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  • 1
    Online Resource
    Online Resource
    Arsenic Toxicity : Challenges and Solutions. (2021)
    Singapore :Springer,
    Details
    Keywords: Plant physiology. ; Electronic books.
    Type of Medium: Online Resource
    Pages: 1 online resource (411 pages)
    Edition: 1st ed.
    ISBN: 9789813360686
    URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=6480207
    DDC: 553.47
    Language: English
    Note: Intro -- Contents -- About the Editor -- 1: Predicting the Outcome of Arsenic Toxicity on Exposed Juvenile Male-Humans: A Shift to Infertility -- 1.1 Introduction to Arsenic -- 1.1.1 Applications of Arsenic -- 1.1.2 Environmental Arsenic -- 1.1.3 The Outcome of Arsenic Concentration in the Environment -- 1.1.4 How Arsenic Contaminate the Water -- 1.1.5 Effects of Arsenic on Human Health -- 1.2 Absorption, Distribution, and Excretion of Arsenic -- 1.2.1 Metabolism of Arsenic -- 1.2.2 The Role of Arsenic in Male Reproductive Functions -- 1.2.3 Impairment of the Male Reproductive System by Arsenic -- 1.2.4 How Arsenic Impact the Male Reproductive System -- 1.2.5 How Arsenic Weakens Spermatogenesis in Male Rat Testis -- 1.2.6 How Arsenic Obstructs Insemination of Rat Sperm -- 1.3 Mechanism of Arsenic Toxicity on the ERK/AKT/NF-κB-Pathway: A Molecular Perspective -- 1.4 Conclusion -- References -- 2: Arsenic and Oxidative Stress: An Overview -- 2.1 Generation of ROS in Oxidative Stress -- 2.2 Arsenic and Oxidative Stress -- 2.3 Arsenic Detoxification Mechanisms (Methylation of Arsenic) -- 2.4 Arsenic and Signaling Pathways -- 2.5 Arsenic and Antioxidant Enzymes Activity -- 2.6 The Effect of Arsenic-Induced Oxidative Stress on Proteins -- 2.7 Arsenic-Induced Oxidative Stress and DNA -- 2.8 The Effect of Arsenic-Induced Oxidative Stress on Lipid -- 2.9 The Effect of Arsenic-Induced Oxidative Stress on Carbohydrates -- 2.10 Arsenic-Induced Oxidative Stress and Some Disorders -- 2.10.1 Oxidative Stress and Diabetes -- 2.10.1.1 Arsenic Toxicity and Diabetes Mellitus (DM) -- 2.10.2 Oxidative Stress and Arteriosclerosis -- 2.10.2.1 ROS-Induced Damage to Vascular Function -- 2.10.2.2 Arsenic Toxicity and Atherosclerosis -- 2.10.3 Oxidative Stress and Neurodegenerative Disease -- 2.10.3.1 Oxidative Damage in Alzheimer´s Disease. , 2.10.3.2 Parkinson´s Disease and Oxidative Stress -- 2.10.3.3 Arsenic Toxicity and Neurodegenerative Disease -- 2.10.4 Infertility and Oxidative Stress -- 2.10.4.1 Arsenic Toxicity and Infertility -- References -- 3: Arsenic in Seafood: Current Status, Analysis, and Toxicity -- 3.1 Introduction -- 3.2 The Accumulation of Arsenic in Seafood -- 3.3 Arsenic Speciation in Seafood -- 3.4 Extraction and Detection Techniques of As in Seafood -- 3.5 Microextraction Techniques -- 3.6 As Content in Commonly Consumed Seafood -- 3.7 International Regulation of As in Seafood -- 3.8 Bioavailability and Bioaccessibility of As -- 3.9 Cooking Effect of As in Seafood -- 3.10 Risk Assessment of As and Seafood -- 3.11 Conclusions -- References -- 4: Dietary Arsenic Exposure: Sources and Risks -- 4.1 Introduction -- 4.2 Arsenic Sources in Foodstuffs -- 4.3 Health Effects of Dietary Arsenic Exposure -- 4.3.1 Chronic Exposure -- 4.3.1.1 Skin Manifestations -- 4.3.1.2 Cancer -- 4.3.1.3 Respiratory Disease -- 4.3.1.4 Liver Disease -- 4.3.1.5 Cardiovascular Diseases -- 4.3.1.6 Nervous System -- 4.3.1.7 Reproductive Effects -- 4.3.2 Acute and Intermediate Exposure -- 4.4 Vulnerable Populations -- 4.4.1 Effects on Foetal Development and Infants -- 4.4.2 Effects on Children and Adults -- 4.4.3 Effects Due to Gender Difference -- 4.4.4 Effects Due to Nutritional Variation -- 4.5 Estimating of Arsenic and Its Species in Food -- 4.6 Arsenic Exposure from Different Foodstuff -- 4.6.1 Rice and Rice Products -- 4.6.2 Seafood -- 4.6.3 Vegetables -- 4.6.4 Other Foodstuffs -- 4.7 Dietary iAs Intake: Status of Toxicological Assessments -- 4.8 Dietary iAs Exposure Assessment -- 4.8.1 Biomarkers of Human Arsenic Exposure -- 4.9 Regulatory Policies Concerning Arsenic in Food -- 4.10 Prioritizing Intervention Opportunities -- References. , 5: Effects of Arsenic: Neurological and Cellular Perspective -- 5.1 Introduction -- 5.2 Natural and Anthropogenic Sources of Arsenic and Their Exposure -- 5.3 Arsenic Toxicity: Clinical Manifestations -- 5.3.1 Acute Toxicity Due to Arsenic Exposure -- 5.3.2 Chronic Toxicity Due to Arsenic Exposure -- 5.4 Effects of Arsenic on the Nervous System -- 5.5 Stage Specific Arsenic Neurotoxicity -- 5.5.1 In Foetal and Children Development -- 5.5.2 In Adults -- 5.5.3 Neurodegeneration -- 5.6 Arsenic Metabolism and Its Metabolites -- 5.6.1 Arsenic Transportation into the Brain -- 5.6.2 Inorganic Arsenic Metabolic Pathway and Methylation -- 5.6.2.1 Oxidative Methylation -- 5.6.2.2 Inorganic Arsenic Glutathione (GSH) Conjugation -- 5.7 Arsenic Induced Toxicity Mechanism -- 5.7.1 Mitochondrial Dysfunction and ROS Production -- 5.7.2 Thiamine Deficiency -- 5.7.3 Decreased Acetylcholinesterase Enzyme Activity -- 5.7.4 Epigenetics Modification -- 5.7.5 Apoptosis -- 5.7.6 Inflammation -- 5.8 Diagnosis and Treatment -- 5.9 Conclusion and Future Perspective -- References -- 6: Arsenic: Source, Distribution, Toxicity and Bioremediation -- 6.1 Arsenic -- 6.2 Source of Arsenic -- 6.2.1 Natural -- 6.2.2 Anthropogenic -- 6.2.3 Source of Exposer to Arsenic -- 6.3 Arsenic Distribution -- 6.4 Arsenic Toxicity -- 6.5 Bioremediation of Arsenic -- 6.5.1 Arsenic Uptake and Extrusion System in Bacteria -- 6.5.2 Bacterial Arsenite Oxidation -- 6.5.3 Bacterial Arsenate Reduction -- 6.5.4 Arsenic Methylation in Bacteria -- 6.6 Conclusion -- References -- 7: Assessment of Arsenic Contamination in Groundwater and Affected Population of Bihar -- 7.1 Introduction -- 7.2 Arsenic Problem in Indian Subcontinent -- 7.3 Arsenic Problem in State of Bihar -- 7.4 Assessment of Arsenic Poisoning in Districts of Bihar -- 7.5 Disease Burden -- 7.6 Mitigation Strategies in Bihar -- References. , 8: Current Scenario of Groundwater Arsenic Contamination in West Bengal and Its Mitigation Approach -- 8.1 Background on Arsenic -- 8.1.1 Chemistry of Arsenic Found in Ground Water -- 8.2 Groundwater Arsenic Contamination a Serious Issue Worldwide -- 8.3 Groundwater Arsenic Contamination Scenario in India -- 8.3.1 Arsenic Contamination in Groundwater in Delta Basin of River Ganga -- 8.3.2 Current Scenario of Groundwater Arsenic Contamination in West Bengal -- 8.4 Health Effect of Arsenic Toxicity in Human -- 8.4.1 