GS 3: Environment & EcologyGS 3: Science & TechnologyGS 1: Indian GeographyPrelims

Microbial link between arsenic in soil, lower rice yield uncovered, Pg11

Microbial imbalance in rice paddies linked to arsenic buildup, yield loss, and straighthead disease, posing threat to global rice production.

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Key Highlights:

  • Research indicates that the balance of microbes in rice paddies affects arsenic buildup in rice grains, leading to crop losses.
  • Arsenic-methylating bacteria convert inorganic arsenic into toxic organic forms, while demethylating archaea reverse this process.
  • Straighthead disease, resulting in up to 70% yield losses, is linked to the dominance of arsenic-methylating bacteria in younger soils.
  • The study identified 11 methylating microbes and 6 demethylating archaea as predictors of arsenic risk.
  • Newly cultivated paddy regions are more vulnerable to straighthead outbreaks due to high ratios of methylating to demethylating microbes.
  • Draining rice fields midseason and silicon fertilisation can mitigate risks associated with arsenic uptake.
  • Current food safety regulations need to monitor arsenic speciation, not just total arsenic levels.

Detailed Insights:

  • Arsenic speciation, the chemical form arsenic takes in soil and plants, is crucial because it determines the extent of straighthead disease.
  • Soils younger than 700 years are dominated by arsenic-methylating bacteria, leading to higher accumulation of DMA and DMMTA.
  • The ratio of methylating to demethylating microbes exceeding 1.5 significantly increases the risk of straighthead disease.
  • Climate change, with higher temperatures and altered flooding, may increase soil arsenic content and disrupt microbial balance.
  • Agronomic interventions like draining fields and crop rotation can help manage microbial communities and reduce arsenic uptake.
  • Monitoring arsenic speciation, including methylated species like DMMTA, is essential for effective food safety regulations.
  • Newly established or reclaimed paddy fields in India may face higher arsenic risk due to microbial imbalances.

Scientific/Technical Concepts Involved:

  • Arsenic Methylation: Conversion of inorganic arsenic to toxic organic forms by bacteria.
  • Arsenic Demethylation: Breakdown of methylated arsenic compounds by archaea.
  • DMA (Dimethylarsinic acid): A toxic organic form of arsenic absorbed by rice plants.
  • DMMTA (Dimethylated monothioarsenate): A more toxic derivative of DMA.
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