• agricultural waste
  • biofuel
  • heavy metals
  • organic wastes
  • recycling
  • sustainable management


Agarwal, R.. Chaudhary, M., & Singh, J., (2015). Waste management initiatives in India for human well-being. European Scientific Journal.

Ahmad, A. A., Radovich, T. J. K., Nguyen, H. V., Uyeda, J.. Arakaki, A., Cadby, J., Pauli, R., Sugano, T., & Teves, G., (2016). Use of organic fertilizers to enhance soil fertility, plant growth, and yield in a tropical environment. Organic Fertilizers - From Basic Concepts to Applied Outcomes.

Bernal, M. P., Alburquerque, J. A., & Moral, R.. (2009). Composting of animal manures and chemical criteria for compost maturity assessment: A review. Bioresource Technology>, 200(22), 5444-5453.

Bliatt. R., Kukal, S. S., Busari, M. A., Arora, S., & Yadav, M., (2016). Sustainability issues on rice-wheat cropping system. International Soil and Water Conseivation Research, 4(1), 64-74.

Broucek. J., & Cemiak, B.. (2015). Emission of harmful gases from poultry farms and possibilities of their reduction. Ekologia, 34(1), 89-100.

Brunner, P. H„ & Rechberger. H., (2016). Practical Handbook of Material Flow Analysis: For Environmental, Resource, and Waste Engineers. CRC Press.

Cerda, A., Artola, A., Font, X., Barrena. R., Gea, T., & Sanchez, A., (2018). Composting of food wastes: Status and challenges. Bioresource Technology, 248, 57-67.

Chandel, A. K., & Singh, О. V., (2011). Weedy lignocellulosic feedstock and microbial metabolic engineering: Advancing the generation of ‘biofuel’. Applied Microbiology’ and Biotechnology>, 39(5), 1289-1303.

Chandra, R.. Takeuchi. H., & Hasegawa. X, (2012). Methane production from lignocellulosic agricultural crop wastes: A review in context to second generation of biofuel production. Renewable and Sustainable Energy’ Reviews, 26(3), 1462-1476.

Chatteijee, R., Gajjela. S., & Thirumdasu, R. K.. (2017). Recycling of organic wastes for sustainable soil health and crop growth. Int. J. Waste Resour., 7(296), 2.

Chew, K. W„ Chia, S. R„ Yen, H. W„ Nomanbhay, S„ Ho, Y. C„ & Show, P. L„ (2019). Transformation of biomass waste into sustainable organic fertilizers. Sustainability’, 22(8), 2266.

Cooperband. L., (2002). Building Soil Organic Matter with Organic Amendments. Centre for Integrated Agricultural Systems, College of Agricultural and Life Sciences, University of Wisconsin, Madison.

Dalolio, F. S., Da Silva, J. N.. De Oliveira, A. С. C., Tiuoco, I. D. F. F., Barbosa, R. C., De Oliveira, R. M„ Albino, L. F. X, & Coellio, S. X, (2017). Poultry litter as biomass energy: A review and future perspectives. Renewable and Sustainable Energy’ Reviews, 76, 941-949.

Dauda, A. B., Ajadi, A., Tola-Fabunmi. A. S., & Akinwole, A. O., (2018). Waste production in aquaculture: Sources, components and managements in different culture systems. Aquaculture and Fisheries.

Demirbas, A., (2008). Heavy metal adsorption onto agio-based waste materials: A review. Journal of Hazardous Materials, 157(2, 3), 220-229.

Diacono. M., & Montemurro, F., (2011). Long-term effects of organic amendments on soil fertility. In: Sustainable Agriculture (Yol. 2. pp. 761-786). Springer, Dordrecht.

Dominguez. J., (2018). Earthworms and vermicomposting. Earthworms the Ecological Engineers of Soil.

Duruibe, J. O., Ogwuegbu, M. О. C., & Egwurugwu, J. N., (2007). Heavy metal pollution and human biotoxic effects. International Journal of Physical Sciences, 2(5), 112-118.

Eding, E. H., Kamstra, A., Verreth, J. A. J.. Huisman, E. A., & Klapwijk, A., (2006). Design and operation of nitrifying trickling filters in recirculating aquaculture: A review. Aquacultural Engineering, 34(3), 234-260.

Ezejiofor, T. I. N., Euebaku, U. E.. & Ogueke, C„ (2014). Waste to wealth-value recovery from agro-food processing wastes using biotechnology: A review. British Biotechnology- Journal, 4(4), 418—481.

Farhad, W„ Saleem. M. F., Cheema, M. A., & Harmnad, H. M., (2009). Effect of poultry manure levels on the productivity of spring maize (Zea mays L.). J. Anim. Plant Sci., 19(3), 122-125.

