environmental biotechnology - Aneknowledge.com

Enzymatic biodegradation of used engine oil using a novel lipase derived from renewable feedstocks

Novel Yeast Lipase Demonstrates 46% Biodegradation of Used Engine Oil in 15 Days

A new study reveals that a lipase enzyme from Pichia caribbica PC5703 can biodegrade 46% of used engine oil within 15 days, offering an eco-friendly solution for oil pollution and waste management.

Aneknowledge November 30, 2025

Engineering a novel carbaryl-degrading esterase from Bacillus velezensis for enhanced degradability via semi-rational design and whole-cell biocatalysis.

Agriculture Biochemistry Emerging Science

Engineered Bacillus velezensis Enzyme Breaks Down Toxic Pesticide Carbaryl

A new study reports the engineering of a Bacillus velezensis-derived esterase capable of efficiently degrading the toxic pesticide carbaryl. The enhanced enzyme, Est03320-L230G, achieved a 96.5% degradation rate and sustained activity through five reuse cycles, offering a sustainable solution for pesticide pollution.

Aneknowledge November 2, 2025

Effect of urea concentration on the combined pollution of Cd and Ni in microbiologically induced calcite precipitation (MICP) treatment.

Agriculture Biochemistry Emerging Science

Enterobacter sp. SX4 Shows Breakthrough in Cleaning Cadmium and Nickel from Polluted Soils via Eco-friendly MICP Technology

New research reveals that optimizing urea concentration at 20 g·L⁻¹ in Microbiologically Induced Calcite Precipitation (MICP) enhances the removal of cadmium and nickel from contaminated soils by Enterobacter sp. SX4, achieving up to 45% reduction in Cd and 43% in Ni.

Aneknowledge October 28, 2025

Reducing antibiotic resistance genes through biochar-enhanced reductive soil disinfestation.

Agriculture Biochar Biochemistry

Biochar-Enhanced Soil Treatment Cuts Antibiotic Resistance Genes by Over 59%

A new study reveals that adding biochar to reductive soil disinfestation significantly reduces antibiotic resistance genes (ARGs), mobile genetic elements, and metal resistance genes by up to 59.5%, offering a sustainable approach to combat antimicrobial resistance in agricultural soils.

Aneknowledge October 27, 2025

Bioconversion of olive mill wastewater into rhamnolipids with biostimulant potential.

Agriculture Emerging Science Environment

Turning Olive Waste into Green Gold: Pseudomonas aeruginosa Converts Olive Mill Wastewater into Eco-Friendly Rhamnolipids with Plant-Boosting Power

A new study published in Archives of Microbiology (2025) reveals how Pseudomonas aeruginosa can transform toxic olive mill wastewater into valuable rhamnolipids — biodegradable biosurfactants that promote seed germination and sustainable agriculture.

Aneknowledge October 23, 2025

Insecticidal potential of bioactive compounds extracted from Phyllanthus acidus L. leaf against medically important mosquito species.

Agriculture Biochemistry Emerging Science

Eco-Friendly Mosquito Control: Bioactive Compounds from Phyllanthus acidus Leaves Show Strong Insecticidal Power

Discover how Phyllanthus acidus leaf extracts act as eco-friendly insecticides against mosquitoes, offering a sustainable alternative to chemical pesticides.

Aneknowledge October 11, 2025

Improved hydrolyzed polyacrylamide biodegradation and gel breaking performance of composite bacteria.

Agriculture Emerging Science Environment

Composite Bacteria Breakthrough: Enhanced Biodegradation of Hydrolyzed Polyacrylamide for a Cleaner Oilfield Future

A new study unveils how composite bacteria Agrobacterium pusense and Stutzerimonas balearica achieved 81.2% hydrolyzed polyacrylamide biodegradation efficiency, offering a sustainable solution for oilfield wastewater treatment and gel-breaking applications.

Aneknowledge October 9, 2025

Adaptive Genomic Features of Raoultella ornithinolytica LAM1 from the Geothermal Site of Los Azufres Reveal Potential for Heavy-Metal Bioremediation.

Agriculture Emerging Science Environment

Genomic Insights into Raoultella ornithinolytica LAM1: A New Ally for Heavy Metal Bioremediation

Discover how Raoultella ornithinolytica LAM1 thrives in extreme geothermal environments and offers a breakthrough in heavy-metal bioremediation research.

Aneknowledge October 4, 2025

Degradation of phenoxyalkanoic acid herbicides by isolated bacterial strain LKDC4 Pseudomonas aeruginosa.

Biochemistry Emerging Science Environment

Pseudomonas aeruginosa LKDC4: A Natural Solution for Phenoxyalkanoic Acid Herbicide Pollution

Discover how the bacterial strain Pseudomonas aeruginosa LKDC4 offers a promising eco-friendly approach to degrading phenoxyalkanoic acid herbicides, reducing environmental pollution, and supporting sustainable agriculture.

Aneknowledge October 4, 2025

Multichannel bioelectronic sensing using engineered Escherichia coli

Emerging Science Genetic Engineering Microbiology

Revolutionizing Water Safety: Multichannel Bioelectronic Sensors with Engineered E. coli

Engineered E. coli enable multichannel bioelectronic sensors for detecting arsenite and cadmium, advancing real-time water quality monitoring.

Aneknowledge August 20, 2025