Arsenic Uptake and Metabolism -- 8.4.2 Toxicity of Arsenic -- 8.4.3 Epidemiology -- 8.4.4 Cytotoxicity -- 8.4.5 Genotoxicity -- 8.5 Current Mitigation Measures Used for Arsenic Mitigation in West Bengal -- 8.5.1 Deep Groundwater -- 8.5.2 Shallow Groundwater (Well Switching) -- 8.5.3 Dug Well Water -- 8.5.4 Surface Water -- 8.5.5 Rainwater Harvesting -- 8.6 Advanced Arsenic Mitigation Approach Applied in West Bengal -- 8.6.1 Oxidation -- 8.6.2 Coagulation-Flocculation -- 8.6.3 Adsorption -- 8.6.4 Latest Advancements in Arsenic Removal Through Adsorption Technology in West Bengal -- 8.6.5 Biological Arsenic Removal Through Microbes -- References -- 9: Low-Cost Nanoparticles for Remediation of Arsenic Contaminated Water and Soils -- 9.1 Introduction -- 9.2 The Adsorption Process -- 9.3 Low-Cost Nanomaterials for Environmental Remediation -- 9.3.1 Nanocellulose -- 9.3.1.1 Green Technology for Production of Cellulose Nanocrystals (CNCs) and Nanofibers -- 9.3.1.2 Nanocellulose-Based Adsorbents -- 9.3.2 Iron Oxides/Hydroxides Nanoparticle -- 9.3.3 Green Synthesized Nanoparticles -- 9.3.3.1 Green Synthesized Magnetic Nanoparticles -- 9.3.3.2 Green Synthesized Zero-Valent Iron Nanoparticles -- 9.3.4 Titanium Dioxide Nanoparticles -- 9.3.5 Nanosized Biochar -- 9.3.5.1 Biochar Magnetic Nanocomposites -- 9.3.6 Nanoparticles of Industrial Waste. , 9.3.7 Silica Based Nanoparticles -- 9.3.8 Nanoparticles from Agricultural Waste -- 9.4 Potential Nanoparticles Derived from Water Industry By-products for Arsenic Stabilization in Contaminated Soils -- 9.5 Mechanism of As Adsorption by Nanoparticles and Nanocomposites -- 9.5.1 On Iron Sites -- 9.5.2 On Aluminum Sites -- References -- 10: Biological Means of Arsenic Minimization with Special Reference to Siderophore -- 10.1 Introduction -- 10.2 Biochemistry of Arsenic -- 10.3 Arsenic Detoxification in Organisms -- 10.3.1 Arsenic Detoxification in Plants -- 10.3.2 Arsenic Detoxification in Microbes -- 10.3.3 Arsenic Detoxification in Animals -- 10.4 Chemistry of Siderophore Metal Chelation -- 10.5 Siderophore Mediated Arsenic Mitigation -- 10.6 Conclusion -- References -- 11: Mechanisms of Arsenic Transport, Accumulation, and Distribution in Rice -- 11.1 Introduction -- 11.2 Arsenic Transport in Rice -- 11.2.1 Arsenic Uptake -- 11.2.2 Translocation of Arsenic from Root to Rice Grains -- 11.2.2.1 Xylem Loading -- 11.2.2.2 Phloem Loading -- 11.3 Major Intrinsic Proteins (MIPs) in Arsenic Transport -- 11.3.1 Plasma Membrane Intrinsic Proteins (PIPs) -- 11.3.2 Nodulin-26 like Intrinsic Proteins (NIPs) -- 11.4 Transporters of Arsenic Other Than PIPs and NIPs -- 11.5 Proposed Mechanism of Arsenic Transport in Rice -- 11.6 Arsenic Accumulation -- 11.7 Arsenic Distribution in Rice Grain -- 11.8 Conclusion -- References -- 12: The Healing Art of Arsenic in Various Malignancies -- 12.1 Introduction -- 12.2 Historical Background of ATO in Medicine -- 12.3 Arsenic in Ayurveda Medicine -- 12.4 Arsenic Trioxide Against Various Tumors -- 12.4.1 Leukemia -- 12.4.1.1 Arsenic a Key Enzyme Blocker in Acute Promyelocytic Leukemia -- 12.4.1.2 Induction of Differentiation -- 12.4.1.3 Triggers Apoptosis -- 12.4.1.4 Other Related Mechanisms -- 12.4.2 Breast Cancer. , 12.4.2.1 ATO and let-7a in Notch Signaling.
