Publications

Ding, K; Deng, JM; Qin, BQ (2023). The Potential Use of Global Evapotranspiration Products and Models to Estimate Lake Residence Time at Large Scale. WATER RESOURCES RESEARCH, 59(6), e2022WR033148.

Abstract
Water residence time (WRT) is an important lake attribute that influences almost all in-lake nutrient processes. However, information on WRT is often missing or outdated, especially in regions lacking lake inflow or outflow observations. Recent advances in global precipitation and evapotranspiration (ET) products and calibration-free ET models provide the possibility of estimating lake WRT at large scales using estimated runoff from the water balance over the lake catchment. Here, we tested four global ET products and two calibration-free ET models for estimating the mean annual lake outflow and WRT of 67 globally distributed lakes using precipitation inputs from four global precipitation products. The results show that the WRT estimated using the water balance method and global ET estimates generally correlates well with reference WRT (R = 0.90 similar to 0.99) when using reliable precipitation inputs and is slightly more accurate than the estimates from the existing global WRT dataset and methods (R = 0.79 similar to 0.94). Despite the large relative error (RE) in the estimates of the WRT, the RE of the phosphorus retention derived from the estimated WRT is acceptable (RE < +/- 30%). The simplicity and versatility of this approach underline its potential applications to large-scale studies that require a fair estimation of WRT.

DOI:
10.1029/2022WR033148

ISSN:
1944-7973