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A review on fluoride contamination in groundwater and human health implications and its remediation: A sustainable approaches

Contamination of drinking water due to fluoride (F−) is a major concern worldwide. Although fluoride is an essential trace element required for humans, it has severe human health implications if levels exceed 1.5 mg. L−1 in groundwater. Several treatment technologies have been adopted to remove fluo...

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Published in:Environmental toxicology and pharmacology 2024-03, Vol.106, p.104356-104356, Article 104356
Main Authors: Kumar, Pankaj, Kumar, Manoj, Barnawi, Abdulwasa Bakr, Maurya, Parul, Singh, Snigdha, Shah, Deepankshi, Yadav, Virendra Kumar, Kumar, Anand, Kumar, Ramesh, Yadav, Krishna Kumar, Gacem, Amel, Ahmad, Akil, Patel, Ashish, Alreshidi, Maha Awjan, Singh, Vipin, Yaseen, Zaher Mundher, Cabral-Pinto, Marina M.S., Vinayak, Vandana, Wanale, Shivraj Gangadhar
Format: Article
Language:English
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Summary:Contamination of drinking water due to fluoride (F−) is a major concern worldwide. Although fluoride is an essential trace element required for humans, it has severe human health implications if levels exceed 1.5 mg. L−1 in groundwater. Several treatment technologies have been adopted to remove fluoride and reduce the exposure risk. The present article highlights the source, geochemistry, spatial distribution, and health implications of high fluoride in groundwater. Also, it discusses the underlying mechanisms and controlling factors of fluoride contamination. The problem of fluoride-contaminated water is more severe in India's arid and semiarid regions than in other Asian countries. Treatment technologies like adsorption, ion exchange, precipitation, electrolysis, electrocoagulation, nanofiltration, coagulation-precipitation, and bioremediation have been summarized along with case studies to look for suitable technology for fluoride exposure reduction. Although present technologies are efficient enough to remove fluoride, they have specific limitations regarding cost, labour intensity, and regeneration requirements.
ISSN:1382-6689
1872-7077
DOI:10.1016/j.etap.2023.104356