Urban Water Storage Capacity Inferred From Observed Evapotranspiration Recession.

Jongen, H J; Steeneveld, G J; Beringer, J; Christen, A; Chrysoulakis, N; Fortuniak, K; Hong, J; Hong, J W; Jacobs, C M J; Järvi, L; Meier, F; Pawlak, W; Roth, M; Theeuwes, N E; Velasco, E; Vogt, R; Teuling, A J

Jongen, H J; Steeneveld, G J; Beringer, J; Christen, A; Chrysoulakis, N; Fortuniak, K; Hong, J; Hong, J W; Jacobs, C M J; Järvi, L; Meier, F; Pawlak, W; Roth, M; Theeuwes, N E; Velasco, E; Vogt, R; Teuling, A J.

Afiliación

Jongen HJ; Hydrology and Quantitative Water Management Wageningen University Wageningen The Netherlands.
Steeneveld GJ; Meteorology and Air Quality Wageningen University Wageningen The Netherlands.
Beringer J; Meteorology and Air Quality Wageningen University Wageningen The Netherlands.
Christen A; School of Agriculture and Environment University of Western Australia Crawley WA Australia.
Chrysoulakis N; Chair of Environmental Meteorology Faculty of Environment and Natural Resources University of Freiburg Freiburg Germany.
Fortuniak K; Foundation for Research and Technology Hellas Institute of Applied and Computational Mathematics The Remote Sensing Lab Heraklion Greece.
Hong J; Department of Meteorology and Climatology Faculty of Geographical Sciences University of Lódz Lódz Poland.
Hong JW; Department of Atmospheric Sciences Yonsei University Seoul South Korea.
Jacobs CMJ; Korea Environment Institute Sejong South Korea.
Järvi L; Wageningen Environmental Research Wageningen University and Research Wageningen The Netherlands.
Meier F; National Institute for Public Health and the Environment (RIVM) Bilthoven The Netherlands.
Pawlak W; Institute for Atmospheric and Earth System Research / Physics University of Helsinki Helsinki Finland.
Roth M; Helsinki Institute of Sustainability Science University of Helsinki Hesinki Finland.
Theeuwes NE; Chair of Climatology Technische Universität Berlin Berlin Germany.
Velasco E; Department of Meteorology and Climatology Faculty of Geographical Sciences University of Lódz Lódz Poland.
Vogt R; Department of Geography National University of Singapore Singapore Singapore.
Teuling AJ; Department of Meteorology University of Reading Reading UK.

Geophys Res Lett ; 49(3): e2021GL096069, 2022 Feb 16.

Article en En | MEDLINE | ID: mdl-35859568

ABSTRACT

ABSTRACT

Water storage plays an important role in mitigating heat and flooding in urban areas. Assessment of the water storage capacity of cities remains challenging due to the inherent heterogeneity of the urban surface. Traditionally, effective storage has been estimated from runoff. Here, we present a novel approach to estimate effective water storage capacity from recession rates of observed evaporation during precipitation-free periods. We test this approach for cities at neighborhood scale with eddy-covariance based latent heat flux observations from 14 contrasting sites with different local climate zones, vegetation cover and characteristics, and climates. Based on analysis of 583 drydowns, we find storage capacities to vary between 1.3 and 28.4 mm, corresponding to e-folding timescales of 1.8-20.1 days. This makes the urban storage capacity at least five times smaller than all the observed values for natural ecosystems, reflecting an evaporation regime characterized by extreme water limitation.

Palabras clave

recession analysis; urban climate

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