Mechanisms of microbial resistance against cadmium – a review

The escalating cadmium influx from industrial activities and anthropogenic sources has raised serious environmental concerns due to its toxic effects on ecosystems and human health. This review delves into the intricate mechanisms underlying microbial resistance to cadmium, shedding light on the mul...

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Bibliographic Details
Published in:Journal of environmental health science and engineering 2024-06, Vol.22 (1), p.13-30
Main Authors: Sharma, Monu, Sharma, Sonu, Paavan, Gupta, Mahiti, Goyal, Soniya, Talukder, Daizee, Akhtar, Mohd. Sayeed, Kumar, Raman, Umar, Ahmad, Alkhanjaf, Abdulrab Ahmed M., Baskoutas, Sotirios
Format: Article
Language:English
Subjects:
Biodegradation
Bioremediation
Bone density
Bone growth
Bones
Book publishing
Cadmium
Calculi
Density
Detoxification
Drug resistance in microorganisms
Earth and Environmental Science
Ecosystems
Effectiveness
Efflux
Environment
Environmental Economics
Environmental Engineering/Biotechnology
Environmental Health
Environmental Law/Policy/Ecojustice
Enzymes
Heavy metals
Human influences
Industrial areas
International economic relations
Ion exchange
Kidney stones
Membrane degradation
Metal ions
Microorganisms
Nephrolithiasis
Photodegradation
Plant metabolism
Pollution
Quality of Life Research
Renal cell carcinoma
Reverse osmosis
Review
Review Article
Reviews
Sustainable remediation
Waste Management/Waste Technology
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Summary:The escalating cadmium influx from industrial activities and anthropogenic sources has raised serious environmental concerns due to its toxic effects on ecosystems and human health. This review delves into the intricate mechanisms underlying microbial resistance to cadmium, shedding light on the multifaceted interplay between microorganisms and this hazardous heavy metal. Cadmium overexposure elicits severe health repercussions, including renal carcinoma, mucous membrane degradation, bone density loss, and kidney stone formation in humans. Moreover, its deleterious impact extends to animal and plant metabolism. While physico-chemical methods like reverse osmosis and ion exchange are employed to mitigate cadmium contamination, their costliness and incomplete efficacy necessitate alternative strategies. Microbes, particularly bacteria and fungi, exhibit remarkable resilience to elevated cadmium concentrations through intricate resistance mechanisms. This paper elucidates the ingenious strategies employed by these microorganisms to combat cadmium stress, encompassing metal ion sequestration, efflux pumps, and enzymatic detoxification pathways. Bioremediation emerges as a promising avenue for tackling cadmium pollution, leveraging microorganisms' ability to transform toxic cadmium forms into less hazardous derivatives. Unlike conventional methods, bioremediation offers a cost-effective, environmentally benign, and efficient approach. This review amalgamates the current understanding of microbial cadmium resistance mechanisms, highlighting their potential for sustainable remediation strategies. By unraveling the intricate interactions between microorganisms and cadmium, this study contributes to advancing our knowledge of bioremediation approaches, thereby paving the way for safer and more effective cadmium mitigation practices.
ISSN:2052-336X
2052-336X
DOI:10.1007/s40201-023-00887-6