Abstract
With the aim to comparatively investigate the effect of the addition of additives such as biochar (BC), microbial inoculation (MI) and biochar/microbial inoculation (BCMI) on composting enhancement, nitrogen conservation, greenhouse gas emissions, the quality improvement of pig manure compost were comparatively investigated in a 42-day aerobic pig manure composting experiment. The results showed that the duration of the thermophilic stage, the degradation of organic matter and the detoxification of the compost were enhanced in the BC, MI and BCMI treatments compared with those in the control (without additive). Moreover, the content of total Kjeldahl nitrogen in the BC, MI and BCMI treatments was increased by 38.1, 48.9 and 59.0%, respectively, through the reduction of NH3 volatilization and N2O production, which were higher than those of the control (31.8%). A reduction in CH4 release during composting was not observed with the MI and BCMI treatments. Following 42 days of composting, the final product of the three treatments exhibited acceptable potential for use as a fertilizer in agriculture; the BCMI treatment showed an especially synergistic effect on pig manure composting enhancement.
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Awasthi MK, Wang Q, Huang H, Li R, Shen F, Lahori AH, Wang P, Guo Z, Jiang S, Zhang Z (2016a) Effect of biochar amendment on greenhouse gas emission and bio-availability of heavy metals during sewage sludge co-composting. J Clean Prod 135:829–835
Awasthi MK, Wang Q, Huang H, Ren X, Lahori AH, Mahar A, Ali A, Shen F, Li R, Zhang Z (2016b) Influence of zeolite and lime as additives on greenhouse gas emissions and maturity evolution during sewage sludge composting. Bioresour Technol 216:172–181
Bernal MP, Lopez-Real JM, Scott KM (1993) Application of natural zeolites for the reduction of ammonia emissions during the composting of organic wastes in a laboratory composting simulator. Bioresour Technol 43:35–39
Bernal MP, Alburquerque JA, Moral R (2009) Composting of animal manures and chemical criteria for compost maturity assessment. A review. Bioresour Technol 100:5444–5453
Carpenterboggs L, Kennedy AC, Reganold JP (1998) Use of phospholipid fatty acids and carbon source utilization patterns To track microbial community succession in developing compost. Appl Environ Microbial 64:4062–4064
Chen YX, Huang XD, Han ZY, Huang X, Hu B (2010) Effects of bamboo charcoal and bamboo vinegar on nitrogen conservation and heavy mental immobility during pig manure composting. Chemosphere 78(9):1177–1181
Chen W, Liao X, Wu Y, Liang JB, Mi J, Huang J, Zhang H, Wu Y, Qiao Z, Li X, Wang Y (2017) Effects of different types of biochar on methane and ammonia mitigation during layer manure composting. Waste Manage 61:506–515
Chew KW, Chan SR, Yap YJ, Ling TC, Tao Y, Show PL (2018) Densification of food waste compost: effect of moisture content and dariy powder waster additives on pellet quality. Process Saf Environ 116:780–786
Chowdhury MA, De NA, Jensen LS (2014) Potential of aeration flow rate and biochar addition to reduce greenhouse gas and ammonia emissions during manure composting. Chemosphere 97:16–25
Du J, Zhang Y, Qu M, Yin Y, Fan K, Hu B, Zhang H, Wei M, Ma C (2019) Effects of biochar on the microbial activity and community structure during sewage sludge composting. Bioresour Technol 272:171–179
Fukumoto Y, Osada T, Hanajima D, Haga K (2003) Patterns and quantities of NH3, N2O and CH4 emissions during swine manure composting without forced aeration—effect of compost pile scale. Bioresour Technol 89:109–114
Garcia C, Hernandez T, Costa F (1991) Study on water extract of sewage sludge compost. Soil Sci Plant Nutr 37:399–408
Hao X, Chang C, Larney FJ, Travis GR (2001) Greenhouse gas emissions during cattle feedlot manure composting. J Environ Qual 30(2):376–386
He Z, Lin H, Hao J, Kong X, Tian K, Bei Z, Tian X (2018) Impact of vermiculate on ammonia emissions and organic matter decomposition of food waste composting. Bioresour Technol 263:548–554
