Butachlor inhibits production and oxidation of methane in tropical rice soils under flooded condition

S R Mohanty, Dali Rani Nayak, Y J Babu, T K Adhya

Research output: Contribution to journalArticle

22 Citations (Scopus)

Abstract

In laboratory incubation experiments, application of a commercial formulation of the herbicide butachlor (N-butoxymethyl-2-chloro-2',6'-diethyl acetanitide) to three tropical rice soils, widely differing in their physicochemical. characteristics, under flooded condition inhibited methane (CH4) production. The inhibitory effect was concentration dependent and most remarkable in the alluvial soil. Thus, following application of butachlor at 5, 10, 50 and 100 mugg(-1) soil, respectively, cumulative CH4 production in the alluvial soil. was inhibited by 15%, 31%, 91% and 98% over unamended control. Since CH4 production was less pronounced in the sandy loam and acid sulfate soil, the impact of amendment with butchalor, albeit inhibitory, was less extensive than the alluvial soil. Inhibition of CH4 production in butachlor-amended alluvial soil was retated to the prevention in the drop in redox potential as welt as low methanogenic bacterial population especially at high concentrations of butachlor. CH4 oxidation was also inhibited in butachlor-amended alluvial soil with the inhibitory effect being more prevalent under flooded condition. Inhibition in CH4 oxidation was retated to a reduction in the population of soluble methane monooxygenase producing methanotrophs. Results demonstrate that butachlor, a commonly used herbicide in rice cultivation, even at very tow concentrations can affect CH4 production and its oxidation, thereby influencing the biogeochemical cycle of CH4 in flooded rice soils. (C) 2004 Elsevier GmbH. All rights reserved.

Original languageEnglish
Pages (from-to)193-201
Number of pages9
JournalMicrobiological Research
Volume159
Issue number3
DOIs
Publication statusPublished - 8 Sep 2004

Keywords

  • methane production
  • oxidation
  • herbicide
  • butachlor
  • methanogens
  • methanotrophs
  • paddy soils
  • emission
  • consumption
  • carbofuran

Cite this

Butachlor inhibits production and oxidation of methane in tropical rice soils under flooded condition. / Mohanty, S R ; Nayak, Dali Rani; Babu, Y J ; Adhya, T K .

In: Microbiological Research, Vol. 159, No. 3, 08.09.2004, p. 193-201.

Research output: Contribution to journalArticle

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AB - In laboratory incubation experiments, application of a commercial formulation of the herbicide butachlor (N-butoxymethyl-2-chloro-2',6'-diethyl acetanitide) to three tropical rice soils, widely differing in their physicochemical. characteristics, under flooded condition inhibited methane (CH4) production. The inhibitory effect was concentration dependent and most remarkable in the alluvial soil. Thus, following application of butachlor at 5, 10, 50 and 100 mugg(-1) soil, respectively, cumulative CH4 production in the alluvial soil. was inhibited by 15%, 31%, 91% and 98% over unamended control. Since CH4 production was less pronounced in the sandy loam and acid sulfate soil, the impact of amendment with butchalor, albeit inhibitory, was less extensive than the alluvial soil. Inhibition of CH4 production in butachlor-amended alluvial soil was retated to the prevention in the drop in redox potential as welt as low methanogenic bacterial population especially at high concentrations of butachlor. CH4 oxidation was also inhibited in butachlor-amended alluvial soil with the inhibitory effect being more prevalent under flooded condition. Inhibition in CH4 oxidation was retated to a reduction in the population of soluble methane monooxygenase producing methanotrophs. Results demonstrate that butachlor, a commonly used herbicide in rice cultivation, even at very tow concentrations can affect CH4 production and its oxidation, thereby influencing the biogeochemical cycle of CH4 in flooded rice soils. (C) 2004 Elsevier GmbH. All rights reserved.

KW - methane production

KW - oxidation

KW - herbicide

KW - butachlor

KW - methanogens

KW - methanotrophs

KW - paddy soils

KW - emission

KW - consumption

KW - carbofuran

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