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Trace Metal-Induced Ecological Risk Analysis of Sarıçay River Sediments, Çanakkale, NW Turkey

Yıl 2022, Cilt: 9 Sayı: 2, 45 - 53, 02.06.2022
https://doi.org/10.30897/ijegeo.989882

Öz

Metals have come to the fore among the pollutants monitored in aquatic ecosystems in recent years. Fresh waters especially constitute a "hot spot" due to their limited reserves. In order to analyze the sources of metal-induced pollution, ecological risk level and pollutants of the Sarıçay River passing through the city of Çanakkale, sediment samples were collected from 26 stations and element analyses were carried out in ICP-MS. Anthropogenic effects and the risks they cause were determined by calculating the enrichment factor, geoaccumulation index, and potential ecological risk from the obtained data. Anthropogenic enrichment was detected for Cr, Ni, Pb, Au, Ag and Ba, Bi, Tl, Na, Zn, Mg, K, As, Sb, and Mn with the largest amount being Cd. The level of enrichment varies from moderate to very high. According to the results of risk analysis, a moderate risk for Cd was determined and a very high risk for Ni and Pb. Agricultural activities, atmospheric deposition and mineral deposits in the basin were identified as the major sources from the multivariate statistical analysis performed to determine the main sources of metal inflows.

Destekleyen Kurum

Canakkale Onsekiz Mart University

Proje Numarası

SBA-2018-2718

Teşekkür

This study is supported by the Administration of the Scientific Research Projects of Çanakkale Onsekiz Mart University (Grant No. SYL-2018-2718).

Kaynakça

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Yıl 2022, Cilt: 9 Sayı: 2, 45 - 53, 02.06.2022
https://doi.org/10.30897/ijegeo.989882

