Titlebook: Global Arsenic Hazard; Ecotoxicology and Re Nabeel Khan Niazi,Irshad Bibi,Tariq Aftab Book 2023 The Editor(s) (if applicable) and The Autho

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Karl F. Price,Daniel E. Lupton,Sarah Henry, and is related to both geogenic and anthropogenic sources. Exposure to As occurs primarily by the consumption of contaminated drinking water or food. Its dissolution as a result of redox reactions leads to natural prevalence of As in ground water. Several countries have reported the presence of As

古董

Global Arsenic Hazard and Sustainable Development,e than the organic ones. Both geogenic and anthropogenic sources led to contamination of terrestrial and aquatic ecosystems with variable As concentrations in over 115 countries worldwide, posing health risk to?~?250 million people. The pathways of As exposure to humans include drinking well water,

Cytokines

Global Arsenic Contamination of Groundwater, Soil and Food Crops and Health Impacts,d dangerous for the environment”. Environmental and food chain contamination by As has been described globally, especially in Asia. Numerous reports have reported high As contents in the groundwater of South-Asian countries, especially India and Bangladesh. According to several reports, globally abo

諄諄教誨

Arsenic Contamination in Rice and the Possible Mitigation Options,. Due to the large population density in Asian countries, such as India, Bangladesh, Pakistan, and China, the problem requires more serious attention. The importance of studying the dynamics of the metalloid in the soil-plant system, as well as the rice plant‘s inherent ability to uptake, transport,

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Arsenic Contamination in Karst Regions,rapid route for contaminants from the land surface to the underlying aquifer. Here we presented a review on As contamination in soils, surface water, underground water, and plants in karst regions, as well as As speciation transformation process in the environment. We aimed to provide state-of-the-a

Tincture

Arsenic Dynamics in Paddy Rice Ecosystems and Human Exposure,tal, economic, and public concern due to its adverse consequences on global rice production, food safety, and human health. Mining exploitation, weathering of As-bearing minerals, dissolution of aquifer sediments, and As-contaminated groundwater irrigation have extensively contributed to the contami

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avulsion

Accumulation and Translocation of Arsenic in Rice with Its Distributional Flow During Cooking: A Stjects in recent times. Arsenic translocates in rice plants in a descending manner from root to stem followed by leaf and grain. The present study finds the same descending translocation pattern in paddy grains of a single pedicel of paddy plants in both the arsenic exposed and control sites. The dis

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