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Better grass. Better livestock. Governments seeking to improve feed security and livestock productivity can promote Urochloa cultivars. Basilisk, MG‑4, Piatá and Xaraes are climate‑smart grasses developed from African germplasm and registered for commercial use in Kenya. They produce 8–15 t per hectare per year of nutritious forage (8–15 % protein). Because they tolerate acidic and poor soils and survive dry seasons, they provide a reliable supply of feed. Dense cover protects soil, reduces erosion and increases organic matter. Supporting these grasses can reduce feed imports, improve milk and meat production, create jobs in hay and seed businesses and empower women and youth. Public investments in seed systems, extension services and pest management research will enhance uptake.
High-biomass, drought-tolerant forage for reliable feed all year Seasonal feed shortages and climate variability limit livestock productivity in smallholder systems. Megathyrsus maximus cultivars (Mombasa, Tanzania, Massai) offer a high-yielding (10–20 t DM/ha/year), drought-tolerant forage with good nutritional quality, ensuring reliable year-round feed supply. Their deep root systems also improve soil structure and reduce erosion, supporting more resilient and sustainable livestock production.
Scan Nutrients. Get Answers. Act Fast. AgroCares’ Nutrient Scanner is a field-ready solution for rapid soil and crop nutrient testing. The handheld device provides instant results through a smartphone app, enabling extension officers to deliver timely, data-driven fertilizer recommendations. It reduces dependency on distant laboratories and supports national goals on soil health, productivity, and climate-smart agriculture. Governments can integrate the scanner into public advisory programs, subsidy targeting, or soil mapping efforts to reach more farmers with less cost.
Empower the soil data community with best practice tools and lessons learned for a sustainable SIS! The SIS Framework, developed by CABI and ISRIC, provides a step-by-step guide for designing soil information systems. It integrates financial, institutional, and technological considerations across four practical phases: initiation, planning and design, implementation, and operationalization.
Soil Information Workflow turns data into insights, helping professionals make smarter, sustainable decisions. The soil information workflow provides an innovative approach to managing and accessing comprehensive soil data, enabling better-informed decision-making in agriculture and land management. Its enhances the way soil data is collected, analyzed, and disseminated, offering a more dynamic and accurate Soil Information System (SIS). The system integrates data from diverse sources, including satellite imagery, field surveys, and soil samples, allowing stakeholders, such as farmers, researchers, and policymakers, to make data-driven decisions that enhance soil health and agricultural practices.