Microbial consortia-mediated arsenic bioremediation in agricultural soils: Current status, challenges, and solutions

Arsenic poisoning in agricultural soil is caused by both natural and man-made processes, and it poses a major risk to crop production and human health. Soil quality, agricultural production, runoff, ingestion, leaching, and absorption by plants are all influenced by these processes. Microbial consor...

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Published inThe Science of the total environment Vol. 917; p. 170297
Main Authors Kaya, Cengiz, Uğurlar, Ferhat, Ashraf, Muhammed, Hou, Deyi, Kirkham, Mary Beth, Bolan, Nanthi
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 20.03.2024
Subjects
Arsenic bioremediation
Methylation-demethylation
Microbial consortia
Oxidation-reduction
Soil quality volatilization
Soil quality volatilization
Methylation-demethylation
Arsenic bioremediation
Oxidation-reduction
Microbial consortia
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Abstract Arsenic poisoning in agricultural soil is caused by both natural and man-made processes, and it poses a major risk to crop production and human health. Soil quality, agricultural production, runoff, ingestion, leaching, and absorption by plants are all influenced by these processes. Microbial consortia have become a feasible bioremediation technique in response to the urgent need for appropriate remediation solutions. These diverse microbial populations collaborate to combat arsenic poisoning in soil by facilitating mechanisms including oxidation-reduction, methylation-demethylation, volatilization, immobilization, and arsenic mobilization. The current state, problems, and remedies for employing microbial consortia in arsenic bioremediation in agricultural soils are examined in this review. Among the elements affecting their success include diversity, activity, community organization, and environmental conditions. Also, we emphasize the sensitivity and accuracy limits of existing assessment techniques. While earlier reviews have addressed a variety of arsenic remediation options, this study stands out by concentrating on microbial consortia as a viable strategy for arsenic removal and presents performance evaluation and technical problems. This work gives vital insights for tackling the major issue of arsenic pollution in agricultural soils by explaining the potential methods and components involved in microbial consortium-mediated arsenic bioremediation. [Display omitted] •Arsenic contamination in agricultural soils threatens crop production and human health.•Microbial consortia can bioremediate arsenic by various mechanisms in soil.•Diversity, activity, community, and environment impact microbial consortia.•Existing assessment techniques have sensitivity and accuracy limitations.•Microbial consortia offer a viable and sustainable solution for arsenic bioremediation.
AbstractList Arsenic poisoning in agricultural soil is caused by both natural and man-made processes, and it poses a major risk to crop production and human health. Soil quality, agricultural production, runoff, ingestion, leaching, and absorption by plants are all influenced by these processes. Microbial consortia have become a feasible bioremediation technique in response to the urgent need for appropriate remediation solutions. These diverse microbial populations collaborate to combat arsenic poisoning in soil by facilitating mechanisms including oxidation-reduction, methylation-demethylation, volatilization, immobilization, and arsenic mobilization. The current state, problems, and remedies for employing microbial consortia in arsenic bioremediation in agricultural soils are examined in this review. Among the elements affecting their success include diversity, activity, community organization, and environmental conditions. Also, we emphasize the sensitivity and accuracy limits of existing assessment techniques. While earlier reviews have addressed a variety of arsenic remediation options, this study stands out by concentrating on microbial consortia as a viable strategy for arsenic removal and presents performance evaluation and technical problems. This work gives vital insights for tackling the major issue of arsenic pollution in agricultural soils by explaining the potential methods and components involved in microbial consortium-mediated arsenic bioremediation. [Display omitted] •Arsenic contamination in agricultural soils threatens crop production and human health.•Microbial consortia can bioremediate arsenic by various mechanisms in soil.•Diversity, activity, community, and environment impact microbial consortia.•Existing assessment techniques have sensitivity and accuracy limitations.•Microbial consortia offer a viable and sustainable solution for arsenic bioremediation.
Arsenic poisoning in agricultural soil is caused by both natural and man-made processes, and it poses a major risk to crop production and human health. Soil quality, agricultural production, runoff, ingestion, leaching, and absorption by plants are all influenced by these processes. Microbial consortia have become a feasible bioremediation technique in response to the urgent need for appropriate remediation solutions. These diverse microbial populations collaborate to combat arsenic poisoning in soil by facilitating mechanisms including oxidation-reduction, methylation-demethylation, volatilization, immobilization, and arsenic mobilization. The current state, problems, and remedies for employing microbial consortia in arsenic bioremediation in agricultural soils are examined in this review. Among the elements affecting their success include diversity, activity, community organization, and environmental conditions. Also, we emphasize the sensitivity and accuracy limits of existing assessment techniques. While earlier reviews have addressed a variety of arsenic remediation options, this study stands out by concentrating on microbial consortia as a viable strategy for arsenic removal and presents performance evaluation and technical problems. This work gives vital insights for tackling the major issue of arsenic pollution in agricultural soils by explaining the potential methods and components involved in microbial consortium-mediated arsenic bioremediation.
ArticleNumber 170297
Author Hou, Deyi
Uğurlar, Ferhat
Ashraf, Muhammed
Kaya, Cengiz
Kirkham, Mary Beth
Bolan, Nanthi
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  organization: Soil Science and Plant Nutrition Department, Harran University, Sanliurfa, Turkey
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  givenname: Ferhat
  surname: Uğurlar
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  givenname: Deyi
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  fullname: Hou, Deyi
  organization: School of Environment, Tsinghua University, Beijing 100084, People's Republic of China
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  givenname: Mary Beth
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  givenname: Nanthi
  surname: Bolan
  fullname: Bolan, Nanthi
  organization: UWA School of Agriculture and Environment, The University of Western Australia, Perth, Western Australia 6009, Australia
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CitedBy_id crossref_primary_10_3390_photochem4020012
crossref_primary_10_1016_j_microb_2024_100082
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Keywords Soil quality volatilization
Methylation-demethylation
Arsenic bioremediation
Oxidation-reduction
Microbial consortia
Language English
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Snippet Arsenic poisoning in agricultural soil is caused by both natural and man-made processes, and it poses a major risk to crop production and human health. Soil...
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SubjectTerms Arsenic bioremediation
Methylation-demethylation
Microbial consortia
Oxidation-reduction
Soil quality volatilization
Title Microbial consortia-mediated arsenic bioremediation in agricultural soils: Current status, challenges, and solutions
URI https://dx.doi.org/10.1016/j.scitotenv.2024.170297
https://www.ncbi.nlm.nih.gov/pubmed/38272079
https://search.proquest.com/docview/2920570405
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