Recent Advances in Bioremediation and Phytoremediation

Kuanar, Ananya Kar, Dattatreya Das, Alok Prasad Se alle
Innbundet / 2025 / Engelsk

Produktdetaljer

ISBN
9783031778834
Publisert
2025-05-17
Utgiver
Vendor
Springer International Publishing AG
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, UP, 06, 05
Språk
Product language
Engelsk
Format
Product format
Innbundet

Redaktør
Kuanar, Ananya
Kar, Dattatreya
Das, Alok Prasad
Bhanja, Dipalee

Om bidragsyterne

Dr. Ananya Kuanar is an academician and author of several journal articles and books and an editorial member of books. She has research experience of more than 12 years. Her area of expertise includes plant Biotechnology, somaclonal variation, molecular analysis as well as neural network modelling. Further, she is interested in metabolic profiling of bioactive natural products using analytical approaches and phytoremediation.

 

 Dr. Dattatreya Kar is an academician and author of several journal articles and books and an editorial member of books. He has research experience of more than 10 years.  He is a distinguished researcher whose pioneering work bridges multiple disciplines including biotechnology, health science, phytoremediation, and environmental science.  With a passion for addressing some of the most pressing global challenges, his research focuses on leveraging advanced biotechnological techniques to enhance human health and environmental sustainability

 

Dr. Alok P Das is an academician and author of several books and journal articles and an editorial member of several reputed journals. His research experience has more than 12 years. Currently, his major work involves wastewater treatment, biotechnology, environmental pollution and management, microplastic and microfiber pollution bioremediation, and sustainability.

 

Ms. Dipalee Bhanja is a post-graduate scholar, with environmental biotechnology as a major research expertise. She is currently working at All India Institute of Medical Sciences, Bhubaneswar, Odisha, India. Her research is focused on biomedical pollution, its effect on the environment, its long-term consequences, and long-term sustainable technologies for biological remediation of these pollutants. She has more than 8 years of experience. Her area of expertise includes biomedical pollution, control, and its sustainable management.

