TY - JOUR ID - TI - Environmental assessment of heavy metals in surface and groundwater at Samarra City, Central Iraq AU - Mahmood Fadhil Abed AU - Balsam Salim Al-Tawash AU - Shatha Amer Ibrahim PY - 2018 VL - 59 IS - 3A SP - 1277 EP - 1484 JO - Iraqi Journal of Science المجلة العراقية للعلوم SN - 00672904 23121637 AB - Urban Samarra City is characterized by high population density and wide variation in land use, has led to many environmental problems, for this purpose the environmental assessment became an urgent need for surface and ground water at study area. Three water samples from Tigris River and six groundwater samples were collected and analyzed for heavy metals as Fe, Mn, Zn, Cd, Cu, Co ,Pb, Ni, Cr, As, Mo, Hg, Al, Li, Be, Se, V, U, Sr. Most heavy metal concentrations have shown higher level than standards, such as Fe, Mn, Cd, Pb, Ni, Cr, As, Mo, Hg, Al ,Li ,Be, Se, V, that might be due to anthropogenic activities such as agricultural and the heavy use of fertilizers, besides other activities among them industrial . All water samples have higher concentration level of Uranium except (SW1, SW2, SW3, GW1) might be due to military activity. On the other hand all samples were polluted in Co except SW2, GW4, high value of Co may be caused by industrial processes and oil product spills. Physical and chemical properties values which have obtained in this study are pH, EC, TDS, TSS, DO, BOD,COD and turbidity. Water analyses reveal unacceptable values for physical and chemical parameters according to WHO standard and IQS2009 limits for drinking water, BOD, EC have shown high values in all surface and groundwater samples. Whereas, high values of TDS, COD and turbidity only in ground water samples. The water is not drinkable according to Water Quality Index (WQI) all values are above 100 and, in the sequence (GW1>GW5>GW4>GW3>GW6>GW2), the water quality index of surface water (SW3>SW2>SW1). Mixing of the shallow groundwater and Tigris River water show various patterns affected by other factors such as the aquifer recharge and evaporation, especially at the shallowest parts.

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