1 Yuan J, "Use of additive and pretreatment to control odors in municipal kitchen waste during aerobic composting" 37 : 83-90, 2015
2 El Kader NA, "Turning, compacting and the addition of water as factors affecting gaseous emissions in farm manure composting" 98 : 2619-2628, 2007
3 Zhang J, "The use of biochar-amended composting to improve the humification and degradation of sewage sludge" 168 (168): 252-258, 2014
4 Crutzen PJ, "The influence of nitrogen oxides on the atmospheric ozone content" 96 (96): 320-325, 1970
5 Gerber PJ, "Tackling climate change through livestock a global assessment of emissions and mitigation opportunities" Food and Agriculture Organization of the United Nations (FAO) 2013
6 Han X, "Soil carbon and nitrogen sequestration and crop growth as influenced by long-term application of effective microorganism compost" 78 (78): 13-22, 2018
7 Yoshida S, "Routine procedure for growing rice plants in culture solution. Laboratory manual for physiological studies in rice, 3rd edn"
8 Chan M, "Reducing nitrogen loss and salinity during ‘struvite’ food waste composting by zeolite amendment" 200 : 838-844, 2016
9 RDA (Rural development administration, Korea), "Quality control and utilization of livestock manure" National institute of agricultural sciences 2012
10 Chowdhury MA, "Potential of aeration flow rate and biochar addition to reduce greenhouse gas and ammonia emissions during manure composting" 97 (97): 16-25, 2014
1 Yuan J, "Use of additive and pretreatment to control odors in municipal kitchen waste during aerobic composting" 37 : 83-90, 2015
2 El Kader NA, "Turning, compacting and the addition of water as factors affecting gaseous emissions in farm manure composting" 98 : 2619-2628, 2007
3 Zhang J, "The use of biochar-amended composting to improve the humification and degradation of sewage sludge" 168 (168): 252-258, 2014
4 Crutzen PJ, "The influence of nitrogen oxides on the atmospheric ozone content" 96 (96): 320-325, 1970
5 Gerber PJ, "Tackling climate change through livestock a global assessment of emissions and mitigation opportunities" Food and Agriculture Organization of the United Nations (FAO) 2013
6 Han X, "Soil carbon and nitrogen sequestration and crop growth as influenced by long-term application of effective microorganism compost" 78 (78): 13-22, 2018
7 Yoshida S, "Routine procedure for growing rice plants in culture solution. Laboratory manual for physiological studies in rice, 3rd edn"
8 Chan M, "Reducing nitrogen loss and salinity during ‘struvite’ food waste composting by zeolite amendment" 200 : 838-844, 2016
9 RDA (Rural development administration, Korea), "Quality control and utilization of livestock manure" National institute of agricultural sciences 2012
10 Chowdhury MA, "Potential of aeration flow rate and biochar addition to reduce greenhouse gas and ammonia emissions during manure composting" 97 (97): 16-25, 2014
11 Ahn HK, "Pile mixing increases greenhouse gas emissions during composting of dairy manure" 102 : 2904-2909, 2011
12 Yang F, "Performance of mature compost to control gaseous emissions in kitchen waste composting" 657 : 262-269, 2019
13 Gea T, "Optimal bulking agent particle size and usage for heat retention and disinfection in domestic wastewater sludge composting" 9 : 1108-1116, 2007
14 원승건, "Nutrient production from Korean poultry and loading estimations for cropland" 한국축산학회 60 (60): 1-9, 2018
15 Wang X, "Nitrogen conservation and acidity control during food wastes composting through struvite formation" 147 : 17-22, 2013
16 Salazar FJ, "Nitrogen budgets for three cropping systems fertilized with cattle manure" 96 : 235-245, 2005
17 Preusch PL, "Nitrogen and phosphorus availability in composted and uncomposted poultry litter" 31 : 2051-2057, 2002
18 Singh S, "Methane flux from irrigated rice fields in relation to crop growth and N fertilization" 31 : 1219-1228, 1999
