Progress on Carbon-and Nitrogen-transformation and Greenhouse Gas Emission in Composting

GAO Ling-fei; WANG Yi-xiang; YE Jing; WENG Bo-qi

doi:10.19303/j.issn.1008-0384.2014.08.018

Volume 29 Issue 8

Aug. 2014

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GAO Ling-fei, WANG Yi-xiang, YE Jing, WENG Bo-qi. Progress on Carbon-and Nitrogen-transformation and Greenhouse Gas Emission in Composting[J]. Fujian Journal of Agricultural Sciences, 2014, 29(8): 803-814. doi: 10.19303/j.issn.1008-0384.2014.08.018

Citation:

GAO Ling-fei, WANG Yi-xiang, YE Jing, WENG Bo-qi. Progress on Carbon-and Nitrogen-transformation and Greenhouse Gas Emission in Composting[J]. Fujian Journal of Agricultural Sciences, 2014, 29(8): 803-814. doi: 10.19303/j.issn.1008-0384.2014.08.018

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Progress on Carbon-and Nitrogen-transformation and Greenhouse Gas Emission in Composting

doi: 10.19303/j.issn.1008-0384.2014.08.018

1. College of Resource and Environment,Fujian Agriculture and Forestry University;
2. Agricultural Ecology Institute,Fujian Academy of Agricultural Sciences

Received Date: 2014-05-15
Publish Date: 2014-08-18

Abstract

Abstract

Agriculture and animal husbandry have a direct impact on people′s livelihood.Waste recycling is seen as aprudent measure to ensure an economical, as well as environmentally friendly, operation.In practice, composting can not only fulfill such mission, but also prevent pollution and improve safety.It has been an effective means in handling organic solid wastes worldwide for ages.By reviewing published literature and analyzing available data, this paper summarizes the dynamic fate and effects of the greenhouse gas emission, the rules of carbon-and nitrogen-transformation, as well as the microbial interactions during composting.Suggestions for future research are presented.
- Composting,
- substance transformation,
- greenhouse gas,
- interaction

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References(149)

