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A Study About of Heavy Metal Pollution in the Büyük Menderes River in Turkey

Yıl 2019, Sayı: 15, 571 - 578, 31.03.2019
https://doi.org/10.31590/ejosat.533632

Öz

This study has been conducted to find out the heavy metal pollution of Büyük Menderes River in Aydın. Water samples having been taken from 8 stations of the Buyuk Menderes for 13 years were examined in terms of Cu, Zn, Mn, Pb, Cd and Fe. The values were measured as the lowest in the Yenipazar Bridge (10.02±9.86) and the highest in the Sarayköy Bridge (18.46±17.48) for copper; the lowest in the Aydın Bridge (32.07±18.14) and the highest in the Sarayköy Regulator (65.19±55.54) for zinc; the lowest in the Adıgüzel Dam (41.61±35.38) and the highest in the Sarayköy Regulator (148.36±105.02) for manganese; the lowest in the Adıgüzel Dam (4.01±3.96) and the highest in the Yenipazar Bridge (9.95±8.62) for lead; the lowest in the Söke Regulator (2.37±2.18) and the highest in the Sarayköy Bridge (2.61±2.18) for cadmium; the lowest in the Adıgüzel Dam (77.21±72.47) and the highest in the Söke Regulator (330.07±306.24) for iron. Finally, it has been observed that Büyük Menderes River is not under the threat of pollution.

Kaynakça

  • Adamiec, E.H.R.E. (2002). Distribution of pollutants in the Odra river system. Part IV. Heavymetal distribution in water of the upper and middle Odra river, 1998–2000. Polish Journal of Environmental Studies, 11(6), 669–673.
  • Akobundu, A. (2012). Quality Assessment of Aba River Using Heavy Metal Pollution Index, American Journal of Environmental Engineering, 2(1):45-49.
  • Aktar, M.W., Paramasivam, M., Ganguly, M., Purkait, S., & Sengupta, D. (2010). Assessment and occurrence of various heavy metals in surface water of Ganga river around Kolkata: a study for toxicity and ecological impact. Environ Monit Assess, 160(1–4):207–213.
  • Alam, M.G.M., Tanaka, A., Stagnitti, F., Allison, G., & Maekawa, T. (2001). Observations on the effects of caged carp culture on water and sediment metal concentrations in lake Kasumigaura, Japan. Ecotoxicology and Environmental Safety, 48, 107-115.
  • Apha, (2005). Standard methods for the examination of water and wastewater. American Public Health Association, Washington
  • Ariman, S., Cuce, H., Özbayrak, E., Bakan, G., & Büyükgüngör, H. (2007). Heavy Metal Pollution in Water and Sediment Averages of Central Black Sea Coastline Rivers. 7th National Environmental Engineering Congress. Life, Environment and Technology, İzmir.
  • Arslan, N.T.C., Çiçek, A., & Köse, E. (2011). Determination of some metal concentrations in water and sediment samples in Yedigöller region (Kütahya). Review of Hydrobiology, 4(1), 17–28.
  • Chatterjee, S. K., Bhattacharjee, I., & Chandra, G. (2010). Water quality assessment near an industrial site of Damodar River, India. Environ. Monitor. Assess., 161 (1-4), 177-189 (13 pages).
  • Fifield, F.W., & Haines, P.J. (1997). Environmental Analytical Chemistry. Blackie Academic and Professional, London.
  • Hassan, F.M., Saleh, M.M., & Salman, J.M. (2010). A study of physicochemical parameters and nine heavy metals in the Euphrates River, Iraq. E-J. Chem., 7(3):685-692.
  • Hayati, A., Tiantono, N., Mirza, M.F., Putra, I.D.S., Abdizen, M.M., Seta, A.R., Solikha, B.M., Fu'adil, M.H., Putranto, T.W.C., Affandi, M., & Rosmanida .(2017). Water quality and fish diversity in the Brantas River, East Java, Indonesia, Journal of Bıologıcal researches , 22:43-49.
  • Herojeet, R., Rishi, M. S., & Kishore, N. (2015). Integrated approach of heavy metal pollution indices and complexity quantification using chemometric models in the Sirsa Basin, Nalagarh Valley, Himachal Pradesh, India. Chinese Journal of Geochemistry, 34(4), 620–633.
  • Kahvecioglu, O., Kartal, G., Güven, A., & Timur, S. (2008). The Environmental Effects of Metals-I, Lecture Notes of Metallurgical and Materials Engineering Department of Istanbul Technical University.
  • Koc, C. (2008). The Effects of environment and ecology projects on lake management and water quality. Environmental Monitoring & Assessment, 146, 394–409.
  • Manoj, K.P.P., & Chaudhury, S. (2012). Study of heavy metal contamination of the river water through index analysis approach and environmetrics. Bulletin of Environment, Pharmacology and Life Sciences, 1(10), 7–15.
  • Nair, I.V., Singh, K., Arumugam, M., Gangadhar, K. & Clarson, D. (2010). Trace metal quality of Meenachil River at Kottayam, Kerala (India) by principal component analysis. World Appl. Sci. J., 9(10):1100-1107.
  • Obaroh, I.O., Abubakar, U., Haruna, M.A., & Elinge, M.C. (2015). Evaluation of some Heavy Metals Concentration in River Argungu. Journal of Fisheries and Aquatic Science, 10: 581-586.
  • Reza, R., & Singh, G. (2010). Heavymetal contamination and its indexing approach for river water. International Journal of Environment Science and Technology, 7(4), 785–792
  • Sharma, S.K. (2015). Heavy Metals in Water: Presence, Removal and Safety, Royal Society of Chemistry, Cambridge, UK, 357 pages
  • Tam, N.F.Y., & Wong, YS. (2000). Spatial variation of heavy metals in surface sediments of Hong Kong mangrove swamps. Environmental Pollution, 110:195-205.
  • Touraj, N. (2015). An index approach to metallic pollution in river waters. International Journal of Environmental Research, 9(1), 385–394.
  • Va´zquez-Sauceda, M.L., Aguirre-Guzma´n, G., Sa´nchez-Martı´nez, J.G., & Pe´rez-Castan˜eda, R. (2011). Cadmium, Lead and Zinc concentrations in water, sediment and Oyster (Crassostrea virginica) of San Andres Lagoon, Mexico. Bull Environ Contam Toxicol 86:410–414.
  • Who, (1993). Guidelines for Drinking Water Quality. World Health Organization. Geneva, Swilerland.

