environmental remediation – Page 2

Current status and future prospects of microalgae-based degradation of spent lubricant oil hydrocarbon towards environmental sustainability: a mini review and bibliometric analysis

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Spent oil waste from cars and industries is a major environmental problem that traditional cleanup methods struggle to handle. This review shows that microalgae, tiny organisms that are already used for various purposes, can effectively break down the harmful chemicals in used oil. A bibliometric analysis reveals that scientists worldwide, especially in China, are increasingly researching this promising green solution to clean up oil pollution in soil and water.

Copper biosorption by Serratia plymuthica: crucial role of tightly bound extracellular polymeric substances in planktonic and biofilm systems

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Researchers discovered that a bacterium called Serratia plymuthica can effectively remove copper from contaminated water using special protective layers of polymers it produces. These polymer layers, especially the protein components, act like tiny magnets that capture copper ions from solution. The study found that when these bacteria form biofilms on porous surfaces, they become even more effective at removing copper from industrial wastewater, achieving up to 97% removal efficiency even under harsh acidic conditions.

Biotransformation of the Fluoroquinolone Antibiotic, Levofloxacin, by the Free and Immobilized Secretome of Coriolopsis gallica

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Researchers discovered that a type of fungus called Coriolopsis gallica can break down the antibiotic levofloxacin, which persists in the environment and contributes to antibiotic resistance. They tested both free enzymes from the fungus and enzymes trapped in alginate beads to see which worked better. The study found that free enzymes degraded more of the antibiotic when a chemical helper molecule called HBT was added, while immobilized enzymes were more stable and could be reused multiple times.

Biodegradation of synthetic organic pollutants: principles, progress, problems, and perspectives

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This comprehensive review explains how bacteria naturally break down synthetic pollutants in our environment through various mechanisms. Scientists use advanced tools like gene sequencing and computer analysis to identify which bacteria degrade specific pollutants, how quickly they work, and what intermediate products form. Understanding these bacterial degradation pathways helps us develop better strategies to clean up contaminated water and soil in an environmentally friendly way.

Biotransformation of Pesticides across Biological Systems: Molecular Mechanisms, Omics Insights, and Biotechnological Advances for Environmental Sustainability

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This review explains how living organisms like bacteria, plants, and animals break down pesticides through biological processes called biotransformation. The body uses special enzymes to transform pesticides into forms that are easier to eliminate. Understanding these natural cleanup processes helps scientists develop better strategies to remove pesticide pollution from soil and water, protecting both human health and ecosystems.

Enhancing Environmental and Human Health Management Through the Integration of Advanced Revitalization Technologies Utilizing Artificial Intelligence

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This paper describes how combining artificial intelligence with environmental monitoring can help us better understand how pollution harms our health. The authors propose a seven-step system that collects data on pollution levels in air, water, and soil alongside health information from communities. By using AI to analyze these massive datasets together, scientists and doctors can more quickly identify which pollutants are causing specific health problems and design better treatments for affected people and environments.

Biological approaches to mitigate heavy metal pollution from battery production effluents: advances, challenges, and perspectives

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Battery factories produce dirty water containing harmful heavy metals like lead and cadmium. Instead of using expensive chemical treatments, scientists are finding natural ways to clean this water using plants, bacteria, and other living organisms. These biological methods can remove up to 99% of the metals and are better for the environment. This review examines all these natural cleaning methods and suggests ways to make battery production cleaner and safer.

Breaking Down Linear Low-Density Polyethylene (LLDPE) Using Fungal Mycelium (Part A): A Path Towards Sustainable Waste Management and Its Possible Economic Impacts

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Researchers discovered that certain fungi, especially Schizophyllum commune, can effectively break down plastic waste called LLDPE through their natural enzymes. In laboratory tests, this fungus degraded plastic about 20 times faster than samples without fungal treatment over 30 days. This fungal approach is cheaper and more environmentally friendly than traditional methods like incineration or landfilling, and could help solve plastic pollution while creating jobs and using agricultural waste productively.

Deciphering the formation of biogenic nanoparticles and their protein corona: State-of-the-art and analytical challenges

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Scientists have developed environmentally friendly methods to create tiny metal particles (nanoparticles) using living organisms like bacteria, fungi, and plants instead of toxic chemicals. These bioengineered nanoparticles are coated with natural biological molecules that make them safer and more stable. This review explains how these particles are made, what analytical tools scientists use to study them, and their potential uses in medicine, environmental cleanup, and agriculture.

Bibliometric analysis of global research on white rot fungi biotechnology for environmental application

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White rot fungi are special mushrooms that can break down difficult-to-decompose pollutants in soil and water, offering a natural and cost-effective way to clean up environmental contamination. This research study analyzed over 3,900 scientific publications about using these fungi for environmental cleanup from 2003 to 2020. The analysis found that research on white rot fungi has grown significantly, with scientists from China and the USA leading the field, and identified three major application areas: treating biomass waste, removing dyes from wastewater, and cleaning polluted environments.

Research Topic: environmental remediation