References

[1]	凌云, 路葵, 徐亚同.禽畜粪便好氧堆肥研究进展[J].上海化工, 2003, (6) :7-9.
[2]	TALEGHANI G, SHABANI K A.Technical-economical analysis of the saveh biogas power plant[J].Renewable Energy, 2005, 30 (3) :441-446.
[3]	曹云娥, 马双燕, 黄学春.农业有机废料发酵对有机栽培基质的效果研究[J].北方园艺, 2011, (21) :13-16.
[4]	张振都, 吴景贵.畜禽粪便的资源化利用研究进展[J].广东农业科学, 2010, (1) :135-137.
[5]	FENERTY-MCKIBBON B, KHARE A.Canada post delivers energy conservation[J].Energy and buildings, 2005, 37 (3) :221-234.
[6]	PIRES A, MARTINHO G, CHANG N B.Solid waste management in European countries:a review of systems analysis techniques[J].Journal of environmental management, 2011, 92 (4) :1033-1050.
[7]	李吉进, 郝晋珉, 邹国元, 等.高温堆肥碳、氮循环及腐殖质变化特征研究[J].生态环境, 2004, 13 (3) :332-334.
[8]	李清伟, 吕炳南, 李慧莉, 等.猪粪好氧堆肥研究的进展[J].农机化研究, 2007, (1) :63-65.
[9]	陈志宇, 苏继影, 栾冬梅.禽畜粪便堆肥技术研究进展[J].当代畜牧, 2004, (10) :41-43.
[10]	熊雄, 李艳霞, 韩杰, 等.堆肥腐殖质的形成和变化及其对重金属有效性的影响[J].农业环境科学学报, 2008, 27 (6) :2137-2142.
[11]	郑嘉熹, 魏源送, 吴晓凤, 等.猪粪堆肥过程保氮固磷及温室气体 (N2O) 减排研究[J].环境科学, 2011, 32 (7) :2047-2053.
[12]	黄红丽.木质素降解微生物特性及其对农业废物堆肥腐殖化的影响研究[D].长沙:湖南大学, 2009.
[13]	单德鑫.牛粪发酵过程中碳、氮、磷转化研究[D].哈尔滨:东北农业大学, 2006.
[14]	CHEFETZ B, HATCHER P G, HADAR Y, et al.Chemical and biological characterization of organic matter during composting of municipal solid waste[J].Journal of Environmental Quality, 1996, 25 (4) :776-785.
[15]	姜继韶, 黄懿梅, 黄华, 等.猪粪秸秆高温堆肥过程中碳、氮转化特征与堆肥周期探讨[J].环境科学学报, 2011, 31 (11) :2511-2517.
[16]	秦莉, 沈玉君, 李国学, 等.不同C/N比堆肥碳素物质变化规律研究[J].农业环境科学学报, 2010, 29 (7) :1388-1393.
[17]	李艳霞.污泥堆肥机理及堆肥过程研究[D].北京:中国科学院, 1998.
[18]	陈世和, 张所明.城市生活垃圾堆肥处理的微生物特性研究[J].上海环境科学, 1998, 78 (8) :17-21.
[19]	李自刚.农业有机固体废弃物过程中微生物多样性与物质转化关系研究[D].南京:南京农业大学, 2006.
[20]	刘佳, 李靖男, 文科军, 等.不同堆肥条件下园林废弃物中有机碳物质的动态变化[J].北方园艺, 2012 (24) :174-178.
[21]	SUREZ-ESTRELLA F, LPEZ MJ, MORENO J.Effect of inoculation in composting processes:modifications in lignocellulosic fraction[J].Waste Management, 2007, 27 (9) :1099-1107.
[22]	TIQUIA S M, TAM N F Y.Fate of nitrogen during composting of chicken litter[J].Environmental Pollution, 2000, 110 (3) :535-541.
[23]	LUI D D, CHONG Y X, WU Q T, et al.Adsorption Properties of Adsorption Tower Filled with Calcium Superphosphate on NH3Emitted from Composting System of Animal Wastes[J].Agricultural Science and Technology, 2012, 13 (9) :1982-1985.
[24]	FUKUMOTO Y, OSADA T, HANAJIMA D, et al.Patterns and quantities of NH3, N2O and CH4 emissions during swine manure composting without forced aeration-effect of compost pile scale[J].Bioresource Technology, 2003, 89 (2) :109-114.
[25]	MORAND P, PERES G, ROBIN P, et al.Gaseous emissions from composting bark/manure mixtures[J].Compost science and utilization, 2005, 13 (1) :14-26.
