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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Holger Luczak,Marie-Christine Stemannh makes water not assessable to use is its contamination. The issue of arsenic contamination has emerged as a serious health concern in Pakistan. Pakistani population is exposed not only to toxic but poisonous levels of arsenic contamination. Only in Punjab province more than 20% population is expos

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Buildsoc: Does Teamworking Mean Team Pay?,le globally at risk of As toxicity. Arsenic contamination has been reported in more than 115 countries worldwide especially in Asian and Southeast Asian countries, including in Bangladesh, China, Pakistan, India. In contrast to conventional and some advanced techniques (e.g., ion exchange, nanotechn

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https://doi.org/10.1057/978-1-137-57306-3s-contaminated food crops. Although numerous conventional techniques have been introduced to remove As from drinking water and wastewater, sorption is considered one of the most promising approach. Here, we provided emphasis on the potential of nano-enabled As remediation using various nanomaterials

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https://doi.org/10.1007/978-0-230-29751-7ons are made. Molecular mechanisms which are involved in As-resistance and tolerance are attributed to three domains- genomics, transcriptomics and proteomics. From the deep underground aquifers, As is released due to microbial activities to the surface soil where other microbial communities tackle

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https://doi.org/10.1007/978-3-322-97630-7, proper management strategy should be developed to enhance the phytoextraction potential of hyperaccumulator and minimize the bioavailability and As contamination to agricultural crops. A greenhouse study was evaluated to assess the effectiveness of phosphatic fertilisers viz. di-ammonium phosphate

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Karin Sanders,Cai-Hui Lin ? (,)n many industrialized countries. About 170 million people in the world are affected by long-term exposure to arsenic-contaminated groundwater. Exposure of plants to arsenic, even at low concentrations, causes many major morphological, physiological, and biochemical disturbances. The traditional memb

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James D. Portwood,Robert W. Eichingersignificant impact on the toxicity of arsenic because the microorganisms interact with it in different ways such as sorption, reduction, oxidation and methylation etc. This chapter covers the microbial processes which have the impact on the fate as well as mobility of As in the environment with a sp