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  • 2
    Online Resource
    Online Resource
    Arsenic Toxicity Remediation: Biotechnological Approaches (2023)
    Cham : Springer Nature Switzerland | Cham : Imprint: Springer
    Details Availability
    Keywords: Environmental management. ; Biochemical engineering. ; Environmental engineering. ; Biotechnology. ; Bioremediation. ; Environmental health. ; Toxicology.
    Description / Table of Contents: Source and distribution Arsenic in soil and aquatic ecosystem – A review -- Arsenic dynamics in contaminated soil and water- A review -- Arsenic Speciation: An Overview -- Groundwater Arsenic Contamination in India: Vulnerability and Scope for Remedy -- Arsenic Contamination of Soil and Water and Related Bio-hazards in Bangladesh -- Ecotoxicology of arsenic in the marine environment -- Human Health Effects of Chronic Arsenic Exposure -- Arsenicosis: review of recent advances -- Effects of Arsenic: Neurological and Cellular Perspective -- Understanding the Bioaccumulation and Biosorption of Arsenic [As(III)] in Plants and water and Biotechnological Approaches for Its Bioremediation -- Microbial biotechnology as an emerging wastewater treatment process for arsenic mitigation: A critical review -- The role of plant growth promoting bacteria on arsenic removal: A review of existing perspectives -- Alginate-based biotechnology: A review on the arsenic removal technologies and future possibilities -- Arsenic Phytoremediation: a Feasible Approach in the Near Future -- Removal of arsenic from water using nano adsorbents and challenges: An updated review -- Developments in Nanoadsorbents for the Treatment of Arsenic-Contaminated Water -- In silico approach for bioremediation of arsenic-A review.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(VI, 340 p. 58 illus., 43 illus. in color.)
    Edition: 1st ed. 2023.
    ISBN: 9783031375613
    Series Statement: Environmental Science and Engineering
    URL: https://doi.org/10.1007/978-3-031-37561-3
    DOI: 10.1007/978-3-031-37561-3
    Language: English
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  • 3
    Online Resource
    Online Resource
    Plant Mutagenesis : Sustainable Agriculture and Rural Landscapes (2024)
    Cham : Springer Nature Switzerland | Cham : Imprint: Springer
    Details Availability
    Keywords: Sustainability. ; Agriculture. ; Food science.
    Description / Table of Contents: 1. Application of Mutagenesis in food production and sustainable development -- 2. Recent Perspectives of Mutation Breeding for Crop Improvement -- 3. Mutagenesis Breeding for Drought-Tolerance and Improvement of Oil and Seed Quality in Oilseed Crops: Case of Rapeseed and Sesame -- 4. Intellectual property over mutant and gene edited plants -- 5. Genome editing based CRISPR system in crop improvement -- 6. Haploids system in mutation breeding -- 7. Use of chemical mutagens in field crop breeding -- 8. Application of somaclonal variations in crop improvements -- 9. Improvement in fruit crop plants through mutation breeding -- 10. Application of In Vitro Mutagenesis in Plant Tissue Culture for Genetic Improvement of Crop Plants -- 11. Use of Gamma Irradiation in Crop Mutation Breeding -- 12. Genetic Improvement of Rural Landraces through Mutation Research -- 13. Development of Rural Landraces through Mutation Breeding Approaches -- 14. Application of Mutagenesis and Genome editing in crop Plants -- 15. Mutagenesis- A Tool for Improving Rice Landraces -- 16. The development of improved landraces in agriculture for rural development.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(XI, 217 p. 25 illus., 18 illus. in color.)
