CRA involves the adoption of drought-resistant crop varieties, efficient water management techniques, and soil conservation practices that can
So, the use of animal manure, vermicompost, and compost has the potential of increasing soil resilience and WUE from 2.1 to 6.89 kg ha−1 mm−1 for maize and sorghum, NUE from 2.4 to 13.6 kg kg−1, infiltration rates, water retention, and nutrient availability that promote food security through enhanced crop growth and yields (El‐Shazly et al. The use of these organic amendments reduces emission of GHGs, promotes carbon sequestration, and improves crop productivity by 50%–200% especially in sandy soil where farmers grow climate‐resilient crops that include finger millet and sorghum (Mwadalu et al. To mitigate effects of climate change, farmers can adopt practices such as biochar, mulching, water management, soil conservation, agroforestry, and drought‐tolerant crops to boost food systems and resilience in agriculture. “Unlocking the Potential of Biochar for Sustainable Agriculture: Effects on Soil Fertility and Crop Yields.” In Climate Change, Food Security, and Land Management: Strategies for a Sustainable Future, 1–21.
# Climate Resilient and Transformative Adaptation for Agriculture. WRI aims to help small-scale agricultural producers in low- and middle-income countries build resilience to climate change through research, analysis, advocacy and stakeholder engagement. WRI will also build the evidence and tools needed for transformative decision-making in climate-sensitive agri-food systems, as well as co-develop and mobilize innovative finance models that support sustainable, equitable agri-food transitions for climate resilience. WRI is working to make agricultural research and development agendas more inclusive, locally led, climate-informed and risk-aware, while ensuring that more stakeholders can access solutions that will impact lives and societies. We do this by supporting initiatives like CGIAR’s flagship climate adaptation program, the Two Degree Initiative, which aims to improve the climate resilience of 200 million small-scale agricultural producers worldwide. ### A Blueprint for Digital Climate-Informed Advisory Services: Building the Resilience of 300 Million Small-Scale Producers by 2030. ### Why Transformative Adaptation Is Needed to Build Climate Resilient Food Systems.
by Y Devarajan · 2026 — Core strategies include climate-resilient crop varieties, conservation agriculture to sustain soil fertility, agroforestry systems for carbon sequestration and
As UNDP, we support countries to transform their agriculture and food systems, building on their national climate plans. Through SCALA, we support 12 countries carry out value chain assessments, develop national policies and plans, and map out financing strategies to boost the climate resilience of their agriculture and food systems. Based on the programme’s work, we have five recommendations for increasing the climate resilience of agriculture and food systems:. One of the main activities of the SCALA programme has been supporting countries to identify gaps and barriers in engaging the private sector in building climate-resilient agriculture and land use sectors. As part of the country’s efforts to advance nature-based solutions that make agriculture more climate-resilient and sustainable, composting and mulching have emerged as cost-effective practices that reduce chemical fertilizer use and improve soil fertility and moisture retention. *The Scaling up Climate Ambition on Land Use and Agriculture through Nationally Determined Contributions and National Adaptation Plans (SCALA) programme supports countries to enhance climate action in land use and agriculture.
#### Translating climate research into actionable insights for companies to create a resilient agricultural supply chain and farming system for climate change adaptation. To address climate related risks within agricultural supply chains, it is imperative to increase climate resilience by working with farmers, implementation partners, buyers and customers to deploy regenerative agricultural practices that both reduce greenhouse gas emissions to mitigate future climate change as well as facilitate farmers’ adaptation to new climate conditions. ### Regenerative Agriculture Creates Climate Resilient Supply Chains. The start of the climate resilience journey is understanding the key risks and opportunities in the supply chain. ### How do Regenerative Agriculture Practices Enhance Climate Resilience? #### Healthy soil serves as the foundation of regenerative agriculture and promotes climate resilience. As a result of understanding the local climate impacts and business case of investing in resilience, this tool enables an adaptation ecosystem to increase farmers’ climate resilience and to create opportunities for large-scale partnerships.
Diversified production systems build soil health and spread climate risks through the growing season, reducing potential losses from any single weather event.
Enhanced resilience: Reduce vulnerability to droughts, pests, diseases and other climate-related risks and shocks; and improve the capacity to adapt and grow in