Biogeochemistry of antimony in soil-plant system: Ecotoxicology and human health

Environmental contamination by antimony (Sb), a non-essential and non-beneficial metalloid, is a great threat to living organisms at a global scale. Owing to its various uses in numerous industrial processes, Sb is released into different environmental compartments every year. Environmental Sb conta...

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Published inApplied geochemistry Vol. 106; pp. 45 - 59
Main Authors Natasha, Shahid, Muhammad, Khalid, Sana, Dumat, Camille, Pierart, Antoine, Niazi, Nabeel Khan
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.07.2019
Subjects
antimony
antioxidants
ascorbate peroxidase
ascorbic acid
bioaccumulation
Bioavailability
biogeochemistry
carcinogenicity
catalase
Chemical speciation
Contamination
Detoxification
ecotoxicology
food chain
food plants
glutathione
glutathione peroxidase
grains
Health risk
heavy metals
human health
mutagens
oxidative stress
peroxidase
phytochelatins
Phytotoxicity
plant tissues
pollution
proline
risk
soil
superoxide dismutase
transport proteins
vegetables
Chemical speciation
Phytotoxicity
Bioavailability
Contamination
Detoxification
Health risk
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Abstract Environmental contamination by antimony (Sb), a non-essential and non-beneficial metalloid, is a great threat to living organisms at a global scale. Owing to its various uses in numerous industrial processes, Sb is released into different environmental compartments every year. Environmental Sb contamination can result in food chain bioaccumulation, especially due to its uptake and accumulation in edible plant parts. Consumption of Sb-rich food (cereals, vegetables, pulses etc.) is the key source of Sb exposure to human. Since Sb does not possess any identified biological role and has genotoxic and carcinogenic potential, it is critical to monitor its biogeochemical behavior in the soil-plant system and its influence in term of possible food chain bioaccumulation up to human exposure. However, compared to other heavy metals, limited data is available regarding biogeochemical behavior of Sb in the soil-plant system and associated health risks. This review traces a plausible link among Sb exposure levels, its chemical speciation, and phytoavailability in the soil, uptake/accumulation/compartmentation by plants, phytotoxicity and detoxification inside the plant. The role of different enzymatic (peroxidase, catalase, ascorbate peroxidase, superoxide dismutase, glutathione peroxidase) and non-enzymatic (glutathione, phytochelatins, proline and ascorbic acid) antioxidants have also been elucidated with respect to enhanced generation of reactive radicles and oxidative stress. The review also outlines the role of different transporter proteins in Sb transport/compartmentation inside plants, build-up in edible plant tissues and associated health risks. The biogeochemical role of Sb in the soil and plant systems and associated health risks have been described in 11 tables and 4 figures. [Display omitted] •This review delineates biogeochemical behavior of Sb in soil-plant system.•Biogeochemical behavior of Sb depends on its chemical speciation.•Plants possess an efficient tolerance mechanism to endure Sb bioaccumulation & toxicity.•Sb can cause health risks via food chain contamination.•Less data is available about Sb biogeochemical behavior in soil-plant-human system.
AbstractList Environmental contamination by antimony (Sb), a non-essential and non-beneficial metalloid, is a great threat to living organisms at a global scale. Owing to its various uses in numerous industrial processes, Sb is released into different environmental compartments every year. Environmental Sb contamination can result in food chain bioaccumulation, especially due to its uptake and accumulation in edible plant parts. Consumption of Sb-rich food (cereals, vegetables, pulses etc.) is the key source of Sb exposure to human. Since Sb does not possess any identified biological role and has genotoxic and carcinogenic potential, it is critical to monitor its biogeochemical behavior in the soil-plant system and its influence in term of possible food chain bioaccumulation up to human exposure. However, compared to other heavy metals, limited data is available regarding biogeochemical behavior of Sb in the soil-plant system and associated health risks.This review traces a plausible link among Sb exposure levels, its chemical speciation, and phytoavailability in the soil, uptake/accumulation/compartmentation by plants, phytotoxicity and detoxification inside the plant. The role of different enzymatic (peroxidase, catalase, ascorbate peroxidase, superoxide dismutase, glutathione peroxidase) and non-enzymatic (glutathione, phytochelatins, proline and ascorbic acid) antioxidants have also been elucidated with respect to enhanced generation of reactive radicles and oxidative stress. The review also outlines the role of different transporter proteins in Sb transport/compartmentation inside plants, build-up in edible plant tissues and associated health risks. The biogeochemical role of Sb in the soil and plant systems and associated health risks have been described in 11 tables and 4 figures.
