College of Agriculture

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The College of Agriculture is committed to advancing agricultural education, research, and community service. It serves as a center for knowledge creation and dissemination in crop science, animal production, natural resource management, and sustainable agriculture.

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    SOME PHYISICAL AND CHEMICAL PROPERTIES OF CASHMERE TYPE FIBERS FROM LONG HAIRED ARSI BALE GOATS
    (Hawassa University College of Agriculture, 2020) BALI TESFAYE SORA
    A study was carried out to access the fleece quality parameters of long haired Arsi Bale goats which are reared at Dinsho and Agarfa District of Oromia regional state. The long haired Arsi Bale goats are raised in the cold areas of Bale zone and have very long hairs and warm undercoat. Earlier studies have indicated that the goats are raised primarily for their skin and pelt which are used as saddle cover and also for covering of furniture’s in the home. This study was carried out to access the physical and chemical quality of the fleece obtained from healthy bucks and does reared in the selected kebeles of Dinsho and Agarfa District. Proportional sampling method was used to identify the bucks and does. Based on the same 21 bucks from Dinsho district and 17 from Agarfa district and 29 does from Dinsho district and 33 from Agarfa district were selected. The age of the bucks was determined by their dentition and only adult (>1 year old) goats were selected for the fleece. The fleeces were combed from the neck region of the healthy goats and then they were packed in plastic bags before being transported to the laboratory at School of Animal and Range Science laboratory. The fleece were studied for staple length, numbers of crimps/inch, numbers of hairy, hetero and fine fibers, average diameter of the hetero, hairy and fine fibers (in micron). The chemical properties of the fleece included the percentages of ash, wax, scouring yield and burr. The numbers of fleece and their diameter was accessed using a digital microscope at 40X magnification. The data were analyzed for the effects of location and sex on the fleece quality parameters. The findings for the bucks indicated that there were differences (P<0.05) only in crimp, numbers of pure fibers and scouring yield of the bucks reared in the two locations. While among the does there were differences P<0.05 in staple length, crimp, fiber diameters (hairy, hetero and pure), in percentages of ash, scouring yield and wax of the bucks reared in the two Districts. The study also shows that there was a wide variation in the numbers of pure, hetero and hairy fleece while, differences in the fiber diameter were minimum. The study pertaining to the effects of sex further indicated that there were differences in the fiber wax parameter among the bucks and does raised at Dinsho. In Agarfa district there were differences (P<0.05) in staple length, numbers of hairy fibers, hetero and pure fibers, hetero and pure fiber diameters. The within sex differences due to location can be due to the adaptability of the goats to the locations and also due to crossings of the bucks/does with the short haired Arsi Bale goats. The differences between the sexes within locations can be ascribed due to sexual dimporphism and also the traditional breeding objectives which differ across the sexes. There was a possibility of selection within the genotypes for the parameters studied and thereafter further improving the same.
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    INTEGRATED USE OF DRY AZOLLA BIOMASS AND INORGANICNITROGEN FERTILIZER FOR SOIL AND TOMATO (Solanum Lycopersicon L.) PRODUCTIVITY IN SELECTED DISTRICTS OF SIDAMA REGION, ETHIOPIA
    (Hawassa University College of Agriculture, 2025) HABTAMU ALEMAYEHU LOREBO
    Declining soil fertility and insufficient fertilizer application can limit crop yield. Integrating Azolla used as a source of organic nitrogen, with inorganic nitrogen fertilizers presents a promising strategy to improve soil health and crop productivity in tropical agroecosystems. This study was initiated to characterize soil, evaluate the effects of integrated application of Azolla dry biomass and inorganic nitrogen fertilizer on soil nitrogen mineralization, yield and nitrogen use efficiency of tomato in Hawassa Zuria and Wondo Genet, Sidama Region. The research conducted included soil characterization, through greenhouse, field and laboratory experiments with four specific objectives: (i) to characterize and classify soils at experimental sites,(ii) to determine the influence of Azolla dry