一、基本信息
姓名:巨晓棠
出生年月:1965年3月
民族:汉族
学位:博士
职称:教授
开设课程:农业环境保护与生态工程(案例教学)
主要研究方向:农田生态系统氮素循环与环境效应;温室气体产生机制及减排措施
硕士研究生招生方向:土壤学、植物营养学、环境科学、资源利用与植物保护
二、联系方式
E-mail: 994464@hainanu.edu.cn;juxt@cau.edu.cn
三、教育经历
1997.09-2000.06:中国农业大学资源与环境学院,植物营养专业,博士
1994.02-1994.07:西安外国语大学联合国开发计划署英语资格培训,获出国证书
1990.09-1994.12:西北农业大学资源与环境学院,土壤农业化学专业,硕士
1982.09-1986.06:西北农业大学资源与环境学院,土壤农业化学专业,学士
四、科研与学术工作经历
(一)国内:
2020.10-至今:海南大学热带作物学院 二级教授
2006.07-2020.09:中国农业大学资源与环境学院四级(2006)和三级教授(2015)
2000.07-2006.06:中国农业大学资源与环境学院副教授(2004年博士生导师)
1990.09-1997.08:西北农业大学干旱半干旱开放实验室助理研究员
1986.07-1990.08:西北农业大学干旱半干旱研究中心研究实习员
(二)国外:
2019.06-2019.09:挪威生命科学大学CSC高级访问学者
2017.12-2018.02:苏格兰农业大学中英牛顿基金主持人
2015.01-2015.02:美国斯坦福大学访问学者
2012.01-2013.01:瓦格宁根大学CSC访问学者
2011.09-2011.10:荷兰能源研究中心访问学者
2005.10-2005.12:德国霍恩海姆大学DAAD访问学者
2004.07-2004.10:荷兰公共健康与环境研究所访问学者
2000.11-2001.02:德国霍恩海姆大学中德项目博士生
1999.11-2000.02:德国霍恩海姆大学中德项目博士生
1996.01-1996.05:加拿大Lethbrdige农业研究中心UNDP项目访问学者
(三)学术兼职:
国际氮素协会东亚中心主任(2016-至今)
中国土壤学会氮素工作组副组长(2016-至今)
中国植物营养与肥料学会施肥专业委员会副主任委员(2016-至今)
《中国农业科学》《土壤学报》《植物营养与肥料学报》 编委 (2008或2016-至今)
五、科研项目
1.主持国家自然科学基金重点项目“中国北方旱作农田土壤氧化亚氮产生过程及主要控制因素”(2019.1-2023.12)
2.主持国家自然科学基金国际(地区)合作与交流项目(中挪)“提高氮素管理、发展可持续食物生产和减少温室气体排放的新型生物肥料研究”(2019.1-2021.12)
3. Co-PI Newton Fund, N-CIRCLE: Virtual Joint Centre for Closed-Loop Cycling of Nitrogen in Chinese Agriculture (2016.1-2019.12)
4.参加国家重点研发计划“肥料氮素迁移转化过程与损失阻控机制”(2017.7-2020.12)
5. Project Partner of GEF, UNEP on the ‘Towards INMS’ (International Nitrogen Management System” (2017.1-2020.12)
6.主持公益性行业(农业)科研专项“华北平原化肥面源污染农田综合治理技术方案”(2015.1-2019.12)
7.国家自然科学基金面上项目“石灰性土壤亚硝态氮积累对N2O产生的作用机制”(2015.1-2018.12)
8.主持973项目“我国活性氮源及其对空气质量与气候变化的影响机理研究”第3课题“气态活性氮的气候效应”(2014.1-2018.8)
9.主持国家自然科学基金面上项目“添加碳对累积硝态氮的固持及减少损失的机制”(2012.1-2015.12)
10.主持公益性行业(农业)科研专项“农业源温室气体监测与控制技术研究”第6课题“西北农田温室气体监测与控制技术研究” (2011.1-2015.12)
11.参加973项目“典型流域陆地生态系统-大气碳氮气体交换关键过程、规律与调控原理”第5课题“流域碳氮循环空间模型的构建及检验”(2012.1-2016.8)
12.参加国家自然科学基金重点项目“华北平原农田土壤硝化和反硝化的产物比及调控机制”(2013.1-2017.12)
13.主持教育部博士点基金“华北平原不同轮作体系和水氮管理的净温室效应研究”(2011.1-2013.12)
14.参加北京市发展和改革委员会“北京市市级和区县农业活动领域温室气体排放清单”(2015.1-2016.6)
15.主持中德教育科研项目“Modeling material flows and production systems for sustainable resource use in intensified crop production in North China Plain”第5子课题“A combined BaPS-13C stable isotope technique to study the interaction between C and N turnover in calcareous agricultural soils of the North China Plain”(2004.5-2013.5)
16.参加973项目“主要粮食作物高产栽培与资源高效利用的基础研究”第6课题“高产作物水肥高效利用的根-土机理”(2009.1-2013.8)
17.参加中挪合作项目“Fertilizer technologies for reduced N2O emission from food production_ a collaborative project between Yara, Norway and China”第2子课题“WP2: Screening fertilizer components and additives”(2009.9-2012.9)
18.参加中英合作项目“Improve soil nutrient management towards a low carbon economy in China”(2009.4-2012.4)
19.主持863课题“应用深根型植物控制地下水硝酸盐污染的原位修复技术” (2008.1-2010.12)
20.主持国家自然科学基金面上项目“华北平原典型农田土壤N2O的产生机理”(2008.1-2010.12)
21.主持国家自然科学基金面上项目“华北平原典型农田土壤氮素总通量和氮饱和度的原位研究”(2006.1-2008.12)
22.副国家主持十一五科技部支撑计划课题“北方集约化粮田污染综合防控技术集成与示范”(2006.1-2010.12)
23.主持国家自然科学基金重大项目“主要农田生态系统氮素行为与氮肥高效利用的基础研究”第1课题“主要农田生态系统中土壤氮素循环、氮素的化学行为和生态环境效应 (2003.4-2007.4)
24.主持国家自然科学基金面上项目“土壤剖面中不同部位硝态氮的作物有效性及去向研究(2003.1-2005.12)
25.副主持国家十五攻关课题“氮肥污染控制技术研究”(2001.1-2005.12)
26.参加农业部948重大引进项目“养分资源综合管理技术引进与中国技术体系的建立和应用”(2003.10-2005.12)子课题主持
27.副主持中国科学院开放实验室基金“秸秆对旱作土壤氮素转化及N2O、CH4排放的影响”(2001.1-2002.12)
28.参加中-德国际合作项目“华北平原高产高生产力条件下环境可承受的持续农业研究”(1998.11-2002.12)
29.参加北京市自然科学基金重大项目“北京市节水高效作物生产技术体系的研究”(2001.9-2004.8)
30.参加国家烟草专卖局重点项目“土壤后期供氮对烤烟产质的影响”(2001.1-2004.12)
31.参加中国农业大学与德国BASF公司合作项目“新型肥料ASN+DMPP及复合肥在蔬菜、果树及农作物上的使用效果研究”(2000.1-2003.12)
32.参加农业部“948”项目“旱地氮损失的定量化原位测定技术及减少损失的途径”(1998.1-2001.12)
33.参加北京市自然科学基金重大项目“北京地区小麦玉米氮肥推荐技术的研究与应用”(1998.1-2001.12)
34.参加国家自然科学基金倾斜项目“提高旱地土壤氮肥利用率的应用基础与关键技术研究”(1998.1-2001.12)
35.参加联合国开发计划署(UNDP)项目“西北旱地可持续农业的研究、示范与推广”(1991.1-1997.12)
36.主持杨陵农业科技开发基金“温棚CO2施肥装置的研制及配套技术研究”(1993.1-1995.12)
37.参加国家自然科学基金面上项目“土壤氮素矿化与供氮能力研究”(1993.1-1995.12)参
38.加国家自然科学基金面上项目“土壤氮素矿化与供氮能力研究”(1990.1-1994.12)
39.参加国家七.五攻关项目“旱地农田增产技术”子专题“旱地农田培肥与施肥技术研究”(1986.1- 1990.12)
六、代表性成果
(一)
2021年:
1. Zhang C, Rees R M, Ju X T* 2021. Cropping system design can improve nitrogen use efficiency in intensively managed agriculture. Environmental Pollution[J] 280: 116967.
2 .Lyu X D, Wang T, Song X T, Zhao C Y, Rees M R, Liu Z, Ju X T*, SiddiqueKM 2021. Reducing N2O emissions with enhanced efficiency nitrogen fertilizers (EENFs) in a high-yielding spring maize system.Environmental Pollution[J], 273: 116422.
