研究方向:
1. 植物功能性状的关联、进化与生态适应;2. 联系系统发育和功能性状研究物种多样性维持;3. 木质藤本与树木的相互作用及其对森林更新和动态的影响。学习经历
2009.07-2010.01,University of Alberta, Canada,访问学者;
2004.09-2008.07,中国科学院西双版纳热带植物园,理学博士学位;
2000.09-2004.03,中国科学院西双版纳热带植物园,理学硕士学位;
1994.09-1998.06,华南农业大学农学系,农学学士。
工作经历
2025.07– ,中国科学院西双版纳热带植物园,党委书记、副主任;
2016.01– ,中国科学院西双版纳热带植物园,研究员;
2013.04– ,中国科学院西双版纳热带植物园,植物生理生态组,组长;
2022.08–2025.07,中国科学院昆明分院,副院长、分党组成员;
2021.10–2021.12,中国科学院西双版纳热带植物园,科技外事处,处长;
2021.03–2022.08,中国科学院西双版纳热带植物园,副主任;
2020.07–2021.09,中国科学院热带森林生态学重点实验室,常务副主任;
2019.05–2021.11,中国科学院西双版纳热带植物园,公共技术中心,主任;
2017.03–2020.07,中国科学院西双版纳热带植物园,园主任助理;
2015.10–2019.08,中国科学院西双版纳热带植物园,元江干热河谷生态站,站长;
2015.07–2020.07,中国科学院热带森林生态学重点实验室,副主任;
2015.10–2022.08,中国科学院西双版纳热带植物园,党委委员;
2010.08–2015.12,中国科学院西双版纳热带植物园,副研究员;
2006.02–2010.07,中国科学院西双版纳热带植物园,助理研究员;
1998.07–2006.01,中国科学院西双版纳热带植物园,研究实习员。
代表性论文
1. Zhang YB, Huang XY, Scalon MC, Ke Y, Liu JX, Wang Q, Li WH, Yang D, Ellsworth DS, Zhang YJ*, Zhang JL*. 2025. Mistletoes have higher hydraulic safety but lower efficiency in xylem traits compared to their hosts. New Phytologist 245(2): 607–624.
2. Zhang YB, Scalon MC, Liu JX, Song XY, Yang D, Zhang YJ, Ellsworth DS, Zhang JL*. 2023. You are what you eat: nutrient and water relations between mistletoes and hosts. New Phytologist 238(2): 567–583.
3. Chen YJ#, Maenpuen P#, Zhang JL*, Zhang YJ*. 2023. Remaining uncertainties in the Pneumatic method. New Phytologist 237(2): 384–391.
4. Chen YJ#*, Maenpuen P#, Zhang YJ*, Barai K, Katabuchi M, Gao H, Kaewkamol S, Tao LB, Zhang JL*. 2021. Quantify vulnerability to embolism in tropical trees and lianas using five methods: Can discrepancies be explained by xylem structural traits? New Phytologist 229(2): 805–819.
5. Huang XY, Zhang YB*, Scalon MC, Ke Y, Li WH, Yang D, Aritsara ANA, Zhang YJ, Wan ZL, Cheng XL, Zhang JL*. 2025. Survival secrets of mistletoes: high drought tolerance in canopy habitats. Tree Physiology, 45(7): tpaf071.
6. Xiao Y, Yang D*, Zhang SB, Mo YX, Dong YY, Wang KF, He LY, Dong B, Dossa GGO, Zhang JL*. 2024. Nitrogen-fixing and non-nitrogen-fixing legume plants differ in leaf nutrient concentrations and relationships between photosynthetic and hydraulic traits. Tree Physiology 44(5): tpae048.
7. Zhang YB, Yang D, Zhang KY, Bai XL, Wang YSD, Wu HD, Ding LZ, Zhang YJ, Zhang JL*. 2022. Higher water and nutrient use efficiencies in savanna than in rainforest lianas result in no difference in photosynthesis. Tree Physiology 42(1): 99–113.
