李 天, 杨路华, 高惠嫣, 等. 河北平原区农田土壤硝态氮分布规律及影响因素分析[J]. 节水灌溉, 2013, 7:30-33. LI Tian, YANG Lu-hua, GAO Hui-yan, et al. Analysis of Hebei plain soil nitrate nitrogen distribution and influencing factors[J]. Water Saving Irrigation, 2013, 7:30-33.
[2]
Zhang Z Y, Kong L L, Lei Z. Fate characteristics of nitrogen in runoff from a small agricultural watershed on the south of Huaihe River in China[J]. Environ Earth Sci, 2011, 66(3):835-848.
[3]
董娴娴, 刘新宇, 巨晓棠, 等. 潮褐土冬小麦-夏玉米轮作体系氮肥后效及去向研究[J]. 中国农业科学, 2012, 45(11):2209-2216. DONG Xian-xian, LIU Xin-yu, JU Xiao-tang, et al. Fate and residual effect of fertilizer nitrogen under winter wheat-summer maize rotation in meadow cinnamon soils[J]. Scientia Agricultura Sinica, 2012, 45(11):2209-2216.
[4]
潘家荣, 巨晓棠, 刘学军, 等. 水氮优化条件下在华北平原冬小麦/夏玉米轮作中化肥氮的去向[J]. 核农学报, 2009, 23(2):334-340. PAN Jia-rong, JU Xiao-tang, LIU Xue-jun, et al. Fate of fertilizer nitrogen for winter wheat/summer maize rotation in North China Plain under optimization of irrigation and fertilization[J]. Journal of Nuclear Agricultural Sciences, 2009, 23(2):334-340.
[5]
Ju X T, Liu X J, Zhang F S, et al. Nitrogen fertilization soil nitrate accumulation and policy recommendations in several agricultural regions of China[J]. Ambio, 2004, 33(6):305-330.
[6]
赵 亮. RZWQM模型模拟夏玉米生长条件下土壤水分及氮素分布研究[J]. 节水灌溉, 2013, 9:30-39. ZHAO Liang. RZWQM model to simulate the growth of summer maize under the conditions of soil water and nitrogen distribution study[J]. Water Saving Irrigation, 2013, 9:30-39.
[7]
串丽敏, 赵同科, 安志装, 等. 土壤硝态氮淋溶及氮素利用研究进展[J]. 中国农学通报, 2010, 26(11):200-205. CHUAN Li-min, ZHAO Tong-ke, AN Zhi-zhuang, et al. Research advancement in nitrate leaching and nitrogen use in soils[J]. Chinese Agricultural Science Bulletin, 2010, 26(11):200-205.
[8]
Knisel W G, Turtola E. Gleams model application on a heavy clay soil in Finland[J]. Agricultural Water Management, 2000, 43(3):285-309.
[9]
Farida D, Javier B, Ahmed S. SWAT application in intensive irrigation systems:Model modification, calibration and validation[J]. Journal of Hydrology, 2012, 470-471(12):227-238.
[10]
Lam Q D, Schmalz B, Fohrer N. Modeling point and diffuse source pollution of nitrate in a rural lowland catchment using the SWAT model[J]. Agricultural Water Management, 2010, 97(2):317-325.
[11]
李发东, 宋 帅. 陆地生态系统水体中硝酸盐行为过程模拟原理、进展及存在问题[J]. 南水北调与水利科技, 2013, 11(2):52-60. LI Fa-dong, SONG Shuai. Review of Process-based Models of nitrate fate and their developments and limitations in terrestrial ecosystems[J]. South-North Water Transfers and Water Science and Technology, 2013, 11(2):52-60.
[12]
Han J G, Li Z B, Li P, et al. Nitrogen and phosphorous concentrations in runoff from a purple soil in an agricultural watershed[J]. Agricultural Water Management, 2010, 97(5):757-762.
[13]
Ma L, Hoogenboom G, Ahuja L R, et al. Evaluation of the RZWQM-CERES-Maize hybrid model for maize production[J]. Agric Syst, 2006, 87(3):274-295.
[14]
Van der Laan M, Annandalea J G, Bristow K L. Modelling nitrogen leaching:Are we getting the right answer for the right reason?[J]. Agricultural Water Management, 2014, 133:74-80.
[15]
王 风, 张克强, 黄治平, 等. RZWQM模型介绍及其应用进展[J]. 农业系统科学与综合研究, 2008, 24(4):501-504. WANG Feng, ZHANG Ke-qiang, HUANG Zhi-ping, et al. Introduction and application progress of the root zone water quality model(RZWQM)[J]. System Sciences and Comprehensive Studies in Agriculture, 2008, 24(4):501-504.
[16]
Cameira M R, Fernando R M, Ahuja L R, et al. Using RZWQM to simulate the fate of nitrogen in field soil-crop environment in the Mediterranean region[J]. Agricultural Water Management, 2007, 90(1):121-136.
[17]
Wang X P, Huang G H. Evaluation on the irrigation and fertilization management practices under the application of treated sewage water in Beijing, China[J]. Agricultural Water Management, 2008, 95(9):1011-1027.