3. Yang L Q, Zhu G D, Ju X T*, Liu R* 2021. Oxygen concentrations regulate NO, N2O, and N2 kinetics and nitrogen transformation in a fluvo-aquic soil using a robotized incubation system. Journal of Soils and Sediments[J],https://doi.org/10.1007/s11368-021-02878-2.
4.巨晓棠*,张翀2021.论合理施氮的原则和指标.土壤学报[J], 58: 1-14.
5.牛新胜,张翀,巨晓棠*2021.华北潮土冬小麦-夏玉米轮作包气带氮素淋溶机制.中国生态农业学报(中英文)[J], 29: 53-65.
6.杨荣全,谢立勇,郑益旻,李明,魏娜,李迎春,巨晓棠,郭李萍*2021.不同水肥措施下华北露地菜地氮淋溶特征.中国生态农业学报(中英文)[J], 29: 176-186.
2020年:
7. Abdalla M*, Song X, Ju X, Topp C F E, Smith P 2020. Calibration and validation of the DNDC model to estimate nitrous oxide emissions and crop productivity for a summer maize-winter wheat double cropping system in Hebei, China. Environmental Pollution[J], 262.
8. Gu B J, Song Y, Yu C Q, Ju X T* 2020. Overcoming socioeconomic barriers to reduce agricultural ammonia emission in China. Environmental Science and Pollution Research[J], 27: 25813-25817.
9. Li T Y, Zhang W F*, Cao H B, Ying H, Zhang Q S, Ren S Y, Liu Z T, Yin Y L, Qin W, Cui Z L, Liu X J, Ju X T, Oenema O, De Vries W, Zhang F S 2020. Region-specific nitrogen management indexes for sustainable cereal production in China. Environmental Research Communications[J], 2.
10. Raza S, Miao N, Wang P Z, Ju X T, Chen Z J, Zhou J B*, Kuzyakov Y 2020. Dramatic loss of inorganic carbon by nitrogen-induced soil acidification in Chinese croplands. Global Change Biology[J], 26: 3738-3751.
11. Rees R M*, Maire J, Florence A, Cowan N, Skiba U, Weerden T V D, Ju X 2020. Mitigating nitrous oxide emissions from agricultural soils by precision management. Frontiers of Agricultural Science and Engineering[J], 7: 75-80.
12. Song X T, Ju X T*, Topp C F E, Rees R M 2020. Response to Comment on "Oxygen Regulates Nitrous Oxide Production Directly in Agricultural Soils". Environmental Science & Technology[J], 54: 2556-2557.
13. Wang B, Guo C, Wan Y F, Li J L, Ju X T, Cai W W, You S C, Qin X B, Wilkes A, Li Y E*2020a. Air warming and CO2 enrichment increase N use efficiency and decrease N surplus in a Chinese double rice cropping system. Science of the Total Environment[J], 706.
14. Wang R, Pan Z L, Zheng X H*, Ju X T*, Yao Z S, Butterbach-Bahl K, Zhang C, Wei H H, Huang B X 2020b. Using field-measured soil N2O fluxes and laboratory scale parameterization of N2O/(N2O+N2) ratios to quantify field-scale soil N2 emissions. Soil Biology & Biochemistry[J], 148.
15. Yang L Q, Liu R, Ju X T* 2020. Effect of carbon rate and type amended with ammonium or nitrate on nitrous oxide emissions in a strong ammonia oxidation soil. Journal of Soils and Sediments[J], 20: 1253-1263.
16. Zhang C, Xu R H, Su F, Roelcke M, Ju X T* 2020. Effects of enhanced efficiency nitrogen fertilizers on NH3 losses in a calcareous fluvo-aquic soil: a laboratory study. Journal of Soils and Sediments[J], 20: 1887-1896.
17.吉艳芝,徐明杰,巨晓棠,董娴娴,张丽娟*2020.华北平原不同种植制度对粮食作物氮素利用和土壤氮库的影响.农业工程学报[J], 36: 86-96.
18.李玥,巨晓棠*2020.农田氧化亚氮减排的关键是合理施氮.农业环境科学学报[J], 39: 842-851.
2019年:
19. Gu B J*, Lam S K, Reis S, Van Grinsven H, Ju X T, Yan X Y, Zhou F, Liu H B, Cai Z C, Galloway J N, Howard C, Sutton M A, Chen D L 2019. Toward a Generic Analytical Framework for Sustainable Nitrogen Management: Application for China. Environmental Science & Technology[J], 53: 1109-1118.
20. Lyu X D*, Wang T, Ma Z M, Zhao C Y, Siddique K H M, Ju X T 2019. Enhanced efficiency nitrogen fertilizers maintain yields and mitigate global warming potential in an intensified spring wheat system. Field Crops Research[J], 244.
21. Song X T, Ju X T*, Topp C F E, Rees R M 2019. Oxygen Regulates Nitrous Oxide Production Directly in Agricultural Soils. Environmental Science & Technology[J], 53: 12539-12547.
22. Wu D M*, Horn M A, Behrendt T, Muller S, Li J S, Cole J A, Xie B H, Ju X T, Li G, Ermel M, Oswald R, Frohlich-Nowoisky J, Hoor P, Hu C S, Liu M, Andreae M O, Poschl U, Cheng Y F, Su H, Trebs I, Weber B, Sorgel M 2019. Soil HONO emissions at high moisture content are driven by microbial nitrate reduction to nitrite: tackling the HONO puzzle. Isme Journal[J], 13: 1688-1699.
23. Yu C Q*, Huang X, Chen H, Godfray H C J, Wright J S, Hall J W, Gong P, Ni S Q, Qiao S C, Huang G R, Xiao Y C, Zhang J, Feng Z, Ju X T, Ciais P, Stenseth N C, Hessen D O, Sun Z L, Yu L, Cai W J, Fu H H, Huang X M, Zhang C, Liu H B, Taylor J 2019. Managing nitrogen to restore water quality in China. Nature[J], 567: 516-520.
24. Zhan X Y, Chen C, Wang Q H, Zhou F*, Hayashi K, Ju X T, Lam S K, Wang Y H, Wu Y L, Fu J, Zhang L P, Gao S S, Hou X K, Bo Y, Zhang D, Liu K W, Wu Q X, Su R R, Zhu J Q, Yang C L, Dai C M, Liu H B 2019. Improved Jayaweera-Mikkelsen model to quantify ammonia volatilization from rice paddy fields in China. Environmental Science and Pollution Research[J], 26: 8136-8147.
25. Zhang C, Ju X T*, Powlson D, Oenema O, Smith P 2019a. Nitrogen Surplus Benchmarks for Controlling N Pollution in the Main Cropping Systems of China. Environmental Science & Technology[J], 53: 6678-6687.
26. Zhang Y, Wang R, Pan Z, Liu Y, Zheng X*, Ju X, Zhang C, Butterbach-Bahl K, Huang B 2019b. Fertilizer nitrogen loss via N2 emission from calcareous soil following basal urea application of winter wheat. Atmospheric and Oceanic Science Letters[J], 12: 91-97.
27. Zhu G D, Ju X T*, Zhang J B, Muller C, Rees R M, Thorman R E, Sylvester-Bradley R 2019a. Effects of the nitrification inhibitor DMPP (3,4-dimethylpyrazole phosphate) on gross N transformation rates and N2O emissions. Biology and Fertility of Soils[J], 55: 603-615.
28. Zhu G D, Song X T, Ju X T*, Zhang J B, Muller C, Sylvester-Bradley R, Thorman R E, Bingham I, Rees R M 2019b. Gross N transformation rates and related N2O emissions in Chinese and UK agricultural soils. Science of the Total Environment[J], 666: 176-186.
2018年:
29. Conrads H*, Ingwersen J, Ju X T, Streck T 2018. Direct Measurement of CO2 Retention in Arable Soils with pH Above 6.5 During Barometric Process Separation Incubation. Pedosphere[J], 28: 726-738.
30. Gao B, Huang T, Ju X T*, Gu B J, Huang W, Xu L L, Rees R M, Powlson D S, Smith P, Cui S H*2018. Chinese cropping systems are a net source of greenhouse gases despite soil carbon sequestration. Global Change Biology[J], 24: 5590-5606.
31. Gu B J*, Ju X T, Wu Y Y, Erisman J W, Bleeker A, Reis S, Sutton M A, Lam S K, Smith P, Oenema O, Smith R I, Lu X H, Ye X Y, Chen D L 2018. Cleaning up nitrogen pollution may reduce future carbon sinks. Global Environmental Change-Human and Policy Dimensions[J], 48: 56-66.
32. Guo L P*, Wang X D, Diao T T, Ju X T, Niu X G, Zheng L, Zhang X Y, Han X 2018. N2O emission contributions by different pathways and associated microbial community dynamics in a typical calcareous vegetable soil. Environmental Pollution[J], 242: 2005-2013.