[26]	JIANG T, SCHUCHARDT F, LI G X, et al.Gaseous emission during the composting of pig feces from Chinese Ganqinfen system[J].Chemosphere, 2013, 90 (4) :1545-1551.
[27]	孙羲, 章永松.有机肥和土壤有机磷对水稻的营养效果[J].土壤学报, 1992, 29 (4) :365-369.
[28]	林可椒.猪粪发酵条件优化组合的筛选[J].华中农业大学学报, 1990, 9 (1) :90-98.
[29]	郭夏丽, 张静晓, 王静, 等.菌渣和牛粪联合堆肥中的氮素转化研究[J].郑州大学学报:工学版, 2012, (1) :19.
[30]	鲍艳宇, 周启星, 颜丽, 等.不同畜禽粪便堆肥过程中有机氮形态的动态变化[J].环境科学学报, 2008, 28 (5) :930-936.
[31]	李季, 彭生平.堆肥工程实用手册[M].北京:化学工业出版社, 2011:20-30.
[32]	魏宗强, 李进吉, 邹国元, 等.不同覆盖措施对鸡粪堆肥氨挥发的影响[J].水土保持学报, 2009, 23 (6) :108-111.
[33]	廖新俤, 吴银宝.通风方式和气温对猪粪堆肥的影响[J].华南农业大学学报:自然科学版, 2003, 24 (2) :77-80.
[34]	REN L, SCHUCHARDT F, SHEN Y, et al.Impact of struvite crystallization on nitrogen losses during composting of pig manure and cornstalk[J].Waste Management, 2010, 30 (5) :885-892.
[35]	WANG X, SELVAM A, CHAN M, et al.Nitrogen conservation and acidity control during food wastes composting through struvite formation[J].Bioresource technology, 2013, 147:17-22.
[36]	姜继韶.猪粪秸秆高温堆肥添加剂的选择及其保氮机理的研究[D].杨凌:西北农林科技大学, 2012.
[37]	WEI L, SHU T-W, JIN Z, et al.Biochar influences the microbial community structure during tomato stalk composting with chicken manure[J].Bioresource technology, 2014, 154:148-154.
[38]	MONDINI C, INSAM H.Community level physiological profiling as a tool to evaluate compost maturity:a kinetic approach[J].European Journal of Soil Biology, 2003, 39 (3) :141-148.
[39]	TANG J C, KANAMORI T, INOUE Y, et al.Changes in the microbial community structure during thermophilic composting of manure as detected by the quinone profile method[J].Process Biochemistry, 2004, 39 (12) :1999-2006.
[40]	HARUTA S, NAKAYAMA T, NAKAMURA K, et al.Microbial diversity in biodegradation and reutilization processes of garbage[J].Journal of Bioscience and Bioengineering, 2005, 99 (1) :1-11.
[41]	刘佳, 李婉, 许修宏, 等.接种纤维素降解菌对牛粪堆肥微生物群落的影响[J].环境科学, 2011, 32 (10) :3073-3081.
[42]	张俊华, 刘希凤, 毕江涛, 等.不同处理条件下生猪屠宰场废弃物堆肥基本性质及微生物区系变化研究[J].干旱地区农业研究, 2013, 31 (2) :100-105.
[43]	宋光桃, 付美云, 曾雷.猪粪与生活垃圾混合堆肥的微生物数量变化研究[J].南华大学学报:自然科学版, 2008, 22 (2) :24-27.
[44]	万水霞, 郭熙盛, 朱宏赋, 等.自然堆肥过程中微生物群落的动态变化[J].安徽农业科学, 2009, 37 (28) :13710-13711.
[45]	姚拓, 龙瑞军, 师尚礼, 等.高寒草地不同扰动生境土壤微生物氮素生理群数量特征研究[J].土壤学报, 2007, 44 (1) :122-129.
[46]	曹喜涛, 黄为一, 常志州, 等.鸡粪堆肥中氮转化微生物变化特征的初步研究[J].土壤肥力, 2004, (4) :40-43.
[47]	中国科学院南京土壤研究所微生物组.土壤微生物学研究[M].北京:科学出版社, 1985:232-298.
[48]	肖维伟.禽粪便及废弃物好氧堆肥中氮转化细菌的研究[D].哈尔滨:东北农业大学, 2008.
[49]	马丽红, 黄懿梅, 李学章, 等.牛粪堆肥化中氮素形态与微生物生理群的动态变化和耦合关系[J].农业环境科学报, 2009, 28 (12) :2674-2679.
[50]	ZHANG D C, MRTELMAIER C, MARGESIN R.Characterization of the bacterial archaeal diversity in hydrocarbon-contaminated soil[J].Science of the Total Environment, 2012, 421:184-196.
