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李隆

专业技术职务： 教授
行政职务：
主要研究方向： 农学
学位： 博士
联系电话： 010-62734684
电子邮箱： lilong@cau.edu.cn








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个人资料

部门： 资源与环境学院
性别： 男
民族： 汉族
--> 专业技术职务： 教授
行政职务：
主要研究方向： 农学
毕业院校： 中国农业大学
学位： 博士
--> 政治面貌： 中国共产党党员
联系电话： 010-62734684
电子邮箱： lilong@cau.edu.cn
办公地址： 中国农业大学西校区资环楼2-309
通讯地址： 北京圆明园西路2号中国农业大学资源与环境学院
邮编： 100193
传真：

教育经历

1996.09.01-1999.07.05，农学博士学位，中国农业大学，植物营养学
1994.09.01-1996.07.01，农学硕士学位，西北农业大学，作物营养与施肥
1980.09.01-1984.07.01，农学学士学位，西北农学院，土壤农化专业


工作经历
200212-，中国农业大学
200107-200211，中国农业大学
199910-200106，中科院生态环境研究中心
199807-199909，甘肃省农科院
199203-199812，甘肃省农科院
198407-199202，甘肃省农科院


-->

个人简介

李隆博士，教授，一直从事间套作体系资源高效利用的机制及长期效应的研究工作。先后主持6项国家自然科学基金资助项目，参与和主持国家重大基础研究（973）项目课题和国家科技支撑计划项目课题等5项国家级课题，主持中德和欧盟等国际合作项目。现兼任中国生态学会农业生态专业委员会委员（兼秘书长），植物营养与肥料学会土壤肥力专业委员会委员，中国自然资源学会资源持续利用与减灾专业委员会委员，曾任国际学术刊物《Journal of Plant Physiology》编委,现为国际学术刊物《Plant and Soil》编委（Editorial Board as Consulting Editor)。近五年主持完成国家重大基础研究（973）项目课题“作物多样性影响土壤地力的根际生态过程（2011-2015）”，正在主持国家基金重点项目“物种多样性维持农田生态系统生产力长期稳定的地下部生态机制（2015-2019）”和国家重点研发计划项目课题“作物间套作资源协调过程与作物生理生态响应机制”（2016-2020）”。在间套作种间相互作用提高生产力，根系相互作用、氮和磷资源高效利用方面进行了深入系统的研究。在PNAS，New Phytologist, Annals of Botany, Oecologia, Plant and Soil，Field Crops Research, Agriculture, Ecosystem and Environment和“Encyclopedia of Biodiversity (2nd edn)”等国际学术刊物和专著发表论文50多篇，被国际SCI刊物他引2000多次。间套作相关研究在国内获得6项省部级奖励。为本科生讲授“生物多样性导论”课程，为研究生讲授“生物多样性与应用”课程。
ORCID iD：https://orcid.org/0000-0003-0523-3308

