The 2016-17 Arctic sea ice growth season (October-March) exhibited the lowest end-of-season sea ice volume and extent of any year since 1979. An analysis of MERRA2 atmospheric reanalysis data and CERES radiative flux data reveals that a record warm and moist Arctic atmosphere supported the reduced sea ice growth through two pathways. First, numerous regional episodes of increased atmospheric temperature and moisture, transported from lower latitudes, increased the cumulative energy input from downwelling longwave surface fluxes. Second, in those same episodes, the efficiency that the atmosphere cooled radiatively to space was reduced, increasing the amount of energy retained in the Arctic atmosphere and reradiated back toward the surface. O...
Using recently developed techniques we estimate snow and sea ice thickness distributions for the Arc...
A large retreat of sea-ice in the ‘stormy’ Atlantic Sector of the Arctic Ocean has become evident th...
This study reports the occurrence of intense atmospheric rivers (ARs) during the two large Weddell P...
Graduation date: 2017Access restricted to the OSU Community, at author's request, from 2017-07-11 to...
The declining trend of Arctic September sea ice constitutes a significant change in the Arctic clima...
AbstractThe volume of Arctic sea ice is in decline but exhibits high interannual variability, which ...
The Arctic sea-ice cover plays an important role for the global climate system. Sea ice and the over...
Satellite observations have revealed that Arctic sea ice extent have continuously diminished since t...
Arctic Atmospheric rivers, termed ‘warm-and-moist intrusion’ (WaMAI) in this thesis, transporting he...
An analysis of 2000-2015 monthly Clouds and the Earth's Radiant Energy System-Energy Balanced and Fi...
Sea ice loss is proposed as a primary reason for the Arctic amplification, although the physical mec...
In recent years record low Arctic sea ice extents have been observed repeatedly. This can have impor...
Arctic sea ice has not only decreased in volume during the last decades, but has also changed in its...
Copyright © 2010 Nature Publishing GroupThe rise in Arctic near-surface air temperatures has been al...
The Arctic sea ice retreat has accelerated over the last decade. The negative trend is largest in su...
Using recently developed techniques we estimate snow and sea ice thickness distributions for the Arc...
A large retreat of sea-ice in the ‘stormy’ Atlantic Sector of the Arctic Ocean has become evident th...
This study reports the occurrence of intense atmospheric rivers (ARs) during the two large Weddell P...
Graduation date: 2017Access restricted to the OSU Community, at author's request, from 2017-07-11 to...
The declining trend of Arctic September sea ice constitutes a significant change in the Arctic clima...
AbstractThe volume of Arctic sea ice is in decline but exhibits high interannual variability, which ...
The Arctic sea-ice cover plays an important role for the global climate system. Sea ice and the over...
Satellite observations have revealed that Arctic sea ice extent have continuously diminished since t...
Arctic Atmospheric rivers, termed ‘warm-and-moist intrusion’ (WaMAI) in this thesis, transporting he...
An analysis of 2000-2015 monthly Clouds and the Earth's Radiant Energy System-Energy Balanced and Fi...
Sea ice loss is proposed as a primary reason for the Arctic amplification, although the physical mec...
In recent years record low Arctic sea ice extents have been observed repeatedly. This can have impor...
Arctic sea ice has not only decreased in volume during the last decades, but has also changed in its...
Copyright © 2010 Nature Publishing GroupThe rise in Arctic near-surface air temperatures has been al...
The Arctic sea ice retreat has accelerated over the last decade. The negative trend is largest in su...
Using recently developed techniques we estimate snow and sea ice thickness distributions for the Arc...
A large retreat of sea-ice in the ‘stormy’ Atlantic Sector of the Arctic Ocean has become evident th...
This study reports the occurrence of intense atmospheric rivers (ARs) during the two large Weddell P...
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