Recent Advances in Bioremediation and Phytoremediation

Kuanar, Ananya Kar, Dattatreya Das, Alok Prasad Se alle
Innbundet / 2025 / Engelsk
Kuanar, Ananya Kar, Dattatreya Das, Alok Prasad Se alle
Innbundet / 2025 / Engelsk
Nettpris:
1.871,-
Kommer i salg 17.05.2025
Sjekk lagerstatus i butikk
This book focuses on a number of recently created and successfully used bio/phytoremediation technologies for pollution reduction and control that were not given more thorough discussion in earlier works. The earth's crust contains heavy metals naturally as one of its constituents. The main cause of the discharge of harmful metals into the soil and aquatic habitats, aside from natural sources, is man-made activity, particularly industrialization. As a result of various human activities, excessive amounts of heavy metals—including chromium, arsenic, lead, mercury, copper, and zinc—are released into the environment. These metals eventually contaminate agricultural soils and water bodies and have a negative effect on the ecosystem. Additionally, even at very low concentrations, heavy metal poses a dangerous threat to both humans and animals due to its tremendous toxicity. Appropriate remediation technology is needed to address the problems caused by toxic heavy metal contamination. The technology should be affordable, eco-friendly, and provide long-term solutions. Such required properties are offered by biological remediation approaches, such as microbial and phytoremediation, for the treatment of heavy metal contamination. The discussion of biological remediation technologies as a sustainable method involves several techniques involved in the removal of harmful heavy metals.
Les mer
This book focuses on a number of recently created and successfully used bio/phytoremediation technologies for pollution reduction and control that were not given more thorough discussion in earlier works. Appropriate remediation technology is needed to address the problems caused by toxic heavy metal contamination.
Les mer
Bioremediation from Soil and Aquatic Environment.- Phytoremediation of environmental emerging pollutants.- Advanced Bioremediation Techniques for Emerging Pollutants.- Phytoremediation as an sustainable solution for pollution remediation.- Novel Bioremediation approaches with circular economic.- Phytoremediation's Function in the Remediation of Heavy Metal-Polluted Soils.- Challenges and opportunities for effective Bioremediation.- Advanced and smart technology for Bioremediation.- Bioremediation of Landfills for pollution abatement.- Biomedical Waste Contaminated Sites Phytoremediation.- Improved Crops and Sustainable Soil Health: New Bioremediation Trends.- Emerging and Advanced green energy technologies for pollution reduction.- Green technologies for sustainable waste management.- Sustainable Technology in the development of novel processes and products.- Bioremediation for waste resources management and sustainable economy.
Les mer
This book focuses on a number of recently created and successfully used bio/phytoremediation technologies for pollution reduction and control that were not given more thorough discussion in earlier works. The earth's crust contains heavy metals naturally as one of its constituents. The main cause of the discharge of harmful metals into the soil and aquatic habitats, aside from natural sources, is man-made activity, particularly industrialization. As a result of various human activities, excessive amounts of heavy metals—including chromium, arsenic, lead, mercury, copper, and zinc—are released into the environment. These metals eventually contaminate agricultural soils and water bodies and have a negative effect on the ecosystem. Additionally, even at very low concentrations, heavy metal poses a dangerous threat to both humans and animals due to its tremendous toxicity. Appropriate remediation technology is needed to address the problems caused by toxic heavy metal contamination. The technology should be affordable, eco-friendly, and provide long-term solutions. Such required properties are offered by biological remediation approaches, such as microbial and phytoremediation, for the treatment of heavy metal contamination. The discussion of biological remediation technologies as a sustainable method involves several techniques involved in the removal of harmful heavy metals.
Les mer
Covers every aspect of the multidisciplinary topic of bio- and phytoremediation Is useful to plant biologists, biotechnologists, and environmental Explains modern bioremediation methods in both the lab and the field
Les mer
GPSR Compliance The European Union's (EU) General Product Safety Regulation (GPSR) is a set of rules that requires consumer products to be safe and our obligations to ensure this. If you have any concerns about our products you can contact us on ProductSafety@springernature.com. In case Publisher is established outside the EU, the EU authorized representative is: Springer Nature Customer Service Center GmbH Europaplatz 3 69115 Heidelberg, Germany ProductSafety@springernature.com
Les mer

