Influences of suspended particles on the runoff of pesticides from an agricultural field at Askim, SE-Norway

Field and laboratory experiments were conducted to study the loss of particles from agricultural fields, and the role of suspended particles in carrying pesticides in surface runoff and drainage water. Propiconazole, a widely used fungicide was applied to experimental fields located at Askim, SE-Nor...

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Bibliographic Details
Published inEnvironmental geochemistry and health Vol. 26; no. 2-3; p. 295
Main Authors Wu, Q, Riise, G, Lundekvam, H, Mulder, J, Haugen, L E
Format Journal Article
LanguageEnglish
Published Netherlands 01.06.2004
Subjects
Adsorption
Agriculture
Environmental Monitoring
Geologic Sediments - chemistry
Norway
Particle Size
Pesticides - analysis
Triazoles - analysis
Water Movements
Water Pollutants - analysis
Norway
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Summary:Field and laboratory experiments were conducted to study the loss of particles from agricultural fields, and the role of suspended particles in carrying pesticides in surface runoff and drainage water. Propiconazole, a widely used fungicide was applied to experimental fields located at Askim, SE-Norway. Samples from surface runoff and drainage water were collected and analyzed for sediment mass, pesticides, particulate and dissolved organic carbon through a whole year. The surface soil and the runoff material were characterized by its particle size distribution, organic carbon content in size fractions and its ability to bind propiconazole. The results show that (1) particle runoff mostly occurred during the rainfall event shortly after harrowing in autumn. The highest particle concentration observed in the surface runoff water was 4600 mg l(-1), and in the drainage water 1130 mg l(-1); (2) the erosion of surface soil is size selective. The runoff sediment contained finer particle/aggregates rich in organic matter compared to its original surface soil; (3) the distribution coefficient (Kd) of propiconazole was significantly higher in the runoff sediment than in the parent soil. According to our calculation, particle-bound propiconazole can represent up to 23% of the total amount of propiconazole in a water sample with a sediment concentration of 7600 mg l(-1), which will significantly influence the transport behavior of the pesticide.
ISSN:0269-4042
DOI:10.1023/B:EAGH.0000039593.81794.e5