张炜平

中国农业大学资源与环境学院副教授，博士生导师，青年新星（A类），主要从事植物间相互作用(竞争和互利)对种群、群落和生态系统的影响，当前研究主要关注生物多样性-生态系统功能关系。主持国家自然科学基金面上项目2项，青年基金1项、重点研发计划子课题2项、中央高校基本科研业务费专项资金项目2项。目前已累积发表SCI论文30多篇，其中以第一作者/通讯作者(含共同)在生态学权威杂志Trends in Ecology & Evolution (高被引，入选2023年中国作者在各Trends期刊上发表的被最多引用的综述和观点文章)、Journal of Applied Ecology (ISI Web of Science生态环境类排名前10%)、Functional Ecology (ISI Web of Science生态环境类排名前10%)、Field Crops Research、Plant and Soil (ISI Web of Science农林类前10%，含一篇高被引Marschner综述封面论文)、Oikos (ISI Web of Science生态学排名前20%)、Basic and Applied Ecology和Ecological Research等杂志发表多篇论文。凭借Functional Ecology论文被提名为英国生态学会“Haldane Prize” 奖候选人，该奖每年颁发给从事功能生态学研究的年轻学者(博士毕业5年内)，奖励其发表在该杂志上的论文被评为年度最佳论文。2019年度高等学校科学研究优秀成果奖（科学技术）一等奖排名第7。主讲《生态学原理与生态文明实践》获得第四届中国农业大学教师教学创新大赛一等奖（2024年）。获得中国农业大学第十届、第十一届青年教师基本功比赛优秀奖（2015、2018年）。第一届中国农业大学“最美课堂”教师教学比赛优秀奖（2021年）。资环学院首届“最美课堂”教师教学比赛一等奖（2021年）。主要承担校通识课《生态学原理与生态文明实践》和生态学本科生《基础生态学B》、《生物多样性科学导论》课程。

教育背景

2004.09-2008.08 福建师范大学地理科学和生态学理学学士，毕业时免试推荐至浙大

2008.08-2013.07 浙江大学生态学硕博连读理学博士

工作履历

2013.07-2016.12 中国农业大学资源与环境学院  讲师

2016.12- 中国农业大学资源与环境学院  副教授

2021.07-2022.02 丹麦哥本哈根大学访问学者

研究领域

1. 植物间相互作用

2. 生物多样性-生态系统功能

3. 间套作增产和资源高效利用的种间互作机制

奖励与荣誉

第四届中国农业大学教师教学创新大赛一等奖（2024年）

第一届中国农业大学“最美课堂”教师教学比赛优秀奖（2021年）

资环学院首届“最美课堂”教师教学比赛一等奖（2021年）

资环学院首届“最美课堂”教师教学比赛一等奖（2021年）

梨树县优秀专家（2020年）

资环学院第十二届青年教师基本功大赛一等奖（2020年）

梨树县优秀专家（2019年）

高等学校科学研究优秀成果奖（科学技术）一等奖，排名第7（2019年）

中国农大第十一届青年教师基本功大赛优秀奖（2018年）

资环学院第十一届青年教师基本功大赛二等奖（2018年）

中国农大第十届青年教师教学基本功比赛优秀奖（2015年）

资环学院第十届青年教师基本功大赛一等奖（2015年）

发表论文

发表论文更新信息可参见Google Scholar Citations: Wei-Ping Zhang

2023

1. Zhang, W.-P., Fornara, D., Yang, H., Yu, R.-P., Callaway, R.M. & Li, L. (2023a) Plant-litter strengthens positive biodiversity-ecosystem functioning relationships over time. Trends in Ecology and Evolution. 38, 473-484.

2. Zhang, W.-P., Li, Z.-X., Gao, S.-N., Yang, H., Xu, H.-S., Yang, X., Fan, H.-X., Su, Y., Surigaoge, Weiner, J., Fornara, D. & Li, L. (2023b) Resistance vs. surrender: Different responses of functional traits of soybean and peanut to intercropping with maize. Field Crops Research,291, 108779.

3. Zhang, Y., Sun, Z., Wang, E., Du, G., Feng, C., Zhang, W., Xu, H., Li, S., Li, Q., Zhang, L. & Li, L. (2022) Maize/soybean strip intercropping enhances crop yield in rain-fed agriculture under the warming climate: a modeling approach. Agronomy For Sustainable Development,42, 115

2022

1. Yang, H., Xu, H.-S., Zhang, W.-P., Li, Z.-X., Fan, H.-X., Lambers, H., Li, L., 2022. Overyielding is accounted for partly by plasticity and dissimilarity of crop root traits in maize/legume intercropping systems. Funct. Ecol. 36, 2163– 2175.

