Future aridity under conditions of global climate change

•A comprehensive study on future aridity under climate change condition is performed.•Historical and future simulations of 22 CMIP5 models are used and bias corrected.•For historical period, most GCMs overestimate precipitation and underestimate PET.•Climate change will change the areal extent of ar...

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Bibliographic Details
Published in:Journal of hydrology (Amsterdam) 2017-11, Vol.554, p.451-469
Main Authors: Asadi Zarch, Mohammad Amin, Sivakumar, Bellie, Malekinezhad, Hossein, Sharma, Ashish
Format: Article
Language:English
Subjects:
Aridity
Climate change
CMIP5
Global climate models
Nested bias correction
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Summary:•A comprehensive study on future aridity under climate change condition is performed.•Historical and future simulations of 22 CMIP5 models are used and bias corrected.•For historical period, most GCMs overestimate precipitation and underestimate PET.•Climate change will change the areal extent of aridity zones in the future.•Projected aridity changes are mostly a result of the expected positive PET trends. Global climate change is anticipated to cause some major changes in hydroclimatic conditions around the world. As aridity is a reliable indicator of potential available water, assessment of its changes under future climatic conditions is important for proper management of water. This study employs the UNESCO aridity/humidity index, which is a derivative of precipitation (P) and potential evapotranspiration (PET), for assessment of aridity. Historical (1901–2005) simulations and future (2006–2100) projections of 22 global climate models (GCMs) from the fifth phase of the Coupled Model Intercomparison Project (CMIP5) are studied. The Nested Bias Correction (NBC) approach is used to correct possible biases of precipitation (simulated directly by the GCMs) and PET (estimated by applying FAO56-Penman-Monteith model on simulated parameters of the GCMs). To detect future aridity changes, the areal extents of the aridity zones in the past and future periods as well as through four sub-periods (2006–2025, 2026–2050, 2051–2075, and 2076–2100) of the future are compared. The results indicate that changes in climate will alter the areal extents of aridity zones in the future. In general, from the first sub-period towards the last one, the area covered by hyper-arid, arid, semi-arid, and sub-humid zones will increase (by 7.46%, 7.01%, 5.80%, and 2.78%, respectively), while the area of the humid regions will decrease (by 4.76%), suggesting that there will be less water over the global land area in the future. To understand the cause of these changes, precipitation and PET are also separately assumed to be stationary throughout the four future sub-periods and the resulting aridity changes are then analyzed. The results reveal that the aridity changes are mostly caused by the positive PET trends, even though the slight precipitation increase lessens the magnitude of the changes.
ISSN:0022-1694
1879-2707
DOI:10.1016/j.jhydrol.2017.08.043