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Wyświetlanie 1-3 z 3
Tytuł:
Analysis of the situation of the Euphrates-Tigris-Shatt Al Arab river system and possible solutions of the devastation of the ecosystem
Autorzy:
Kordic, M.
Milankovic, M.
Powiązania:
https://bibliotekanauki.pl/articles/184275.pdf
Data publikacji:
2016
Wydawca:
Akademia Górniczo-Hutnicza im. Stanisława Staszica w Krakowie. Wydawnictwo AGH
Tematy:
international waters
water management
transboundary rivers
Opis:
International waters are the most problematic area of water management because there comes to a collision of rights between the riparians, and the most complicated is the problem of trans-boundary rivers (Stevanović 2011). The Euphrates-Tigris-Shatt Al Arab river system is the largest water resource in the Western Asia with a topographic catchment of more than 900,000 km 2 from the Taurus-Zagros Mountain Range to the Persian Gulf and is populated by around 54 million people. The riparians: Turkey, Syria and Iraq have different views on the resources of these rivers. Turkey doesn’t agree with the term “sharing waters”. They see it as inadequate. For them the Euphrates is a trans-boundary river that is under their sovereignty as long as it is within its territory. Iraq and Syria take it as an “international river” that should be treated as a shared entity. According to Turkey the Euphrates and Tigris form a single water basin, but Iraq and Syria consider them as two separate basins (UN-ESCWA and BGR, 2013). Turkey says that in order to reach an agreement on allocation, negotiations should include all available water resources, but Syria and Iraq disagree. At the 1997 UN Convention on the Law of Non-navigational Use of International Watercourses Turkey was the only Euphrates Basin country that voted against. If they had signed, that could give riparians a veto right over their development plans. In 1987 Damask and Ankara signed a protocol, which guaranteed 500 m 3•s -1 of flow volume in the Euphrates River to Syria, which was not respected during the filling of Ataturk Dam in 1990. In 1977 Turkey initiated the South-eastern Anatolia Project (GAP in original) to harness the water of the Tigris and the Euphrates for energy and agricultural production thus providing an economic boost to south-eastern Anatolia by creating 4 million new jobs. The flow of the river has been cut in half by 2010 on the border with Syria and by 2/3 for Iraq since the development of the GAP project. In Iraq this flow reduction is viewed as a national crisis that will have serious consequences (Issa et al. 2014). The project covers an area of 74,000 km 2 and is populated by around 7 million people. When completed, there will be 22 dams and 19 hydroelectric power plants on these rivers. The plan is to produce 27,367 GWh of hydroelectric energy per year and to double irrigable farmland to 1.8 million ha (UN-ESCWA & BGR 2013). Today almost half of GAP has been fulfilled. This led to an increase in salinity and serious changes of the ecosystem and river flow regime. These caused a discord between riparians, NGOs and activists worldwide. International experts think that GAP is going to consume more than 50% of the Euphrates and about 14% of the Tigris. To verify this view, two periods of monitoring were selected. The first period is from 1938–1974 and it represents the natural flow of the Euphrates River before the construction of the Keban Dam in Turkey and Lake Assad in Syria and the second is from 1974–1998 as the first phase of the evolving infrastructure on the Euphrates basin. The average flow was measured in Jarablat (Syria) and for the first period is around 950 m 3•s −1 and for the second around 800 m 3•s −1 , than Hit (Iraq) decreased from 970 m 3• s −1 to 720 m 3• s −1 and Hindijah (Iraq) from 630 m 3•s −1 to 470 m 3 •s −1 (UN-ESCWA & BGR 2013). We can see a pattern and a decrease in river flow volume by around 150 m 3• s −1 . Of course, regulation of the Euphrates can protect downstream countries from floods and droughts. The effects of water pollution are mostly visible downstream in Syria because Turkey diverts water from the main course of the Euphrates at Lake Ataturk. The water goes through the Urfa tunnels to the Urfa-Harran agricultural area in the upper Jallab/Balikh and Khabour sub-basins. The return flows from irrigation are large in quantity but poor in quality and they enter Syria mostly through the Jallab River near Tell Abyad and enter the Euphrates through the Balikh River around 200 km from the Syrian-Turkey border. This shows us why the Euphrates water quality has remained almost unaffected by the agricultural development in Turkey on the Syrian-Turkey border. There should come to a conjoined look from the riparians on the rights of the ecosystem and the serious damage that is being done to it and the legal obligations of the riparians between themselves, for the sake of the greater good. This is extremely difficult especially now with the rising political problems between Turkey and Syria. International experts in all fields relevant to this problem should meet and discuss the matter, and enforce laws that will stick and solve the issue. The most important issue should be the environment but we should not look the other way for the needs of the riparians and their development too. So very important would be research and evaluation of the potential of all available resources and their combined usage. There should be a good monitoring network of the underground and surface waters and calculation of the regime, balance and reserves and the amounts of water that is needed by riparians, and determining the connection of overall water flow because of the circulation of pollution. Also, an assessment of geothermal potential of the area and its possible usage considering the North and East Anatolian Fault Zone should be made. For example, for the production of electricity solar or geothermal energy could be used, as well as the energy of the wind and the energy of biomass should be utilised, separately or concurrently. If there are underground waters available, a variety of methods could be used, such as “AGRONET” and drip irrigation technique to decrease the usage of surface waters and their pollution. Polluted waters could be used for energy production by constructing a hydroelectric power plant in the area where polluted waters are flowing and there could also be a water treatment plant erected. Polluted waters should be monitored and diverted into one watercourse, which should be controlled by a hydro-isolator securing the ground beneath and on the sides of this new course.