Öz

Proje Numarası

SBA-2018-2718

Kaynakça

  • Abonyi, A., Kiss. K.T., Hidas, A., Borics, G., Varbiro, G. and Acs, E. (2019). Cell size decrease and altered size structure of phytoplankton constrain ecosystem functioning in the middle Danube River over multiple decades. Ecosystems. DOI: 10.1007/S10021-019-00467-6.
  • Akcay, H., Oguz, A. and Karapire, C. (2003). Study of heavy metal pollution and speciation in Buyuk Menderes and Gediz river sediments. Water Research, 37: 813-822.
  • Akinci, G., Guven, D.E. and Keles Ugurlu, S. (2013). Assessing pollution in Izmir Bay from rivers in western Turkey: heavy metals. Environmental Science Processes and Impacts, 15:2252-2262.
  • Aksoy, T., Aydın, M., Tuncel, O. and Oner, O. (1997). Saricay’ın kurtarılması. Yerleşim ve Cevre Sorunları Sempozyumu: Canakkale Ili, Dokuz Eylul Universitesi, Cevre Muhendisligi Bolumu.
  • Alkan, Y. 2020. User focused alternative design model for Sarıçay channel and landscaping in terms of sports and health components: Çanakkale, Turkey, Environment, Development and Sustainability, https://doi.org/10.1007/s10668-020-00912-w.
  • Belis, C.A., Pisoni, E., Degrauwe, B., Peduzzi, E., Thunis, P., Monforti-Ferrario, F. and Guizzardi, D. (2019). Urban pollution in the Danube and Western Balkans regions: the impact of major PM 2.5 sources. Environmental International, 133. DOI: 10.1016/j.envint.2019.105158.
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  • Bergamaschi, L., Rizzo, E., Valcuvia, M.G., Verza, G., Profumo, A., and Gallorini, M. (2002). Determination of trace elements and evaluation of the enrichment factors in Himalayan Lichens. Environmental Pollution, 120:137-144.
  • Cai, L., Xu, Z., Bao, P., He, M., Dou., Chen, L. et al. (2015). Multivariate and geostatistical analyses of the spatial distribution and source of arsenic and heavy metals in the agricultural soils in Shunde, Southeast China. Journal of Geochemical Exploration, 148, 189-195. htpp://doi.org/10.1016/j.gexplo.2014.09.010.
  • Cempel, M., and Nikel, G. (2006). Nickel: A Review of Its Sources and Environmental Toxicology. Polish Journal of Environmental Studies, 15(3), 375–382.
  • Dousova, B., Lhotka, M., Buzek, F., Cejkova, B., Jackova, I., Bednar, V., and Hajek, P. (2020). Environmental interaction of antimony and arsenic near busy traffic nodes. The Science of the Total Environment, 702, 134642. https://doi.org/10.1016/j.scitotenv.2019.134642
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  • El Bouraie, M.M., El Barbay, A.A., Yehia, M.M. and Motawea, E.A. (2010). Heavy concentrations in surface river water and bed sediments at Nile Delta in Egypt. Sou, 61(1):1-12.
  • Engin, M.S., Uyanik, A., Cay, S. and Kir, I. (2016). Evaluation of trace metals in sediment, water, and fish (Mugil cephalus) of Black Sea coast of Turkey. Human and Ecological Risk Assessment: An International Journal, 22(1):241-250.
  • Esen, E., Kucuksezgin, F. and Uluturhan, E. (2010). Assessment of trace metal pollution in surface sediments of Nemrut Bay, Aegean Sea. Environ Monit Assess, 160:257-266.
  • Farkas, A., Erratico, C. and Vigano, L. (2007). Assessment of the environmental significance of heavy metal pollution in surface sediments of the River Po. Chemosphere, 68:761-768, DOI: 10.1016/j.chemosphere.2006.12.099.
  • Förstner, U. and Prosi, F. (1979). Heavy metal pollution in freshwater ecosystems. Proceedings of Course Held at the Joint Research Centre of the Commission of the European Communities, Ispra, Italy, 5-9 June 1978, DOI: 10.1016/B978-0-08-023442-7.50011-6.
  • Gedik, K. and Boran, M. (2013). Assessment of metal accumulation and ecological risk around Rize Harbor, Turkey (Southeast Black Sea) Affected by Copper Ore Loading Operations by using different sediment indexes. Bull Environ Contam Toxicol, 90:176-181.
  • Gümgüm, B., Ünlü, E., Tez, Z. and Gülsün, Z. (1994). Heavy metal pollution in water, sediment and fish from the Tigris River in Turkey. Chemosphere, 29(1): 111-116.
  • Guo, W., Liu, X., Liu, Z. and Li, G. (2010). Pollution and Potential Ecological Risk Evaluation of Heavy Metals in the Sediments around Dongjiang Harbor, Tianjin. Procedia Environmental Sciences, 2:729–36, DOI: 10.1016/j.proenv. 2010.10.084.
  • Haciyakupoglu, S., Esen, A.N., Erenturk, S., Okka, M., Genceli, M., Mercimek, M., Genceli, E., Yusan, S., Gur Filiz, F., Olgen, K., Camtakan, Z., Kiziltas, S. and Tanbay, T. (2015). Determining distribution of heavy metal pollution in terms of ecological risk levels in soil of industrially intensive areas around Istanbul. Toxicological and Environmental Chemistry, 97(1):62-75.
  • Hawkes, J.S. (1997). Heavy metals. J Chem Edu, 74:1369-1374.
  • Hakanson, L. (1980). An ecological risk index for aquatic pollution control: a sedimentological approach. Water Research, 14:975-1001, DOI: 10.1016/0043-1354(80)90143-8.
  • Izah, S.C., Bassey, S.E. and Ohimain, E.I. (2017). Geo-accumulation index, enrichment factor and quantification of contamination of heavy metals in soil receiving cassava mill effluents in a rural community in the Niger Delta Region of Nigeria. Molecular Soil Biology, 8(2):7-20, DOI: 10.5376/msb.2017.08.0002.