教学科研概况

社会职务

联合国粮农组织农业生态顾问
中国生态学会农业生态专业委员会委员（兼秘书长）
Consulting Editor of Plant and Soil

活动动态

研究领域

主要研究领域包括3个方面：
（1）物种多样性与生产力关系；
（2）植物种间相互作用的地下部过程；
（3）间套作资源高效利用的机制。

开授课程

1、生物多样性科学导论，2019-2020，第二学期，星期二星期四，西校区
2、生物多样性科学导论，2018-2019，第二学期，星期二星期四，西校区
3、生物多样性导论，2017-2018，第二学期，星期一星期四，西校区
4、生物多样性导论，2016-2017，第二学期，星期一星期四，西校区
5、生物多样性导论，2015-2016，第二学期，星期一星期四，西校区
6、生物多样性导论，2014-2015，第二学期，星期一星期三，西校区
7、生物多样性导论，2013-2014，第二学期，星期一星期三，西校区
8、生物多样性导论，2012-2013，第二学期，星期一星期三，西校区
9、生物多样性，2012-2013，第一学期，星期三，西校区
10、生物多样性导论，2011-2012，第二学期，星期一星期三，西校区
11、生物多样性，2011-2012，第一学期，星期三，西校区
12、生物多样性导论，2010-2011，第二学期，星期三星期五，西校区
13、生物多样性，2010-2011，第一学期，星期三，西校区
14、生物多样性导论，2009-2010，第二学期，星期一，东校区
15、生物多样性导论，2008-2009，第二学期，星期一，东校区
16、生物多样性导论，2008-2009，第一学期，星期三，西校区
17、生物多样性，2008-2009，第一学期，星期三，西校区
18、生物多样性导论，2007-2008，第二学期，星期二，西校区

科研项目

纵向项目1、-2016.12.31，国家自然科学基金项目，间作体系作物根系生长、空间分布和形态变化的机理研究，主持
2、-2010.12.31，国家科技支撑计划，农田生物增氮技术与肥料减量化应用，主持
3、-2011.01.01，主管部门科技项目，间作系统种间竞争能力与作物根系生理和形态特性的关系，主持
4、-2015.12.31，主管部门科技项目，间作体系种间互作高效利用土壤和肥料磷及土壤磷形态变化特征的研究，主持
5、-2019.12.31，国家自然科学基金项目，物种多样性维持农田生态系统生产力长期稳定的地下部生态机制，主持
6、-2012.12.31，国家自然科学基金项目，集约化种植体系作物磷高效利用的根际调控途径子课题3
7、-2014.12.31，国务院其他部门，南疆地区粮食、棉花和果树间作技术模式研究，主持
8、-2010.12.31，“９７３”计划，农业生物多样性控制害虫和保护种质资源的原理和方法部分研究内容(前2年)，主持
9、-2012.12.31，“９７３”计划，作物多样性影响土壤地力的根际生态过程（前2年），主持
10、-2010.10.30，国际合作项目，蔬菜、水果研发、供给一体化模式及其采后科技的发展，主持
11、-2014.12.31，作物高效利用养分资源的根际调控机理
12、-2007.12.31，主管部门科技项目，间作体系生物固氮测定方法的选择与改进，主持
13、-2011.12.31，国家自然科学基金项目，植物种间根际效应增加草原生态系统生产力的机理研究，主持
14、-2011.12.31，国家自然科学基金项目，作物高效利用养分资源的根际调控机理
15、-2016.12.31，国家科技部，种间配置模式下氮磷肥适量投入关键技术研究及示范，主持
16、-2010.12.18，“９７３”计划，农业生物多样性综合应用模式与方法(后3年)，主持
17、-2007.12.31，国务院其他部门，土壤养分管理技术引进与建立（2）
18、-2006.12.31，国务院其他部门，土壤养分管理技术引进与建立
19、-2010.12.31，国家科技支撑计划，根际养分活化调控技术
20、-2013.12.31，国家科技支撑计划，南疆三地洲高效现代特色农业关键技术研究与集成示范，主持
21、-2018.08.31，“９７３”计划，放牧利用下土壤磷生态过程与植物生长关系（前2年），主持
22、-2020.12.31，国家科技部，作物间套作资源协调过程与作物生理生态响应机制，主持
23、-2015.12.31，“９７３”计划，作物多样性影响土壤地力的根际生态过程（后3年），主持
24、-2009.12.31，国家自然科学基金项目，间作作物种间根系相互作用提高豆科植物共生结瘤固氮的机理研究，主持

