Assessment of the effectiveness of maize seed assistance to vulnerable farm households in Zimbabwe

The publication describes outcomes of a study to assess the effectiveness of a large-scale crop seed relief effort in Zimbabwe during 2003-07. Aims of the effort, which was supported by the British Department for International Development (DfID) and coordinated by the Food and Agricultural Organization (FAO) regional office in Harare, included broader diffusion of open-pollinated maize varieties (OPVs), as opposed to hybrids. Based on the findings of the study, the authors recommend that, to increase benefits to vulnerable groups, participants in such efforts should effectively disseminate information on selecting and recycling seed, supported by training and field demonstrations, and should target relatively well-endowed farmers initially. Recommendations also included promotion of OPVs by commercial seed companies and developing a simple, farmer-friendly system for naming varieties.Agricultural development, Technical aid, Farm income, Food production, Maize, Open pollination, Hybrids, Zimbabwe, Crop Production/Industries, International Development,

Quality protein maize—Bridging the malnutrition gap

United States Agency for International Developmen

Africa RISING science, innovations and technologies with scaling potential from ESA-Zambia

United States Agency for International Developmen

Africa RISING genetic intensification in Central Tanzania and Zambia

United States Agency for International Developmen

An evaluation of the implementation of performance management system : a case study of Ba-Phalaborwa Municipality in Limpopo

Thesis (MPA.) -- University of Limpopo, 2010The purpose of this study was to evaluate the implementation of Performance Management System in the Ba-Phalaborwa Municipality. The need for this study was considered relevant and necessary as municipalities today have become focus points for service delivery as per their constitutional obligations. Central to the constitutional mandate, amongst other things, the Municipal Systems Act 32 of 2000 requires municipalities to establish a Performance Management System that will play a pivotal role in promoting a culture of Performance Management. It is through Performance Management that priorities, objectives and targets set, as contained in the Integrated Development Plan, are implemented and measured. In this study, the researcher evaluates the capacity of the management of the Ba-Phalaborwa Municipality to implement Performance Management System, the compliance of the Performance Management System with legislation and the perceptions of labour unions in the implementation of the Performance Management System. The study further provides an analysis of the state of the Performance Management System in the Ba-Phalaborwa Municipality. It discloses several issues that require immediate attention by management in order to make Performance Management fully compliant and functional. Amongst other things, the study reveals that there is minimal employee involvement in the planning of Performance Management, lack of training opportunities to address identified weaknesses, non-payment of performance bonus to good performing employees and majority of employees not knowing their performance targets as reflected in the Service Delivery and Budget Implementation Plan. The study concludes by providing recommendations to management of the Ba-Phalaborwa municipality on how to enhance good Performance Management. Some of the recommendations proposed are payment of performance bonus to good performing employees, consultations with all employees on the implementation of the system, cascading of the Performance Management to all lower levels employees, to cite just but few examples. The correct implementation of Performance Management System will serve as a means to enhance organizational efficiency, effectiveness and accountability in the use of resources in accelerating access to good quality services and a better life for all

Genetic evaluation of seedling heat tolerance in sorghum

Surface temperatures of tropical soils at planting time, where sorghum (Sorghum bicolor) is a traditional crop, can exceed 50 oC for hours. Seedling heat tolerance is critical for adequate crop establishment in the semi-arid tropics. Improvement of seedlings heat tolerant genotypes would reduce crop losses due to sufficient plant populations. The objectives of this study were to estimate seedling tolerance to heat, determine individual parental contribution and estimate additive, dominance and epistatic effects for seedling tolerance. In our experiments, seedling heat tolerance termed heat tolerance index (HTI) was defined as a ratio of resumed coleoptile growth after a controlled heat shock, compared to normal growth. Genetic parameters of HTI were determined by crossing four lines with varying HTI, with three tester lines, and deriving F1, F2, F3, BC1 and BC11 families forgeneration means analysis. Line IS20969 from Egypt showed the highest HTI of 0.71, while 290R, an experimental line from the University of Nebraska was the lowest at 0.51. Additive and dominance effects contributed to coleoptile elongation under normal conditions, but only additive effects were significant in recovery growth. Epistatic effects were present in both conditions. General combining ability (GCA) effects for HTI were highly significant in both conditions, but specific combining ability effects were negligible. These results indicate that it is possible to improve seedling heat tolerance and, thus, improve sorghum variety and hybrid plant populations in tropical areas where hot soil temperatures occur

