Environmental monitoring and potential health risk assessment from Pymetrozine exposure among communities in typical rice-growing areas of China

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Tudi, Muyesaier
Wang, Li
Ruan, Huada Daniel
Tong, Shuangmei
Atabila, Albert
Sadler, Ross
Yu, Qiming Jimmy
Connell, Des
Phung, Dung Tri
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2022
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Abstract

Pymetrozine is one of the most commonly used insecticides in China. This study was conducted to analyse Pymetrozine’s potential exposures through various environmental routes beyond the treatment areas. The aim was to estimate the potential health risk for communities due to non-dietary exposures to Pymetrozine in soil and paddy water. Data on registration of pesticides in China, government reports, questionnaires, interviews and literature reviews as well as toxicological health investigations were evaluated to determine the hazard and dose–response characteristics of Pymetrozine. These were based on the US EPA exposure and human health risk assessment methods and exposure data from soil and paddy water samples collected between 10 and 20 m around the resident’s location. The exposure doses from dermal contact through soil and paddy water were estimated. The potential cancer risk from the following exposure routes was evaluated: ingestion through soil; dermal contact exposure through soil; dermal contact exposure through paddy water. The potential total cancer risk for residents was estimated to be less than 1 × 10−6. These were relatively low and within the acceptable risk levels. The potential hazard quotient (HQ) from acute and lifetime exposure by dermal contact through paddy water and soil and acute and lifetime exposure by soil ingestion for residents was less than 1, indicating an acceptable risk level. This study suggested that there were negligible cancer risk and non-cancer risks based on ingestion and dermal contact routes of exposure to residents.

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Environmental Science and Pollution Research

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29

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39

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© 2022 Springer-Verlag. This is an electronic version of an article published in Environmental Science and Pollution Research (ESPR), 2022, 29 (39), pp. 59547–59560. Environmental Science and Pollution Research (ESPR) is available online at: http://link.springer.com// with the open URL of your article.

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Environmental sciences

Science & Technology

Life Sciences & Biomedicine

Environmental Sciences & Ecology

Rice-growing communities

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Tudi, M; Wang, L; Ruan, HD; Tong, S; Atabila, A; Sadler, R; Yu, QJ; Connell, D; Phung, DT, Environmental monitoring and potential health risk assessment from Pymetrozine exposure among communities in typical rice-growing areas of China, Environmental Science and Pollution Research, 2022, 29 (39), pp. 59547–59560

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