1. Environmental Mercury Exposure – A Continuing Challenge
2. Mercury Contamination in Food : An Overview
3. Research Trend on Mercury (Hg) Contamination of Water Resources: A Bibliometric Review
4. Impact of mercury and its toxicity on health and environment: a general perspective
5. Effects of Mercury: Neurological and Cellular Perspective
6. Mercury Adsorption using Biowaste Biochar: A Green Technology Approach
7. Removal of Mercury of Wastewater by Different Natural Biomasses
8. Microbial Remediation of Mercury: An Overview
9. Remediation Strategies of Environmental Mercury: An Overview of its Environmental Persistence, Associated Threats and Health Impacts
10. Mercury Remediation: Easing Biochar Approach
11. Application and Development Strategies of Nano-Adsorbents on Mercury Remediation
12. Amputation of Mercury from Wastewater: Perspectives of Action Methods
13. Environmental Mercury Toxicity and its Bioremediation
14. Biosorption of Mercury from Aqueous Solutions by Biosorbents
Dr. Nitish Kumar is a senior assistant professor at the Department of Biotechnology, Central University of South Bihar, India. He completed his doctoral research at the Council of Scientific & Industrial Research (CSIR)–Central Salt & Marine Chemicals Research Institute, India. He has the research and teaching experience of more than 12 years in the field of plant and microbial biotechnology, and heavy metal bioremediation. He has published more than 70 research articles in international and national journals and more than 20 book chapters and 7 books with Springer and Taylor & Francis. Dr. Kumar was a recipient of the Young Scientist Award from the Science and Engineering Research Board (SERB) in 2014. He has received many awards and fellowships and acquired projects from various organizations.
This book presents mercury toxicity with respect to remediation and health issues. It covers sources of mercury contamination, its impact on human health, and prospective remediation by both bioremediation and phytoremediation with the application of recent advanced techniques such as genetic engineering and nanotechnology.
Both anthropogenic activities and natural processes cause the release of mercury into different spheres of the environment resulting in severe adverse impacts. Increased anthropogenic discharge of mercury leads to disturbance in its natural biogeochemical cycle, which results in unenviable diseases and hazardous health effects. Mercury pollution is responsible for causing neurobehavioral, kidney, heart, gastrointestinal, liver, and other diseases. Many published works about the impact of mercury on health are also available worldwide; however, there is no complete understanding available on toxicological studies of mercury that covers the broader spectrum of findings ranging from sources of exposure to mercury toxicity to its remediation strategies.
This book brings together a diverse group of environmental science, sustainability, and health researchers to address the challenges posed by global mass poisoning caused by mercury contamination. The book also proposes solutions to contamination through multi-disciplinary approaches.
The book contains three sections. The first part describes the different sources and distribution of mercury in soil and plant ecosystems. The second part explains the health risks linked to mercury toxicity. The third part addresses sustainable mercury toxicity mitigation strategies and the potential applications of recent technology in providing solutions. This book is a valuable resource to students, academics, researchers, and environmental professionals working in the field of mercury contamination.