Ensemble modeling of global lake evaporation under climate change

•Future global lake evaporation changes are larger than estimated by previous studies.•Global lake evaporation varied considerably across the lake-climate model ensemble.•Uncertainty in lake evaporation was mostly explained by the choice of GCM. Global projections of lake evaporation are typically b...

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Veröffentlicht in:	Journal of hydrology (Amsterdam) 2024-03, Vol.631, p.130647, Article 130647
Hauptverfasser:	La Fuente, Sofia, Jennings, Eleanor, Lenters, John D., Verburg, Piet, Tan, Zeli, Perroud, Marjorie, Janssen, Annette B.G., Woolway, R. Iestyn
Format:	Artikel
Sprache:	eng
Schlagworte:	climate change ENVIRONMENTAL SCIENCES evaporation hydrology Inland waters ISIMIP Lake modelling lakes Multi-model prediction Uncertainty variance warm season
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container_title	Journal of hydrology (Amsterdam)
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creator	La Fuente, Sofia Jennings, Eleanor Lenters, John D. Verburg, Piet Tan, Zeli Perroud, Marjorie Janssen, Annette B.G. Woolway, R. Iestyn
description	•Future global lake evaporation changes are larger than estimated by previous studies.•Global lake evaporation varied considerably across the lake-climate model ensemble.•Uncertainty in lake evaporation was mostly explained by the choice of GCM. Global projections of lake evaporation are typically based on simulations using single mechanistic models. However, because of its complex interactions with various lake physical properties, environmental and anthropogenic drivers, lake evaporation is highly variable and sensitive to the choice of model used. In this study, we present a multi-model analysis to investigate differences across global simulations of lake evaporation during the warm-season using three different lake models driven by outputs from four general circulation models (GCM) (i.e. 12 model combinations in total) for historic and future scenarios. Our results suggest substantial differences among lake-climate model simulations of lake evaporation. These differences varied throughout the 20th and 21st century, with model driver data explaining 74% of the variance in future projections of warm-season lake evaporation. Our projections indicate that, by the end of the 21st century (2070–2099), global annual lake evaporation rates will increase by 10–27% under Representative Concentration Pathways (RCPs) 2.6–8.5. We highlight the importance of using a multi-model approach for the prediction of future global lake evaporation responses to climate change.
doi_str_mv	10.1016/j.jhydrol.2024.130647
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In this study, we present a multi-model analysis to investigate differences across global simulations of lake evaporation during the warm-season using three different lake models driven by outputs from four general circulation models (GCM) (i.e. 12 model combinations in total) for historic and future scenarios. Our results suggest substantial differences among lake-climate model simulations of lake evaporation. These differences varied throughout the 20th and 21st century, with model driver data explaining 74% of the variance in future projections of warm-season lake evaporation. Our projections indicate that, by the end of the 21st century (2070–2099), global annual lake evaporation rates will increase by 10–27% under Representative Concentration Pathways (RCPs) 2.6–8.5. 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subjects	climate change ENVIRONMENTAL SCIENCES evaporation hydrology Inland waters ISIMIP Lake modelling lakes Multi-model prediction Uncertainty variance warm season
title	Ensemble modeling of global lake evaporation under climate change
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