Spent coffee grounds, activated sludge, chicken manure, and agricultural waste-derived biochar were used to manufacture eco-friendly and functional compost via the bioaugmentation of white rot fungus and plant growth that promotes beneficial microorganisms. Six lab-scale composting reactors were established to perform composting. After composting was completed over 45 days, the composts were analyzed for major elements, physico-chemical characteristics, compost maturity, and compost effectiveness on crop growth and quality. Concentrations of T-N and PO4 3− significantly increased in the composts that had been amended with biochar and/or white rot fungus compared to the control, while those of NO3 −-N, TOC and TOC/T-N had significantly decreased, indicating the occurrence of effective composting. Besides, the germination indices of these composts were also generally higher than the control by 10-34%, indicating that the composts were mature. The four composts amended with biochar and/or white rot fungus (TR-3, TR- 4, TR-5, TR-6) also appeared to stimulate more growth in lettuce compared to commercial organic fertilizers (by 36- 104%). Besides, composts TR-3 and TR-4 respectively enhanced DPPH scavenging activity in lettuce leaves by 58% and 49%, while TR-4 and TR-5 respectively enhanced the total phenolic content (TPC) by 44% and 37%. This implies that the amendment of biochar and the bioaugmentation of white rot fungus could facilitate the composting process for the production of quality functional compost that is able to enhance the antioxidant content in crops. Quality composts could better compete with the commercially available fertilizers in the market, leading to the eco-friendly recycling of organic wastes such as spent coffee grounds, sludge, chicken manure, and agricultural waste.

1 Mukome, F. N. D., "Use of chemical and physical characteristics to investigate trends in biochar feedstocks" 61 : 2196-2204, 2013

2 Dias, B. O., "Use of biochar as bulking agent for the composting of poultry manure: Effect on organic matter degradation and humification" 101 : 1239-1246, 2010

3 Huang, D., "The chemistry behind antioxidant capacity assays" 53 : 1841-1856, 2005

4 Murthy, P. S., "Sustainable management of coffee industry by-products and value addition - A review" 66 : 45-58, 2012

5 Mussatto, S. I., "Production, composition, and application of coffee and its industrial residues" 4 (4): 661-672, 2011

6 Sukweenadhi, J., "Paenibacillus yonginensis sp. nov., a potential plant growth promoting bacterium isolated from humus soil of Yongin forest" 172 : 7-15, 2015

7 Sanchez, M. A., "Nitrogen transformation during organic waste composting by the Rutgers system and its effects on pH, EC and maturity of the composting mixtures" 78 : 185-191, 2001

8 Lakhdar, A., "Municipal solid waste compost application improves productivity, polyphenol content, and antioxidant capacity of Mesembryanthemum edule" 191 : 373-379, 2011

9 Birk, J. J., "Microbial response to charcoal amendments and fertilization of a highly weathered tropical soil" 978 : 309-324, 2009

10 Yang, L., "Maturity and security assessment of pilot-scale aerobic co-composting of penicillin fermentation dregs (PFDs) with sewage sludge" 204 : 185-191, 2016

11 Institute of Agricultural Science and Technology, Office of Rural Development, "Manufacturing of solid and liquid composts utilizing livestock manure and their use in eco-friendly agriculture"

12 Jindo, K., "Influence of biochar addition on the humic substances of composting manures" 49 : 545-552, 2016

13 Jurado, M. M., "Increasing native microbiota in lignocellulosic waste composting: Effects on process efficiency and final product maturity" 49 : 1958-1969, 2014

14 Cruz, R., "Improvement of vegetables elemental quality by expresso coffee residues" 148 : 294-299, 2014

15 Ministry of Environment and National Institute of Environmental Research, "Generation and treatment of industrial wastewater"

16 Buer, C. S., "Flavonoids: New roles for old molecules" 52 : 98-111, 2010

17 Korea Environmental Corporation, "Feasibility investigation on biogas industry utilizing organic wastes from business areas"

18 Selim, S. M., "Evaluation of phytotoxicity of compost during composting process" 10 : 69-77, 2012

19 Magdalena, Z., "Effects of biochar amendment on ammonia emission during composting of sewage sludge" 474-478, 2014

20 Dias, B. O., "Effects of biochar amendment on ammonia emission during composting of sewage sludge" 101 : 1239-1246, 2010

21 Bernala, M. P., "Composting of animal manures and chemical criteria for compost maturity assessment - A review" 100 : 5444-5453, 2009

22 Hachicha, R., "Co-composting of spent coffee ground with olive mill wastewater sludge and poultry manure and effect of Trametes versicolor inoculation on the compost maturity" 88 (88): 677-682, 2012

23 Hachicha, R., "Co-composting of spent coffee ground with olive mill wastewater sludge and poultry manure and effect of Trametes versicolor inoculation on the compost maturity" 88 : 677-682, 2012

24 Czekala, W., "Co-composting of poultry manure mixtures amended with biochar - The effect of biochar on temperature and C-CO2 emission" 200 : 921-927, 2016

25 Livestock Economic News, "Boosting the stagnant poultry industry utilizing chicken manure, January 3"

26 Cohen, R., "Biotechnological applications and potential of wood-degrading mushrooms of the genus Pleurotus" 58 (58): 582-594, 2002

27 López-Cano, I., "Biochar improves N cycling during composting of olive mill wastes andsheep manure" 49 : 553-559, 2016

28 Chang, T. C., "Antioxidant and antimicrobial activities of commercial rice wine extracts of Taiwanese Allium fistulosum" 190 : 724-729, 2016

29 Cruz, R., "Antioxidant activity and bioactive compounds of lettuce improved by espresso coffee residues" 145 : 95-101, 2014