Abstract
Coastal tidelands are important ecological habitat resources and valuable resources for agricultural land reclamation. Enrichment of potentially harmful elements (PHEs) in soil caused by anthropogenic activity is an important factor implicated in the ecological deterioration of soil in China. A total of 54 soil sample sites were selected from a 30-year reclaimed tideland and an adjoining coastal wetland. Descriptive and multivariate statistical analyses were performed to describe the enrichment, source, health risk status of eight PHEs (As, Co, Cr, Cu, Mn, Ni, Pb, and Zn) after long-term reclamation. Results indicated that after 30 years of reclamation, most soil PHEs are slightly enriched, whereas no serious threat of environmental pollution was observed. In the reclamation area, the enrichment of PHEs in the aquaculture land, industrial land, and cropland was relatively high compared with other land use types, such as tideland and halophyte land. The source analysis divided the PHEs into five categories: (1) Cu; (2) Co and Mn; (3) Cr; (4) As and Pb; (5) Zn and Ni. Cu was completely derived from natural parent materials and other elements were governed by both weathering of parent rock and human activities, including agricultural activities, industrial production, and transportation emissions. The health risk assessment showed that the soil PHEs potentially had no non-carcinogenic risk to the public, but there was an acceptable probability to have cancer due to Cr and As. Meanwhile, children are more susceptible to harm from the PHEs in soil than adults. According to the economic and social development situation in the coastal region, it is necessary to pay attention to the environmental threats of PHEs enrichment.
Highlights
The enrichment of potentially harmful elements (PHEs) in soil has been widely concerned as a significant ecological and environmental issue [1]
The highest concentrations of Pb and Cr exceeded the limit values of the first and second-grade environmental quality standard for soils, respectively. This showed that partial land use had the opportunity to cause soil pollution, which might pose a threat to the regional natural background or agricultural production
This indicated that the RI of PHEs (As, Co, Ni, Cr, and Pb) in the soil of the study area is at an acceptable risk level, which is mainly contributed by the oral exposure of Cr and As
Summary
The enrichment of potentially harmful elements (PHEs) in soil has been widely concerned as a significant ecological and environmental issue [1]. The bedrock geochemistry and human activities are. China [48] Risk Control. Standard China (1)/(2)/(3) − 15/25/30 90/200/300 30/100/400 40/50/200 35/300/500 100/250/500. Risk control standard China is Environmental quality standard for soils (GB 15618-1995) and has three levels of standards. (1) means the limit value of the soil environmental quality to protect the regional natural ecology and maintain the natural background. (2) means the limit value of the soil to ensure agricultural production and maintain human health; (3) means the limit value of the soil to ensure the agricultural and forestry production and normal plant growth. Mean and Mean represent the average concentration of PHEs in surface and subsurface.
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