2024
1. 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.
2. Dossa GGO*, Adhikari S, Cao KF, Chen Y-J, Codjia JEI, Corlett RT, Dong JL, Fan ZX, Khatri P, Kiki M, Li HL, Ling TC, Liu GY, Majcher BM, Nisar N, Njoroge DM, Ofosu-Bamfo B, Pearce S, Roeder M, Schaefer DA, Schnitzer SA, Smith-Martin CM, Thu WP, Tomlinson KW, Xu SY, Zakari S, Zhang JL, Zhang YB, Zotz G, Zuo J, Cornelissen JHC. Lianas from lives to afterlives: 1st International workshop on liana forest ecology, Xishuangbanna, China, 12–16 October 2023. New Phytologist (accepted)
3. Dossa GGO*, Li HL, Pan B, Ling TC, Schaefer DA, Roeder M, Njoroge DM, Zuo J, Song L, Ofosu-Bamfo B, Schnitzer SA, Harrison RD, Bongers F, Zhang JL, Cao KF, Powers JS, Fan ZX, Chen YJ, Corlett RT, Zotz G, Oleksyn K, Wyka T, Codjia JEI, Cornelissen JHC. 2024. Effects of lianas on forest biogeochemistry during their lives and afterlives. Global Change Biology (accepted)
4. 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 (Early View)
5. Li J, Zhang SB, Li YP*. 2024. Photosynthetic response dynamics to fluctuating light in an invasive species Tithonia diversifolia and co-occurring native shrub species. Plant Diversity 46(2): 265–273.
6. Li YP*, Li WT, Li J, Feng YL*. 2024. Temporal dynamics of plant−soil feedback and related mechanisms depend on environmental context during invasion processes of a subtropical invader. Plant and Soil 496(1-2): 539–554.
7. Li YP*, Li WT, Niu YF, Feng YL. 2024. Variation in root traits and phenotypic plasticity between native and introduced populations of the invasive plant Chromolaena odorata. NeoBiota (accepted)
8. Liu Q*, Sterck FJ, Zhang JL, Poorter L. 2024. Lianas are increasing in biomass and water use in a Chinese tropical rainforest. Biotropica 56(2): e13289.
9. Sher J*, Khan N, Tomlinson KW. 2024. Plant growth of Chenopodium quinoa (Willd) is better when growing with kin than with non-kin regardless of soil nutrient conditions. Plant Ecology 225(2): 153–161.
10. Wang YSD, Yang D*, Vargas G G, Hao GY, Powers JS, Ke Y, Wang Q, Zhang YB, Zhang JL. 2024. Leaf habit differentiation explains trait tradeoffs across savanna woody plants. Forest Ecosystems 11: 100190.
11. 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.
12. 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.
13. 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.
14. 彭晓容,杨达,王琴,柯妍,杨石建,张教林*. 2024. 云南元江不同胸径厚皮树的水力性状变异格局. 广西植物 44(8): 1607–1616.
15. 王琴, 杨达, 彭晓容, 柯妍, 张云冰, 张教林*. 2024. 肉豆蔻科国家重点保护植物叶片功能性状的研究. 植物科学学报 42(4): 519–532.
2023
1. Chen YJ#, Maenpuen P#, Zhang JL*, Zhang YJ*. 2023. Remaining uncertainties in the Pneumatic method. New Phytologist 237(2): 384–391.
2. 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.
3. Huang JG#, Zhang Y#, Wang M, Yu X, Deslauriers A, Fonti P, Liang E, M?kinen H, Oberhuber W, Rathgeber CBK, Tognetti R, Treml V, Yang B, Zhai L, Zhang JL, Antonucci S, Bergeron Y, Camarero JJ, Campelo F, ?ufar K, Cuny HE, De Luis M, Fajstavr M, Giovannelli A, Gri?ar J, Gruber A, Gryc V, G ney A, Jyske T, Ka?par J, King G, Krause C, Lemay A, Liu F, Lombardi F, del Castillo EM, Morin H, Nabais C, N?jd P, Peters RL, Prislan P, Saracino A, Shishov VV, Swidrak I, Vavr? k H, Vieira J, Zeng Q, Liu Y*, Rossi S. 2023. A critical thermal transition driving spring phenology of Northern Hemisphere conifers. Global Change Biology 29(6): 1606–1617.
4. 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.
5. Liu Q*, Sterck FJ, Zhang JL, Poorter L. 2023. Abiotic and biotic drivers of liana community change in an Asian tropical rainforest. Forest Ecology and Management 545: 121261.
