Abstract
The watershed-scale distribution and loss of potentially toxic elements (PTEs) through soil erosion from slope lands to a watershed has not yet been systematically studied, especially in small mountain watersheds with high geological background PTEs in Southwest China. In this study, the spatial distribution, loss intensities and ecological risks of 12 PTEs were investigated in 101 soil samples from four types of land use in a typical watershed, Guizhou Province. Moreover, in order to avoid over- or underestimation of the contamination level in such specific geologies with significant variability in natural PTE distribution, the local background values (local BVs) were calculated by statistical methods. The dry arable land had the highest loss intensity of PTEs and was the largest contributor of PTEs (more than 80%) in the watershed, even though it covers a much smaller area compared to the forest land. The loss of Cd, As, Sb, and Hg from slope arable lands into the watershed leads to a relatively high potential ecological risk. The study suggested that both PTEs content with different types of land-uses and intensities of soil loss are of great importance for PTEs’ risk assessment in the small watershed within a high geological background region. Furthermore, in order to reduce the loss of PTEs in soil, the management of agricultural activities in arable land, especially the slope arable land, is necessary.
Highlights
Slope arable land is a typical agricultural mode in hilly and mountainous areas in China, which covers about 36.42 million hectares [1]
This study investigated the spatial distribution, level of contamination, and loss risks of 12 potentially toxic elements (PTEs) in different types of land in the Caidi River Watershed in southwest China
The results found that there is significant enrichment of Sb, Hg, Cd, Zn, and As in the soils; Hg and Sb were at high levels in farmland soils
Summary
Slope arable land is a typical agricultural mode in hilly and mountainous areas in China, which covers about 36.42 million hectares [1] This type of cultivation suffers from soil erosion and can impact on the water quality of watersheds when contaminated soils are flushed into streams [2]. Land use changes alter the hydrological process and have significant impacts on the ecological processes by altering the soil erosion patterns and land cover [3]. These ecological processes directly affect the accumulation and migration of the chemical contaminants [4].
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