[51]	OUZA A C, PEASE T K, GARDNER W S.Vertical profiles of major organic geochemical constituents and extracellular enzymatic activities in sandy sediments of Aransas and Copano Bays, TX[J].Estuaries and coasts, 2012, 35 (1) :308-323.
[52]	HE Y, XIE K, XU P, et al.Evolution of microbial community diversity and enzymatic activity during composting[J].Research in microbiology, 2013, 164 (2) :189-198.
[53]	张洪勋, 王晓谊, 齐鸿雁.微生物生态学研究方法进展[J].生态学报, 2003, 23 (5) :988.
[54]	邱并生.堆肥过程中的微生物种群结构[J].微生物学通报, 2011, 38 (10) :1602.
[55]	张蔓, 魏明宝, 马闯, 等.分子生物学技术在堆肥微生物研究中的应用综述[J].郑州轻工业学院学报:自然科学版, 2013, 28 (3) :13-19.
[56]	PARTANEN P, HULTMAN J, PAULIN L, et al.Bacterial diversity at different stages of the composting process[J].BMC Mi-crobiology, 2010, 10 (1) :94.
[57]	米文秀, 谢冰, 徐亚同.PCR-SSCP技术用于脱臭微生物群落结构的研究[J].环境科学, 2008, 29 (7) :1992.
[58]	YAMADA T, SUZUKI A, UEDA H, et al.Successions of bacterial community in composting cow dung wastes with or without hyperthermophilic pre-treatment[J].Applied microbiology and biotechnology, 2008, 81 (4) :771-781.
[59]	牛俊玲, 高军侠, 李彦明, 等.堆肥过程中的微生物研究进展[J].中国生态农业学报, 2007, 15 (6) :185.
[60]	王芳.不同菌剂处理对猪粪堆肥效果的影响及PCR-DGGE研究堆肥微生物群落变化[D].雅安:四川农业大学, 2008.
[61]	LI H, XU X, CHEN H, et al.Molecular analyses of the functional microbial community in composting by PCR-DGGE targeting the genes of theβ-glucosidase[J].Bioresource technology, 2013, 134:51-58.
[62]	LEE J H, KIM T W, LEE H, et al.Determination of microbial diversity in meju, fermented cooked soya beans, using nested PCR-denaturing gradient gel electrophoresis[J].Letters in applied microbiology, 2010, 51 (4) :388-394.
[63]	叶凝芳, 吕凡, 何品晶, 等.细菌群落结构及演替的比较[J].农业环境科学学报, 2007, 26 (3) :1132-1137.
[64]	ABBASI P A, MILLER S A, MEULIA T, et al.Precise detection and tracing of Trichoderma hamatum 382in compostamended potting mixes by using molecular markers[J].Applied and Environmental Microbiology, 1999, 65 (12) :5421.
[65]	VELAPPAN N, SNODGRASS J L, HAKOVIRTA J R, et al.Rapid identification of pathogenic bacteria by singleenzyme amplified fragment length polymorphism analysis[J].Diagnostic microbiology and infectious disease, 2001, 39 (2) :77.
[66]	WIGLEY T M L, RAPER S C B.Interpretation of high projections for global-mean warming[J].Science, 2001, 293:451-454.
[67]	ALLEN M R, STOTT P A, MITCHELL J F, et al.Quantifying the uncertainty in forecasts of anthropogenic climate change[J].Nature, 2000, 407:617-620.
[68]	IPCC IPCC CORE WRITING TEAM, PACHAURI, REISINGER R K.Contribution of working groupsⅠ, Ⅱand III to the fourth assessment report of the intergovernmental panel on climate change in:IPCC (Ed.) , Climate Change 2007[R].Switzerland, Geneva, pp, 2007:104.