Relaterte produkter

This book focuses on a number of recently created and successfully used bio/phytoremediation technologies for pollution reduction and control that were not given more thorough discussion in earlier works. The earth's crust contains heavy metals naturally as one of its constituents. The main cause of the discharge of harmful metals into the soil and aquatic habitats, aside from natural sources, is man-made activity, particularly industrialization. As a result of various human activities, excessive amounts of heavy metals—including chromium, arsenic, lead, mercury, copper, and zinc—are released into the environment. These metals eventually contaminate agricultural soils and water bodies and have a negative effect on the ecosystem. Additionally, even at very low concentrations, heavy metal poses a dangerous threat to both humans and animals due to its tremendous toxicity. Appropriate remediation technology is needed to address the problems caused by toxic heavy metal contamination. The technology should be affordable, eco-friendly, and provide long-term solutions. Such required properties are offered by biological remediation approaches, such as microbial and phytoremediation, for the treatment of heavy metal contamination. The discussion of biological remediation technologies as a sustainable method involves several techniques involved in the removal of harmful heavy metals.
Les mer
This book focuses on a number of recently created and successfully used bio/phytoremediation technologies for pollution reduction and control that were not given more thorough discussion in earlier works. Appropriate remediation technology is needed to address the problems caused by toxic heavy metal contamination.
Les mer
Bioremediation from Soil and Aquatic Environment.- Phytoremediation of environmental emerging pollutants.- Advanced Bioremediation Techniques for Emerging Pollutants.- Phytoremediation as an sustainable solution for pollution remediation.- Novel Bioremediation approaches with circular economic.- Phytoremediation's Function in the Remediation of Heavy Metal-Polluted Soils.- Challenges and opportunities for effective Bioremediation.- Advanced and smart technology for Bioremediation.- Bioremediation of Landfills for pollution abatement.- Biomedical Waste Contaminated Sites Phytoremediation.- Improved Crops and Sustainable Soil Health: New Bioremediation Trends.- Emerging and Advanced green energy technologies for pollution reduction.- Green technologies for sustainable waste management.- Sustainable Technology in the development of novel processes and products.- Bioremediation for waste resources management and sustainable economy.
Les mer
This book focuses on a number of recently created and successfully used bio/phytoremediation technologies for pollution reduction and control that were not given more thorough discussion in earlier works. The earth's crust contains heavy metals naturally as one of its constituents. The main cause of the discharge of harmful metals into the soil and aquatic habitats, aside from natural sources, is man-made activity, particularly industrialization. As a result of various human activities, excessive amounts of heavy metals—including chromium, arsenic, lead, mercury, copper, and zinc—are released into the environment. These metals eventually contaminate agricultural soils and water bodies and have a negative effect on the ecosystem. Additionally, even at very low concentrations, heavy metal poses a dangerous threat to both humans and animals due to its tremendous toxicity. Appropriate remediation technology is needed to address the problems caused by toxic heavy metal contamination. The technology should be affordable, eco-friendly, and provide long-term solutions. Such required properties are offered by biological remediation approaches, such as microbial and phytoremediation, for the treatment of heavy metal contamination. The discussion of biological remediation technologies as a sustainable method involves several techniques involved in the removal of harmful heavy metals.
Les mer
Covers every aspect of the multidisciplinary topic of bio- and phytoremediation Is useful to plant biologists, biotechnologists, and environmental Explains modern bioremediation methods in both the lab and the field
Les mer
GPSR Compliance The European Union's (EU) General Product Safety Regulation (GPSR) is a set of rules that requires consumer products to be safe and our obligations to ensure this. If you have any concerns about our products you can contact us on ProductSafety@springernature.com. In case Publisher is established outside the EU, the EU authorized representative is: Springer Nature Customer Service Center GmbH Europaplatz 3 69115 Heidelberg, Germany ProductSafety@springernature.com
Les mer

Produktdetaljer

ISBN
9783031778834
Publisert
2025-05-17
Utgiver
Vendor
Springer International Publishing AG
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, UP, 06, 05
Språk
Product language
Engelsk
Format
Product format
Innbundet

Redaktør
Kuanar, Ananya
Kar, Dattatreya
Das, Alok Prasad
Bhanja, Dipalee

Om bidragsyterne

Dr. Ananya Kuanar is an academician and author of several journal articles and books and an editorial member of books. She has research experience of more than 12 years. Her area of expertise includes plant Biotechnology, somaclonal variation, molecular analysis as well as neural network modelling. Further, she is interested in metabolic profiling of bioactive natural products using analytical approaches and phytoremediation.

 

 Dr. Dattatreya Kar is an academician and author of several journal articles and books and an editorial member of books. He has research experience of more than 10 years.  He is a distinguished researcher whose pioneering work bridges multiple disciplines including biotechnology, health science, phytoremediation, and environmental science.  With a passion for addressing some of the most pressing global challenges, his research focuses on leveraging advanced biotechnological techniques to enhance human health and environmental sustainability

 

Dr. Alok P Das is an academician and author of several books and journal articles and an editorial member of several reputed journals. His research experience has more than 12 years. Currently, his major work involves wastewater treatment, biotechnology, environmental pollution and management, microplastic and microfiber pollution bioremediation, and sustainability.

 

Ms. Dipalee Bhanja is a post-graduate scholar, with environmental biotechnology as a major research expertise. She is currently working at All India Institute of Medical Sciences, Bhubaneswar, Odisha, India. Her research is focused on biomedical pollution, its effect on the environment, its long-term consequences, and long-term sustainable technologies for biological remediation of these pollutants. She has more than 8 years of experience. Her area of expertise includes biomedical pollution, control, and its sustainable management.

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