陈新平
发布时间2017-09-07 09:16:57    作者:    浏览次数: 次

陈新平男,1988年毕业于中国农业大学(原北京农业大学)土壤农业化学专业并获得学士学位,1993年毕业于中国农业大学(原北京农业大学)植物营养学专业并获得硕士学位,2003年毕业于德国霍恩海姆(Hohenheim)大学植物营养学专业并获得博士学位。现任西南大学资源环境学院长江学者特聘教授、博士生导师,任农业部肥料评审登记委员会第六、七、八届委员,中国农业科学院学术委员会第八届委员。

 

【工作履历】

1988.7-1990.9,安徽省马鞍山市农经委土肥站,干部

1993.7-1994.7,北京农业大学资源与环境学院,助教

1994.7-1998.12,中国农业大学资源与环境学院,讲师 

其中:1996.11-1997.5,美国Iowa州立大学,进修

1998.12-2003.12,中国农业大学资源与环境学院,副教授

2003.12-2017.7,中国农业大学资源与环境学院,教授

其中:2012.01-2012.12,美国夏威夷大学,进修

2017.4-,西南大学资源环境学院,教授

 

【研究领域】

研究方向:养分资源管理(Nutrient Resource Management)

研究内容:i我国主要农作物养分资源综合管理的理论与技术

ii. 作物高产与资源高效利用的土壤-作物体系综合管理

iii. 应用光谱技术进行农田和区域的作物营养诊断和施肥管理

iv. 区域养分资源管理和农业可持续集约化

v. 肥料新产品研发、评价与应用

 

【奖励与荣誉】

教育部长江学者奖励计划特聘教授 2016年)

农业部农业科研杰出人才(2015年)

中国自然资源学会 优秀科技奖 第一完成人2015年)

国家科技进步奖 二等奖 第二完成人(2008年)

教育部 新世纪优秀人才支持计划2005

北京市科技进步奖 二等奖 第二完成人(2004年)

北京市科技新星(2002

国家科技进步奖三等奖 第六完成人(1998年)

农业部科技进步奖二等奖 第六完成人(1997年)

 

【学术成果】

一) 近五年发表文章

2017

1.Liu BH, Chen XP*, Meng QF*, Yang HS, van Wart J. 2017. Estimating maize yield potential and yield gap with agro-climatic zones in China—Distinguish irrigated and rainfed conditions. Agricultural and Forest Meteorology, 239, 108-117. (SCI)

2. Meng QF, Wang HF, Yan P, Pan JX, Lu, DJ, Cui, ZL, Zhang FS, Chen XP* .2017. Designing a new cropping system for high productivity and sustainable water usage under climate change. Scientific Reports, 7, 41587. (SCI)

3. Guo JM, Wang YH, Blaylock AD, Chen XP*. 2017. Mixture of controlled release and normal urea to optimize nitrogen management for high-yielding (> 15 Mgha− 1) maize. Field Crops Research, 204, 23-30. (SCI)

4. Zhang BG, Li Q, Cao J, Zhang CY, Song Z, Zhang FS, Chen XP* .2017. Reducing nitrogen leaching in a subtropical vegetable system. Arriculture, Ecosystems and Environment, 241: 133-141

5. Chen XP, Zhang YQ, Tong YP,  Xue YF, Liu DY,  Zhang W, Deng Y, Meng QF, Yue SC,  Yan P, Cui ZL, Shi XJ, Guo SW, Sun YX, Ye YL, Wang ZH, Jia LL, Ma WQ, He MR, Zhang XY,  Kou CL, Li YT, Tan DS, Cakmak I, Zhang FS & Zou CQ. Harvesting more grain zinc of wheat for human health. Scientific Reports, DOI:10.1038/s41598-017-07484-2

6. Yan P, Pan JX, Zhang WJ, Shi JF, Chen XP, Cui ZL*.2017. A high plant density reduces the ability of maize to use soil nitrogen. PloS one, 12(2), e 0172717. (SCI)