Türkiye’de Büyük Menderes Nehri'nde Ağır Metal Kirliliği Üzerine Bir Çalışma

Yıl 2019, Sayı: 15, 571 - 578, 31.03.2019
https://doi.org/10.31590/ejosat.533632

Öz

Bu araştırma Büyük Menderes
Nehri’nde ağır metal kirliliğini saptamak amacı ile yapılmıştır. Büyük Menderes
nehrinde seçilen 8 istasyondan 13 yıl boyunca alınan su örneklerinde Cu, Zn,
Mn, Pb, Cd ve Fe parametreleri değerlendirilmiştir. Bakır Yenipazar Köprüsü'nde
(10.02 ± 9.86) en düşük, Sarayköy Köprüsü'nde (18.46 ± 17.48) en yüksek; çinko Aydın
köprüsünde en düşük (32.07 ± 18.14),  Sarayköy Regülatöründe en yüksek (65.19 ±
55.54); mangan Adıgüzel Barajı'nda en düşük (41.61 ± 35.38), Sarayköy
Regülatöründeki en yüksek (148.36 ± 105.02);  kurşun, Adıgüzel Barajı'nda en düşük (4.01 ±
3.96), Yenipazar Köprüsü'nde en yüksek (9.95 ± 8.62); kadmiyum Söke
Regülatörü'nde en düşük (2.37 ± 2.18), Sarayköy Köprüsü'nde en yüksek (2.61 ±
2.18); demir Adıgüzel Barajı'nda en düşük (77.21 ± 72.47), Söke Regülatöründe
en yüksek (330.07 ± 306.24) olarak tespit edilmiştir. Sonuç olarak Büyük Menderes Nehri’nin kirlilik
tehdidi altında olmadığı saptamıştır. 