Huang GF, Wong JWC, Wu QT, Nagar BB (2004) Effect of C/N on composting of pig manure with sawdust. Waste Manage 24:805–813
Jain MS, Paul S, Kalamdhad AS (2019) Utilization of Biochar as an amendment during lignocellulose waste composting: impact on composting physics and Realization (probability) amongst physical properties. Process Saf Environ 121:229–238
Jiang J, Liu X, Huang Y, Huang H (2015) Inoculation with nitrogen turnover bacterial agent appropriately increasing nitrogen and promoting maturity in pig manure composting. Waste Manag 39:78–85
Jiang T, Ma X, Yang J, Tang Q, Yi Z, Chen M, Li G (2016) Effect of different struvite crystallization methods on gasous emissions and comprehensive comparison during the composting. Bioresour Technol 217:219–226
Jouraiphy A, Amir S, Gharous ME, Revel JC, Hafidi M (2005) Chemical and spectroscopic analysis of organic matter transformation during composting of sewage sludge and green plant waste. Inter Biodeter Biodegr 56:101–108
Kafle GK, Sang HK (2013) Anaerobic treatment of apple waste with swine manure for biogas production: batch and continuous operation. Appl Energy 103:61–72
Khan N, Clark I, Sánchez-Monedero MA, Shea S, Meier S, Bolan N (2014) Maturity indices in co-composting of chicken manure and sawdust with biochar. Bioresour Technol 168:245–251
Kolton M, Graber ER, Tsehansky L, Elad Y, Cytryn E (2016) Biochar-stimulated plantperformance is strongly linked to microbial diversity and metabolic potential in therhizosphere. New Phytol 213:1393–1404
Li R, Wang JJ, Zhang Z, Shen F, Zhang G, Qin R, Li X, Xiao R (2012) Nutrient transformations during composting of pig manure with bentonite. Bioresour Technol 121:362–368
Li R, Wang Q, Zhang Z, Zhang G, Li Z, Wang L, Zheng J (2015) Nutrient transformation during aerobic composting of pig manure with biochar prepared at different temperatures. Environ Technol 36:815–826
Li R, Wang JJ, Gaston LA, Zhou B, Li M, Xiao R, Wang Q, Zhang Z, Huang H, Liang W, Huang H, Zhang X (2018) An overiew of carbothermal synthesis of metal-biochar composites for the removal of oxyanion contaminants from aqueous solution. Carbon 129:674–687
Liu N, Zhou J, Han L, Ma S, Sun X, Huang G (2017a) Role and multi-scale characterization of bamboo biochar during poultry manure aerobic composting. Bioresour Technol 241:190–199
Liu W, Huo R, Xu J, Liang S, Li J, Zhao T, Wang S (2017b) Effects of biochar on nitrogen transformation and heavy metals in sludge composting. Bioresour Technol 235:43–49
Malinowski M, Wolony-Koladka K, Vaverková MD (2019) Effect of biochar addition on the OFMSW composting process under real conditions. Waste Manag 84:364–372
Mao H, Lv Z, Sun H, Li R, Zhai B, Wang Z, Awasthi MK, Wang Q, Zhou L (2018) Improvement of biochar and bacterial powder addition on gaseous emission and bacterial community in pig manure compost. Bioresour Technol 258:195–202
Masó M, Blasi A (2008) Evaluation of composting as a strategy for managing organic wastes from a municipal market in Nicaragua. Bioresour Technol 99:5120–5124
Meeker EW, Wagner E (1993) Titration of ammonia in presence of boric acid. Ind Eng Chem Anal Ed 5:396–398
National Bureau of Statistics of China (NBSC) (2016) China Statistical Yearbook. China Statistics Press, Beijing
Ning L, Zhou J, Han L, Ma S, Sun X, Huang G (2017) Role and multi-scale characterization of bamboo biochar during poultry manure aerobic composting. Bioresour Technol 241:190–199
Ren X, Awasthi MK, Wang Q, Zhao J, Li R, Tu Z, Chen H, Awasthi SK, Zhang Z (2018) New insight of tertiary-amine modified bentonite amendment on the nitrogen transformation and volatile fatty acids during the chicken manure composting. Bioresour Technol 266:524–531
Sánchez-García M, Alburquerque JA, Sánchez-Monedero MA, Roig A, Cayuela ML (2015) Biochar accelerates organic matter degradation and enhances N mineralisation during composting of poultry manure without a relevant impact on gas emissions. Bioresour Technol 192:272–279
