1. KAUTIR (Kerala Agricultural University Theses Information and Retrieval)
Permanent URI for this communityhttp://localhost:4000/handle/123456789/1
Browse
6 results
Search Results
Item Biomineral enriched composts (BOKASHI) - a tool for enhancing nutrient availability and enzyme activity in Rhizosphere(Department of soil science and agricultural chemistry, college of agriculture, Vellayani, 2023-08-05) Shilpa, S.; Aprna, BItem Waste management system evaluation in commercial dairy farms(Department of Livestock Production Management, College of Veterinary and Animal Sciences, Mannuthy, 2009) Sany Thomas; Joseph MathewThe present study on “Waste management system evaluation in commercial dairy farms” was conducted to assess the usefulness of the different waste management methods adopted in dairy farms of Kerala. Study area comprised of Thrissur, Malappuram and Ernakulam districts and adjoining area of central and northern Kerala. Forty five dairy farms were identified and visited in and their profile of the study area .Data regarding general outlay of the farms selected management practices in the farm, livestock details and existing waste management methods in the farms were collected and studied. The dairy farms under study were classified based on the animal holding capacity as those with less than six animals (class 1), 6-20 animals (class 2), 21-50 animals (class 3)and 51-100 animals (class 4), and above 100 animals (class 5). Among the 45 farms under study, four per cent belonged to class 1, forty nine per cent belonged to class 2, thirty five belonged to class 3, six per cent farms came under the classes 4 and 5.There was no commercialization of waste management methods adopted by the farms. The majority farms had dung pit as waste disposal method and no regularity in dung removal from pit, it was upon demand. Regarding the soil quality, there was no significant difference in the soil nutrients quantity between different groups of farms. Regarding water quality, the water samples collected from the nearby water bodies were inferior in quality in terms of microbiology and BOD. Air quality stands below the permitted standards in all groups of farms. Intervention by the government, local bodies and scientific institutions must be made in this area supporting the farmers to develop awareness in this serious issue and also providing necessary technical and financial support for the farmers to construct proper waste management systems such as compost unit as well as biogas plants because they provide a support for the most efficient waste management system in a dairy farm proving that waste is wealthItem Leaf litter recycling in homestead agroforestry systems(Department of Agronomy, College of Agriculture, Vellayani, 2017) Harishma, S J; Sheeba Rebecca IsaacItem Characterization, conversion and evaluation of selected lignocellulosic biomass(Department of Soil science and Agricultural Chemistry, College of Agriculture, Vellayani, 2014) Anushma, S; Aparna, BThe study entitled “Characterization, conversion and evaluation of selected lignocellulosic biomass” was conducted during the period 2013-14 at the Department of Soil Science & Agricultural Chemistry, College of Agriculture, Vellayani. The main objectives of the study were the characterization of the lignocellulosic biomass from selected plant sources, assessment of various microbial and enzymatic sources for degrading the lignocellulosic biomass into compost and evaluation of the resultant compost for assessing its manurial value. The experiment was completed in three stages. Representative samples of water cabbage (L. flava), coir pith, water hyacinth (E. crassipes) , and farm wastes (dried leaves and pseudostem of banana) were collected and analysed for bio-chemical composition. Water cabbage recorded 2.74 per cent N, 0.30 per cent P, 0.33 per cent K, 16.98 C:N ratio, and no detectable levels of heavy metals except Ni (0.55 ppm) and inferred as the best substrate in terms of nutrient content followed by water hyacinth, farm wastes and coir pith respectively. The substrates were converted to composts using various inoculants viz. T. reesei, P. sajor-caju, Composting Inoculum and commercial enzyme cocktail (cellulase/pectinase and lactase) and physico- chemical and biological characteristics were analyzed. A mixture of water cabbage and Composting Inoculum) was concluded as the best in terms of nitrogen content , cellulase activity, maturity period, C:N ratio and no detectable levels of heavy metals except Ni (0.414 ppm) followed by the mixture of Water hyacinth and Composting Inoculum had comparable N, P , K, EC , C:N ratio, and heavy metal content below the detectable limit. Considering the effect of inoculants on different substrates, Composting Inoculum was concluded as the best in terms of moisture content, EC,N, P, K, dehydrogenase activity, cellulase activity, maturity period and C:N ratio. The resultant composts from the previous stage were evaluated for their performance as manure in a pot culture experiment with test crop amaranthus (variety - Arun). Application of 100 % N as compost water hyacinth and Composting Inoculum was noticed as the best treatment in terms of yield, plant height, number of branches, girth of stem, soil properties viz. water holding capacity, available N, available P, available K, available Mn, available Cu, bacteria population and plant content of micronutrients viz. Mn, Cu, and B. Major enzymes viz. dehydrogenase, urease and aryl sulphatase imposed significance on yield and yield attributes. Application of 100 % N as compost from water cabbage and Composting Inoculum was found to be good and on par with T13 in many of the characters. Application of various composts did not result any heavy metal accumulation in the soil Thus it was inferred from the study that water cabbage was the best substrate in terms of their chemical composition followed by water hyacinth. water cabbage + Composting Inoculum was recorded as the best compost followed by water hyacinth + Composting Inoculum. 100 % N as compost (water hyacinth + Composting Inoculum) was noticed as the best treatment in pot culture. With regards to inoculants used on different substrates,Composting Inoculum was found to be the most effective for composting the agrowastes.Item Biotic enrichment of organic wastes from ayurvedic preparations(Department of Soil Science and Agricultural Chemistry, College of Horticulture, Vellanikkara, 2003) Preetha, D; Sushama, K PItem Aerobic composting and enrichment of ayurvedic waste(Department of Soil Science and Agricultural Chemistry, College of Horticulture, Vellanikkara, 2003) Lekshmisree, C S; Betty Bastin