A

Cao, Guan-Hua; Wang, Xifu; Li, Ze-Dong; Zhang, Xue; Li, Yong; Gu, Wen; Zhang, Fan; Yu, Jie; He, Sen

doi:10.1071/fp21218

Cited by 11 publications

(1 citation statement)

References 73 publications

(90 reference statements)

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“…The mechanism of arsenic uptake by plants varies with the chemical speciation. It has been reported that As(V) uses inorganic Phosphate (Pi) channels for its entry into the plant cell [26]. On the other hand, plants uptake As(III) via various nodulin-26-like intrinsic proteins and silicon transporters due to analogous chemical structures [27].…”

Section: Bioavailability and Mobility Of Arsenic In Soil-plant Systemmentioning

confidence: 99%

Arsenic contamination in the food chain: A threat to food security and human health

Singh¹,

Yadav²,

Sharma³

et al. 2023

J App Biol Biotech

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Arsenic is a toxic metalloid naturally found in the earth's crust and released into the environment through natural and anthropogenic activities. Arsenic becomes exceptionally toxic even at low exposure levels because of its high water solubility and bioaccumulation tendency in different environmental matrices. Crops receiving arsenic contaminated irrigation water accumulate it in different degrees depending on the species and variety. Consumption of contaminated crops and drinking water has been identified as important routes for its transfer into the food chain. Besides, consuming seafood and livestock-based food products such as meat and milk from arsenic endemic regions also contributes to the food chain transfer and contamination. The literature clearly indicates that the toxic effect of arsenic in any food product is highly dependent on its chemical speciation. Inorganic arsenic compounds are generally more toxic than organic forms. On consumption of contaminated food products and water, only the bioavailable form of arsenic goes directly into human body and interferes with different metabolic pathways. Thus, prolonged arsenic toxicity leads to carcinogenic and non-carcinogenic health risks such as arsenicosis, cancers, hepatotoxicity, kidney failure, and skin diseases. Therefore, this review highlights the distribution and mobility of arsenic in soil-plant system, its bioavailability in plant and livestock-based food products, arsenic transfer into the food chain, and human health risks. In the current state when arsenic has emerged as a worldwide threat, an integrated strategy is urgently required to combat arsenic contamination, mandating the creation of national and international action strategies for arsenic contamination mitigation.

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Section: Bioavailability and Mobility Of Arsenic In Soil-plant Systemmentioning

confidence: 99%