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  • 姓名:李春俭

  • 性别:男

  • 职称:教授/博士生导师

  • Emaill:lichj@cau.edu.cn

  • 办公电话:010-62733886

  • 办公地址:资环楼四区211室

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教育背景

1978.02 -1982.01  西北大学               植物生理学 本科 理学学士

1982.02 -1984.12  西北大学               植物发育生理学  理学硕士

1988.04 -1993.02  德国霍恩海姆大学 植物生理学         理学博士

 

工作履历

1984.12-1988.03 西北大学生物系植物生理教研室 讲师

1993.02-1994.03 德国霍恩海姆大学 博士后

1994.04-1996.01 中国农业大学生物学院植物生理生化博士后流动站 博士后

1996.02-              中国农业大学资源与环境学院 教授

 

学术兼职

《植物生理学报》编委(2010-)

《植物营养与肥料学报》编委(2008-)

《中国农业科学》编委(2010-)

 

研究领域

1. 植物营养生理

2. 根系生物学

 

奖励与荣誉

《福建烤烟碳氮代谢机理及其调控技术研究》获中国烟草总公司福建省公司科学技术进步二等奖(2013)排名三

研究生教材《高级植物营养学》(2008年出版)被评为北京市高等教育精品教材(2011)

《小麦玉米高效利用磷的生理机制研究》获河北省自然科学奖(2010)

《高级植物营养学》重点课程建设获中国农业大学2008年校级教学成果二等奖(2008)排名三

《提高作物养分资源利用效率的根际调控机理研究》获国家自然科学二等奖(2005)排名三

中国农业大学师德标兵(2004)

《云南烤烟烟叶含钾量提高的关键措施研究》获云南省科技进步三等奖(2003)排名三

研究课题《植物适应养分胁迫的根际效应机理研究》获北京市科技进步二等奖(2002)排名三

研究生课程《高级植物营养学》获中国农业大学优秀课程奖(2002)

研究生课程《植物营养与施肥专题》教学改革获中国农业大学优秀教学成果一等奖(1997)

 

学术成果

一、发表论文

2016年:

