Uncertainty of simulated groundwater recharge at different global warming levels: a global-scale multi-model ensemble study

Summarization: Billions of people rely on groundwater as being an accessible source of drinking water and for irrigation, especially in times of drought. Its importance will likely increase with a changing climate. It is still unclear, however, how climate change will impact groundwater systems glob...

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Bibliographic Details
Main Authors: Reinecke Robert(), Müller Schmied Hannes(), Trautmann Tim(), Andersen Lauren Seaby(), Burek Peter(), Floerke Martina(), Gosling Simon N.(), Γρυλλακης Εμμανουηλ(http://users.isc.tuc.gr/~EGrillakis), Gryllakis Emmanouil(http://users.isc.tuc.gr/~EGrillakis), Hanasaki Naota(), Κουτρουλης Αριστειδης(http://users.isc.tuc.gr/~akoutroulis), Koutroulis Aristeidis(http://users.isc.tuc.gr/~akoutroulis), Pokhrel, Yadu(https://viaf.org/viaf/8664159521672533070003), Thiery Wim(), Wada Yoshihide(), Yusuke Satoh(), Döll Petra()
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2023
Subjects:
Climate change
Water
Hydrology
Arctic
Global warming
Online Access:http://purl.tuc.gr/dl/dias/59FE3887-0104-4C21-A84C-01E812C61433
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Summary:Summarization: Billions of people rely on groundwater as being an accessible source of drinking water and for irrigation, especially in times of drought. Its importance will likely increase with a changing climate. It is still unclear, however, how climate change will impact groundwater systems globally and, thus, the availability of this vital resource. Groundwater recharge is an important indicator for groundwater availability, but it is a water flux that is difficult to estimate as uncertainties in the water balance accumulate, leading to possibly large errors in particular in dry regions. This study investigates uncertainties in groundwater recharge projections using a multi-model ensemble of eight global hydrological models (GHMs) that are driven by the bias-adjusted output of four global circulation models (GCMs). Pre-industrial and current groundwater recharge values are compared with recharge for different global warming (GW) levels as a result of three representative concentration pathways (RCPs). Results suggest that projected changes strongly vary among the different GHM–GCM combinations, and statistically significant changes are only computed for a few regions of the world. Statistically significant GWR increases are projected for northern Europe and some parts of the Arctic, East Africa, and India. Statistically significant decreases are simulated in southern Chile, parts of Brazil, central USA, the Mediterranean, and southeastern China. In some regions, reversals of groundwater recharge trends can be observed with global warming. Because most GHMs do not simulate the impact of changing atmospheric CO2 and climate on vegetation and, thus, evapotranspiration, we investigate how estimated changes in GWR are affected by the inclusion of these processes. In some regions, inclusion leads to differences in groundwater recharge changes of up to 100 mm per year. Most GHMs with active vegetation simulate less severe decreases in groundwater recharge than GHMs without active vegetation and, in some regions, ...

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