Scientia Agricultura Sinica ›› 2018, Vol. 51 ›› Issue (3): 442-455.doi: 10.3864/j.issn.0578-1752.2018.03.005
• Nutrient Management in Soil-Crop-Animal Production System • Previous Articles Next Articles
TONG BingXin1, ZHANG HuaFang1, GAO XiaoXian1, HOU Yong2, MA WenQi1
[1] Nosengo N. Fertilized to death. Nature, 2003, 425(6961): 894-895.
[2] Cai G X, Chen D L, Ding H, Pacholski A, Fan X H, Zhu Z L. Nitrogen losses from fertilizers applied to maize, wheat and rice in the North China Plain. Nutrient Cycling in Agroecosystems, 2002, 63: 187-195.
[3] 朱兆良, 孙波, 杨林章, 张林秀. 我国农业面源污染的控制政策和措施. 科技导报, 2005, 23(4): 47-51.
Zhu Z L, Sun B, Yang L z, Zhang L X. Policy and countermeasures to control non-point pollution of agriculture in China. Science & Technology Review, 2005, 23(4): 47-51. (in Chinese)
[4] 中华人民共和国农业部. 新中国60年农业统计资料. 北京: 中国农业出版社, 2009.
Ministry of Agriculture of the People’s Republic of China. agricultural statistics for 60 years in New China. Beijing: China Agriculture Press, 2009. (in Chinese)
[5] Oenema O, Witzke H P, Klimont Z, Lesschen J P, Velthof G L. Integrated assessment of promising measures to decrease nitrogen losses from agriculture in EU-27. Agriculture, Ecosystems and Environment, 2009, 133(3/4): 280-288.
[6] Velthof G L, Oudendag D, Witzke H P, Asman W A H, Klimont Z, Oenema O. Integrated assessment of nitrogen losses from agriculture in EU-27 using MITERRA-EUROPE. Journal of Environmental Quality, 2009, 38(2): 402-417.
[7] 王激清, 马文奇, 江荣风, 张福锁. 中国农田生态系统氮素平衡模型的建立及其应用. 农业工程学报, 2007, 23(8): 210-215.
Wang J Q, Ma W Q, Jiang R F, Zhang F S. Development and application of nitrogen balance model of agro-ecosystem in China. Transactions of the Chinese Society of Agricultural Engineering, 2007, 23(8): 210-215. (in Chinese)
[8] Ma L, Ma W Q, Velthof G L, Wang F H, Qin W, Zhang F S, Oenema O. Modeling nutrient flows in the food chain of China. Journal of Environmental Quality, 2010, 39(4): 1279-1289.
[9] 马林, 魏静, 王方浩, 马文奇, 张福锁. 中国食物链氮素资源流动特征分析. 自然资源学报, 2009, 24(12): 2104-2114.
Ma L, Wei J, Wang F H, Ma W Q, Zhang F S. Analysis on the feature of nitrogen flow from food chain perspective in China. Journal of Natural Resources, 2009, 24(12): 2104-2114. (in Chinese)
[10] 侯勇, 高志岭, 马文奇, Heimann L, Roelcke M, Nieder R. 京郊典型集约化“农田-畜牧”生产系统氮素流动特征. 生态学报, 2012, 32(4): 1028-1036.
Hou Y, Gao Z L, Ma W Q, Heimann L, Roelcke M, Nieder R. Nitrogen flows in intensive “crop-livestock” production systems typically for the peri-urban area of Beijing. Acta Ecologica Sinica, 2012, 32(4): 1028-1036. (in Chinese)
[11] 张华芳, 高肖贤, 侯勇, 任月同, 马文奇. 河北省农牧系统磷素流动及其环境效应. 河北农业大学学报, 2013, 36(2): 17-22.
Zhang H F, Gao X X, Hou Y, Ren Y T, Ma W Q. Phosphorus flow in agro-livestock system and its environmental effect of Hebei Province. Journal of Agricultural University of Hebei, 2013, 36(2): 17-22. (in Chinese)
[12] 中华人民共和国国家统计局. 中国统计年鉴. 北京: 中国统计出版社, 2008-2015.
National Bureau of statistics of the People’s Republic of China. China Statistical Yearbook. Beijing: China Statistical Press, 2008-2015. (in Chinese)
[13] Ma L, Velthof G L, Wang F H, Qin W, Zhang W F, Liu Z, Zhang Y, Wei J, Lesschen J P, Ma W Q, Oenema O, Zhang F S. Nitrogen and phosphorus use efficiencies and losses in the food chain in China at regional scales in 1980 and 2005. Science of the Total Environment, 2012, 434: 51-61.
[14] 张华芳. 河北省农牧生产体系氮磷养分流动特征及调控途径[D]. 保定: 河北农业大学, 2013.
