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Warianty tytułu
Języki publikacji
Abstrakty
Efforts on the management of water resources, especially irrigation and drainage, in arid-semiarid areas are extremely important for the sustainability of irrigated agriculture. Groundwater level should be constantly monitored and kept at the desired level in the project which is achieve the expected benefits from investments made for this goal. The research was done in right bank irrigation area which is located in Southeast Turkey, Suruc Plain in 2017. The spatial and temporal fluctuations of the groundwater table depth and groundwater salinity were measured in the course of five-month-periods; from July to October. The results of depth (m) and salinity (µmhos cm-1) of the groundwater observation wells were mapped using geographical information system (GIS). The results showed that groundwater was not found in many observation wells, while groundwater depth reached to a critical threshold level (2 m (risk free for drainage) from July to October in the study area. The groundwater salinity was found to be less than 2250 µmhos cm-1 at the research area. Depending on the research findings, it was noted that there were not any waterlogging, drainage and salinity problems stemming from the rise of groundwater table due to short-term irrigated agriculture in the plain.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
263--278
Opis fizyczny
Bibliogr. 32 poz., rys., tab.
Twórcy
autor
- Kahramanmaras Sutcu Imam University, Institute of Science and Technology 46050 Kahramanmaras-Turkey
autor
- Kahramanmaras Sutcu Imam University, Faculty of Agriculture, 46050 Kahramanmaras-Turkey, Phone + 90 532 651 75 47; + 90 344 300 20 73
Bibliografia
- Aragues, R., Urdanoz, V., Cetin, M., Kirda, C., Daghari, H., Ltifi, W., Lahlou, M., Douaik, A. (2011). Soil salinity related to physical soil characteristics and irrigation management in four Mediterranean irrigation districts. Agric. Water Manage., 98: 959-966.
- Aslan, A.S.T., Gundogdu, K.S. (2007). Mapping multi-year groundwater depth patterns from time-series analyses of seasonally lowest depth-to-groundwater maps in irrigation areas. J. Environ. Stud., 16(2): 183.
- Bahceci, I. (2008). Drenaj Mühendisliği. Harran Üniversitesi Ziraat Fakültesi, Tarımsal Yapılar ve Sulama Bölümü, 2008(1): 340.
- Cemek, B., Guler, M., Arslan, H. (2006). Determination of salinity distribution using GIS in Bafra plain right land irrigated area. Atatürk Üniv. Ziraat Fak. Derg., 37: 63-72.
- Cetin, M., Ozcan, H. (1999). Aşağı Seyhan Ovasında sulanan ve sulanmayan alanlarda meydana gelen sorunlar ve çözüm önerileri. Turkish Journal of Agriculture and Forestry, 23: 207-217.
- Cetin, M., Kirda, C. (2003). Spatial and temporal changes of soil salinity in a cotton field irrigated with low-quality water. J. Hyd., 272: 238-249.
- Cetin, M., Diker, K. (2003). Assessing drainage problem areas by GIS: A case study in the Eastern Mediterranean Region of Turkey. Irrig. Drainage, 52: 343-353.
- Cetin, M., Kırda, C., Efe, H., Topçu, S. (2007). Aşağı Seyhan Ovasında taban suyu derinliği sulama ilişkilerinin coğrafi bilgi sistemi ile irdelenmesi. V. Ulusal Hidroloji Kongresi Bildiriler Kitabı, Orta Doğu Teknik Üniversitesi, Ankara, Turkey, pp: 419-428.
- Cetin, M., Ibrikci, H., Kirda, C., Kaman, H., Karnez, E., Ryan, J., Topcu, S., Oztekin, M.E., Dash, J.P., Sarangi, A., Singh, D.K. (2010). Spatial variability of groundwater depth and quality parameters in the national capital territory of Delhi. Environmental Management, 45: 640-650.
- Dinka, M.O., Dilsebo, H. (2010). Characterization of the responses of groundwater monitoring piezometers installed at WSSE. 2nd biannual conference of Ethiopian sugar industry on theme ‘sugarcane production & climate’. Adama, Ethiopia.
- Dinka, M.O. (2010). Analyzing the extents of Basaka Lake expansion and soil and water quality status of Matahara irrigation scheme. Awash Basin (Ethiopia). PhD Dissertation submitted to BOKU University, Vienna, Austria.
- Dinka, M.O., Loiskandl, W., Fürst, J., Ndambuki, F.M. (2013). Seasonal behavior and spatial fluctuations of groundwater levels in long-term irrigated agriculture: the case of a sugar estate. Pol. J. Environ. Stud. Vol., 22(5): 1325-1334.
