The temperature of river water plays a crucial role in many physical, chemical, and aquatic ecological processes. Despite the importance of having detailed information on this environmental variable at locally relevant scales (<= 50 km), high-resolution simulations of water temperature on a large scale are currently lacking. We have developed the dynamical 1-D water energy routing model (DynWat), that solves both the energy and water balance, to simulate river temperatures for the period 1960-2014 at a nominal 10-km and 50-km resolution. The DynWat model accounts for surface water abstraction, reservoirs, riverine flooding, and formation of ice, enabling a realistic representation of the water temperature. We present a novel 10-km water temperature data set at the global scale for all major rivers, lakes, and reservoirs. Validated results against 358 stations worldwide indicate a decrease in the simulated root-mean-square error (0.2 degrees C) and bias (0.7 degrees C), going from 50- to 10-km simulations. We find an average global increase in water temperature of 0.16 degrees C per decade between 1960 and 2014, with more rapid warming toward 2014. Results show increasing trends for the annual daily maxima in the Northern Hemisphere (0.62 degrees C per decade) and the annual daily minima in the Southern Hemisphere (0.45 degrees C per decade) for 1960-2014. The high-resolution modeling framework not only improves the model performance, it also positively impacts the relevance of the simulations for regional-scale studies and impact assessments in a region without observations. The resulting global water temperature data set could help to improve the accuracy of decision-support systems that depend on water temperature estimates.
1.Univ Utrecht, Dept Phys Geog, Utrecht, Netherlands 2.Princeton Univ, Dept Civil & Environme Engn, Princeton, NJ 08544 USA 3.Wageningen Univ, Water Syst & Global Change Grp, Wageningen, Netherlands 4.Int Inst Appl Syst Anal, Laxenburg, Austria 5.Deltares, Utrecht, Netherlands
Recommended Citation:
Wanders, Niko,van Vliet, Michelle T. H.,Wada, Yoshihide,et al. High-Resolution Global Water Temperature Modeling[J]. WATER RESOURCES RESEARCH,2019-01-01,55(4):2760-2778