогноза годового и вегетационного стока р. Рона (Швейцария, Альпы) на 2025–2054 гг.

Об авторах

В. Г. Коновалов

Институт географии РАН

Автор, ответственный за переписку.
Email: vladgeo@gmail.com
Россия, Москва

Список литературы

  1. Alekseev G.A. Obieektivnye metody vyravnivaniia i normalizatsii korreliatsionnykh sviazei. Objective methods of alignment and normalization of correlations. Leningrad: Hydrometeoizdat, 1971: 359 p. [In Russian].
  2. Vilesov E.N., Glazyrin G.E., Nozdryuhin V.K. On the dependence of yearly ablation on glaciers from the mean summer air temperature. Trudy SARNIGMI. Proc. of SARNIGMI. 1980. 71(152): 101–104 [In Russian].
  3. Vilesov E.N. Dinamika i sovremennoe sostoyanie oledenenia gor Kazakstana. Dynamics and modern state of the Kazakhstan mountains. Almaty: Kazak Universiteti. Almaty: Kazakhstan State University. 2016: 267 с. [In Russian].
  4. Golyandina N.E. Metod “Gusenica” – SSA: prognoz vremennyh ryadov. Method “Caterpillar”-SSA: forecast of time ranges. Saint Petersburg: Saint Petersburg Publishing House. 2004: 52 с. [In Russian].
  5. Inventory of Russian glaciers Retrieved from: https://www.glacrus.ru/ (Last access: 05.12.2022). [In Russian].
  6. Konovalov V.G. Tayanie i stok s lednikov v bassejnah rek Srednej Azii. Melting and runoff from glaciers in the river basins of Central Asia. Leningrad: Hydrometeoizdat, 1985: 237 p. [In Russian].
  7. Konovalov V.G., Pimankina N.V. Prostranstvenno‑vremennóe izmenenie sostavlyayushchih vodnogo balansa na severnom sklone Zailijskogo Alatau. Spatio‑temporal change of the components of the water balance on the northern slope of the Trans-Ili Alatau. Led i Sneg. Ice and Snow. 2016. 56 (4): 453–471 [In Russian]. https://doi.org/10.15356/2076-6734-2016-4-453-471
  8. Konovalov V.G. Regional hydrological regime of mountain glaciation. Izvestiya Ros. Akad. Nauk. Seriya geograficheskaya. Proc. of RAS. Geographical series. 2021. 85: 368–379. [In Russian].
  9. Krenke A.N., Hodakov V.G. On the dependance of surficial melting of glaciers with air temperature. Materialy Glyatsiologicheskikh Issledovaniy. Data of Glaciological Studies. 1966, 12: 153–164 [In Russian].
  10. Krenke A.N. Massoobmen v lednikovyh sistemah na territorii SSSR. Mass exchange in glacial systems on the territory of the USSR. Leningrad: Hydrometeoizdat, 1982: 287 p. [In Russian].
  11. Weather and Climat. Retrieved from: http://www.pogodaiklimat.ru/history.php (Last access: 05.12.2022). [In Russian].
  12. Hodakov V.G. Vodno-ledovyj balans rajonov sovremennogo i drevnego oledeneniya SSSR. Water-ice balance of the areas of modern and ancient glaciation of the USSR. Moscow: Nauka, 1978: 192 p. [In Russian].
  13. Shults V.L. Reki Srednej Azii. Rivers of Central Asia. Leningrad: Hydrometeoizdat, 1965: 691 p. [In Russian].
  14. Bodo B.A. Monthly Discharge Data for World Rivers (excluding former Soviet Union). Research Data Archive at the National Center for Atmospheric Research. Retrieved from: http://rda.ucar.edu/datasets/ds552.0/ (Last access: 05.12.2022).
  15. EauFrance. Retrieved from: https://hydro.eaufrance.fr/ (Last access: 05.12.2022).
  16. Federal Office for the Environment FOEN. Hydrological Data Service for watercourses and lakes. Retrieved from: https://www.bafu.admin.ch/bafu/en/home/topics/water. (Last access: 05.12.2022).