- Douaik, A., Van Meirvenne, M., Toth, T. (2006). Temporal stability of spatial patterns of soil salinity determined from laboratory and field electrolytic condictivity. Arid Land Researc and Management, Vol., 20(1): 1-13.
- DSI. (1982). ASO IV. Merhale Projesi Planlama Drenaj Raporu, Ankara.
- DSI. (2005). Taban suyu izleme rehberi. İşletme Şube Müdürlüğü, Ankara.
- Gucdemir, I., Sonmez, B. (2008). Toprak analizi yapmanın önemi. Tarım Türk Dergisi, 12: 28-30.
- Hecker, S., Harty, M.H., Christenson G.E. (1998). Shallow ground water and related hazards in Utah. Utah geological and mineral survey. Utah Department of Natural Resources Technical Publication 110. 606 Black Hawk Way. Salt ölake City, Utah.
- Helmuth, J., Johnson, D., Karklins, S., Lindorff, D. (1997). (Eds.). Status of groundwater quantity in Wisconsin. Wisconsin Department of Natural Resources. PUBL-DG-043-97.
- Hu, K., Li, B., Chen, D. (2000). Spatial variability of the regional shallow groundwater depth and water quality. Advances in Water Science, 11(4): 408-414.
- Hu, K., Chen, H., Zhang, Y., Li, B., Chen, D. (2009). Spatial distribution of shallow groundwater depth, total dissolved solid and nitrate pollution. Transactions of the Chinese Society of Agricultural Engineering, 25(Supp.1): 21-25.
- Kahlown, M.A., Ashraf, M., Zia-ul-Haq. (2005). Effect of shallow groundwater table on crop water requirements and crop yield. Agricultural Water Management, 76(1): 24-35.
- Kaman, H., Cetin M., C. Kirda. (2011). Monitoring and assessing of changes in soil and groundwater salinity of Yemisli Irrigation District of Turkey using low quality irrigation water. Sci. Res. Essays, 6: 1388-1396.
- Kaman, H., Cetin, M., Kirda, C., Kurunc, A., Sesveren, S. (2013). Using electromagnetic induction technique to determine soil salinity within layers of varying depths: A case study in the Mediterranean farmlands, Turkey. Fres. Env. Bull., 22: 2554-2566.
- Kaman, M., Cetin, M., Kirda, C. (2016). Spatıal and temporal evaluation of depth and salinity of the groundwater in a large irrigated area in Southern Turkey. Pak. J. Agri. Sci., Vol. 53(2): 473-480.
- Karatas, B.S., Camoglu, G.S., Olgen, M.K. (2013). Spatiotemporal trend analysis of the depth and salinity of the groundwater, using geostatistics integrated with GIS, of the Menemen Irrigation System, Western Turkey. Ekoloji, 22: 36-47.
- Kaul, H.A., Sopan, T., Ingle, S.T. (2011). Severity classification of waterlogged areas in irrigation projects of Jalgaon district, Maharashtra. J. Appl. Tech. Environ. Sani., 1(3): 221.
- Kirmizitas, H. (2003). Akiferlerin hidrolojik ve geometrik özellikleri dikkate alınmadan yapılan sondaj çalışmaları sonucu yok olan akiferler üzerine bir araştırma. Örnek: Suruç Ovası. DSİ Teknik Bülteni, 98.
- Qadir, M., Oster, J.D. (2004). Crop and irrigation management strategies for salinesodic soils and waters aimed at environmentally sustainable agriculture. Science of The Total Environment, 323(1-3): 1-19.
- Szabolcs, I. (1991) Desertification and Salinization. In: Choukr-Allah, R., Ed., Plant Salinity Research. New Challenges. Conference on Agriculture Management of SaltAffected Areas, Ajgadir, pp: 10-15.
- Thales. (2005). Magallen explorist 600 Reference Manual, Thales S.A., USA.
- Van Hoorn, J.W., Van Alphen, J.G. (1994). Salinity control. In: Ritzema, H. P. (Ed.) Drainage principles and applications, 2nd edition. ILRI Publication 16. Wageningen, The Netherlands, ILRI, pp. 553-600.
- Wylie, B.K., Shaffer, M.J., Brodahl, M.K., Dubois, D., Wagner, D.G. (1994). Predicting spatial distributions of nitrate leaching in Northeastern Clorado. Journal of Soil and Water Conservation, 49: 288-293.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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