曹喜涛, 黄为一, 常志州, 等. 2004. 鸡粪堆肥中氮转化微生物变化特征的初步研究. 土壤肥料, 40(4):40-43.
(Cao X T,Huang W Y,Chang Z Z. 2004. Nitrogen transformations and the successions of microbial community during chicken manure composting.Soils and Fertilizers,40(4): 40-43.[in Chinese])
陈能汪, 洪华生, 张珞平. 2008. 九龙江流域大气氮湿沉降研究. 环境科学,29 (1): 38-46.
(Chen N W,Hong H S,Zhang G P.2008.Wet deposition of atmospheric nitrogen in Jiulong River watershed. Environmental Science,29(1):38-46.[in Chinese])
侯海军, 秦红灵, 陈春兰, 等. 2014. 土壤氮循环微生物过程的分子生态学研究进展. 农业现代化研究, 5(35): 0-15.
(Hou H J, Qin H L, Chen C L. Research progress of the molecular ecology on microbiological processes in soil nitrogen cycling.Research of Agricultural Modernization,5(35): 0-15.[in Chinese])
金志刚, 屈计宁, 何群彪. 1998. 硝化细菌富集技术分析及方法研究. 上海环境科学, 17(8): 16-19.
(Jin Z G,Qu J N,He Q B.1998.Study on analytical and methods of nitrifying bacteria enrichment technology. Shanghai Environmental Science,17(08): 16-19.[in Chinese])
李 谷, 吴振斌, 侯燕松, 等. 2006.养殖水体 氮的生物转化及其相关微生物研究进展.中国生态农业学报, 14(1): 11-15.
(Li G, Wu Z B, Hou Y S. 2006. Nitrogen biotransformation and its relative microorganism in aquaculture waters.Chinese Journal of Eco-Agriculture,14(1): 11-15.[in Chinese])
李振高, 俞 慎, 吴胜春, 等.2004. 不同氮肥对水稻根圈微生物生物量及硝化-反硝化细菌的影响. 土壤,35(6): 490-494.
(Li Z G,Yu S,Wu S C.2004. Effects of different nitrogen fertilizers on the microbial biomass and the population of nitrifying-denitrifying bacteria in the rice rhizosphere. Soils,35(6):490-494.[in Chinese])
王体健, 刘 倩, 赵 恒, 等. 2008. 江西红壤地区农田生态系统大气氮沉降通量的研究. 土壤学报,45(02):280-287.
(Wang T J,Liu Q,Zhang H,et al.2008. Atmospheric nitrogen deposition in agrecosystem in red soil region of Jiangxi Province. Acta Pedologica Sinica,45(02): 280-287.[in Chinese])
吴云汉. 1998. 微生物学实验技术. 北京: 气象出版社.
(Wu Y H.1998.Laboratory Manual of Microbiology.Beijing:China Meteorological Press.[in Chinese])
薛璟花,莫江明,李 炯,等. 2007.土壤微生物数量对模拟氮沉降增加的早期响应. 广西植物,27(2): 174-179.
(Xue J H, Mo J M, Li J, et al.2007.The short term response of soil microorganism number to simulated nitrogen deposition.Guihaia, 27 (2): 174 - 179.[in Chinese])
袁颖红,樊后保,李辉信,等. 2012. 模拟氮沉降对杉木人工林土壤微生物的影响.林业科学,48(9): 8-14.
(Yuan Y H,Fan H B, Li H X,et al.2012.Effects of simulated nitrogen deposition on soil microorganism in a Chinese Fir plantation. Scientia Silvae Sinicae,48(09): 8-14.[in Chinese])
张 晶, 林先贵, 尹 睿. 2009. 参与土壤氮素循环的微生物功能基因多样性研究进展. 中国生态农业学报, 17(5): 1029-1034.