  17. Federal Office of Meteorology and Climatology MeteoSwiss. Monthly and annual reports. Retrieved from: https://www.meteoswiss.admin.ch/ (Last access: 05.12.2022).
  18. Fischer M., Huss M., Barboux C., and Hoelzle M. The new Swiss Glacier Inventory SGI2010: relevance of using high-resolution source data in areas dominated by very small glaciers. Arctic, Antarctic, and Alpine Research. 2014, 46 (4): 933–945.
  19. Fluctuations of Glaciers Database. World Glacier Moni-toring Service, Zurich, Switzerland. Retrieved from: https://wgms.ch/data-exploration/(Last access: 05.12.2022).
  20. Hock R. DEBAM and DETIM. Manual. 1999. Retrieved from: https://github.com/regine/meltmodel.git (Last access: 05.12.2022).
  21. Klimawandel in der Schweiz. Herausgegeben vom Bundesamt für Umwelt (BAFU), dem Bundesamt für Meteorologie, Klimatologie (MeteoSchweiz) und dem National Centre for Climate Services (NCCS) Bern. 2020: 105 p.
  22. Konovalov V.G. Snow line and formation of glacier-derived runoff in glacier basins. In 34 selected papers on main ideas of the Soviet Glaciology, 1940s–1980s. Initiated, Compiled and Edited by V.M. Kotlyakov. Moscow, 1997: 402–410.
  23. Lappalainen H.K., Petäjä T., Vihma T., Räisänen J., Baklanov A., Chalov S., Esau I., Ezhova E., Leppäranta M., Pozdnyakov D., Pumpanen J., Andreae M.O., Arshi-nov M., Asmi E., Bai J., Bashmachnikov I., Belan B., Bianchi F., Biskaborn B., Boy M., Bäck J., Cheng B., Chubarova N., Duplissy J., Dyukarev E., Eleftheriadis K., Forsius M., Heimann M., Juhola S., Konovalov V., Konovalov I., Konstantinov P., Köster K., Lapshina E., Lintunen A., Mahura A., Makkonen R., Malkhazova S., Mammarella I., Mammola S., Mazon S.B., Meinan-der O., Mikhailov E., Miles V., Myslenkov S., Orlov D., Paris Jean-D., Pirazzini R., Popovicheva O., Pulliainen J., Rautiainen K., Sachs T., Shevchenko V., Skorokhod A., Stohl A., Suhonen E., Thomson E.S., Tsidilina M., Tynkkynen V., Uotila P., Virkkula A., Voropay N., Wolf T., Yasunaka S., Zhang J., Qiu Y., Ding A., Guo H., Bondur V., Kasimov N., Zilitinkevich S., Kerminen V., Kulmala M. Recent advances in the understanding of the northern Eurasian environments and of the urban air quality in China – a pan-Eurasian experiment (PEEX) programme perspective. Atmospheric Chemistry and Physics. 2022, 22 (7): 4413–4469.
  24. Nuimura T., Sakai A., Taniguchi K., Nagai H., Lamsal D., Tsutaki S., Kozawa A., Hoshina Y., Takenaka S., Omiya S., Tsunematsu K., Tshering P., Fujita K. The GAMDAM glacier inventory: a quality-controlled inventory of Asian glaciers. The Cryosphere. 2015, 9: 849–864.
  25. Paul F., Rastner P., Azzoni R., Diolaiuti G., Fugazza D., Le Bris R., Nemec J., Rabatel A., Ramusovic M., Schwaizer G., and Smiraglia C. Glacier shrinkage in the Alps continues unabated as revealed by a new glacier inventory from Sentinel–2. Earth Systems Science Data. 2020, 12: 1805–1821. https://doi.org/10.5194/essd-12-1805-2020
  26. RGI Consortium. 2017. Randolph Glacier Inventory (RGI) – A Dataset of Global Glacier Outlines: Version 6.0. Technical Report. Global Land Ice Measurements from Space. Boulder. Colorado. USA. Digital Media. 2017: 71 p. https://doi.org/10.7265/N5 RGI 6.0.
  27. Williams M.W., Konovalov V.G. Central Asia Temperature and Precipitation Data, 1879-2003. Boulder. Colorado: USA National Snow and Ice Data Center. 2008. Retrieved from: https://nsidc.org/ (Last access: 05.12.2022)

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