Affiliations: Graduate School for International Development and
Cooperation (IDEC), Hiroshima University, Kagamiyama 1-5-1, Higashi Hiroshima
739-8529, Japan | Hiroshima Prefecture Agriculture Research Center,
Hara, Hachihonmatu, Higashi Hiroshima 739-0151, Japan | Department of Environmental Studies, IDEC, Hiroshima
University, Higashi Hiroshima, Japan 739-8529
Abstract: This study was conducted to investigate the dissipation pattern and
runoff of herbicides to the river basin from the paddy fields. Pesticide paddy
field model (PADDY) was applied to predict herbicide concentration in paddy
fields. A field study was conducted in a paddy farm of Higashi Hiroshima City,
Hiroshima Prefecture, Japan in the year of 2003 paddy season. The herbicides
were mefenacet, thiobencarb, and bensulfuron methyl. The sample water was
analyzed by using gas chromatography and HPLC after solid phase extraction.
Predicted dissipation rate of thiobencarb in paddy water was higher
(DT_{50} = 4.36) than that measured, with a lower k value
(−0.069). Two weeks after application no thiobencarb was detectedin the
drainage channel and down stream. In the down stream, thiobencarb was detected
until 3 d after application, with a range of 0.02% to 0.08% of applied
herbicide. The predicted dissipation rate (k) and half-life
(DT_{50}) of mefenacet was not significantly different from
that of measured. In the drainage channel, upstream and downstream mefenacet
was found during the whole study period. In downstream, the maximum
concentration of mefenacet was present 0.61% of applied in the paddy field on
3DAH. The dissipation rate (k) of BSM varied from −0.0860 to
−0.1059 to with half-life (DT_{50}) 3.5 and 2.84 d. In
upstream water, no BSM was detected except trace amounts (0.01
μg/L) at 3 d after application. However, in the drainage channel
8%, 6% and 1.58% of applied BSM was present at 0, 1 and 3 d after application
respectively. In the down stream, the highest concentration was 1.06%, shortly
after application.
Keywords: paddy field, pesticide paddy field model (PADDY), herbicide, dissipation, runoff