[69]	张文学, 孙刚.我国农业及畜牧业发展CDM项目的潜力分析[J].江西能源, 2008, (1) :21-22.
[70]	高新星, 赵立欣.养殖场蓄粪池甲烷排放研究进展及对CDM项目贡献分析[J].可再生能源, 2006, (6) :74-76.
[71]	COLON J, MARTINEZ-BLANCO J, GABARRELL X, et al.Environmental assessment of home composting[J].Resources Conservation and Recycling, 2010, 54 (11) :893-904.
[72]	MARTINEZ-BLANCO J, COLON J, GABARRELL X, et al.The use of life cycle assessment for the comparison of biowaste composting at home and full scale[J].Waste management, 2010, 30 (6) :983-994.
[73]	PARK K H, JEON J H, JEON K H, et al.Low greenhouse gas emissions during composting of solid swine manure[J].Anim Feed Sci Technol, 2011, 166:550-556.
[74]	张秀君.大气甲烷源和汇的研究.[CP/OL]. (2004-01-22) [2014-05-12].http://mall.cnki.net/magazine/Article/SYXX200401046.htm
[75]	谢军飞, 李玉娥.不同堆肥处理猪粪温室气体排放与影响因子初步研究[J].农业环境科学学报, 2003, 22 (1) :56-59.
[76]	谢军飞, 李玉娥, 董红敏, 等.堆肥处理蛋鸡粪时温室气体排放与影响因子关系[J].农业工程学报, 2003, 19 (1) :192-195.
[77]	JIANG T, SCHUCHARDT F, LI G X, et al.Effect of C/N ratio, aeration rate and moisture content on ammonia and greenhouse gas emission during the composting[J].Journal of Environmental Sciences, 2011, 23 (10) :1754-1760.
[78]	WEN HAI LUO, JIN YUAN, YI MING LUO, et al.Effects of mixing and covering with mature compost on gaseous emissions during composting[J].Chemosphere, 2014, 117:14-19.
[79]	AHN H K, MULBRY W, WHITE J W, et al.Pile mixing increases greenhouse gas emissions during composting of dairy manure[J].Bioresour Technol, 2011, 102:2904 2909.
[80]	LI Z, LU H, REN L, et al.Experimental and modeling approaches for food waste composting:A review[J].Chemosphere, 2013, 93 (7) :1247-1257.
[81]	MARIA LUZ CAYUELA, MIGUEL ANGEL SNCHEZMONEDERO, ASUNCIN ROIG, et al.Biochemical changes and GHG emissions during composting of lignocellulosic residues with different N-rich by-products[J].Chemosphere, 2012, 88:196-203.
[82]	沈洪艳, 张相锋, 董世魁, 等.餐厨垃圾和绿化废弃物好氧堆肥过程中温室气体排放研究[J].河南农业大学学报, 2013, 47 (2) :202-205.
[83]	SHEN Y, REN L, LI G, et al.Influence of aeration on CH4, N2O and NH3emissions during aerobic composting of a chicken manure and high C/N waste mixture[J].Waste management, 2011, 31 (1) :33-38.
[84]	CHOWDHURY M A, DE NEERGAARD A, JENSEN L S.Potential of aeration flow rate and bio-char addition to reduce greenhouse gas and ammonia emissions during manure composting[J].Chemosphere, 2013, 97:16-25.
[85]	HAO XIYING.Nitrate accumulation and greenhouse gas emissions during compost storage[J].Nutr Cycl Agroecosyst, 2007, 78:189-195.
[86]	KALAMDHAD A S, KAZMI A A.Effects of turning frequency on compost stability and some chemical characteristics in a rotary drum composter[J].Chemosphere, 2009, 74 (10) :1327-1334.
[87]	陆日东, 李玉娥, 石锋, 等.不同堆放方式对牛粪温室气体排放的影响[J].农业环境科学学报, 2008, 27 (3) :1235-1241.
