Role of climate change variables (standing water and rainfall) on dissipation of chlorantraniliprole from a simulated rice ecosystem

https://doi.org/10.1016/j.ecoenv.2020.111324Get rights and content
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Highlights

  • Standing water depth reduced CAP residues in soil and plant.

  • High intensity and early rainfall events reduced CAP residues in plants.

  • Rainfall & standing water depth led to leaching and run off losses of CAP.

  • Reduced concentration of CAP in plant may not be effective against the pest.

Abstract

Chlorantraniliprole (CAP) is extensively used for rice pest management. Lack of information on the role of standing water and amount and timing of rainfall on CAP dissipation in rice ecosystem could hamper its prospective use. Present study was performed to investigate the effects of different water regimes (saturated, 5 and 10 cm standing water) and simulated rainfall (40 and 100 mm occurred at 4, 8 and 24 h after CAP application) on leaching, surface runoff and dissipation of CAP into components of rice ecosystem. The results showed highest concentration of CAP residues in soil and plant under saturated condition followed by 5 and 10 cm standing water conditions. Whereas, the highest concentration of CAP in leachates was detected under 10 cm standing water (12.19 ng mL−1). The results revealed large amount of leaching (21.99 ng mL−1) and surface runoff (42.25 ng mL−1) losses of CAP when 100 mm rainfall occurred at 4 h after pesticide application. The total quantity of CAP residues in soil and plant was highest when rainfall occurred at 24 h after pesticide application under both the rainfall amounts. Water stagnation and high intensity rainfall occurred shortly after pesticide application will contribute to pesticide loss to non-target sites through surface run-off and leaching. There will be less pesticide available in soil for plant uptake which may not be sufficient to kill the target organisms.

Keywords

Leaching
Dissipation
Half-life
First-order kinetics
Lysimeter

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