横向项目

论文

论文题目刊物名称收录类别发表年月第一作者第一作者单位排名
Root exudates drive interspecific facilitation by enhancing nodulation and N2 fixation. Proceedings of the National Academy of Sciences of USA, SCI 2017 Bai Li China Agricultural University 通讯作者
Temporal dynamics of nutrient uptake by neighbouring plant species: evidence from intercropping Functional Ecology SCI 2016 Zhang, Wei-Ping China Agricultural University 通讯作者
Perspectives for intercropping in modern agriculture EC Agriculture SCI 2016 Qiu Mei Jie China Agricultural University 通讯作者
Crop acquisition of phosphorus, iron and zinc from soil in cereal/legume intercropping systems: a critical review Annals of Botany SCI 2016 Xue Yanfang ?Shandong Acad Agr Sci 5
Intercropping affects the rate of decomposition of soil organic matter and root litter Plant and Soil SCI 2016 Cong, Wen-Feng Wageningen Univ, Ctr Crop Syst Anal, NL-6700 AK Wageningen, Netherlands;China Agr Univ, Coll Resources & Environm Sci, Beijing 100193, Peoples R China 3
Plant diversity and overyielding: insights from belowground facilitation of intercropping in agriculture. New Phytologist SCI 2015 Long Li China Agricultural University 通讯作者
High morphological and physiological plasticity of wheat roots is conducive to higher competitive ability of wheat than maize in intercropping systems Plant and Soil SCI 2015 Liu, Yi-Xiang China Agricultural University 通讯作者
Growth trajectories and interspecific competitive dynamics in wheat/maize and barley/maize intercropping Plant and Soil SCI 2015 Zhang, Wei-Ping China Agricultural University 通讯作者
Intercropping maintains soil fertility in terms of chemical properties and enzyme activities on a timescale of one decade Plant and Soil SCI 2015 Wang, Zhi-gang China Agricultural University 通讯作者
Temporal and spatial distribution of roots as affected by interspecific interactions in a young walnut/wheat alley cropping system in northwest China Agroforestry Systems SCI 2015 Zhang, W China Agricultural University,Shihezi Univ, 通讯作者
Improving intercropping: a synthesis of research in agronomy, plant physiology and ecology New Phytologist SCI 2015 Brooker, Rob W James Hutton Inst, Aberdeen AB15 8QH, Scotland 11
Intercropping enhances soil carbon and nitrogen Global Change Biology SCI 2015 Cong, Wen-Feng China Agr Univ, Coll Resources & Environm Sci, Beijing 100193, Peoples R China 3
Plant Diversity and Overyielding: Insights from Belowground Facilitation of Intercropping in Agriculture New Phytologist SCI 2015 Li, Long China Agr Univ, Coll Resources & Environm Sci, Minist Educ, Key Lab Plant & Soil Interact, Beijing 100193, Peoples R China. 通讯作者
Proteomics insights into the basis of interspecific facilitation for maize (Zea mays) in faba bean (Vicia faba)/maize intercropping Journal of Proteomics SCI 2015 Yan, Shuo China Agricultural University 通讯作者
Interspecific interactions alter root length density, root diameter and specific root length in jujube/wheat agroforestry systems Agroforestry Systems SCI 2014 Wang, B. J Shihezi Univ, Coll Agr, Shihezi 832003, Xinjiang, Peoples R China 通讯作者
Intercropping Enhances Productivity and Maintains the Most Soil Fertility Properties Relative to Sole Cropping PLoS ONE SCI 2014 Wang, Zhi-Gang China Agricultural University 通讯作者
Maize grain concentrations and above-ground shoot acquisition of micronutrients as affected by intercropping with turnip, faba bean, chickpea, and soybean Science China-Life Sciences SCI 2014 Xia HaiYong China Agricultural University 通讯作者
Plant density affects light interception and yield in cotton grown as companion crop in young jujube plantations Field Crops Research SCI 2014 Zhang, Dongsheng China Agricultural University 通讯作者
Dynamics of root length and distribution and shoot biomass of maize affected by intercropping with different companion crops and phosphorus application rates Field Crops Research SCI 2014 Xia, Hai-Yong China Agricultural University 通讯作者
