[1] Fan X-L (樊小林), Liu F (刘 芳), Liao Z-Y (廖照源), et al. The status and outlook for the study of controlled-release fertilizers in China. Plant Nutrition and Fertilizer Science (植物营养与肥料学报), 2009, 15(2): 463-473 (in Chinese) [2] Li M (李 敏), Guo X-S (郭熙盛), Ye S-Y (叶舒娅), et al. Effects of sulfur- and polymer-coated controlled release urea on yield, photosynthetic characteristics and nitrogen fertilizer efficiency of rice. Plant Nutrition and Fertilizer Science (植物营养与肥料学报), 2013, 19(4): 808-815 (in Chinese) [3] Gu H-J (古慧娟), Shi Y-L (石元亮), Yu G-J (于阁杰), et al. Research advances on the use efficiency of slow/controlled release fertilizer. Chinese Journal of Soil Science (土壤通报), 2011, 42(1): 220-224 (in Chinese) [4] Dong Y (董 燕), Wang Z-Y (王正银). Effects of slow/controlled release compound fertilizers on the forms of soil nitrogen. Acta Ecologica Sinica (生态学报), 2010, 30(24): 6707-6714 (in Chinese) [5] Waldrop MP, Balser TC, Firestone MK. Linking microbial community composition to function in a tropical soil. Soil Biology & Biochemistry, 2000, 32: 1837-1846 [6] Wan Z-M (万忠梅), Song C-C (宋长春). Advance on response of soil enzyme activity to ecological environment. Chinese Journal of Soil Science (土壤通报), 2009, 40(4): 951-956 (in Chinese) [7] Li N (李 娜), Ning T-Y (宁堂原), Cui Z-Y (崔正勇), et al. Effects of polycoated urea and subsoiling on nitrogen transformation and utilization in a maize field. Acta Ecologica Sinica (生态学报), 2015, 35(18): 6129-6137 (in Chinese) [8] Ma Z-W (马志雯), Gao X-P (高霄鹏), Gui D-W (桂东伟), et al. Effects of enhanced efficiency nitrogen fertilizers on nitrous oxide emissions from cotton field under plastic mulched drip irrigation in Xinjiang, China. Chinese Journal of Applied Ecology (应用生态学报), 2016, 27(12): 3961-3968 (in Chinese) [9] Zhang X (张 宣), Ding J-S (丁俊山), Liu Y-L (刘彦伶), et al. Effects of mechanical transplanting of rice with controlled release bulk blending fertilizer on rice yield and soil fertility. Chinese Journal of Applied Ecology (应用生态学报), 2014, 25(3): 783-789 (in Chinese) [10] Li D-P (李东坡), Wu Z-J (武志杰), Chen L-J (陈利军), et al. Soil biological activities at maize seedling stage under application of slow/controlled release nitrogen fertilizers. Chinese Journal of Applied Ecology (应用生态学报), 2006, 17(6): 1055-1059 (in Chinese) [11] Wang Y (王 寅), Feng G-Z (冯国忠), Zhang T-S (张天山), et al. Effects of mixed application of controlled-release N fertilizer and common urea on grain yield, N uptake and soil N balance in continuous spring maize production. Scientia Agricultura Sinica (中国农业科学), 2016, 49(3): 518-528 (in Chinese) [12] Guo JM, Wang YH, Blaylock AD. Mixture of controlled release and normal urea to optimize nitrogen management for high-yielding (>15 Mg·hm-2) maize. Field Crops Research, 2017, 204: 23-30 [13] Zhang G-L (张甘霖), Gong Z-T (龚子同). Soil Survey Laboratory Methods. Beijing: Science Press, 2012 (in Chinese) [14] Huang Y-M (黄懿梅), An S-S (安韶山), Qu D (曲东), et al. Comparison between two methods of determination soil microbial biomass nitrogen. Plant Nutrition and Fertilizer Science (植物营养与肥料学报), 2005, 11(6): 830-835 (in Chinese) [15] Guan S-Y (关松荫). Soil Enzyme and Research Me-thod. Beijing: China Agriculture Press, 1986 (in Chinese) [16] Ladd JN. Properties of proteolytic enzymes extracted from soil. Soil Biology