Journal ArticleDOI
Sustainable solutions to arsenic accumulation in rice grown in south and south-east Asia
Sudhakar Srivastava,Saurabh Pathak,Montree Ponsin,Supanad Hensawang,Penradee Chanpiwat,Chetra Yoeurn,Kongkea Phan +6 more
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TLDR
In this paper, the authors discuss various strategies that can be utilised to tackle the arsenic contamination of rice, and the socioeconomic impacts of the As problem, including irrigation water management, balanced supplement of various nutrient elements like selenium (Se), silicon (Si), sulfur (S), nitrogen (N), iron (Fe) and zinc (Zn) has been found to impart dual benefits in terms of reduced As toxicity as well as enhance the nutritional quality of rice grains.Abstract:
Widespread distribution, toxicity and exposure through rice and rice-based food products make arsenic (As) contamination of environment a serious issue. This review discusses various strategies that can be utilised to tackle the As problem in rice, and the socioeconomic impacts of the As problem. The countries of south and south-east Asia are renowned as hotspots of As contamination owing to occurrence and enrichment of As in soil and groundwater via natural biogeochemical weathering of rocks and As-enriched sediment. The irrigation of rice is mostly applied through the use of contaminated groundwater leading to high As accumulation in rice grains. The intensification of research to address the problem of As in rice has been seen in the past two decades. It has been realised that appropriate irrigation water management, which acts as a major driver of As chemistry in soil and As uptake and transport in plants, can be an easy and affordable solution. Further, balanced supplement of various nutrient elements like selenium (Se), silicon (Si), sulfur (S), nitrogen (N), iron (Fe) and zinc (Zn) has been found to impart dual benefits in terms of reduced As toxicity as well as enhance the nutritional quality of rice grains. Several other agronomic and biotechnological approaches, processing, and cooking methods of rice were found to have profound impacts on rice As and its speciation from farms to table.read more
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Journal ArticleDOI
Arsenic Remediation through Sustainable Phytoremediation Approaches
Sudhakar Srivastava,Anurakti Shukla,Vishnu D. Rajput,Kundan Kumar,Tatiana Minkina,Saglara Mandzhieva,Antonina Shmaraeva,Penna Suprasanna +7 more
TL;DR: In this article, a review of the potential and prospects of assisted phytoremediation approaches for arsenic decontamination in soil and water bodies is presented, and the usefulness of various plant systems in terms of high biomass, high As accumulation, bioenergy potential, and economic utility.
Journal ArticleDOI
An assessment of various potentially toxic elements and associated health risks in agricultural soil along the middle Gangetic basin, India.
Nidhi Tyagi,Munish Kumar Upadhyay,Arnab Majumdar,Saurabh Pathak,Biswajit Giri,Manoj K. Jaiswal,Sudhakar Srivastava +6 more
TL;DR: In this article , the levels of potentially toxic elements along with physico-chemical properties of agricultural soil samples (n = 59) collected from fields situated along the path of river Ganga in the middle Gangetic floodplain in two districts, Ballia and Ghazipur.
Journal ArticleDOI
Mineral biofortification and metal/metalloid accumulation in food crops: recent research and trends (Part I)
Mineral biofortification and metal/metalloid accumulation in food crops: recent research and trends (Part I)
TL;DR: In this article , the authors published the latest research on agronomic and genetic bio-fortification, and metal/metalloid accumulation in food crops, and developed the strategies for producing micronutrient-dense plant-based foods with the concentrations of heavy metal(loid)s below the maximum permissible levels.
Journal ArticleDOI
Transporters: the molecular drivers of arsenic stress tolerance in plants
Thorny Chanu Thounaojam,Zesmin Khan,Thounaojam Thomas Meetei,Sudhakar Srivastava,Sanjib Kumar Panda,Hrishikesh Upadhyaya +5 more
TL;DR: In this paper, the role of transporters becomes crucial as the central and prime regulator of As movement throughout the plant and in various cellular compartments, which is essential to understand the precise roles of different transporter involved in As uptake and transportation to avoid As accumulation and stress in plant.
References
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TL;DR: A global model for predicting groundwater arsenic levels suggests that 94 million to 220 million people are potentially exposed to high arsenic concentrations in groundwater, the vast majority of which are in Asia.
Journal ArticleDOI
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TL;DR: A member of the Oryza sativa C-type ATP-binding cassette transporter (OsABCC) family, OsABCC1, is involved in the detoxification and reduction of As in rice grains and was expressed in many organs, including the roots, leaves, nodes, peduncle, and rachis.
Journal ArticleDOI
Investigating the Contribution of the Phosphate Transport Pathway to Arsenic Accumulation in Rice
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Journal ArticleDOI
The Journey of Arsenic from Soil to Grain in Rice.
TL;DR: A detailed map of journey of As from soil to the grains is presented and the implications for the utilization of available knowledge in minimizing As in rice grains are presented.