8. Zhang KY#, Yang D#, Zhang YB#, Ellsworth DS, Xu K, Zhang YP, Chen YJ, He F, Zhang JL*. 2021. Differentiation in stem and leaf traits among sympatric lianas, scandent shrubs and trees in a subalpine cold temperate forest. Tree Physiology 41(11): 1992–2003.
9. Gao H, Chen YJ*, Zhang YJ, Maenpuen P, Lv S, Zhang JL*. Vessel-length determination using silicone and air injection: Are there artifacts? Tree Physiology 39(10): 1783–1791.
10. Zhang JL, Meng LZ, Cao KF. 2009. Sustained diurnal photosynthetic depression in uppermost-canopy leaves of four dipterocarp species in the rainy and dry seasons: does photorespiration play a role in photoprotection? Tree Physiology 29(2):217–228.
11. Wang XZ#, Sun SW#, Sedio BE, Glomglieng S, Cao M, Cao KF, Yang JH, Zhang JL*, Yang J*. 2022. Niche differentiation along multiple functional-trait dimensions contributes to high local diversity of Euphorbiaceae in a tropical tree assemblage. Journal of Ecology 110(11): 2731–2744.
12. Zhang J-L*, Zhang S-B, Chen Y-J, Zhang Y-P, Poorter L. 2015. Nutrient resorption is associated with leaf vein density and growth performance of dipterocarp tree species. Journal of Ecology 103(3): 541–549.
13. Chen YJ, Schnitzer SA, Zhang YJ, Fan ZX, Goldstein G, Tomlinson KW, Lin H, Zhang JL*, Cao KF*. 2017. Physiological regulation and efficient xylem water transport regulate diurnal water and carbon balances of tropical lianas. Functional Ecology 31(2): 306−317.
14. Zhang JL, Cao KF. 2009. Stem hydraulics mediates leaf water status, carbon gain, nutrient use efficiencies and plant growth rates across dipterocarp species. Functional Ecology 23(4):658-667.
15. Zhang KY, Yang D, Zhang YB, Ai XR, Yao L, Deng ZJ, Zhang JL*. 2024. Linkages among stem xylem transport, biomechanics and storage in lianas and trees across three contrasting environments. American Journal of Botany 111(3): e16290.
16. Zhang KY, Yang D*, Zhang YB, Liu Q, Wang YSD, Ke Y, Xiao Y, Wang Q, Dossa GGO, Schnitzer SA, Zhang JL*. 2023. Vessel dimorphism and wood traits in lianas and trees among three contrasting environments. American Journal of Botany 110(4): e16154.
17. Maenpuen P, Katabuchi M*, Onoda Y, Zhou C, Zhang JL*, Chen YJ. 2022. Sources and consequences of mismatch between leaf disc and whole-leaf leaf mass per area (LMA). American Journal of Botany 109(8): 1242–1250.
18. Li YP, Feng YL*,Li WT, Tomlinson K, Liao ZY, Zheng YL, Zhang JL*. 2022. Leaf trait association in relation to herbivore defense, drought resistance, and economics in a tropical invasive plant. American Journal of Botany 109(6): 109(6): 910–921.
19. Li JW, Zhang SB*, Xi HP, Bradshaw CJA, Zhang JL*. 2020. Processes controlling programmed cell death of root velamen radicum in an epiphytic orchid. Annals of Botany 126(2): 261–275.
20. Zhang JL, Poorter L, Hao GY, Cao KF. 2012. Photosynthetic thermotolerance of woody savanna species in China is correlated with leaf lifespan. Annals of Botany 110(5): 1027–1033.
21. Xue W, He XM, Wang Q, Shi PJ, Lv GH, Huang JF, Yang D, Zhang JL*. 2024. An improved representative of stomatal models for predicting diurnal stomatal conductance at low irradiance and vapor pressure deficit in tropical rainforest trees. Agricultural and Forest Meteorology 354: 110098.
