[1] Zhao B-Q (赵秉强), Lin Z-A (林治安), Liu Z-B (刘增兵). The future developing route for China’s fertilizer industry: Increasing the use efficiency and decreasing the consumption of fertilizer. Phosphate & Compound Fertilizer (磷肥与复肥), 2008, 23(6): 1-4 (in Chinese) [2] Cui ZL, Chen XP, Li JL, et al. Effect of N fertilization on grain yield of winter wheat and apparent N losses. Pedosphere, 2006, 16: 806-812 [3] Cai Z-C (蔡祖聪), Huang X-Q (黄新琦). Soil-borne pathogens should not be ignored by soil science. Acta Pedologica Sinica (土壤学报), 2016, 53(2): 305-310 (in Chinese) [4] Hao X-Y (郝小雨), Zhou B-K (周宝库), Ma X-Z (马星竹), et al. Characteristics of crop yield and nut-rient balance under different long-term fertilization practices in black soil. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2015, 31(16): 178-185 (in Chinese) [5] Pan G, Zhou P, Li Z, et al. Combined inorganic/orga-nic fertilization enhances N efficiency and increases rice productivity through organic carbon accumulation in a rice paddy from the Tai Lake region, China. Agriculture, Ecosystems & Environment, 2009, 131: 274-280 [6] Li Z, Liu M, Wu X, et al. Effects of long-term chemical fertilization and organic amendments on dynamics of soil organic C and total N in paddy soil derived from barren land in subtropical China. Soil & Tillage Research, 2010, 106: 268-274 [7] Li J (李 婕), Yang X-Y (杨学云), Sun B-H (孙本华), et al. Effects of soil management practices on stability and distribution of aggregates in Lou soil. Journal of Plant Nutrition and Fertilizer (植物营养与肥料学报), 2014, 20(2): 346-354 (in Chinese) [8] Di J-Y (邸佳颖), Liu X-F (刘小粉), Du Z-L (杜章留), et al. Influences of long-term organic and che-mical fertilization on soil aggregation and associated or-ganic carbon fractions in a red paddy soil. Chinese Journal of Eco-Agriculture (中国生态农业学报), 2014, 22(10): 1129-1138 (in Chinese) [9] Pan G-X (潘根兴), Lu H-F (陆海飞), Li L-Q (李恋卿), et al. Soil carbon sequestration with bioactivity: A new emerging frontier for sustainable soil management. Advances in Earth Science (地球科学进展), 2015, 30(8): 940-951 (in Chinese) [10] Nannipieri P, Kandeler E, Ruggiero P. Enzyme activities and microbiological and biochemical processes in soil∥ Burns RG, Dick RP, eds. Enzymes in the Environment. New York: Marcel Dekker Inc, 2002: 1-34 [11] Bucher VC, Pointing SB, Hyde KD, et al. Production of wood decay enzymes, loss of mass and ling in solubilization in wood by diverse fresh water fungi. Microbial Eco-logy, 2004, 48: 331-337 [12] Tisdall JM, Oades JM. Organic matter and water-stable aggregates in soils. Journal of Soil Science, 1982, 33: 141-163 [13] Zang Y-F (臧逸飞), Hao M-D (郝明德), Zhang L-Q (张丽琼), et al. Effects of wheat cultivation and fertilization on soil microbial biomass carbon, soil microbial biomass nitrogen and soil basal respiration in 26 years. Acta Ecologica Sinica (生态学报), 2015, 35(5): 1445-1451 (in Chinese) [14] Yang XM, Drury CF, Reynolds DW, et al. Impacts of long-term and recently imposed tillage practices on the vertical distribution of soil organic carbon. Soil & Tillage Research, 2008, 100: 120-124 [15] Lai B (赖 波), Dong J-H (董巨河), Shan N-N (单娜娜), et al. Regional differences and distribution of organic fertilizer source in Xinjiang. Xinjiang Agricultural Sciences (新疆农业科学), 2012, 49(4): 625-630 (in Chinese) [16] Elliott ET. Aggregate structure and carbon, nitrogen and phosphorus in native and cultivated soils. Soil Science Society of America Journal, 1986, 50: 627-633 [17] Yang XM, Wander MM. Temporal changes in dry aggregate size and stability: Tillage and crop effects on a silty loam Mollisol in Illinois. Soil & Tillage Research, 1998, 49: 173-183 [18] Li Z-G (李振高), Luo Y-M (骆永明), Teng Y (滕应). Research Method of Soil and Environmental Microbe. Beijing: Science Press, 2008 (in Chinese) [19] Bao S-D (鲍士旦). Soil and Agricultural Chemistry Analysis. Beijing: China Agriculture Press, 2000 (in Chinese) [20] Lu R-K (鲁如坤). Soil and Agricultural Chemistry Analysis Method. Beijing: China Agricultural Science and Technology Press, 1999 (in Chinese) [21] Zhang P (张 鹏), Jia Z-K (贾志宽), Wang W (王维), et al. Effects of straw returning on characteristics of soil aggregates in semi-arid areas in southern Ningxia of China. Scientia Agricultura Sinica (中国农业科学), 2012, 45(8): 1513-1520 (in Chinese) [22] Liang Y (梁 尧), Yuan Y-R (苑亚茹), Han X-Z (韩晓增), et al. Distribution of organic carbon and humic acids in aggregates of Mollisol as affected by amendments with different rates of organic manure plus mineral fertilizer. Journal of Plant Nutrition and Fertilizer (植物营养与肥料学报), 2016, 22(6): 1586-1594 (in Chinese) [23] Chen Y, Zhang YD, He HB, et al. Carbon and nitrogen pools in different aggregates of a Chinese Mollisol as influenced by long-term fertilization. Journal of Soils and Sediments, 2010, 10: 1018-1026 [24] Six J, Feller C, Denef K, et al. Soil organic matter, biota and aggregation in temperate and tropical soils: Effects of no-tillage. Agronomie, 2002, 22: 755-775 [25] Liu M-Q (刘满强), Hu F (胡 锋), Chen X-Y (陈小云). A review on mechanisms of soil organic carbon stabilization. Acta Ecologica Sinica (生态学报), 2007, 27(6): 2642-2650 (in Chinese) [26] Fan M-Z (范淼珍), Yin C (尹 昌), Fan F-L (范分良), et al. Effects of different long-term fertilization on the activities of enzymes related to carbon, nitrogen, and phosphorus cycles in a red soil. Chinese Journal of Applied Ecology (应用生态学报), 2015, 26(3): 833-838 (in Chinese) |