  • Jarup, L. (2003). Hazards of heavy metal contamination. British Medical Bulletin, 68:167-182.
  • Kapkaç, F. (2007). Çimento Çeşitleri, Özellikleri, Hammaddeleri Ve Üretim Aşamaları, MTA Doğal Kaynaklar ve Ekonomi Bülteni, 223-232.
  • Karbowska, B. (2016). Presence of thallium in the environment: sources of contaminations, distribution and monitoring methods. Environmental Monitoring and Assessment, 188(11), 640. https://doi.org/10.1007/s10661-016-5647-y
  • Karthikeyan, P., Vennila, G., Venkatachalapathy, R., Subramani, T., Prakash, R., and Aswini, M. K. (2018). Assessment of heavy metals in the surface sediments of the Emerald Lake using of spatial distribution and multivariate techniques. Environmental Monitoring and Assessment, 190(11), 668. https://doi.org/10.1007/s10661-018-7037-0
  • Kocum, E. and Dursun, O. (2007). Monitoring of phytoplankton biomass and nutrients in a polluted stream. Int. J. Environment and Pollution, 29(4):505-17.
  • Köleli̇, N., and Kantar, Ç. (2005). Fosfat Kayası, Fosforik Asit ve Fosforlu Gübrelerdeki Toksik Ağır Metal (Cd, Pb, Ni, As) Konsantrasyonu. Ekoloji, 14(55), 1–5.
  • Lasheen, M.R. and Ammar, N.S. (2009). Speciation of some heavy metals in River Nile sediments, Cairo, Egypt. Environmentalist, 29:8-16, DOI: 10.1007/s10669-008-9175-3.
  • Li, Y., Qu, X. Zhang, M., et al. (2018). Anthropogenic impact and ecological risk assessment of Thallium and Cobalt in Poyang Lake using the geochemical baseline. Water, 10, 1703; DOI: 10.3390/w10111703.
  • Mendoza, H.H., Lugo, M.J.R., Guzman, E.T.R., Gutierrez, L.R.R. and Ketterer, M.E. (2018). Heavy metals monitoring in sediments from Lerna River in West-Central Mexico. American Journal of Analytical Chemistry, 9:77-87, DOI: 10.4236/ajac.2018.92007.
  • Mishra, S., and Bharagava, R. N. (2016). Toxic and genotoxic effects of hexavalent chromium in environment and its bioremediation strategies. Journal of Environmental Science and Health. Part C, Environmental Carcinogenesis & Ecotoxicology Reviews, 34(1), 1–32. https://doi.org/10.1080/10590501.2015.1096883
  • Muller, G. (1969). Index of geoaccumulation in sediments of the Rhine River. Geojournal, 108-118.
  • Nagajyoti, P.C., Lee, K.D. and Sreekanth, T.V.M. (2010). Heavy metals, occurrence and toxicity for plants: a review. Environ Chem Lett, 8:199-216, DOI: 10.1007/s10311-010-0297-8.
  • Ozseker, K., Eruz, C. and Cılız, S. (2013). Determination of copper pollution and associated ecological risk in coastal sediments of Southeastern Black Sea Region, Turkey. Bull Environ Contam Toxicol, 91:661-666.
  • Öztürk, B. and Erginal, A.E. (2001). Sarıçay havzasının jeomorfolojisi. Türk Coğrafya Dergisi, 36:49-86. Pandey, P., Khillare, P.S. and Kumar, K. (2011). Assessment of organochlorine pesticide residues in the surface sediments of River Yamuna in Delhi, India. Journal of Environmental Protection, 2:511-524, DOI: 10.4236/jep.2011.25059.
  • Paul, D. (2017). Research on heavy metal pollution of river Ganga: A review. Annals of Agrarian Science, 30:1-9, DOI: 10.1016/j.aasci.2017.04.001.
  • Pekey, H., Karakaş, D., Ayberk, S., Tolun, L. and Bakoğlu, M. (2004). Ecological risk assessment using trace elements of Izmit Bay (Northeastern Marmara Sea) Turkey. Marine Bulletin, 48:946-953.
  • Polat, F., Akın, Ş., Yıldırım, A. and Dal, T. (2015). The effects of point pollutants-originated heavy metals (leads, copper, iron, and cadminium) on fish living Yeşilırmak River, Turkey. Toxicology and Industrial Health, 1-12.
  • Quinton, J.N. and Catt, J.A. (2007). Enrichment of heavy metals in sediment resulting from soil erosion on agricultural fields. Environ. Sci. Technol. 41(10): 3495-3500.
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  • Rusina, T.P., Smedes, F., Brboric, M. and Vrana, B. (2019). Investigating levels of organic contaminants in Danube River sediments in Serbia by multi-ratio equilibrium passive sampling. Science of the Total Environment, 696. DOI: 10.1016/j.scitotenv.2019.133935.
  • Saikia, B.J., Parthasarathy, G., Borah, R.R. and Borthakur, R. (2016). Raman and FTIR Spectroscopic Evaluation of clay minerals and estimation of metal contaminations in natural deposition of surface sediments from Brahmaputra River. International Journal of Geosciences, 7:873-883, DOI: 10.4236/ijg.2016.77064.
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Toplam 66 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Beşeri Coğrafya
Bölüm Research Articles
Yazarlar

Taylan Akarsu 0000-0002-1097-3530

Serkan Kükrer 0000-0001-6924-3199

Ahmet Evren Erginal 0000-0002-3112-5258

Proje Numarası SBA-2018-2718
Yayımlanma Tarihi 2 Haziran 2022
Yayımlandığı Sayı Yıl 2022 Cilt: 9 Sayı: 2

Kaynak Göster

APA Akarsu, T., Kükrer, S., & Erginal, A. E. (2022). Trace Metal-Induced Ecological Risk Analysis of Sarıçay River Sediments, Çanakkale, NW Turkey. International Journal of Environment and Geoinformatics, 9(2), 45-53. https://doi.org/10.30897/ijegeo.989882