    Edition: 1st ed. 2024.
    ISBN: 9783031507298
    Series Statement: Sustainable Landscape Planning and Natural Resources Management, IEREK Interdisciplinary Series for Sustainable Development
    URL: https://doi.org/10.1007/978-3-031-50729-8
    DOI: 10.1007/978-3-031-50729-8
    Language: English
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  • 4
    Online Resource
    Online Resource
    Chromium in Plants and Environment (2023)
    Cham : Springer Nature Switzerland | Cham : Imprint: Springer
    Details Availability
    Keywords: Environmental engineering. ; Biotechnology. ; Bioremediation. ; Environmental health. ; Biogeography.
    Description / Table of Contents: Chromium: Sources, speciation, toxicity and chemistry -- Chromium dynamics in the soil-plant continuum -- Distribution of Cr in soil and its uptake by plants -- Chromium profile in soil, fodders and plasma of crossbreed cattle -- Speciation, chemistry, geogenic formation and dispersion of Chromium in groundwater -- Health risk linked to Cr toxicity in food and environment -- Health impacts of Cr contamination on human health -- A critical evaluation of chromium (III) ecotoxicity to aquatic and terrestrial plants -- Antioxidant defense: A key mechanism of Cr tolerance -- Effects and responses of Cr in plants -- Molecular mechanisms of chromium tolerance in plants: a key role of antioxidant defense -- Microbial remediation technologies for chromium removal: Mechanism, challenges and Future prospect -- Employing microbes for Cr removal -- Toxicity of rhizospheric chromium contaminated soil and its phytoremediation -- Phytoremediation Cr from soil/water -- Genetic engineering for Cr removal -- Toxicity of hexavalent Chromium: A review.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(VIII, 479 p. 63 illus., 44 illus. in color.)
    Edition: 1st ed. 2023.
    ISBN: 9783031440298
    Series Statement: Environmental Science and Engineering
    URL: https://doi.org/10.1007/978-3-031-44029-8
    DOI: 10.1007/978-3-031-44029-8
    Language: English
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  • 5
    Online Resource
    Online Resource
    Heavy Metal Remediation : Sustainable Nexus Approach (2024)
    Cham : Springer Nature Switzerland | Cham : Imprint: Springer
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    Keywords: Environmental engineering. ; Biotechnology. ; Bioremediation. ; Biomedical engineering. ; Nanotechnology. ; Environmental health. ; Sustainability. ; Pollution.
    Description / Table of Contents: Heavy metals, in general trace elements, are one of the major environmental problems. Nowadays, increasing environmental and global public health concerns related with environmental contamination by heavy metals are well known. Moreover, human exposure has risen dramatically because of an exponential increase of their use in several activities such as agricultural, industrial, technological and urban applications. They are presented in soils, water and atmosphere and they are a serious risk for the food chain. Approximately 10 million contaminated sites have been reported globally, occupying approximately 49.42 million acres of land, of which 〉50% is contaminated with toxic heavy metals. This situation warrants immediate attention to limit the introduction of heavy metals into soil systems and to remove the prevailing heavy metals from polluted soils. However, the majorities of existing heavy-metal-removal technologies are expensive, inefficient, or generate secondary pollutants. Therefore, it is of great importance to develop cheaper, environmentally friendly and sustainable approaches (including the development of new immobilizing agents) to manage and rehabilitate heavy-metal-contaminated soils. In the light of the aforementioned facts, this book sheds light on this global environmental issue, and proposes solutions to contamination through multi-disciplinary approaches and case studies from different parts of the world. It addresses sustainable heavy metal contamination remediation strategies using the potential applications of recent biological technology such as biotechnology, bioremediation, phytoremediation, biochar, absorbent, genetic engineering, and nanotechnology approaches. This book is of interest to researchers, teachers, environmental scientists, environmental engineers, environmentalists, and policy makers. Also, the book serves as additional reading material for undergraduate and graduate students of environmental microbiology, biotechnology, eco-toxicology, environmental remediation, waste management, and environmental sciences as well as the general audience.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(X, 337 p. 40 illus., 35 illus. in color.)