Zhang H F. Nitrogen and phosphorus flow in agro-livestock system and strategies of optimization in Hebei province[D]. Baoding: Hebei Agricultural university, 2013. (in Chinese)
[15] 许俊香, 刘晓利, 王方浩, 张福锁, 马文奇, 马林. 我国畜禽生产体系中磷素平衡及其环境效应. 生态学报, 2005, 25(11): 2911-2918.
Xu J X, Liu X L, Wang F H, Zhang F S, Ma W Q, Ma L. Phosphorus balance and environmental effect of animal production in China. Acta Ecologica Sinica, 2005, 25(11): 2911-2918. (in Chinese)
[16] 赵路, 魏静, 马林, 王方浩, 马文奇. 河北省不同养殖模式的畜禽粪尿资源及污染风险分析. 农业环境科学学报, 2009, 28(3): 544-548.
Zhao L, Wei J, Ma L, Wang F H, Ma W Q. The assessment and comparison on animal manure pollution risk of different breeding patterns in Hebei. Journal of Agro-Environment Science, 2009, 28(3): 544-548. (in Chinese)
[17] 马林. 中国食物链氮素流动规律及调控策略[D]. 保定: 河北农业大学, 2009.
Ma L. Mechanism and regulatory strategies of nitrogen flow in food chain of China[D]. Baoding: Hebei Agricultural university, 2009. (in Chinese)
[18] Oenema O, Kros H, Vries W. Approaches and uncertainties in nutrient budgets: implications for nutrient management and environmental policies. European Journal of Agronomy, 2003, 20: 3-16.
[19] Krishna Prasad V, Badarinath K V S, Yonemura S, Tsuruta H. Regional inventory of soil surface nitrogen balances in Indian agriculture (2000-2001). Journal of Environmental Management, 2004, 73: 209-218.
[20] Sun B, Shen R P, Bouwman A F. Surface N balances in agricultural crop production systems in China for the period 1980-2015. Pedosphere, 2008, 18(3): 304-315.
[21] 朱兆良. 农田中氮肥的损失与对策. 土壤与环境, 2000, 9(1): 1-6.
Zhu Z L. Loss of fertilizer N from plants-soil system and the strategies and techniques for its reduction. Soil and Environmental Sciences, 2000, 9(1): 1-6. (in Chinese)
[22] 陈敏鹏, 陈吉宁. 中国种养系统的氮流动及其环境影响. 环境科学, 2007, 28(10): 2342-2349.
Chen M P, Chen J N. Nitrogen flow in farming-feeding system and its environmental impact in China. Environmental Science, 2007, 28(10): 2342-2349. (in Chinese)
[23] 李书田, 金继运. 中国不同区域农田养分输入、输出与平衡. 中国农业科学, 2011, 44(20): 4207-4229.
Li S T, Jin J Y. Characteristics of nutrient input/output and nutrient balance in different regions of China. Scientia Agricultura Sinica, 2011, 44(20): 4207-4229. (in Chinese)
[24] Jarvis S, Hutchings N, Brentrup F, Olesen J E, van der Hoek K W. Nitrogen flows in farming systems across Europe//Sutton M A. The European Nitrogen Assessment: Sources, Effects and Policy Perspectives. Cambridge, UK: Cambridge University Press, 2011: 211-227.
[25] 王方浩, 马文奇, 窦争霞, 马林, 刘晓利, 许俊香, 张福锁. 中国畜禽粪便产生量估算及环境效应. 中国环境科学, 2006, 26(5): 614-617.
Wang F H, Ma W Q, Dou Z X, Ma L, Liu X L, Xu J X, Zhang F S. The estimation of the production amount of animal manure and its environmental effect in China. China Environmental Science, 2006, 26(5): 614-617. (in Chinese)
[26] 黄鸿翔, 李书田, 李向林, 姚杰, 曹卫东, 王敏, 刘荣乐. 我国有机肥的现状与发展前景分析. 土壤肥料, 2006(1): 3-8.
Huang H X, Li S T, Li X L, Yao J, Cao W D, Wang M, Liu R L. Analysis on the status of organic fertilizer and its development strategies in China. Soils and Fertilizers, 2006(1): 3-8. (in Chinese)
[27] 全国农业技术推广服务中心. 中国有机肥料养分志. 北京: 中国农业出版社, 1999.
National Agricultural Technology Extension Service Center. Records of Nutrients in Organic Fertilizer in China. Beijing: China Agriculture Press, 1999. (in Chinese)
[28] Jonker J S, Kohn R A, High J. Dairy herd management practices that impact nitrogen utilization efficiency. Journal of Dairy Science, 2002, 85: 1218-1226.
[29] Huhtanen P, Nousiainen J I, Rinne M, Kytölä K, Khalili H. Utilization and partition of dietary nitrogen in dairy cows fed grass silage-based diets. Journal of Dairy Science, 2008, 91: 3589-3599.
