Enhanced MODIS Atmospheric Total Water Vapour Content Trends in Response to Arctic Amplification

In order to assess the strength of the water vapour feedback within Arctic climate change, 15 years of the total column-integrated density of water vapour (TCWV) from the moderate resolution imaging spectrometer (MODIS) are analysed. Arctic TCWV distribution, trends, and anomalies for the 2001–2015...

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Published in:Atmosphere
Main Authors: Dunya Alraddawi, Philippe Keckhut, Alain Sarkissian, Olivier Bock, Abdanour Irbah, Slimane Bekki, Chantal Claud, Mustapha Meftah
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2017
Subjects:
water vapour
Arctic
trends
Svalbard
Svalbard Archipelago
Greenland
albedo
Archipelago
Climate change
Sea ice
Alaska
Siberia
Online Access:https://doi.org/10.3390/atmos8120241
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record_format openpolar
spelling ftmdpi:oai:mdpi.com:/2073-4433/8/12/241/ 2023-08-20T03:59:19+02:00 Enhanced MODIS Atmospheric Total Water Vapour Content Trends in Response to Arctic Amplification Dunya Alraddawi Philippe Keckhut Alain Sarkissian Olivier Bock Abdanour Irbah Slimane Bekki Chantal Claud Mustapha Meftah agris 2017-12-02 application/pdf https://doi.org/10.3390/atmos8120241 EN eng Multidisciplinary Digital Publishing Institute Meteorology https://dx.doi.org/10.3390/atmos8120241 https://creativecommons.org/licenses/by/4.0/ Atmosphere; Volume 8; Issue 12; Pages: 241 water vapour Arctic trends Text 2017 ftmdpi https://doi.org/10.3390/atmos8120241 2023-07-31T21:18:11Z In order to assess the strength of the water vapour feedback within Arctic climate change, 15 years of the total column-integrated density of water vapour (TCWV) from the moderate resolution imaging spectrometer (MODIS) are analysed. Arctic TCWV distribution, trends, and anomalies for the 2001–2015 period, broken down into seasons and months, are analysed. Enhanced local spring TCWV trends above the terrestrial Arctic regions are discussed in relation to land snow cover and vegetation changes. Upward TCWV trends above the oceanic areas are discussed in lien with sea ice extent and sea surface temperature changes. Increased winter TCWV (up to 40%) south of the Svalbard archipelago are observed; these trends are probably driven by a local warming and sea ice extent decline. Similarly, the Barents/Kara regions underwent wet trends (up to 40%), also associated with winter/fall local sea ice loss. Positive late summer TCWV trends above the western Greenland and Beaufort seas (about 20%) result from enhanced upper ocean warming and thereby a local coastal decline in ice extent. The Mackenzie and Siberia enhanced TCWV trends (about 25%) during spring are found to be associated with coincident decreased snow cover and increased vegetation, as a result of the earlier melt onset. Results show drier summers in the Eurasia and western Alaska regions, thought to be affected by changes in albedo from changing vegetation. Other TCWV anomalies are also presented and discussed in relation to the dramatic decline in sea ice extent and the exceptional rise in sea surface temperature. Text albedo Archipelago Arctic Climate change Greenland Sea ice Svalbard Alaska Siberia MDPI Open Access Publishing Arctic Svalbard Svalbard Archipelago Greenland Atmosphere 8 12 241
institution Open Polar
collection MDPI Open Access Publishing
op_collection_id ftmdpi
language English
topic water vapour
Arctic
trends
spellingShingle water vapour
Arctic
trends
Dunya Alraddawi
Philippe Keckhut
Alain Sarkissian
Olivier Bock
Abdanour Irbah
Slimane Bekki
Chantal Claud
Mustapha Meftah
Enhanced MODIS Atmospheric Total Water Vapour Content Trends in Response to Arctic Amplification
topic_facet water vapour
Arctic
trends
description In order to assess the strength of the water vapour feedback within Arctic climate change, 15 years of the total column-integrated density of water vapour (TCWV) from the moderate resolution imaging spectrometer (MODIS) are analysed. Arctic TCWV distribution, trends, and anomalies for the 2001–2015 period, broken down into seasons and months, are analysed. Enhanced local spring TCWV trends above the terrestrial Arctic regions are discussed in relation to land snow cover and vegetation changes. Upward TCWV trends above the oceanic areas are discussed in lien with sea ice extent and sea surface temperature changes. Increased winter TCWV (up to 40%) south of the Svalbard archipelago are observed; these trends are probably driven by a local warming and sea ice extent decline. Similarly, the Barents/Kara regions underwent wet trends (up to 40%), also associated with winter/fall local sea ice loss. Positive late summer TCWV trends above the western Greenland and Beaufort seas (about 20%) result from enhanced upper ocean warming and thereby a local coastal decline in ice extent. The Mackenzie and Siberia enhanced TCWV trends (about 25%) during spring are found to be associated with coincident decreased snow cover and increased vegetation, as a result of the earlier melt onset. Results show drier summers in the Eurasia and western Alaska regions, thought to be affected by changes in albedo from changing vegetation. Other TCWV anomalies are also presented and discussed in relation to the dramatic decline in sea ice extent and the exceptional rise in sea surface temperature.
format Text
author Dunya Alraddawi
Philippe Keckhut
Alain Sarkissian
Olivier Bock
Abdanour Irbah
Slimane Bekki
Chantal Claud
Mustapha Meftah
author_facet Dunya Alraddawi
Philippe Keckhut
Alain Sarkissian
Olivier Bock
Abdanour Irbah
Slimane Bekki
Chantal Claud
Mustapha Meftah
author_sort Dunya Alraddawi
title Enhanced MODIS Atmospheric Total Water Vapour Content Trends in Response to Arctic Amplification
title_short Enhanced MODIS Atmospheric Total Water Vapour Content Trends in Response to Arctic Amplification
title_full Enhanced MODIS Atmospheric Total Water Vapour Content Trends in Response to Arctic Amplification
title_fullStr Enhanced MODIS Atmospheric Total Water Vapour Content Trends in Response to Arctic Amplification
title_full_unstemmed Enhanced MODIS Atmospheric Total Water Vapour Content Trends in Response to Arctic Amplification
title_sort enhanced modis atmospheric total water vapour content trends in response to arctic amplification
publisher Multidisciplinary Digital Publishing Institute
publishDate 2017
url https://doi.org/10.3390/atmos8120241
op_coverage agris
geographic Arctic
Svalbard
Svalbard Archipelago
Greenland
geographic_facet Arctic
Svalbard
Svalbard Archipelago
Greenland
genre albedo
Archipelago
Arctic
Climate change
Greenland
Sea ice
Svalbard
Alaska
Siberia
genre_facet albedo
Archipelago
Arctic
Climate change
Greenland
Sea ice
Svalbard
Alaska
Siberia
op_source Atmosphere; Volume 8; Issue 12; Pages: 241
op_relation Meteorology
https://dx.doi.org/10.3390/atmos8120241
op_rights https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.3390/atmos8120241
container_title Atmosphere
container_volume 8
container_issue 12
container_start_page 241
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