    Edition: 1st ed. 2024.
    ISBN: 9783031536885
    Series Statement: Earth and Environmental Sciences Library
    URL: https://doi.org/10.1007/978-3-031-53688-5
    DOI: 10.1007/978-3-031-53688-5
    Language: English
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  • 6
    Online Resource
    Online Resource
    Mercury Toxicity Mitigation: Sustainable Nexus Approach (2024)
    Cham : Springer Nature Switzerland | Cham : Imprint: Springer
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    Keywords: Environmental engineering. ; Biotechnology. ; Bioremediation. ; Environmental health. ; Environmental chemistry. ; Pollution.
    Description / Table of Contents: Chapter 1. Introduction to "Salinity Resilience and Sustainable Crop Production under Climate Change -- Chapter 2. Salinity and its Impact on Sustainable Crop Production -- Chapter 3. Salinity and its Impact on Sustainable Crop Production -- Chapter 4. Fundamentals of Crop Resilience to Salinity, Plant Traits and Selection Criteria -- Chapter 5. Genetic Variability and Genetic Resources for Salinity Resilience -- Chapter 6. Genetic Analysis of Salinity Tolerance and Relevant Traits in Field Crops -- Chapter 7. Breeding Efforts and Biotechnology -- Chapter 9. Mitigation Options towards Sustainability via Agricultural Practices -- Chapter 10. Techniques and Measurements of Assessing Genotypes Update, General Conclusions and Recommendations of “ Salinity Resilience and Sustainable Crop Production under Climate Change" for Salinity tolerance.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(XI, 281 p. 31 illus., 29 illus. in color.)
    Edition: 1st ed. 2024.
    ISBN: 9783031488177
    Series Statement: Earth and Environmental Sciences Library
    URL: https://doi.org/10.1007/978-3-031-48817-7
    DOI: 10.1007/978-3-031-48817-7
    Language: English
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  • 7
    Online Resource
    Online Resource
    Hydroponics and Environmental Bioremediation : Wastewater Treatment (2024)
    Cham : Springer Nature Switzerland | Cham : Imprint: Springer
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    Keywords: Water. ; Hydrology. ; Pollution. ; Botany. ; Environmental management. ; Biotechnology.
    Description / Table of Contents: 1. Hydroponics: A Significant Method for Phytoremediation -- 2. Bioremediation of wastewater using hydroponics -- 3. Sustainable Approach for Agriculture and Environmental Remediation using Hydroponics and their Perspectives -- 4. Applications of hydroponic systems in phytoremediation of wastewater -- 5. Environmental Remediation Using Hydroponics -- 6. Hydroponic Removal of Organic Contaminants from Water -- 7. Harnessing the Power of Plants in Hydroponics for Wastewater Treatment and Bioremediation -- 8. Book: Hydroponics and Environmental Bioremediation -- 9. Hydroponic: An Eco-friendly Future -- 10. Hydroponic root mats for wastewater treatment: a review -- 11. Soilless Cultivation of Plants for Phytoremediation -- 12. Effect Of Bio-Sorptive Removal Of Heavy Metals From Hydroponic Solution: A Review -- 13. Hydroponics Phytoremediation: An Overview -- 14. Hydroponics Removal of Wastewater’s Contaminants.-.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(XIII, 407 p. 44 illus., 42 illus. in color.)
    Edition: 1st ed. 2024.
    ISBN: 9783031532580
    Series Statement: Springer Water
    URL: https://doi.org/10.1007/978-3-031-53258-0
    DOI: 10.1007/978-3-031-53258-0
    Language: English
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  • 8
    Online Resource
    Online Resource
    Arsenic Toxicity Remediation : Sustainable Nexus Approach (2024)
    Cham : Springer Nature Switzerland | Cham : Imprint: Springer
    Details Availability
    Keywords: Pollution. ; Environmental chemistry. ; Environmental health.