33. Huang T, Hu X K, Gao B, Yang H, Huang C C, Ju X T*2018a. Improved Nitrogen Management as a Key Mitigation to Net Global Warming Potential and Greenhouse Gas Intensity on the North China Plain. Soil Science Society of America Journal[J], 82: 136-146.
34. Huang T, Yang H, Huang C, Ju X*2018b. Effects of nitrogen management and straw return on soil organic carbon sequestration and aggregate-associated carbon. European Journal of Soil Science[J], 69: 913-923.
35. Song X T, Liu M, Ju X T*, Gao B, Su F, Chen X P, Rees R M 2018. Nitrous Oxide Emissions Increase Exponentially When Optimum Nitrogen Fertilizer Rates Are Exceeded in the North China Plain. Environmental Science & Technology[J], 52: 12504-12513.
36. Wang D P, Zheng L, Gu S D, Shi Y F, Liang L, Meng F Q, Guo Y B, Ju X T, Wu W L*2018. Soil nitrate accumulation and leaching in conventional, optimized and organic cropping systems. Plant Soil and Environment[J], 64: 156-163.
37. Zhang W, Li Y, Zhu B, Zheng X H, Liu C Y, Tang J L, Su F, Zhang C, Ju X T, Deng J 2018. A process-oriented hydro-biogeochemical model enabling simulation of gaseous carbon and nitrogen emissions and hydrologic nitrogen losses from a subtropical catchment. Science of the Total Environment[J], 616: 305-317.
38.刘敏,张翀,巨晓棠*,苏芳,陈新平,江荣风2018.箱体结构及计算方法对夏玉米农田N2O排放测定结果的影响.农业环境科学学报[J], 37: 1284-1290.
2017年:
39. Gu B J*, Ju X T, Chang S X, Ge Y, Chang J 2017. Nitrogen use efficiencies in Chinese agricultural systems and implications for food security and environmental protection. Regional Environmental Change[J], 17: 1217-1227.
40. Htun Y M, Tong Y A, Gao P C, Ju X T 2017. Coupled effects of straw and nitrogen management on N2O and CH4 emissions of rainfed agriculture in Northwest China. Atmospheric Environment[J], 157: 156-166.
41. Huang T, Ju X T*, Yang H 2017a. Nitrate leaching in a winter wheat-summer maize rotation on a calcareous soil as affected by nitrogen and straw management. Scientific Reports[J], 7.
42. Huang T, Yang H, Huang C C, Ju X T*2017b. Effect of fertilizer N rates and straw management on yield-scaled nitrous oxide emissions in a maize-wheat double cropping system. Field Crops Research[J], 204: 1-11.
43. Jiang J S, Wang R, Wang Z Q, Guo S L*, Ju X T 2017. Nitrous Oxide and Methane Emissions in Spring Maize Field in the Semi-Arid Regions of Loess Plateau. Clean-Soil Air Water[J], 45.
44. Ju X T*, Zhang C 2017. Nitrogen cycling and environmental impacts in upland agricultural soils in North China: A review. Journal of Integrative Agriculture[J], 16: 2848-2862.
45. Yang L Q, Zhang X J, Ju X T*2017. Linkage between N2O emission and functional gene abundance in an intensively managed calcareous fluvo-aquic soil. Scientific Reports[J], 7.
46.巨晓棠*,谷保静2017.氮素管理的指标.土壤学报[J], 54: 281-296.
47.巨晓棠*,谷保静,蔡祖聪2017.关于减少农业氨排放以缓解灰霾危害的建议.科技导报[J], 35: 11-12.
48.牛新胜,巨晓棠*2017.我国有机肥料资源及利用.植物营养与肥料学报[J], 23: 1462-1479.
49.杨柳青,季加敏,巨晓棠*2017.硝化/脲酶抑制剂对石灰性潮土N2O减排效果及氮素转化的比较.农业环境科学学报[J], 36: 605-612.
2016年:
50. Jia X, Wang M*, Yuan W, Shah S, Shi W, Meng X, Ju X, Yang B 2016a. N2O EMISSION AND NITROGEN TRANSFORMATION IN CHICKEN MANURE AND BIOCHAR CO-COMPOSTING. Transactions of the Asabe[J], 59: 1277-1283.
51. Jia X Y, Wang M*, Yuan W Q, Ju X T, Yang B Z 2016b. The Influence of Biochar Addition on Chicken Manure Composting and Associated Methane and Carbon Dioxide Emissions. Bioresources[J], 11: 5255-5264.
52. Ju X T, Gu B J*, Wu Y Y, Galloway J N 2016. Reducing China's fertilizer use by increasing farm size. Global Environmental Change-Human and Policy Dimensions[J], 41: 26-32.
53. Zhou J Y, Gu B J, Schlesinger W H, Ju X T*2016. Significant accumulation of nitrate in Chinese semi-humid croplands. Scientific Reports[J], 6.
54.刘敏,张翀,何彦芳,高兵,苏芳,江荣风,巨晓棠*2016.追氮方式对夏玉米土壤N2O和NH3排放的影响.植物营养与肥料学报[J], 22: 19-29.
55.刘燕,王海飞,朱高荻,魏欢欢,何彦芳,高兵,苏芳,巨晓棠*2016.水稻土和菜田添加碳氮后的气态产物排放动态.植物营养与肥料学报[J], 22: 326-336.
56.王琳,周晓丽,马银丽,巨晓棠,吉艳芝,张丽娟*2016.铵态氮源和碳源对土壤N2O、CO2释放的影响.农业资源与环境学报[J], 33: 23-28.
57.吴得峰,姜继韶,高兵,刘燕,王蕊,王志齐,党廷辉,郭胜利*,巨晓棠2016a.添加DCD对雨养区春玉米产量、氧化亚氮排放及硝态氮残留的影响.植物营养与肥料学报[J], 22: 30-39.
58.吴得峰,姜继韶,孙棋棋,王蕊,李如剑,王志齐,刘洪星,崔全红,郭胜利*,党廷辉,巨晓棠2016b.减量施氮对雨养区春玉米产量和环境效应的影响.农业环境科学学报[J], 35: 1202-1209.
59.张翀,李雪倩,苏芳,朱波,巨晓棠*2016.施氮方式及测定方法对紫色土夏玉米氨挥发的影响.农业环境科学学报[J], 35: 1194-1201.
60.周晓丽,王琳,张艺磊,张丽娟,马银丽,巨晓棠,吉艳芝*2016.硝态氮源及碳源有效性对土壤N_2O和CO_2排放的影响.农业资源与环境学报[J], 33: 170-175.
2015年:
61. Gao B, Ju X T*, Meng Q F, Cui Z L, Christie P, Chen X P, Zhang F S 2015. The impact of alternative cropping systems on global warming potential, grain yield and groundwater use. Agriculture Ecosystems & Environment[J], 203: 46-54.
62. Gu B J, Ju X T*, Chang J, Ge Y, Vitousek P M*2015. Integrated reactive nitrogen budgets and future trends in China. Proceedings of the National Academy of Sciences of the United States of America[J], 112: 8792-8797.
63. Norse D*, Ju X T 2015. Environmental costs of China's food security. Agriculture Ecosystems & Environment[J], 209: 5-14.
64. Qiu S J, Ju X T*, Li L, Christie P, Ingwersen J, Stange C F, Streck T 2015. Nitrate Transformation and N2O Emission in a Typical Intensively Managed Calcareous Fluvaquent Soil: A 15-Nitrogen Tracer Incubation Study. Communications in Soil Science and Plant Analysis[J], 46: 1763-1777.
65. Shi Y L, Cui S H*, Ju X T, Cai Z C, Zhu Y G 2015. Impacts of reactive nitrogen on climate change in China. Scientific Reports[J], 5.
66. Wang W, Guo L P, Li Y C, Su M, Lin Y B, De Perthuis C, Ju X T, Lin E D*, Moran D 2015. Greenhouse gas intensity of three main crops and implications for low-carbon agriculture in China. Climatic Change[J], 128: 57-70.
67.郝晓然,彭亚静,张丽娟*,王琳,巨晓棠,吉艳芝,任翠莲2015.根层调控措施对甜玉米-黄瓜设施蔬菜轮作体系土壤硝态氮的影响.中国农业科学[J], 48: 2390-2400.
68.巨晓棠*2015.理论施氮量的改进及验证——兼论确定作物氮肥推荐量的方法.土壤学报[J], 52: 249-261.
69.彭亚静,郝晓然,吉艳芝,王琳,任翠莲,巨晓棠,张丽娟*2015.填闲种植对棚室菜田累积氮素消减及黄瓜生长的影响.中国农业科学[J], 48: 1774-1784.