Maize grain concentrations and above-ground shoot acquisition of micronutrients as affected by intercropping with turnip, faba bean, chickpea, and soybean Science China Life Science SCI 2014 Xia HaiYong China Agricultural University 通讯作者
Root distribution and interactions in jujube tree/wheat agroforestry system Agroforest Systems SCI 2014 Zhang, W China Agricultural University 通讯作者
Contribution of interspecific interactions and phosphorus application to sustainable and productive intercropping systems Field Crops Research SCI 2013 Xia, Hai-Yong China Agricultural University 通讯作者
Maximizing root/rhizosphere efficiency to improve crop productivity and nutrient use efficiency in intensive agriculture of China Journal of Experimental Botany SCI 2013 Shen, Jianbo China Agricultural University 4
The role of maize root size in phosphorus uptake and productivity of maize/faba bean and maize/wheat intercropping systems Journal of Experimental Botany SCI 2012 Zhang YiKai China Agricultural University 3
Mixed cropping with maize combined with moderate UV-B radiations lead to enhanced flavonoid production and root growth in faba bean Science China Life Sciences SCI 2012 Li, B China Agricultural University 4
Soil Acidification as Affected by Phosphorus Sources and Interspecific Root Interactions between Wheat and Chickpea Journal of Plant Interactions SCI 2012 Li, Long China Agricultural University 通讯作者
Yield advantage and water saving in maize/pea intercrop Communications in Soil Science and Plant Analysis. SCI 2012 Mao, Lili China Agricultural University 6
Maize/faba bean intercropping with rhizobia inoculation enhances productivity and recovery offertilizer P in a reclaimed desert soil Field Crops Research SCI 2012 Mei, Pei-Pei China Agricultural University 通讯作者
Crop nitrogen use and soil mineral nitrogen accumulation under different crop combinations and patterns of strip intercropping in northwest China Plant and Soil SCI 2012 Li, Chun-Jie China Agricultural University 通讯作者
Overyielding and interspecific interactions mediated by nitrogen fertilization in strip intercropping of maize with faba bean, wheat and barley Plant and Soil SCI 2011 Li, Qiu-Zhu China Agricultural University 通讯作者
Intercropping with wheat leads to greater root weight density and larger below-ground space of irrigated maize at late growth stages Soil Science & Plant Nutrition SCI 2011 Li, Long China Agricultural University 通讯作者
Effects of wheat crop density on growth of ryegrass Allelopathy Journal SCI 2011 Li, C. J. China Agricultural University 通讯作者
An improved nitrogen difference method for estimating biological nitrogen fixation in legume-based intercropping systems Biology and Fertility of Soils SCI 2010 Yu, Chang-Bing China Agricultural University 通讯作者
Rhizosphere acidification of faba bean, soybean and maize Science of the Total Environment SCI 2010 Zhou, L. L China Agricultural University 通讯作者
Intercropping alleviates the inhibitory effect of N fertilization on nodulation and symbiotic N2 fixation of faba bean Plant and Soil SCI 2009 Li, Yu-Ying China Agricultural University 通讯作者
Water supply and growing season influence glucosinolate concentration and composition in turnip root (Brassica rapa ssp.rapifera L.) Journal of Plant Nutrition and Soil Science SCI 2008 Zhang, Hongyan China Agricultural University 6
Diversity enhances agricultural productivity via rhizospher phosphorus facilitation on phosphorus-deficient soils Proceedings of the National Academy of Sciences of the United States of America SCI 2008 Li, Long China Agricultural University 通讯作者
Glucosinolate concentration in turnip (Brassica rapa ssp.rapifera L.)roots as affected by nitrogen and sulfur supply Journal of Agricultural and Food Chemistry SCI 2007 Li, Shumin China Agricultural University 4
Community composition ammonia-oxidizing bacteria in the rhizosphere of intercropped wheat, maize and faba bean Biology and Fertility of Soils SCI 2007 Song, Y. N China Agricultural University 3