Źródło:
Geology, Geophysics and Environment; 2016, 42, 1; 83-84
2299-8004
2353-0790
Pojawia się w:
Geology, Geophysics and Environment
Dostawca treści:
Biblioteka Nauki
Artykuł
Tytuł:
Sustainable use and protection of groundwater resources – transboundary water management – Belarus, Poland, Ukraine
Autorzy:
Nałęcz, T.
Powiązania:
https://bibliotekanauki.pl/articles/2063007.pdf
Data publikacji:
2010
Wydawca:
Państwowy Instytut Geologiczny – Państwowy Instytut Badawczy
Tematy:
transboundary basin
water management
international cooperation
Bug river basin
Opis:
In 2006 Science for Peace and Security NATO Pilot Study project “Sustainable Use and protection of Groundwater Resources – Transboundary Water Management” has been launch. This project focuses on development of international co-operation on implementation of water quality assessment and water quality monitoring and assessment as important issues in relation to sustainable land management. It is also a scientific platform for experts from Belarus, Poland and Ukraine as well as from other countries for exchange ideas about water management with special emphasis on groundwater and its protection. The project initiates trilateral cooperation on monitoring, contamination migration and water management issues. The main interest of the project focused on the Bug River Basin, which is divided into three riparian countries Belarus, Poland and Ukraine as well as is an eastern border basin of European Union.
Źródło:
Biuletyn Państwowego Instytutu Geologicznego; 2010, 441 Hydrogeologia z. 10; 107--112
0867-6143
Pojawia się w:
Biuletyn Państwowego Instytutu Geologicznego
Dostawca treści:
Biblioteka Nauki
Artykuł
Tytuł:
Wybrane problemy gospodarki górskiej w Sudetach ze szczególnym uwzględnieniem współpracy transgranicznej
Selected problems of mountain economy in the Sudeten with special reference to transboundary cooperation
Autorzy:
Fatyga, J.
Powiązania:
https://bibliotekanauki.pl/articles/338866.pdf
Data publikacji:
2004
Wydawca:
Instytut Technologiczno-Przyrodniczy
Tematy:
gospodarka wodna
ochrona środowiska
problemy krajowe
problemy transgraniczne
Sudety
sieć dróg
zagospodarowanie przestrzenne
country problems
environmental protection
roads network
spatial structure
Sudeten
transboundary problems
water management
Opis:
Układ funkcjonalno-przestrzenny Sudetów jest kształtowany w granicach trzech państw: Polski, Czech i Niemiec. W pracy przedstawiono najważniejsze problemy całego regionu w zakresie ochrony środowiska, gospodarki wodnej, obszarów chronionych, sieci dróg i przejść granicznych oraz zagospodarowania przestrzennego. Uwzględniono założenia Unii Europejskiej w stosunku do obszarów górskich i regionów przygranicznych oraz założenia polityki kraju i województwa dolnośląskiego w stosunku do polskiej części Sudetów. Główne problemy Sudetów omówiono w skali regionu z uwzględnieniem współpracy transgranicznej oraz w skali kraju dla ich polskiej części. Stwierdzono, że na obecnym etapie najważniejsze problemy do rozwiązania to ochrona przeciwpowodziowa, ochrona powietrza i wód płynących oraz budowa i modernizacja sieci dróg z zachowaniem zasad ograniczających ich uciążliwość w stosunku do ochrony środowiska i krajobrazu.
Spatial and functional system of the Sudeten is formed in three countries: Poland , Czech Republic and Germany. This paper presents most important problems of the whole region in environmental protection, water management, protected areas, road network, border checkpoints and spatial management. Recommendations of the European Union for mountain regions and borderlands and political principles of the country and of Lower Silesian voivodship in respect to Polish part of the Sudeten were considered. Main problems of the Sudeten were described in the regional scale with the consideration of transboundary cooperation and in the country scale for Polish part of the mountains. Most important problems to be solved now appear to be: flood control, air and running water protection, construction and modernization of roads in a way to restrict their environmental impact.
Źródło:
Woda-Środowisko-Obszary Wiejskie; 2004, T. 4, z. 2b; 37-56
1642-8145
Pojawia się w:
Woda-Środowisko-Obszary Wiejskie
Dostawca treści:
Biblioteka Nauki
Artykuł
    Wyświetlanie 1-3 z 3

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