Combined Impacts of Medium Term Socio-Economic Changes and Climate Change on Water Resources in a Managed Mediterranean Catchment

Anastassi Stefanova,Cornelia Hesse,Valentina Krysanova

doi:10.3390/w7041538

Anastassi Stefanova, Cornelia Hesse + Show 1 more

Open Access

https://doi.org/10.3390/w7041538

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Journal: Water	Publication Date: Apr 10, 2015
Citations: 34	License type: CC BY 4.0

Affiliation: Potsdam Institute for Climate Impact Research

Abstract

Climate projections agree on a dryer and warmer future for the Mediterranean. Consequently, the region is likely to face serious problems regarding water availability and quality in the future. We investigated potential climate change impacts, alone (for three scenario periods) and in combination with four socio-economic scenarios (for the near future) on water resources in a Mediterranean catchment, whose economy relies on irrigated agriculture and tourism. For that, the Soil and Water Integrated Model (SWIM) was applied to the drainage area of the Mar Menor coastal lagoon, using a set of 15 climate scenarios and different land use maps and management settings. We assessed the long-term average seasonal and annual changes in generated runoff, groundwater recharge and actual evapotranspiration in the catchment, as well as on water inflow and nutrients input to the lagoon. The projected average annual changes in precipitation are small for the first scenario period, and so are the simulated impacts on all investigated components, on average. The negative trend of potential climate change impacts on water resources (i.e., decrease in all analyzed components) becomes pronounced in the second and third scenario periods. The applied socio-economic scenarios intensify, reduce or even reverse the climate-induced impacts, depending on the assumed land use and management changes.

Highlights

The climate of the Mediterranean region is especially vulnerable to potential changes in the global circulation processes [1]
Before applying the climate scenarios in Soil and Water Integrated Model (SWIM) simulations for impact assessment, we evaluated their ability in simulating the present climate as well as their climate change signals, considering temperature and precipitation
We assessed the combined impacts of medium term socio-economic changes and climate change on water resources in the Mar Menor catchment by applying the eco-hydrological model SWIM driven by a set of 15 regional climate scenarios, and in combination with a set of four different management settings and land use maps

Summary

Introduction

The climate of the Mediterranean region is especially vulnerable to potential changes in the global circulation processes [1]. It is not surprisingly, that Giorgi [2] identified the region of the Mediterranean as a primary climate change “Hot-Spot” based on projections of Phase 3 of the Coupled. The agreement among climate models for the Mediterranean region is considerably strong compared to other regions in the world [4] and so are the trends for temperature and precipitation changes. A decrease in water availability will in addition enhance the competition for water between economic sectors and by that the vulnerability of the Mediterranean countries to changes in climate [11]

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Conclusion