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博士,博士生导师。2012年获云南省科学技术奖自然科学二等奖(排名第二,氮分配的进化假说-解释外来植物入侵机制的新理论),2016年获云南省西双版纳州“有突出贡献专业技术人才”荣誉称号。主持国家自然科学基金项目4项、国家重点研发计划子课题中任务1项、中国科学院西部之光项目1项。在Ecology Letters, New Phytologist, PNAS等国际期刊上发表论文30余篇,参编专著1部。兼任中国生态学会生物入侵专业委员会副秘书长、云南省生态学会理事及《Flora》期刊编委。



2008.9-2013.6  中国科学院大学,获生态学博士学位

2003.9-2006.6  河北大学,获植物学硕士学位

1999.9-2003.6  鲁东大学,获生物教育学士学位





2015.1- 2018.5,中国科学院西双版纳热带植物园,副研究员

2009.6-2014.12 中国科学院西双版纳热带植物园,助理研究员

2006.7-2009.5 中国科学院西双版纳热带植物园,研究实习员



(1)  中国生态学会生物入侵生态专业委员会 副秘书长 

(2)  云南省生态学会 理事

(3) Flora 期刊编委 



(1) 亲缘识别及亲缘竞争与入侵的关系
(2) 气候变化对外来植物入侵的影响
(3) 资源波动与外来植物入侵
(4) 本地植物对外来植物入侵的进化响应等
(5) 入侵物种的生态学效应
(6) 入侵物种的综合防控






(1)    Shi X, Li WT, Zheng YL. 2021. Soil legacy effect of extreme precipitation on a tropical invader in different land use types. Environmental and Experimental Botany, 191, 104625.

(2)    Zheng YL*, Burns JH, Wang RF, Yang AD, Feng YL. 2021. Identity recognition and the invasion of exotic plant. Flora, 280, 151828.

(3)    Shi X, Liu G, Zheng YL*. 2020. Comparisons of irradiance utilization efficiency by invasive Chromolaena odorata and its three co-occurring species in one planted understory. Flora, 271, 151680.

(4)    Zheng YL*, Burns JH, Liao ZY, Li WT, Li L. 2020. Nutrient ?uctuation has di?erent e?ects on a tropical invader in communities from the native and non-native range. Environmental and Experimental Botany, 178, 104193.

(5)    Liao ZY, Scheepens JF, Li QM, Wang WB, Feng YL*, Zheng YL*. 2020. Founder effects, post?introduction evolution and phenotypic plasticity contribute to invasion success of a genetically impoverished invader. Oecologia, 192, 105-118.

(6)    Li WT, Zheng YL*, Zhang LK, Lei YB, Li YP, Liao ZY, Li ZP, Feng YL*. 2020. Post-introduction evolution contributes to the successful invasion of Chromolaena odorata. Ecology and Evolution. 10: 1252-1263.

(7)    Zheng YL*, Liao ZY, Li WT, Wang RF, Li L, Yang AD, Zheng YG, Feng YL. 2020. The effect of resource pulses on the competitiveness of a tropical invader depends on identity of resident species and resource type. Acta Oecologica, 102: 103507.

(8)    Burns JH*, Jennifer EM, Zheng YL. 2019. Tests of alternative evolutionary models are needed to enhance our understanding of biological invasions. New Phytologist, 222: 701-707.

(9)    Liao ZY, Scheepens JF, Li WT, Wang RF, Zheng YL*, Feng YL*. 2019. Biomass reallocation and increased plasticity might contribute to successful invasion of Chromolaena odorata. Flora, 256: 79-84.

(10)Zheng YL*, Burns JH, Liao ZY, Li YP, Yang J, Chen YJ, Zhang JL, Zheng YG. 2018. Species composition, functional and phylogenetic distances correlate with success of invasive Chromolaena odorata in an experimental test. Ecology Letters, 21: 1211-1220.