2. Yu R.-P., Yang H., Xing Y., Zhang W.-P., Lambers H., Li L. Belowground processes and sustainability in agroecosystems with intercropping. Plant Soil 2022; 476: 263-288.

3. Zhang, W.-P., Fornara, D., Liu, G.-C., Peñuelas, J., Sardans, J., Sun, J.-H., Zhang, L.-Z. & Li, L. (2022) Interspecific interactions affect N and P uptake rather than N:P ratios of plant species: evidence from intercropping. Journal of Plant Ecology, 15:223–236. (Editor's Choice)

4. Wu J.P., Bao X.G., Zhang J.D., Lu B.L., Zhang W.P., Callaway R.M., Li L. (2022) Temporal stability of productivity is associated with complementarity and competitive intensities in intercropping. Ecol. Appl. https://doi.org/10.1002/eap.2731

2021

1. Zhang, W.-P., Gao, S.-N., Li, Z.-X., Xu, H.-S., Yang, H., Yang, X., Fan, H.-X., Su, Y., Fornara, D. & Li, L. (2021) Shifts from complementarity to selection effects maintain high productivity in maize/legume intercropping systems. Journal of Applied Ecology,58:2603–2613.

2. Yu R-P^＃, Zhang W-P^＃, Fornara DA, Li L (2021) Contrasting responses of nitrogen: Phosphorus stoichiometry in plants and soils under grazing: A global meta-analysis. Journal of Applied Ecology 58(5): 964-975. (Co-first author)

3．Yang H, Zhang W-P, Li L. Intercropping: feed more people and build more sustainable agroecosystems. Frontiers of Agricultural Science and Engineering, 8(3): 373‒386.

4. Li, X.-F., Wang, Z.-G., Bao, X.-G., Sun, J.-H., Yang, S.-C., Wang, P., Wang, C.-B., Wu, J.-P., Liu, X.-R., Tian, X.-L., Wang, Y., Li, J.-P., Wang, Y., Xia, H.-Y., Mei, P.-P., Wang, X.-F., Zhao, J.-H., Yu, R.-P., Zhang, W.-P., Che, Z.-X., Gui, L.-G., Callaway, R.M., Tilman, D. & Li, L. (2021) Long-term increased grain yield and soil fertility from intercropping. Nature Sustainability,4, 943–950

2020

1. Zhang WP, Zhao L, Larjavaara M, Morris EC, Sterck FJ, Wang GX (2020) Height-diameter allometric relationships for seedlings and trees across china. Acta Oecologica 108:103621.

2. Yu RP, Zhang WP, Yu YC, Yu SB, Lambers H, Li L. 2020. Linking shifts in species composition induced by grazing with root traits for phosphorus acquisition in a typical steppe in Inner Mongolia. Science of the Total Environment 712, 136495.

2019

1. Stomph, T.J., Dordas, C., Baranger, A., de Rijk, J., Dong, B., Evers, J., Gu, C., Li, L., Simon, J., Jensen, E.S., Wang, Q., Wang, Y., Wang, Z., Xu, H., Zhang, C., Zhang, L., Zhang, W.-P., Bedoussac, L., van der Werf, W., 2019. Designing intercrops for high yield, yield stability and efficient use of resources: Are there principles? Advances in Agronomy. 160:1-50.

2018

1. Dong, N., Tang, M.-M., Zhang, W.-P., Bao, X.-G., Wang, Y., Christie, P., Li, L., 2018. Temporal Differentiation of Crop Growth as One of the Drivers of Intercropping Yield Advantage. Scientific Reports 8, 3110.

2. Li, X.-F., Wang, C.-B., Zhang, W.-P., Wang, L.-H., Tian, X.-L., Yang, S.-C., Jiang, W.-L., van Ruijven, J., Li, L., 2018. The role of complementarity and selection effects in P acquisition of intercropping systems. Plant Soil, 422, 479-493.

