Sunday, 03-05-2026 | 06:55
In plants, the induction of systemic defenses is essential for sustaining structural and physiological homeostasis during repeated attacks by various pests and pathogens. Plant hormones regulate numerous systemic responses; however, relatively little is known about their role in the expression of systemic induced resistance (SIR) against necrotrophic fungi, particularly in trees. Based on an established pathosystem comprised of Austrian pine and Diplodia pinea
Updated News
- Bangladesh’s new agriculture minister signals push for next-generation rice as partnership with IRRI deepens
- 2026 ECOSOC Financing for Development Forum
- Agricultural innovation as strategic investment for the U.S. (Agri-Pulse)
- AfricaRice and IITA: A Strategic Alliance Transforming Africa's Food Systems Through Science
- Rangelands under pressure: how CGIAR science is strengthening pastoral resilience
- FAO Regional Conference for Asia and the Pacific aims at “resilience from within”
- Tasmania Revises Gene Technology Policy
- Extreme heat is pushing agrifood systems to the brink worldwide
- Strengthening seed systems in Liberia: EU-project improving access to high-quality coffee seedlings via regional seedling nursery hubs
- Africa's First Gene-Edited Grapevine Promises Climate Resilience
- Tracing impact: A joint mission through Kenya’s BRAINS project
- Success of Fertilize Right pilot in Vietnam’s 1M-Hectare Rice Program show better yields and incomes
- FAO Regional Conference for Africa: Director-General urges “abundance” narrative for youthful continent
- Japan and Brazil Grant Green Light to Non-browning Banana
- Nigeria Approves High-Performing Groundnut Variety SAMNUT 30 Developed by ICRISAT
Scientific news
- Systemic defense signaling in Austrian pine
- Soil organic nitrogen rather than fertilizer drives dinitrogen losses in flooded rice systems
- Genome-wide association study of soybean germplasm derived from modern Canadian and Chinese soybean cultivars to identify novel genes conferring soybean cyst nematode resistance
- ABC transporter BrABCG12 mutation results in tender green glossy leaves in Chinese cabbage
- Metabolomic modelling of sensory characteristics and consumer liking in papaya fruit
- Total flavones from Abelmoschus manihot (L.) Medik. [Malvaceae] extract ameliorates diabetic liver injury: association with ferroptosis suppression and the PI3K/AKT/Nrf2 pathway
- Toward sustainable control of phyto-nematodes: integrating lessons from crops to advance genetic modification in tomato
- Comparative Metabolomic Profiling of Resistant and Susceptible Coffea arabica Accessions to Bacterial Pathogen Infection
- Progress and Prospects of Parasitic Plant Biodiversity Genomics
- Rubisco kinetic acclimation at the holoenzyme level
- Functional genomics in sugarcane breeding: key challenges and strategies
- Regulatory networks and molecular mechanisms underlying salt stress tolerance in rice
- Semiochemicals and odorant receptors underlying potato cultivar susceptibility and resistance to potato tuber moth
- Identification of nodule number-related loci and the candidate gene GmbHLH135 in soybean under low phosphorus stress
- Microbiological quality of plant-based cheese analogues and pathogen behavior in cashew nut-based varieties in cashew nut-based varieties
Saturday, 02-05-2026 | 23:55
Bangladesh’s newly appointed Agriculture Minister, His Excellency Mohammad Amin Ur Rashid, has signaled a strong push toward a more nutritious, climate-resilient rice, as he met with a delegation from the International Rice Research Institute (IRRI) to reinforce and expand a long-standing partnership on rice research and innovation.
Saturday, 02-05-2026 | 23:55
In plants, the induction of systemic defenses is essential for sustaining structural and physiological homeostasis during repeated attacks by various pests and pathogens. Plant hormones regulate numerous systemic responses; however, relatively little is known about their role in the expression of systemic induced resistance (SIR) against necrotrophic fungi, particularly in trees. Based on an established pathosystem comprised of Austrian pine and Diplodia pinea
Saturday, 02-05-2026 | 23:55
Modernizing cassava breeding programs (CBPs) is critical to increase genetic gain, close the yield gap, and ensure food availability, accessibility, and affordability to support livelihood transformation and economic development in sub-Saharan Africa (SSA). The CBP at the International Institute of Tropical Agriculture, a pioneer in cassava (Manihot esculenta Crantz) improvement in SSA, has undergone modernization.
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