Browsing by Author "Rono, B."
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Item Farming as a Business Trainer of Trainers Manual(Kenya Agricultural and Livestock Research Organization (KALRO), 2019-04) Nyongesa, D.; Esilaba, A.O.; Rono, B.; Kavoi, J.; Mwenda, M.; Okoti, M; Kathuku-Gitonga, A.N.; Mutuma, E.; Wasilwa, L.; Kenya Agricultural and Livestock Research Organization (KALRO)This training manual focuses on building trainees’ capacity in entrepreneurial and management skills through a "learning by doing" approach, eventually leading to, and aiming at developing farmer’s skills and competencies in business while improving their knowledge, changing their attitudes towards farming as a business (FAB) and producing for the market. This will be done through a season-long programme that has been designed to be demand responsive, flexible and practical. It is, however, important to note that farmers learn in small groups, in their own farming environment and at their own pace. The training module intends to master for Training of Trainers (ToTs) constituting government extension personnel and service providers. They will in turn enhance capacity of the farmers under the KCEP-CRAL Programme. The module covers the following broad topics: Farming enterprises; Markets and marketing; Keeping farm records and accounts; Business planning and business plan; Group dynamics; and Gender mainstreaming and communication.Item Green Grams Production Training and Extension Manual(Kenya Agricultural and Livestock Research Organization, 2016-08) Too, A.; Esilaba, A.; Rono, B.; Bett, B.; Gathambiri, C.; Githunguri, C.; Nyongesa, D.; Macharia, D.; Nassiuma, E.; Odoyo, E.; Wayua, F.; Kamau, G.; Mwathi, J.M.; Miriti, J.; Wasilwa, L.; Wanyama, M.; Waithaka, M.; Otipa, M.; Likhayo, P.; Amata, R.; Ochieng, V.Green grams also known as mung bean, is an erect annual plant which grows to a height of 60-70 cm tall are the more commonly grown in Kenya as compared to black grams. They are common in central and south Nyanza areas, in Machakos and Kitui Counties and at the coast. The two main varieties for the Kenyan market are N26 and KS20 and are differentiated by the colour of seeds. Yellow green grams have bright green seeds while the local green gram seed is small and ripens unevenly. An improved variety (K26) has larger seeds and tends to ripen uniformly, see Table 1. The common names used to refer to green grams are Ndengu or Pojo Ngina. Green grams produces pale yellow flowers borne in clusters of 12–15 near the top of the plant. The flowers develop into cylindrical pods with cylindrical seeds. Pods measure 7.5 cm to 10 cm long and contain 10 to 15 seeds each. Each plant typically produces 30 to 40 pods which turn darker in colour as they mature. The seed colour is in varying shades of yellow to green and black with green and yellow grams being the more common ones in Kenya. The crop is mainly produced by smallholder farmers. However, pests and diseases are major constraints in green grams production in Kenya. Accuracy in pest identification and disease diagnostics are important for proper management of these challenges. It is therefore necessary to build the capacity of extension officers and growers in pest and disease management in order to minimize losses.Item KALRO-KCEP Climate Smart Agriculture Training and Extension Manual(Kenya Agricultural & Livestock Research Organization (KALRO)., 2016-04) Okoti, M.; Esilaba, A.O.; Ketiem, P.K.; Mutoko, C.; Kimani, S.; Mwathi, J.W.; Githunguri, C.; Nyongesa, D.; Miriti, J.; Nassiuma, E.; Gitari, J.; Ooro, P.A.; Murage, P.M.; Murage, P.M.; Koech, M.; Thuranira, E.; Ashiono, G.; Rono, B.; Kamau, G.; Njaimwe, A.; Gachuki, P.; Maina, I.; Masinde, W.; Macharia, D.; Waithaka, M.; Barkutwo, J.; Mwenda, M.; Ringera, J.M.; Onyango, E.M.; Karanja, J.; Kamidi, M.; Wanjekeche, E.; Woyengo, V.; Odendo, M.; Kipkemoi, P.L.; Magiroi, K.N.; Mwangi, H.; Chebosonwy, R.; Macharia, M.; Wanyonyi, M.; Kenya Agricultural & Livestock Research Organization (KALRO)A significant variation either in the mean state of the climate or its variability, persisting for a period not less than 30 years. Climate change and variability is attributed to both natural and man-made induced causes. In the last 2 decades, causes attributed directly or indirectly to human activity have significantly altered the climate system through the greenhouse gas emissions. It is now evident that the globe is warming and the mean surface temperature has tremendously increased.Item KALRO-KCEP Curriculum for Training of Trainers(Kenya Agricultural & Livestock Research Organization, 