Dynamics of seasonally thawed layer on Svalbard and the Antarctic Peninsula in the ХХI century according to modeling data

Results of modeling of the dynamics of the seasonally thawing layer in the twenty first century made for two polar points (the Svalbard Archipelago and the Antarctic Peninsula) are discussed in the paper. The loss of thermal stability of a permafrost is usually associated with the formation of non-m...

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Bibliographic Details
Published in:Ice and Snow
Main Authors: V. Kotlyakov M., N. Osokin I., A. Sosnovsky V., В. Котляков М., Н. Осокин И., А. Сосновский В.
Other Authors: The mathematical modeling carried out according to the framework of fundamental scientific studies within the project reg. № 0148-20190004, processing and analysis of experimental data carried out according to the Russian Foundation for Basic Research (RFBR) 17-55-80107 BRICS_a project, numerical experiments and their analysis supported by the RFBR, grant № 18-05-60067, field studies on Svalbard conducted with financial support from the state assignment and logistical assistance of the Russian Scientific Center on Spitsbergen (RSCS), Математическое моделирование проводилось в рамках темы Государственного задания № 0148-2019-0004, обработка и анализ архивных материалов – по проекту РФФИ 17-55-80107 БРИКС_а, численные эксперименты и их анализ – при поддержке гранта РФФИ № 18-05-60067, экспедиционные исследования на архипелаге Шпицберген выполнялась при финансовой поддержке госзадания и логистической помощи Российского научного центра на Шпицбергене (РНЦШ)
Format: Article in Journal/Newspaper
Language:Russian
Published: IGRAS 2020
Subjects:
Antarctica
climate change
mathematical modeling
permafrost
snow cover
Svalbard
the seasonal melt layer
Антарктика
изменение климата
математическое моделирование
многолетняя мерзлота
сезонно-талый слой
снежный покров
Шпицберген
Antarctic
The Antarctic
Antarctic Peninsula
Svalbard Archipelago
Talik
Barentsburg
Annals of Glaciology
Antarc*
Polar Geography
The Cryosphere
Online Access:https://ice-snow.igras.ru/jour/article/view/800
https://doi.org/10.31857/S2076673420020034
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Summary:Results of modeling of the dynamics of the seasonally thawing layer in the twenty first century made for two polar points (the Svalbard Archipelago and the Antarctic Peninsula) are discussed in the paper. The loss of thermal stability of a permafrost is usually associated with the formation of non-merging layer that transforms then into a talik. This occurs when the seasonal thaw layer is not fully frozen due to a rise in air temperature and an increase in the snow cover thickness. Climate change (warming) causes an increase in the thickness of the seasonal thaw layer. From 2001 to 2018, the rise of summer air temperature at the Barentsburg weather station was about 0.05 °C/year, while in winter −0.21 °C/year, and at the Bellingshausen weather station (Antarctic) in the summer period a slight cooling was observed. On the island of West Svalbard in 1968–2000, the average daily summer and winter air temperatures were equal to +3.74 and −9.9 °C, respectively, while in 2001–2018 these values were significantly higher, especially in winter: +4.83 and −7.12°C, respectively. On the Antarctic Peninsula, similar values were equal to: +1.03 and −4.05 °C (1968–2000) and +0.83 and −3.60 °C (2001–2018). Calculations for the conditions of the Bellingshausen weather station did show that if the snow cover thickness exceeded 0.72 m (the average climatic value) but the average values of other parameters were not changed, formation of the non-merging permafrost became possible. With regard for a possible dynamics of the air temperature, the non-merging permafrost may be frozen through at the snow cover thickness lower 0.9 m. According to calculations for the conditions of the West Svalbard Island, it follows that when the snow cover thickness exceeds 1.5 m on the ground with its humidity higher 25% and the absence of moss cover, incomplete freezing of the seasonal thaw layer and the formation of non-merging permafrost becomes possible even at present time. Using data on rates of the air temperature rise and the regional model of ...

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