Agriculture - Aneknowledge.com

Biochar application alleviates drought-induced oxidative stress by activating the salicylic acid-mediated glutathione synthesis pathway in Brassica napus.

Biochar Boosts Drought Tolerance in Rapeseed by Activating Salicylic Acid-Driven Glutathione Pathway

New research reveals that biochar significantly reduces drought-induced oxidative stress in Brassica napus by enhancing salicylic acid signaling and activating glutathione biosynthesis. The study shows how biochar improves water status, suppresses harmful ROS, and restores redox balance through the SA-mediated GSH pathway.

Aneknowledge December 8, 2025

Combined application of microalgae and plant growth-promoting rhizobacteria improves Lactuca sativa growth.

Agriculture Biochemistry Emerging Science

Microalgae–Bacteria Biofertilizer Duo Significantly Boosts Lettuce Growth

A new study reveals that combining Scenedesmus microalgae with Pantoea agglomerans bacteria dramatically enhances lettuce growth, nutrient uptake, and soil fertility. The dual biofertilizer outperforms individual treatments and offers an eco-friendly alternative to chemical fertilizers.

Aneknowledge December 8, 2025

Cellulolytic Capabilities in Paludibaculum sp. T20B24, a Novel Acidobacterium from a Boreal Fen.

Agriculture Biochemistry Emerging Science

New Acidobacterium From Boreal Fen Shows Strong Cellulose-Degrading Power: Introducing Paludibaculum sp. T20B24

A newly isolated bacterium, Paludibaculum sp. T20B24, from a boreal fen demonstrates confirmed cellulose-degrading abilities and carries an extensive arsenal of CAZymes. This study reveals its genomic features, growth behavior, and potential ecological roles in peatland carbon cyclin

Aneknowledge December 8, 2025

Biological control of citrus rust mite Phyllocoptruta oleivora by three bacterial species.

Agriculture Bacillus Biochemistry

Powerful Bacterial Biocontrol Agents Against Citrus Rust Mite

Three bacterial species show strong biocontrol potential against the citrus rust mite, offering sustainable alternatives to conventional acaricides.

Aneknowledge December 8, 2025

Entomopathogenic fungi associated with cereal leaf beetles and their comparative pathogenicity in the laboratory: possible sustainable control approaches

Agriculture Beauveria Biochemistry

Entomopathogenic Fungi Killing Cereal Leaf Beetles in Europe

A new study from Slovakia identifies four entomopathogenic fungi infecting cereal leaf beetles and compares their pathogenicity, highlighting Metarhizium pemphigi and Beauveria bassiana as promising biological control agents for sustainable pest management.

Aneknowledge December 8, 2025

Isolation and Characterization of Aneurinibacillus baijiui sp. nov., a Novel Bacterial Species from Fermented Grains of Baijiu Capable of Producing Diverse Flavor Compounds

Agriculture Biochemistry Emerging Science

New Baijiu-Derived Bacterium Discovered: Aneurinibacillus baijiui sp. nov. Produces Important Flavor Compounds

A new bacterium, Aneurinibacillus baijiui sp. nov., has been discovered in baijiu grains. It produces diverse flavor compounds and represents a novel species.

Aneknowledge December 8, 2025

Agriculture Emerging Science Environment

Meet the Tomato Terror: How Science is Fighting the Tuta absoluta Super-Pest

A comprehensive overview of the invasive tomato leafminer, Tuta absoluta, detailing its rapid global spread, significant impact on tomato production—often causing up to 100% yield loss—and the urgent need for sustainable management strategies.

Aneknowledge December 8, 2025

Integrated Genomic and Phenotypic Analysis of Bacillus safensis LG01 Highlights Its Prospects in Biotechnology and Biocontrol.

Agriculture Biochemistry Emerging Science

Bacillus safensis LG01: A Newly Characterized Super-Strain Shows Huge Promise for Biocontrol and Probiotic Innovation

Discover the newly characterized Bacillus safensis LG01—an advanced microbial strain with strong antimicrobial activity, rich secondary metabolite pathways, and powerful probiotic potential. Learn how genomic and phenotypic analyses reveal its value for biotechnology, biocontrol, and sustainable agriculture.

Aneknowledge December 7, 2025

Chickpea priming with Trichoderma asperellum T42 enriches free-living nitrogen cyclers in rhizosphere and enhances nitrogen uptake in off-springs under stress.

Agriculture Emerging Science Environment

Trichoderma Priming Boosts Free-Living Nitrogen Cyclers and Stress Resilience in Chickpea

New research reveals that Trichoderma asperellum T42 reshapes the chickpea rhizosphere, boosts free-living nitrogen fixers, and enhances nitrogen uptake under stress.

Aneknowledge December 6, 2025

Biological control of blue mold rot of onion using Trichoderma species in pakistan.

Agriculture Emerging Science Environment

Trichoderma Fungi Can Control Blue Mold Rot in Onions Across Pakistan

A new study shows Trichoderma harzianum and T. viride can significantly reduce blue mold rot in onions caused by Penicillium expansum in Pakistan.

Aneknowledge December 6, 2025