22. Yang D#, Wang YSD#, Wang Q, Ke Y, Zhang YB, Zhang SB, Zhang YJ*, McDowell NG, Zhang JL*. 2023. High resilience of savanna plants to an extreme and prolonged drought: Leaf hydraulic adjustment and stomatal regulation protect stem hydraulic integrity. Science of the Total Environment 868: 161711.
23. Xiao Y, Song Y, Wu FC, Zhang SB*, Zhang JL*. 2021. Divergence of stem biomechanics and hydraulics between Bauhinia lianas and trees. AoB Plants 13(3): plab016.
24. Zhang YB, Wu HD, Yang J, Song XY, Yang D, He F, Zhang JL*. 2020. Environmental filtering and spatial processes shape the beta diversity of liana communities in a valley savanna in Southwest China. Applied Vegetation Science 23(4): 482–494.
25. Gupta SK*, Da Y, Zhang YB, Pandey V, Zhang JL*. 2023. Tropospheric ozone is a catastrophe, and ethylenediurea (EDU) is a phytoprotectant, recent reports on climate change scenario: A review. Atmospheric Pollution Research 14(11): 101907.
26. Bai XL#, Liu Q#, Mohandass D, Cao M, Wen HD, Chen YJ, Gupta SK, Lin LX, Zhang JL*. 2022. Spatial autocorrelation shapes liana distribution better than topography and host tree properties in a subtropical evergreen broadleaved forest in SW China. Biotropica 54(2): 301–308.
27. Zhang JL*, Zhang SB, Zhang YP, Kitajima K. 2015. Effects of phylogeny and climate on seed oil fatty acid composition across 747 plant species in China. Industrial Crops and Products 63: 1–8.
28. Bai XL#, Yang D#, Zhang YB, Zhang KY, Liu Q, Wen HD, Zhang JL*, Slot M. 2024. Divergences in stem and leaf traits between co-existing lianas and trees in a subtropical montane forest. Journal of Plant Ecology 17(1): rtad037.
29. Liu Q, Sterck F, Medina–Vega JA, Sha LQ, Cao M, Bongers F, Zhang JL*, Poorter L. 2021. Soil nutrients, canopy gaps and topography affect liana distribution in a tropical seasonal rain forest in SW China. Journal of Vegetation Science 32(1): e12951.
30. Liu Q, Sterck FJ, Zhang JL*, Scheire A, Konings E, Cao M, Sha LQ, Poorter L. 2021. Traits, strategies, and niches of liana species in a tropical seasonal rainforest. Oecologia 196(2): 499–514.
31. Ke Y#, Zhang YB#, Zhang FP, Yang D, Wang Q, Peng XR, Huang XY, Sher J, Zhang JL*. 2024. Monocots and eudicots have more conservative flower water use strategies than basal angiosperms. Plant Biology 26(4): 621–632.
32. Ke Y, Zhang FP, Zhang YB, Li W, Wang Q, Yang D, Zhang JL*, Cao KF. 2023. Convergent relationships between flower economic and hydraulic traits across aquatic and terrestrial herbaceous plants. Plant Diversity 45(5): 601–610.
33. Zhang FP, Zhang JL*, Brodribb TJ, Hu H. 2021. Cavitation resistance of peduncle, petiole and stem is correlated with bordered pit dimensions in Magnolia grandiflora. Plant Diversity 43(4): 324–330.
34. Zhang JL, Poorter L, Cao KF. 2012. Productive leaf functional traits of Chinese savanna species. Plant Ecology 213(9): 1449–1460.
35. Zhang JL, Zhu JJ, Cao KF. 2007. Seasonal variation in photosynthesis in six woody species with different leaf phenology in a valley savanna in southwestern China. Trees-Structure and Function 21(6): 631–643.
36. Xiao Y, Qu YY, Hao CH, Tang L, Zhang JL*. 2022. The complete chloroplast genome of Bauhinia racemosa Lam. (Fabaceae): a versatile tropical medicinal plant. Mitochondrial DNA Part B: Resources 7(8): 1528–1530.
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