[1]Lal R. Carbon management in agricultural soils. Mitigation and Adaptation Strategies for Global Change,2007, 12(2): 303-322.[2]黄耀, 孙文娟. 近20年来中国大陆农田表土有机碳含量的变化趋势. 科学通报, 2006, 51(7): 750-763.Huang Y, Sun W J. Changes of organic carbon content in topsoil of cropland in recent 20 years in the mainland of China. Chinese Science Bulletin, 2006, 51(7): 750-763. (in Chinese)[3]杨景成, 韩兴国, 黄建辉. 土壤有机质对农田管理措施的动态响应. 生态学报, 2003, 23(4): 787-796. Yang J C, Han X G, Huang J H. The dynamics of soil organic matter in cropland responding to agricultural practices. Acta Ecologica Sinica, 2003, 23(4): 787-796. (in Chinese)[4]Guo J H, Liu X J, Zhang Y, Shen J L, Han W X, Zhang W F, Christie P, Goulding K W T, Vitousek P M, Zhang F S. Significant acidification in major Chinese croplands. Science, 2010, 327(5968): 1008-1010.[5]Ayoub A T. Fertilizers and the environment. Nutrient Cycling in Agroecosystems, 1999, 55(2): 117-121.[6]Shauna M, Robert G, Richard B. Effects of increased atmospheric CO2, temperature, and soil N availability on root exudation of dissolved organic carbon by a N-fixing tree (Robinia pseudoacacia L). Plant and Soil, 2000, 222(1/2): 191-202.[7]Sharrow S H, Ismail S. Carbon and nitrogen storage in agroforests, tree plantations, and pastures in western Oregon, USA. Agroforestry Systems, 2004, 60(2): 123-130.[8]李小涵, 王朝辉, 郝明德 李生秀. 黄土高原旱地不同种植模式土壤碳特征评价. 农业工程学报, 2010, 26(S2): 325-330.Li X H , Wang Z H, Hao M D, Li S X. Evaluation on soil carbon contents under different cropping systems on dryland in Loess Plateau. Transactions of the CSAE, 2010, 26(S2): 325-330. (in Chinese)[9]郝明德, 王旭刚, 党廷辉, 李丽霞, 高长青. 黄土高原旱地小麦多年定位施用化肥的产量效应分析. 作物学报, 2004, 30(11): 1108-1112.Hao M D, Wang X G, Dang T H, Li L X, Gao C Q. Analysis of Long-term Fertilization Effect on Yield of Wheat in Dry - land on Loess Plateau. Acta Agronomica Sinica, 2004, 30(11): 1108-1112. (in Chinese)[10]郭胜利, 高会议, 党廷辉. 施氮水平对黄土旱塬区小麦产量和土壤有机碳、氮的影响. 植物营养与肥料学报, 2009, 15(4): 808-814.Guo S L, Gao H Y, Dang T H. Effects of nitrogen application rates on grain yield, soil organic carbon and nitrogen under a rainfed cropping system in the loess tablelands of China. Plant Nutriti on and Fertilizer Science, 2009, 15(4): 808-814. (in Chinese)[11]Haynes R J. Labile organic matter fractions as central components of the quality of agricultural soils: an overview. Advances in Agronomy, 2005, 85: 222-269. (in Chinese)[12]谢驾阳, 王朝辉, 李生秀. 施氮对不同栽培模式旱地土壤有机碳氮和供氮能力的影响. 西北农林科技大学学报: 自然科学版, 2009, 37(11): 187-192, 200.Xie J Y, Wang Z H, Li S X. Effects of nitrogen fertilizer application on soil organic carbon and nitrogen accumulation and mineralization under different cultivations in northwest dryland. Journal of Northwest A &F University: Natural Science Edition, 2009, 37(11): 187-192, 200. (in Chinese)[13]王玲莉, 娄翼来, 石元亮, 韩晓日. 长期施肥对土壤活性有机碳指标的影响. 土壤通报, 2008, 39(4): 752-755.Wang L L, Lou Y L, Shi Y L, Han X R. Long-term fertilization on indicators of soil active organic carbon. Chinese Journal of Soil Science, 2008, 39(4): 752-755. (in Chinese)[14]Bremer E, Janzen H H, Johnston A M. Sensitivity of total, light and mineralizable organic matter to management practices in a Lethbridge soil. Canadian Journal of Soil Science, 1994, 74 (2): 131-138.[15]Hassink J, Whitmore A P, Kubát J. Size and density fractionation of soil organic matter and the physical capacity of soils to protect organic matter. Developments in Crop Science, 1997, 25: 245-255.[16]Campbell C A, Selles F, Lafond G P, Biederbeck V O, Zentner R P. Tillage-fertilizer changes: effect on some soil quality attributes under long-term crop rotations in a thin Black Chernozem. Canadian Journal of Soil Science, 2001, 81(2): 157-165.[17]潘根兴. 中国土壤有机碳和无机碳库量研究. 科技通报, 1999, 15(5): 330-332.Pan G X . Study on Carbon Reservoir in Soils of China. Bulletin of Science and Technology, 1999, 15(5): 330-332. (in Chinese)[18]Li G T, Zhang C L, Zhang H J. Soil inorganic carbon pool changed in long-term fertilization experiments in north China plain. Proceedings of the 19th World Congress of Soil Science: Soil solutions for a changing world, Brisbane, Australia, 1-6 August 2010. International Union of Soil Sciences (IUSS), c/o Institut für Bodenforschung, Universität für Bodenkultur. [19]马元喜. 不同土壤对小麦根系生长动态的研究. 作物学报, 1987, 13(1): 37-44.Ma Y X. A study on growing dynamic of wheat root system in various soils. Acta Agronomica Sinica, 1987, 13(1): 37-44. (in Chinese)[20]邱新强, 高阳, 黄玲, 李新强, 孙景生, 段爱旺. 冬小麦根系形态性状及分布. 中国农业科学, 2013, 46(11): 2211-2219.Qiu X Q, Gao Y, Huang L, Li X Q, Sun J Sh , Duan Ai-Wang. Temporal and spatial distribution of root morphology of winter wheat. Scientia Agricultura Sinica, 2013, 46(11): 2211-2219. (in Chinese)[21]孟红旗, 刘景, 徐明岗, 吕家珑, 周宝库, 彭畅, 石孝君, 黄庆海. 长期施肥下我国典型农田耕层土壤pH演变. 土壤学报, 2013, 50(6): 1109-1116.Meng H Q, Liu J, Xu M G, Lü J L, Zhou B K, Peng Ch, Shi X J, Huang Q H. Evolution of pH in topsoils of typical Chinese croplands under long-term fertilization. Acta Pedologica Sinica, 2013, 50(6): 1109-1116. (in Chinese) |