The Possibility of Environmental Paraquat Exposure.
- Author:
Se Hyun OH
1
;
Hong Soon CHOI
;
Ho Young YOU
;
Jun Ho PARK
;
Jae Seok SONG
Author Information
1. Department of Emergency Medicine, Gangneung Asan Hospital, Ulsan University, Korea.
- Publication Type:Original Article
- Keywords:
Paraquat;
Environmental exposure;
Parkinson's disease;
UV
- MeSH:
Calibration;
Drinking Water;
Environmental Exposure;
Paraquat;
Parkinson Disease;
Rivers;
Soil;
Ultraviolet Rays;
Viola;
Water
- From:Journal of Agricultural Medicine & Community Health
2011;36(4):218-226
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
OBJECTIVES: Paraquat (PQ) is a widely used ionic pesticide that is fatal when ingested accidentally or for suicidal purposes. It is thought that chronic exposure of PQ is related with the development of Parkinson's disease, but epidemiological studies have not yet confirmed that theory. This study attempted to estimate the possibility of environmental PQ exposure through soil and water. MATERIALS AND METHODS: We analyzed the amount of decomposed PQ solution in wet soil after exposure to ultraviolet light. An artificial rainfall condition was simulated over soil sprayed with PQ to measure the amount of eluted PQ. In addition, PQ was diluted in water from three differently rated rivers and the changes in PQ concentration were measured after ultraviolet exposure over one month. High performance liquid chromatography/ultra violet detection was used to analyze the concentrations of PQ. RESULTS: In the method we used, the recovery rate of PQ showed a precision rate less than 5%, an accuracy greater than 88%, and the calibration equation was y=5538.8x-440.01(R2=0.9985). There were no significant differences in the concentrations of PQ obtained from the three specimens over a 1-week period. From the PQ-sprayed soil, the artificial rainfall conditions showed no PQ elution over a 1-month period, and there was no significant differences in PQ concentrations according to ultraviolet exposure among the three samples. CONCLUSIONS: PQ remains well adsorbed naturally in soil. However, it may still exist in an integrated state for a long time in the hydrosphere, so the possibility of PQ exposure through drinking water cannot be disqualified.
