Browsing by Author "Okot, M. W."

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    Characterization of the Chemical Composition of Raw and Treated Jackfruit (Artocarpus Heterophyllus) and Java Plum (Syzygium Cumini) Beans for Poultry Feeding
    (Journal of Animal Science Advances, 2014-11-30) Ndyomugyenyi, E. K.; Okot, M. W.; Mutetikka, D.
    The chemical composition of Jackfruit beans (JFB) and Java plum beans (JPB) was investigated to establish their nutritive value for poultry. The beans were soaked in water before subjecting them to the following treatments: fermented in presence of wood ash (SFWA); boiled (SB); roasted (SR); autoclaved (SA); fermented after boiling (SBF); roasted after fermentation (SFR); and a combination of boiling, fermentation and roasting (SBFR). Screening to identify phytochemical compounds and quantify anti-nutrients in the raw beans; determining the content of anti-nutrients in treated beans were conducted. Additionally, proximate composition, minerals, and metabolisable energy (ME) of raw and treated beans were determined. Most (>70%) phytochemical compounds in raw JFB and JPB were anti-nutrients and included sterols, triterpenes, courmarins, tannins, cardiac glycosides, alkaloids, saponins and steroid glycosides. Raw JFB and JPB had 1.11, 2.44% tannins; 1.00, 1.54 % oxalates; 0.754, 0.714% phytates respectively. Tannins in raw JFB were reduced by 88.7, 88.5, 85.9 and 84.5% in SFR, SBF, SB and SBFR treatments respectively. Oxalates in JFB were reduced by 85.3% and 81.2% in SBF and SBFR treatments respectively. Proximate composition, minerals, and ME of raw JFB and JPB was 92.5, 91.0% DM; 15.1, 4.42% CP; 0.983, 0.400% EE; 4.20, 3.44% CF; 3.78, 2.17% ash; 74.0, 88.6% NFE; 13.3, 13.2 MJ/kg ME; 0.456, 0.430% Na; 0.611, 0.481% Ca; 0.222, 0.088% P; 1.53, 0.895% K respectively. The method of treatment had no effect (P˃0.05) on CF of JFB. Method of treatment had a significant (P˂0.05) effect on CP, NFE, ME, DM, ash, P, K, Na, and Ca for JFB. Method of treatment had no significant (P˃0.05) effect on CF and CP for JPB but DM, ash, EE, NFE, ME, P, K, Na, and Ca were affected (P˂0.05). The SBF and SBFR reduced tannins and oxalates from raw JFB by more than 80%. The major nutrient in JFB and JPB is energy.
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    Enhancing pig production and marketing for smallholder farmers in Northern Uganda
    (The RUFORUM Sixth Biennial Regional Conference, 2018-10-22) Ndyomugyenyi, E. K.; Odongo, W.; Okello, D. M.; Mutetikka, D.; Ouma, E.; Okot, M. W.
    Pig production is suited to smallholder production because pigs have unique characteristics such as faster growth rates, ability to be kept on small pieces of land, high multiplication rates, ability to feed on many feedstuffs, and pig products have ready market. However, pig production is constrained by unavailability of quality feeds and unsustainable use of local feed resources; poor breeds; ready markets for pig products are not reliable; inadequate extension services; and odour in pig houses. This study aims to address key constraints in pig production and marketing by promoting sustainable breeding, management and marketing practices. The objective is being achieved using: (1) multistakeholder platform comprising of farmers, TVET and University students; private sector, CBO, traders, pork joint operators and input dealers; (2) collaborative community action research and dissemination; (3) communication to enhance community engagement and joint learning; (4) experiential learning and sharing experiences. Before the project started, a baseline survey was conducted in the districts of Kitgum, Gulu and Omoro. The baseline survey showed that 87.5% of pig farmers were married; 72.9% were males, and average age was 33 years. Apart from pigs, farmers grew mainly simsim, cassava, maize, millet, sorghum, sweet potatoes, and reared chickens, and goats and 95.8% of them had limited access to extension services. Most (93.8%) farmers sold live pigs, and 22.9% of them sold the pigs to roasters and butchers. All farmers used natural mating for breeding compared to only 2% who used Artificial insemination. Few (2%) farmers used Indigenous microorganisms to control smell from pig houses. Most farmers reported that diseases (89.6%) and feed scarcity (43.8%) were the major limitations to pig production. In order to increase smallholder pig production in northern Uganda, there is need to improve pig value chain through feeding, nsorthern Uganda, value addition, and marketing.
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    Evaluation of the nutritional value of soaked-boiled fermented Java plum (Syzygium cumini) seed meal for poultry
    (African Journal of Agricultural Research, 2016-06-30) Ndyomugyenyi, E. K.; Okot, M. W.; Mutetikka, D.
    Chemical analysis, apparent metabolizable energy (MEn), and one feeding trial were conducted to evaluate the nutritional value of Java plum seeds (JPS) that had been subjected to a combination of soaking, boiling, and fermentation (SBF). Five broiler starter diets were formulated with the processed Java plum seed meal (JPSM) comprising 0, 80, 160, 240, and 320 g/kg of the diet. The JPS before and after processing contained 910±5.30 and 888±6.10 g DM; 44.2±0.940 and 48.1±1.02 g CP; 886±9.90 and 888±6.54 g NFE; and 13.2± 0.165 and 13.3±0.154 MJ calculated metabolizable energy; 24.4±1.33 and 9.17±0.940 g tannins per kg, respectively. The MEn value of the processed JPSM was 14.7±0.973 MJ/kg. Feed intake (FI), weight gain (WG), and feed efficiency (FCR) of broiler chicks decreased (R2 ˃ 0.850) with increasing JPSM in the diet. At 80 and 320 g/kg inclusion, FI, WG, and FCR were depressed by 16.0 and 34.1%, 20.2 and 42.5%, and 4.90 and 12.5%, respectively. Liver, heart, and pancreas weights relative to body weight were not significantly (P ˃ 0.05) affected. However, caecum, gizzard, and intestine weights increased (R2 ˃ 0.800), while the heart weight decreased (R2 = 0.772) with increasing JPSM in the diet. At 80 and 320 g/kg JPSM inclusion, weights of caecum, intestine, and gizzard increased by 48.5 and 68.2%, 18.8 and 43.5%, and 9.55 and 19.2%, respectively. Inclusion of JPSM in chick diets adversely (P < 0.05) affected nitrogen retention (NR), nitrogen digestibility (ND), dry matter digestibility (DMD), and excreta water content (EWC). At 320 g/kg JPSM inclusion, NR, ND, DMD, and EWC were depressed by 30.8, 12.6, 0.42, and 2.45%, respectively. No mortality was recorded at 320 g/kg JPSM inclusion. The SBF did not improve the nutritional value of JPS for poultry production.