6. Marwa N, Gupta SK, Saxena G, Pandey V, Singh N. 2023. Proteomic regulation during arsenic stress. In: Srivastava PK, Singh R, Parihar P, Prasad SM, eds. Arsenic in Plants: Uptake, Consequences and Remediation Techniques. West Sussex, UK: John Wiley & Sons Ltd, 173–184.
7. Siddiq Z*, Cao K-F*. 2023. Water consumption during a leafless period in a dry season in three deciduous tropical timber species. Journal of Hydrology 616: 128705.
8. Song HQ, Wang YQ, Yan CL, Zeng WH, Chen YJ, Zhang JL, Liu H, Zhang QM, Zhu SD*. 2023. Can leaf drought tolerance predict species abundance and its changes in tropical-subtropical forests? Tree Physiology 43(8): 1319–1325.
9. Wang YQ, Song HQ, Chen YJ, Fu PL, Zhang JL, Cao KF*, Zhu SD*. 2023. Hydraulic determinants of drought-induced tree mortality and changes in tree abundance between two tropical forests with different water availability. Agricultural and Forest Meteorology 331:109329.
10. Wei Y, Chen YJ, Siddiq Z, Zhang JL, Zhang SB, Jansen S, Cao KF*. 2023. Hydraulic traits and photosynthesis are coordinated with trunk sapwood capacitance in tropical tree species. Tree Physiology 43(12): 2109–2120.
11. 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.
12. 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.
13. 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.
2022
1. 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.
2. Ellsworth DS*, Crous KY, De Kauwe MG, Verryckt LT, Goll D, Zaehle S, Bloomfield KJ, Ciais P, Cernusak LA, Domingues TF, Dusenge ME, Garcia S, Guerrieri R, Ishida FY, Janssens IA, Kenzo T, Ichie T, Medlyn BE, Meir P, Norby RJ, Reich PB, Rowland L, Santiago LS, Sun Y, Uddling J, Walker AP, Weerasinghe LK, van de Weg MJ, Zhang YB, Zhang JL, Wright IJ. 2022. Convergence in phosphorus constraints to photosynthesis in forests around the world. Nature Communications 13: 5005.
3. Li WT, Zheng YL*, Wang RF, Wang ZY, Liu YM, Shi X, Liao ZY, Li YP, Feng YL. 2022. Shifts in chemical and microbiological properties belowground of invader Ageratina adenophora along an altitudinal gradient. Journal of Plant Ecology 15(3): 561–570.
4. 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): 910–921.
5. 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.
6. Shen J-X, ZhangY-J*, Maenpuen P, Zhang S-B, Zhang L, Yang L, Tao L-B, Yan P-Y, Zhang Z-M, Li S-Q, Yuan X, Kongjarat W, Kaewkamol S , Tinprabat P, Chen Y-J*. 2022. Response of four evergreen savanna shrubs to an incidence of extreme drought: High embolism resistance, branch shedding, and maintenance of nonstructural carbohydrates. Tree Physiology 42(4): 740–753.
7. Siddiq Z*, Zhang YJ. 2022. Cool-dry season depression in gas exchange of canopy leaves and water flux of tropical trees at the northern limit of Asian tropics. Plant Ecology 223(2): 171–183.
8. 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.
9. 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.
10. Xue W*, Luo H, Carriqu M, Nadal M, Huang JF, Zhang JL. 2022. Quantitative expression of mesophyll conductance temperature response in the FvCB model and impacts on plant gas exchange estimations. Agricultural and Forest Meteorology 325: 109153.
11. 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.
2021
[1] Chen Y-J, Choat B, Sterck F*, Maenpuen P, Katabuchi M, Zhang S-B, Tomlinson KW, Oliveira RS, Zhang Y-J, Shen J-X, Cao K-F*, Jansen S*. 2021. Hydraulic prediction of drought-induced plant dieback and top-kill depends on leaf habit and growth form. Ecology Letters 24(11): 2350–2363.
[2] Chen Y-J#*, Maenpuen P#, Zhang Y-J*, Barai K, Katabuchi M, Gao H, Kaewkamol S, Tao L-B, Zhang J-L*. 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.
[3] Gupta SK, Marwa N, Pandey AK, Zhang YB, Zhang JL. 2021. Hydrogen sulfide homeostasis in plants: an overview. In: Singh S, Singh VP, Tripathi DK, Prasad SM, Chauhan DK, Dubey NK, eds. Hydrogen Sulfide in Plant Biology: Past and Present. London, UK: Elsevier Academic Press, 341–363.
