The Nitrogen Loss and Control Methods During Composting

Abstract

CLC Number:

S141.4

Zhao Qiu, Bao Yanyu. The Nitrogen Loss and Control Methods During Composting[J]. Chinese Agricultural Science Bulletin, 2007, 23(7): 375-375.

[1] P B Delaune, P A Moore Jr, T C Daniel, J L Lemunyon. Effect of Chemical and Microbial Amendments on Ammonia Volatilization from Composting Poultry Litter[J]. Journal of Environmental Quality, 2004, 33(2):728-735.
[2] Michael Raviv, Shlomit Medina, Arkady Krasnovsky, Hammam Ziadna. Organic Matter and Nitrogen Conservation in Manure Compost for Organic Agriculture[J]. Compost Science & Utilization, 2004, 12(1):6-11.
[3] Michael Raviv, Shlomit Medina, Arkady Krasnovsky, Hammam Ziadna. Conserving nitrogen during composting[J]. Biocycle, 2002, 43(9):48-51.
[4] Eghball, B., J.F. Power, J.E. Gilley, and J.W. Doran. Nutrient, carbon, and mass loss during composting of beef cattle feedlot manure[J]. J. Environ. Qual, 1997,26:189-193.
[5] Kirchmann, H. and E. Witter. Ammonia volatilization during aerobic and anaerobic manure decomposition[J]. Pl. Soil, 1989, 115:35-41.
[6] Hansen, R.C., H.M. Keener, and H. A.J. Hoitink. Poultry manure composting-An exploratory study[J]. Trans. ASAE, 1989,36:2151-2157.
[7] Kithome, M., J.W. Paul, and A.A. Bomkc. Reducing nitrogen losses during simulated composting of poultry manure using adsorbents or chemical amendments[J]. J. Environ. Qual, 1999,28:194-201.
[8] ApSimon, H.M., M. Kruse, and J.N.B. Bell. Ammonia emissions and their role in acid deposition[J]. Atmos. Environ, 1987,(1967-1989) 21:1939-1946.
[9] Pearson, J., and G.R. Stewart. The deposition of atmospheric ammonia and its effects on plants[J]. New Phytol, 1993,125:283-305.
[10] Van Breemen, N., P.A. Burrough, E.J. Vclthorst, H.F. van Dobben, T. de Wit, T.B. Ridder, and H.F.R. Reijnders. Soil acidification from atmospheric ammonium sulphate in forest canopy throughfall[J]. Nature (London), 1982,299:548-550.
[11] Behra, P., L. Sigg, and W. Stumm. Dominating influence of NH3 on the oxidation of aqueous SO2: The coupling of NH, and SO2 in atmospheric water[J]. Atmos. Environ. (1967-1989) 1989,23:2691-2708.
[12] Schuurkes, J.A.A.R. Atmospheric ammonium sulphate deposition and its role in the acidification and nitrogen enrichment of poorly buffered aquatic systems[J]. Experientia, 1986,42:351-357.
[13] D L Elwell, J H Hong, H M Keener. Composting hog manure/sawdust mixtures using intermittent and continuous aeration: Ammonia emissions[J] Compost Science & Utilization, 2002, 10(2):142-150.
[14] Hiraku Sasaki, Maruyama, Hanatsu Suzuki, Jun Nonaka, et al. Distribution of Ammonia Assimilating Bacteria In the Composting Process[J]. Compost Science & Utilization, 2004, 12(2):108-114.
[15] Reece, F.N., B.J. Bates, and B.D. Lott. Ammonia control in broiler houses[J]. Poult. Sei., 1979,58:754-755.