2016-03) Esilaba, A.O.; Githunguri, C.; Nyongesa, D.; Okoti, M.; Miriti, J.; Nassiuma, E; Wamaitha, M.; Kamau, G.; Kimani, S.; Karanja, J.; Macharia, D.; Njaimwe, A.; Gachuki, P.; Rono, B.; Mutoko, C.; Masinde, W.; Gitari, J.; Ooro, P.A.; Murage, P.M.; Kamidi, M.; Mwenda, M.; Waithaka, M.; Ketiem, P.K.; Maina, I.; Ringera, J.M.; Wanjekeche, E.; Gitari, I.; Masilia, P.; Kenya Agricultural and Livestock Research OrganizationThe KCEP specific objectives are to support smallholder farmers’ graduate from subsistence to commercial agriculture, enhance post-production management practices and develop market linkages for targeted value chains. Among various other programme roles, KALRO is responsible for the development and, updating of extension materials and guidelines in addition to building the capacity of key stakeholders. Eight training of trainers’ (TOT) workshops covering Nakuru, Kakamega, Nandi, Trans-Nzoia, Bungoma, Machakos, Makueni and Tharaka Nithi counties have been designed to build the capacity of lead farmers, extension agents and service providers who will in turn train the farmers in their respective areas. This curriculum has been developed to guide facilitators who will be involved in the ToTs program planned for the various project areas. The training will be accomplished through lectures, field exercises, practical sessions, role-plays and other adult learning techniques. The curriculum describes the step by step process that will be followed to train on farming as a business (FAB), climate smart agriculture (CSA), soil fertility management, Maize, millet (Pearl and finger) and sorghum and pulses (beans) production and marketing in Kenya.Item KALRO-KCEP Farming as Business Training and Extension Manual(Kenya Agricultural & Livestock Research Organization (KALRO), 2016-04) Rono, B.; Nyongesa, D.; Esilaba, A.O.; Masinde, W.; Mutoko, C.; Mwenda, M.; Waithaka, M.; Mwathi, J.W.; Githunguri, C.; Okoti, M.; Nassiuma, E.; Miriti, J.; Maina, I.; Ketiem, P.K.; Kamidi, M.; Wanjekeche, E.; Woyengo, V.; Odendo, M.; Kipkemoi, P.L.; Magiroi, K.N.; Mwangi, H.; Chebosonwy, R.; Macharia, M.; Wanyonyi, M.; Gitari, J.; Ooro, P.A.; Murage, P.M.; Koech, M.; Thuranira, E.; Ashiono, G.; Kamau, G.; Njaimwe, A.; Gachuki, P.; Macharia, D.; Barkutwo, J.; Ringera, J.M.; Onyango, E.M.; Karanja, J.; Kenya Agricultural & Livestock Research OrganizationMost farmers are subsistence oriented and mainly strive to produce food for their households only. However, farmers play a great role, including contributing to food and nutrition security and generating income for their household needs. There is therefore a great need to empower farmers increased participation in embracing farming as a business. A business is viewed as a commercial activity, which operates with the intention of making a profit, by provision of services or commodities to meet needs and wants of customers. This requires changing the mind-set of most farmers from producing only for subsistence use to becoming commercially oriented.Item KALRO-KCEP Soil Fertility Management Training and Extension Manual(Kenya Agricultural and Livestock Research Organization, 2016-04) Miriti, J.; Nassiuma, E.; Gitari, J.; Murage, P.M.; Koech, M.; Thuranira, E.; Ashiono, G.; Esilaba, A.O.; Mwathi, J.W.; Nyongesa, D.; Githunguri, C.; Okoti, M.; Rono, B.; Ketiem, P.K.; Kimani, S.; Kamau, G.; Njaimwe, A.; Gachuki, P.; Maina, I.; Mutoko, C.; Masinde, W.; Macharia, D.; Waithaka, M.; Barkutwo, J.; Mwenda, M.; Ringera, J.M.; Ooro, P.A.; Onyango, E.M.; Karanja, J.; Kamidi, M.; Wanjekeche, E.; Woyengo, V.; Odendo, M.; Kipkemoi, P.L.; Magiroi, K.N.; Mwangi, H.; Chebosonwy, R.; Macharia, M.; Wanyonyi, M.Soil is composed of mineral particles, weathering products of the parent material, and organic matter, (e.g. residues from plants and animals), air and soil water. The solid particles are categorized size into: gravel and stones (>2 mm in diameter), sand (2.0 to 0.02 mm), silt (0.02 to 0.002 mm) and clay (< 0.002 mm). Soil properties are dependent on the relative composition and arrangement of soil particles.l texture is the relative proportions of sand, silt and clay contained in a soil. Soils are described as sands, sandy loams, loams, clay loams, clays depending on their texture.Item KCEP - Maize Production Training and Extension Manual(Kenya Agricultural and Livestock Research Organization, 2016-08) Karanja, J.K.; Mwathi, J.W.; Ooro, P.A.; Esilaba, A.O.; Nyongesa, D.; Kamidi, M.; Wanjekeche, E.; Macharia, D.; Waithaka, M.; Woyengo, V.; Barkutwo, J.; Githunguri, C.; Kamau, G.; Miriti, J.; Nassiuma, E; Masinde, W.; Mwenda, M.; Njaimwe, A.; Macharia, M.; Gitari, J.; Murage, P.M.; Koech, M.; Thuranira, E.; Ashiono, G.; Rono, B.; Ketiem, P.K.; Kimani, S.; Gachuki, P.; Wanyonyi, M.; Maina, I.; Mutoko, C.; Ringera, J.M.; Odendo, M.; Kipkemoi, P.L.; Chebosonwy, R.; Magiroi, K.N.; Mwangi, H.; Onyango, E.M.The