[88]	Climate change 2007-the physical science basis:Working group I contribution to the fourth assessment report of the IPCC[R].Cambridge University Press, 2007.
[89]	吴伟祥, 李丽劼, 吕豪豪, 等.畜禽粪便好氧堆肥过程氧化亚氮排放机制[J].应用生态学报, 2012, 23 (6) :1704-1710.
[90]	OSADA T, KURODA K, YONAGA M.Determination of nitrous oxide, methane, and ammonia emissions from a swine waste composting process[J].Journal of Material Cycles and Waste Management, 2000 (2) :51-56.
[91]	MAEDA K, TOYODA S, SHIMOJIMA R, et al.Source of nitrous oxide emissions during the cow manure composting process as revealed by isotopomer analysis of and amoA abundance in betaproteobacterial ammonia-oxidizing bacteria[J].Applied and Environmental Microbiology, 2010, 76:1555-1562.
[92]	UKUMOTO Y, SUZUKI K, OSADA T, et al.Reduction of nitrous oxide emission from pig manure composting by addition of nitrite-oxidizing bacteria[J].Environmental Science and Technology, 2006, 40:6787-6791.
[93]	YANG F, LI G X, YANG Q Y, et al.Effect of bulking agents on maturity and gaseous emissions during kitchen waste composting[J].Chemosphere, 2013, 93:1393-1399.
[94]	李丽劼.竹炭的添加对猪粪堆肥过程氮素持留与温室气体减排的影响[D].杭州:浙江大学, 2012.
[95]	LUO Y M, LI G X, LUO W H, et al.Effect of phosphogypsum and dicyandiamide as additives on NH3, N2O and CH4 emissions during composting[J].Journal of Environmental Sciences, 2013, 25 (7) :1338-1345.
[96]	万合锋, 猪粪堆肥及其在蔬菜地利用全过程中温室气体 (NO2、CH4) 和NH3排放特征研究[D].南昌:南昌大学, 2012.
[97]	WANG JINZHI, HU ZHENGYI, XU XINGKAI, et al.Emissions of ammonia and greenhouse gases during combined pre-composting and vermicomposting of duck manure[J].Waste Management, 2014, 34:1546 1552.
[98]	ADHIKARI B K, TRMIER A, BARRINGTON S, et al.Gas emissions as influenced by home composting system configuration[J].Journal of environmental management, 2013, 116:163-171.
[99]	ZHANG HONGYU, LI CHUNPING, LI GUOXUE, et al.Effect of spent air reusing (SAR) on maturity and greenhouse gas emissions during municipal solid waste (MSW) composting-with different pile height[J].Procedia Environment Science, 2012, 16:59-69.
[100]	ADHIKARI BK, BARRINGTON S, MARTINEZ J, et al.Characterization of food waste and bulking agents for composting[J].Waste Management, 2008, 28 (5) :795-804.
[101]	KIM J D, PARK J S, IN B H, et al.Evaluation of pilotscale in-vessel composting for food waste treatment[J].Journal of hazardous materials, 2008, 154 (1) :272-277.
[102]	MANIOS T.The composting potential of different organic solid wastes:experience from the island of Crete[J].Environment International, 2004, 29 (8) :1079-1089.
[103]	KOPCIC N, VUKOVIC DOMANOVAC M, KUCIC D, et al.Evaluation of laboratory-scale in-vessel co-composting of tobacco and apple waste[J].Waste Management, 2014, 34 (2) :323-328.