Current warming will reduce yields unless maize breeding and seed systems adapt immediately

The development of crop varieties that are better suited to new climatic conditions is vital for future food production1, 2. Increases in mean temperature accelerate crop development, resulting in shorter crop durations and reduced time to accumulate biomass and yield3, 4. The process of breeding, delivery and adoption (BDA) of new maize varieties can take up to 30 years. Here, we assess for the first time the implications of warming during the BDA process by using five bias-corrected global climate models and four representative concentration pathways with realistic scenarios of maize BDA times in Africa. The results show that the projected difference in temperature between the start and end of the maize BDA cycle results in shorter crop durations that are outside current variability. Both adaptation and mitigation can reduce duration loss. In particular, climate projections have the potential to provide target elevated temperatures for breeding. Whilst options for reducing BDA time are highly context dependent, common threads include improved recording and sharing of data across regions for the whole BDA cycle, streamlining of regulation, and capacity building. Finally, we show that the results have implications for maize across the tropics, where similar shortening of duration is projected

Climate risk management and rural poverty reduction

Climate variability is a major source of risk to smallholder farmers and pastoralists, particularly in dryland regions. A growing body of evidence links climate-related risk to the extent and the persistence of rural poverty in these environments. Stochastic shocks erode smallholder farmers’ long-term livelihood potential through loss of productive assets. The resulting uncertainty impedes progress out of poverty by acting as a disincentive to investment in agriculture – by farmers, rural financial services, value chain institutions and governments. We assess evidence published in the last ten years that a set of production technologies and institutional options for managing risk can stabilize production and incomes, protect assets in the face of shocks, enhance uptake of improved technologies and practices, improve farmer welfare, and contribute to poverty reduction in risk-prone smallholder agricultural systems. Production technologies and practices such as stress-adapted crop germplasm, conservation agriculture, and diversified production systems stabilize agricultural production and incomes and, hence, reduce the adverse impacts of climate-related risk under some circumstances. Institutional interventions such as index-based insurance, adaptive safety nets and climate services play a complementary role in enabling farmers to manage risk, overcome risk-related barriers to adoption of improved technologies and practices, and protect their assets against the impacts of extreme climatic events. While some research documents improvements in household welfare indicators, there is limited evidence that the risk-reduction benefits of the interventions reviewed have benefited significant numbers of chronically poor farmers. We discuss the roles that climate-risk management interventions can play in efforts to reduce rural poverty, and the need for further research on identifying and targeting environments and farming populations where improved climate risk management could accelerate efforts to reduce rural poverty

Exploiting Grain-Filling Rate and Effective Grain-Filling Duration to Improve Grain Yield of Early-Maturing Maize

Early-maturing maize (Zea mays L.) genotypes yield 15 to 30% less than late-maturing genotypes. One strategy for improving grain yield in the early-maturing group involves assessment of grain-filling traits as secondary traits for selection for high grain yield. In this study, we investigated the possibility of using grain-filling rate and duration for improving grain yield in early-maturing tropical maize. Forty-four hybrids generated using North Carolina design II were evaluated at CIMMYT-Zimbabwe during the 2011/2012 season under irrigated and nonirrigated environments. Although grain-filling rate and effective grain-filling duration were negatively correlated, several hybrids were distinctly above the trend line. The earliest-maturing hybrid took 127 d to reach physiological maturity and produced grain yields comparable to those of the medium-maturing genotypes (7 t ha−1). It had a high grain-filling rate of 2.40 g per plant d−1 (18% higher than those of the low-yielding hybrids) and a relatively longer effective grain-filling duration. Grain-filling rate and effective grain-filling duration had high coefficients of genetic determination, positive correlations with grain yield, low error terms, and low genotype × environment interactions, making them appropriate selection traits for improved grain yield. The study shows that it is possible to develop high-yielding early- to medium-maturing maize hybrids based on favorable combining ability values for grain-filling rate and duration