Volume 14 Issue 1
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Mohie El Din Mohamed Omar, Ahmed Moustafa Ahmed Moussa, Reinhard Hinkelmann. 2021: Impacts of climate change on water quantity, water salinity, food security, and socioeconomy in Egypt. Water Science and Engineering, 14(1): 17-27. doi: 10.1016/j.wse.2020.08.001
Citation: Mohie El Din Mohamed Omar, Ahmed Moustafa Ahmed Moussa, Reinhard Hinkelmann. 2021: Impacts of climate change on water quantity, water salinity, food security, and socioeconomy in Egypt. Water Science and Engineering, 14(1): 17-27. doi: 10.1016/j.wse.2020.08.001
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Impacts of climate change on water quantity, water salinity, food security, and socioeconomy in Egypt

doi: 10.1016/j.wse.2020.08.001
  • a.

    National Water Research Center, Fum Ismailiya Canal, Shoubra El-Kheima 13411, Egypt

  • b.

    International Center for Agricultural Research in the Dry Areas, Cairo 2416, Egypt

  • c.

    Nile Research Institute (NRI), National Water Research Center, El-Qanater 13621, Egypt

  • d.

    Department of Water Engineering, Technische Universität Berlin (TU Berlin) Campus El Gouna, El Gouna 84513, Egypt

More Information
  • Corresponding author: E-mail address: mohie.omar@hotmail.com (Mohie El Din Mohamed Omar)
  • Received Date: 2020-04-16
  • Accepted Date: 2020-08-30
    • Available Online: 2021-03-23
    Abstract
  • Climate change might have direct impacts on water quantity in Egypt and lead to indirect effects on Mediterranean saltwater intrusion to groundwater, which exposes agriculture to vulnerability. This study investigated impacts of climate change on agriculture, with particular regard to food security and socioeconomy, and quantified the effectiveness of cropping pattern adaptation measures by integrating three mathematical models. The BlueM model was used for hydrological simulations of Nasser Lake under flooding scenarios to predict the water supply from the High Aswan Dam. The water and salinity balance (WB-SAL) model was adopted to estimate the water salinity in the Nile Delta. The simulated results from the BlueM and WB-SAL models were integrated with the agricultural simulation model for Egypt (ASME) to project cropping patterns, food security, and socioeconomy throughout the country. The results showed that future climate change will directly affect the total crop area; crop areas for 13 crop types; the self-sufficiency of wheat, rice, cereal, and maize supplies; and socioeconomic indicators. The proposed cropping pattern adaptation measures focus on fixing the crop areas of rice and orchards and providing half of the population with lentils, maize, onion, vegetables, milk, and meat. The adaptation measures have the potential to promote food security without causing deterioration of the socioeconomic situation. However, water availability has much more significant effects on food security and socioeconomy than cropping pattern adaptation measures do. Accordingly, the country should rationalize water use efficiency and increase water supply.

     

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