4.7 Article

Wind stilling ceased in the Iberian Peninsula since the 2000s

Journal

ATMOSPHERIC RESEARCH
Volume 272, Issue -, Pages -

Publisher

ELSEVIER SCIENCE INC
DOI: 10.1016/j.atmosres.2022.106153

Keywords

Surface Wind speed; Wind gusts; Iberian Peninsula; Atmospheric circulation; Stilling; Reversal

Funding

  1. FPI fellowship [PRE2019-090148]
  2. Ramon y Cajal fellowship [RYC-2017-22830]
  3. IBER-STILLING project [RTI2018-095749-A-100]
  4. VENTS project [AICO/2021/023]
  5. CSIC Interdisciplinary Thematic Platform (PTI) Clima. (PTI-CLIMA)

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This study analyzes the wind speed changes in Spain and Portugal from 1961 to 2019. It found that the stilling phenomenon has ceased and there might be a weak reversal phenomenon in recent decades. The increase in atmospheric thermal stability and the northward shift of the jet stream are proposed as the main causes of the stilling phenomenon in this region. The study improves our understanding of wind changes and highlights the importance of regional assessments.
This study analyses quality controlled and homogenized near-surface wind speed series (SWS) at 87 meteorological stations distributed across Spain and Portugal for 1961-2019. Multidecadal variability analysis of both mean and gusts SWS confirms for the first time in the region the cessation of the stilling (decline of SWS) and a possible weak reversal phenomenon (increase in SWS) in the last decades, varying its onset from 1999 to 2018, depending on the season and variable. Different atmospheric circulation drivers are evaluated to explain the stilling and reversal phenomena. Among the chosen teleconnection indices, the Western Mediterranean Oscillation index (WeMOi) is the one that presents the highest (positive) correlation with SWS, although the correlation (negative) with the North Atlantic Oscillation index and the Mediterranean Oscillation index in winter is also statistically significant (p < 0.05). Results show that the interannual variability of the WeMOi could exert a strong influence on both the stilling and reversal phenomena, as it displays statistically significant negative trends for 1961-2010 and positive ones (non-significant) for 2010-2019, in agreement with the observed SWS trends. The use of the Jenkinson and Collison weather type classification reveals the marked influence of certain weather types in modulating SWS changes (i.e., west, northwest, and anticyclonic types). We proposed the increase in atmospheric thermal stability and the northward shift of the jet stream as principal causes of the stilling phenomenon in this region. Our results improve our understanding of wind changes, and highlight the importance of regional assessments to discern their socioeconomic and environmental impacts.

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