Glacier Contributions to River Discharge During the Current Chilean Megadrought
Abstract
The current Chilean megadrought has led to acute water shortages in central Chile since 2010. Glaciers have provided vital fresh water to the region's rivers, but the quantity, timing and sustainability of that provision remain unclear. Here we combine in-situ, remote sensing and climate reanalysis data to show that from 2010 to 2018 during the megadrought, unsustainable imbalance ablation of glaciers (ablation not balanced by new snowfall) strongly buffered the late-summer discharge of the Maipo River, a primary source of water to Santiago. If there had been no glaciers, water availability would have been reduced from December through May, with a 31 +/- 19% decrease during March. Our results indicate that while the annual contributions of imbalance ablation to river discharge during the megadrought have been small compared to those from precipitation and sustainable balance ablation, they have nevertheless been a substantial input to a hydrological system that was already experiencing high water stress. The water-equivalent volume of imbalance ablation generated in the Maipo Basin between 2010 and 2018 was 740 x 10(6) m(3) (19 +/- 12 mm yr(-1)), approximately 3.4 times the capacity of the basin's El Yeso Reservoir. This is equivalent to 14% of Santiago's potable water use in that time, while total glacier ablation was equivalent to 59%. We show that glacier retreat will exacerbate river discharge deficits and further jeopardize water availability in central Chile if precipitation deficits endure, and conjecture that these effects will be amplified by climatic warming. Show more
Permanent link
https://doi.org/10.3929/ethz-b-000576940Publication status
publishedExternal links
Journal / series
Earth's FutureVolume
Pages / Article No.
Publisher
Wiley-BlackwellSubject
glaciers; megadrought; Chile; streamflow; sustainability; water supplyFunding
181115 - next-generation Modelling of the biosphere - Including New Data streams and optimality approaches (SNF)
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