Future changes in North Atlantic winter cyclones in CESM-LE – Part 1: Cyclone intensity, potential vorticity anomalies, and horizontal wind speed

Strong low-level winds associated with extratropical cyclones can have substantial impacts on society. The wind intensity and the spatial distribution of wind maxima may change in a warming climate; however, the involved changes in cyclone structure and dynamics are not entirely clear. Here, such st...

Full description

Bibliographic Details
Main Authors: Dolores-Tesillos, Edgar, Teubler, Franziska, Pfahl, Stephan
Format: Article in Journal/Newspaper
Language:English
Published: EGU 2022
Subjects:
Applied Mathematics
North Atlantic
Online Access:http://publications.imp.fu-berlin.de/3025/
http://publications.imp.fu-berlin.de/3025/1/Dolores-Tesillos_WCD_2022.pdf
id ftfuberlinimp:oai:biocomputing-berlin.de:3025
record_format openpolar
spelling ftfuberlinimp:oai:biocomputing-berlin.de:3025 2023-09-05T13:21:24+02:00 Future changes in North Atlantic winter cyclones in CESM-LE – Part 1: Cyclone intensity, potential vorticity anomalies, and horizontal wind speed Dolores-Tesillos, Edgar Teubler, Franziska Pfahl, Stephan 2022-04-05 application/pdf http://publications.imp.fu-berlin.de/3025/ http://publications.imp.fu-berlin.de/3025/1/Dolores-Tesillos_WCD_2022.pdf en eng EGU http://publications.imp.fu-berlin.de/3025/1/Dolores-Tesillos_WCD_2022.pdf Dolores-Tesillos, Edgar and Teubler, Franziska and Pfahl, Stephan (2022) Future changes in North Atlantic winter cyclones in CESM-LE – Part 1: Cyclone intensity, potential vorticity anomalies, and horizontal wind speed. Weather Clim. Dynam., 3 . pp. 429-448. Applied Mathematics Article PeerReviewed 2022 ftfuberlinimp 2023-08-20T22:25:17Z Strong low-level winds associated with extratropical cyclones can have substantial impacts on society. The wind intensity and the spatial distribution of wind maxima may change in a warming climate; however, the involved changes in cyclone structure and dynamics are not entirely clear. Here, such structural changes of strong North Atlantic cyclones in a warmer climate close to the end of the current century are investigated with storm-relative composites based on Community Earth System Model Large Ensemble (CESM-LE) simulations. Furthermore, a piecewise potential vorticity inversion is applied to associate such changes in low-level winds to changes in potential vorticity (PV) anomalies at different levels. Projected changes in cyclone intensity are generally rather small. However, using cyclonerelative composites, we identify an extended wind footprint southeast of the center of strong cyclones, where the wind speed tends to intensify in a warmer climate. Both an amplified low-level PV anomaly driven by enhanced diabatic heating and a dipole change in upper-level PV anomalies contribute to this wind intensification. On the contrary, wind changes associated with lower- and upper-level PV anomalies mostly compensate for each other upstream of the cyclone center. Wind changes at upper levels are dominated by changes in upper-level PV anomalies and the background flow. Altogether, our results indicate that a complex interaction of enhanced diabatic heating and altered non-linear upper-tropospheric wave dynamics shape future changes in near-surface winds in North Atlantic cyclones. Article in Journal/Newspaper North Atlantic fu_mi_publications (Repository - Freie Universität Berlin, Math Department
institution Open Polar
collection fu_mi_publications (Repository - Freie Universität Berlin, Math Department
op_collection_id ftfuberlinimp
language English
topic Applied Mathematics
spellingShingle Applied Mathematics
Dolores-Tesillos, Edgar
Teubler, Franziska
Pfahl, Stephan
Future changes in North Atlantic winter cyclones in CESM-LE – Part 1: Cyclone intensity, potential vorticity anomalies, and horizontal wind speed
topic_facet Applied Mathematics
description Strong low-level winds associated with extratropical cyclones can have substantial impacts on society. The wind intensity and the spatial distribution of wind maxima may change in a warming climate; however, the involved changes in cyclone structure and dynamics are not entirely clear. Here, such structural changes of strong North Atlantic cyclones in a warmer climate close to the end of the current century are investigated with storm-relative composites based on Community Earth System Model Large Ensemble (CESM-LE) simulations. Furthermore, a piecewise potential vorticity inversion is applied to associate such changes in low-level winds to changes in potential vorticity (PV) anomalies at different levels. Projected changes in cyclone intensity are generally rather small. However, using cyclonerelative composites, we identify an extended wind footprint southeast of the center of strong cyclones, where the wind speed tends to intensify in a warmer climate. Both an amplified low-level PV anomaly driven by enhanced diabatic heating and a dipole change in upper-level PV anomalies contribute to this wind intensification. On the contrary, wind changes associated with lower- and upper-level PV anomalies mostly compensate for each other upstream of the cyclone center. Wind changes at upper levels are dominated by changes in upper-level PV anomalies and the background flow. Altogether, our results indicate that a complex interaction of enhanced diabatic heating and altered non-linear upper-tropospheric wave dynamics shape future changes in near-surface winds in North Atlantic cyclones.
format Article in Journal/Newspaper
author Dolores-Tesillos, Edgar
Teubler, Franziska
Pfahl, Stephan
author_facet Dolores-Tesillos, Edgar
Teubler, Franziska
Pfahl, Stephan
author_sort Dolores-Tesillos, Edgar
title Future changes in North Atlantic winter cyclones in CESM-LE – Part 1: Cyclone intensity, potential vorticity anomalies, and horizontal wind speed
title_short Future changes in North Atlantic winter cyclones in CESM-LE – Part 1: Cyclone intensity, potential vorticity anomalies, and horizontal wind speed
title_full Future changes in North Atlantic winter cyclones in CESM-LE – Part 1: Cyclone intensity, potential vorticity anomalies, and horizontal wind speed
title_fullStr Future changes in North Atlantic winter cyclones in CESM-LE – Part 1: Cyclone intensity, potential vorticity anomalies, and horizontal wind speed
title_full_unstemmed Future changes in North Atlantic winter cyclones in CESM-LE – Part 1: Cyclone intensity, potential vorticity anomalies, and horizontal wind speed
title_sort future changes in north atlantic winter cyclones in cesm-le – part 1: cyclone intensity, potential vorticity anomalies, and horizontal wind speed
publisher EGU
publishDate 2022
url http://publications.imp.fu-berlin.de/3025/
http://publications.imp.fu-berlin.de/3025/1/Dolores-Tesillos_WCD_2022.pdf
genre North Atlantic
genre_facet North Atlantic
op_relation http://publications.imp.fu-berlin.de/3025/1/Dolores-Tesillos_WCD_2022.pdf
Dolores-Tesillos, Edgar and Teubler, Franziska and Pfahl, Stephan (2022) Future changes in North Atlantic winter cyclones in CESM-LE – Part 1: Cyclone intensity, potential vorticity anomalies, and horizontal wind speed. Weather Clim. Dynam., 3 . pp. 429-448.
_version_ 1776202011412267008

Similar Items