More green and less blue water in the Alps during warmer summers

被引:190
作者
Mastrotheodoros, Theodoros [1 ]
Pappas, Christoforos [2 ,3 ]
Molnar, Peter [1 ]
Burlando, Paolo [1 ]
Manoli, Gabriele [1 ,4 ]
Parajka, Juraj [5 ]
Rigon, Riccardo [6 ]
Szeles, Borbala [5 ]
Bottazzi, Michele [6 ]
Hadjidoukas, Panagiotis [7 ]
Fatichi, Simone [1 ]
机构
[1] Swiss Fed Inst Technol, Inst Environm Engn, Zurich, Switzerland
[2] Univ Montreal, Dept Geog, Montreal, PQ, Canada
[3] Univ Montreal, Ctr Etud Nord, Montreal, PQ, Canada
[4] UCL, Dept Civil Environm & Geomat Engn, London, England
[5] Vienna Univ Technol, Ctr Water Resource Syst, Vienna, Austria
[6] Univ Trento, Dept Civil Environm & Mech Engn, DICAM, Trento, Italy
[7] IBM Corp, Zurich Res Lab, Zurich, Switzerland
基金
瑞士国家科学基金会;
关键词
CLIMATE-CHANGE; EUROPEAN ALPS; MODEL; CARBON; PHOTOSYNTHESIS; PRECIPITATION; GROUNDWATER; TEMPERATURE; VARIABILITY; TRENDS;
D O I
10.1038/s41558-019-0676-5
中图分类号
X [环境科学、安全科学];
学科分类号
08 ; 0830 ;
摘要
Mountain forest drought can paradoxically increase evapotranspiration (green water), helping vegetation at the expense of runoff (blue water). This is quantified for the 2003 event in the European Alps, highlighting underappreciated vulnerability of blue-water resources to future warmer summers. Climate change can reduce surface-water supply by enhancing evapotranspiration in forested mountains, especially during heatwaves. We investigate this 'drought paradox' for the European Alps using a 1,212-station database and hyper-resolution ecohydrological simulations to quantify blue (runoff) and green (evapotranspiration) water fluxes. During the 2003 heatwave, evapotranspiration in large areas over the Alps was above average despite low precipitation, amplifying the runoff deficit by 32% in the most runoff-productive areas (1,300-3,000 m above sea level). A 3 degrees C air temperature increase could enhance annual evapotranspiration by up to 100 mm (45 mm on average), which would reduce annual runoff at a rate similar to a 3% precipitation decrease. This suggests that green-water feedbacks-which are often poorly represented in large-scale model simulations-pose an additional threat to water resources, especially in dry summers. Despite uncertainty in the validation of the hyper-resolution ecohydrological modelling with observations, this approach permits more realistic predictions of mountain region water availability.
引用
收藏
页码:155 / +
页数:17
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