[30] Oenema O. Governmental policies and measures regulating nitrogen and phosphorus from animal manure in European agriculture. Journal of Animal Science, 2004, 82(E. Suppl.): E196-E206.
[31] Wang F H, Dou Z X, Ma L, Ma W Q, Sims J T, Zhang F S. Nitrogen mass flow in China’s animal production system and environmental implications. Journal of Environmental Quality, 2010, 39: 1537-1544.
[32] Lenis N P, Jongbloed A W. New technologies in low pollution swine diets: Diet manipulation and use of synthetic amino acids, phytase and phase feeding for reduction of nitrogen and phosphorus excretion and ammonia emissions. Asian-Australasian Journal of Animal Sciences, 1999, 12(2): 305-327.
[33] Osei E, Hauck L, Jones R, ogg c, Keplinger k. Livestock and the environment: Lessons from a national pilot project. 2008, http://tiaer.tarleton.edu.
[34] Steinshamn H, Thuen E, Bleken M A, Brenøe U T, Ekerholt G, Yri C. Utilization of nitrogen (N) and phosphorus (P) in an organic dairy farming system in Norway. Agriculture, Ecosystems & Environment, 2004, 104(3): 509-522.
[35] Neeteson J J. Nitrogen and phosphorus management on Dutch dairy farms: Legislation and strategies employed to meet the regulations. Biology and Fertility of Soils, 2000, 30: 566-572.
[36] Oenema O, Oudendag D, Velthof G L. Nutrient losses from manure management in the European Union. Livestock Science, 2007, 112: 261-272.
[37] 刘晓利.我国“农田-畜牧-营养-环境”体系氮素养分循环与平衡[D]. 保定: 河北农业大学, 2002.
Liu X L. Nitrogen cycling and balance in “agriculture-livestock- nutrition-environment” system of China[D]. Baoding: Hebei Agricultural university, 2002. (in Chinese)
[38] Zhang Y, Dore A J, Ma L, Liu X J, Ma W Q, Cape J N, Zhang F S. Agricultural ammonia emissions inventory and spatial distribution in the North China Plain. Environmental Pollution, 2010, 158(7): 490-501.
[39] Zhou Y, Cheng S Y, Lang J L, chen d S, zhao b b, liu c, xu r, li t t. A comprehensive ammonia emission inventory with high-resolution and its evaluation in the Beijing-Tianjin-Hebei (BTH) region, China. Atmospheric Environment, 2015, 106: 305-317.
[40] 张福锁. 测土配方施肥技术. 北京: 中国农业大学出版社, 2011: 3-22.
Zhang F S. Soil Testing and Fertilization Recommendation. Beijing: China Agricultural University Press, 2011: 3-22. (in Chinese)
[41] 张福锁, 马文奇, 陈新平. 养分资源综合管理理论与技术概论. 北京: 中国农业大学出版社, 2006.
Zhang F S, Ma W Q, Chen X P. Introduction to the theory and technology of integrated management of nutrient resources. Beijing: China Agricultural University Press, 2006. (in Chinese)
[42] Hou Y, Velthof G L, Oenema O. Mitigation of ammonia, nitrous oxide and methane emissions from manure management chains: a meta-analysis and integrated assessment. Global Change Biology, 2015, 21: 1293-1312.
[43] Zhu Z L, Chen D L. Nitrogen fertilizer use in China–contributions to food production, impacts on the environment and best management strategies. Nutrient Cycling in Agroecosystems, 2002, 63: 117-127.
[44] 王敬国, 林杉, 李保国. 氮循环与中国农业氮管理. 中国农业科学, 2016, 49(3): 503-517.
