All Bioremediation articles
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NewsMicrobial iron mining: turning polluted soils into self-cleaning reactors
Scientists have presented “microbial iron mining,” a process where soil microbes activate natural iron cycling. Microbes reduce and mobilize iron minerals, producing tiny iron nanoparticles that act as powerful traps for a variety of pollutants.
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NewsHarnessing solar energy for environmental cleanup: Iron mineral-bacterial biofilms degrade pollutants
Researchers offer a sustainable, efficient, and scalable method for addressing soil and groundwater pollution, opening new possibilities for clean-up strategies in diverse ecosystems. This process significantly enhances the degradation of antibiotics like tetracycline hydrochloride (TCH) and chloramphenicol (CPL).
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NewsFeeding off spent battery waste, a novel bacterium signals a new method for self-sufficient battery recycling
A unique bacterium that thrives in highly acidic environments feeds on spent battery “waste”, making it a promising new method for self-sufficient battery recycling. Acidithiobacillus ferrooxidans (Atf) has a natural metabolic cycle that produces protons capable of leaching electrode materials from spent batteries.
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NewsMicrobes at Red Sea vents show how life and geology shape each other
A new study led by King Abdullah University of Science and Technology (KAUST; Saudi Arabia) Professor Alexandre Rosado has revealed an unusual microbial world in the Hatiba Mons hydrothermal vent fields of the central Red Sea, a site first discovered by one of his co-authors and colleagues, Assistant Professor Froukje ...
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NewsData-guided bioelectrodes pave way for greener remediation
There is an urgent need to develop data-driven strategies that can accelerate and scale up microbial dechlorination for contaminated environments. Researchers report a new machine learning framework that integrates experimental features with microbial biofilm data to optimize bioelectrodechlorination.
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NewsBiochar and plants join forces to clean up polluted soils and boost ecosystem recovery
A review explores how combining biochar with rhizoremediation, a nature-based process that uses plant roots and beneficial microbes to break down pollutants, can greatly enhance soil restoration. Biochar acts as both a catalyst and a habitat for microbes.
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NewsSoil bacteria and minerals form a natural ‘battery’ that breaks down antibiotics in the dark
Researchers have unveiled a surprising new way that soil microbes can use sunlight energy. The team developed a “bio-photovoltage soil-microbe battery” that can capture, store, and release solar energy to power the breakdown of antibiotic pollutants in the dark.
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NewsNew biochar technology promises breakthrough in soil clean-up and crop safety
Scientists have unveiled a pioneering method that could help farmers reclaim lands blighted by toxic metals and boost the safety of crops grown in contaminated soils. Phosphorus-modified biochar can reduce the threat posed by heavy metals in agricultural soils near mining areas.
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NewsFungi–biochar partnership boosts soil health and crop growth under cadmium stress
A study reports that combining arbuscular mycorrhizal fungi (AMF) with biochar can reshape soil microbiomes, reduce cadmium uptake, and dramatically improve plant growth, offering a sustainable strategy for restoring farmland contaminated with heavy metals.
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CareersMeet the Global Ambassadors: our Q&A with Durgesh Kumar Jaiswal
The Microbiologist gets to know our Global Ambassador for India, Dr. Durgesh Kumar Jaiswal, who is Assistant Professor at the Department of Biosciences, Graphic Era University, Dehradun, specializing in microbial biotechnology and sustainable agriculture.
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News‘Major leap in bioelectronic sensing’: researchers turn bacteria into tiny pollution detectors
Researchers have engineered E. coli to act as living multiplexed sensors, allowing these genetically modified cells to detect and respond to multiple environmental toxins simultaneously by converting their biological responses into readable electrical signals.
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NewsTiny soil microbes turn detective to uncover the timeline of oil spill contamination
Scientists in Belfast and Nigeria have developed a diagnostic tool that deploys microbes to uncover the timeline of crude oil contamination in soils.
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NewsMichael Danquah named Fellow of Royal Society of Biology
Michael Danquah, a professor in the Department of Chemical and Biomolecular Engineering and the associate dean for academic and student affairs at the University of Tennessee at Knoxville, has been elected as a Fellow of the Royal Society of Biology.
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NewsResearchers to harness the power of fungi for water filters
A groundbreaking project exploring the power of fungi to combat agricultural pollution is making significant strides, with researchers looking to begin live field trials later this year.
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NewsPFAS-eating bacteria discovered in Veneto soil
Researchers have isolated about 20 species of bacteria from PFAS-contaminated soil in Veneto that are capable of degrading these forever chemicals, i.e. using them as a source of energy.
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NewsScientists design protective ‘living tattoos’ for buildings
An international research team wants to integrate selected microorganisms into façade coatings to bring building walls to life. The microorganisms are intended to protect surfaces, store CO2 and filter pollutants.
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NewsMicroalgae remove antibiotic residues from wastewater, reducing environmental contamination
In the laboratory, the species Monoraphidium contortum removed some of the drugs added to the liquid and produced biomass with potential commercial value.
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NewsBacterium yields secrets of how it produces ‘organic dishwashing liquid’ to degrade oil
The marine bacterium Alcanivorax borkumensis feeds on oil by producing an ’organic dishwashing liquid’ which it uses to attach itself to oil droplets. Researchers have now discovered the mechanism by which this “organic dishwashing liquid” is synthesized.
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NewsMicrobes used to mine magnesium from waste heaps
Researchers have pioneered a microbially driven process that utilises low-value waste products, such as magnesium mine waste and sulfur from desulfurisation plants, to leach the wastes and generate a stream of solubilised magnesium.
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NewsMicrobes in Brooklyn Superfund site teach lessons on fighting industrial pollution
Researchers discover unprecedented pollution-fighting genetic adaptations in tiny organisms inhabiting Brooklyn’s highly contaminated Gowanus Canal, revealing a potential new approach for cleaning contaminated waters and recovering valuable resources.