[104]	VLYSSIDES A G, BARAMPOUTI E M P, MAI S T.Physical characteristics of olive stone wooden residues:possible bulking material for composting process[J].Biodegradation, 2008, 19 (2) :209-214.
[105]	NEKLYUDOV A D, FEDOTOV G N, IVANKIN A N.Intensification of composting processes by aerobic microorganisms:A review[J].Applied biochemistry and microbiology, 2008, 44 (1) :6-18.
[106]	UNDBERG C, FRANKE-WHITTLE IH, KAUPPI S, et al.Characterisation of source-separated household waste intended for composting[J].Bioresource technology, 2011, 102 (3) :2859-2867.
[107]	RASHAD F M, SALEH W D, MOSELHY M A.Bioconversion of rice straw and certain agro-industrial wastes to amendments for organic farming systems:1.Composting, quality, stability and maturity indices[J].Bioresource technology, 2010, 101 (15) :5952-5960.
[108]	IQBAL M K, SHAFIQ T, AHMED K.Characterization of bulking agents and its effects on physical properties of compost[J].Bioresource technology, 2010, 101 (6) :1913-1919.
[109]	ROCA-PEREZ L, MARTINEZ C, MARCILLA P, et al.Composting rice straw with sewage sludge and compost effects on the soil plant system[J].Chemosphere, 2009, 75 (6) :781-787.
[110]	DOUBLET J, FRANCOU C, POITRENAUD M, et al.Influence of bulking agents on organic matter evolution during sewage sludge composting;consequences on compost organic matter stability and N availability[J].Bioresource technology, 2011, 102 (2) :1298-1307.
[111]	ADHIKARI B K, BARRINGTON S, MARTINEZ J, et al.Effectiveness of three bulking agents for food waste composting[J].Waste Management, 2009, 29 (1) :197-203.
[112]	GEA T, BARRENA R, ARTOLA A, et al.Optimal bulking agent particle size and usage for heat retention and disinfection in domestic wastewater sludge composting[J].Waste Management, 2007, 27 (9) :1108-1116.
[113]	CHANG J I, CHEN Y J.Effects of bulking agents on food waste composting[J].Bioresource technology, 2010, 101 (15) :5917-5924.
[114]	李国学, 李玉春, 李彦富.固体废物堆肥化及堆肥添加剂研究进展[J].农业环境科学学报, 2003, 22 (2) :252-256.
[115]	郑瑞生, 肖本木, 李延, 等.堆肥化过程中氮素转化和NH3挥发研究[J].泉州师范学院学报:自然科学版, 2007, 25 (2) :122-125.
[116]	GUO R, LI G, JIANG T, et al.Effect of aeration rate, C/N ratio and moisture content on the stability and maturity of compost[J].Bioresource technology, 2012, 112:171-178.
[117]	马怀良, 许修宏.不同C/N对堆肥腐熟酸的影响[J].中国土壤与肥料, 2009, (6) :64-66.
[118]	陈雅娟, 霍培书, 程旭艳, 等.物料C/N对鸡粪锯末高温堆肥腐熟过程主要指标的影响研究[J].中国农业大学学报, 2012, 17 (5) :118-123.
[119]	DIAZ L F, SAVAGE G M.Factors that affect the process[J].Waste Management Series, 2007, (8) :49-65.
[120]	郑瑞生, 封辉, 戴聪杰.C/N对堆肥过程NH3挥发和腐熟度的影响[J].环境污染与防治, 2009, 3l (9) :59-62.
