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This Decision Tool aims to help field-level extension staff make climate-smart decisions on which genetic improvement option best suits the context of their farmers. This tool is not designed as a technical guide to implementation. It is designed to assist extension staff in making climate smart decisions on improvements to farming systems with their clients. Reference to technical guides
relevant to the practices and technologies outlined are included at the end of the tool. The tool focuses on some of the Best Bet Climate-Smart Genetic Improvement Options for livestock production in the Southern African Development Community (SADC) region.

This Decision Tool aims to help field level extension staff make climate smart decisions on which manure management option best suits their farmers’ context. This tool is not designed as a technical guide to implementation. It is designed to assist extension staff in making climate smart decisions on improvements to their farming systems with their clients/farmers. Reference to technical guides relevant to the practices and technologies outlined are included at the end of the tool. The tool focuses on some of the Best Bet Climate-Smart Manure Management Options for livestock production in the Southern African Development Community (SADC) region.

This Decision Tool aims to help field level extension staff make climate-smart decisions on which pasture/rangeland management options best suit their farmers’ context. This
tool is not designed as a technical guide to implementation. It is designed to assist extension staff in making climate-smart decisions on improvements to their farming systems
with their clients/farmers. Reference to technical guides relevant to the practices and technologies outlined are included at the end of the tool. The tool focuses on some of
the Best Bet Climate-Smart Pasture and Rangeland Management Options for livestock production in the Southern African Development Community (SADC) region

Maize is a third important cereal crop in the world after wheat and rice. In Zambia, it is an important staple crop. Its production is however hampered by both biotic and abiotic factors. Among the abiotic factors, Aluminum (Al) toxicity causes high yield losses and is directly linked to acidic soils. Application of lime can ameliorate this problem, but it is expensive for small scale farmers.
Developing maize varieties that are tolerant to Al toxicity is cheaper and feasible for small scale farmers. The purpose of this research was to investigate the type of gene action conditioning tolerance to aluminum toxicity in tropical maize. Eleven inbred lines were mated in an 8 male (4 moderately tolerant and 4 susceptible) x 3 female (resistant) North Carolina Design II. Results revealed that general combining ability (GCA) effects due to both males and females were highly significant (P≤ 0.001) for root biomass. The shoot length GCA effects due to both male and female respectively were significant (P≤ 0.01). Similarly, the GCA effects due to females and males for root length were significant, P≤ 0.01 and P≤ 0.05 respectively. The genotype CML 511 had the most desirable significant GCA effect value (1.40) for root length among the male lines while CML 538 had the most desirable significant GCA effect value (0.92) among the female lines. The baker’s ratio for root length was found to be 0.49 implying that both additive and non-additive gene action were important in conditioning aluminum toxicity tolerance in tropical maize.

The term vulnerable has become both a noun and verb, and now overshadows the significance of the term, vulnerabilities. For some time now, the term vulnerable has been used to refer to almost everything, yet vulnerabilities refer to the inability to withstand the effects of the hostile environment, while vulnerable refers to the possibility of being attacked, harmed – either physically or emotionally.

This poster highlights the work that CCARDESA with the support from GIZ has done in Zambia, Malawi and Zimbabwe in implementing climate-smart agriculture practices which saw improved and increased yields in 19 pilot farms.

This poster highlights the impact of APPSA in Zambia, Malawi and Mozambique with support from the World Bank

This poster highlights the work that Herding for Health is doing in Livestock rearing communities in Lesotho, Botswana, Zambia, Mozambique and Namibia to support rangeland management to mitigate the climate change effects that have ranged the southern Africa Region.

This poster highlights the crop varieties which APPSA has released in Mozambique with support from the World Bank

This poster highlight the work that APPSA did in Zambia under the Food Legumes Regional Centre of Leadership (RCoL ). It also shows all the crop varieties released under the APPSA with  support from the World Bank