[16] Moore, P.A., Jr., W.E. Huff, T.C. Daniel, D.R. Edwards, and T.C. Sauer. Effect of aluminum sulfate on ammonia fluxes from poultry litter in commercial broiler houses[A]. Am. Soc. Agric, 1997,2:883-891.
[17] F Eiland, M Leth, M Klamer, A-M Lind, et al. C and N turnover and lignocellulose degradation during composting of Miscanthus straw and liquid pig manure[J]. Compost Science & Utilization, 2001, 9(3):186-197.
[18] Jackson, M.J., and M.A. Line. Composting pulp and paper mill sludge - effect of temperature and nutrient addition method[J]. Compost Sci. and Util., 1997,5(1):74-81.
[19] Michael Raviv, Shlomit Medina, Arkady Krasnovsky, Hammam Ziadna. Organic Matter and Nitrogen Conservation in Manure Compost for Organic Agriculture[J]. Compost Science & Utilization, 2004,12(1):6-11.
[20] 范志金,等.控制畜禽类氮素挥发的措施探讨[J].四川师范大学学报,2000,23(5):548-550.
[21] Moore, P.A., Jr., T.C. Daniel, D.R. Edwards, and D.M. Miller. Effect of chemical amendments on ammonia volatilization from poultry litter[J]. J. Environ. Qual. 1995,24:293-300.
[22] Moore, P.A., Jr., T.C. Daniel, D.R. Edwards, and D.M. Miller. Evaluation of chemical amendments to reduce ammonia volatilization from poultry litter[J]. Poult. Sei. 1996,75:315-320.
[23] Al-Kanani, T., E. Akochi, A.F. MacKenzie, I. Alli, and S. Barrington. Organic and inorganic amendments to reduce ammonia volatilization losses from liquid hog manure[J]. J. Environ. Qual. 1992,21:709-715.
[24] Kithome, M., J.W. Paul, and A.A. Bomkc. Reducing nitrogen losses during simulated composting of poultry manure using adsorbents or chemical amendments[J]. J. Environ. Qual. 1999,28:194-201.
[25] Ekinci, K., H.M. Keener, and D.L. Elwell. Composting short paper fiber with broiler litter and additives. Part I: Effects of initial pH and carbon/nitrogen ratio on ammonia emission[J]. Compost Sci. Util. 2000,8(2):160-172.
[26] 钱承梁,鲁如坤.防止粪肥氨挥发的研究[J].土壤,1996,28(1):8-13.
[27] 北京市园林学校主编.土壤与肥料学[M].北京:科学技术出版社,2002:56.
[28] E K Lhadi, H Tazi, M Aylaj, F Tambone, F Adani. Cocomposting Separated MSW And Poultry Manure in Morocco[J]. Compost Science & Utilization, 2004,12(2):137-145.
[29] Mahimairaja, S., N.S. Bolan, M.J. Hedley, and A.N. Macgregor. Losses and transformation of nitrogen during composting of poultry manure with different amendments: An incubation experiment[J]. Bioresour. Technol, 1994,47:265-273.
[30] Hansen, R.C., H.M. Keener, and H. A.J. Hoitink. Poultry manure composting-An exploratory study[J]. Trans. ASAE, 1989,36:2151-2157.
[31] Brodie, H.L., L.E. Carr, and P. Condon. A comparison of static pile and turned windrow methods for poultry litter compost production[J]. Compost Sei. Util., 2000,8(3):178-189.
[32] 胡佩.家畜粪便的微生物除臭法[J].土壤肥料,1996,4:45-46.
[33] [日]井上祥一郎.鸡粪にぉける粪尿处理?追记[J]. 鸡の研究,1990,8:87-89.
[34] [日]福森功.家畜粪尿处理设施にぉける版脱臭技术[J].鸡の研究,1992,5:52-55.
[35] 黄懿梅,曲东,李国学,等.两种外源微生物对鸡粪高温堆肥的影响[J].农业环境保护,2002,21(3):208-210.
[36] 李吉进,郝晋珉,邹国元,等.添加剂在猪粪堆肥过程中的作用研究[J].土壤通报,2004,34(4):483-486.
[37] 王岩,王文亮,霍晓婷.家畜粪尿的堆肥化处理技术研究Ⅱ堆肥材料的发酵特性和氨气挥发[J].河南农业大学学报,2002,36(3):284-287.