(11)Zheng YL*, Liao ZY. 2017. High-density native-range species affects the invasive plant Chromolaena odorata more strongly than species from its invasive range. Scientific Reports, 7: 16075.

(12)Zheng YL, Feng YL*, Zhang LK, Callaway RM, Valiente-Banuet A, Luo DQ, Liao ZY, Lei YB, Barclay GF, Silva-Pereyra C. 2015Integrating novel chemical weapons and evolutionarily increased competitive ability in success of a tropical invader. New Phytologist, 205: 1350-1359.

(13)Zheng YL*, Feng YL, Valiente-Banuet A, Li YP, Liao ZY, Zhang JL, Chen YJ. 2015. Are invasive plants more competitive than native conspecifics? Patterns vary with competitors. Scientific Reports. 5: 15622.

(14)Qin R-M#, Zheng Y-L#, Valiente-Banuet A, Callaway RM, Barclay GF, Silva-Pereyra C, Feng Y-L*. 2013. The evolution of increased competitive ability, innate competitive advantage, and novel biochemical weapons act in concert to promote invasion by a tropical invader. New Phytologist197: 979-988 (#共同第一作者)

(15)Zheng YL*, Feng YL*, Liao ZY, Li WT, Xiao HF, Sui HZ. 2013. Invasive Chromolaena odorata has similar size but higher phenolic concentration than native conspecifics. Evolutionary Ecology Research, 2013, 15: 769-781.

(16)Zheng YL*, Feng YL, Lei YB, Liao ZY. 2012. Comparisons of plastic responses to irradiance and physiological traits by invasive Eupatorium adenophorum and its native congeners. Journal of plant physiology169: 884-891.

(17)Zheng YL*, Feng YL, Wang RF, Shi XD, Lei YB, Han LH. 2012. Invasive Eupatorium adenophorum suffers lower enemy impact on carbon assimilation than native congeners. Ecological research, 27: 867-872.

(18)Zheng YL, Feng YL*, Lei YB, Yang CY. 2009. Different photosynthetic responses to night chilling among twelve populations of Jatropha curcas. Photosynthetica, 47: 559-566.

(19)Zheng YL, Feng YL*, Liu WX, Liao ZY. 2009. Growth, biomass allocation, morphology, and photosynthesis of invasive Eupatorium adenophorum and its native congeners grown at four irradiances. Plant Ecology, 203: 263-271.

(20)Tian YH, Yuan HF, Xie J, Zheng YL*. 2016. Shade tolerance and suitability of tree species for planting in rubber plantations. Southern Forests, 78: 11-18.

(21)Tian YH, Yuan HF, Xie J, Deng JW, Dao XS, Zheng YL*. 2016. Effect of diurnal irradiance on night chilling tolerance of six rubber cultivars. Photosynthetica54: 374-380.

(22)Li YP, Feng YL*, Kang ZL, Zheng YL, Zhang JL and Chen YJ. 2017. Changes in soil microbial communities due to biological invasions can reduce allelopathic effects. Journal of Applied Ecology, 57: 1281-1290.

(23)Chen YJ, Bongers F, Tomlinson K, Fan ZX, Lin H, Zhang SB, Zheng YL, Li YP, Cao KF*, Zhang JL. 2016. Time lags between crown and basal sap flows in tropical lianas and co-occurring trees. Tree Physiology, 36: 736-747.

(24)Lu HZ, Liu WY*, Yu FH, Song L, Xu XL, Wu CS, Zheng YL, Li YP, Gong HD, Chen K, Li S, Chen X, Qi JH, Lu SG. 2015. Higher clonal integration in the facultative epiphytic fern Selliguea griffithiana growing in the forest canopy compared with the forest understory. Annals of Botany, 116: 113-122.

(25)Liao ZY, Zheng YL, Lei YB, Feng YL*. 2014. Evolutionary increases in defense during a biological invasion. Oecologia, 174: 1205-1214.