and Biochemistry, 1972, 4: 227-237 [17] Kandeler E, Eder G, Sobotik M. Microbial biomass, N mineralization and the activities of various enzymes in relation to nitrate leaching and root distribution in a slurry- amended grassland. Biology and Fertility of Soils, 1994, 18: 7-12 [18] Tian X-F (田晓飞), Li C-L (李成亮), Zhang M (张民), et al. Effects of controlled-release nitrogen fertilizer on yields and soil nitrogen in onion-cotton intercropping system. Journal of Agro-Environment Science (农业环境科学学报), 2015, 34(4): 745-752 (in Chinese) [19] Ding J-N (丁济娜), Li D-P (李东坡), Wu Z-J (武志杰), et al. Responses of soil physicochemical properties and biological activity to continuous application of slow/controlled releasing urea. Chinese Journal of Ecology (生态学杂志), 2014, 33(7): 1769-1778 (in Chinese) [20] Zhu Z-L (朱兆亮). Research on soil nitrogen in China. Acta Pedologica Sinica (土壤学报), 2008, 45(5): 778-783 (in Chinese) [21] Zhu Y (朱 焱), Liu K (刘 琨), Wang L-Y (王丽影), et al. Coupling model of EPIC-nitrogen2D and crop growth, soil water, nitrogen dynamics in winter wheat. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2016, 32(21): 141-151 (in Chinese) [22] Zheng Y-M (郑永美), Feng H (冯 昊), Wu Z-F (吴正峰), et al. Effect of nitrogen fertilizer regulation on soil nitrogen supplying characteristics and utilization efficiency of nitrogen in peanut. Chinese Journal of Oil Crop Sciences (中国油料作物学报), 2016, 38(4): 481-486 (in Chinese) [23] Zhao J-H (赵建红), Li Y (李 玥), Sun Y-J (孙永健), et al. Effects of irrigation and nitrogen management on nitrogen use efficiency and yield of hybrid rice cultivated in ditches under no-tillage. Plant Nutrition and Fertilizer Science (植物营养与肥料学报), 2016, 22(3): 609-617 (in Chinese) [24] Zhang J-S (张敬昇), Li B (李 冰), Wang C-Q (王昌全), et al. Effects of controlled release blend bulk urea on growth characteristics and yield of wheat-rice. Acta Agriculturae Zhejiangensis (浙江农业学报), 2016, 28(8): 1287-1296 (in Chinese) [25] Zhang C-X (张成霞), Nan Z-B (南志标). Research progress of soil microbial biomass in China. Pratacultu-ral Science (草业科学), 2016, 27(6): 50-57 (in Chinese) [26] Luo L-F (罗兰芳), Nie J (聂 军), Zheng S-X (郑圣先), et al. Effect of controlled release nitrogen ferti-lizer on soil microbial biomass carbon and nitrogen contents. Acta Ecologica Sinica (生态学报), 2010, 30(11): 2925-2932 (in Chinese) [27] Du Y (杜 永), Liu H (刘 辉), Yang C (杨 成), et al. Characteristics of nutrient absorption in super-high-yielding mid-season and late-maturity japonica rice. Acta Agronomica Sinica (作物学报), 2007, 33(2): 208-215 (in Chinese) [28] Li H-W (李鸿伟), Yang K-P (杨凯鹏), Cao Z-Q (曹转勤), et al. Characteristics of nutrient uptake and accumulation in wheat and rice with continuous cropping under super-high-yielding cultivation. Acta Agronomica Sinica (作物学报), 2013, 39(3): 464-477 (in Chinese) [29] Dou S (窦 森). Soil Organic Matters. Beijing: Scien-ce Press, 2010 (in Chinese) [30] Shen JP, Zhang LM, Zhu YG, et al. Abundance and composition of ammonia-oxidizing bacteria and ammonia-oxidizing archaea communities of alkaline sandy loam. Environmental Microbiology, 2008, 10: 1601-1611 [31] Dong Y-H (董怡华), Zhang Y-G (张玉革), Sun S-L (孙树林), et al. Soil ammonia volatilization under different urea combined fertilization treatments. Chinese Journal of Ecology (生态学杂志), 2014, 33(11): 