Reference :1
Awasthi, M.K., Pandey, A.K., Khan, J., Bundela, P.S., Wong, J.W.C., Selvam, A., 2014. Evaluation of thermophilic fungal consortium for organic municipal solid waste composting. Bioresource Technology 168, 214–221.
Betts, W.B., Dart, R.K., 1988. Biodegradation of lignin related compound by Aspergillus flavus. Journal of General Microbiology 134, 2413–2420.
Chroni, C.A., Kyriacoul, I., Georgaki, T., Manios, M., Kotsou, K., Lasaridi, 2009. Microbial characterization during composting of biowaste. Waste Management 29, 1520–1525.
Dhapate, S.S., Dilpak, S.A., Pawar, R.K., 2018. Studies on effect of cellulolytic fungi on decomposition of sugarcane trash. Journal of Pharmacognosy and Phytochemistry SP1, 2975–2977.
Diallo, N.D., Bengue, M.M., Guer, M.N., Ka, M., Tine, E., Mbaye, C.T., 2017. Composting of sugar cane bagasse by Bacillus strains. African Journal of Biotechnology 16(3), 113–123.
Elkased, F.A., Nnadi, L.A., 1987. Phosphorus response of grain sorghum in the Guinea savanna of Nigeria as influenced by rates, placement and plant spacing. Fertility Research and Practice 11, 3–8.
Fourti, O., Jedidi, N., Hassen, A., 2011. Comparison of methods for evaluating stability and maturity of co-composting of municipal solid wastes and sewage sludge in semi-arid pedoclimatic condition. Natural Science 3, 124–135.
Gaind, S., Pandey, A.P., 2006. Bioconversion of crop residues of barley (Hordeum vulgare) and rice (Oryza sativa) by Gliocladium virens and Trichoderma reesei QM 9414 under solid-state-fermentation conditions. The Journal of Indian Botanical Society 77, 205–212.
Gautam, S.P., Bundela, P.S., Pandey, A.K., Awasthi, M.K., Sarsaiya, S., 2010. Composting of municipal solid waste of Jabalpur city. Global Journal of Environmental Research 4, 43–46.
Gopalakrishnan, S., Srinivas, V., Kumar, A.A., Umakanth, A.V., Addepally, U., Rao, P.S., 2020. Composting of sweet sorghum bagasse and its impact on plant growth promotion. Sugar Tech 22, 143–156.
Hussain, I., Liqa, R., Hanjra, M.A., Marikar, F., Van der Hoek, W., 2001. Framework for analyzing socio-economic, health and environmental impacts of wastewater use in agriculture. IWMI working paper 26. International Water Management Institute, Colombo: Sri Lanka.
Jackson, M.L., 1973. Soil Chemical Analysis. Prentice Hall India Pvt. Ltd. New Delhi. India. pp. 1–498.
Kayuki, C.K., Byalebeka, J., Wortmann, C.S., Mamo, M., 2007. Low input approaches for soil fertility management in semiarid eastern Uganda. Agronomy Journal 99, 847–853.
Kitson, R.E., Mellon, M.G., 1944. Colorimetric determination of phosphorus as molybdivanadophosphoric acid. Industrial and Engineering Chemistry, Analytical Edition 16(6), 379–383.
Lakshmi, C.S.R., Sreelatha, T., Sireesha, A., Lakshmi, M.B., Jamuna, P., 2019. Efficient recycling of sugarcane byproducts through integrated composting. International Journal of Agriculture Sciences 11, 9004–9006.
Mahalakshmi, R., Naveena, M.L., 2016. Usage of banana pseudostem waste for the production of potassic biofertilizer using cellulolytic bacteria. International Journal of Current Microbiology and Applied Sciences 5(8), 336–349.
Mawahib, E.M.E., Elfadil, A.G., Manal, F.A., BadrEldin, A.E.S., 2015. Effects of banana compost on growth, development and productivity of sorghum bicolor cultivar (Tabat). Journal of Advances in Biology 8(2), 1555–1561.
Perner, H., Schwarz, D., George, E., 2006. Effect of mycorrhizal inoculation and compost supply on growth and nutrient uptake of young leek plants grown on peat-based substrates. Horticultural Science 4, 628–632.
Premalatha, N., Sundaram, S.P., Anandham, R., Krishnamoorthy, R., Gopal, N.O., 2019. Composting of organic waste materials using the bacterial consortium and its effect on plant growth promotion. International Journal of Chemical Studies 7(3), 4751–4756.
Premalatha, N., Sundaram, S.P., Krishnamoorthy, R., Anandham, R., Kwon, S.W., Gopal, N.O., Thiyageshwari, S., Indirani, R., Kumutha, K., Paul, D., 2017. Organic waste composting with bacterial consortium and its effect on plant growth promotion. Asian Journal of Plant Science and Research 8(3), 22–30.
Shamini, K., Fauziah, S.H., 2014. Enhanced vermicomposting for combination of organic waste through subsequent treatment with selected microorganisms. Journal of Microbiology Research 4(2), 54–67.
Walkley, A., Black, C.A., 1935. An examination of digestion methods for determining soil organic matter and proposed modifications of the chromic acid titration method. Soil Science 37, 29–38.
Wang, C.M., Changa, C.M., Watson, M.E., Dick, W.A., Chen, Y., Hoitink, H.A.J., 2004. Maturity indices of composted dairy and pig manures. Soil Biology and Biochemistry 36, 767–776.
Zeng, G., Yu, Z., Chen, Y., Zhang, J., Li, H., Yu, M., Zhao, M., 2011. Response of compost maturity and microbial community composition to pentachlorophenol (PCP)-contaminated soil during composting. Bioresource Technology 102, 5905–5911.
.jpg)
.jpg)
