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Farmers in Sub-Saharan Africa (SSA) use less fertilizer than farmers in any other region in the world. Low fertilizer use is one factor explaining the lag in agricultural productivity growth in Africa. A variety of market interventions to increase fertilizer use have been attempted over the years, with limited success. In the past several decades, Malawi has tried to alter that trend through a variety of innovative programs aimed at achieving national food security through targeted input subsidy programs. The best known of these programs is Malawi’s Starter Pack Programme. The Starter Pack Programme was amended twice into the Targeted Inputs Programme (TIP) and Expanded Targeted Inputs Programme (ETIP), and eventually replaced with the Agricultural Input Subsidy Programme (AISP). The efficiency and equity of the Starter Pack Programme and its successors have been the subject of debate. This report reviews the history, implementation, and perceived effectiveness of the various input subsidy schemes in the context of Malawi’s political economy. We find that AISP is credited with significantly increasing maize yields in Malawi. However, we also find that there are serious challenges facing the most recent input subsidy program, ranging from the rising cost of the subsidy to ongoing implementation struggles related to increased bureaucracy and corruption.
Lack of nitrogen (N) is often cited as the most limiting factor in agriculture. Although N composes nearly 80% of the atmosphere, plants are unable to use this form of the element (N2) because of the strong triple bonds between the two atoms. Nitrogen deficiency is especially problematic in the soils of Sub-Saharan Africa (SSA). Low levels of N and other soil fertility problems have severe poverty, malnutrition and environmental degradation consequences for SSA. The process by which atmospheric N2 is converted into N compounds that can be used by living things is called nitrogen fixation. Biological nitrogen fixation (BNF or biofixation) offers an alternative or additional means to traditional nitrogen fixation to increase plant-available nitrogen. Through a symbiotic relationship, an N-fixing bacterium infects a plant (usually a legume) and forms nodules on the roots of the plant in which N fixation occurs. This literature review examines the expansion and benefits of BNF, the constraints to BNF adoption, BNF regulations, and success stories of developing and distributing BNF technologies worldwide. BNF technology can be an efficient and effective tool for decreasing environmental degradation and increasing soil fertility, yields, income, and food security in SSA, although many constraints to farmer adoption exist.