scientific name for maize is Zea mays; but for the purpose of this manual it will be referred to as maize. This production manual is a guide on growing maize successfully in different agro-ecological areas of Kenya, in a rain fed system not under irrigation. However, many principles of agronomy are relevant to both irrigated and rainfed farming systems. Maize is a staple food in Kenya, accounting for an average production of 4.4 million tonnes for the period 2010 to 2013 (FAO, 2015). It contributes to about 65% of daily per capita cereal consumption and serves as subsistence and a commercial crop grown on an estimated 1.4 million hectares. Maize production accounts for more than 20% of the total agricultural production and 25% of agricultural employment in the country. It is an important source of carbohydrate, protein, iron, vitamin B, and minerals. Maize products include baked, roasted and boiled fresh maize on the cob, porridge, pastes, beer, starch, oil and livestock feed from by-products of fresh and dry maize grain. This manual outlines important maize-crop agronomy and provides information on the methodology and technology that farmers may be able to utilise to grow maize in Kenya. Climate change, increased human activities, pathogen and vector evolution have increased the spread of invasive pests and diseases in maize farming systems in Kenya. The country has faced severe disease and pest outbreaks that impact on the country’s food security. Heavy attacks of loses of as much as 100% have been reported due to Maize lethal necrosis disease and fall armyworm. The use of Integrated Pest Management (IPM) provides maize farmers with management options to reduce pesticides use in the management of pest and diseases. Precise and prompt pest and disease detection are vital for their prevention or management. After harvesting their crop, farmers in Kenya face challenges of poor grain handling and management, leading to 30% of post-harvest losses, translating to more than US$ 4 billion losses per annum (Hodges et al., 2011). They also market their grain at low price at harvest time forcing households to buy grains for family consumption when prices increase. Post-harvest losses lead to insufficient food supply, even when crop yields and land under cultivation have been increasing. This is partly due to lack of knowledge on appropriate methods of grain storage. This post- 11 harvest management component will support farmers in securing high returns from investments on grain production. This is through adoption of improved on-farm grain handling practices to minimize post-harvest losses and enhanced access to markets offering favourable terms. This manuals’ goal is to reduce post-harvest losses from the current estimated 30% to industry accepted levels of below 5%. This will lead to usage of certified warehouse system by farmers to bulk and sell their produce at a price 30% higher than prevailing farm gate price. systems in Kenya. The country has faced severe disease and pest outbreaks that impact on the country’s food security. Heavy attacks of loses of as much as 100% have been reported due to Maize lethal necrosis disease and fall armyworm. The use of Integrated Pest Management (IPM) provides maize farmers with management options to reduce pesticides use in the management of pest and diseases. Precise and prompt pest and disease detection are vital for their prevention or management. After harvesting their crop, farmers in Kenya face challenges of poor grain handling and management, leading to 30% of post-harvest losses, translating to more than US$ 4 billion losses per annum (Hodges et al., 2011). They also market their grain at low price at harvest time forcing households to buy grains for family consumption when prices increase. Post-harvest losses lead to insufficient food supply, even when crop yields and land under cultivation have been increasing. This is partly due to lack of knowledge on appropriate methods of grain storage. This post- 11 harvest management component will support farmers in securing high returns from investments on grain production. This is through adoption of improved on-farm grain handling practices to minimize post-harvest losses and enhanced access to markets offering favourable terms. This manuals’ goal is to reduce post-harvest losses from the current estimated 30% to industry accepted levels of below 5%. This will lead to usage of certified warehouse system by farmers to bulk and sell their produce at a price 30% higher than prevailing farm gate price.