Effect of intercropping on crop yield and chemical and microbiological properties in rhizosphere of wheat, maize and faba bean Biology and Fertility of Soils SCI 2007 Song, Y. N China Agricultural University 通讯作者
Wheat powdery mildew and foliar N concentrations as influenced by N fertilization and belowground interactions with intercropped faba bean Plant and Soil SCI 2007 Chen, Yuanxue China Agricultural University 通讯作者
Nitrogen fixation of faba bean(Vicia faba L.)interacting with a non-legume in two contrasting intercropping systems Plant and Soil SCI 2006 Fan, Fenliang China Agricultural University 通讯作者
Root distribution and interactions between intercropped species Oecologia SCI 2006 Li, L China Agricultural University 通讯作者
Effects of intercropping and nitrogen application on nitrate present in the profile of an Orthic Anthrosol in Northwest China. Agriculture Agriculture, Ecosystems & Environment SCI 2005 Li, WX China Agricultural University 2
Acid phosphatase role in chickpea/maize intercropping Annals of Botany SCI 2004 Li, SM China Agricultural University 通讯作者
Calcium, magnesium and microelement uptake as affected by phosphorus sources and interspecific root interactions between wheat and chickpea Plant and Soil SCI 2004 Li, L China Agricultural University 通讯作者
Effect of manganese spatial distribution in the soil profile on wheat growth in rice-wheat rotation. Plant and Soil SCI 2004 Lu, SH China Agricultural University 3
An overview of rhizosphere processes related with plant nutrition in major cropping systems in China Plant and Soil SCI 2004 Zhang, F China Agricultural University 3
Soil acidification as affected by P source and interspecific interactions between wheat and chickpea. Plant and Soil SCI 2004 Li, L China Agricultural University 1
Effects of Nitrogen and phosphorus fertilizers and intercropping on uptake of nitrogen and phosphorus by wheat, maize and faba bean Journal of Plant Nutrition SCI 2004 Li, WX China Agricultural University 2
Iron Availability as Affected by Soil Moisture in Intercropped Peanut and Maize Journal of Plant Nutrition SCI 2003 Zheng, Y China Agricultural University 4
Chickpea facilitates phosphorus uptake by intercropped wheat from an organic phosphorus source. Plant and Soil SCI 2003 Li, L China Agricultural University 通讯作者
Using competitive and facilitative interactions in intercropping systems enhances crop productivity and nutrient-use efficiency. Plant and Soil SCI 2003 Zhang, FS China Agricultural University 2
Interspecific facilitation of nutrient uptakes by intercropped maize and faba bean. Nutrient Cycling in Agroecosystems SCI 2003 Li, L China Agricultural University 1
The morphological changes of wheat genotypes as affected by the levels of localized phosphate supply Plant and Soil SCI 2003 Sun, HG China Agricultural University 3
Wheat/maize or wheat/soybean strip intercropping.I.Yield advantage and interspecific interactions on nutrients. Field Crops Research SCI 2001 Li, L China Agricultural University
Wheat/maize or soybean strip intercropping.II.Recovery or compensation of maize and soybean after wheat harvesting Field Crops Research SCI 2001 Li, L China Agricultural University
Contribution of above- and below-ground interactions to intercropping Plant nutrition: food security and sustainability of agro-ecosystems through basic and applied research. Fourteenth International Plant Nutrition Colloquium, Hannover, Germany 2001 Zhang, F. S. China Agricultural University 2
Interspecific complementary and Competitive interactions between intercropped maize and faba bean Plant and Soil SCI 1999 Li, L China Agricultural University 1

科技成果

软件著作
专利 1、一种用于研究植物种内或种间相互作用的装置及体系，2014，201410613751.0，发明专利
2、一种蚕豆与玉米间作的种植方法，2008，200810240805.8，发明专利

荣誉及奖励

1、2013,2013年度云南省科学技术进步奖
2、2013,2013年度甘肃省科学技术进步奖
3、2005,提名国家科学技术奖科技进步二等奖
4、2002,北京市科学技术奖

招生信息