Abstract
Concerns about the possible negative impacts of current use pesticides (CUPs) for both the environment and human health have increased worldwide. However, the knowledge on the occurrence of CUPs in soil and air and the related human exposure in Africa is limited. This study investigated the presence of 30 CUPs in soil and air at two distinct agricultural sites in South Africa and estimated the human exposure and related risks to rural residents via soil ingestion and inhalation (using hazard quotients, hazard index and relative potency factors). We collected 12 soil and 14 air samples over seven days during the main pesticide application season in 2018. All samples were extracted, purified and analyzed by high-performance liquid chromatography coupled with tandem mass spectrometry. In soils, nine CUPs were found, with chlorpyrifos, carbaryl and tebuconazole having the highest concentrations (up to 63.6, 1.10 and 0.212 ng g−1, respectively). In air, 16 CUPs were found, with carbaryl, tebuconazole and terbuthylazine having the highest levels (up to 25.0, 22.2 and 1.94 pg m−3, respectively). Spatial differences were observed between the two sites for seven CUPs in air and two in soils. A large dominance towards the particulate phase was found for almost all CUPs, which could be related to mass transport kinetics limitations (non-equilibrium) following pesticide application. The estimated daily intake via soil ingestion and inhalation of individual pesticides ranged from 0.126 fg kg−1 day−1 (isoproturon) to 14.7 ng kg−1 day−1 (chlorpyrifos). Except for chlorpyrifos, soil ingestion generally represented a minor exposure pathway compared to inhalation (i.e. <5%). The pesticide environmental exposure largely differed between the residents of the two distinct agricultural sites in terms of levels and composition. The estimated human health risks due to soil ingestion and inhalation of pesticides were negligible although future studies should explore other relevant pathways.
Highlights
The global agricultural use of pesticides, or so-called plant protection products, has significantly increased from 2.3 million tonnes in 1990 to 4.1 million tonnes in 2018 (FAO, 2021) and this growth is expected to continue during the decade (OECD, FAO, 2018)
This study assessed the occurrence of 30 current use pesticides (CUPs) in soils and air of two agricultural sites in South Africa and evaluated the related human exposure via soil ingestion and inhalation
Large differences between the residents of the two agricultural sites were found in terms of levels and composition of pesticide environmental exposure highlighting the significant role of crop-specific pesticide use on human exposure to pesticides
Summary
The global agricultural use of pesticides, or so-called plant protection products, has significantly increased from 2.3 million tonnes in 1990 to 4.1 million tonnes in 2018 (FAO, 2021) and this growth is expected to continue during the decade (OECD, FAO, 2018). Concerns about their possible negative impacts on both the environment and human health have increased worldwide (Landrigan et al, 2017). The potential risks of pesticides for the environment and human health exist and need to be assessed
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