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

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.
Halo-Tolerant Phosphate-Solubilising Bacterium from Coral Reef: A Potential Bioagent for Phosphate Reclamation and Soil Fertility Enhancement
Posted inAgriculture Alternaria Emerging Science

Coral-Derived Bacterium Shows Powerful Potential to Reclaim Phosphorus and Boost Crop Growth in Saline Soils

A newly studied halo-tolerant bacterium from coral reefs, Cronobacter muytjensii, demonstrates exceptional phosphate-solubilising, plant-growth-promoting, and antifungal abilities under high salinity—offering a sustainable solution for improving soil fertility and crop growth in salt-affected farmlands.
Streptomyces spp. as plant growth promotors and regulators of Eucalyptus in heat, drought and saline stress and genome insights into three selected potential strains.
Posted inAgriculture Biochemistry Emerging Science

Endophytic Streptomyces Boost Eucalyptus Growth Under Heat, Drought, and Salinity: New Study Reveals Genome-Level Insights

A new study reveals that specific endophytic Streptomyces strains can enhance eucalyptus growth under heat, drought, and salinity stress. Genomic analysis of key strains uncovers biosynthetic pathways and stress-response genes that support plant resilience, highlighting their potential as bioinoculants for eucalyptus plantations.