Влияние Скандинавского ледника на климатические условия Восточно-Европейской равнины по данным численного моделирования проекта


https://doi.org/10.15356/2076-6734-2014-1-113-124

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Аннотация

Рассматриваются результаты работы глобальных климатических моделей, участвующих в проекте PMIP 2 (Paleoclimate Modelling Intercomparison Project), по воспроизведению современного климата и климата последнего ледникового максимума (LGM) для территории Восточно-Европейской равнины. Приводится набор возможных критериев для оценки качества воспроизведения современного климата в этом регионе, выполнено сравнение моделей. Для климата LGM проанализированы поля температуры, осадков, рассчитан сток р. Волга без и с учётом возможного вклада талых вод Скандинавского ледника. Полученные результаты использованы для оценки уровня Каспийского моря в этот период.


Об авторе

П. А. Морозова
Институт географии РАН, Москва
Россия


Список литературы

1. Varushchenko S.I., Varushchenko A.N., Klige R.K. Izmenenie regima Kaspiyskogo moray i besstochnykh vodoemov v paleovremeni. Changes of regime of Caspian Sea and closed water reservoirs in palaeotime. Moscow: Nauka, 1987: 255 p. [In Russian].

2. Velichko A.A. Correlation of climate changes in the high and low latitudes of the Earth in the Late Pleistocene and Holocene. Paleoklimaty i oledeneniya v pleistotsene. Moscow: Nauka, 1989: 5–19. [In Russian].

3. Velichko A.A.Paleoklimaty i paleolandshafty vnetropicheskogo prostranstva Severnogo polushariya. Atlas-monografiya. Paleoclimates and paleolandscapes of non-tropical area of the Northern Hemisphere. Atlas-monograph. Moscow: GEOS, 2009: 119 p. [In Russian].

4. Grosswald M.G. Evraziyskie gidrosfernye katastrofy i oledenenie Arktiki. Eurasian hydrosphere catastrophes and Arctic glaciation. Moscow: Nauchnyi mir. Scientific World, 1999: 118 p. [In Russian].

5. Evstigneev V.M. Prakticheskie raboty po kursu “Rechnoy stok i gidrologicheskie raschety”. Practical works on course “River runoff and hydrological calculations”. Moscow State University, 1991: 69 p. [In Russian].

6. Isaev A.A. Atmosfernye osadki. Atmospheric precipitation. Pt. I. Changeability of the precipitation characteristics on the territory of Russia and adjacent countries. Moscow State University, 2002: 192 p. [In Russian].

7. Kalinin G.P., Klige R.K., Shleynikov V.A. Main problems of paleohydrology. Problemy paleogidrologii. Problemc of paleohydrology. Moscow: Nauka, 1976: 7–20. [In Russian].

8. Kvasov D.D. Pozdnechetvertichnaya istoriya krupnykh ozer i vnutrennikh morey Vostochnoy Evropy. Late Pleistocene history of large lakes and internal seas in the Eastern Europe. Leningrad: Nauka, 1975: 278 p. [In Russian].

9. Kislov A.V., Toropov P.A. Modeling of climatic conditions in the East-European Plain and variations of Volga river runoff in the epoch of Late Pleistocene cooling. Vestnik MGU. Ser. 5. Geografiya. Herald of the Moscow State University. Ser. 5. Geography. 2006, 2: 13–17. [In Russian].

10. Klige R.K., Danilov I.D., Konishchev V.N. Istoriya gidrosfery. History of hydrosphere. Moscow: Nauchnyi mir. Scientific World, 1998: 370 p. [In Russian].

11. Kuzmin P.P. Protsess tayaniya snezhnogo pokrova. Process of snow cover melting. Leningrad: Gidrometeoizdat. Leningrad: Hydrometeoizdat, 1961: 346 p. [In Russian].

12. Markov K.K., Lazukov G.I., Nikolaev V.A. Chetvertichnyi period (Lednikovyi period – Antropogenovyi period). Quaternary period (Glacier age – Anthropogenic period). V. 1. Moscow State University, 1965: 371 p. [In Russian].

13. Metodicheskie ukazaniya k chetvertoy chaste Spravochnika po klimatu SSSR. Methods directions to the fourth part of Reference-book on USSR climate. Section 2. “Atmospheric precipitation”. JL: Rotaprint, 1966: 40 p. [In Russian].

14. Official site PCMDI. URL: http://www-pcmdi.llnl.gov/ (date of address 01.06.2013)

15. Official site PMIP2. URL: http://pmip2.lsce.ipsl.fr/ (data of address 01.06.2013)

16. Svitoch A.A. Level regime of Caspian Sea according to paleogeographical data. Vodnye resursy. Water Resources. 1997, 24: 13–22. [In Russian].

17. Toropov P.A. Verification results of numerical modeling of East-European Plain climate. Meteorologiya i gidrologiya. Meteorology and Hydrology. 2005, 5: 5–21. [In Russian].

18. Toropov P.A., Morozova P.A. Estimation of Caspian Sea level in the epoch of Late Pleistocene cryochrone on the base of results of climate numerical modeling taking into account the melting of Scandinavian Glacier. Vestnik MGU. Ser. 5. Geografiya. Herald of the Moscow State University. Ser. 5. Geography. 2011, 2: 55–61. [In Russian].

19. Kislov A.V., Toropov P.A. Simulation of Black Sea and Caspian Sea responses to Quaternary climate scenarios. Geography. Environment. Sustainability. 2008, 1: 68–79.

20. Laîné A., Kageyama M., Salas-Mélia D., Voldoire A., Rivière G., Ramstein G., Planton S., Tyteca S., Peterschmitt J.Y. Northern hemisphere storm tracks during the last glacial maximum in the PMIP2 ocean-atmosphere coupled models: energetic study, seasonal cycle, precipitation. Climate Dynamics. 2009, 32 (5): 593–614.

21. Peltier W.R. Global glacial isostasy and the surface of the ice-age Earth: the ICE-5G (VM2) model and GRACE. Annual Review of Earth and Planetary Sciences. 2004, 32: 111–149.

22. Svendsen J.I, Alexanderson Н., Astakhov V.I. , Demidov I., Dowdeswell J.A., Funder S., Gataullin V., Henriksen M., Hjort C., Houmark-Nielsen M., Hubberten H.W., Ingolfsson O., Jakobsson M., Kjer K.H., Larsen E., Lokrantz H., Lunkka J.P., Lysa A., Mangerud J., Matiouchkov A., Murray A., Moller P., Niessen F., Nikolskaya O., Polyak L., Saarnisto M., Siegert C., Siegert M.J., Spielhagen R.F., Stein R. Late Quaternary ice sheet history of northern Eurasia. Quaternary Science Reviews. 2004 (23): 1229–1271.

23. Tarasov P.E., Harrison S.P. Lake status records from the former Soviet Union and Mongolia: a continental-scale synthesis. Palaeohydrology as Reflected in Lake Level Changes as Climatic Evidence for Holocene Times. Gustav Fischer–Verlag, Stuttgart, 1998: 115–130.


Дополнительные файлы

Для цитирования: Морозова П.А. Влияние Скандинавского ледника на климатические условия Восточно-Европейской равнины по данным численного моделирования проекта. Лёд и Снег. 2014;54(1):113-124. https://doi.org/10.15356/2076-6734-2014-1-113-124

For citation: Morozova P.A. Influence of the Scandinavian ice on the climate conditions of east plain European evidenced from the numerical simulation project PMIP II. Ice and Snow. 2014;54(1):113-124. (In Russ.) https://doi.org/10.15356/2076-6734-2014-1-113-124

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ISSN 2076-6734 (Print)
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