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Better grass. Better livestock. Urochloa cultivars help achieve goals related to poverty reduction, nutrition and climate resilience. High‑yielding grasses like Basilisk, MG‑4, Piatá and Xaraes increase livestock productivity and incomes for smallholder farmers. They thrive on poor soils and in dry conditions, supporting sustainable agriculture. Their high protein and digestibility improve milk and meat supplies. Thick pastures reduce erosion and restore soil health. Women benefit from reduced time spent searching for forage and from opportunities in hay and seed enterprises. Development programmes should support community seed multiplication, demonstration plots, training on sowing and weed control, and market linkages.
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. The handheld Nutrient Scanner by AgroCares is a scalable tool to democratize soil testing in low-resource settings. It enables field agents and cooperatives to perform instant nutrient diagnostics using a smartphone, bypassing the cost and delays of lab testing. Ideal for projects aiming to improve input efficiency, food security, or environmental sustainability, the scanner supports inclusive, evidence-based farming practices. Its use can also generate valuable data to inform policy, monitor soil degradation, and promote regenerative agriculture.
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.