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In: Maximizing the Security and Development Benefits from the Biological and Toxin Weapons Convention, S. 309-317
- Effect of heavy metals in sewage sludge -- Nanotechnology for Bioremediation of Heavy Metals -- Diversity, Biodegradation and Bioremediation of Polycyclic Aromatic Hydrocarbons -- Integrated Omics Approaches for Structural and Functional Characterization of Environmental Microorganisms -- Microbial Fuel Cell Assisted Wastewater Treatment- A Review on Current Trends -- Bioremediation of arsenic: Microbial biotransformation, molecular mechanisms and multi-omics approach -- Microbial Biofilms in Wastewater Remediation -- Green Nano-bioremediation Process for Ultimate Water Treatment Purpose -- Sustainable Technologies for Treatment of Industrial Wastewater and Its Potential for Reuse -- An introduction to Bio electrochemical System (BES) for Microbial electro remediation -- Phytoremediation of Metals and Radionuclides -- Phyto- & Microbial- Remediation of Radioactive Waste -- Bioremediation of petroleum sludge -- Development and implementation of the integrated technology for biological detoxication of ionic mercury in industrial wastewaters -- Phytoremediation of Metals and Radionuclides: An emerging technology towards environment restoration -- Combination of Membrane Based Biochar for Ammonium Removal from Domestic Wastewater - A Review -- Microbial remediation of synthetic microfiber contaminated waste water.
Ammonia oxidizing bacteria in wastewater -- Ammonia-oxidizing bacteria: Biochemical and molecular characteristics -- Anaerobic ammonium oxidation using engineered nanomaterials as potential modulators -- Anammox-cell biology, metabolism, growth and genetics -- Cultivation, growth physiology, and chemotaxonomy of nitrite-oxidizing bacteria.
- Microalgae for treating wastewater -- Application of Membrane Technology Combined with Sequencing Batch Reactor for Treating Milk Wastewater -- Role of Microalgae in wastewater treatment and its role in nutrient recovery -- Role of Microalgae in integrated Wastewater remediation and valorization of value-added compounds -- Plants and microorganisms as useful tool for accumulation and detoxification of heavy metals from environment -- Hybrid Electrocoagulation and Ozonation Techniques for Industrial Wastewater Treatment -- The advancement of membrane bioreactors (MBRs) in industrial effluent treatment -- Nanofiltration Applications for Potable Water, Treatment, and Reuse -- Recent Advancements and Research Perspectives in Emerging and Advanced Wastewater Membrane Technologies -- Sequestration and detoxification of heavy metals by fungi -- Advancements in Microbial Fuel Cell Technology -- The Challenges of Wastewater and Wastewater Management. .
In: Sustainable development
Section 1: General considerations -- Chapter 1. Physical and chemical processes of marine environment -- Chapter 2. A review study on the microbes in the recycling of carbon -- Chapter 3. Microbial symbiosis in marine ecosystem -- Section 2: Communities of special interest -- Chapter 4. Cyanobacteria in oceanChapter -- Chapter 5. Marine algae and their importance -- Chapter 6. Antarctica microbial communities: ecological and industrial importance -- Chapter 7. Crustaceans - microbes and defense mechanisms -- Section 3: Marine microorganisms and environmental bioremediation -- Chapter 8. Pollution in marine ecosystem: impact and prevention -- Chapter 9. Source and effect of oil spills on associated microorganisms in marine aquatic environment -- Chapter 10. Heavy metal pollution in water: cause and remediation strategies -- Chapter 11. Responses of marine fungi to heavy metal contamination -- Chapter 12. Micro-plastic pollution in marine ecosystem and its remediation -- Chapter 13. Microplastic pollution in aquatic environment: ecotoxicological effects and bioremediation prospects -- Chapter 14. Biodegradation of endocrine-disrupting chemicals using marine microorganisms -- Chapter 15. Bioreactors for bioremediation of polluted water -- Section 4: Others applications and perspectives -- Chapter 16. Industrial importance of marine algae -- Chapter 17. Sargassum derived agents for potential cosmetic applications -- Chapter 18. Utilization of seaweed as partial replacement to the fish meal in aquaculture diets -- Chapter 19. Nanobiotechnology of marine organisms: mechanisms and applications -- Chapter 20. Bioactive compounds from marine water ecosystem -- Chapter 21. Marine fish microbiome: current status and future perspectives.