(26)Lei YB, Zheng YL, Dai KJ, Duan BL, Cai ZQ*. 2014. Different responses of photosystem I and photosystem II in three tropical oilseed crops exposed to chilling stress and subsequent recovery. Trees-Structure and Function, 28: 923-933.

(27)Xiao HF*, Schaefer DA, Lei YB, Zheng YL, Li YP, Yang XD, Feng YL. 2013. Influence of invasive plants on nematode communities under simulated CO2 enrichment. European Journal of Soil Biology, 58: 91-97.

(28)Tian YH, Lei YB, Zheng YL, Cai ZQ*. 2013. Synergistic effect of colonization with arbuscular mycorrhizal fungi improves growth and drought tolerance of Plukenetia volubilis seedlings. Acta Physiologia Plantarum, 35: 687-696.

(29)Lei YB, Wang WB, Feng YL*, Zheng YL, Gong HD. 2012. Synergistic interactions of CO2 enrichment and nitrogen deposition promote growth and ecophysiological advantages of invading Eupatorium adenophorum in Southwest China. Planta, 236: 1205-1213.

(30)Li Z, Lei YB, Zheng YL, Feng YL*. 2011. Involvement of oxidative stress and autointoxication in leaf senescence of Amomum villosum. Plant Biosystems, 145: 762-769.

(31)Lei YB, Feng YL*, Zheng YL, Wang RF, Gong HD, Zhang YP. 2011. Innate and evolutionary advantages of invasive Eupatorium adenophorum over native E. japonicum under ambient and doubled atmospheric CO2 concentrations. Biological Invasions, 13: 2703-2714.

(32)Feng YL*, Lei YB, Wang RF, Callaway RM, Valiente-Banuet A, Inderjit, Li YP, Zheng YL. 2009. Evolutionary tradeoffs for nitrogen allocation to photosynthesis versus cell walls in an invasive plant. Proceedings of the National Academy of Sciences of the United States of America, 106: 1853-1856.

(33)Feng YL*, Fu GL, Zheng YL. 2008. Specific leaf area relates to the differences in leaf construction cost, photosynthesis, nitrogen allocation and use efficiencies between invasive and noninvasive alien congeners. Planta, 228: 383-390.

(34)姚向阳,李委涛,郑玉龙*. 2014. 群落组成及物种间相互作用对外来植物入侵的影响. 生态学杂志,33: 1953-1959.

(35)李委涛,郑玉龙,冯玉龙*. 2014. 飞机草入侵种群与原产地种群生长性状的差异. 生态学报,3423:  6890-6897.

(36)郑玉龙*,类延宝,李扬平,杨成源,廖志勇,张茹. 2009. 不同种群小桐子生理及形态特性的比较研究. 生态学杂志,28: 1021-1027.

(37)郑玉龙, 冯玉龙*. 2006. 西双版纳地区附生与非附生植物叶片对雾水的吸收. 应用生态学报,17: 977-981.

(38)郑玉龙, 姜春玲, 冯玉龙*. 2005. 植物的气孔发生. 植物生理学通讯,41 (6): 847-850.

(39)郑玉龙,廖志勇. 2019. 防控飞机草入侵,我们有办法了. 大自然, 3: 60-61.




(1) 物种间相互作用与外来植物入侵的关系,国家自然科学基金面上项目,2022.1-2025.12,59万元(直接经费),32171660(主持)

(2) 紫茎泽兰和本地近缘种亲缘识别能力的比较研究。国家自然科学基金面上项目,2019.1-2022.12,72万元, 31870524。(主持)


(4) 飞机草的入侵机制-基于群落水平研究。国家自然科学基金面上项目,2017.1-2020.12,74.2 万元, 31670546。(主持)

(5) 原产地和入侵地群落构成差异与飞机草入侵的关系。中科院西部之光项目,2014.10-2018.9,30万元。(主持)

(6) 群落结构及物种间的相互作用对飞机草入侵的影响。国家自然科学基金青年基金,2013.01-2015.12,25万元,31200333。(主持)


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