High-Resolution Climate Change Impact Analysis on Expected Future Water Availability in the Upper Jordan Catchment and the Middle East

摘要

The impact of climate change on the future water availability of the upper Jordan River (UJR) and its tributaries Dan, Snir, and Hermon located in the eastern Mediterranean is evaluated by a highly resolved distributed approach with the fifth-generation Pennsylvania State University-NCAR Mesoscale Model (MM5) run at 18.6-and 6.2-kmresolution offline coupled with theWater Flow and Balance SimulationModel (WaSiM). The MM5 was driven with NCEP reanalysis for 1971-2000 and with Hadley Centre Coupled Model, version 3 (HadCM3), GCM forcings for 1971-2099. Because only one regional-global climate model combination was applied, the results may not give the full range of possible future projections. To describe the Dan spring behavior, the hydrological model was extended by a bypass approach to allow the fast discharge components of the Snir to enter theDan catchment. Simulation results for the period 1976-2000 reveal that the coupled system was able to reproduce the observed discharge rates in the partially karstic complex terrain to a reasonable extent with the high-resolution 6.2-km meteorological input only. The performed future climate simulations show steadily rising temperatures with 2.2K above the 1976-2000 mean for the period 2031-60 and 3.5K for the period 2070-99. Precipitation trends are insignificant until the middle of the century, although a decrease of approximately 12% is simulated. For the end of the century, a reduction in rainfall ranging between 10% and 35%can be expected.Discharge in the UJR is simulated to decrease by 12%until 2060 and by 26%until 2099, both related to the 1976-2000mean. The discharge decrease is associatedwith a lower number of high river flow years.