Selecting representative climate models for climate change impact studies: An advanced envelope-based selection approach

Publication date

2016-10

Authors

Lutz, A. F.ISNI 000000039240889X
ter Maat, Herbert W.
Biemans, Hester
Shrestha, Arun B.
Wester, Philippus
Immerzeel, W.w.ORCID 0000-0002-2010-9543ISNI 0000000108662891

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Document Type

Article
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Abstract

Climate change impact studies depend on projections of future climate provided by climate models. The number of climate models is large and increasing, yet limitations in computational capacity make it necessary to compromise the number of climate models that can be included in a climate change impact study. The selection of climate models is not straightforward and can be done by following different methods. Usually, the selection is either based on the entire range of changes in climatic variables as projected by the total ensemble of available climate models or on the skill of climate models to simulate past climate. The present study combines these approaches in a three‐step sequential climate model selection procedure: (1) initial selection of climate models based on the range of projected changes in climatic means, (2) refined selection based on the range of projected changes in climatic extremes and (3) final selection based on the climate model skill to simulate past climate. This procedure is illustrated for a study area covering the Indus, Ganges and Brahmaputra river basins. Subsequently, the changes in climate between 1971–2000 and 2071–2100 are analysed, showing that the future climate projections in this area are highly uncertain but that changes are imminent.

Keywords

Brahmaputra, Climate change impact studies, Climate model ensemble, Climate model selection, Ganges, GCM, Indus, Atmospheric Science, SDG 13 - Climate Action

Citation

Lutz, A F, ter Maat, H W, Biemans, H, Shrestha, A B, Wester, P & Immerzeel, W W 2016, 'Selecting representative climate models for climate change impact studies : An advanced envelope-based selection approach', International Journal of Climatology, vol. 36, no. 12, pp. 3988-4005. https://doi.org/10.1002/joc.4608