Are stronger North‐Atlantic southwesterlies the forcing to the late‐winter warming in Europe?

Abstract We examine a possible mechanism leading to late‐winter warming, and thus to an early spring in Europe. From the National Centers for Environmental Prediction reanalysis, we extract for the years 1948–99 ocean‐surface winds over the eastern North Atlantic, and air temperatures at the surface...

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Published in:International Journal of Climatology
Main Authors: Otterman, J., Atlas, R., Chou, S.‐H., Jusem, J. C., Pielke, R. A., Chase, T. N., Rogers, J., Russell, G. L., Schubert, S. D., Sud, Y. C., Terry, J.
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2002
Subjects:
North Atlantic
Online Access:http://dx.doi.org/10.1002/joc.681
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spelling crwiley:10.1002/joc.681 2024-06-02T08:11:16+00:00 Are stronger North‐Atlantic southwesterlies the forcing to the late‐winter warming in Europe? Otterman, J. Atlas, R. Chou, S.‐H. Jusem, J. C. Pielke, R. A. Chase, T. N. Rogers, J. Russell, G. L. Schubert, S. D. Sud, Y. C. Terry, J. 2002 http://dx.doi.org/10.1002/joc.681 https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1002%2Fjoc.681 https://rmets.onlinelibrary.wiley.com/doi/pdf/10.1002/joc.681 en eng Wiley http://onlinelibrary.wiley.com/termsAndConditions#vor International Journal of Climatology volume 22, issue 6, page 743-750 ISSN 0899-8418 1097-0088 journal-article 2002 crwiley https://doi.org/10.1002/joc.681 2024-05-03T12:01:08Z Abstract We examine a possible mechanism leading to late‐winter warming, and thus to an early spring in Europe. From the National Centers for Environmental Prediction reanalysis, we extract for the years 1948–99 ocean‐surface winds over the eastern North Atlantic, and air temperatures at the surface T s , and at the 500 hPa level T 500 in late‐winter and spring. T s is extracted at six European locations, all at 50.5°N, ranging in longitude from 1.9°E (northeastern France) to 26.2°E (Ukraine). To quantify the advection of maritime air into Europe, we evaluate for three‐pentad groups the index I na of the southwesterlies at 45°N, 20°W; I na is the average wind speed at this point if the direction is from the quadrant 180–270° (when the direction is different, the contribution counts as zero). In late winter, correlations C it between I na and T s are substantial, up to the 0.6 level in western Europe (but weaker correlations for Poland and Ukraine). C it drops sharply by mid‐March, occasionally taking negative values subsequently. This drop in C it indicates that maritime air advection is no longer associated closely with the surface‐air warming; the role of insolation becomes important, and thus the drop in C it marks the arrival of spring. Correlations C iΔ between I na and our lapse‐rate parameter Δ, the difference between T s and T 500 , indicate that the flow of warm maritime‐air from the North Atlantic into this ‘corridor’ at 50.5°N is predominantly at lower tropospheric level. By computing the best linear fit to I na and T s , the trends for the period 1948–99 are evaluated. The trends are appreciable in the second half of February and the first half of March: for I na , the trends are 0.41 m s −1 and 0.15 m s −1 per decade in pentad groups 10–12 and 13–15 respectively ( I na increased from 1948 to 1999 by 2.10 m s −1 and 0.77 m s −1 ); for T s , the trends for western Germany are 0.36°C and 0.43°C per decade in these two respective pentad groups ( T s in this location increased from 1948 to 1999 by 1.86°C ... Article in Journal/Newspaper North Atlantic Wiley Online Library International Journal of Climatology 22 6 743 750
institution Open Polar
collection Wiley Online Library
op_collection_id crwiley
language English