70.徐明杰,张琳,汪新颖,彭亚静,张丽娟*,巨晓棠2015.不同管理方式对夏玉米氮素吸收、分配及去向的影响.植物营养与肥料学报[J], 21: 36-45.
71.尹兴,汪新颖,张丽娟*,倪玉雪,任翠莲,巨晓棠,吉艳芝2015.填闲作物消减蔬菜生产棚室土壤硝态氮潜力研究.农业资源与环境学报[J], 32: 222-228.
72.张翀,韩晓阳,李雪倩,黄彬香,朱波,苏芳,巨晓棠*2015.川中丘陵区紫色土冬小麦/夏玉米轮作氨挥发研究.中国生态农业学报[J], 23: 1359-1366.
73.张琳,孙卓玲,马理,吉艳芝,巨晓棠,张丽娟*2015.不同水氮条件下双氰胺(DCD)对温室黄瓜土壤氮素损失的影响.植物营养与肥料学报[J], 21: 128-137.
2014年:
74. Cui Z L, Dou Z X, Chen X P, Ju X T, Zhang F S* 2014. Managing Agricultural Nutrients for Food Security in China: Past, Present, and Future. Agronomy Journal[J], 106: 191-198.
75. Gao B, Ju X T*, Su F, Meng Q F, Oenema O, Christie P, Chen X P, Zhang F S 2014. Nitrous oxide and methane emissions from optimized and alternative cereal cropping systems on the North China Plain: A two-year field study. Science of the Total Environment[J], 472: 112-124.
76. Huang T, Gao B, Hu X K, Lu X, Well R, Christie P, Bakken L R, Ju X T* 2014. Ammonia-oxidation as an engine to generate nitrous oxide in an intensively managed calcareous Fluvo-aquic soil. Scientific Reports[J], 4.
77. Ju X T* 2014. Direct pathway of nitrate produced from surplus nitrogen inputs to the hydrosphere. Proceedings of the National Academy of Sciences of the United States of America[J], 111: E416-E416.
78. Ma L, Velthof G L, Kroeze C, Ju X T, Hu C S, Oenema O, Zhang F S* 2014. Mitigation of nitrous oxide emissions from food production in China. Current Opinion in Environmental Sustainability[J], 9-10: 82-89.
79. Oenema O*, Ju X T, De Klein C, Alfaro M, Del Prado A, Lesschen J P, Zheng X H, Velthof G, Ma L, Gao B, Kroeze C, Sutton M 2014. Reducing nitrous oxide emissions from the global food system. Current Opinion in Environmental Sustainability[J], 9-10: 55-64.
80. Wang W, Koslowski F, Nayak D R, Smith P, Saetnan E, Ju X T, Guo L D, Han G, De Perthuis C, Lin E*, Moran D 2014. Greenhouse gas mitigation in Chinese agriculture: Distinguishing technical and economic potentials. Global Environmental Change-Human and Policy Dimensions[J], 26: 53-62.
81. Yang Z X, Wang J, Di H J, Zhang L J*, Ju X T 2014. A N-15-Labeling Study of the Capture of Deep Soil Nitrate from Different Plant Systems. Journal of Integrative Agriculture[J], 13: 167-176.
82.胡腾,同延安*,高鹏程,高兵,巨晓棠2014.黄土高原南部旱地冬小麦生长期N2O排放特征与基于优化施氮的减排方法研究.中国生态农业学报[J], 22: 1038-1046.
83.巨晓棠*2014.氮肥有效率的概念及意义——兼论对传统氮肥利用率的理解误区.土壤学报[J], 51: 921-933.
84.巨晓棠*,谷保静2014.我国农田氮肥施用现状、问题及趋势.植物营养与肥料学报[J], 20: 783-795.
85.任志杰,高兵,黄涛,巨晓棠*2014.不同轮作和管理措施下根系呼吸对土壤呼吸的贡献.环境科学学报[J], 34: 2367-2375.
86.汪新颖,彭亚静,王玮,刘新宇,巨晓棠,张丽娟*2014.华北平原夏玉米季化肥氮去向及土壤氮库盈亏定量化探索.生态环境学报[J], 23: 1610-1615.
87.徐明杰,董娴娴,刘会玲,张丽娟*,巨晓棠2014.不同管理方式对小麦氮素吸收、分配及去向的影响.植物营养与肥料学报[J], 20: 1084-1093.
2013年:
88. Gao B, Ju X T*, Su F, Gao F B, Cao Q S, Oenema O, Christie P, Chen X P, Zhang F S 2013. Comparison of Soil Respiration in Typical Conventional and New Alternative Cereal Cropping Systems on the North China Plain. Plos One[J], 8.
89. Hu X K, Su F*, Ju X T*, Gao B, Oenema O, Christie P, Huang B X, Jiang R F, Zhang F S 2013. Greenhouse gas emissions from a wheat-maize double cropping system with different nitrogen fertilization regimes. Environmental Pollution[J], 176: 198-207.
90. Huang T, Gao B, Christie P, Ju X* 2013. Net global warming potential and greenhouse gas intensity in a double-cropping cereal rotation as affected by nitrogen and straw management. Biogeosciences[J], 10: 7897-7911.
91. Qiu S J, Ju X T*, Ingwersen J, Guo Z D, Stange C F, Bisharat R, Streck T, Christie P, Zhang F S 2013. Role of Carbon Substrates Added in the Transformation of Surplus Nitrate to Organic Nitrogen in a Calcareous Soil. Pedosphere[J], 23: 205-212.
92. Zhang W F, Dou Z X, He P, Ju X T, Powlson D, Chadwick D, Norse D, Lu Y L, Zhang Y, Wu L, Chen X P, Cassman K G, Zhang F S* 2013. New technologies reduce greenhouse gas emissions from nitrogenous fertilizer in China. Proceedings of the National Academy of Sciences of the United States of America[J], 110: 8375-8380.
93. Zhou W, Hu C S*, Li J, Christie P, He X H, Ju X T 2013. Natural N-15 Abundance in Winter Wheat Amended with Urea and Compost: A Long-Term Experiment. Pedosphere[J], 23: 835-843.
94.黄涛,仇少君,杜娟,史振侠,巨晓棠*2013.碳氮管理措施对冬小麦/夏玉米轮作体系作物产量、秸秆腐解、土壤CO2排放的影响.中国农业科学[J], 46: 756-768.
95.倪玉雪,孙卓玲,尹兴,马银丽,巨晓棠,张丽娟*2013a.外加可溶性碳源对华北典型农田土壤N2O、CO2排放的影响.水土保持学报[J], 27: 222-227.
96.倪玉雪,尹兴,刘新宇,巨晓棠,张丽娟*2013b.华北平原冬小麦季化肥氮去向及土壤氮库盈亏定量化探索.生态环境学报[J], 22: 392-397.
97.王海飞,贾兴永,高兵,黄涛,苏芳,巨晓棠*2013.不同土地利用方式土壤温室气体排放对碳氮添加的响应.土壤学报[J], 50: 1172-1182.
2012年:
98. Bao Q L, Ju X T*, Gao B, Qu Z, Christie P, Lu Y H 2012. Response of Nitrous Oxide and Corresponding Bacteria to Managements in an Agricultural Soil. Soil Science Society of America Journal[J], 76: 130-141.
99. Qiu S J, Ju X T*, Lu X, Li L, Ingwersen J, Streck T, Christie P, Zhang F S 2012a. Improved Nitrogen Management for an Intensive Winter Wheat/Summer Maize Double-cropping System. Soil Science Society of America Journal[J], 76: 286-297.
100. Qiu S J, Peng P Q, Li L, He P, Liu Q, Wu J S, Christie P, Ju X T* 2012b. Effects of applied urea and straw on various nitrogen fractions in two Chinese paddy soils with differing clay mineralogy. Biology and Fertility of Soils[J], 48: 161-172.
101. Zhang F S*, Cui Z L, Chen X P, Ju X T, Shen J B, Chen Q, Liu X J, Zhang W F, Mi G H, Fan M S, Jiang R F. INTEGRATED NUTRIENT MANAGEMENT FOR FOOD SECURITY AND ENVIRONMENTAL QUALITY IN CHINA[C]//D. L. Sparks. Advances in Agronomy, Vol 116.2012:1-40. 10.1016/b978-0-12-394277-7.00001-4.
102. Zhou W, Hu C S*, Li J, Christie P, Ju X T 2012. Natural N-15 abundance of tomato and soil amended with urea and compost. Journal of Food Agriculture & Environment[J], 10: 287-293.
103.董娴娴,刘新宇,任翠莲,吉艳芝,巨晓棠,张丽娟*2012.潮褐土冬小麦-夏玉米轮作体系氮肥后效及去向研究.中国农业科学[J], 45: 2209-2216.
