bioremediation - Aneknowledge.com

Isolation, dye discoloration, and enzymatic activity of fungi present in the soil of deception and King George Island, Maritime Antarctica.

Antarctic Soil Fungi Show Powerful Cold-Active Enzymes With Industrial and Bioremediation Potential

Discover how Antarctic soil fungi from Deception Island and King George Island produce powerful cold-active enzymes—amylase, protease, lipase, and ligninolytic enzymes—with major industrial and bioremediation potential.

Aneknowledge December 9, 2025

Microbial Consortium of Streptomyces spp. from Mining Environments Enhances Phytoremediation Potential of Lemna minor L.

Agriculture Emerging Science Environment

Mining Microbes Boost Duckweed’s Power to Clean Heavy Metal Pollution

A new study reveals that a microbial consortium of Streptomyces atratus strains isolated from an Italian mining environment significantly enhances the phytoremediation capacity of Lemna minor (duckweed), improving its growth and tolerance under heavy metal stress.

Aneknowledge December 2, 2025

Synergistic approaches to soil remediation: engineered biochar and microbial interactions for climate-resilient remediation.

Agriculture Biochar Emerging Science

Engineered Biochar and Microbial Synergy Emerge as Next-Generation Solution for Climate-Resilient Soil Remediation

A new 2025 review highlights how engineered biochar—enhanced with nanoparticles and microbial augmentation—offers a climate-resilient solution for removing heavy metals and organic pollutants while restoring soil health. Learn how biochar-microbe synergy can transform future remediation strategies.

Aneknowledge November 22, 2025

Bioremediation of mercury and cadmium using marine Streptomyces sp. K13: biosorption, bioreactor and its toxicity studies.

Agriculture Biochemistry Biodiversity

Marine Streptomyces sp. K13 Emerges as a Powerful Eco-Friendly Solution for Mercury and Cadmium Pollution

A new study reveals that marine Streptomyces sp. K13, isolated from Tamil Nadu’s coast, can remove up to 76% mercury and 73% cadmium through biosorption, EPS production, and bioreactor-based detoxification — offering a promising eco-friendly solution for heavy metal pollution.

Aneknowledge November 21, 2025

Isolation and characterization of biosurfactant-producing bacteria from the Thar Desert.

Agriculture Biochemistry Emerging Science

Scientists Discover Three Powerful Biosurfactant-Producing Bacteria in India’s Thar Desert

Researchers have identified three high-performing biosurfactant-producing bacteria—Bacillus cereus, Acinetobacter soli, and Cytobacillus kochii—from the extreme environment of the Thar Desert. These strains showed strong emulsification and surface tension reduction abilities, revealing significant potential for bioremediation and sustainable agriculture.

Aneknowledge November 20, 2025

Biological characteristics and oxidation performance of a new manganese-oxidizing bacteria: Pseudochrobactrum saccharolyticum.

Agriculture Biochemistry Emerging Science

Breakthrough Discovery: New Bacterium Pseudochrobactrum saccharolyticum Efficiently Removes Manganese from Polluted Environments

Researchers at Zunyi Medical University have identified a new manganese-oxidizing bacterium, Pseudochrobactrum saccharolyticum, capable of removing over 92% of Mn²⁺ under optimal conditions—offering a sustainable biological solution for heavy metal pollution in mining areas.

Aneknowledge October 29, 2025

Deciphering the plant growth-promoting traits of bacteria capable of sodium dodecyl sulfate removal from graywater: a sustainable approach for water reuse for irrigation.

Agriculture Biochemistry Emerging Science

Microbes That Clean Greywater Also Boost Crop Growth

New research reveals that Pseudomonas, Klebsiella, and Enterobacter strains can degrade sodium dodecyl sulfate (SDS) in graywater while enhancing plant growth—offering a dual solution for water reuse and sustainable agriculture.

Aneknowledge October 29, 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

Synergistic Remediation of Microplastics-Contaminated Soil by Immobilized Laccase and Pseudomonas putida: Insights into Microbial Activity, Soil Enzymatic, and Molecular Responses in Maize (Zea Mays L.).

Agriculture Biochemistry Emerging Science

Scientists Harness Enzyme–Microbe Synergy to Clean Microplastic-Contaminated Soils

Journal of Soil Science and Plant Nutrition (2025) has published a breakthrough study demonstrating how a combined biological approach using immobilized laccase enzymes and the beneficial bacterium Pseudomonas putida can…

Aneknowledge October 24, 2025

Integrative bioinformatics and chemotactic insights into p-nitrophenol bioremediation by halotolerant aquatic Pseudomonas sp. strain PNPBRP5(2).

Agriculture Biochemistry Emerging Science

Halotolerant Pseudomonas Strain Shows Breakthrough Potential for p-Nitrophenol Bioremediation in Aquatic Environments

A newly isolated Pseudomonas sp. strain PNPBRP5(2) efficiently degraded 98% of p-nitrophenol (PNP) within 60 hours, demonstrating strong chemotactic and enzymatic activity for eco-friendly bioremediation of toxic aquatic pollutants.

Aneknowledge October 24, 2025