[1]Lal R. Soil carbon sequestration impacts on global climate change and food security. Science, 2004, 304:1623-1627.
[2]Schlesinger W H, Andrews J A. Soil respiration and the global carbon cycle. Biochemistry, 2000, 48: 7-20.
[3]Smith P. Carbon sequestration in croplands: The potential in European and the global context. European Journal of Agronomy, 2004, 20: 229- 236.
[4]强学彩, 袁红莉, 高旺盛. 秸秆还田量对土壤 CO2释放和土壤微生物量的影响. 应用生态学报, 2004, 15(3): 469-472.
Qiang X C, Yuan H L, Gao W S . Effect of cropresidue incorporation on soil CO2 emission and soil microbial biomass. Chinese Journal of Applied Ecology, 2004, 15(3): 469-472. (in Chinese)
[5]Kemmitt S J, Lanyon C V, Waite I S, Wen Q, Addiscott T M, Bird N R A, O’Donnell A G, Brookes P C. Mineralization of native soil organic matter is not regulated by the size, activity or composition of the soil microbial biomass—a new perspective. Soil Biology and Biochemistry, 2008, 40: 61-73.
[6]West T O, Marland G. Net carbon flux from agricultural ecosystems: Methodology for full carbon cycle analyses. Environment Pollution, 2002, 116: 439-444.
[7]代静玉, 周江敏, 秦淑平. 几种有机物料分解过程中溶解性有机物质化学成分的变化. 土壤通报, 2004, 35(6): 724-727.
Dai J Y, Zhou J M, Qin S P. Dynamic changes of chemical composition of dissolved organic matter during decomposition of organic materials. Chinese Journal of Soil Science, 2004, 35(6): 724-727. (in Chinese)
[8]邹建文, 黄 耀, 宗良纲, 王跃思. 不同种类有机肥施用对稻田CH4和N2O排放的综合影响. 环境科学, 2003, 24(4):7-12.
Zou J W, Huang Y, Zong L G, Wang Y S. Integrated effect of incorporation with different organic manures on CH4 and N2O emissions from rice paddy. Environmental Science, 2003, 24(4): 7-12. (in Chinese)
[9]董玉红, 欧阳竹. 有机肥对农田土壤二氧化碳和甲烷通量的影响. 应用生态学报, 2005, 16 (7): 1303-1307.
Dong H Y, Ouyang Z. Effects of organic manures on CO2 and CH4 fluxes of farmland. Chinese Journal of Applied Ecology, 2005, 16(7): 1303-1307. (in Chinese)
[10]Galantini J, Rosell R. Long-term fertilization effects on soil organic matter quality and dynamics under different production systems in semiarid Pampean soils. Soil and Tillage Research, 2006, 87(1): 72-79.
[11]崔玉亭, 韩纯儒, 卢进登. 集约高产农田生态系统有机物分解及土壤呼吸动态研究. 应用生态学报, 1997, 8(1): 59-64.
Cui Y T, Han C R, Lu J D. Dynamics of organic material decomposition and soil respiration in intensive and high yield agroecosystem. Chinese Journal of Applied Ecology, 1997, 8(1): 59-64. (in Chinese)
[12]徐江兵, 何园球, 李成亮, 刘晓利, 姜灿烂. 不同施肥处理红壤生物活性有机碳变化及与有机碳组分的关系. 土壤, 2007, 39(4): 627-632.
Xu J B, He Y Q, Li C L, Liu X L, Jiang C L. Relationship between biologically active organic carbon pool and carbon fractions in upland soils different in fertilization. Soils, 2007, 39(4): 627-632. (in Chinese)
[13]胡荣桂. 氮肥对旱地土壤甲烷氧化能力的影响. 生态环境, 2004, 13(1): 74-77.
Hu R G. Effects of fertilization on the potential of methane oxidation in up land soil. Ecology and Environment, 2004, 13(1): 74-77. ( in Chinese)
[14]肖 玉, 谢高地, 鲁春霞, 丁贤忠, 吕 耀. 施肥对稻田生态系统气体调节功能及其价值的影响. 植物生态学报, 2005, 29(4): 577-583.
Xiao Y, Xie G D, Lu C X, Ding X Z, Lü Y. The impact of urea amendments on atmospheric gas regulation services in rice paddy ecosystems and their valuation. Acta Phytoecologica Sinica, 2005, 29(4): 577-583. ( in Chinese)
[15]Jiao Y, Huang Y, Zong L G, Zheng X H, Ronald L. Effects of copper concentration on methane emission from rice soils. Chemosphere, 2005, 58: 185-193.