1. Yu P, Jutta A. Baldauf, ALithio, C Marcon, D Nettleton, CJ Li, F Hochholdinger. 2016. Root type-specific reprogramming of maize pericycle transcriptomes by local high nitrate results in disparate lateral root branching patterns. Plant Physiol, 170:1783–1798.
2. Liu HT, Philip J. White, CJ Li. 2016. Biomass partitioning and rhizosphere responses of maize and faba bean to phosphorus deficiency. Crop & Past Sci, 67:847–856.
3. Yu P,Caroline Gutjahr, CJ Li, Frank Hochholdinger. 2016. Genetic Control of Lateral Root Formation in Cereals. DOI: Trend in Plant Science, http://dx.doi.org/10.1016/j.tplants.2016.07.011.
4. Peng YF, Zeng XT, Houx III JH, Boardman DL, Li CJ, Fritschi FB. 2016. Pre- and post-silkingcarbohydrate concentrationsin maize ear-leaves and developing earsin response to nitrogen availability. Crop Sci, 56:1–10.doi: 10.2135/cropsci2016.03.0183.
2015年:
1. Teng W, Li WQ, Li CJ. 2015 Comparison of N uptake and internal use efficiency in two tobacco varieties. The Crop J, 3:80-86.
2. Ning P, Li S, Philip White, Li CJ. 2015. Maize varieties released in different eras have similar root length density distributions in the soil, which are negatively correlated with local concentrations of soil mineral nitrogen. PloS ONE 23, 10(3): e0121892
3. Yu P, Li XX, Philip J. White, Li CJ.2015. A large and deep root system underlies high nitrogen-use efficiency in maize production. PloS ONE 10(5): e0126293.
4. Yu P, Kai Eggert, Nicolaus von Wirén, Chunjian Li, Frank Hochholdinger. 2015. Cell-type specific gene expression analyses by RNA-Seq reveal local high nitrate triggered lateral root initiation in shoot-borne roots of maize by modulating auxin-related cell cycle-regulation. Plant Physiol, 169: 690–704.
5. Yu P, Frank Hochholdinger, Li CJ. 2015. Root-type specific plasticity in response to localized high nitrate supply in maize (Zea mays L.). Ann Bot, 116:751–762.
6. Yu P, Philip J. White, Li CJ. 2015. New insights to lateral rooting: differential responses to heterogeneous nitrogen availability among maize root types. Plant Signaling & Behavior, DOI: 10.1080/15592324.2015.1013795.
2014年:
1. Yu P, Li XX, Yuan LX, Li CJ. 2014. A novel morphological response of maize (Zea mays L.) adult roots to heterogeneous nitrate supply revealed by a split-root experiment. Physiol Plant, 150: 133–144.
2. Peng YF, Li CJ, Fritschi FB. 2014. Diurnal dynamics of maize leaf photosynthesis and carbohydrate concentrations in response to differential N availability. Environ and Exp Bot, 99:18-27.
3. Ning P, Li S, Li XX, Li CJ. 2014. New maize hybrids had larger and deeper post-silking root than old ones. Field Crops Res, 166: 66-71.
4. Yu P, Philip J. White, Frank Hochholdinger,Chunjian Li. 2014. Phenotypic plasticity of the maize root system in response to heterogeneous nitrogen availability. Planta, 240: 667-678.
2013年:
1. Ning P, Li S, Yu P, Zhang Z, Li CJ.2013. Post-silking accumulation and partitioning of dry matter, nitrogen, phosphorus and potassium in maize varieties differing in leaf longevity. Field Crops Res, 144: 19-27.
2. Peng YF, Yu P, Li XX, Li CJ. 2013. Determination of the critical soil mineral nitrogen concentration for maximizing maize grain yield. Plant Soil, 372:41-51.
3. Yu P, Li XX, Yuan LX, Li CJ. 2013. A novel morphological response of maize (Zea mays L.) adult roots to heterogeneous nitrate supply revealed by a split-root experiment. Physiol Plant, 150: 133–144.
4. Peng YF, Li CJ, Fritschi FB. 2013. Apoplastic infusion of sucrose into stem internodes during female flowering does not increase grain yield in maize plant grown under nitrogen limiting conditions. Physiol Plant, 148: 470–480.
5. Zhang Y, Chen FJ, Li XX, Li CJ. 2013. Higher leaf area and post-silking P uptake conferred by introgressed DNA segments in the backcross maize line 224. Field Crops Res, 151:78–84.
2012年:
1. Ning P, Liao CS, Li S, Yu P, Zhang Y, Li XX, Li CJ. 2012. Maize cob plus husks mimics the grain sink to stimulate nutrient uptake by roots. Field Crops Res, 130: 38-45.
2. Peng YF, Yu P, Zhang Y, Sun G, Ning P, Li XX, Li CJ. 2012. Temporal and spatial dynamics in root length density of field-grown maize and NPK in the soil profile. Field Crops Res, 131:9-16.
3. Peng Y, Li X, Li C. 2012. Temporal and spatial profiling of root growth revealed novel response of maize roots under various nitrogen supplies in the field. PLoS ONE 7(5): e37726.
4. Zhang K, Tian CY, Li CJ. 2012. Root growth and spatio-temporal distribution of three common annual halophytes in a saline desert, Northern Xinjiang. J Arid Land, 4: 330−341.
5. Liao CS, Liu RY, Zhang FS, Li CJ, Li XX. 2012. Nitrogen under- and over-supply induces distinct protein responses in maize (Zea mays L.) xylem sap. J Integr Plant Biol, 54: 374-387.
6. Liao CS, Peng YF, Ma W, Liu RY, Li CJ, Li XX. 2012. Proteomic analysis revealed nitrogen-mediated metabolic, developmental, and hormonal regulation of maize (Zea mays L.) ear growth. J Exp Bot, 63: 5275-5288.
7. Zhang Y, Yu Peng, Peng Yun-Feng, Li Xue-Xian, Chen Fan-Jun, Li Chun-Jian. 2012. Fine root patterning and balanced inorganic phosphorus distribution in the soil indicate distinctive adaptation of maize plants to phosphorus deficiecncy. Pedosphere, 22: 870-877.
 8. Liao CS, Hochholdinger F, Li CJ. 2012. Comparative analyses of three legume species reveals conserved and unique root extracellular proteins. Proteomics, 12: 3219–3228.
2011年:
1. Yan HF, Li K, Ding H, Liao CS, Li XX, Yuan LX, Li CJ. 2011. Root morphological and proteomic responses to growth restriction in maize plants supplied with sufficient N. J Plant Physiol, 168: 1067-1075.
2. MA W, Li XX, Li CJ. 2011. Modulation of soil particle size and nutrient availability in the maize rhizosheath. Pedosphere, 21: 483-490.
2010年:
1. Yunfeng Peng, JunfangNiu, Zhengping Peng, Fusuo Zhang, Chunjian Li. 2010. Shoot growth potential drives N uptake in maize plants and correlates with root growth in the soil. Field Crops Res, 115: 85–93.
2. JunfangNiu, Yunfeng Peng, Chunjian Li, Fusuo Zhang. 2010. Changes in root length at the reproductive stage of maize plants grown in the field and quartz sand. J Plant Nutr Soil Sci, 173:306-314.
3. Fusuo Zhang, JunfangNiu, Weifeng Zhang, Xinping Chen, Chunjian Li, Lixing Yuan, JianchangXie. 2010. Potassium nutrition of crops under varied regimes of nitrogen supply. Plant Soil, 335: 21–34.
4. Wei Ma, Nils Muthreich, Chengsong Liao, Mirita Franz-Wachtel, Wolfgang Schütz, Fusuo Zhang, Frank Hochholdinger, Chunjian Li. 2010. The mucilage proteome of maize (Zea mays L.) primary roots. J Proteome Res, 9:2968–2976.
5. Wei MA, Frank Hochholdinger, LI Chun-Jian. 2010. Comparative studies on identification of miaze secreted proteome by different analyzing techniques. Spectroscopy and Spectral Analysis, 30:2762-2766.
6. Zhao ZX, Li CJ, Yang YH, Zhang FS.2010. Why does potassium concentration in flue-cured tobacco leaves decrease after apex excision? Field Crops Res, 116: 86-91.
7. Yan HF, Shang AX, Peng YF, Yu P, Li CJ. 2011. Covering middle leaves and ears reveals differential regulatory roles of vegetative and reproductive organs in root growth and nitrogen uptake in maize. Crop Sci, 51:265-272.

(注:以上仅整理了2010年以后发表的英文文献)