Advection from the North Atlantic as the Forcing of Winter Greenhouse Effect Over Europe

In winter, large interannual fluctuations in the surface temperature are observed over central Europe. Comparing warm February 1990 with cold February 1996, a satellite-retrieved surface (skin) temperature difference of 9.8 K is observed for the region 50-60 degrees N; 5-35 degrees E. Previous studi...

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Main Authors: Otterman, J., Angell, J., Susskind, J., Shubert, S., Bungato, D., Atlas, R., Starr, David OC., Wu, M.-L. C.
Language:unknown
Published: 2002
Subjects:
Environment Pollution
North Atlantic
Online Access:http://hdl.handle.net/2060/20020043307
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record_format openpolar
spelling ftnasantrs:oai:casi.ntrs.nasa.gov:20020043307 2023-05-15T17:30:12+02:00 Advection from the North Atlantic as the Forcing of Winter Greenhouse Effect Over Europe Otterman, J. Angell, J. Susskind, J. Shubert, S. Bungato, D. Atlas, R. Starr, David OC. Wu, M.-L. C. Unclassified, Unlimited, Publicly available Jan. 04, 2002 application/pdf http://hdl.handle.net/2060/20020043307 unknown Document ID: 20020043307 http://hdl.handle.net/2060/20020043307 No Copyright CASI Environment Pollution 2002 ftnasantrs 2015-03-15T02:23:20Z In winter, large interannual fluctuations in the surface temperature are observed over central Europe. Comparing warm February 1990 with cold February 1996, a satellite-retrieved surface (skin) temperature difference of 9.8 K is observed for the region 50-60 degrees N; 5-35 degrees E. Previous studies show that advection from the North Atlantic constitutes the forcing to such fluctuations. The advection is quantified by Index I(sub na), the average of the ocean-surface wind speed over the eastern North Atlantic when the direction is from the southwest (when the wind is from another direction, it counts as a zero speed to the average). Average I(sub na) for February 1990 was 10.6 m/s, but for February 1996 I(sub na) was only 2.4 m/s. A large value of I(sub na) means a strong southwesterly flow which brings warm and moist air into central Europe at low level, producing a steeper tropospheric lapse rate. Strong ascending motions at 700 mb are observed in association with the occurrence of enhanced warm, moist advection from the ocean in February 1990 producing clouds and precipitation. Total precipitable water and cloud-cover fraction have larger values in February 1990 than in 1996. The difference in the greenhouse effect between these two scenarios, this reduction in heat loss to space, can be translated into a virtual radiative heating of 2.6 W/square m above the February 1990 surface/atmosphere system, which contributes to a warming of the surface on the order of 2.6 K. Accepting this estimate as quantitatively meaningful, we evaluate the direct effect, the rise in the surface temperature in Europe as a result of maritime-air inflow, as 7.2 K (9.8 K-2.6 K). Thus, fractional reinforcement by the greenhouse effect is 2.6/7.2, or 36%, a substantial positive feedback. Other/Unknown Material North Atlantic NASA Technical Reports Server (NTRS)
institution Open Polar
collection NASA Technical Reports Server (NTRS)
op_collection_id ftnasantrs
language unknown
topic Environment Pollution
spellingShingle Environment Pollution
Otterman, J.
Angell, J.
Susskind, J.
Shubert, S.
Bungato, D.
Atlas, R.
Starr, David OC.
Wu, M.-L. C.
Advection from the North Atlantic as the Forcing of Winter Greenhouse Effect Over Europe
topic_facet Environment Pollution
description In winter, large interannual fluctuations in the surface temperature are observed over central Europe. Comparing warm February 1990 with cold February 1996, a satellite-retrieved surface (skin) temperature difference of 9.8 K is observed for the region 50-60 degrees N; 5-35 degrees E. Previous studies show that advection from the North Atlantic constitutes the forcing to such fluctuations. The advection is quantified by Index I(sub na), the average of the ocean-surface wind speed over the eastern North Atlantic when the direction is from the southwest (when the wind is from another direction, it counts as a zero speed to the average). Average I(sub na) for February 1990 was 10.6 m/s, but for February 1996 I(sub na) was only 2.4 m/s. A large value of I(sub na) means a strong southwesterly flow which brings warm and moist air into central Europe at low level, producing a steeper tropospheric lapse rate. Strong ascending motions at 700 mb are observed in association with the occurrence of enhanced warm, moist advection from the ocean in February 1990 producing clouds and precipitation. Total precipitable water and cloud-cover fraction have larger values in February 1990 than in 1996. The difference in the greenhouse effect between these two scenarios, this reduction in heat loss to space, can be translated into a virtual radiative heating of 2.6 W/square m above the February 1990 surface/atmosphere system, which contributes to a warming of the surface on the order of 2.6 K. Accepting this estimate as quantitatively meaningful, we evaluate the direct effect, the rise in the surface temperature in Europe as a result of maritime-air inflow, as 7.2 K (9.8 K-2.6 K). Thus, fractional reinforcement by the greenhouse effect is 2.6/7.2, or 36%, a substantial positive feedback.
author Otterman, J.
Angell, J.
Susskind, J.
Shubert, S.
Bungato, D.
Atlas, R.
Starr, David OC.
Wu, M.-L. C.
author_facet Otterman, J.
Angell, J.
Susskind, J.
Shubert, S.
Bungato, D.
Atlas, R.
Starr, David OC.
Wu, M.-L. C.
author_sort Otterman, J.
title Advection from the North Atlantic as the Forcing of Winter Greenhouse Effect Over Europe
title_short Advection from the North Atlantic as the Forcing of Winter Greenhouse Effect Over Europe
title_full Advection from the North Atlantic as the Forcing of Winter Greenhouse Effect Over Europe
title_fullStr Advection from the North Atlantic as the Forcing of Winter Greenhouse Effect Over Europe
title_full_unstemmed Advection from the North Atlantic as the Forcing of Winter Greenhouse Effect Over Europe
title_sort advection from the north atlantic as the forcing of winter greenhouse effect over europe
publishDate 2002
url http://hdl.handle.net/2060/20020043307
op_coverage Unclassified, Unlimited, Publicly available
genre North Atlantic
genre_facet North Atlantic
op_source CASI
op_relation Document ID: 20020043307
http://hdl.handle.net/2060/20020043307
op_rights No Copyright
_version_ 1766126031951888384

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