[16]诸葛玉平, 张旭东, 刘 启. 长期施肥对黑土呼吸过程的影响. 土壤通报, 2005, 6(3): 391-394.
Zhuge Y P, Zhang X D, Liu Q. Effect of long-term fertilization on respiration process of mollisols. Chinese Journal of Soil Science, 2005, 6(3): 391-394. (in Chinese)
[17]鲍士旦. 土壤农化分析. 北京: 中国农业出版社, 2000: 30-34.
Bao S D. Soil and Agriculture Chemical Analysis. Beijing: China Agricultural Science Press, 2000: 30-34. (in Chinese)
[18]仇少君, 彭佩钦, 荣湘民, 刘 强, 唐 麒. 淹水培养条件下土壤微生物生物量碳、氮和可溶性有机碳、氮的动态. 应用生态学报, 2006, 17(11): 2052-2058.
Qiu S J, Peng P Q, Rong X M, Liu Q, Tang Q. Dynamics of soil microbial biomass and dissolved organic carbon and nitrogen under flooded condition. Chinese Journal of Applied Ecology, 2006, 17(11): 2052-2058. (in Chinese)
[19]Yan F, Schubert S, Mengel K.Soil pH increase due to biological decarboxylation of organic anions.Soil Biology and Biochemistry, 1996, 28(4/5): 617-624.
[20]文启孝. 土壤有机质研究法. 北京: 农业出版社,1984: 285-295.
Wen Q X. Soil Organic Matter Research. Beijing: Agricultural Science Press, 1984: 285-295. (in Chinese)
[21]戴万宏, 刘 军, 王益权, 赵 磊. 不同培肥措施下土壤CO2释放及其动力学研究. 植物营养与肥料学报, 2002, 8(3): 292-297.
Dai W H, Liu J, Wang Y Q, Zhao L. Study on CO2 emissions and its kinetics of soils with different fertilization systems. Plant Nutrition and Fertilizer Science, 2002, 8(3): 292-297. (in Chinese)
[22]李梦雅, 王伯仁, 徐明岗, 李桂花, 孙 楠, 张文菊. 长期施肥对红壤有机碳矿化及微生物活性的影响. 核农学报, 2009, 23(6): 1043-1049.
Li M Y, Wang B R, Xu M G, Li G H, Sun N, Zhang W J. Effect of long-term fertilization on mineralization of organic carbon and microbial activity in red soil. Journal of Nuclear Agricultural Science, 2009, 23(6): 1043-1049. (in Chinese)
[23]潘志勇, 吴文良, 牟子平, 王晓凤. 不同秸秆还田模式和施氮量对农田CO2排放的影响. 中国土壤肥料, 2006(1): 14-16.
Pan Z Y, Wu W L, Mou Z P, Wang X F. Effect of straw-return and nitrogen fertilizer application on the CO2 emission in farmland. Soil and Fertilizer Science in China, 2006(1): 14-16. ( in Chinese)
[24]Liang B C, Mackenzie A F, Schnitzer M, Monreal C M, Voroney P R, Beyaert R P. Management-induced change in labile soil organic matter under continuous corn in eastern Canadian soils.Biology and Fertility of Soils, 1998, 26: 88-94.
[25]周志田, 成升魁, 刘允芬, 李家永. 中国亚热带红壤丘陵区不同土地利用方式下土壤CO2排放规律初探. 资源科学, 2002,24(2): 83-87.
Zhou Z T, Cheng S K, Liu Y F, Li J Y. CO2 emission of soil under different land use types in China-preliminary exploration. Resources Science, 2002, 24(2): 83-87. (in Chinese)
[26]陈庆强, 孙彦敏, 沈承德, 彭少麟, 易惟熙, 姜漫涛, 李志安. 华南亚热带山地土壤有机质更新特征定量研究. 地理科学, 2002, 22(2): 196-201.
Chen Q Q, Sun Y M, Shen C D, Peng S L, Yi W X, Jiang M T, Li Z A.Quantitative study on organic matter turnover characteristics of mountainous soil profiles in the subtropical area, south China. Scientia Geographica Sinica, 2002, 22(2): 196-201.(in Chinese) |