Ferronato, N., & Torretta, V., (2019). Waste mismanagement in developing countries: A review of global issues. International Journal of Environmental Research and Public Health, 16(6), 1060.

Fidelis, C., & Rao. B. R., (2017). Enriched cocoa pod composts and then fertilizing effects on hybrid cocoa seedlings. International Journal of Recycling of Owin Agriculture, 6(2), 99-106.

Fontenot, J. R, & Jurubescu, V., (1980). Processing of animal waste by feeding to ruminants. In: Digestive Physiology- and Metabolism in Ruminants (pp. 641-662). Springer, Dordrecht.

Geng, Y., Cao, G., Wang, L., & Wang, S., (2019). Effects of equal chemical fertilizer substitutions with organic manure on yield, dry matter, and nitrogen uptake of spring maize and soil nitrogen distribution. Plos One, 14(1), e0219512.

Gerber, R, Opio, C., & Steinfeld, H., (2007). Poultiy Production and the Environment: A Re’iew (p. 153). Animal production and health division, Food and Agriculture Organization of the United Nations, Yialedelle Tenne di Caracalla.

Gill, H. K., & Garg. H., (2014). Pesticides: Environmental impacts and management strategies. In: Pesticides-Toxic Aspects. Intech Open.

Gutberlet, J., & Uddin, S. M. N.. (2018). Household waste and health risks affecting waste pickers and the environment in low-aud middle-income countries. International Journal of Occupational and Environmental Health, 1-12.

Hatchett, A. N., (2004). Bovines and global warming: How the cows are heating things up and what can be done to cool them down. Win. a Maty Envtl. L. & Poly. Rev., 29,161.

Hossain, N., Zaini, J. H., & Malilia, T. M. I., (2017). A review of bioethanol production from plant-based waste biomass by yeast fermentation. Int. J. Technol., 5(1), 5-18.

Jack, A. L., & Thies, J. E., (2006). Compost and vennicompost as amendments promoting soil health. Biological Approaches to Sustainable Soil Systems, 453-466.

Jahid. M, Gupta, A., & Kumar, D„ (2018). Production of bioethanol from fruit wastes (banana, papaya, pineapple and mango peels) under milder conditions. Journal of Bioprocessing and Biotechniques, 5(3), 1-11.

Kaushik. S. J., & Seiliez, I., (2010). Protein and amino acid nutrition and metabolism in fish: Current knowledge and fuhire needs. Aquaculture Research, 41(3), 322-332.

Kearney, J., (2010). Food consumption trends and drivers. Philosophical Transactions of the Royal Society’ В: Biological Sciences, 365(1554), 2793-2807.

Lakherwal, D., (2014). Adsorption of heavy metals: A review. International Journal of Environmental Research and Development, 4(1), 41-48.

Lee, S. Y., Sankaran, R., Chew, K. W.. Tan, С. H., Krishnamoorthy, R.. Chu, D. T., & Show, P. L., (2019). Waste to bioenergy: A review on the recent conversion technologies. BMC Energy>, 1(1), 4.

Leiva-Candia, D. E.. Pinzi, S., Redel-Macias, M. D„ Koutinas, A., Webb. C., & Dorado. M. P., (2014). The potential for agro-industrial waste utilization using oleaginous yeast for the production of biodiesel. Fuel, 123, 33—42.

Li, Y., Park, S. Y., & Zhu, I, (2011). Solid-state anaerobic digestion for methane production from organic waste. Renewable and Sustainable EnergyReviews, 15(1), 821-826.

Marshall. R. E., & Farahbakhsh, K., (2014). Systems approaches to integrated solid waste management in developing countries. Waste Management, 55(4), 988-1003.

Merino, G., Barange, M.. Blanchard, J. L., Haile, J., Holmes, R., Allen. I.. Allison, E. H.. et al., (2012). Can marine fisheries and aquaculture meet fish demand from a growing human population in a changing climate? Global Environmental Change, 22(4), 795-806.

Mohammed, N. I., Kabbashi, N.. & Alade, A., (2018). Significance of agricultural residues in sustainable biofuel development. Agricultural Waste and Residues.

Moller, H. B., Sommer, S. G., & Ahring, В. K., (2004). Methane productivity of manure, straw and solid fractions of manure. Biomass and Bioenergy-, 26(5), 485-495.

Nath, R.. Luan, Y.. Yang, W„ Yang, C„ Chen, W„ Li, Q„ & Cui. X., (2015). Changes in arable land demand for food in India and China: A potential threat to food security. Sustainability-, 7(5), 5371-5397.

Noukeu, N. A., Gouado, I., Priso, R. J., Ndongo, D.. Taffouo, V. D., Dibong, S. D., & Ekodeck, G. E.. (2016). Characterization of effluent from food processing industries and stillage treatment trial with Eichhoivia crassipes (Mart.) and Panicum maximum (Jacq.). Water Resources and Industry, 16,1-18.