Environmental contamination by antimony (Sb), a non-essential and non-beneficial metalloid, is a great threat to living organisms at a global scale. Owing to its various uses in numerous industrial processes, Sb is released into different environmental compartments every year. Environmental Sb contamination can result in food chain bioaccumulation, especially due to its uptake and accumulation in edible plant parts. Consumption of Sb-rich food (cereals, vegetables, pulses etc.) is the key source of Sb exposure to human. Since Sb does not possess any identified biological role and has genotoxic and carcinogenic potential, it is critical to monitor its biogeochemical behavior in the soil-plant system and its influence in term of possible food chain bioaccumulation up to human exposure. However, compared to other heavy metals, limited data is available regarding biogeochemical behavior of Sb in the soil-plant system and associated health risks. This review traces a plausible link among Sb exposure levels, its chemical speciation, and phytoavailability in the soil, uptake/accumulation/compartmentation by plants, phytotoxicity and detoxification inside the plant. The role of different enzymatic (peroxidase, catalase, ascorbate peroxidase, superoxide dismutase, glutathione peroxidase) and non-enzymatic (glutathione, phytochelatins, proline and ascorbic acid) antioxidants have also been elucidated with respect to enhanced generation of reactive radicles and oxidative stress. The review also outlines the role of different transporter proteins in Sb transport/compartmentation inside plants, build-up in edible plant tissues and associated health risks. The biogeochemical role of Sb in the soil and plant systems and associated health risks have been described in 11 tables and 4 figures. [Display omitted] •This review delineates biogeochemical behavior of Sb in soil-plant system.•Biogeochemical behavior of Sb depends on its chemical speciation.•Plants possess an efficient tolerance mechanism to endure Sb bioaccumulation & toxicity.•Sb can cause health risks via food chain contamination.•Less data is available about Sb biogeochemical behavior in soil-plant-human system.
Author Natasha
Shahid, Muhammad
Khalid, Sana
Pierart, Antoine
Niazi, Nabeel Khan
Dumat, Camille
Author_xml – sequence: 1
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  fullname: Natasha
  organization: Department of Environmental Sciences, COMSATS University Islamabad, Vehari Campus, Vehari, 61100, Pakistan
– sequence: 2
  givenname: Muhammad
  orcidid: 0000-0001-8521-4515
  surname: Shahid
  fullname: Shahid, Muhammad
  email: muhammadshahid@ciitvehari.edu.pk
  organization: Department of Environmental Sciences, COMSATS University Islamabad, Vehari Campus, Vehari, 61100, Pakistan
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  surname: Khalid
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  organization: Department of Environmental Sciences, COMSATS University Islamabad, Vehari Campus, Vehari, 61100, Pakistan
– sequence: 4
  givenname: Camille
  surname: Dumat
  fullname: Dumat, Camille
  organization: Centre D’Etude et de Recherche Travail Organisation Pouvoir (CERTOP), UMR5044, Université J. Jaurès - Toulouse II, 5 Allée Machado A., 31058, Toulouse, Cedex 9, France
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  organization: Agende de L’Environnement et de La Maitrise des Energies (ADEME), 20 Avenue Du Grésillé, 49004, Angers, France
– sequence: 6
  givenname: Nabeel Khan
  surname: Niazi
  fullname: Niazi, Nabeel Khan
  organization: Institute of Soil and Environmental Sciences, University of Agriculture Faisalabad, Faisalabad, 38040, Pakistan
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Tue Jul 01 01:59:38 EDT 2025
Thu Apr 24 23:08:16 EDT 2025
Fri Feb 23 02:30:12 EST 2024
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Keywords Chemical speciation
Phytotoxicity
Bioavailability
Contamination
Detoxification
Health risk
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  text: July 2019
PublicationDecade 2010
PublicationTitle Applied geochemistry
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Snippet Environmental contamination by antimony (Sb), a non-essential and non-beneficial metalloid, is a great threat to living organisms at a global scale. Owing to...
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SubjectTerms antimony
antioxidants
ascorbate peroxidase
ascorbic acid
bioaccumulation
Bioavailability
biogeochemistry
carcinogenicity
catalase
Chemical speciation
Contamination
Detoxification
ecotoxicology
food chain
food plants
glutathione
glutathione peroxidase
grains
Health risk
heavy metals
human health
mutagens
oxidative stress
peroxidase
phytochelatins
Phytotoxicity
plant tissues
pollution
proline
risk
soil
superoxide dismutase
transport proteins
vegetables
Title Biogeochemistry of antimony in soil-plant system: Ecotoxicology and human health
URI https://dx.doi.org/10.1016/j.apgeochem.2019.04.006
https://www.proquest.com/docview/2253238689
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