Effect of water management practice on pesticide behavior in paddy water

• Published in: Agricultural water management Vol. 88; no. 1; pp. 132 - 140
• Main Authors: Watanabe, Hirozumi, Nguyen, My Hoang Tra, Souphasay, Komany, Vu, Son Hong, Phong, Thai Khanh, Tournebize, Julien, Ishihara, Satoru
• Format: Journal Article
• Language: English
• Published: Amsterdam Elsevier B.V 16.03.2007; Elsevier Science; Elsevier; Elsevier Masson
• Series: Agricultural Water Management
• Subjects: Agricultural and forest climatology and meteorology. Irrigation. Drainage; Agronomy. Soil science and plant productions; Biological and medical sciences; environmental fate; Environmental Sciences; field experimentation; Fundamental and applied biological sciences. Psychology; General agronomy. Plant production; half life; irrigation management; irrigation systems; Irrigation. Drainage; mefenacet; Oryza sativa; Paddy field; paddy soils; Pesticide; rice; runoff; simetryn; Soil and water pollution; soil chemical properties; Soil science; soil transport processes; soil water balance; thiobencarb; Water management; Japan; Pesticide; Paddy field; Water management; Irrigation; Irrigation water; Overflow; Pesticide;Paddy field;Water management; Environmental engineering; Aquatic environment; Water engineering; Automatic system; Behavior; Influence factor; Pollutant behavior; Pollution prevention; Pesticides; Pesticide fate; Benzothiazole derivatives; Herbicide; Agroecosystem; Intermittency; Water pollution control; Professional practice; Triazine derivatives; Surface water; Organic amide; Water pollution; Continuous system; Carbamate; Drainage water
• ISSN: 0378-3774; 1873-2283
• DOI: 10.1016/j.agwat.2006.10.009

The fate and transport of three herbicides commonly used in rice production in Japan were compared using two water management practices. The herbicides were simetryn, thiobencarb and mefenacet. The first management practice was an intermittent irrigation scheme using an automatic irrigation system (AI) with a high drainage gate and the second one was a continuous irrigation and overflow drainage scheme (CI) in experimental paddy fields. Dissipation of the herbicides appeared to follow first order kinetics with the half-lives (DT 50) of 1.6–3.4 days and the DT 90 (90% dissipation) of 7.4–9.8 days. The AI scheme had little drainage even during large rainfall events thus resulting in losses of less than 4% of each applied herbicide through runoff. Meanwhile the CI scheme resulted in losses of about 37%, 12% and 35% of the applied masses of simetryn, thiobencarb and mefenacet, respectively. The intermittent irrigation scheme using an automatic irrigation system with a high drainage gate saved irrigation water and prevented herbicide runoff whereas the continuous irrigation and overflow scheme resulted in significant losses of water as well as the herbicides. Maintaining the excess water storage is important for preventing paddy water runoff during significant rainfall events. The organic carbon partition coefficient K oc seems to be a strong indicator of the aquatic fate of the herbicide as compared to the water solubility ( S W). However, further investigations are required to understand the relation between K oc and the agricultural practices upon the pesticide fate and transport. An extension of the water holding period up to 10 days after herbicide application based on the DT 90 from the currently specified period of 3–4 days in Japan is recommended to be a good agricultural practice for controlling the herbicide runoff from paddy fields. Also, the best water management practice, which can be recommended for use during the water holding period, is the intermittent irrigation scheme using an automatic irrigation system with a high drainage gate.