Insignificant but overlooked : evaporative losses from small reservoirs in southern Europe

Publikationstyp
Conference Paper
Date Issued
2023-05-15
Sprache
English
Author(s)
Aminzadeh, Milad  
Geo-Hydroinformatics B-9  
Friedrich, Noemi
Madani, Kaveh  
Shokri, Nima  
Geohydroinformatik B-9  
TORE-URI
https://hdl.handle.net/11420/45163
Citation
EGU General Assembly (2023)
Contribution to Conference
EGU General Assembly 2023  
Publisher DOI
10.5194/egusphere-egu23-3326
Publisher
Copernicus GmbH
The application of agricultural ponds and small engineered impoundments (often < 0.1 km2 area) is growing globally to support livestock, irrigation, and local municipal and industrial demands during dry spells. However, evaporation diminishes the storage efficiency of these popular but often un-inventoried resources. This study provides a reliable framework for estimating global abundance of small reservoirs and associated evaporative hotspots under different climate change scenarios serving as a basis for future water management and planning. To show the applicability of the proposed method and the utility of the insights it provides, we use satellite data to identify spatio-temporal distribution of small reservoirs (~0.001 to 0.1 km2 area) in southern Europe (Italy, Spain, and Portugal) where irrigation heavily depends on water storage in agricultural ponds. While current estimates of evaporative water losses from small reservoirs often rely on pan measurements or Penman-type approaches with locally calibrated heat and mass transfer coefficients, we employ a physically-based model [Aminzadeh et al., 2018] that accounts for inherent reservoir characteristics (e.g., depth and light attenuation), and radiative energy storage within the water body to quantify energy balance and evaporation dynamics from small water reservoirs. Our preliminary results indicate that cumulative area of small reservoirs in the study area has increased from 518 km2 in 2000 to 614 km2 in 2020 (18.5% increase) with cumulative evaporative losses that may exceed 400 Mm3 during warm months (April to September). Although the estimated evaporative water loss looks negligible relative to the annual agricultural water use (< 2%), its significance could be gauged by societal impacts in these regions with chronic water stress problems or the cost of alternate water sources (e.g., desalinated water).
Subjects
evaporation losses
water reservoirs
DDC Class
550: Earth Sciences, Geology