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姓名:刘小军
性别:
职称:教授
历:博士
方向:作物精确栽培、养分高效利用
联系方式:E-mail:liuxj@njau.edu.cn; Tel:84396804

个人简介:

刘小军,197910月生,江西永新人,博士,教授。在南京农业大学获得农学学士、作物栽培学与耕作学硕士及作物信息学博士学位。主要从事作物精确栽培、养分资源高效利用等方面的研究,作为主要完成人研究建立了作物管理知识模型及作物精确栽培理论体系等;并担任国家信息农业工程技术中心农业精确管理实验室负责人。先后主持国家自然科学基金、国家863计划、国家重点研发专项、江苏省自然科学基金、省科技支撑计划、省农业三新工程项目、省教育厅科研创新项目、中央高校基本科研业务费等多个科研项目;在国内外核心期刊发表论文100余篇,其中SCI论文34篇,EI论文16篇;授权国家发明专利7项,登记国家计算机软件著作权17项;参编《数字农作技术》专著1部、《农业信息学》及《精确农业概述》教材各1部;作为主要完成人,先后获得国家科技进步二等奖2项、教育部科技进步一等奖2项、江苏省科技进步一等奖1项、江苏省农业技术推广一等奖1项;并获校工会积极分子、农学院优秀新人奖、优秀教师、优秀共产党员及优秀班主任等荣誉称号。担任Computer and Electronics in AgricultureField Crops ResearchArchives of Agronomy and Soil Science等期刊审稿人。

近年来发表的SCI论文 (2012年-至今)

1.       Liu X, Cao Q, Yuan Z, Liu X,Wang X, Tian Y, Cao W, Zhu Y*. Leaf area index based nitrogen diagnosis inirrigated lowland rice. Journal ofIntegrative Agriculture. 2018, 17(1): 60345-7.

2.       Lv Z, Zhu Y, Liu X,Ye H, Tian Y, Li F. Climate change impacts on regional rice production inChina. Climatic Change, 2018, 147:523–537.

3.       Liu X, Ferguson R, Zheng H, CaoQ, Tian Y, Cao W, Zhu Y*. Using an active-optical sensor to develop an optimalNDVI dynamic model for high-yield rice production (Yangtze, China). Sensors. 2017, 17(4): 672.

4.       Liu X, Zhang K, Zhang Z, Cao Q,Lv Z, Yuan Z, Tian Y, Cao W, Zhu Y*. Canopy chlorophyll density based index forestimating nitrogen status and predicting grain yield in rice. Frontiers in Plant Science. 2017, 8:1829.

5.       Lv Z, Liu X(Co-first author), Cao W, Zhu Y*. A model-based estimate of regional wheatyield gaps and water use efficiency in main winter wheat production regions of China.Scientific Reports. 2017, 7: 6081.

6.       Ata-Ul-Karim S, LiuX, Lu Z, Zheng H, Cao W, Zhu Y*. Estimationof nitrogen fertilizer requirement for rice crop using critical nitrogendilution curve. Field Crops Research.2017, 201: 32-40.

7.       Zhang Y, Tang L, LiuX, Liu L, Cao W, Zhu Y*. Modeling curve dynamics and spatial geometrycharacteristics of rice leaves. Journalof Integrative Agriculture. 2017, 16(10): 2177-2190.

8.       Zhang Y, Tang L, LiuX, Liu L, Cao W, Zhu Y*. Modeling the leaf angle dynamics in riceplant. Plos One. 2017, 12(2):e0171890.

9.       Ata-Ul-Karim S, Zhu Y, LiuX, Cao Q, Tian Y, Cao W*. Comparison of different critical nitrogendilution curves for nitrogen diagnosis in rice. Scientific Reports. 2017, 7: 42679.

10.   He Z, Qiu X, Ata-Ul-Karim, S, Li Y, Liu X, Cao Q, Zhu Y, Cao W, Tang L*. Development of a criticalnitrogen dilution curve of double cropping rice in south China. Frontiers in Plant Science. 2017, 8: 638.

11.   Lv Z, Liu X (Co-firstauthor), Tang L, Liu L, Cao W, Zhu Y*. Estimation ofecotype-specific cultivar parameters in a wheat phenology model and uncertaintyanalysis. Agricultural and ForestMeteorology, 2016, 221: 219-229.

12.   Yuan Z, Ata-Ul-Karim S, Cao Q, Lu Z, Cao W, Zhu Y, Liu X*. Indicators fordiagnosing nitrogen status of rice based on chlorophyll meter readings. Field Crops Research, 2016, 185:12-20.

13.   Yuan Z, Cao Q, Zhang K, Ata-Ul-Karim ST, Tian Y, Zhu Y, CaoW, Liu X*. Optimal leaf positionsfor SPAD meter measurement in rice. Frontiersin Plant Science, 2016, 7:719.

14.   Zhao B, Ata-UI-Karim ST, Yao X, Tian Y, Cao W, Zhu Y, Liu X*. A New Curve of CriticalNitrogen Concentration Based on Spike Dry Matter for Winter Wheat in EasternChina. PLoS ONE, 2016, 11(10):e0164545.

15.   Ata-Ul-Karim S, LiuX, Lu Z, Yuan Z, Zhu Y, Cao W*. In-season estimation of rice grainyield using critical nitrogen dilution curve. Field Crops Research. 2016, 195:1-8.