2017

1. Zhang, W. P., Liu, G. C., Sun, J. H., Fornara, D., Zhang, L. Z., Zhang, F. F., & Li, L. (2017). Temporal dynamics of nutrient uptake by neighboring plant species: evidence from intercropping. Functional Ecology, 31 , 469–479 (英国生态学会主办刊物，ESI学科Environment Ecology影响因子前10%, 5-Year IF=5.286)

2. Zhang, W.P., Jia, X., Wang, G.X., 2017. Facilitation among plants can accelerate density‐dependent mortality and steepen self‐thinning lines in stressful environments. Oikos 126, 1197-1207. (北欧生态学会主办刊物，ESI学科Environment Ecology影响因子前20%, 5-Year IF= 3.705)

2015

1. Zhang, W. P., Liu, G. C., Sun, J. H., Zhang, L. Z., Weiner, J., & Li, L. (2015). Growth trajectories and interspecific competitive dynamics in wheat/maize and barley/maize intercropping. Plant and Soil, 397:227 – 238 (ESI 学科Agriculture Science影响因子前 10%, 5-Year IF=3.581)

2. Zhang, W. P., Morris, E. C., Jia, X., Pan, S., & Wang, G. X. (2015). Testing predictions of the energetic equivalence rule in forest communities. Basic and Applied Ecology. 16, 469–479 (5-Year IF= 2.707)

3. Liu, Y.-X., Zhang, W.-P., Sun, J.-H., Li, X.-F., Christie, P. & Li, L. (2015) High morphological and physiological plasticity of wheat roots is conducive to higher competitive ability of wheat than maize in intercropping systems. Plant and Soil, 397:387 – 399. (5-Year IF=3.581)

4. 唐明明, 董楠, 包兴国, 卢秉林, 张炜平, 张美俊, 章芳芳 & 李隆 (2015) 西北地区不同间套作模式养分吸收利用及其对产量优势的影响. 中国农业大学学报, 10(5): 48-56.

2013

1. Zhang, W.P., Jia, X., Damgaard, C., Morris E.C., Bai, Y.Y., Pan, S., Wang, G.X., 2013. The interplay between above- and below-ground plant-plant interactions along an environmental gradient: insights from two-layer zone-of-influence models. Oikos. 122, 1147-1156. (北欧生态学会主办刊物，ESI学科Environment Ecology影响因子前20%, 5-Year IF= 3.705, 著名生态学家、哥本哈根大学Jacob Weiner教授对本文给予高度评价)

2. Pan, S., Liu, C., Zhang, W., Xu, S., Wang, N., Li, Y., Gao, J., Wang, Y., Wang, G., 2013. The Scaling Relationships between Leaf Mass and Leaf Area of Vascular Plant Species Change with Altitude. PloS one 8, e76872. (5-Year IF= 3.535)

3．张炜平, 潘莎, 贾昕, 储诚进, 肖洒, 林玥, 白燕远, 王根轩, 2013. 植物间正相互作用对种群动态和群落结构的影响：基于个体模型的研究进展. 植物生态学报 37, 571-582.

2012

1. Zhang, W.P., Jia, X., Morris E.C., Bai, Y.Y., Wang, G.X., 2012. Stem, branch and leaf biomass-density relationships in forest communities. Ecological Research. 27, 819-825. (5-Year IF=1.707)

2. Wang, N., Xu, S.S., Jia, X., Gao, J., Zhang, W.P., Qiu, Y.P., Wang, G.X., 2012. Variations in foliar stable carbon isotopes among functional groups and along environmental gradients in China – a meta-analysis. Plant Biology. 15: 144-151. (5-Year IF=2.488)

3. 仇云鹏，张炜平，王根轩, 2012. 富食悖论研究进展. 生命科学. 24, 593-597.

2011

1. Zhang, W.P., Jia, X., Bai, Y.Y., Wang, G.X., 2011. The difference between above- and below-ground self-thinning lines in forest communities. Ecological Research. 26, 819-825. (5-Year IF=1.707)

2. Bai, Y.Y., Zhang, W.P., Jia, X., Wang, N., Xu, S.S., Wang, G.X., 2011. How lateral dimension of roots determines aboveground self-thinning. Ecological Complexity. 8, 310-312. (5-Year IF= 3.058)

2010

1. Bai, Y.Y., Zhang, W.P., Jia, X., Wang, N., Zhou, L., Xu, S.S., Wang, G.X., 2010. Variation in root:shoot ratios induced the differences between above and belowground mass-density relationships along an aridity gradient. Acta Oecologia. 36, 393-395. (5-Year IF=1.830)

2. Zhang, H., Wang, G.X., Zheng, K.F., Zhang, W.P., 2010. Mass-density relationship changes along salinity gradient in Suaeda salsa L. Acta Physiol. Plant. 32, 1031-1037. (5-Year IF=1.692)

3. 张炜平, 王根轩, 2010. 植物邻体间的正相互作用. 生态学报 30, 5371-5380.

