Climate change is expected to severely impact cultivated plants and consequently human livelihoods 1-3 , especially in Sub-Saharan Africa (SSA) 4-6. Increasing agricultural plant diversity (agrobiodiversity) could overcome this global challenge 7-9 given more information on the climatic tolerance of crops and their wild relatives. Using >200,000 worldwide occurrence records for 29 major crops and 778 of their wild relative species, we assess for each crop how future climatic conditions are expected to change in SSA and whether populations of the same 2 crop from other continents, wild relatives around the world, or other crops from SSA are better adapted to expected future climatic conditions in the region. We show that climate conditions not currently experienced by the 29 crops in SSA are predicted to become widespread, increasing production insecurity, especially for yams. However, crops such as potato, squash and finger millet may be maintained by using wild relatives or non-African crop populations with climatic niches more suited to future conditions. Crop insecurity increases over time and rising greenhouse gas emissions, but the potential for using agrobiodiversity for resilience is less altered. Climate change will therefore affect Sub-Saharan agriculture but agrobiodiversity can provide resilient solutions in the short-and medium-term. Main Text: Global climate has changed rapidly over recent decades, and temperature and precipitation regimes are predicted to shift significantly in the near future 10. Future impacts on both biodiversity and human livelihoods are significant and primarily negative 2,4,11. By affecting plant productivity, and thus industrial and food crop yield, climate change is expected to impact global human economy and subsistence 1,2. Its tropical location, socioeconomic, demographic, policy, and farming characteristics place sub-Saharan Africa (SSA) at major risk 5,6. Assessing which sub-Saharan crops, regions and populations will be most affected, as well as potential future adaptations is therefore essential. Agrobiodiversity and breeding programs represent an important adaptive strategy for agriculture in a changing world 8,12. Currently cultivated crops may exhibit reduced genetic variation compared to that found in wild relative populations, which may limit their resilience and adaptation to future environmental conditions 13. Crop improvement through selection for