    Description / Table of Contents: Section 1 Source and distribution of arsenic in soil and water ecosystem -- 1 Analytical tools for Arsenic speciation in soil, water, and plant -- 2 Source and distribution of Arsenic in soil and water ecosystem -- 3 The dichotomy of the journey of arsenic from the soil uptake in plants and down into water -- 4 Source generation of arsenic species and spatial distribution in benthic ecosystem -- Section 2 Health risks linked to arsenic exposure in food and the environment -- 5 Arsenic exposure through dietary intake and associated health hazards -- 6 Arsenic contamination of soil and water and related bio-hazards in Bangladesh -- 7 Arsenic contamination in drinking water and health -- Section 3 Sustainable mitigation strategies -- 8 Towards sustainable arsenic mitigation in Bangladesh and Nepal -- 9 Biotechnological approaches in remediation of arsenic from soil and water -- 10 Microbial removal of arsenic -- 11 Treatment and operational efficiencies of several natural and synthetic sands on treating arsenic through adsorption -- 12 Arsenic mitigation from contaminated ground water through chemical and biological processes -- 13 Soil reclamation and crop production in arsenic contaminated area using biochar and mycorrhiza -- 14 Techniques of arsenic remediation on household and commercial scale.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(X, 294 p. 33 illus., 28 illus. in color.)
    Edition: 1st ed. 2024.
    ISBN: 9783031526145
    Series Statement: Emerging Contaminants and Associated Treatment Technologies
    URL: https://doi.org/10.1007/978-3-031-52614-5
    DOI: 10.1007/978-3-031-52614-5
    Language: English
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  • 9
    Online Resource
    Online Resource
    Cadmium Toxicity in Water : Challenges and Solutions (2024)
    Cham : Springer Nature Switzerland | Cham : Imprint: Springer
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    Keywords: Water. ; Hydrology. ; Pollution. ; Environmental chemistry. ; Bioremediation. ; Environmental management.
    Description / Table of Contents: Source and Distribution of cadmium in Groundwater -- Health risks linked to cadmium toxicity -- Sustainable Mitigation Strategies.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(XI, 363 p. 37 illus., 35 illus. in color.)
    Edition: 1st ed. 2024.
    ISBN: 9783031540059
    Series Statement: Springer Water
    URL: https://doi.org/10.1007/978-3-031-54005-9
    DOI: 10.1007/978-3-031-54005-9
    Language: English
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  • 10
    Online Resource
    Online Resource
    Lead Toxicity: Challenges and Solution (2023)
    Cham : Springer Nature Switzerland | Cham : Imprint: Springer
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    Keywords: Environmental health. ; Bioremediation. ; Agricultural biotechnology. ; Pollution. ; Environmental chemistry. ; Microbial ecology.
    Description / Table of Contents: Section 1: Source and distribution of lead in the environment -- 1. Source and distribution of lead in soil and plant – A review -- 2. The dynamics of lead in plant-soil interactions -- Section 2: Lead toxicity and Health -- 3. Neurotoxic Effects of Lead: A Review -- 4. Lead: Exposure risk, Bio Assimilation and Amelioration Strategies in livestock Animals -- Section 3: Lead remediation strategies -- 5. Phytoremediation of lead: from fundamentals to application -- 6. Bioremediation potential of lead tolerant microorganism from contaminated soil: a review -- 7. Antioxidant defense: A key mechanism of lead tolerance -- 8. Phytoremediation of Lead: A Review -- 9. Microbial remediation of Lead: An overview -- 10. Treatment methods for lead removal from wastewater -- 11. Lead Removal from Aqueous Solutions Using Different Biosorbents -- 12. Molecular Mechanism of lead Toxicity and Tolerance in Plants -- 13. Microbial transformations of lead: perspectives for biological removal of lead from soil.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(X, 308 p. 29 illus., 28 illus. in color.)
    Edition: 1st ed. 2023.
    ISBN: 9783031373275
    Series Statement: Environmental Science and Engineering
    URL: https://doi.org/10.1007/978-3-031-37327-5
    DOI: 10.1007/978-3-031-37327-5
    Language: English
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