7. Liu DY, Zhang W, Yan P, Chen XP, Zhang FS, Zou CQ*. 2017. Soil application of zinc fertilizer could achieve high yield and high grain zinc concentration in maize. Plant and Soil, 411(1-2), 47-55. (SCI)

8. Zhang W, Liu DY, Liu YM, Chen XP, Zou CQ*. 2017. Overuse of phosphorus fertilizer reduces the grain and flour protein contents and zinc bioavailability of winter wheat (Triticum aestivum L.). Journal of Agricultural and Food Chemistry, 65(8), 1473-1482. (SCI)

9. Liu DY, Liu YM, Zhang W, Chen XP, Zou CQ*. 2017. Agronomic Approach of Zinc Biofortification Can Increase Zinc Bioavailability in Wheat Flour and thereby Reduce Zinc Deficiency in Humans. Nutrients, 9(5), 465. (SCI)

10. Liu DY, Zhang W, Pang LL, Zhang YQ, Wang XZ, Liu YM, Chen XP, Zhang FS, Zou CQ*. 2017. Effects of zinc application rate and zinc distribution relative to root distribution on grain yield and grain Zn concentration in wheat. Plant and Soil, 1-12. (SCI)

11. Zhang W, Chen XX, Liu YM, Liu DY, Chen XP, Zou CQ. 2017. Zinc uptake by roots and accumulation in maize plants as affected by phosphorus application and arbuscular mycorrhizal colonization. Plant and Soil, 413(1-2), 59-71. (SCI)

12.Zhang W, Liu DY, Li C, Chen XP, Zou CQ. 2017. Accumulation, partitioning, and bioavailability of micronutrients in summer maize as affected by phosphorus supply. European Journal of Agronomy, 86, 48-59. (SCI)

13.Deng Y, Feng G, Chen XP, Zou CQ. 2017. Arbuscular mycorrhizal fungal colonization is considerable at optimal Olsen-P levels for maximized yields in an intensive wheat-maize cropping system. Field Crops Research, 209, 1-9. (SCI)

2016

1.    Cui ZL, Vitousek PM, Zhang FS, Chen XP*. 2016. Strengthening Agronomy Research for Food Security and Environmental Quality. Environmental Science & Technology, 50:1639−1641 (SCI)

2.    Meng QF, Chen XP*, Lobell DB, Cui ZL, Zhang Y ,Yang HS, Zhang FS. Growing sensitivity of maize to water scarcity under climate change. Scientific Reports, 6: 10.1038/srep19605 (SCI)

3.    Zhan A , Zou CQ, Ye YL, Liu ZH, Cui ZL*, Chen XP. 2016. Estimating on-farm wheat yield response to potassium and potassium uptake requirement in China. Field Crops Research,191: 13-19 (SCI)

4.    Lu DJ, Yue SC, Lu FF, Cui ZL*, Liu ZH, Zou CQ, Chen XP. 2016. Integrated crop-N system management to establish high wheat yield population. Field Crops Research, 191:66-74 (SCI)

5.    Meng QF, Yue SC , Hou P, Cui ZL*, Chen XP. 2016. Improving Yield and Nitrogen Use Efficiency Simultaneously for Maize and Wheat in China: A Review. Pedosphere, 26(2):137-147 (SCI)

6.    Yan P , Yue SC, Meng QF , Pan JX, Ye YL, Chen XP, Cui ZL*. 2016. Understanding of the Accumulation of Biomass and Nitrogen is Benefit for Chinese Maize Production. Agronomy Journal,108(2): 895-904 (SCI)

7.    Guo JM, Wang YH, Fan TL, Chen XP, Cui ZL*. 2016. Designing Corn Management Strategies for High Yield and High Nitrogen Use Efficiency. Agronomy Journal, 108(2): 922-929 (SCI)

