Multiyear variability of the fast ice thickness in the Laptev Sea according to the polar station data

The series of data on the fast ice thickness and the surface air temperature at the Roshydromet land-based polar stations in the Laptev Sea are analyzed. Observations for the last 15-year period (2005-2020) are compared to observations prior to 2004, and the changes corresponding to the new climatic...

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Bibliographic Details
Main Authors: A.B. Timofeeva, M.V. Sharatunova
Format: Article in Journal/Newspaper
Language:English
Russian
Published: LLC Center for Information and Legal Support for the Development of the Arctic 2021
Subjects:
ice thickness
fast ice
polar stations
ice conditions
laptev sea
sum of frost degree-days
geo
envir
Laptev Sea
laptev
Online Access:https://doi.org/10.24412/2658-4255-2021-1-62-76
https://doaj.org/article/f21680f5e731443fa28c7b9cba6d41fa
Description
Summary:The series of data on the fast ice thickness and the surface air temperature at the Roshydromet land-based polar stations in the Laptev Sea are analyzed. Observations for the last 15-year period (2005-2020) are compared to observations prior to 2004, and the changes corresponding to the new climatic conditions are revealed. Over the past 15 years ice thicknesses during the period of maximum ice growth (maximum ice thickness) have decreased by 6% on average. The ice growth process has become much slower, transition between the sequentional stages of ice development is observed 1-2 ten-days periods later. The surface air temperature at the considered stations was on average 3°C higher than for the previous period. The most significant changes are observed in the autumn months (October, November) and in April. The cumulative sum of the degree-day of frost averaged for the Laptev Sea stations, decreased by 15%; all 15 recent winter seasons can be classified as mild. It was revealed that the decrease of the cumulative sum of degree-day of frost is in a good agreement with the decrease of the mean-seasonal ice thickness (averaged for November-May) at the stations. This indicator seems to be more informative than the maximum ice thickness for estimation of the changes. Averaging over all stations revealed a 10% decrease of the mean-seasonal ice thickness during the past 15 years.

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