HATAY HARBİYE KAYNAK SUYU’NUN FİZİKOKİMYASAL ÖZELLİKLERİ

Hatay’ın Antakya merkezinde bulunan Harbiye kaynak suyunun su kalitesiözelliklerini belirlemek amacıyla gerçekleştirilen bu çalışmaya Nisan 2003tarihinde başlanılmış ve 12 ay boyunca yürütülmüş olup, su örnekleri aylık olaraktoplanmıştır. Su kalitesi parametrelerinden çözünmüş oksijen, pH, sıcaklık,tuzluluk, kimyasal oksijen ihtiyacı (KOİ), biyolojik oksijen ihtiyacı (BOİ), toplamalkalinite, toplam sertlik, askıda katı madde (AKM), amonyak azotu, nitrit, nitrat,fosfat, sülfit, sülfat, klor, potasyum, sodyum ve silis analizleri yapılmıştır. Yapılançalışma sonucunda Harbiye kaynak suyunun su kalitesi parametrelerinin aylaragöre değişimleri belirlenmiştir. Çalışma sonucunda kaynak suyunun alabalıkçiftliği için uygun kalite de olduğu anlaşılmıştır.

Anahtar Kelimeler:

Su Kalitesi, Kaynak Suyu, Harbiye, Antakya, Hatay

PHYSICO-CHEMICAL CHARACTERISTICS OF HATAY HARBIYE SPRING WATER

This study, purposing to determine water qualitycharacteristics of Harbiye spring water, located in Antakya, Hatay,were begun on April 2003 and was carried out 12 months by takingwater samples monthly. Water quality parameters of dissolvedoxygen, pH, temperature, salinity, chemical oxygen demand (COD),biological oxygen demand (BOD), total alkalinity and hardness, totaldissolved solids, ammonia, nitrite, nitrate, phosphate, sulphite,sulphate, chloride, potassium, sodium and silica analyses were done.Change in water quality parameters of Harbiye spring water bymonths were determined. At the and of the study, it is understoodthat water quality of the spring water is adequate for trout farm.

Keywords:

Water Quality, Spring Water, Harbiye, Antakya, Hatay,

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[1] Zalidis, G, Stamatiadis, S., Takavakoglou V., Eskridge, K., Misopolinos, N., 2002. Impacts of Agricultural Practices on Soil and Water Quality in the Mediterranean Region and Proposed Assessment Methodology. Agriculture, Ecosystems and Environment 88:137-146.
[2] Boyd, C. E. and Tucker, C. S.,1992. Water quality and pond soil analyses for Aquaculture Alabama Agricultural Experiment Station, Auburn University, Alabama, USA.
[3] SPSS, 1997. SigmaStat statistical software. SPSS, Chicago, İllinois, USA
[4] Boyd, C. E., 1990. Water Quality in Ponds for Aquaculture, Auburn, AL: Auburn University. Alabama Agricultural Experiment Station. Pres. 482 p.
[5] Karakoç, G., Erkoç, F. Ü., Katırcıoğlu, H., 2003. Water Quality and impacts of Pollution Sources for Eymir and Mogan Lakes (Turkey), Environment International 29:21-27.
[6] Boyd, C. E., Tucker, C. S., 1998. Pond Aquaculture Water Quality Management. Kluwer Academic Publishers. 700p.
[7] Tommasso, J. R., 1994. The toxicity of nitrogenous wastes to aquaculture animals. Rewiews of Fisheries Science 2:291-314.
[8] Emerson, K., Russo, R. C., Lund, R. E., and Thurston, R. V., 1975. Aqueous ammonia equilibrium calculations: Effect of pH and temperature. Journal of the Fisheries Research Board of Canada 32:2379-2388.
[9] Tepe, Y. and Boyd, C.E., 2003. A Reassessment of Nitrogen Fertilization for Sunfish Ponds, Journal of World Aquaculture Society, 34, No. 4:505-511.
[10] Boyd, C. E., 1998. Water Quality for Pond Aquaculture, Alabama Agricultural Experiment Station, Research and Development Series No.43