8.  Zhang W, Liu D Y, Liu Y M, Cui Z L, Chen X P, Zou C Q. 2016. Zinc uptake and accumulation in winter wheat relative to changes in root morphology and mycorrhizal colonization following varying phosphorus application on calcareous soil. Field Crops Research 197: 74-82 (SCI)

2015

1.    Bu LD, Chen XP*, Li SQ , Liu JL, Zhu L, Luo SS, Hill RL, Zhao Y. 2015. The effect of adapting cultivars on the water use efficiency of dryland maize (Zea mays L.) in northwestern China. Agricultural water management, 148: 1-9(SCI)

2.    Zhao Y, Chen XP, Cui ZL, Lobell DB. 2015. Using satellite remote sensing to understand maize yield gaps in the North China Plain. Field Crops Research.183:31-42(SCI)

3.    Wu LQ, Cui ZL*, Chen XP , Yue SC, Sun YX , Zhao RF , Deng Y , Zhang W, Chen KR. 2015.Change in phosphorus requirement with increasing grain yield for Chinese maize production. Field Crops Research.180:216-220(SCI)

4.    Liu JL , Zhan A , Chen H , Luo SS, Bu LD, Chen XP, Li SQ. 2015. Response of nitrogen use efficiency and soil nitrate dynamics to soil mulching in dryland maize (Zea mays L.) fields. Nutrient cycling in agroecosystems,101(2): 271-283(SCI)

5     Lu DJ, Lu FF, Pan JX, Cui ZL, Zou CQ , Chen XP , He MR, Wang ZL. 2015. The effects of cultivar and nitrogen management on wheat yield and nitrogen use efficiency in the North China Plain, field crops research,171:157-164(SCI)

6.    Wu L, Chen XP, Cui ZL*, Wang GL, Zhang WF. 2015. Improving nitrogen management via a regional management plan for Chinese rice production. Environmental Research Letters, 10(9): DOI: 10.1088/1748-9326/10/9/095011(SCI)

7.    Lu DJ, Lu FF, Pan JX , Cui ZL*, Zou CQ , Chen XP, He MR , Wang ZL. 2015. Manure limits wheat yield losses due to delayed seeding. Agronomy Journal.107(6): 2294-2302(SCI)

8.    Yu, K , Gnyp, ML , Gao, CL, Miao, YX, Chen, XP, Bareth, G. 2015. Estimate Leaf Chlorophyll of Rice Using Reflectance Indices and Partial Least Squares. Photogrammetrie fernerkundung geoinformation, 1 : 45-54(SCI)

9.    Zhan A , Chen XP, Li SQ*, Cui ZL. 2015. Changes in Phosphorus Requirement with Increasing Grain Yield for Winter Wheat. Agronomy Journal, 107(6): 2003-2010(SCI)

10.   Zhang W , Liu DY, Li C , Cui ZL, Chen XP, Russell Y , Zou CQ*. 2015. Zinc accumulation and remobilization in winter wheat as affected by phosphorus application. FIELD CROPS RESEARCH, 184: 155-161(SCI)

11.   Yan P, Zhang Q, Shuai XF, Pan JX, Zhang WJ, Shi JF, Wang M, Chen XP, Cui z L*. 2015. Interaction between plant density and nitrogen management strategy in improving maize grain yield and nitrogen use efficiency on the North China Plain. Journal of Agricultural Science,1-11(SCI)

2014

1.    Chen XP, Cui ZL, Fan MS. 2014. Producing more grain with lower environmental costs, Nature, 514, 486-489 (SCI)

2.    Deng Y, Chen KR, Teng W, Zhan A, Tong YP, Feng G, Cui ZL, Zhang FS, Chen XP*. 2014. Is the Inherent Potential of Maize Roots Efficient for Soil Phosphorus Acquisition? PLoS ONE 9(3):1-9(SCI)

3.    Meng QF, Hou P, Lobell D B, Wang HF, Cui ZL, Zhang FS, Chen XP*. 2014. The benefits of recent warming for maize production in high latitude China. Climatic change, 122(1-2):341-349), (SCI)

