Water Management Impacts on Arsenic Speciation and Iron-Reducing Bacteria in Contrasting Rice-Rhizosphere Compartments

Rice cultivated on arsenic (As) contaminated-soils will accumulate variable grain-As concentrations, as impacted by varietal differences, soil variables, and crop management. A field-scale experiment was conducted to study the impact of intermittent and continuous flooding on As speciation and micro...

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Bibliographic Details
Published in:Environmental science & technology 2011-10, Vol.45 (19), p.8328-8335
Main Authors: Somenahally, Anil C, Hollister, Emily B, Yan, Wengui, Gentry, Terry J, Loeppert, Richard H
Format: Article
Language:English
Subjects:
Animal, plant and microbial ecology
Applied ecology
Arsenic
Arsenic - isolation & purification
Bacteria
Bacteria - metabolism
Biological and medical sciences
Conservation, protection and management of environment and wildlife
Environment and sustainable development
Environmental Processes
Floods
Fundamental and applied biological sciences. Psychology
General aspects
Geobacter - metabolism
Iron - metabolism
Oryza - microbiology
Oxidation-Reduction
Parks, reserves, wildlife conservation. Endangered species: population survey and restocking
Plant Roots - microbiology
Porosity
Rhizosphere
Rice
Soil - chemistry
Soil Microbiology
Soils
Water - chemistry
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Summary:Rice cultivated on arsenic (As) contaminated-soils will accumulate variable grain-As concentrations, as impacted by varietal differences, soil variables, and crop management. A field-scale experiment was conducted to study the impact of intermittent and continuous flooding on As speciation and microbial populations in rice rhizosphere compartments of soils that were either historically amended with As pesticide or unamended with As. Rhizosphere-soil, root-plaque, pore-water and grain As were quantified and speciated, and microbial populations in rhizosphere soil and root-plaque were characterized. Total-As concentrations in rhizosphere and grain were significantly lower in intermittently flooded compared to the continuously flooded plots (86% lower in pore-water, 55% lower in root-plaque and 41% lower in grain samples). iAsV, iAsIII, and DMAsV were the predominant As species detected in rhizosphere-soil and root-plaque, pore-water and grain samples, respectively. Relative proportions of Archaea and iron-reducing bacteria (FeRB) were higher in rhizosphere soil compared to root-plaque. In rhizosphere soil, the relative abundance of FeRB was lower in intermittently flooded compared to continuously flooded plots, but there were no differences between root-plaque samples. This study has demonstrated that reductions in dissolved As concentrations in the rhizosphere and subsequent decreases in grain-As concentration can be attained through water management.
ISSN:0013-936X
1520-5851
DOI:10.1021/es2012403