Steiner C, Das KC, Melear N, Lakly D, Pignatello J, Katz BG (2010) Reducing nitrogen loss during poultry litter composting using biochar. J Environ Qual 39(4):1236–1242
The Ministry of Agriculture (MOA) of the People’s Republic of China, 2012. The standard of organic fertilizer (NY525-2012)
The State Environmental Protection Administration (SEPA) of the People’s Republic of China, 2006. Technical specification for innocuous treatment of livestock and poultry feces (NY/T 1168-2006)
Tiquia SM, Tam NFY (1998) Elimination of phytotoxicity during co-composting of spent pig-manure sawdust litter and pig sludge. Bioresour Technol 65(1–2):43–49
Wang Y, Hu Y, Zhao X, Wang S, Xing G (2013) Comparisons of biochar properties from wood material and crop residues at different temperatures and residence times. Energ. Fuel. 27:5890–5899
Wang Q, Wang Z, Awasthi MK, Jiang Y, Li R, Ren X, Zhao J, Shen F, Wang M, Zhang Z (2016) Evaluation of medical stone amendment for the reduction of nitrogen loss and bioavailability of heavy metals during pig manure composting. Bioresour Technol 220:297–304
Wang M, Awasthi MK, Wang Q, Chen H, Ren X, Zhao J, Li R, Zhang Z (2017) Comparison of additives amendment for mitigation of greenhouse gases and ammonia emission during sewage sludge co-composting based on correlation analysis. Bioresour Technol 243:520–527
Wei Z, Xi B, Zhao Y, Wang S, Liu H, Jiang Y (2007) Effect of inoculating microbes in municipal solid waste composting on characteristics of humic acid. Chemosphere 68:368–374
Wei C, Liao X, Wu Y, Liang JB, Mi J, Huang J, Zhang H, Yu W, Qiao Z, Xi L (2017) Effects of different types of biochar on methane and ammonia mitigation during layer manure composting. Waste Manag 61:506–515
Wei Y, Wu D, Wei D, Zhao Y, Wu J, Xie X, Zhang R, Wei Z (2019) Imporve lignocellulose-degrading performance during straw composting from diverse source with actinomycetes inoculation by regulating the key enzyme activities. Bioresour Technol 271:66–74
Wong JWC, Shunon F, Selvam A (2009) Coal fly ash and lime addition enhances the rate and efficiency of decomposition of food waste during composting. Bioresour Technol 100:3324–3331
Xi BD, He XS, Wei ZM, Jiang YH, Li MX, Li D, Li Y, Dang QL (2012) Effect of inoculation methods on the composting efficiency of municipal solid wastes. Chemosphere 88:744–750
Xiao R, Awasthi MK, Li R, Park J, Pensky SM, Wang Q, Wang JJ, Zhang Z (2017) Recent developments in biochar utilization as an additive in organic solid waste composting: a review. Bioresour Technol 246:203–213
Yang F, Li G, Shi H, Wang Y (2015) Effects of phosphogypsum and superphosphate on compost maturity and gaseous emissions during kitchen waste composting. Waste Manag 36:70–76
Yuan J, Yang Q, Zhang Z, Li G, Luo W, Zhang D (2015) Use of additive and pretreatment to control odors in municipal kitchen waste during aerobic composting. J Environ Sci 37:83–90
Yuan J, Li Y, Chen S, Li D, Tang H, Chadwick D, Li S, Li W, Li G (2018) Effects of phosphogypsum, superphosphate, and dicyandiamide on gaseous emission and compost quality during sewage sludge composting. Bioresour Technol 270:368–376
Zhao J, Sun X, Awasthi MK, Wang Q, Ren X, Li R, Chen H, Wang M, Liu T, Zhang Z (2018) Performance evaluation of gaseous emissions and Zn speciation during Zn-rich antibiotic manufacturing wastes and pig manure composting. Bioresour Technol 267:688–695
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Funding for this study was provided by the Science and Technology Program of Yangling Demonstration Zone (China) (2017NY-24) and the Key Research and Innovation Plan of Shaanxi Province (2018ZDCXL-NY-02-02).
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Tu, Z., Ren, X., Zhao, J. et al. Synergistic effects of biochar/microbial inoculation on the enhancement of pig manure composting. Biochar 1, 127–137 (2019). https://doi.org/10.1007/s42773-019-00003-8
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DOI: https://doi.org/10.1007/s42773-019-00003-8