104.季加敏,喻瑶,陆星,巨晓棠*2012.肥料添加剂降低N2O排放的效果与机理.植物营养与肥料学报[J], 18: 1434-1440.
105.马银丽,吉艳芝,李鑫,张琳,巨晓棠,张丽娟*2012.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.生态环境学报[J], 21: 225-230.
106.张永利,巨晓棠*2012.不同植物轮作提取深层土壤累积硝态氮的效果.中国农业科学[J], 45: 3297-3309.
2011年:
107. Gao B, Ju X T*, Zhang Q, Christie P, Zhang F S 2011. New estimates of direct N2O emissions from Chinese croplands from 1980 to 2007 using localized emission factors. Biogeosciences[J], 8: 3011-3024.
108. Ju X T*, Christie P 2011. Calculation of theoretical nitrogen rate for simple nitrogen recommendations in intensive cropping systems: A case study on the North China Plain. Field Crops Research[J], 124: 450-458.
109. Ju X T, Lu X, Gao Z L, Chen X P, Su F, Kogge M, Romheld V, Christie P, Zhang F S* 2011. Processes and factors controlling N2O production in an intensively managed low carbon calcareous soil under sub-humid monsoon conditions. Environmental Pollution[J], 159: 1007-1016.
110.保琼莉,巨晓棠*2011.夏玉米根系密集区与行间N2O浓度及与氨氧化细菌和反硝化细菌数量的关系.植物营养与肥料学报[J], 17: 1156-1165.
111.董娴娴,刘辰琛,张丽娟*,袁丽金,巨晓棠,刘新宇2011.耕层水氮调控对土壤深层累积NO-3-N运移及后效的影响.中国农业科学[J], 44: 2476-2483.
112.胡小康,黄彬香,苏芳*,巨晓棠,江荣风,张福锁2011.氮肥管理对夏玉米土壤CH4和N2O排放的影响.中国科学:化学[J], 41: 117-128.
113.刘辰琛,张丽娟*,吉艳芝,王珏,巨晓棠2011.植物栽培体系消减华北潮褐土残留硝态氮的效果研究.中国农业科学[J], 44: 1837-1846.
2010年:
114. Ju X T, Lu X, Su F, Zhang F S* 2010. Large decline in fertilizer-induced direct N2O emission estimates from Chinese intensive agriculture by minimizing both errors and nitrification of NH4+-based fertilizer. Abstracts of Papers of the American Chemical Society[J], 239.
115. Qiu S J, Ju X T*, Ingwersen J, Qin Z C, Li L, Streck T, Christie P, Zhang F S 2010. Changes in soil carbon and nitrogen pools after shifting from conventional cereal to greenhouse vegetable production. Soil & Tillage Research[J], 107: 80-87.
116. Su F, Hu X K, Huang B X, Ju X T, Zhang F S* 2010. N2O fluxes from winter wheat and cabbage field in the North China Plain. Abstracts of Papers of the American Chemical Society[J], 239.
117. Wang H Y, Ju X T, Wei Y P, Li B G, Zhao L L, Hu K L* 2010. Simulation of bromide and nitrate leaching under heavy rainfall and high-intensity irrigation rates in North China Plain. Agricultural Water Management[J], 97: 1646-1654.
118.胡小康,苏芳*,巨晓棠,江荣风,张福锁.农田土壤温室气体减排措施研究进展[C]//发展低碳农业 应对气候变化——低碳农业研讨会.中国北京,2010:4.
119.吉艳芝,巨晓棠,刘新宇,张丽娟*,李鑫,刘楠2010a.不同施氮量对冬小麦田氮去向和气态损失的影响.水土保持学报[J], 24: 113-118.
120.吉艳芝,刘辰琛,巨晓棠,张丽娟*,冯万忠,刘树庆2010b.根层调控对填闲作物消减设施蔬菜土壤累积硝态氮的影响.中国农业科学[J], 43: 5063-5072.
121.刘新宇,巨晓棠,张丽娟*,李鑫,袁丽金,刘楠2010a.不同施氮水平对冬小麦季化肥氮去向及土壤氮素平衡的影响.植物营养与肥料学报[J], 16: 296-303.
122.刘新宇,张丽娟*,袁丽金,巨晓棠,文宏达2010b.耕层水氮调控对小麦利用土壤深层累积硝态氮的影响.中国农业科学[J], 43: 3564-3571.
123.陆星,巨晓棠*,张福锁, RMheld V 2010.硅胶管气样原位采集技术研究土壤N2O浓度及通量变化.植物营养与肥料学报[J], 16: 457-464.
124.席瑞卿,赵晓进,张考学,王亚莉,巨晓棠*2010.不同施肥水平对苹果产量、品质及养分平衡的影响.西北农业学报[J], 19: 141-145.
125.叶灵,巨晓棠,刘楠,张丽娟*,袁丽金,刘文菊,刘树庆2010.华北平原不同农田类型土壤硝态氮累积及其对地下水的影响.水土保持学报[J], 24: 165-168.
126.于淑芳,杨力,张民,吴文良,巨晓棠2010a.控释肥对小麦玉米生物学性状和土壤硝酸盐积累的影响.农业环境科学学报[J], 29: 128-133.
127.于淑芳,杨力,张民,吴文良,巨晓棠,田叶2010b.控释尿素对小麦-玉米产量及土壤氮素的影响.农业环境科学学报[J], 29: 1744-1749.
128.袁丽金,巨晓棠,张丽娟*,王珏,杨志新2010.设施蔬菜土壤剖面氮磷钾积累及对地下水的影响.中国生态农业学报[J], 18: 14-19.
129.张丽娟,巨晓棠*,吉艳芝,张福锁,彭正萍2010a.夏季休闲与种植对华北潮土剖面残留硝态氮分布的影响.植物营养与肥料学报[J], 16: 312-320.
130.张丽娟,巨晓棠*,刘辰琛,寇长林2010b.北方设施蔬菜种植区地下水硝酸盐来源分析——以山东省惠民县为例.中国农业科学[J], 43: 4427-4436.
131.张丽娟,巨晓棠*,文宏达,夏晓平,刘慧2010c.土壤剖面不同土层硝态氮植物利用及运移规律研究.植物营养与肥料学报[J], 16: 82-91.
132.张强,巨晓棠*,张福锁2010.应用修正的IPCC2006方法对中国农田N2O排放量重新估算.中国生态农业学报[J], 18: 7-13.
2009年:
133. Ju X T*, Xing G X, Chen X P, Zhang S L, Zhang L J, Liu X J, Cui Z L, Yin B, Christie P, Zhu Z L, Zhang F S* 2009a. Reducing environmental risk by improving N management in intensive Chinese agricultural systems. Proceedings of the National Academy of Sciences of the United States of America[J], 106: 3041-3046.
134. Ju X T, Xing G X, Chen X P, Zhang S L, Zhang L J, Liu X J, Cui Z L, Yin B, Christie P, Zhu Z L, Zhang F S 2009b. Reducing environmental risk by improving N management in intensive Chinese agricultural systems (vol 106, pg 3041, 2009). Proceedings of the National Academy of Sciences of the United States of America[J], 106.
135. Wan Y J, Ju X T*, Ingwersen J, Schwarz U, Stange C F, Zhang F S, Streck T 2009. Gross Nitrogen Transformations and Related Nitrous Oxide Emissions in an Intensively Used Calcareous Soil. Soil Science Society of America Journal[J], 73: 102-112.
136.高强,唐艳凌,巨晓棠*,赵明宪2009.长期不同施肥处理对土壤活性氮库的影响.水土保持学报[J], 23: 95-98+114.
137.李剑睿,苏芳*,黄彬香,胡小康,巨晓棠,张福锁2009.鸡粪施入农田土壤的氨挥发研究.农业环境科学学报[J], 28: 1959-1964.
138.潘家荣,巨晓棠,刘学军,陈新平,张福锁*,毛达如2009.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.核农学报[J], 23: 334-340.
139.王珏,巨晓棠,张丽娟*,张家铜,袁丽金2009.华北平原小麦季氮肥氨挥发损失及影响因素研究.河北农业大学学报[J], 32: 5-11.
140.袁丽金,巨晓棠,刘新宇,张丽娟*,王珏2009a.耕层施磷对土壤剖面深层累积NO-3-N运移及后效的影响.中国农业科学[J], 42: 3940-3946.
141.袁丽金,巨晓棠,张丽娟*,王珏,刘新宇2009b.磷对小麦利用土壤深层累积硝态氮的影响.中国农业科学[J], 42: 1665-1671.
2008年:
142. Ingwersen J*, Schwarz U, Stange C F, Ju X T, Streck T 2008. Shortcomings in the commercialized barometric process separation measuring system. Soil Science Society of America Journal[J], 72: 135-142.