[4] Gupta SK, Sharma M, Maurya VK, Deeba F, Pandey V. 2021. Effects of ethylenediurea (EDU) on apoplast and chloroplast proteome in two wheat varieties under high ambient ozone: An approach to investigate EDU’s mode of action. Protoplasma 258: 1009–1028.
[5] 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.
[6] 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.
[7] Siddiq Z*, Chen YJ, Cao KF*. 2021. Water flux responses of tropical trees and lianas to foliage loss caused by a heavy hailstorm. Ecohydrology 14(4): e2288.
[8] Tor-ngern P, Chart-Asa C, Chanthorn W, Rodtassana C, Yampum S, Unawong W, Nathalang A, Brockelman WY, Srinoppawan K, Chen YJ, Hasselquist NJ. 2021. Variation of leaf-level gas exchange rates and leaf functional traits of dominant trees across three successional stages in a Southeast Asian tropical forest. Forest Ecology and Management 489: 119101.
[9] 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.
[10] Yu L, Zhu J*, Ji H, Bai X, Lin Y, Zhang Y, Sha L, Liu Y, Song Q, D?rsch P, Mulder J, Zhou W*. 2021. Topography-related controls on N2O emission and CH4 uptake in a tropical rainforest catchment. Science of the Total Environment 775: 145616.
[11] 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.
[12] 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.
[13] Zhou W, Zhu J, Ji H, Grace J, Sha L*, Song Q, Liu Y, Bai X, Lin Y, Gao J, Fei X, Zhou R, Tang J, Deng X, Yu G, Zhang J, Zheng X, Zhao J, Zhang Y*. 2021. Drivers of difference in CO2 and CH4 emissions between rubber plantation and tropical rainforest soils. Agricultural and Forest Meteorology 304–305: 108391.
[14] 祁世华, 牛燕芬, 王睿芳, 李菊, 李扬苹*, 张教林*. 2021. 两种入侵植物与三种本地植物根系特征的比较研究. 植物科学学报 39(2): 183–192. Qi SH, Niu YF, Wang RF, Li J, Li YP*, Zhang JL*. 2021. Comparison of root traits among two invasive and three native species. Plant Science Journal 39(2): 183–192.
[15] 王根绪*,夏军*,李小雁,杨达,胡兆永,孙守琴,孙向阳. 2021. 陆地植被生态水文过程前沿进展:从植物叶片到流域. 科学通报 66(28-28): 3667–3683. Wang G* , Xia J* , Li X, Yang D, Hu Z, Sun S, Sun X. 2021. Critical advances in understanding ecohydrological processes of terrestrial vegetation: from leaf to watershed scale. Chinese Science Bulletin 66(28-28): 3667–3683.
2020
[1] Bai X#, Zhang YB#, Liu Q, Wang YSD, Yang D, Zhang JL*. 2020. Leaf and stem traits are linked to liana growth rate in a subtropical cloud forest. Forests 11(10): 1120.
[2] Balasubramanian D, Zhou W-J*, Ji H-L, Grace J, Bai X-L, Song Q-H, Liu Y-T, Sha L-Q, Fei X-H, Zhang X, Zhao J-B, Zhao J-F, Tan Z-H, Zhang Y-P*. 2020. Environmental and management controls of soil carbon storage in grasslands of southwestern China. Journal of Environmental Management 254: 109810.
[3] Dossa GGO*, Paudel E, Schaefer D, Zhang JL, Cao KF, Xu J, Harrison R*. 2020. Quantifying the factors affecting wood decomposition across a tropical forest disturbance gradient. Forest Ecology and Management 468: 118166.
[4] Gupta SK* , Sharma M, Majumder B, Maurya VK, Deeba F, Zhang JL, Pandey V*. 2020. Effects of ethylenediurea (EDU) on regulatory proteins in two maize (Zea mays L.) varieties under high tropospheric ozone phytotoxicity. Plant Physiology and Biochemistry 154: 675–688.
[5] Huang J-G#*, Ma Q#, Rossi S, Biondi F, Deslauriers A, Fonti P, Liang E, M?kinen H, Oberhuber W, Rathgeber CBK, Tognetti R, Treml V, Yang B, Zhang J-L, Antonucci S, Bergeron Y, Camarero JJ, Campelo F, ?ufar K, Cuny HE, Luis MD, Giovannelli A, Gri?ar J, Gruber A, Gryc V, G ney A, Guo X, Huang W, Jyske T, Ka?par J, King G, Krause C, Lemay A, Liu F, Lombardi F, del Castillo EM, Morin H, Nabais C, N?jd P, Peters RL, Prislan P, Saracino A, Swidrak I, Vavr? k H, Vieira J, Yu B, Zhang S, Zeng Q, Zhang Y, Ziaco E. 2020. Photoperiod and temperature as dominant environmental drivers triggering secondary growth resumption in Northern Hemisphere conifers. Proceedings of the National Academy of Sciences of the United States of America 117(34): 20645–20652.