2009

1. Dai, X.F., Jia, X., Zhang, W.P., Bai, Y.Y., Zhang, J.Y., Wang, Y., Wang, G.X., 2009. Plant height–crown radius and canopy coverage–density relationships determine above-ground biomass–density relationship in stressful environments. Biology Letters. 5, 571-573. (5-Year IF= 3.381)

2007

1. 黄聚聪, 张炜平, 李熙波, 2007. 亚热带主要人工林乔木层生物量影响因子研究. 林业勘察设计 1, 146-150

2. 黄聚聪, 张炜平, 李熙波, 2007. 福建长汀河田水土流失原因综述. 亚热带水土保持19, 26-29

3. 张炜平, 黄聚聪, 李熙波, 2007. 杉木林林下植被生物量影响因素. 福建林业科技 3, 97-99

4. 黄聚聪, 张炜平, 李熙波, 2007. 杉木林枯枝落叶层现存量的影响因素分析. 福建林业科技 34, 92-96

二、出版著作:
 1. Agroecology Development in China. CRC Press, 2015, 参编.

科研项目

1. 国家自然科学基金面上项目“黑土区玉米/豆科连续间作增加土壤团聚体稳定性的机制”（2024-2027）

2. 国家自然科学基金面上项目“连续间作体系中豆科残茬对后季禾本科氮吸收的贡献及调控机制”（2020-2023）

3. 国家重点研发计划项目子课题：“典型黑土区梨树模式多样化种植关键技术研发与示范”（2022-2027）

4. 国家重点研发计划项目子课题：“基于品质提升的苍术复合生态种植技术研究”（2022-2025）

5. 国家自然科学基金青年基金项目“间套作系统作物和土壤碳氮磷化学计量时间动态特征及调控机制”（ 2016-2018 ）

6. 中央高校基本科研业务费专项资金项目新教师科研启动基金“植物间相互作用的时空动态及其对群落异速关系的影响”（ 2014-2016 ）

7、中央高校基本科研业务费专项资金学校统筹研究项目“玉米豆科连续间作体系的生物多样性效应及其对土壤肥力的影响”(2020-2020)

审稿

Journal of Ecology, Journal of Applied Ecology, Functional Ecology, Agriculture, Ecosystems and Environment, Field Crops Research, Plant Ecology, Plant and Soil, Journal of Plant Ecology, Acta Oecologica, 植物科学学报, 植物生态学报等期刊审稿人

热诚欢迎对植物种群生态学、农田生态学感兴趣的学生加入研究团队

1. 生物多样性-生态系统功能

2. 植物间相互作用

3. 间套作增产和资源高效利用的种间互作机制

4.功能性状

本科生课程：近十年课程数据

纵向项目

论文题目	刊物名称	收录类别	发表年月	第一作者或全部作者	第一作者单位	排名
Plant-litter strengthens positive biodiversity-ecosystem functioning relationships over time	Trends in Ecology and Evolution	SCI	2023	张炜平	中国农业大学	1
Shifts from complementarity to selection effects maintain high productivity in maize/legume intercropping systems	Journal of Applied Ecology	SCI	2021	张炜平	中国农业大学	1
Temporal dynamics of nutrient uptake by neighboring plant species: evidence from intercropping	Functional Ecology	SCI	2017	张炜平	中国农业大学	1
Resistance vs. surrender: Different responses of functional traits of soybean and peanut to intercropping with maize	Field Crops Research	SCI	2023	张炜平	中国农业大学	1
Interspecific interactions affect N and P uptake rather than N:P ratios of plant species: evidence from intercropping	Journal of Plant Ecology	SCI	2022	张炜平	中国农业大学	1
Maize/peanut intercropping has greater synergistic effects and home-field advantages than maize/soybean on straw decomposition	Front Plant Sci	SCI	2023	苏日高格	中国农业大学	通讯作者
Height-diameter allometric relationships for seedlings and trees across China	Acta Oecologica	SCI	2021	张炜平	中国农业大学	1
Facilitation among plants can accelerate density-dependent mortality and steepen self-thinning lines in stressful environments	Oikos	SCI	2017	张炜平	中国农业大学	1
Growth trajectories and interspecific competitive dynamics in wheat/maize and barley/maize intercropping	Plant and Soil	SCI	2015	张炜平	中国农业大学	1
Testing predictions of the energetic equivalence rule in forest communities	Basic and Applied Ecology	SCI	2015	张炜平	中国农业大学	1

软件著作 专利