description Abstract We examine a possible mechanism leading to late‐winter warming, and thus to an early spring in Europe. From the National Centers for Environmental Prediction reanalysis, we extract for the years 1948–99 ocean‐surface winds over the eastern North Atlantic, and air temperatures at the surface T s , and at the 500 hPa level T 500 in late‐winter and spring. T s is extracted at six European locations, all at 50.5°N, ranging in longitude from 1.9°E (northeastern France) to 26.2°E (Ukraine). To quantify the advection of maritime air into Europe, we evaluate for three‐pentad groups the index I na of the southwesterlies at 45°N, 20°W; I na is the average wind speed at this point if the direction is from the quadrant 180–270° (when the direction is different, the contribution counts as zero). In late winter, correlations C it between I na and T s are substantial, up to the 0.6 level in western Europe (but weaker correlations for Poland and Ukraine). C it drops sharply by mid‐March, occasionally taking negative values subsequently. This drop in C it indicates that maritime air advection is no longer associated closely with the surface‐air warming; the role of insolation becomes important, and thus the drop in C it marks the arrival of spring. Correlations C iΔ between I na and our lapse‐rate parameter Δ, the difference between T s and T 500 , indicate that the flow of warm maritime‐air from the North Atlantic into this ‘corridor’ at 50.5°N is predominantly at lower tropospheric level. By computing the best linear fit to I na and T s , the trends for the period 1948–99 are evaluated. The trends are appreciable in the second half of February and the first half of March: for I na , the trends are 0.41 m s −1 and 0.15 m s −1 per decade in pentad groups 10–12 and 13–15 respectively ( I na increased from 1948 to 1999 by 2.10 m s −1 and 0.77 m s −1 ); for T s , the trends for western Germany are 0.36°C and 0.43°C per decade in these two respective pentad groups ( T s in this location increased from 1948 to 1999 by 1.86°C ...
format Article in Journal/Newspaper
author Otterman, J.
Atlas, R.
Chou, S.‐H.
Jusem, J. C.
Pielke, R. A.
Chase, T. N.
Rogers, J.
Russell, G. L.
Schubert, S. D.
Sud, Y. C.
Terry, J.
spellingShingle Otterman, J.
Atlas, R.
Chou, S.‐H.
Jusem, J. C.
Pielke, R. A.
Chase, T. N.
Rogers, J.
Russell, G. L.
Schubert, S. D.
Sud, Y. C.
Terry, J.
Are stronger North‐Atlantic southwesterlies the forcing to the late‐winter warming in Europe?
author_facet Otterman, J.
Atlas, R.
Chou, S.‐H.
Jusem, J. C.
Pielke, R. A.
Chase, T. N.
Rogers, J.
Russell, G. L.
Schubert, S. D.
Sud, Y. C.
Terry, J.
author_sort Otterman, J.
title Are stronger North‐Atlantic southwesterlies the forcing to the late‐winter warming in Europe?
title_short Are stronger North‐Atlantic southwesterlies the forcing to the late‐winter warming in Europe?
title_full Are stronger North‐Atlantic southwesterlies the forcing to the late‐winter warming in Europe?
title_fullStr Are stronger North‐Atlantic southwesterlies the forcing to the late‐winter warming in Europe?
title_full_unstemmed Are stronger North‐Atlantic southwesterlies the forcing to the late‐winter warming in Europe?
title_sort are stronger north‐atlantic southwesterlies the forcing to the late‐winter warming in europe?
publisher Wiley
publishDate 2002
url http://dx.doi.org/10.1002/joc.681
https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1002%2Fjoc.681
https://rmets.onlinelibrary.wiley.com/doi/pdf/10.1002/joc.681
genre North Atlantic
genre_facet North Atlantic
op_source International Journal of Climatology
volume 22, issue 6, page 743-750
ISSN 0899-8418 1097-0088
op_rights http://onlinelibrary.wiley.com/termsAndConditions#vor
op_doi https://doi.org/10.1002/joc.681
container_title International Journal of Climatology
container_volume 22
container_issue 6
container_start_page 743
op_container_end_page 750
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