31 research outputs found
Economics of Insecticide use and Potential for Bt Maize Varieties in the Control of Stalkborer in Kenya.
Maize is the staple food crop and source of income for majority of the Kenyan population and many sub-Saharan African countries. The increasing Kenyan population demands an increase in maize production if intermittent food deficits have to be averted. Since the introduction of improved maize varieties in mid-1960, the start of Green Revolution period, maize yields increased drastically up to 1970s and started declining from 1980s to-date. The key contributory factors are nutrient mining, sub-optimal input use and insect pest damage. Of the insect pests, stalk borer is of economic importance. Currently, KARI and CIMMYT are developing maize varieties that are tolerant to stalk borer damage. In order to evaluate the potential impact of these interventions economics of stalk borer control at farm level was evaluated. Surveys complemented with on-farm trials were executed in six major maize growing zones of Kenya. Farmers were randomly selected and a sample-frame established after which a total of 1854 households were randomly selected using random sampling technique. Each household was interviewed using structured questionnaire. Data on method of stalk borer control and the type insecticides used was collected. Partial budget and economic surplus models were used. The results indicated that very few farmers control stalk borer in maize despite significant stalk borer losses of about 15%. Therefore if Bt maize is introduced in Kenya it is likely to reduce these losses. This will benefit many hungry and poor Kenyans with improved household food supply and on farm incomes, in line with Government policy of food security and poverty eradication.Crop Production/Industries,
Ecological management of cereal stemborers in African smallholder agriculture through behavioural manipulation
1. Africa faces serious challenges in feeding its rapidly growing human
population owing to the poor productivity of maize and sorghum, the most important
staple crops formillions of smallholder farmers in the continent,with yields being among
the lowest in the world.
2. A complex of lepidopterous stemborers attack cereals in Africa. However, their
effective control is difficult, largely as a result of the cryptic and nocturnal habits of
moths, and protection provided by host stem for immature pest stages.Moreover, current
control measures are uneconomical and impractical for resource-poor farmers.
3. An ecological approach, based on companion planting, known as âpushâpullâ,
provides effective management of these pests, and involves combined use of inter- and
trap cropping systems where stemborers are attracted and trapped on trap plants with
added economic value (âpullâ), and are driven away from the cereal crop by antagonistic
intercrops (âpushâ).
4. Novel defence strategies inducible by stemborer oviposition have recently been
discovered, leading to the attraction of egg and larval parasitoids, in locally adapted
maize lines but not in elite hybrids. We also established that landscape complexity did
not improve the ecosystem service of biological control, but rather provided a disservice
by acting as a âsourceâ of stemborer pests colonising the crop.
5. Here we review and provide new data on the direct and indirect effects of the
pushâpull approach on stemborers and their natural enemies, including the mechanisms
involved, and highlight opportunities for exploiting intrinsic plant defences and natural
ecosystem services in pest management in smallholder farming systems in Africa
On-farm evaluation and scaling-up of soil fertility management technologies in Western Kenya
Low soil fertility is a fundamental constraint to crop production in western Kenya. Although researchers have developed many soil fertility-improving technologies, the adoption of these technologies is low due to inadequate awareness of the technologies, poor access to requisite resources and unsuitability of the technologies to the farmers conditions. On-farm experiments were conducted during the 2002/2003 long rain cropping seasons in two village clusters in Vihiga and Kakamega Districts in order to: (1) introduce farmers to selected soil fertility-improving options and elicit farmers evaluation of the options; (2) assess the economics of the selected soil fertility management options under standard farming conditions; (3) compare the farmers evaluations with the results of an economic assessment. Five treatments were suggested to the farmers and through consensus, they ultimately chose to test three: (1) 5 tons ha?1 FYM (Farm Yard Manure); (2) 60 kg P ha?1 plus 60 kg N ha?1 (chemical fertilizers); (3) 2.5 tons ha?1 FYM plus 30 kg P ha?1 (chemical fertilizers). These were assessed concurrently with farmers accepted practice, using maize as a test crop. Farmers were involved in the routine management, monitoring and evaluation of the experiments, and field days were held to introduce more farmers to the technologies. The results of this investigation show that the application of 30 kg P plus 2.5 tons FYM ha?1 gave economically viable returns that remained viable even under a projected decline in maize yield and an increase in the price of fertilizers. This treatment was also the most preferred option of the farmers. The results of this study should be used for validation of the promising options and planning of future experiments
To mulch or to munch?:big modelling of big data
African farmers are poorly resourced, highly diverse and aground by poverty traps making them rather impervious to change. As a consequence R4D efforts usually result in benefits but also trade-offs that constraint adoption and change. A typical case is the use of crop residues as mulches or as feedstock. Here we linked a database of household surveys with a dynamic whole farm simulation model, to quantify the diversity of trade-offs from the alternative use of crop residues. Simulating all the households in the survey (n = 613) over 99 years of synthetic climate data, showed that benefits and trade-offs from âmulching or munchingâ differ across agro-ecologies, and within agro-ecologies across typologies of households. Even though trade-offs between household production or income and environmental outcomes could be managed; the magnitude of the simulated benefits from the sustainable intensification of maize-livestock systems were small. Our modelling framework shows the benefits from the integration of socio-economic and biophysical approaches to support the design of development programs. Our results support the argument that a greater focus is required on the development and diversification of farmers' livelihoods within the framework of an improved understanding of the interconnectedness between biophysical, socio-economic and market factors
To mulch or to munch? Big modelling of big data
African farmers are poorly resourced, highly diverse and aground by poverty traps making them rather impervious to change. As a consequence R4D efforts usually result in benefits but also trade-offs that constraint adoption and change. A typical case is the use of crop residues as mulches or as feedstock. Here we linked a database of household surveys with a dynamic whole farm simulation model, to quantify the diversity of trade-offs from the alternative use of crop residues. Simulating all the households in the survey (n = 613) over 99 years of synthetic climate data, showed that benefits and trade-offs from âmulching or munchingâ differ across agro-ecologies, and within agro-ecologies across typologies of households. Even though trade-offs between household production or income and environmental outcomes could be managed; the magnitude of the simulated benefits from the sustainable intensification of maize-livestock systems were small. Our modelling framework shows the benefits from the integration of socio-economic and biophysical approaches to support the design of development programs. Our results support the argument that a greater focus is required on the development and diversification of farmers' livelihoods within the framework of an improved understanding of the interconnectedness between biophysical, socio-economic and market factors
An assessment of the adoption of seed and fertilizer packages and the role of credit in smallholder maize production in Kakamega and Vihiga Districts, Kenya [1998]
This study documents maize farmers' practices in Vihiga and Kakamega Districts of Kenya, which account for one-third of the maize area in the mandate region of the Regional Research Center-Kakamega. In both districts, farms are small and maize yields are very low. Primary data were obtained from farmers through direct interviews based on structured questionnaires. Surveys farmers were chosen through a multistage, purposive sampling procedure with simple random sampling selection. Survey data were used to identify socioeconomic and technical factors affecting the adoption of improved maize seed and fertilizer. Special attention was given to the role of credit in seed and fertilizer adoption. Farmers were grouped into adopters and nonadopters of improved maize, and the two groups were compared. Factors affecting the adoption of improved maize varieties and the use of fertilizer were analyzed using a logit model. The logit analysis showed that secondary education, cattle ownership, use of hired labor, the farmer's location (division), and access to extension all significantly influenced the adoption of improved maize varieties. Cattle ownership, use of hired labor and manure, the farmer's location (division), and membership in an organization were significant factors influencing the adoption of fertilizer