The application of high-potential thermotolerant yeasts is a key factor for successful ethanol production at high temperatures. Two hundred and thirty-four yeast isolates from Greater Mekong Subregion (GMS) countries, i.e., Thailand, The Lao People's Democratic Republic (Lao PDR) and Vietnam were obtained. Five thermotolerant yeasts, designated Saccharomyces cerevisiae KKU-VN8, KKU-VN20, and KKU-VN27, Pichia kudriavzevii KKU-TH33 and P. kudriavzevii KKU-TH43, demonstrated high temperature and ethanol tolerance levels up to 45 °C and 13% (v/v), respectively. All five strains produced higher ethanol concentrations and exhibited greater productivities and yields than the industrial strain S. cerevisiae TISTR5606 during high-temperature fermentation at 40 °C and 43 °C. S. cerevisiae KKU-VN8 demonstrated the best performance for ethanol production from glucose at 37 °C with an ethanol concentration of 72.69 g/L, a productivity of 1.59 g/L/h and a theoretical ethanol yield of 86.27%. The optimal conditions for ethanol production of S. cerevisiae KKU-VN8 from sweet sorghum juice (SSJ) at 40 °C were achieved using the Box–Behnken experimental design (BBD). The maximal ethanol concentration obtained during fermentation was 89.32 g/L, with a productivity of 2.48 g/L/h and a theoretical ethanol yield of 96.32%. Thus, the newly isolated thermotolerant S. cerevisiae KKU-VN8 exhibits a great potential for commercial-scale ethanol production in the future.
BASE
In: Advances in environmental engineering and green technologies (AEEGT) book series
"This book emphasizes the toxic hazardous substances and their mode of action in environment. It compiles the latest information related to xenobiotic biodegradation strategies. It provides detailed information for the cleanup of every type of hazardous pollutants through microbial and other biological technology"--
1-Xenobiotics in the urban ecosystems: Current status and trend analysis -- 2-Urban water cycle: A potential source and sink of xenobiotics -- 3-Xenobiotics in the urban soils: Sources and environmental concerns -- 4-Major strategies for the assessment of xenobiotics in the urban soils -- 5-Advancements in the analytical techniques for precise xenobiotic assessment -- 6-Xenobiotics in urban soils: Bioavailability and threat levels -- 7-Transport and metabolism of xenobiotics in the urban ecosystem -- 8-Xenobiotics and soil microbial community in the urban ecosystem -- 9-Impact of xenobiotics on urban agriculture/crops -- 10-Xenobiotics and urban plants: impact and threat levels -- 11-Food chain contamination and impact of xenobiotics on human health -- 12-Biotransformation of xenobiotics in the urban ecosystem -- 13-Phytoremediation and xenobiotics: exploring the potential of selected plants -- 14-Remediation strategies for xenobiotics in urban soils -- 15-Socioeconomic impacts and policy measures for xenobiotics in urban ecosystems -- 16-Management and regulatory aspects of xenobiotics: Government initiatives.
In: BITE-D-23-01826
SSRN
In: Springer eBook Collection
1-Chemical characterization of municipal and industrial wastewater -- 2- Adsorptive remediation of wastewater -- 3-Enzymatic degradation of organic matter in wastewater -- 4-Microbial degradation of wastewater -- 5-Phytoremediation of wastewater -- 6- Advance oxidation techniques for wastewater remediation -- 7-Application of nanomaterials for the remediation of wastewater -- 8-Membrane-based remediation of wastewater -- 9- Gravity separation/sedimentation of wastewater -- 10-Sandbank filtration techniques for wastewater treatment -- 11- Constructed wetlands for the remediation of wastewater -- 12- Sterilization techniques of the wastewater. - 13-Recent advancement in nutrients removal from wastewater -- 14-Recovery and reuse of metals from wastewater -- 15-Legislation and industrial responsibilities for discharge of wastewater in the environment.