4.    Cui ZL, Wang GL, Yue SC, Wu L, Zhang, Zhang FS, Chen XP*. 2014. Closing the N‑use efficiency gap to achieve food and environmental security. Environmental Science & Technology, 48, 5780−5787. (SCI)

5.    Cui ZL, Ye YL, M WQ, Chen XP*, Zhang FS. 2014. Trade-offs between high yields and greenhouse gas emissions inirrigation wheat cropland in China, Biogeosciences, 11, 2287–2294, IF= 3.753(SCI)

6.    Wu L, Chen XP, Cui ZL*, Zhang WF, Zhang FS. 2014. Establishing for a Regional Nitrogen Application Rate to Mitigate Greenhouse Gas Emission Intensity from Intensive Smallholder Maize Production. PLOSone, 9(5). IF=3.534 (SCI)

7.    Wang GL, Ye YL, Chen XP, Cui ZL*. 2014. Determining the optimal nitrogen rate integrating agronomic, economic and environmental aspects for summer maize in China. Biogeosciences. (SCI)

8.    Wang GL, Chen XP, Cui ZL*, Yue SC Zhang FS. 2014. Estimated reactive nitrogen losses for intensive maize production in China. Agriculture, Ecosystems and Environment. 197, 293–300 (SCI)

9.    Lu DJ, Yan P, Lu FF, Chen XP, Cui ZL*, Zou CQ, Zhang FS. 2014. Elucidating population establishment associated with N management and cultivars for wheat production in China. Field Crops Research, 163:81-89. (SCI)

10.   Wu LQ, Cui ZL*, Chen XP, Zhao RF, Si DX, Sun YX, Yue SC. 2014. High-Yield Maize Production in Relation to Potassium Uptake Requirements in China. Agronomy Journal, 106(4):1153-1158, (SCI)

11.   Yue SC, Sun FuL, Meng QF, Zhao RF, L F, Chen XP, Zhang FS, Cui ZL*. 2014. Validation of a Critical Nitrogen Curve for Summer Maize in the North China Plain. Pedosphere. 24(1): 76–83, (SCI)

12.   Yan P, Yue SC, Qiu ML, Chen XP, Cui ZL*, Chen FJ. 2014. Using maize hybrids and in-season nitrogen management to improve grain yield and grain nitrogen concentrations. Field Crops Research, 166:38-45 DOI: 10.1016/j.fcr. 2014.06.012(SCI)

13.   Liu JL, Bu LD, Zhu L, Luo SS, Chen XP, Li SQ*. 2014. Optimizing Plant Density and Plastic Film Mulch to Increase Maize Productivity and Water-Use Efficiency in Semiarid Areas. Agronomy Journal, 106 (4): 1138-1146 DOI: 10.2134/agronj13.0582 (SCI)

14.   Liu JL, Zhu L, Luo SS, Bu LD, Chen XP, Yue SC , Li SQ* . 2014. Response of nitrous oxide emission to soil mulching and nitrogen fertilization in semi-arid farmland. Agriculture Ecosystems Environment, 188: 20-28 .DOI: 10.1016/j.agee. 2014.02.010(SCI)

15.   Liu JL, Zhan A, Bu LD, Zhu L, Luo SS, Chen XP, Cui ZL, Li SQ*, Hill RL, Zhao Y. 2014. Understanding Dry Matter and Nitrogen Accumulation for High-Yielding Film-Mulched Maize. Agronomy Journal, 106(2): 390-396 DOI:10.2134/agronj2013.0404 (SCI)

16.   Bu LD, Liu JL, Zhu L, Luo SS, Chen XP, Li SQ*. 2014. Attainable yield achieved for plastic film-mulched maize in response to nitrogen deficit. European Journal Of Agronomy, 55: 53-62(SCI)

17.   Zhan A, Chen XP, Li SQ*. 2014. The combination of localized phosphorus and water supply indicates a high potential for savings of irrigation water and phosphorus fertilizer. Journal of plant nutrition and soil science, 177( 6): 884-891(SCI)

