Occurrence and distribution of OCPs and PAHs in Water, Soil and Sediment of Daye Lake

Abstract To elucidate the concentrations, spatial distribution, sources, and risk of sixteen polycyclic aromatic hydrocarbons (PAHs) and 24 organochlorine pesticides (OCPs), thirteen sites were chosen for collecting water, sediment, and soil samples from Daye lake in April 2019. All pollutants were frequently observed in three media of Daye lake. Higher concentrations of OCPs were determined in the soil whereas PAHs were dominant among sediment samples. However, the water of Daye lake is polluted with both of the pollutants. In water, ΣDRINs, ΣDDTs, ΣHCHs and LMW PAHs accounted for 22.1%, 19.6%, 17.9% and 85.5%, respectively. Among sediments, OCPs and PAHs were ranged from 1.53–51.38 ng·g−1 and 14.38–4659.66 ng g−1. While soil accounted for a larger percentage of hepatchlor epoxide i.e. 96.5% and HMW hydrocarbons i.e. 82.7%. Furthermore, low α-to γ-HCH ratio suggested fresh input of HCH and a higher ratio of (DDE + DDD)/DDT determined the historical use of DDT. Additionally, diagnostic molecular ratio along with principal component analysis evaluated that PAHs mainly came from fossil fuel, biomass, and coal combustion. Moreover, ecological risk assessment of Daye lake indicated that the carcinogenic PAHs in water and soil can pose 10% risk to the environment also OCPs in sediments has a visible effect on ecology. According to ILCRs evaluation, OCPs have negligible to low cancer risk among all sites for water, soil, and sediments while PAHs value fluctuated in the midst of 10−6 to 10−2 which shows the potential risk of cancer on children as well as adults. Therefore, measures should be taken to control them in time.