Water resources of Cyprus under changing climatic conditions
Date Issued
2014
Author(s)
Advisor
Abstract
We estimate future water resources of Cyprus by examining the water fluxes of its most important
catchment, that of Kouris. Water fluxes such as surface runoff, actual evaporation
and recharge are calculated by a combination of a daily rainfall-runoff model, and radiation
transfer models, run with historical and predicted future climatic data. We compute the
catchment discharge for historical periods based on ground-based measurements and MODIS
satellite climatic data at high resolution over the catchment. Climatic change impacts on the
water resources are predicted by ECHAM6, a middle range General Circulated Model. We
used climatic data as input to our models, downscaled to the catchment resolution from two
climate scenarios: the mild RCP2.6 and the extreme RCP8.5, to estimate water resources
by the end of the 21st century. The models show that the present mean annual rainfall resource
of 174 Mm3 will be reduced to 162 Mm3 and 132 Mm3, for the mild and extreme
scenario, respectively. The present mean discharge of 21.5 Mm3 into the Kouris dam from
the catchment will decrease to 16.6 Mm3 and 6.9 Mm3 under the mild and extreme scenario,
respectively. The present mean annual potential evaporation of about 1600 mm will increase
by about 100 mm under the extreme scenario. Today an average of 31 Mm3 of rainfall goes
to surface water and groundwater resources; this will decrease to 25 Mm3 and 15 Mm3 under
the corresponding scenarios. Given that inflow to the Kouris dam represents a significant
fraction of all current inflows to the dams of Cyprus, then an almost 2/3 reduction in these
inflows under the extreme scenario translates to a significantly reduced future water storage
on Cyprus that will require the planning of larger engineering projects for desalination and
recycling, for example, to meet its future water resource demands.
catchment, that of Kouris. Water fluxes such as surface runoff, actual evaporation
and recharge are calculated by a combination of a daily rainfall-runoff model, and radiation
transfer models, run with historical and predicted future climatic data. We compute the
catchment discharge for historical periods based on ground-based measurements and MODIS
satellite climatic data at high resolution over the catchment. Climatic change impacts on the
water resources are predicted by ECHAM6, a middle range General Circulated Model. We
used climatic data as input to our models, downscaled to the catchment resolution from two
climate scenarios: the mild RCP2.6 and the extreme RCP8.5, to estimate water resources
by the end of the 21st century. The models show that the present mean annual rainfall resource
of 174 Mm3 will be reduced to 162 Mm3 and 132 Mm3, for the mild and extreme
scenario, respectively. The present mean discharge of 21.5 Mm3 into the Kouris dam from
the catchment will decrease to 16.6 Mm3 and 6.9 Mm3 under the mild and extreme scenario,
respectively. The present mean annual potential evaporation of about 1600 mm will increase
by about 100 mm under the extreme scenario. Today an average of 31 Mm3 of rainfall goes
to surface water and groundwater resources; this will decrease to 25 Mm3 and 15 Mm3 under
the corresponding scenarios. Given that inflow to the Kouris dam represents a significant
fraction of all current inflows to the dams of Cyprus, then an almost 2/3 reduction in these
inflows under the extreme scenario translates to a significantly reduced future water storage
on Cyprus that will require the planning of larger engineering projects for desalination and
recycling, for example, to meet its future water resource demands.
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