Siyaset Bilimi ve Uluslararası İlişkiler Bölümü Koleksiyonu
Permanent URI for this collectionhttps://hdl.handle.net/20.500.11779/1939
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Browsing Siyaset Bilimi ve Uluslararası İlişkiler Bölümü Koleksiyonu by browse.metadata.publisher "Cambridge University Press"
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Book Part Better Basin Management With Stakeholder Participation(Cambridge University Press, 2021) Schmandt, Jurgen; Kibaroğlu, AyşegülThis interdisciplinary volume examines how nine arid or semi-arid river basins with thriving irrigated agriculture are doing now and how they may change between now and mid-century. The rivers studied are the Colorado, Euphrates-Tigris, Jucar, Limarí, Murray-Darling, Nile, Rio Grande, São Francisco, and Yellow. Engineered dams and distribution networks brought large benefits to farmers and cities, but now the water systems face multiple challenges, above all climate change, reservoir siltation, and decreased water flows. Unchecked, they will see reduced food production and endanger the economic livelihood of basin populations.Book Part Conclusion: What We Found and What We Recommend(Cambridge University Press, 2021) Kibaroğlu, Ayşegül; Schmandt, Jurgen; Ward, George H.This interdisciplinary volume examines how nine arid or semi-arid river basins with thriving irrigated agriculture are doing now and how they may change between now and mid-century. The rivers studied are the Colorado, Euphrates-Tigris, Jucar, Limarí, Murray-Darling, Nile, Rio Grande, São Francisco, and Yellow. Engineered dams and distribution networks brought large benefits to farmers and cities, but now the water systems face multiple challenges, above all climate change, reservoir siltation, and decreased water flows. Unchecked, they will see reduced food production and endanger the economic livelihood of basin populations.Book Part The Euphrates–Tigris River Basin(Cambridge University Press, 2021) Kibaroğlu, AyşegülThis interdisciplinary volume examines how nine arid or semi-arid river basins with thriving irrigated agriculture are doing now and how they may change between now and mid-century. The rivers studied are the Colorado, Euphrates-Tigris, Jucar, Limarí, Murray-Darling, Nile, Rio Grande, São Francisco, and Yellow. Engineered dams and distribution networks brought large benefits to farmers and cities, but now the water systems face multiple challenges, above all climate change, reservoir siltation, and decreased water flows. Unchecked, they will see reduced food production and endanger the economic livelihood of basin populations. The authors suggest how to respond to these challenges without loss of food production, drinking water, or environmental health. The analysis of the political, hydrological, and environmental conditions within each basin gives policymakers, engineers, and researchers interested in the water/sustainability nexus a better understanding of engineered rivers in arid lands.Book Part Sustainability of Engineered Rivers in Arid Lands(Cambridge University Press, 2021) Kibaroğlu, AyşegülThe water question emerged on the international agenda in the Euphrates–Tigris (ET) basin when the three riparian nations, namely Iraq, Syria, and Turkey, initiated major water and land resources development projects in the late 1960s. The political linkages established between transboundary water issues and nonriparian security issues also exacerbated the disagreements over water sharing and allocation. In 1987 and 1990, two bilateral Euphrates water sharing protocols were negotiated. They are acknowledged by all riparian states as being interim agreements. However, these bilateral accords failed to include basic components of sustainable water resources management, namely water quality management, environmental protection, and stakeholder engagement. In the early 1980s, the Euphrates–Tigris basin countries created an institutional framework, namely the Joint Technical Committee. However, they did not empower the committee with a clear and jointly agreed mandate. Instead, the riparian countries continued unilateral and uncoordinated water and land development ventures. Impacts of climate change add to the already complex list of management shortcomings. The basin is one of the most affected regions. The findings of science project significant decreases in the Tigris and Euphrates flows. Examining the water–food–energy nexus in the ET basin is important because there are serious pressures on the river system due to population growth, agricultural practices, hydropower development, and ecosystem mismanagement. We recommend that transboundary institutions should apply the nexus approach, which helps to identify key development drivers as well as to unpack and clarify the development challenges and necessary tradeoffs in the basin. Sustainability of water resources requires stability, cooperation, and peace. The sub-state level conflicts and illegal control of water resources and water infrastructure in the basin deprive people of access to sufficient clean water, energy, and food resources in Syria and Iraq. The prerequisites for establishing or restoring sustainability in a river basin include stability as well as establishing participatory, transparent, inclusive, and accountable governance structures.