The Nitrogen Loss and Control Methods During Composting

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments

For authors

For reviewers

Reader center

Contact us

[1]	LIANG Tian, ZHANG Xiaodong, ZHANG Yu, ZHANG Zuozhong, SI Riguleng, SU Budenggerile, NA Renhua. Effect of Bacterial Enzyme Preparation on Composting of Cow Manure Under Different C/N Conditions [J]. Chinese Agricultural Science Bulletin, 2022, 38(31): 77-82.
[2]	WANG Haihou, CHENG Yueqin, JIN Meijuan, LIU Zekai, SHI Linlin, LU Changying. Effects of Rice Husk Biochar on Nitrogen Conversion and Fixation in Sheep Manure Composting [J]. Chinese Agricultural Science Bulletin, 2022, 38(27): 51-59.
[3]	NIE Xiaoyu, YU Chunjing, LU Qian, CUI Jizhe. The Effects of Microorganisms in Aerobic Composting of Crop Straw: Research Progress [J]. Chinese Agricultural Science Bulletin, 2022, 38(26): 76-81.
[4]	SONG Yun, FAN Ping, WANG Min, LI Hongmei, CAO Zhihong, HAN Wei. Current Situation, Risk and Prevention Countermeasures of Mulching Film Residues in Binzhou, Shandong [J]. Chinese Agricultural Science Bulletin, 2022, 38(14): 104-109.
[5]	SONG Yun, FAN Ping, WANG Min, WANG Qiang, XUE Pengfei. Comparative Analysis of Decomposition Factors of Aerobic Composting with Several Waste Substrates [J]. Chinese Agricultural Science Bulletin, 2022, 38(11): 53-57.
[6]	Lu Jiawei, Wang Mingze, Wang Qi, Wei Zongyou, Zhang Yanli, Wang Feng. Effects of Different Excipients and Microbial Agents on Aerobic Composting of Sheep Manure [J]. Chinese Agricultural Science Bulletin, 2021, 37(15): 39-46.
[7]	Wei Jianlin, Tan Deshui, Li Guosheng, Li Yan, Sun Yan, Liu Pengpeng, Cui Rongzong. Effects of Application Methods of Base Fertilizer on Wheat Seedling Emergence and Growth [J]. Chinese Agricultural Science Bulletin, 2021, 37(4): 8-12.
[8]	Huang Yali, Huang YuanYuan, Ma Huiyuan, Xu Bingxue, Jia Zhenhua, Song Shuishan, Li Zaixing, Jia Suqiao. Fungi with Corn Straw Decomposing Characterization at Low-temperature: Screening and Application in Straw Returning Field [J]. Chinese Agricultural Science Bulletin, 2020, 36(21): 53-60.
[9]	Huang Yanyan, Yang Xu, Yang Hongzhu, Bei Meirong, Cha Zhengzao, Luo Wei, Lin Qinghuo. C/N Ratio: Effect on Composting of Mixtures of Chicken Manure and Bagasse in Tropical Areas [J]. Chinese Agricultural Science Bulletin, 2020, 36(21): 61-68.
[10]	. Study on Light Matrix Formula of Seedling Production [J]. Chinese Agricultural Science Bulletin, 2017, 33(34): 124-130.
[11]	. Effects of Composting Methods on Nitrogen Loss and Conservation [J]. Chinese Agricultural Science Bulletin, 2017, 33(16): 97-104.
[12]	Xie Wenjun,Wang Jishi,Jin Xiangxu,Zhang Yanpeng,Wu Lanfang and Ouyang Zhu. Effect of Sesbania cannabina Cultivation on Severe Salinity Soil Fertility Improvement [J]. Chinese Agricultural Science Bulletin, 2016, 32(6): 119-123.
[13]	. Microbial Community Dynamics During the Sludge Thermophilic Composting Process [J]. Chinese Agricultural Science Bulletin, 2015, 31(35): 164-171.
[14]	. The Application of Vegetable Waste Water-Loggedcompost on the Yield, Quality and Nitrogen Effects of the Rapeseed [J]. Chinese Agricultural Science Bulletin, 2011, 27(10): 224-229.
[15]	. The Effects of Microbial Strains on the Physical and Chemical Properties of Canola Meal Compost [J]. Chinese Agricultural Science Bulletin, 2011, 27(9): 201-205.