Browsing by Author "M. G. Kaiira"

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    Effect of Weeding Regime and Row Direction on Growth and Yield of Upland Rice in Uganda
    (International Journal of Plant & Soil Science, 2023-04-11) M. G. Kaiira; L. Owere; M. Elesu; B. Chemayek; J. Etiang
    A study determined the effects of row direction and integrated weed management on the growth, productivity and economics of upland rice at Ikulwe Research Station using a completely randomized block design, replicated thrice with NAMCHE 5 upland rice in Uganda (2021b & 2022b). 12 treatments with 6 weeding regimes namely Pre- emergence Butanil (PREB) + 1hand hoeing (HH), 2HH, 3HH, PREB + Post emergence Butanil (POEB), weekly weeding (42 days) and control (EW & NS orientation) were adopted. Nitrogen (100 kg) Phosphorus (60 kg) and Potash (40 kg) were applied ha-1. Collected data on plant height, tillers, leaves, panicles; and grains were subjected to ANOVA (13th edition Genstat). Higher growth and yield parameters were in EW than NS direction. Leaves (27-28 leaves), height (65-70 cm), tillers (5-6 tillers and panicles (4-5 panicles) plant-1 were high under 2HH, PREB +1HH, PREB + POEB and 3HH (EW) compared to similar treatments in NS direction during 2021b and 2022b. Grain yield (2.34 t ha-1; HH), (2.26 t ha- 1; PREB + 1 HH), (2.01 t ha-1; PREB + POEB), (1.89 t ha-1; 3HH) was significantly high in 2021b. During 2022b increased panicles (4-5 panicles), panicle length (21 cm), grains panicle-1 (110-117 grains) and grain yield (3.8 - 4.4 t ha-1) were recorded relative to 2021b. Weekly weeding (EW) developed high grains panicle-1 (102 grains) and grain yield (3.0 t ha-1) in 2022b relative to reduced tillers (4.5 tillers), filled panicles (3.6 panicles) and grain yield (1.9 t ha-1) in 2021b. Row directions had no effect on leaf width and grass biomass was numerically higher under EW than NS direction. Benefit Cost Ratios and Marginal Rate of Returns were optimum under 2HH and PREB + 1HH (EW). 2HH and PREB + 1HH (EW) may be recommended in Uganda having been the most economic technologies.
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    Performance of Direct-Seeded Upland Rice-Based Intercropping Systems Under Paired Rows in East-West Orientation
    (Journal of Agricultural Science, 2024-03-15) M. G. Kaiira; Kisho Miyamoto; N. Kasozi; M. Elesu; E. Bayega
    Production potential of rice based intercropping systems with legumes in Uganda is little known. Studies were conducted at Ikulwe Station of the National Agricultural Research Organisation to evaluate upland rice-based intercropping systems under paired-rows in the EW direction. A randomized complete block design with 3 replications was adopted during 2022 and 2023 with 8 pure stand and intercropped treatments. Adjustment from conventional planting to paired rows recorded high rice height and significant 1000 seed weights. In 2022 the 2 pure rice treatments produced significantly more tillers and panicles but legume intercrops reduced numbers of rice tillers and panicles. Intercropping significantly reduced the beans height (48%) and soybean pods (41%) during both years and also reduced the pods filling for beans (66%), groundnuts (36%) and soybeans (18.3%) during 2022. Although paired rice did not influence rice yield during both years, lower mean yield for rice (19.8%), beans (35%), groundnuts (33%) and soybeans (30.5%) were recorded. Lower legume intercrop yields were similarly recorded for beans (70%), groundnuts (73%) and soybeans (62%) during 2023. Partial (p) land equivalent ratios (LER) for intercrops were not significant and less than unity, but the one for rice intercropped with beans increased to more than unity (1.06) during 2023. All combined LER for rice-legumes were more than unity and the pLER of sole crops was 1.0. Rice + beans recorded high area time equivalent ratio during the 2 years while high relative equivalent yield and monetary advantage indices were recorded under rice + soybeans. Rice was more aggressive than other crops and intercropped treatments recorded higher Total Rice Grain yield equivalent (TRGYE) than sole rice. Rice + soybeans (2022) and rice + beans (2023) scored higher TRGY. The findings suggest that farmers can intercrop soybean in rice under paired rows in EW orientation for more benefits.