Long-term trends in total cloud cover in the Arctic based on surface observations in 1985–2020

This paper provides an assessment of long-term trends in total cloud cover in the Arctic for the period 1985–2020 based on surface observations. Analysis shows that total cloud cover exhibits a substantial variation both between seasons and from year to year. Two areas of positive trends were found...

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Main Authors:	Sviashchennikov, Pavel, Drugorub, Aleksandr
Format:	Article in Journal/Newspaper
Language:	English
Published:	Uniwersytet Mikołaja Kopernika w Toruniu 2022
Subjects:	Arctic Arctic climate climate change cloud cover water vapour atmospheric heat transport atmospheric moisture transport amospheric moisture transport Arctic Ocean Laptev Sea Pacific Climate change laptev North Atlantic
Online Access:	https://apcz.umk.pl/BOGPGS/article/view/38589

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spelling	ftapczojs:oai:apcz.umk.pl:article/38589 2023-05-15T14:32:59+02:00 Long-term trends in total cloud cover in the Arctic based on surface observations in 1985–2020 Sviashchennikov, Pavel Drugorub, Aleksandr 2022-05-31 application/pdf https://apcz.umk.pl/BOGPGS/article/view/38589 eng eng Uniwersytet Mikołaja Kopernika w Toruniu https://apcz.umk.pl/BOGPGS/article/view/38589/32413 https://apcz.umk.pl/BOGPGS/article/view/38589 Prawa autorskie (c) 2022 Pavel Sviashchennikov, Aleksandr Drugorub https://creativecommons.org/licenses/by-nd/4.0 CC-BY-ND Bulletin of Geography. Physical Geography Series; Nr 22 (2022); 33-43 Bulletin of Geography. Physical Geography Series; No. 22 (2022); 33-43 2300-8490 2080-7686 Arctic Arctic climate climate change cloud cover water vapour atmospheric heat transport atmospheric moisture transport amospheric moisture transport info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2022 ftapczojs 2022-08-13T05:47:14Z This paper provides an assessment of long-term trends in total cloud cover in the Arctic for the period 1985–2020 based on surface observations. Analysis shows that total cloud cover exhibits a substantial variation both between seasons and from year to year. Two areas of positive trends were found in the total cloud cover from October to April over the Arctic: one in the North Atlantic from 20° W up to 90° E and another from 150° E up to 150° W, which may be a result of atmospheric heat and moisture transport through the Atlantic and Pacific gates. Throughout the year, positive trends dominate over the Arctic Ocean and its seas (except for the Laptev Sea). Negative trends prevail over the continental parts of the Arctic This paper provides an assessment of long-term trends in total cloud cover in the Arctic for the period 1985–2020 based on surface observations. Analysis shows that total cloud cover exhibits a substantial variation both between seasons and from year to year. Two areas of positive trends were found in the total cloud cover from October to April over the Arctic: one in the North Atlantic from 20° W up to 90° E and another from 150° E up to 150° W, which may be a result of atmospheric heat and moisture transport through the Atlantic and Pacific gates. Throughout the year, positive trends dominate over the Arctic Ocean and its seas (except for the Laptev Sea). Negative trends prevail over the continental parts of the Arctic Article in Journal/Newspaper Arctic Arctic Ocean Climate change laptev Laptev Sea North Atlantic Akademicka Platforma Czasopism Arctic Arctic Ocean Laptev Sea Pacific
institution	Open Polar
collection	Akademicka Platforma Czasopism
op_collection_id	ftapczojs
language	English
topic	Arctic Arctic climate climate change cloud cover water vapour atmospheric heat transport atmospheric moisture transport amospheric moisture transport
spellingShingle	Arctic Arctic climate climate change cloud cover water vapour atmospheric heat transport atmospheric moisture transport amospheric moisture transport Sviashchennikov, Pavel Drugorub, Aleksandr Long-term trends in total cloud cover in the Arctic based on surface observations in 1985–2020
topic_facet	Arctic Arctic climate climate change cloud cover water vapour atmospheric heat transport atmospheric moisture transport amospheric moisture transport
description	This paper provides an assessment of long-term trends in total cloud cover in the Arctic for the period 1985–2020 based on surface observations. Analysis shows that total cloud cover exhibits a substantial variation both between seasons and from year to year. Two areas of positive trends were found in the total cloud cover from October to April over the Arctic: one in the North Atlantic from 20° W up to 90° E and another from 150° E up to 150° W, which may be a result of atmospheric heat and moisture transport through the Atlantic and Pacific gates. Throughout the year, positive trends dominate over the Arctic Ocean and its seas (except for the Laptev Sea). Negative trends prevail over the continental parts of the Arctic This paper provides an assessment of long-term trends in total cloud cover in the Arctic for the period 1985–2020 based on surface observations. Analysis shows that total cloud cover exhibits a substantial variation both between seasons and from year to year. Two areas of positive trends were found in the total cloud cover from October to April over the Arctic: one in the North Atlantic from 20° W up to 90° E and another from 150° E up to 150° W, which may be a result of atmospheric heat and moisture transport through the Atlantic and Pacific gates. Throughout the year, positive trends dominate over the Arctic Ocean and its seas (except for the Laptev Sea). Negative trends prevail over the continental parts of the Arctic
format	Article in Journal/Newspaper
author	Sviashchennikov, Pavel Drugorub, Aleksandr
author_facet	Sviashchennikov, Pavel Drugorub, Aleksandr
author_sort	Sviashchennikov, Pavel
title	Long-term trends in total cloud cover in the Arctic based on surface observations in 1985–2020
title_short	Long-term trends in total cloud cover in the Arctic based on surface observations in 1985–2020
title_full	Long-term trends in total cloud cover in the Arctic based on surface observations in 1985–2020
title_fullStr	Long-term trends in total cloud cover in the Arctic based on surface observations in 1985–2020
title_full_unstemmed	Long-term trends in total cloud cover in the Arctic based on surface observations in 1985–2020
title_sort	long-term trends in total cloud cover in the arctic based on surface observations in 1985–2020
publisher	Uniwersytet Mikołaja Kopernika w Toruniu
publishDate	2022
url	https://apcz.umk.pl/BOGPGS/article/view/38589
geographic	Arctic Arctic Ocean Laptev Sea Pacific
geographic_facet	Arctic Arctic Ocean Laptev Sea Pacific
genre	Arctic Arctic Ocean Climate change laptev Laptev Sea North Atlantic
genre_facet	Arctic Arctic Ocean Climate change laptev Laptev Sea North Atlantic
op_source	Bulletin of Geography. Physical Geography Series; Nr 22 (2022); 33-43 Bulletin of Geography. Physical Geography Series; No. 22 (2022); 33-43 2300-8490 2080-7686
op_relation	https://apcz.umk.pl/BOGPGS/article/view/38589/32413 https://apcz.umk.pl/BOGPGS/article/view/38589
op_rights	Prawa autorskie (c) 2022 Pavel Sviashchennikov, Aleksandr Drugorub https://creativecommons.org/licenses/by-nd/4.0
op_rightsnorm	CC-BY-ND
_version_	1766306303366397952

Long-term trends in total cloud cover in the Arctic based on surface observations in 1985–2020

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