(Zhang J,Lin X G,Yin R.2009.Advances in functional gene diversity of microorganism in relation to soil nitrogen cycling.Chinese Journal of Eco-Agriculture,17(05): 1029-1034.[in Chinese])
Aber J D, Goodale C L, Ollinger S V, et al. 2003. Is nitrogen deposition altering the nitrogen status of northeastern forests? BioScience, 53(4): 375-389.
Avrahami S, Liesack W C.2003. Effects of temperature and fertilizer on activity and community structure of soil ammonia oxidizers. Environ Microb, 5(8): 691-705.
Bai Y, Wu J, Clark C M, et al. 2010. Tradeoffs and thresholds in the effects of nitrogen addition on biodiversity and ecosystem functioning: evidence from Inner Mongolia grasslands. Global Change Biology,16(1): 358-372.
Compton J E, Watruda L S, Porteousa L A, et al.2004. Response of soil microbial biomass and community composition to chronic nitrogen additions at Harvard forest.Forest Ecology and Management, 196(1):143 -158.
Deforest J L, Zaka D R, Pregitzerc K S, et al.2004. Atmospheric nitrate deposition and the microbial degradation of cellobiose and vanillinin in a northern hardwood forest.Soil Biology and Biochemistry, 36(6):965-971.
Frey S D, Knorr M, Parrent J L, et al.2004.Chronic nitrogen enrichment affects the structure and function of the soil microbial community in temperate hardwood and pine forests. Forest Ecol Manag,196(1): 159-171.
Gundersen P, Emmett B A, Kjnaas O J, et al.1998. Impact of nitrogen deposition on nitrogen cycling in forests: a synthesis of NITREX data. Forest Ecology and management, 101(1): 37-55.
Hayatsu M, Tago K, Saito M.2008. Various players in the nitrogen cycle: diversity and functions of the microorganisms involved in nitrification and denitrification. Soil Science and Plant Nutrition, 54(1): 33-45.
Horz H P, Barbrook A, Field C B, et al.2004.Ammonia-oxidizing bacteria respond to multifactorial global change. Proceedings of the National Academy of Sciences of the United States of America, 101(42): 15136-15141.
Jangid K, Williams M A, Franzluebbers A J, et al.2008. Relative impacts of land-use, management intensity and fertilization upon soil microbial community structure in agricultural systems. Soil Biology and Biochemistry, 40(11): 2843-2853.
Kowalchuk G A, Stephen J R.2001.Ammonia-oxidizing bacteria: a model for molecular microbial ecology.Annual Reviews in Microbiology, 55(1): 485-529.
Landi L, Valori F, Ascher J, et al.2006. Root exudate effects on the bacterial communities, CO2 evolution, nitrogen transformations and ATP content of rhizosphere and bulk soils.Soil Biology and Biochemistry,38(3): 509-516.
Li F, Liu M, Li Z, et al.2013. Changes in soil microbial biomass and functional diversity with a nitrogen gradient in soil columns. Applied Soil Ecology, 64: 1-6.
Magill A H, Aber J D, Currie W S, et al.2004. Ecosystem response to 15 years of chronic nitrogen additions at the Harvard Forest LTER, Massachusetts, USA. Forest Ecology and Management, 196(1): 7-28.
Tan X Y, Hurek T, Reinhold-Hurek B.2003. Effect of N-fertilization,plant genotype and environmental conditions on nifH gene pools in roots of rice. Environmental Microbiology, 5 (10): 1009-1015.
Venterea R T, Groffman P M, Verchot L V, et al.2004. Gross nitrogen process rates in temperate forest soils exhibiting symptoms of nitrogen saturation. Forest Ecology and Management, 196(1): 129-142.
Waldrop M P, Firestone M K. 2004. Altered utilization patterns of young and old soil C by microorganisms caused by temperature shifts and N additions. Biogeochemistry, 67(2): 235-248.
Zumft W G.1997.Cell biology and molecular basis of denitrification. Microbiology and Molecular Biology Reviews, 61(4): 533-616. |