[18]
Ma L, Malone R W, Jaynes D B, et al. Simulated effects of nitrogen management and soil microbes on soil nitrogen balance and crop production[J]. Soil Sci Soc Am J, 2008, 72:1594-1603.
[19]
Fang Q, Ma L, Yu Q, et al. Irrigation strategies to improve the water use efficiency of wheat-maize double cropping systems in China[J]. Agricultural Water Management, 2010, 97(18):1165-1174.
[20]
Fang Q, Ma L, Yu Q, et al. Modeling nitrogen and water management effects in a wheat-maize double-cropping system[J]. Journal of Environmental Quality, 2008, 37(6):2232-2242.
[21]
Cameira M R, Fernando R M, Ahuja L R, et al. Simulating the fate of water in field soil-crop environment[J]. Journal of Hydrology, 2005, 315(1-4):1-24.
[22]
He J Q, Dukes M D, Jones J W, et al. Identifying irrigation and nitrogen best management practices for sweet corn production on sandy soils using CERES-Maize model[J]. Agricultural Water Management, 2012, 109:61-70.
[23]
Fang Q X, Ma L, Green T R, et al. Water resources and water use efficiency in the North China Plain:current status and agronomic management options[J]. Agricultural Water Management, 2010, 97(8):1102-1116.
[24]
Hanson J D, Rojas K W, Shaffer M J. Calibrating the root zone water quality model[J]. Agron J, 1999, 91(2):171-177.
[25]
Legates D R, Mc Cabe G J. Evaluating the use of “goodness-offit” measures in hydrologic and hydroclimate model validation[J]. Water Resour Res, 1999, 35(1):233-241.
[26]
王秀斌, 周 卫. 优化施肥条件下华北冬小麦/夏玉米轮作体系的土壤氨挥发[J]. 植物营养与肥料学报, 2009, 15(2):344-351. WANG Xiu-bin, ZHOU Wei. Effect of optimized nitrogen application on ammonia volatilization from soil in winter wheat-summer corn rotation system in Northern China[J]. Plant Nutrition and Fertilizer Science, 2009, 15(2):344-351.
[27]
马银丽, 吉艳芝. 施氮水平对小麦-玉米轮作体系氨挥发与氧化亚氮排放的影响[J]. 生态环境学报, 2012, 21(2):225-230. MA Yin-li, JI Yan-zhi. Effects of N fertilization rates on the NH3 volatilization and N2O Emissions from the wheat-maize rotation system in North China Plain[J]. Ecology and Environmental Sciences, 2012, 21(2):225-230.
[28]
Niu L A, Hao J M, Zhang B Z, et al. Influences of long-term fertilizer and tillage management on soil fertility of the North China Plain[J]. Pedosphere, 2011, 21(6):813-820.
[29]
Hu C, Saseendran S A, Green T R, et al. Evaluating nitrogen and water management in a double-cropping system using RZWQM[J]. Vadose Zone Journal, 2006, 5:493-505.
[30]
Sara Esmaeili, Neil R Thomson, Bryan A Tolson, et al. Quantitative global sensitivity analysis of the RZWQM to warrant a robust and effective calibration[J]. Journal of Hydrology, 2014, 511:567-579.
[31]
郭子鹏, 任希文, 杨路华, 等. 河北平原区农田硝态氮分布规律研究[J]. 河北农业大学学报, 2013, 36(1):37-40. GUO Zi-peng, REN Xi-wen, YANG Lu-hua, et al. Experimental study on nitrate nitrogen distribution characteristics in the Hebei Plain[J]. Journal of Agricultural University of Hebei, 2013, 36(1):37-40.
[32]
张玉铭, 张佳宝, 胡春胜, 等. 水肥耦合对华北高产农区小麦-玉米产量和土壤硝态氮淋失风险的影响[J]. 中国生态农业学报, 2011, 19(3):532-539. ZHANG Yu-ming, ZHANG Jia-bao, HU Chun-sheng, et al. Effect of fertilization and irrigation on wheat-maize yield and soil nitrate nitrogen leaching in high agricultural yield region in North China Plain[J]. Chinese Journal of Eco-Agriculture, 2011, 19(3):532-539.
[33]
Cui Z L, Zhang F S, Chen X P, et al. On farm estimation of indigenous nitrogen supply for site specific nitrogen management in the North China Plain[J]. Nutr Cycl Agroecosyst, 2008, 81(1):37- 47.
[34]
Sainz H R, Barbie A. Nitrogen balance as affected by application time and nitrogen fertilizer rate in irrigated no tillage maize[J]. Agron J, 2004, 96(6):1622-1631.
[35]
Batlle Aguilar J, Brovelli A, Porporat A, et al. Modelling soil carbon and nitrogen cycles during land use change:A review[J]. Agron Sustain Dev, 2011, 31(2):251-274.
[36]
张翠翠, 闫凌云, 赵 鹏, 等. 施氮对夏玉米氮素利用及土壤硝态氮积累的影响[J]. 中国农学通报, 2013, 29(18):57-61. ZHANG Cui-cui, YAN Ling-yun, ZHAO Peng, et al. The effect of nitrogen fertilization on nitrogen use efficiency by summer corn and on the accumulation of soil nitrate nitrogen[J]. Chinese Agricultural Science Bulletin, 2013, 29(18):57-61.