143. Ju X T, Chao F C, Li C J, Jiang R F, Christie P, Zhang F S* 2008. Yield and nicotine content of flue-cured tobacco as affected by soil nitrogen mineralization. Pedosphere[J], 18: 227-235.
144. Well R*, Flessa H, Xing L, Ju X T, Romheld V 2008. Isotopologue ratios of N2O emitted from microcosms with NH4+ fertilized arable soils under conditions favoring nitrification. Soil Biology & Biochemistry[J], 40: 2416-2426.
145. Yang L L, Zhang F S*, Mao R Z, Ju X T, Cai X B, Lu Y H 2008. Conversion of Natural Ecosystems to Cropland Increases the Soil Net Nitrogen Mineralization and Nitrification in Tibet. Pedosphere[J], 18: 699-706.
146.李录久*,张福锁,孙礼胜,孙义祥,巨晓棠,张祥明.长江流域土壤有效硫状况及油菜施硫效应[C]//中国土壤学会第十一届全国会员代表大会暨第七届海峡两岸土壤肥料学术交流研讨会.中国北京,2008:6.
147.李鑫,巨晓棠,张丽娟*,万云静,刘树庆2008.不同施肥方式对土壤氨挥发和氧化亚氮排放的影响.应用生态学报[J]: 99-104.
2007年:
148. Ju X T, Gao Q, Christie P, Zhang F S* 2007a. Interception of residual nitrate from a calcareous alluvial soil profile on the North China Plain by deep-rooted crops: A 15N tracer study. Environmental Pollution[J], 146: 534-542.
149. Ju X T, Kou C L, Christie P, Dou Z X, Zhang F S* 2007b. Changes in the soil environment from excessive application of fertilizers and manures to two contrasting intensive cropping systems on the North China Plain. Environmental Pollution[J], 145: 497-506.
150. Ju X T, Liu X J, Pan J R, Zhang F S* 2007c. Fate of 15N-labeled urea under a winter wheat-summer maize rotation on the North China Plain. Pedosphere[J], 17: 52-61.
151. Zhang L J, Ju X T*, Gao Q, Zhang F S 2007. Recovery of 15N-labeled nitrate injected into deep subsoil by maize in a calcareous alluvial soil on the north China plain. Communications in Soil Science and Plant Analysis[J], 38: 1563-1577.
152.高强,巨晓棠*,张福锁2007.几种新型氮肥对叶菜硝酸盐累积和土壤硝态氮淋洗的影响.水土保持学报[J]: 9-13.
153.李春俭,张福锁*,李文卿,赵正雄,习向银,石秋梅,晁逢春,路永宪,陶芾,秦燕青,巨晓棠,江荣风2007.我国烤烟生产中的氮素管理及其与烟叶品质的关系.植物营养与肥料学报[J]: 331-337.
154.李录久*,孙礼胜,巨晓棠,孙义祥,胡长宏,张祥明,张福锁, Popp T 2007.安徽省望江县油菜田土壤有效硫状况及硫肥效应.土壤[J]: 915-918.
155.李文卿,陈顺辉,江荣风,张福锁*,张仁椒,李春英,李春俭,巨晓棠,林祖斌2007.不同施氮量对烤烟总氮和烟碱积累的影响.中国烟草学报[J]: 31-35.
156.许超,吴良欢*,郑旭颖,巨晓棠,张福锁,夏北成2007.硝化抑制剂DMPP对菜园土供肥特性的影响.农业环境科学学报[J]: 269-272.
157.杨莉琳,张福锁*,毛仁钊,高强,巨晓棠2007.华北平原农田生态系统土壤C、N净矿化及尿素转化研究.植物营养与肥料学报[J]: 824-830.
158.张丽娟,巨晓棠*,张福锁,彭正萍2007.土壤剖面不同层次标记硝态氮的运移及其后效.中国农业科学[J]: 1964-1972.
159.甄兰,崔振岭,陈新平*,张福锁,寇长林,巨晓棠,康存水,王卫东,王月琴,朱同贵2007. 25年来种植业结构调整驱动的县域养分平衡状况的变化——以山东惠民县为例.植物营养与肥料学报[J]: 213-222.
2006年:
160. Ju X T, Kou C L, Zhang F S*, Christie P 2006a. Nitrogen balance and groundwater nitrate contamination: Comparison among three intensive cropping systems on the North China Plain. Environmental Pollution[J], 143: 117-125.
161. Ju X T, Liu X J, Zhang F S*, Christie P 2006b. Effect of long-term fertilization on organic nitrogen forms in a calcareous alluvial soil on the North China Plain. Pedosphere[J], 16: 224-229.
162. Liu X J, Ju X T, Zhang Y, He C, Kopsch J, Fusuo Z* 2006. Nitrogen deposition in agroecosystems in the Beijing area. Agriculture Ecosystems & Environment[J], 113: 370-377.
163.张颖,刘学军*,张福锁,巨晓棠,邹国元,胡克林2006.华北平原大气氮素沉降的时空变异.生态学报[J]: 1633-1639.
164.赵登超,姜远茂*,彭福田,张进,张序,巨晓棠,张福锁2006.冬枣果实硬核期对15N-尿素吸收、分配及再利用特性研究.应用生态学报[J]: 27-30.
165.钟茜,巨晓棠*,张福锁2006.华北平原冬小麦/夏玉米轮作体系对氮素环境承受力分析.植物营养与肥料学报[J]: 285-293.
2005年:
166. Ju X T, Zhang F S*, Bao X M, Romheld V, Roelcke M 2005. Utilization and management of organic wastes in Chinese agriculture: Past, present and perspectives. Science in China Series C-Life Sciences[J], 48: 965-979.
167. Liu X J, Ju X T, Chen X P, Zhang F S*, Romheld V 2005. Nitrogen recommendations for summer maize in northern China using the N-min test and rapid plant tests. Pedosphere[J], 15: 246-254.
168.寇长林,巨晓棠*,张福锁2005.三种集约化种植体系氮素平衡及其对地下水硝酸盐含量的影响.应用生态学报[J]: 660-667.
169.李录久*,巨晓棠,张福锁,孙义祥,孙礼胜,郭熙盛,张祥明, Popp T 2005.长江流域油菜田土壤硫肥力现状研究.土壤通报[J]: 564-567.
170.李文卿*,陈顺辉,江荣风,张福锁,张仁椒,李春英,李春俭,巨晓棠,林祖斌.烟田供氮对烤烟总氮和烟碱积累的影响[C]//中国烟草学会第五届理事会第二次会议暨2005年学术年会.中国广西南宁,2005a:7.
171.李文卿*,陈顺辉,江荣风,张福锁,张仁椒,李春英,李春俭,巨晓棠,林祖斌.烟田供氮对烤烟总氮和烟碱积累的影响[C]//,2005b:7.
172.许超,吴良欢*,张立民,巨晓棠,张福锁2005a.过量施用含DMPP氮肥对小白菜硝酸盐累积的影响.中国环境科学[J]: 106-110.
173.许超,吴良欢*,张立民,巨晓棠,张福锁2005b.含硝化抑制剂DMPP氮肥对小白菜硝酸盐累积和营养品质的影响.植物营养与肥料学报[J]: 137-139.
174.许超,吴良欢*,郑寨生,孔向军,杨联丰,巨晓棠,张福锁2005c.氮肥种类及用量对包心菜硝酸盐累积和营养品质的影响.科技通报[J]: 68-72.
175.张福锁*,马文奇,李隆,李春俭,陈新平,米国华,巨晓棠,刘学军,江荣风,申建波,陈范骏,于福同,王兴仁.第五章 中国植物营养研究现状及展望[C]//,2005:8.
176.张丽娟,巨晓棠*,高强,张福锁2005a.两种作物对土壤不同层次标记硝态氮利用的差异.中国农业科学[J]: 333-340.
177.张丽娟,巨晓棠*,张福锁,毕淑芹,高强2005b.小麦各生育期对土壤不同深度标记硝态氮的利用.中国农业科学[J]: 118-124.
2004年:
178. Ju X T, Liu X J, Zhang F S* 2004a. Nitrogen transformations in a Chinese aquic cambisol applied urea with dicyandiamide or plant residues. Communications in Soil Science and Plant Analysis[J], 35: 2397-2416.
179. Ju X T*, Liu X J, Zhang F S, Roelcke M 2004b. Nitrogen fertilization, soil nitrate accumulation, and policy recommendations in several agricultural regions of China. Ambio[J], 33: 300-305.
180. Liu X J, Walsh M, Ju X T, Zhang F S*, Schimel D, Ojima D 2004. NO and N2O fluxes from agricultural soils in Beijing area. Progress in Natural Science-Materials International[J], 14: 489-494.
