Nehir yankolları sedimentlerinden mevsimsel bazlı nikel ve krom metallerinin taşınımı
Year 2018,
Volume: 9 Issue: 1, 529 - 534, 05.04.2018
Ahmet Çelebi
,
Bülent Şengörür
,
Behiye Betül Adar
Abstract
İçme suyu havzaları ve kaynakları gün geçtikçe daha değerli ve önemli olmaktadır. Bu sınırlı kaynakları korumamız ve geliştirmemiz gerekmektedir. Nehirlerin anakol su kalitesi üzerine yankollar üzerinden çeşitli etki ve kirlilik birikimleri olabilmektedir. Çalışma alanı olarak seçilen Melen Nehri, milyonlarca insanın gelecekteki su ihtiyacını karşılayacak önemde ve lokasyondadır. Çalışma boyunca nehir ve yankolları belirli sediment kirleticileri (nikel ve krom) tüm mevsimlerce izlenmiştir. Yankolların her birinin kendine özgü kirletici birikimi olduğu ve anakolu büyük ölçüde etkilediği sonuçları ortaya çıkarılmıştır.
References
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Year 2018,
Volume: 9 Issue: 1, 529 - 534, 05.04.2018
Ahmet Çelebi
,
Bülent Şengörür
,
Behiye Betül Adar
References
- Aksoy, G., (2005). “Gediz nehri ağzındaki su, sediment ve planktondaki ağır metal düzeylerinin ölçülmesi, Celal Bayar Üniversitesi, Fen Bilimleri Enstitüsü.”
- Ankley, G. T., Di Toro, D. M., Hansen, D. J., Berry, W. J., (1996). “Technical Basis and Proposal for Deriving Sediment Quality Criteria for Metals.” Environmental Toxicology Chemistry, 15, 2056–2066.
- Bradl, H. B., (2005). “Heavy Metals in the Environment, Elsevier Academic Press First Edition, Netherlands.”
- Davies, C. A. L., Tomlinson, K., Stephenson, T., (1991). “Heavy Metals in River Tees Estuary Sediments.” Environmental Technology 12 (11), 961–972.
- Dogan, E., Sengorur, B., Koklu, R., (2009). “Modeling biological oxygen demand of the Melen River in Turkey using an artificial neural network technique.” Journal of Environmental Management, 90 1229–1235.
- Düzce Valiliği, (2004). “Düzce İli 1/100 000 Ölçekli Çevre Düzeni Planı – Araştırma raporu.”
- Gonzalez, A. E., Rodriguez, M. T., Sanchez, J. C. J., Espinosa, A. J. F., De La Rosa, F. J. B., (2000). “Assessment of Metals in Sediments in a Tributary of Guadalquivir River (Spain). Heavy Metal Partitioning and Relation Between the Water and Sediment System.” Water Air Soil Pollution, 121 (1–4), 11–29.
- Klavins, M., Briede, A., Rodinov, V., Kokorite, I., Parele, E., KIAVİNA, (2000). “Heavy Metal in Rivers of Latvia.” The Science of The Total Environment, Vol. 262, 175-183.
- Küçüksezgin, F., Kontas, A., Altay, O., Uluturhan, E., Darılmaz, E., (2005). ”Assesment of Marine Pollution in Izmir Bay Nutrient, Heavy Metal and Total Hydrocarbon Concentrations.” Environment International, 1-15.
- Parida, B.K., Cggibba, I.M., Nayyar, V.K., (2003). “Influence of nickel contaminated soils on fenugreek (Trigonella corniculata L.) growth and mineral composition.” Scientia Horticulturae, 98: 113–119.
- Sharma, V. K., Rhhudy, K. B., Koening, R., Vazquez, F. G., (1999). “Metals in Sediments of the Upper Languna Madra.” Marine Pollution Bulletin, 38 (12), 1221–1226.
- Singh, M., (2001). “Heavy Metal Pollution in Freshly Deposited Sediments of the Yamuna River (the Ganga river tributary).” A Case Study from Delhi and Agra Urban Centres India. Environmental Geology, 40 (6), 664–671.
- Srivastava, S. K., Gupta, V. K., Anupam, Mohan, D., (1994). “Status of Some Toxic Heavy Metal Ions in the Upper Reaches of River Gnages, Indian.” Journal of the Chemical Society, 71, 29–34.
- Tien, C.J., (2002). “Biosorption of metal ions by freshwater algae with different surface characteristics.” Procee Biochemistry, 38: 605-615.
- Welch, R., (1981). “The biological significance of nickel.” Journal of Plant Nutrition, 3: 345–356.
- Zayed, A.M., Terry, N., (2003). “Chromium in the environment: factors affecting biological remediation.” Plant and Soil, 249: 139–156.