biomass and inorganic N-fertilizer applications on selected soil chemical properties and as well as yield and yield components of tomatoes under greenhouse conditions,(iii) to evaluate the integrated effects of Azolla dry biomass and inorganic nitrogen fertilizer on soil chemical properties, nitrogen use efficiency, growth and yield of tomatoes, and (iv)determine the effects of Azolla dry biomass on soil nitrogen mineralization under controlled conditions. The first experiment, aimed to characterize and classify soils at experimental sites. A representative pedon was opened at each site to a depth of 2 x 2 x 2 m, and the profiles were described using the Guidelines for Field Soil Descriptions (FAO, 2006). A total of 12 disturbed and 12 undisturbed soil samples were collected from each diagnostic horizon at Jara Gelalicha, Hawassa Zuria and at Aruma, Wondo Genet locations. The soil analysis results showed that the surface horizon textural class of the pedon of Jara Gelalicha is sandy loam, whereas the textural class of the pedon at Aruma is sandy clay loam. Based on the World Reference Base for Soil Resources (WRB), the soils of the study areas were classified as Eutric Cambisols (Loamic) in the Jara Gelalicha area and Eutric Andosols (Loamic) in the Aruma area. Generally, the sitespecific soil characterization and classifications could offer crucial information for designing soil management options to increase soil productivity. The second experiment, aimed to determine the influence of Azolla dry biomass and inorganic nitrogen fertilizer on soil chemical properties, yield and yield components of tomato under greenhouse. The treatments included four levels of Azolla dry biomass (control (0), 25, 50, and 75 g pot⁻¹) and four levels of inorganic N 2 fertilizers (0 (non-fertilized), 0.23, 0.46, and 0.69 g pot⁻¹). The pot experiments were set up using factorial combinations within a completely randomized design (CRD) with three replications. In a greenhouse pot experiment, the interaction between Azolla dry biomass and inorganic nitrogen had a significant impact on various plant characteristics. The best results were achieved with the combined application of 75 g Azolla pot-1 and 0.69 g pot-1 of N, resulting in the highest marketable fruit yields at the Hawassa Zuria and Wondo Genet locations, which were 1088.43 g/plant and 833.73 g/plant, respectively. Field research is required to confirm the greenhouse findings and provide appropriate recommendations. Therefore, a third experiment, aiming to evaluate the integrated use of Azolla dry biomass and inorganic N fertilizers on soil chemical properties, growth and yield components, and nitrogen uptake and nitrogen use efficiency of tomato production was conducted under field conditions. Two-year field experiments were conducted in the Hawassa Zuria and Wondo Genet districts of the Sidama region. The experiment took place over two years in (2022/23 and 2023/24), a factorial combination of four rates of dry Azolla biomass (0, 5, 10, and 15 t ha⁻¹) as an organic nitrogen source and four rates of inorganic N fertilizer (0, 46, 92, and 138 kg N ha⁻¹) was evaluated. The treatments were arranged in a randomized complete block design (RCBD) with three replications. The combined two-year data showed that the highest marketable fruit yields in the Hawassa and Wondo Genet locations were 23.76 t ha⁻¹ and 26.35 t ha⁻¹, respectively. This was achieved by adding 15 t ha⁻¹ of Azolla biomass and 138 kg ha⁻¹ of nitrogen. It is integrated application of 15 t ha-1 of Azolla and 138 kg N ha-1 is recommended for tomato production in both districts. The combined application of 15 t ha⁻¹ and 138 kg ha⁻¹ led to the highest fruit N uptake (1093.48 kg ha⁻¹ in Hawassa Zuria and 1486.94 kg ha⁻¹ in Wondo Genet, while the control treatment had the lowest. The final experiment was aimed to determine the effects of Azolla dry biomass rates on soil nitrogen mineralization under controlled conditions. In addition, an incubation experiment using a completely randomized design (CRD) with three replications was conducted to determine the combined application of four rates of Azolla dry biomass (0, 15, 30, and 45 g pot⁻¹) and eight incubation periods (0, 7, 14, 21, 28, 42, 49, and 56 days of incubation). The results showed that the highest nitrogen mineralization occurred after 42 days of incubation with 45 g kg⁻¹ of Azolla in soils from both locations. The highest total mineralized N was found after 42 days of incubation in Hawassa Zuria and Wondo Genet (39.88 and 48.57 mg kg⁻¹ soil, respectively). Field research is essential to confirm the laboratory findings and provide appropriate recommendations.