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Full Access Variability of Daily Maximum Wind Speed across China, 1975–2016: An Examination of Likely Causes

Journal article
Authors Gangfeng Zhang
Cesar Azorin-Molina
Deliang Chen
J. A. Guijarro
F. Kong
Lorenzo Minola
T. R. McVicar
S.-W. Son
P. Shi
Published in Journal of Climate
Volume 33
Issue 7
Pages 2793-2816
ISSN 0894-8755
Publication year 2020
Published at Department of Earth Sciences
Pages 2793-2816
Language en
Links https://doi.org/10.1175/JCLI-D-19-0...
Keywords Climate change; Annual variations; Seasonal variability; Trends
Subject categories Earth and Related Environmental Sciences

Abstract

Assessing change in daily maximum wind speed and its likely causes is crucial for many applications such as wind power generation and wind disaster risk governance. Multidecadal variability of observed near-surface daily maximum wind speed (DMWS) from 778 stations over China is analyzed for 1975–2016. A robust homogenization protocol using the R package Climatol was applied to the DMWS observations. The homogenized dataset displayed a significant (p < 0.05) declining trend of −0.038 m s−1 decade−1 for all China annually, with decreases in winter (−0.355 m s−1 decade−1, p < 0.05) and autumn (−0.108 m s−1 decade−1; p < 0.05) and increases in summer (+0.272 m s−1 decade−1, p < 0.05) along with a weak recovery in spring (+0.032 m s−1 decade−1; p > 0.10); that is, DMWS declined during the cold semester (October–March) and increased during the warm semester (April–September). Correlation analysis of the Arctic Oscillation, the Southern Oscillation, and the west Pacific modes exhibited significant correlation with DMWS variability, unveiling their complementarity in modulating DMWS. Further, we explored potential physical processes relating to the atmospheric circulation changes and their impacts on DMWS and found that 1) overall weakened horizontal airflow [large-scale mean horizontal pressure gradient (from −0.24 to +0.02 hPa decade−1) and geostrophic wind speed (from −0.6 to +0.6 m s−1 decade−1)], 2) widely decreased atmospheric vertical momentum transport [atmospheric stratification thermal instability (from −3 to +1.5 decade−1) and vertical wind shear (from −0.4 to +0.2 m s−1 decade−1)], and 3) decreased extratropical cyclones frequency (from −0.3 to 0 month decade−1) are likely causes of DMWS change.

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Denna text är utskriven från följande webbsida:
http://www.gu.se/english/research/publication/?publicationId=292939
Utskriftsdatum: 2020-08-10