18.  Xue Y F, Yue S C, Zhang W, Liu D Y, Cui Z L, Chen X P, Ye Y L, Zou C Q (2014) Zinc, Iron, Manganese and Copper Uptake Requirement in Response to Nitrogen Supply and the Increased Grain Yield of Summer Maize. Plos One 9: e93895(SCI)

19.  Xue Y F, Zhang W, Liu D Y, Yue S C, Cui Z L, Chen X P, Zou C Q (2014) Effects of nitrogen management on root morphology and zinc translocation from root to shoot of winter wheat in the field. Field Crops Research 161: 38-45(SCI)

2013

1.    Zhang FS, Chen XP, Vitousek P. 2013. An experiment for the world. Nature,497(7447): 33-35(SCI)

2.    Cui ZL, Yue SC, Wang GL, Meng QF, Wu L, Yang ZP, Zhang Q, Li SQ, Zhang FS, Chen XP*. 2013. Closing the yield gap could reduce projected greenhouse gas emissions: a case study of maize production in China. Global Change Biology, 19(8): 2467-77(SCI)

3.    Cui ZL, Chen XP*, and Zhang FS. 2013. Development of Regional Nitrogen Rate Guidelines for Intensive Cropping Systems in China. Agronomy Journal, 105(5): 1411-1416(SCI)

4.    Cui ZL, Yue SC, Wang GL, Zhang FS, Chen XP*. 2013. In-season root-zone N management for mitigating greenhouse gas emission and reactive N losses in intensive wheat production. Environmental Science & Technology, 47(11): 6015-6022(SCI)

5.    Yu K, Li F, Gnyp ML*, Miao YX, Bareth G, Chen XP*. 2013. Remotely detecting canopy nitrogen concentration and uptake of paddy rice in the Northeast China Plain. Isprs Journal of Photogrammetry and Remote Sensing.78: 102-115(SCI)

6.    Meng QF, Hou P, Wu L, Chen XP*, Cui ZL, Zhang FS. 2013. Understanding production potentials and yield gaps in intensive maize production in China. Field Crops Research, 143: 91-97(SCI)

7.    Wu LQ, Ma WQ, Zhang CC, Wu L, Zhang WF, Jiang RF, Zhang FS , Cui ZL*, Chen XP. 2013. Current potassium-management status and grain-yield response of Chinese maize to potassium application. Journal of Plant Nutrition and Soil Science, 176(3): 441-44(SCI)

8.  Zhang SS, Yue SC, Yan P, Qiu ML, Chen XP, Cui ZL*. 2013. Testing the suitability of the end-of-season stalk nitrate test forsummer corn (Zea mays L.) production in China. Field Crops Research, 1-5

9.    Meng QF, Yue SC, Chen XP, Cui ZL*, Ye, YL, Ma WQ, Tong YN, Zhang FS. 2013. Understanding dry matter and nitrogen accumulation with time-course for high-yielding wheat production in china. PLoS ONE, 8: 768-783(SCI)

2012

1.    Hou P , Gao Q , Xie RZ , Li SK , Meng QF , Kirkby EA , Romheld V , Muller T , Zhang FS , Cui ZL* , Chen XP* . 2012. Grain yields in relation to N requirement: Optimizing nitrogen management for spring maize grown in China. Field Crops Research, 129:1-6 (SCI)

2.    Yue SC,Meng QF, Zhao RF, Li F, Chen XP, Zhang FS, Cui ZL*.2012. Critical nitrogen dilution curve for optimizing N management of winter wheat production  in the North China Plain. Agronomy Journal, 104: 523-529 (SCI)

3.    Yue SC, Meng QF, Zhao RF, Ye YL, Zhang FS, Cui ZL*, Chen XP*. 2012. Change in nitrogen requirement with increasing grain yield for winter wheat. Agronomy Journal, 104: 1687-1693. (SCI)

