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    Decomposition of sugarcane bagasse by Trichoderma
    Bangilan, Ma. Irish P. (Division of Biological Sciences, College of Arts and Sciences, University of the Philippines Visayas, 1994-04)
    Sugarcane bagasse, an end-product after extraction of the juice of the sugarcane, was composted with the aid of Trichoderma, a compost fungus activator which shortens the decomposition process of farm wastes. Decomposition process was observed through the changes in temperature and substrate consistency. An average of 94 days was noted for a complete decomposition of 900 kg bagasse. Analysis of bagasse compost gave 0.78% nitrogen, 4.94% phosphorus, in the form of P2O5 and 1.55% potassium, in the form of K 2O. It showed that composted bagasse is a good source of phosporus but poor in nitrogen and potassium. The compost, nevertheless, can also be a good soil conditioner.
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    Utilization of cow manure in microbial fuel cells
    Alcanzo, Jan Hilary A. (Division of Biological Sciences, College of Arts and Sciences, University of the Philippines Visayas, 2012-04)
    Resource recycling and the proper treatment of animal waste to reduce its environmental impact are currently important issues for the livestock industry. A microbial fuel cell (MFC) offers the possibility of harvesting electricity from fuel sources that are generally microbially degradable organic matter. The generation of electricity from cow manure in different treatments was investigated. A two-chambered MFC was constructed from accessible and inexpensive materials. Data were recorded and collected every day for 35 days. The MFC with the 20% cow manure with rice stalk yielded the highest power output of 32.028 mW/m³ and the highest current density of 69.022 mA/cm2. The addition of another substrate, and therefore, another fuel source for the bacteria, added to the electricity produced by the cow manure alone. Results of the study show that it is possible to use MFCs to generate electricity from cow manure. Further studies are needed to realize the full potential of cow manure as a fuel source for MFCs as well as to lessen its contribution to the wastes in the environment.
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    Effect of cow and chicken manures on milkfish Chanos chanos (Forsskal) production in brackishwater ponds
    Aduma, Ignatius A. (College of Fisheries, University of the Philippines in the Visayas, 1984-05)
    A study using chicken and cow manures with basal application rates of 0.5 , 1,2 and 4 tons/ha was conducted. The effect of both manures on some selected physico­-chemical properties of the pond soil and water, primary productivity, and milkfish Chanos chanos (Forsskal) yield were compared. Using 8 treatments with 3 replicates each in a completely randomized design, 24 units of 40 m2 ponds were stocked with 20 fingerlings/pond. The fish were cultured from September 22 to December 20, 1983 at the Brackishwater Aquaculture Center of the University of the Philippines in the Visayas College of Fisheries, Leganes, Iloilo, Philippines. The differences among treatments in terms of all physico-chemical parameters monitored were not significant except for the reactive phosphorus. Primary productivity in all treatments was at its peak during the 5th week, after which, it declined gradually apparently due to the combined effects of cloudy weather and low concentration of reactive phosphorus in the pond water. The highest mean net fish yield (680.9 kg/ha) and mean growth rate (1,54 g/day) were obtained in treatment 3 with 1 ton/ha of chicken manure. Treatment 2 (0*5 ton/ha of cow manure) had the lowest mean net fish yield (343.6 kg/ha) and likewise the lowest growth rate (0.80 g/day). The survival in all treatments was high, ranging from 95 to 100%. In general, chicken manure was superior to cow manure, however, fish production from the treatment with 2 tons/ha of cow manure was comparable to that of 2 tons/ha of chicken manure suggesting that cow manure could be used as organic fertilizer in brackish- water ponds for milkfish production.