Kaynakça

  • Adamiec, E.H.R.E. (2002). Distribution of pollutants in the Odra river system. Part IV. Heavymetal distribution in water of the upper and middle Odra river, 1998–2000. Polish Journal of Environmental Studies, 11(6), 669–673.
  • Akobundu, A. (2012). Quality Assessment of Aba River Using Heavy Metal Pollution Index, American Journal of Environmental Engineering, 2(1):45-49.
  • Aktar, M.W., Paramasivam, M., Ganguly, M., Purkait, S., & Sengupta, D. (2010). Assessment and occurrence of various heavy metals in surface water of Ganga river around Kolkata: a study for toxicity and ecological impact. Environ Monit Assess, 160(1–4):207–213.
  • Alam, M.G.M., Tanaka, A., Stagnitti, F., Allison, G., & Maekawa, T. (2001). Observations on the effects of caged carp culture on water and sediment metal concentrations in lake Kasumigaura, Japan. Ecotoxicology and Environmental Safety, 48, 107-115.
  • Apha, (2005). Standard methods for the examination of water and wastewater. American Public Health Association, Washington
  • Ariman, S., Cuce, H., Özbayrak, E., Bakan, G., & Büyükgüngör, H. (2007). Heavy Metal Pollution in Water and Sediment Averages of Central Black Sea Coastline Rivers. 7th National Environmental Engineering Congress. Life, Environment and Technology, İzmir.
  • Arslan, N.T.C., Çiçek, A., & Köse, E. (2011). Determination of some metal concentrations in water and sediment samples in Yedigöller region (Kütahya). Review of Hydrobiology, 4(1), 17–28.
  • Chatterjee, S. K., Bhattacharjee, I., & Chandra, G. (2010). Water quality assessment near an industrial site of Damodar River, India. Environ. Monitor. Assess., 161 (1-4), 177-189 (13 pages).
  • Fifield, F.W., & Haines, P.J. (1997). Environmental Analytical Chemistry. Blackie Academic and Professional, London.
  • Hassan, F.M., Saleh, M.M., & Salman, J.M. (2010). A study of physicochemical parameters and nine heavy metals in the Euphrates River, Iraq. E-J. Chem., 7(3):685-692.
  • Hayati, A., Tiantono, N., Mirza, M.F., Putra, I.D.S., Abdizen, M.M., Seta, A.R., Solikha, B.M., Fu'adil, M.H., Putranto, T.W.C., Affandi, M., & Rosmanida .(2017). Water quality and fish diversity in the Brantas River, East Java, Indonesia, Journal of Bıologıcal researches , 22:43-49.
  • Herojeet, R., Rishi, M. S., & Kishore, N. (2015). Integrated approach of heavy metal pollution indices and complexity quantification using chemometric models in the Sirsa Basin, Nalagarh Valley, Himachal Pradesh, India. Chinese Journal of Geochemistry, 34(4), 620–633.
  • Kahvecioglu, O., Kartal, G., Güven, A., & Timur, S. (2008). The Environmental Effects of Metals-I, Lecture Notes of Metallurgical and Materials Engineering Department of Istanbul Technical University.
  • Koc, C. (2008). The Effects of environment and ecology projects on lake management and water quality. Environmental Monitoring & Assessment, 146, 394–409.
  • Manoj, K.P.P., & Chaudhury, S. (2012). Study of heavy metal contamination of the river water through index analysis approach and environmetrics. Bulletin of Environment, Pharmacology and Life Sciences, 1(10), 7–15.
  • Nair, I.V., Singh, K., Arumugam, M., Gangadhar, K. & Clarson, D. (2010). Trace metal quality of Meenachil River at Kottayam, Kerala (India) by principal component analysis. World Appl. Sci. J., 9(10):1100-1107.
  • Obaroh, I.O., Abubakar, U., Haruna, M.A., & Elinge, M.C. (2015). Evaluation of some Heavy Metals Concentration in River Argungu. Journal of Fisheries and Aquatic Science, 10: 581-586.
  • Reza, R., & Singh, G. (2010). Heavymetal contamination and its indexing approach for river water. International Journal of Environment Science and Technology, 7(4), 785–792
  • Sharma, S.K. (2015). Heavy Metals in Water: Presence, Removal and Safety, Royal Society of Chemistry, Cambridge, UK, 357 pages
  • Tam, N.F.Y., & Wong, YS. (2000). Spatial variation of heavy metals in surface sediments of Hong Kong mangrove swamps. Environmental Pollution, 110:195-205.
  • Touraj, N. (2015). An index approach to metallic pollution in river waters. International Journal of Environmental Research, 9(1), 385–394.
  • Va´zquez-Sauceda, M.L., Aguirre-Guzma´n, G., Sa´nchez-Martı´nez, J.G., & Pe´rez-Castan˜eda, R. (2011). Cadmium, Lead and Zinc concentrations in water, sediment and Oyster (Crassostrea virginica) of San Andres Lagoon, Mexico. Bull Environ Contam Toxicol 86:410–414.
  • Who, (1993). Guidelines for Drinking Water Quality. World Health Organization. Geneva, Swilerland.
Toplam 23 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Cengiz Koç 0000-0001-7310-073X

Ebru Yılmaz 0000-0003-1905-1265

Yayımlanma Tarihi 31 Mart 2019
Yayımlandığı Sayı Yıl 2019 Sayı: 15

Kaynak Göster

APA Koç, C., & Yılmaz, E. (2019). A Study About of Heavy Metal Pollution in the Büyük Menderes River in Turkey. Avrupa Bilim Ve Teknoloji Dergisi(15), 571-578. https://doi.org/10.31590/ejosat.533632