Obi, F. O., Ugwuishiwu, B. O., & Nwakaire. J. N.. (2016). Agricultural waste concept, generation, utilization and management. Nigerian Journal of Technology-, 55(4), 957-964.

Oerke, E. C., (2006). Crop losses to pests. The Journal of Agricultural Science, 144(1), 31-43.

Parr, J. F., & Homick, S. B., (1992). Agricultural use of organic amendments: A historical perspective. American Journal of Alternative Agriculture, 7(4), 181-189.

Ritter, W. F., (1989). Odor control of livestock wastes: State-of-the-art in North America. Journal of Agricultural Engineering Research, 42(1), 51-62.

Rupaui, P. F., Singh, R. P. Ibrahim, M. H.. & Esa, N., (2010). Review of current palm oil mill effluent (POME) treatment methods: Yennicompostiug as a sustainable practice. World Applied Sciences Journal, 11(1), 70-81.

Sadli. P. K.. Dulian. S„ & Duhau, J. S., (2018). Agro-industrial wastes and then utilization using solid state fermentation: A review. Bioresources and Bioprocessing, 5(1), 1.

Sagar, N. A., Pareek, S., Sharma, S., Yaliia, E. M., & Lobo, M. G., (2018). Fruit and vegetable waste: Bioactive compounds, then- extraction, and possible utilization. Compr. Rev. Food Sci. Food Saf, 17, 512-531.

Saka, C., Sahin, O.. & Kucuk. M. M., (2012). Applications on agricultural and forest waste adsorbents for the removal of lead (II) from contaminated waters. International Journal of Environmental Science and Technology’, 9(2), 379-394.

Sakar, S., Yetilmezsoy, К.. & Kocak. E., (2009). Anaerobic digestion technology in poultry and livestock waste treatment: A literature review. Waste Management and Research, 27(1), 3-18.

Sarkar, N., Ghosh, S. K.. Barmerjee, S., & Aikat, K., (2012). Bioethanol production from agricultural wastes: An overview. Renewable Energy>, 57(1), 19-27.

Satyendra, T., Singh, R. N., & Shaishav, S., (2013). Emissions from crop/bioinass residue burning risk to atmospheric quality. International Research Journal of Earth Sciences, 1, 24-30.

Shanna, S., Pradhan. K., Satya, S., & Yasudevan, P., (2005). Potentiality of earthworms for waste management and in other uses: A review. The Journal of American Science, 1(1), 4-16.

Shukla, N., (2018). To Determine the Value Addition in the Compost and Vermicompost Produced from Kitchen Waste.

Singh. R., Gautarn, N., Mishra, A., & Gupta, R., (2011b). Heavy metals and living systems: An overview. Indian Journal of Pharmacology-, 43(3), 246.

Skoulou, V., & Zabauiotou. A., (2007). Investigation of agricultural and animal wastes in Greece and then allocation to potential application for energy production. Renewable and Sustainable Energy Reviews, 11(8), 1698-1719.

Smit, J., & Nasr, J., (1992). Urban agriculture for sustainable cities: Using wastes and idle land and water bodies as resources. Environment and Urbanization, 4(2), 141-152.

Subhaui, A., El-ghamry, A. M., Changyong, H.. & Jianming. X., (2000). Effects of pesticides (Herbicides) on soil microbial biomass: A review. Pakistan Journal of Biological Sciences, 3(5), 705-709.

Suthar, S.. (2009). Vermicomposting of vegetable-market solid waste using Eisenia fetida: Impact of bulking material on earthworm growth and decomposition rate. Ecological Engineering, 35(5), 914-920.

Sydnor, M. E., & Redente, E. F., (2002). Reclamation of high-elevation, acidic mine waste with organic amendments and topsoil. Journal of Environmental Quality, 31(5), 1528-1537.

Taiwo. A. M., (2011). Composting as a sustainable waste management technique in developing countries. Journal of Environmental Science and Technology>, 4(2), 93-102.

Timsina, J., (2018). Can organic sources of nutrients increase crop yields to meet global food demand? Agronomy, S(10), 214.

Van, R. J., (2013). Waste treatment in recirculating aquaculture systems. Aquacultural Engineering, 53, 49-56.

Wang, X., Jia, Z., Liang, L., Yang, B., Ding, R., Nie, J., & Wang, J., (2016). Impacts of manure application on soil environment, rainfall use efficiency and crop biomass under dryland farming. Scientific Reports, 6(1).

Wilkie, A. C., (2005a) Anaerobic digestion: Biology and benefits. Daily Manure Management: Treatment, Handling, and Community> Relations, 63-72.

Wilkie, A. C., (2005b). Anaerobic digestion of dairy manure: Design and process considerations. Daily Manure Management: Treatment, Handling, and Community Relations, 307(312), 301-312.

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