2943-2949 (in Chinese) [32] Zhou L-P (周丽平), Yang L-P (杨俐苹), Bai Y-L (白由路), et al. Comparison of several slow-released nitrogen fertilizers in ammonia volatilization and nitrogen utilization in summer maize field. Plant Nutrition and Fertilizer Science (植物营养与肥料学报), 2016, 22(6): 1449-1457 (in Chinese) [33] Xu JB, Feng YZ, Wang YM, et al. Soil microbial mechanisms of Stevia rebaudiana (Bertoni) residue returning increasing crop yield and quality. Biology and Fertility of Soils, 2013, 49: 839-846 [34] Turner DA, Edis RB, Chen D, et al. Ammonia volatilization from nitrogen fertilizers applied to cereals in two cropping areas of southern Australia.Nutrient Cycling in Agroecosystems, 2012, 93: 113-126 [35] Wang J, Wang DJ, Zhang G, et al. Effect of wheat straw application on ammonia volatilization from urea applied to a paddy field. Nutrient Cycling in Agroecosystems, 2012, 94: 73-84 [36] Xin Z-Y (辛志远), Wang C-Q (王昌全), Shen Y-Z (申亚珍), et al. Effect of single application of water- borne polymer coated controlled-release blend fertilizer on nitrogen utilization in rice. Journal of Agro-Environment Science (农业环境科学学报), 2016, 35(1): 109-114 (in Chinese) [37] Kamimura Y, Hayano K. Properties of protease extracted from tea field soil. Biology and Fertility of Soils, 2000, 30: 351-355 [38] Zhang W (张 威), Zhang M (张 明), Zhang X-D (张旭东), et al. A review on soil protease and arylamidase. Chinese Journal of Soil Science (土壤通报), 2008, 39(6): 1468-1474 (in Chinese) [39] Wang X-C (王小纯), Li G-F (李高飞), An S (安 帅), et al. Effects of nitrogen forms on rhizosphere microorganisms and soil enzyme activity for nitrogen transform of wheat cultivar during elongation and grain filling stage. Journal of Soil and Water Conservation (水土保持学报), 2010, 24(6): 204-207, 245 (in Chinese) [40] Liu S-Q (刘世全), Cao H-X (曹红霞), Zhang J-Q (张建青), et al. Effects of different water and nitrogen supplies on root growth, yield and water and nitrogen use efficiency of small pumpkin. Scientia Agricultura Sinica (中国农业科学), 2014, 47(7): 1362-1371 (in Chinese) [41] Wick B, Kühne RF, Vielhauer K, et al. Temporal variability of selected soil microbiological and biochemical indicators under different soil quality conditions in south-western Nigeria. Biology and Fertility of Soils, 2002, 35: 155-167 [42] Abdelmagid HM, Tabatabai MA. Nitrate reductase activity of soils. Soil Biology and Biochemistry, 1987, 19: 421-427 [43] Fu MH, Tabatabai MA. Nitrate reductase activity in soils: Effects of trace elements. Soil Biology and Biochemistry, 1989, 21: 943-946 [44] Chen L-J (陈利军), Wu Z-J (武志杰), Jiang Y (姜勇), et al. Response of N transformation related soil enzyme activities to inhibitor applications. Chinese Journal of Applied Ecology (应用生态学报), 2002, 13(9): 1099-1103 (in Chinese) [45] Wang S-P (王苏平), Hui J-C (辉建春), Lin L-J (林立金), et al. Effects of fertilizer system on soil denitrification enzyme activity at different growth stages of maize in hilly regions of Middle Sichuan. Research of Soil and Water Conservation (水土保持研究), 2012, 19(3): 274-283 (in Chinese) [46] Zeng Z-B (曾泽彬), Zhu B (朱 波), Zhu X-M (朱雪梅), et al. Effects of fertilization on N2O emission and denitrification in purple soil during summer maize season in the Sichuan basin. Acta Pedologica Sinica (土壤学报), 2013, 50(1): 130-137 (in Chinese) |