181. Wang Z H*, Liu X J, Ju X T, Zhang F S, Malhi S S 2004. Ammonia volatilization loss from surface-broadcast urea: Comparison of vented- and closed-chamber methods and loss in winter wheat-summer maize rotation in North China Plain. Communications in Soil Science and Plant Analysis[J], 35: 2917-2939.
182.高强,巨晓棠*,张福锁.几种新型氮肥对叶菜硝酸盐累积和土壤硝态氮淋洗的影响[C]//第九届中国青年土壤科学工作者学术讨论会暨第四届中国青年植物营养与肥料科学工作者学术讨论会.中国四川成都,2004:6.
183.巨晓棠,刘学军,张福锁*2004a.不同氮肥施用后土壤各氮库的动态研究.中国生态农业学报[J]: 97-99.
184.巨晓棠,刘学军,张福锁*2004b.冬小麦生长期土壤固定态铵与微生物氮的动态研究.中国生态农业学报[J]: 95-96.
185.巨晓棠,刘学军,张福锁*2004c.长期施肥对土壤有机氮组成的影响.中国农业科学[J]: 87-91.
186.巨晓棠,刘学军,张福锁*, Roelcke M,杨晓娟2004d.中国几个农业区的氮肥、土壤氮积累以及政策推荐. AMBIO-人类环境杂志[J], 33: 278-283.
187.寇长林,巨晓棠*,高强,甄兰,张福锁2004.两种农作体系施肥对土壤质量的影响.生态学报[J]: 2548-2556.
188.刘学军,巨晓棠,张福锁*2004.减量施氮对冬小麦-夏玉米种植体系中氮利用与平衡的影响.应用生态学报[J]: 458-462.
189.许超,吴良欢*,巨晓棠,张福锁2004a.田间施用硝化抑制剂DMPP对小青菜贮藏过程中硝酸盐与Vc含量的影响.农业环境科学学报[J]: 630-632.
190.许超,吴良欢*,巨晓棠,张福锁2004b.含DMPP硫硝铵不同基追肥比例对小青菜硝酸盐累积及品质的影响.科技通报[J]: 464-467.
191.张福锁,*马文奇,李隆,李春俭,陈新平,米国华,巨晓棠,刘学军,江荣风,申建波,陈范骏,于福同,王兴仁.十多年来我国植物营养研究的部分进展与启示[C]//中国土壤学会第十次全国会员代表大会暨第五届海峡两岸土壤肥料学术交流研讨会.中国沈阳,2004:8.
192.张丽娟,巨晓棠*,高强,张福锁2004.玉米对土壤深层标记硝态氮的利用.植物营养与肥料学报[J]: 455-461.
193.邹国元,张福锁*,巨晓棠,陈新平,刘学军2004.冬小麦-夏玉米轮作条件下氮素反硝化损失研究.中国农业科学[J]: 1492-1496.
2003年:
194. Liu X J, Ju X T, Zhang F S*, Chen X P 2003a. Nitrogen recommendation for winter wheat using N-min test and rapid plant tests in North China Plain. Communications in Soil Science and Plant Analysis[J], 34: 2539-2551.
195. Liu X J, Ju X T, Zhang F S*, Pan J R, Christie P 2003b. Nitrogen dynamics and budgets in a winter wheat-maize cropping system in the North China Plain. Field Crops Research[J], 83: 111-124.
196.白优爱,巨晓棠*,陈清,李晓林2003.商品有机肥及蔬菜残体在菜地土壤中的氮素矿化研究.中国农业科技导报[J]: 45-49.
197.杜安刚,巨晓棠*,张福锁,陈拉,谢良商2003.新型肥料Entec26在土壤中的转化及其对玉米的增产效果.中国农业科技导报[J]: 47-51.
198.高强,巨晓棠*,邱慧珍,师奋志,张福锁2003.应用长效氮肥降低土壤硝酸盐淋洗的研究.吉林农业大学学报[J]: 419-424.
199.巨晓棠,刘学军,张福锁*2003a.冬小麦/夏玉米轮作中NO-3-N在土壤剖面的累积及移动.土壤学报[J]: 538-546.
200.巨晓棠,刘学军,张福锁*2003b.冬小麦/夏玉米轮作体系中土壤氮素矿化及预测.应用生态学报[J]: 2241-2245.
201.巨晓棠,潘家荣,刘学军,张福锁*2003c.北京郊区冬小麦/夏玉米轮作体系中氮肥去向研究.植物营养与肥料学报[J]: 264-270.
202.巨晓棠*,张福锁2003a.氮肥利用率的要义及其提高的技术措施.科技导报[J]: 51-54.
203.巨晓棠,张福锁*2003b.关于氮肥利用率的思考.生态环境[J]: 192-197.
204.巨晓棠,张福锁*2003c.中国北方土壤硝态氮的累积及其对环境的影响.生态环境[J]: 24-28.
205.许超,吴良欢*,郑寨生,孔向军,巨晓棠,张福锁2003.含硝化抑制剂(DMPP)氮肥对水稻产量及氮素吸收的影响.浙江农业科学[J]: 27-30.
2002年:
206.巨晓棠*.北京市海淀区东北旺乡土壤肥力调查的启示[C]//第八届全国青年土壤暨第三届全国青年植物营养与肥料科学工作者学术讨论会.中国福州,2002:5.
207.巨晓棠,刘学军,张福锁*2002a.尿素与DCD和有机物料配施条件下氮素的转化和去向.中国农业科学[J]: 181-186.
208.巨晓棠,刘学军,张福锁*2002b.尿素配施有机物料时土壤不同氮素形态的动态及利用.中国农业大学学报[J]: 52-56.
209.巨晓棠,刘学军,张福锁*2002c.小麦苗期施入氮肥在土壤不同氮库的分配和去向.植物营养与肥料学报[J]: 259-264.
210.巨晓棠,刘学军,张福锁*2002d.冬小麦与夏玉米轮作体系中氮肥效应及氮素平衡研究.中国农业科学[J]: 1361-1368.
211.巨晓棠,刘学军,邹国元,王朝辉,张福锁*2002e.冬小麦/夏玉米轮作体系中氮素的损失途径分析.中国农业科学[J]: 1493-1499.
212.巨晓棠,潘家荣,刘学军,陈新平,张福锁*,毛达如2002f.高肥力土壤冬小麦生长季肥料氮的去向研究Ⅰ.冬小麦生长季肥料氮的去向.核农学报[J]: 397-402.
213.巨晓棠*,张福锁.中国北方土壤硝态氮的累积及其对环境的影响[C]//第八届全国青年土壤暨第三届全国青年植物营养与肥料科学工作者学术讨论会.中国福州,2002:1.
214.刘侯俊,巨晓棠*,同延安,张福锁,吕家珑2002a.陕西省主要果树的施肥现状及存在问题.干旱地区农业研究[J]: 38-44.
215.刘侯俊,巨晓棠*,同延安,张福锁,吕家珑2002b.陕西省果品生产的现状及对策.中国农业科技导报[J]: 62-67.
216.刘学军,赵紫娟,巨晓棠,张福锁*2002.基施氮肥对冬小麦产量、氮肥利用率及氮平衡的影响.生态学报[J]: 1122-1128.
217.王朝辉,刘学军,巨晓棠,张福锁*2002a.北方冬小麦/夏玉米轮作体系土壤氨挥发的原位测定.生态学报[J]: 359-365.
218.王朝辉,刘学军,巨晓棠,张福锁*2002b.田间土壤氨挥发的原位测定——通气法.植物营养与肥料学报[J]: 205-209.
219.于飞健,闵顺耕*,巨晓棠,张福锁2002.近红外光谱法分析土壤中的有机质和氮素.分析试验室[J]: 49-51.
2001年:
220.巨晓棠,刘学军,潘家荣,张福锁*.北京褐土冬小麦/夏玉米轮作体系中的氮素转化和去向[C]//氮素循环与农业和环境学术研讨会.中国厦门,2001a:2.
221.巨晓棠,刘学军,张福锁*.氮肥与环境问题研究进展及趋势[C]//第七次“土壤与环境”学术研讨会.中国厦门,2001b:2.
222.刘学军,巨晓棠,潘家荣,张福锁*.小麦/玉米轮作体系中的氮素平衡与氮肥去向[C]//氮素循环与农业和环境学术研讨会.中国厦门,2001a:1.
223.刘学军,巨晓棠,潘家荣,邹国元,张福锁.*冬小麦—夏玉米轮作中的氮素平衡与损失途径[C]//氮素循环与农业和环境学术讨论会.中国厦门,2001b:10.
224.刘学军,巨晓棠,张福锁*2001c.基施尿素对土壤剖面中无机氮动态的影响.中国农业大学学报[J]: 63-68.