4.    Zhang Y, Hou P, Gao Q , Chen XP , Zhang FS , Cui ZL* . 2012. On-Farm Estimation of Nutrient Requirements for Spring Corn in North China. Agronomy Journal, 104: 1436-1442(SCI)

5.    Meng QF, Chen XP, Zhang FS , Cao MH , Cui ZL* , Bai JS , Yue SC , Chen SY , Muller T . 2012. In-Season Root-Zone Nitrogen Management Strategies for Improving Nitrogen Use Efficiency in High-Yielding Maize Production in China. Pedosphere, 22: 294-303(SCI)

6.    Meng QF,Sun QP , Chen XP , Cui ZL* , Yue SC , Zhang FS , Romheld V . 2012. Alternative cropping systems for sustainable water and nitrogen use in the North China Plain. Agriculture Ecosystems and Environment, 146: 93-102(SCI)

7.    Zhang FS* , Cui ZL , Chen XP , Ju XT , Shen JB ,Chen Q ,Liu XJ, Zhang WF, Mi GH , Fan MS , Jiang RF . 2012. Chapter One - Integrated nutrient management for food security and environmental quality in China. Advances in Agronomy, 116: 1-40(SCI)

8.    Cao N , Chen XP ,Cui ZL* , Zhang FS.2012.Change in soil available phosphorus in relation to the phosphorus budget in China. Nutrient Cycling In Agroecosystems, 94(2-3):161-170(SCI)

) 出版著作:

1.   中国三大作物大配方和施肥建议. 中国农业出版社,北京 2016,主编

2.   西南玉米田间种植手册. 中国农业出版社,北京 2014,参编

3.         黄淮海玉米田间种植手册. 中国农业出版社,北京 2014,参编

4.   西北灌溉玉米田间种植手册. 中国农业出版社,北京 2013,参编

5.   北方春玉米田间种植手册. 中国农业出版社,北京 2013,参编

6.   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,北京2013,参编

7.   高产高效养分管理技术,中国农业大学出版社,2012,副主编

8.   北方旱作玉米田间种植手册. 中国农业出版社,北京 2011,参编

9.   最佳养分管理技术列单,中国农业大学出版社,2010,副主编

10.  主要作物高产高效技术规程,中国农业大学出版社,2010,主编

11.  中国主要作物施肥指南,中国农业大学出版社,北京,2009,主编

12.  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,主编

13.  测土配方施肥技术要览,中国农业大学出版社,北京,2006,副主编

14.  作物施肥图解,中国农业出版社,北京,2006,副主编

三) 专利

1.         陈新平,张毅,崔振岭,张福锁.一种功能型水稻专用肥及其制备方法. 中国发明专利201210039580.6

2.         陈新平,张毅,崔振岭,张福锁.一种水稻专用肥及其制备方法. 中国发明专利201210039580.6

3.         陈新平,司东霞,崔振岭,张福锁. 一种玉米育苗控释复混肥及其制备方法. ZL 2010 1 0131945.9

4.         杨俊刚,陈新平,崔振岭,张福锁. 小麦专用肥及其应用. 中国发明专利. ZL 200910078633.3

5.         陈新平,张清伟,崔振岭,张福锁,王好斌. 一种颗粒锌肥. 中国发明专利.授权号: 200810223530.7

6.         陈新平,司东霞,崔振岭,胡树文,张福锁. 一种黄瓜控释保水育苗培养基及其制备方法. 中国发明专利.200810222788.5

7.         陈新平,杨俊刚,崔振岭,张福锁,曹一平. 东北玉米专用肥料及其制备方法. 中国发明专利.授权号:ZL200710065228.9

8.   陈新平,崔振岭,张福锁. 一种小麦专用肥,中国农业大学. 中国发明专利.授权号:ZL200410037616.2

 

联系地址:重庆市北碚区天生路2号,西南大学资源环境学院213办公室

办公电话:023-68251082

E-mail: chenxp2017@swu.edu.cn