[121]	秦莉, 沈玉君, 李国学.不同C/N比对堆肥腐熟度和含氮气体排放变化的影响[J].农业环境科学学报, 2009, 28 (12) :2668-2673.
[122]	吴东, 周芬, 陈丽园, 等.添加不同比例油菜秸秆对猪粪堆肥腐熟效果的影响[J].家畜生态学报, 2011, 32 (3) :77-80.
[123]	杨毓峰, 薛澄泽.畜禽废弃物好氧堆肥化条件研究[J].陕西农业科学, 1998, (6) :10-11.
[124]	TIQUIA S M, TAN N F Y, HODGKISS I J.Effects of turning frequency on composting of spent pig-manure sawdust litter[J].Bioresource Technology, 1997, 62 (1) :37-42.
[125]	徐红, 樊耀波, 贾智萍, 等.时间温度联合控制的强制通风污泥堆肥技术[J].环境科学, 2000, (11) :51-55.
[126]	杨国义, 夏钟文, 李芳柏, 等.不同通风方式对猪粪高温堆肥氮素和碳素变化的影响[J].农业环境科学学报, 2003, 22 (4) :463-467.
[127]	化党领, 刘方, 李国学, 等.翻堆与覆盖工艺对猪粪秸秆堆肥性质的影响[J].农业工程学报, 2011, 27 (12) :210-216.
[128]	PARK K H, JEON J H, JEON K H, et al.Low greenhouse gas emission during composting of solid swine manure[J].Animal Feed Science and Technology, 2011, 166-167:550-556.
[129]	白帆, 王晓昌.粪便好氧堆肥过程中温度对有机物的降解和氮的保持特性影响[J].中国土壤与肥料, 2011 (3) :69-71.
[130]	黄向东, 韩志英, 石德智.畜禽粪便堆肥过程中氮素的损失与控制[J].应用生态学报, 2010, 21 (1) :247-254.
[131]	TIQUIA S M, TAM N F Y.Characterization and composting of poultry litter in forced-aeration piles[J].Process Biochemistry, 2002, 37 (8) :869-880.
[132]	张颖.农业固体废弃物资源化利用[M].北京:化学工业出版社, 2006:80-98.
[133]	施林林, 沈明星, 常志州, 等.水分含量对水葫芦渣堆肥进程及温室气体排放的影响[J].中国生态农业学报, 2012, 20 (3) :337-342.
[134]	江君, 杜静, 常志州, 等.水分对蓝藻堆肥效果的影响[J].江苏农业科学, 2012, 40 (6) :260-263.
[135]	夏炜林, 黄宏坤, 漆智平, 等.不同堆肥方式对奶牛粪便处理效果的试验研究[J].农业工程学报, 2006, 22 (2) :215-219.
[136]	席旭东, 晋小军, 张俊科.蔬菜废弃物快速堆肥方法研究[J].中国土壤与肥料, 2010, (3) :62-66.
[137]	陆日东, 李玉娥, 石锋, 等.不同堆放方式对牛粪温室气体排放的影响[J].农业环境科学学报, 2008, 27 (3) :1235-1241.
[138]	杨帆, 李国学, 江滔, 等.蚯蚓辅助堆肥处理蔬菜废弃物及其温室气体减排效果[J].农业工程学报, 2012, 28 (16) :190-194.
[139]	宋忠俭, 钱晓晴, 柏彦超.蚯蚓粪覆盖对氨气和硫化氢的去除效果研究[J].现代农业科技, 2012 (20) :240-240.
[140]	鲁如坤.土壤农业化学分析方法[M].北京:中国农业科技出版社, 2000:125-195.
[141]	匡石滋, 春雨, 世尧.复合菌剂对香蕉茎秆堆肥中微生物和养分含量的影响[J].中国农学通报, 2011, 27 (6) :182-187.
[142]	SUREZ-ESTRELLA F, LPEZ MJ, MORENO J.Effect of inoculation in composting processes:modifications in lignocellulosic fraction[J].Waste Management, 2007, 27 (9) :1099-1107.
[143]	王卫平, 朱凤香, 钱红, 等.接种发酵菌剂和添加不同调理剂对猪粪发酵堆肥氮素变化的影响[J].浙江农业学, 2005, 17 (5) :276-279.
[144]	李国学, 李玉春, 李彦富.固体废物堆肥化及堆肥添加剂研究进展[J].农业环境科学学报, 2003, 22 (2) :252-256.
[145]	单德鑫, 许景钢, 李淑芹, 等.牛粪堆肥过程中有机态氮的动态变化[J].中国土壤与肥料, 2008, (1) :40-43.
[146]	KURODA K, HANAJINA D, FUKUMOTO Y, et al.Isolation of thermophilic ammonium-tolerant bacterium and its appli-cation to reduce ammonia emission during composting of an-imal wastes[J].Bioscience Biotechnology Biochemistry, 2004, 68 (2) :286-292.
[147]	赵秋, 张明怡, 刘颖, 等.猪粪堆肥过程中氮素物质转化规律研究[J].黑龙江农业科学, 2008, (2) :58-60.
[148]	韩丽娜, 王泽槐, 李建国.接种外源微生物菌剂对香蕉茎秆堆肥的影响[J].环境工程学报, 2012, 6 (11) :4215-4220.
[149]	张婷婷, 吴京科, 祁娜, 等.白腐菌在有机固体废弃物堆肥中的研究进展[J].吉林农业科学, 2011, 36 (4) :37-40.