[6] Huang J-G*, Campelo F, Ma Q, Zhang Y, Bergeron Y, Deslauriers A, Fonti P, Liang E, M?kinen H, Oberhuber W, Rathgeber CBK, Tognetti R, Treml V, Yang B, Zhai L, Zhang J-L, Antonucci S, Camarero JJ, ?ufar K, Cuny HE, Luis MD, Giovannelli A, Gri?ar J, Gruber A, Gryc V, G ney A, Guo X, Huang W, Jyske T, Ka?par J, King G, Krause C, Lemay A, Liu F, Lombardi F, del Castillo EM, Morin H, Nabais C, N?jd P, Peters RL, Prislan P, Saracino A, Swidrak I, Vavr? k H, Vieira J, Yu B, Zhang S, Zeng Q, Ziaco E, Rossi S. 2020. Reply to Elmendorf and Ettinger: Photoperiod plays a dominant and irreplaceable role in triggering secondary growth resumption. Proceedings of the National Academy of Sciences of the United States of America 117(52): 32865–32867.
[7] 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.
[8] Li W-T, Zheng Y-L, Zhang L-K, Lei Y-B, Li Y-P, Liao Z-Y, Li Z-P, Feng Y-L. 2020. Postintroduction evolution contributes to the successful invasion of Chromolaena odorata. Ecology and Evolution 10(3):1252–1263.
[9] Lu H-Z, Brooker R, Song L, Liu W-Y*, Sack L, Zhang J-L, Yu F-H*. 2020. When facilitation meets clonal integration in forest canopies. New Phytologist 225(1): 135–142.
[10] Surabhi S, Gupta SK, Pande V, Pandey V*. 2020. Individual and combined effects of ethylenediurea (EDU) and elevated carbon dioxide (ECO2), on two rice (Oryza sativa L.) cultivars under ambient ozone. Environmental Advances 2:100025.
[11] Tan FS#, Song HQ#, Fu PL, Chen YJ, Siddiq Z, Cao KF, Zhu SD*. 2020. Hydraulic safety margins of co-occurring woody plants in a tropical karst forest experiencing frequent extreme droughts. Agricultural and Forest Meteorology 292–293: 108107.
[12] Wang AY, Hao GY*, Guo JJ, Liu ZH, Zhang JL, Cao KF. 2020. Differentiation in leaf physiological traits related to shade and drought tolerance underlies contrasting adaptations of two Cyclobalanopsis (Fagaceae) species at the seedling stage. Forests 11(8): 844.
[13] Wang YSD#, Yang D#, Wu HD, Zhang YB, Zhang SB, Zhang YJ, Zhang JL*. 2020. Overlapping water and nutrient use efficiencies and carbon assimilation between coexisting simple- and compound-leaved trees from a valley savanna. Water 12(11): 3037.
[14] Yang D, Wang A-Y, Zhang J-L, Bradshaw CJA, Hao G-Y*. 2020. Variation in stem xylem traits is related to di?erentiation of upper limits of tree species along an elevational gradient. Forests 11(3): 349.
[15] Zhang L, Chen YJ*, Hao GY, Ma KP*, Bongers F, Sterck FJ. 2020. Conifer and broadleaved trees differ in branch allometry but maintain similar functional balances. Tree Physiology 40(4): 511–519.
[16] Zhang Y-B, Wu H-D, Yang J, Song X-Y, Yang D, He F, Zhang J-L*. 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.
[17] 席会鹏*, 葛奇, 李佳蔚. 2020. 热带芳香观赏兰花香花毛兰的组培快繁技术. 热带农业科学 40(2): 54–64. Xi H-P*, Ge Q, Li J-W. 2020. Tissue culture of Eria javanica, a tropical aromatic ornamental orchid, for rapid propagation. Chinese Journal of Tropical Agriculture 40(2): 54–64.
[18] 肖燕, 张科燕, 张树斌*, 张教林*. 2020. 羊蹄甲属藤本和树木叶片热值与建成成本的比较研究. 植物科学学报 38(3): 428–436. Xiao Y, Zhang K-Y, Zhang S-B*, Zhang J-L*. 2020. Differences in leaf caloric values and construction costs between liana and tree species in Bauhinia. Plant Science Journal 38(3): 428–436.