Wang J G, LIN S, LI B G. Nitrogen cycling and management strategies in Chinese agriculture. Scientia Agricultura Sinica, 2016, 49(3): 503-517. (in Chinese) |
[1] | YAN YanGe, ZHANG ShuiQin, LI YanTing, ZHAO BingQiang, YUAN Liang. Effects of Dextran Modified Urea on Winter Wheat Yield and Fate of Nitrogen Fertilizer [J]. Scientia Agricultura Sinica, 2023, 56(2): 287-299. |
[2] | XU JiuKai, YUAN Liang, WEN YanChen, ZHANG ShuiQin, LI YanTing, LI HaiYan, ZHAO BingQiang. Nitrogen Fertilizer Replacement Value of Livestock Manure in the Winter Wheat Growing Season [J]. Scientia Agricultura Sinica, 2023, 56(2): 300-313. |
[3] | ZHAO HaiXuan,ZHANG YiTao,LI WenChao,MA WenQi,ZHAI LiMei,JU XueHai,CHEN HanTing,KANG Rui,SUN ZhiMei,XI Bin,LIU HongBin. Spatial Characteristic and Its Factors of Nitrogen Surplus of Crop and Livestock Production in the Core Area of the Baiyangdian Basin [J]. Scientia Agricultura Sinica, 2023, 56(1): 118-128. |
[4] | XIONG WeiYi,XU KaiWei,LIU MingPeng,XIAO Hua,PEI LiZhen,PENG DanDan,CHEN YuanXue. Effects of Different Nitrogen Application Levels on Photosynthetic Characteristics, Nitrogen Use Efficiency and Yield of Spring Maize in Sichuan Province [J]. Scientia Agricultura Sinica, 2022, 55(9): 1735-1748. |
[5] | HOU JiangJiang,WANG JinZhou,SUN Ping,ZHU WenYan,XU Jing,LU ChangAi. Spatiotemporal Patterns in Nitrogen Response Efficiency of Aboveground Productivity Across China’s Grasslands [J]. Scientia Agricultura Sinica, 2022, 55(9): 1811-1821. |
[6] | SANG ShiFei,CAO MengYu,WANG YaNan,WANG JunYi,SUN XiaoHan,ZHANG WenLing,JI ShengDong. Research Progress of Nitrogen Efficiency Related Genes in Rice [J]. Scientia Agricultura Sinica, 2022, 55(8): 1479-1491. |
[7] | WU Yue,SUI XinHua,DAI LiangXiang,ZHENG YongMei,ZHANG ZhiMeng,TIAN YunYun,YU TianYi,SUN XueWu,SUN QiQi,MA DengChao,WU ZhengFeng. Research Advances of Bradyrhizobia and Its Symbiotic Mechanisms with Peanut [J]. Scientia Agricultura Sinica, 2022, 55(8): 1518-1528. |
[8] | GUI RunFei,WANG ZaiMan,PAN ShengGang,ZHANG MingHua,TANG XiangRu,MO ZhaoWen. Effects of Nitrogen-Reducing Side Deep Application of Liquid Fertilizer at Tillering Stage on Yield and Nitrogen Utilization of Fragrant Rice [J]. Scientia Agricultura Sinica, 2022, 55(8): 1529-1545. |
[9] | GAO JiaRui,FANG ShengZhi,ZHANG YuLing,AN Jing,YU Na,ZOU HongTao. Characteristics of Organic Nitrogen Mineralization in Paddy Soil with Different Reclamation Years in Black Soil of Northeast China [J]. Scientia Agricultura Sinica, 2022, 55(8): 1579-1588. |
[10] | WANG Miao,ZHANG Yu,LI RuiQiang,XIN XiaoPing,ZHU XiaoYu,CAO Juan,ZHOU ZhongYi,YAN RuiRui. Effects of Grazing Disturbance on the Stoichiometry of Nitrogen and Phosphorus in Plant Organs of Leymus chinensis Meadow Steppe [J]. Scientia Agricultura Sinica, 2022, 55(7): 1371-1384. |
[11] | YU QiLong,HAN YingYan,HAO JingHong,QIN XiaoXiao,LIU ChaoJie,FAN ShuangXi. Effect of Exogenous Spermidine on Nitrogen Metabolism of Lettuce Under High-Temperature Stress [J]. Scientia Agricultura Sinica, 2022, 55(7): 1399-1410. |
[12] | CHAO ChengSheng,WANG YuQian,SHEN XinJie,DAI Jing,GU ChiMing,LI YinShui,XIE LiHua,HU XiaoJia,QIN Lu,LIAO Xing. Characteristics of Efficient Nitrogen Uptake and Transport of Rapeseed at Seedling Stage [J]. Scientia Agricultura Sinica, 2022, 55(6): 1172-1188. |
[13] | LIU Miao,LIU PengZhao,SHI ZuJiao,WANG XiaoLi,WANG Rui,LI Jun. Critical Nitrogen Dilution Curve and Nitrogen Nutrition Diagnosis of Summer Maize Under Different Nitrogen and Phosphorus Application Rates [J]. Scientia Agricultura Sinica, 2022, 55(5): 932-947. |
[14] | ZHANG XueLin, WU Mei, HE TangQing, ZHANG ChenXi, TIAN MingHui, LI XiaoLi, HOU XiaoPan, HAO XiaoFeng, YANG QingHua, LI ChaoHai. Effects of Crop Residue Decomposition on Soil Inorganic Nitrogen and Greenhouse Gas Emissions from Fluvo-Aquic Soil and Shajiang Black Soil [J]. Scientia Agricultura Sinica, 2022, 55(4): 729-742. |
[15] | SHI Xi, NING LiHua, GE Min, WU Qi, ZHAO Han. Screening and Application of Biomarkers Related to Maize Nitrogen Status [J]. Scientia Agricultura Sinica, 2022, 55(3): 438-450. |
|