225.刘学军,巨晓棠,张福锁*.大气氮素沉降及其对生态系统的影响[C]//第七次“土壤与环境”学术研讨会.中国厦门,2001d:2.
226.潘家荣,巨晓棠,刘学军,张福锁*,毛达如2001.高肥力土壤冬小麦/夏玉米轮作体系中化肥氮去向研究.核农学报[J]: 207-212.
227.张福锁,巨晓棠.对我国持续农业发展中氮肥管理与环境问题的几点认识[C]//氮素循环与农业和环境学术讨论会.中国厦门,2001:15.
228.邹国元,张福锁*,陈新平,巨晓棠,刘学军,潘家荣2001a.秸秆还田对旱地土壤反硝化的影响.中国农业科技导报[J]: 47-50.
229.邹国元,张福锁*,刘宝存,陈新平,刘学军,巨晓棠.冬小麦/夏玉米轮作体系中氮的反硝化作用研究[C]//第七次“土壤与环境”学术研讨会.中国厦门,2001b:1.
2000年:
230.边秀举,巨晓棠,张福锁*,李晓林2000.尿素与有机物料在土壤中的分解转化特征研究.河北农业大学学报[J]: 29-32.
231.巨晓棠,边秀举,刘学军,张福锁,毛达如*2000a.旱地土壤氮素矿化参数与氮素形态的关系.植物营养与肥料学报[J]: 251-259.
232.巨晓棠,刘学军,张福锁*.过量施用氮肥和不合理的氮肥施用方法是氮肥引起环境污染的根源[C]//第七届全国青年土壤暨第二届全国青年植物营养科学工作者学术讨论会.中国北京,2000b:4.
233.巨晓棠,袁新民,张福锁*2000c.引起小麦倒伏的因子分析.土壤通报[J]: 143-144+146.
234.刘学军,巨晓棠,边秀举,张福锁*.基施氮肥对土壤剖面中无机氮动态的影响[C]//第七届全国青年土壤暨第二届全国青年植物营养科学工作者学术讨论会.中国北京,2000:8.
1999年:
235.边秀举,巨晓棠,刘学军,张福锁*,李晓林1999.尿素在草甸褐土中分解转化特征及影响因素的研究.河北农业大学学报[J]: 23-26.
1998年:
236.巨晓棠*,何忠俊1998.加拿大Alberta省的以水定产测土施肥技术体系.干旱地区农业研究[J]: 87-92.
237.巨晓棠,李生秀*1998.土壤氮素矿化的温度水分效应.植物营养与肥料学报[J]: 37-42.
1997年:
238.巨晓棠*1997.施肥对渭北旱塬线辣椒产量及品质影响.北方园艺[J]: 42-43.
239.巨晓棠,李生秀*1997.培养条件对土壤氮素矿化的影响.西北农业学报[J]: 67-70.
1996年:
240.巨晓棠,李生秀*1996.土壤可矿化氮对作物吸氮量的贡献.干旱地区农业研究[J]: 32-36.
241.巨晓棠,李生秀*1996.旱地土壤氮素矿化强度及数量预报模式的检验.西北农业大学学报[J]: 25-29.
1993年:
242.巨晓棠,李生秀*1993.旱地土壤供氮能力研究的进展.干旱地区农业研究[J]: 43-48.
1991年:
243.巨晓棠*1991.澄城县农田养分状况的分析.陕西农业科学[J]: 40-41.
1990年:
244.张富仓*,巨晓棠,王国防1990.土速效磷流动注射分析研究.西北农林科技大学学报(自然科学版)[J]: 108-110.
(二)
1.巨晓棠.确定作物施氮量的方法. ZL 2010 1 0548476.0
2.中国农业大学、西北农林科技大学.中华人民共和国国家版权局计算机软件著作权.农业源温室气体监测数据采集与处理系统. 2012SR108391
3.杨根平、巨晓棠、荆家海.温棚CO2施肥装置 中国1993
(三)出版专著
1. . Springer, 2020,参著.
2.宋晓桐译,巨晓棠校.《养分管理手册》. International Fertilizer Association, 2018.
3.王立刚、邱建军等著.《农业源温室气体监测技术规程与控制技术研究》.科学出版社,北京,2016,参著第2章和第7章.
4.张福锁、范明生等著.《主要粮食作物高产栽培与资源高效利用的基础研究》.中国农业出版社,北京, 2013,参著第7章.
5. Oene Oenema; Xiaotang Ju; Cecile de Klein, Reducing Emissions from Agricultural Sources. In: Drawing Down N2O to Protect Climate and the Ozone Layer. A UNEP Synthesis Report, United Nations Environment Program (UNEP), 55828, 2013.
6.朱兆良、张福锁等著.《主要农田生态系统氮素行为与氮肥高效利用的基础研究》.科学出版社,北京, 2010 ,参著第1章和第3章.
7.张福锁、崔振岭、陈新平等著.《最佳养分管理技术列单》.中国农业大学出版社,北京, 2010,参著.
8.张福锁、申建波、冯固等著.《根际生态学—过程与调控》.中国农业大学出版社,北京, 2009,参著第9章.
9.张福锁等著.《协调作物高产与环境保护的养分资源综合管理技术研究与应用》.中国农业大学出版社,北京, 2008,参著.
10.姜远茂、张宏彦、张福锁等主编.《北方落叶果树养分资源综合管理理论与实践》.中国农业大学出版社,北京, 2007,参编。
11.张福锁、马文奇、陈新平等著.《养分资源综合管理理论与技术概论》.中国农业大学出版社,北京, 2006,参著.
12.张福锁主编,陈新平、陈清、巨晓棠副主编.《作物施肥图解》.中国农业出版社, 2006.
13.周启星主编.《健康土壤学-土壤健康质量与农产品安全》.科学出版社,北京, 2005,编写第5章.
14.李振声、朱兆良、章申、张福锁、米国华等著.《挖掘生物高效利用土壤养分潜力保持土壤环境良性循环》.中国农业大学出版社,北京,2004,参著第10章.
15.张福锁主编.《养分资源综合管理》.中国农业大学出版社,北京, 2003,参编.
姜远茂、彭福田、巨晓棠编著.《果树施肥新技术》.中国农业出版社,北京, 2001.
16.“Assessment of Soil Fertility Management and Extension in Alberta”,在加拿大Alberta Agricultural, Food and Rural Development, Lethbridge撰写的英文报告(A4,76 pages), 1996.
(四)获得奖励与荣誉
1.海南大学热带作物学院领军教授A。
2.连续6年(2014-2019)进入爱思唯尔中国高被引学者榜单
3. 2016年入选汤森路透全球高被引科学家名录
4.获2020年土壤学会奖(个人成就奖)
5. “农田温室气体监测体系创建与稳产减排技术应用”获神农中华农业科技二等奖 (2019年) 排名第4
6. “我国典型旱作农田主壤氮素转化与环境效应的基础研究”获中国土壤学会科技一等奖 (2018年) 排名第1
7.“集约化旱作农田氮素循环与环境效应的基础研究”获教育部自然科学二等奖(2017年)排名第1
8.“旱地农业增产技术”获农业部科技进步三等奖(1990)主要完成人
9.“土壤/植株动态测试优化推荐施肥技术的建立与应用”获北京市科学技术进步二等奖(2004)排名12/25
10.第四届中国科协农林优秀论文遴选计划(农林)一等奖 (氮素管理的指标)
11.第三届中国科协农林优秀论文遴选计划(农林)一等奖 (Nitrogen cycling and environmental impacts in upland agricultural soils in North China: A review)
12.JIA2019年度最具影响力论文(Nitrogen cycling and environmental impacts in upland agricultural soils in North China: A review)
13. 2019年度F5000论文(理论施氮量的改进及验证——兼论确定作物氮肥推荐量的方法)
14.2019年度F5000论文(氮素管理的指标)
15. 2017年度F5000论文(氮肥有效率的概念及意义——兼论对传统氮肥利用率的理解误区)
16. 2015年度F5000论文(理论施氮量的改进及验证——兼论确定作物氮肥推荐量的方法)
17.《土壤学报》2017年度优秀论文奖(氮素管理的指标)
18.《土壤学报》2015年度优秀论文奖(理论施氮量的改进及验证——兼论确定作物氮肥推荐量的方法)
19.《土壤学报》2014年度优秀论文奖(氮肥有效率的概念及意义——兼论对传统氮肥利用率的理解误区)
20.《植物营养与肥料学报》2017-2018年度优秀论文奖(我国有机肥资源及利用)
21.《植物营养与肥料学报》2014-2015年度优秀论文奖(追氮方式对夏玉米土壤N2O和NH3排放的影响)
22.《植物营养与肥料学报》2013-2014年度优秀论文奖(我国农田氮肥的施用现状、问题及趋势)