In: The Handbook of Environmental Chemistry 118
Overview, Objectives, Principles, and State-of-the-Art of Engineered-Based Wastewater Treatment Technologies -- Simplified Engineered-Based Wastewater Treatment Technologies: Energy, Climate Change, and Land-Use Aspects -- Biotechnology for Green Future of Wastewater Treatment -- Environmental Impact Assessment of Wastewater Reuse -- Cavitation Based Processes for Water and Wastewater Treatment -- Wastewater Treatment Using Biochar Technology -- Adsorption: A Cost-effective Wastewater Treatment Technology for Removal of Conventional and Emerging Organic Contaminants -- Nanotechnology-enabled Multifunctional Material for Removal of Toxicants from Wastewater -- Advanced Configurations for Efficient Membrane Bioreactors: Energy Saving Approaches -- Wastewater Treatment by Trickling Filter Technology as Low Energy Consumption Solution (Case Studies –Worldwide) -- Membrane Bioreactor for Wastewater Treatment: Current Status, Novel Configurations and Cost Analysis -- Activated Sludge Fungal Community in Wastewater Treatment Plants -- Anaerobic Treatment Systems: A Sustainable and Clean Environment with Future Hope of Renewable Energy -- Co-digestion of Fruit and Vegetable Wastes: An Opportunity to Enhance the Circular Economy of Anaerobic Digesters -- Trihalomethanes (THMs) in Wastewater: Causes and Concerns -- Degradation of Selected Xenobiotics from Wastewater by Wood-Decay Fungi -- Prospects and Potential Role of Biological Treatment of Textile Effluent to Restore Water Reservoir -- SnO2-Mixed Oxide Electrodes for Water Treatment: Role of Low Cost Active Anode -- Emerging Organic Compounds (EOCs) Removal from Water and Wastewater Using Innovative Technologies and Materials -- Intermittent Cycle Extended Aeration System (ICEAS) and its Application In Wastewater Treatment -- Sustainable and Green Management of Wastewater Under Climate Change Conditions -- Microbial Biosurfactants and their Implication Towards Wastewater Management -- Best Practice Management of Wastewater in Poland -- Emerging Technologies of Sludge Management (Drying, Incineraon, Pyrolysis, Torrefacon) -- Towards The Global Rise of Zero Liquid Discharge for Wastewater Management: The Mining Industry Case in Chile.
In: The Handbook of Environmental Chemistry 114
Biotic and abiotic contamination due to emerging pollutants in sewage sludge and soils: a country-based perspective -- Pharmaceuticals and their metabolites in sewage sludge and soils: distribution and environmental risk assessment -- Microplastics in soils as a source of pollution and environmental risk -- Environmental transmission of human pathogens associated with SARS-CoV-2 and the effect on Soil and Aquatic Ecosystem – A biological way of management -- Innovative treatment processes for emerging contaminants removal from sewage sludge -- Emerging pollutants that can be transformed into PCDD/Fs -- An innovative technology to minimize biological sludge production and improve its quality in a circular economy perspective -- Fate of neonicotinoids in the environment- why bees are threatened -- Current progress of microplastics in sewage sludge -- Revision of the most harmful organic compounds present in sewage and sludge -- Identifying emerging pollutants using non-target or wide-screening liquid chromatography-mass spectrometry -- Fate of emerging pollutants during anaerobic digestion of sewage sludge -- Pharmaceuticals and Personal Care Products as Contaminants of Emerging Concern in Sewage Sludge and Soils and the Role of Transformation Products in their Fate and Environmental Impact -- Current methodology for extraction, separation, identification and quantification of microplastics in terrestrial systems -- Emerging viruses in sewage sludge and soils.