Future changes to the intensity and frequency of short-duration extreme rainfall
Date
2014
Authors
Westra, S.
Fowler, H.
Evans, J.
Alexander, L.
Berg, P.
Johnson, F.
Kendon, E.
Lenderink, G.
Roberts, N.
Editors
Advisors
Journal Title
Journal ISSN
Volume Title
Type:
Journal article
Citation
Reviews of Geophysics, 2014; 52(3):522-555
Statement of Responsibility
S. Westra, H. J. Fowler, J. P. Evans, L. V. Alexander, P. Berg, F. Johnson, E. J. Kendon, G. Lenderink, and N. M. Roberts
Conference Name
Abstract
Evidence that extreme rainfall intensity is increasing at the global scale has strengthened considerably in recent years. Research now indicates that the greatest increases are likely to occur in short-duration storms lasting less than a day, potentially leading to an increase in the magnitude and frequency of flash floods. This review examines the evidence for subdaily extreme rainfall intensification due to anthropogenic climate change and describes our current physical understanding of the association between subdaily extreme rainfall intensity and atmospheric temperature. We also examine the nature, quality, and quantity of information needed to allow society to adapt successfully to predicted future changes, and discuss the roles of observational and modeling studies in helping us to better understand the physical processes that can influence subdaily extreme rainfall characteristics. We conclude by describing the types of research required to produce a more thorough understanding of the relationships between local-scale thermodynamic effects, large-scale atmospheric circulation, and subdaily extreme rainfall intensity.
School/Discipline
Dissertation Note
Provenance
Description
Published online 27 AUG 2014
Access Status
Rights
©2014. American Geophysical Union. All Rights Reserved.