19 Saer A, "Life cycle assessment of a food waste composting system : environmental impact hotpots" 52 : 234-244, 2013
20 "KOSIS (Korean Statistical Information Service)"
21 Chen H, "Influence of clay as additive on greenhouse gases emission and maturity evaluation during chicken manure composting" 266 : 82-88, 2018
22 Zhang H, "Influence of aeration on volatile sulfur compounds (VSCs) and NH3emissions during aerobic composting of kitchen waste" 58 : 369-375, 2016
23 He Z, "Impact of vermiculite on ammonia emissions and organic matter decomposition of food waste during composting" 263 : 548-554, 2018
24 Robertson GP, "Greenhouse gases in intensive agriculture : contributions of individual gases to the radiative forcing of the atmosphere" 289 : 1922-1925, 2000
25 Xia ZB, "Greenhouse gas emissions from green waste composting window" 59 : 70-79, 2017
26 Sanchez-Monedero MA, "Greenhouse gas emissions during composting of twophase olive mill wastes with different agroindustrial by-products" 81 : 18-25, 2010
27 Fillingham MA, "Greenhouse gas and ammonia emissions from production of compost bedding on a dairy farm" 70 : 45-52, 2017
28 Jiang T, "Gaseous emission during the composting of pig feces from Chinese Ganqinfen system" 90 : 1545-1551, 2013
29 Luo WH, "Effects of mixing and covering with mature compost on gaseous emissions during composting" 117 : 14-19, 2014
30 Tiquia SM, "Effects of composting on phytotoxicity of spent pig-manure sawdust litter" 93 (93): 249-256, 1996
31 Han Z, "Effects of ambient temperature and aeration frequency on emissions of ammonia and greenhouse gases from a sewage sludge aerobic composting plant" 270 : 457-466, 2018
32 Jiang T, "Effect of different struvite crystallization methods on gaseous emission and the comprehensive comparison during the composting" 217 : 219-226, 2016
33 Sommer SG, "Effect of composting on nutrient loss and nitrogen availability of cattle deep litter" 14 (14): 123-133, 2001
34 Yuan J, "Effect of aeration rate on maturity and gaseous emissions during sewage sludge composting" 56 : 403-410, 2016
35 Zeng J, "Effect of aeration internal on oxygen consumption and GHG emission during pig manure composting" 250 : 214-220, 2018
36 Jiang T, "Effect of C/N ratio, aeration rate and moisture content on ammonia and greenhouse gas emission during the composting" 23 (23): 1754-1760, 2011
37 Hepperly P, "Compost, manure and synthetic fertilizer influences crop yields, soil properties, nitrate leaching and crop nutrient content" 17 : 117-126, 2009
38 Awasthi MK, "Cocomposting of gelatin industry sludge combined with organic fraction of municipal solid waste and poultry waste employing zeolite mixed with enriched nitrifying bacterial consortium" 213 : 181-189, 2016
39 Awasthi MK, "Co-composting of organic fraction of municipal solid waste mixed with different bulking waste : characterization of physicochemical parameters and microbial enzymatic dynamic" 182 : 200-207, 2015
40 Huang J, "Chemical structures and characteristics of animal manures and composts during composting and assessment of maturity indices" 12 : e0178110-, 2017
41 Zhang L, "Changes in physical, chemical an microbiological properties during the two-stage co-composting of green waste with spent mushroom compost and biochar" 171 : 274-284, 2014
42 Nyamangara J, "Cattle manure effect on structural stability and water relation capacity of granitic soil in Zimbabwe" 62 : 157-162, 2001
43 Carr L, "Animal waste and the land water interface" Lewis Publishers 485-492, 1995
44 Wang S, "Ammonia emission mitigation in food waste composting: a review" 2017
45 Arriaga H, "Ammonia and greenhouse gases losses from mechanically turned cattle manure windrows : a regional composting network" 203 (203): 557-563, 2017
46 Larney FJ, "A review of composting as a manargment alternative for beef cattle feedlot manure in southern Alberta, Canada" 98 : 3221-3227, 2007