Climate change impact on flood and extreme precipitation increases with water availability
TLDR
An intensification of extreme precipitation and flood events over all climate regions which increases as water availability increases from wet to dry regions and spatial and seasonal water availability becomes stronger as events become less extreme.Abstract:
The hydrological cycle is expected to intensify with global warming, which likely increases the intensity of extreme precipitation events and the risk of flooding. The changes, however, often differ from the theorized expectation of increases in water-holding capacity of the atmosphere in the warmer conditions, especially when water availability is limited. Here, the relationships of changes in extreme precipitation and flood intensities for the end of the twenty-first century with spatial and seasonal water availability are quantified. Results show an intensification of extreme precipitation and flood events over all climate regions which increases as water availability increases from wet to dry regions. Similarly, there is an increase in the intensification of extreme precipitation and flood with the seasonal cycle of water availability. The connection between extreme precipitation and flood intensity changes and spatial and seasonal water availability becomes stronger as events become less extreme.read more
Citations
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Observed heavy precipitation increase confirms theory and early model
E. M. Fischer,R. Knutti +1 more
TL;DR: In this article, the authors use the intensification of heavy precipitation as a counterexample, where seemingly complex and potentially computationally intractable processes manifest themselves to first order in simple ways.
Robust future precipitation declines in CMIP5 largely reflect the poleward expansion of model subtropical dry zones
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Extreme value analysis dilemma for climate change impact assessment on global flood and extreme precipitation
TL;DR: In this paper, a comparative analysis between the BM and POT methods on future climate change impact on global flood and extreme precipitation is performed using 24 CMIP5 general circulation models (GCMs), while the flood analysis is based on a multi-model ensemble of 20 members including five global impact models forced by four GCMs.
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Understanding human vulnerability to climate change: A global perspective on index validation for adaptation planning.
Joern Birkmann,Ali Jamshed,Joanna M. McMillan,Daniel Feldmeyer,Edmond Totin,William Solecki,Zelina Zaiton Ibrahim,Debra Roberts,Rachel Bezner Kerr,Hans Otto Poertner,Mark Pelling,Riyanti Djalante,Matthias Garschagen,Walter Leal Filho,Debarati Guha-Sapir,Andrés Alegría +15 more
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Understanding human vulnerability to climate change: A global perspective on index validation for adaptation planning
TL;DR: In this article , the authors examined different options to validate global vulnerability assessments in terms of their internal and external validity, focusing on two global vulnerability indicator systems used in the WorldRiskIndex and the INFORM index.
References
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