Informativeness (information-bearing) of factors forming interannual variability of the Barents Sea and its individual areas ice coveren

The various combinations of factors that form an interannual variability of ice coveren in the western, northeastern and southeastern parts of the Barents Sea were analysed for the period 1950 ̶ 2022. The co-phased cyclic fluctuations between the Barents Sea ice coveren and atmospheric circulation i...

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Bibliographic Details
Main Authors: Lis N.A., Cherniavskaia E.A., Mironov E.U., Timokhov L.A., Egorova E.S.
Format: Article in Journal/Newspaper
Language:English
Russian
Published: LLC Center for Information and Legal Support for the Development of the Arctic 2023
Subjects:
barents sea
ice coverage
informativeness
interannual variability
regression
cyclic processes
statistical modeling
Geography (General)
G1-922
Barents Sea
Sea ice
Online Access:https://doi.org/10.24412/2658-4255-2023-2-17-32
https://doaj.org/article/8fc808242f144c399f8e594fb1a048e0
Description
Summary:The various combinations of factors that form an interannual variability of ice coveren in the western, northeastern and southeastern parts of the Barents Sea were analysed for the period 1950 ̶ 2022. The co-phased cyclic fluctuations between the Barents Sea ice coveren and atmospheric circulation indices (5 ̶ 7 and 8 ̶ 14 years), Atlantic multidecadal oscillation (5 ̶ 9 years), solar activity (10 years), parameters of the Earth’s rotation axis and other astrogeophysical characteristics (6, 9 and 10 years) were reported. Multiple regression equations for the winter and summer seasons for each part of the Barents Sea were formed. The connecting of each predictor with ice coveren variability and their contribution to the ice coveren total dispersion were evaluated. It was shown that the set of factors forming interannual variability of the Barents Sea ice coveren is differs depending on the area and season. It appears that previous state of the ice coveren has the greatest impact at the ice coveren variability in the western and the northeastern parts of the Barents Sea (78 % and 74 % of total dispersion respectively). And in the southeastern part of the Barents Sea the highest impact at the ice coveren volatility has the atmosphere temperature variability − 45 % of total dispersion.

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