16.   Ata-Ul-Karim S, Yao X, Liu X, Cao W, Zhu Y*.Determination of Critical Nitrogen Dilution Curve Based on Stem Dry Matter inRice. PLos One. 2014, 9(8): e104540.

17.   Zhang Y, Tang L, LiuX, Liu L, Cao W, Zhu Y*. Modeling Dynamics of Leaf Color Based on RGBValue in Rice. Journal of IntegrativeAgriculture. 2014, 13(4): 749-759.

18.   Zhang Y, Tang L, LiuX, Liu L, Cao W, Zhu Y*. Modeling morphological dynamics and colorcharacteristics of rice panicle. EuropeanJournal of Agronomy. 2014, 52: 279-290.

19.   Liu L, Zhu Y, Liu X,Cao W, Xu M, Wang X, Wang E*. Spatiotemporal Changes in Soil Nutrients: A CaseStudy in Taihu Region of China. Journalof Integrative Agriculture. 2014, 13(1): 187-194.

20.   Zhao B, Yao X, Tian Y, LiuX, Ata-Ul-Karim S, Ni J, Cao W, Zhu Y*. New Critical Nitrogen CurveBased on Leaf Area Index for Winter Wheat. AgronomyJournal. 2014, 106(2): 379-389.

21.   Yao X, Zhao B, Tian Y, LiuX, Ni J, Cao W, Zhu Y*. Using leaf dry matter to quantify the criticalnitrogen dilution curve for winter wheat cultivated in eastern China. Field Crops Research. 2014, 159: 33-42.

22.   Yao X, Ata-Ul-Karim S, Zhu Y, Tian Y, Liu X, Cao W*. Development of critical nitrogen dilutioncurve in rice based on leaf dry matter. EuropeanJournal of Agronomy. 2014, 55: 20-28.

23.   Lv Z, Liu X,Cao W, Zhu Y*. Climate change impacts on regional winter wheat production inmain wheat production regions of China. Agriculturaland Forest Meteorology. 2013, 171: 234-248.

24.   Ata-Ul-Karim S, Yao X, LiuX, Cao W, Zhu Y*. Development of critical nitrogen dilution curve ofJaponica rice in Yangtze River Reaches. FieldCrops Research. 2013, 149: 149-158.

25.   Jiang X, Tang L, LiuX, Cao W, Zhu Y*. Spatial and Temporal Characteristics of RicePotential Productivity and Potential Yield Increment in Main Production Regionsof China. Journal of IntegrativeAgriculture. 2013, 12(1): 45-56.

26.   Yao X, Yao X, Tian Y, Ni J, Liu X, Cao W, Zhu Y*. A New Method to Determine CentralWavelength and Optimal Bandwidth for Predicting Plant Nitrogen Uptake in WinterWheat. Journal of Integrative Agriculture.2013, 12(5): 788-802.

27.   Wang W, Yao X, Tian Y, LiuX, Ni J, Cao W, Zhu Y*. Common Spectral Bands and Optimum VegetationIndices for Monitoring Leaf Nitrogen Accumulation in Rice and Wheat. Journal of Integrative Agriculture.2012, 11(12): 2001-2012.

28.   Wang W, Yao X, Yao X, Tian Y, Liu X, Ni J, Cao W, Zhu Y*. Estimating leaf nitrogenconcentration with three-band vegetation indices in rice and wheat. Field Crops Research. 2012, 129: 90-98.

承担的主要科研项目:

1.   长江中下游小麦适宜指标动态模型及诊断调控,国家重点研发专项任务课题,175万元,2016.1-2020.12.

2.   南方稻麦轮作区稻麦精准变量施肥管理模型研发,国家重点研发专项任务课题,160万元,2016.1-2020.12.

3.   长江下游稻作区水稻临界氮浓度稀释模型及追氮调控方法研究,中央高校基本科研业务费重点项目,25万元,2016.1-2018.12.

4.   作物精确管理技术在宜兴市的集成与示范,江苏省农业三新工程,35万元,2016.5-2018.4.

5.   冬小麦植株适宜氮浓度模型及诊断指标研究,国家自然科学基金项目,21万元,2013.1-2015.12.

6.   小麦适宜氮素指标动态模型及诊断方法研究,江苏省自然科学基金,20万元,2013.1-2015.12.

7.   基于传感网的稻麦生长诊断与调控技术开发应用,江苏省农业三新工程,55万元,2013.8-2015.7.

8.   麦稻精准农作平行管理系统实现关键技术,国家863计划,230万元,2012.1-2015.11.

9.   基于Web服务的数字农作管理系统研究,江苏省科技支撑计划,50万元,2009.7-2012.7.

10. 种植业生产过程信息化关键技术与产品研发,国家科技支撑计划子课题,70万元,2006.11-2009.10.

11. 农田感知与智慧管理技术服务,横向课题,30万元,2018.7-2018.12.

获得的主要科研奖励:

1.  稻麦生长指标光谱监测与定量诊断技术。2015年,国家科技进步二等奖(排名:6/10

2.  基于模型的作物生长预测与精确管理技术。2008年,国家科技进步二等奖(排名:5/10

3.   作物管理知识模型系统的构建与应用。2008年,教育部科技进步一等奖(排名:5/15

4.   稻麦生长指标无损监测与精确诊断技术。2014年,江苏省科技进步一等奖(排名:6/11

5.   稻麦精确管理技术的集成与推广。2017年,江苏省农业技术推广一等奖(排名:3/25



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