Sauter T (2020)
Publication Type: Journal article
Publication year: 2020
Book Volume: 24
Pages Range: 2003-2016
Article Number: 20032020
Journal Issue: 4
DOI: 10.5194/hess-24-2003-2020
Patagonia is thought to be one of the wettest regions on Earth, although available regional precipitation estimates vary considerably. This uncertainty complicates understanding and quantifying the observed environmental changes, such as glacier recession, biodiversity decline in fjord ecosystems and enhanced net primary production. The Patagonian Icefields, for example, are one of the largest contributors to sea-level rise outside the polar regions, and robust hydroclimatic projections are needed to understand and quantify current and future mass changes. The reported projections of precipitation from numerical modelling studies tend to overestimate those from in situ determinations, and the plausibility of these numbers has never been carefully scrutinized, despite the significance of this topic to our understanding of observed environmental changes. Here I use simple physical arguments and a linear model to test the plausibility of the current precipitation estimates and its impact on the Patagonian Icefields. The results show that environmental conditions required to sustain a mean precipitation amount exceeding 6.09±0.64 m yr-1 are untenable according to the regional moisture flux. The revised precipitation values imply a significant reduction in the surface mass balance of the Patagonian Icefields compared to previously reported values. This yields a new perspective on the response of Patagonia's glaciers to climate change and their sea-level contribution and might also help reduce uncertainties in the change of other precipitation-driven environmental phenomena..
APA:
Sauter, T. (2020). Revisiting extreme precipitation amounts over southern South America and implications for the Patagonian Icefields. Hydrology and Earth System Sciences, 24(4), 2003-2016. https://doi.org/10.5194/hess-24-2003-2020
MLA:
Sauter, Tobias. "Revisiting extreme precipitation amounts over southern South America and implications for the Patagonian Icefields." Hydrology and Earth System Sciences 24.4 (2020): 2003-2016.
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