[19] 王根绪、张志强、李小雁、章光新、徐宪立、孙阁、谢永宏著,张教林、杨达参编. 2020. 生态水文学概论. 北京: 科学出版社. Wang GX, Zhang ZQ, Li XY, Zhang GX, Xu XL, Sun G, Xie YH, Zhang J-L, Yang D (eds). 2020. Principle of Ecohydrology. Beijing, China: Science Press.
2019
[1] Fu P-L*, Zhu S-D, Zhang J-L, Finnegan PM, Jiang Y-J, Lin H, Fan Z-X, Cao K-F. 2019. The contrasting leaf functional traits between a karst forest and a nearby non-karst forest in south-west China. Functional Plant Biology 46(10): 907–915.
[2] Gao H, Chen Y-J*, Zhang Y-J, Maenpuen P, Lv S, Zhang J-L*. 2019. Vessel-length determination using silicone and air injection: Are there artifacts? Tree Physiology 39(10): 1783–1791.
[3] Li J-W, Zhang S-B*. 2019. Physiological responses of orchid pseudobulbs to drought stress are related to their age and plant life form. Plant Ecology 220(1): 83–96.
[4] Nespoulous J, Merino-Mart n L, Monnier Y, Bouchet DC, Ramel M, Dombey R, Viennois G, Mao Z, Zhang J-L, Cao K-F, Bissonnais YL, Sidle RC, Stokes A*. 2019. Tropical forest structure and understorey determine subsurface flow through biopores formed by plant roots. Catena 181: 104061.
[5] Siddiq Z, Tomlinson KW, Zhu S-D, Cao K-F*. 2019. Does fluctuation of meteorological conditions across years influence stand transpiration of Tectona grandis plantation? Ecohydrology 12(6): e2116.
[6] Siddiq Z, Zhang Y-J, Zhu S-D, Cao K-F*. 2019. Canopy water status and photosynthesis of tropical trees are associated with trunk sapwood hydraulic properties. Plant Physiology and Biochemistry 139: 724–730.
[7] Wang P-Y, Liu W-J*, Zhang J-L, Yang B, Singh AK, Wu J-E, Jiang X-J. 2019. Seasonal and spatial variations of water use among riparian vegetation in tropical monsoon region of SW China. Ecohydrology 12(4): e2085.
[8] Zhang L, Chen YJ*, Ma KP, Bongers F, Sterck FJ. 2019. Fully exposed canopy tree and liana branches in a tropical forest differ in mechanical traits but are similar in hydraulic traits. Tree Physiology 39(10): 1713–1724.
[9] 赵万里, 张教林, 章永江, 曹坤芳*. 2019. 豆科复叶和单叶树种的光合-水分关系分析. 植物科学学报 37(5): 628–636. Zhao W-L, Zhang J-L, Zhang Y-J, CAO K-F*. 2019. Analysis of photosynthesis-water relationship between simple- and compound-leafed leguminous trees. Plant Science Journal 37(5): 628–636.
2018
[1] Siddiq Z, Cao K-F*. 2018. Nocturnal transpiration in 18 broadleaf timber species under a tropical seasonal climate. Forest Ecology and Management 418: 47–54.
[2] Dossa GGO*, Schaefer D, Zhang J-L, Tao J-P, Cao K-F, Corlett R, Cunningham AB, Xu J-C, Cornelissen JHC, Harrison RD. 2018. The cover uncovered: bark control over wood decomposition. Journal of Ecology 106(6): 2147–2160.
[3] Gao JB, Zhou, WJ, Liu YT, Zhu J, Sha LQ, Song QH, Ji HL, Lin YX, Fei XH, Bai XL, Zhang X, Deng Y, Deng XB, Yu GR, Zhang JH, Zheng XH, Grace J, Zhang YP. 2018. Effects of litter inputs on N2O emissions from a tropical rainforest in Southwest China. Ecosystems 21: 1013–1026.
[4] Fei XH, Song QH, Zhang YP, Liu YT, Sha LQ, Yu GR, Zhang LM, Duan CQ, Deng Y, Wu CS, Lu ZY, Luo K, Chen AG, Xu K, Liu WW, Huang H, Jin YQ, Zhou RW, Li J, Lin YX, Zhou LG, Fu YN, Bai XL, Tang XH, Gao JB, Hou WJ, Grace J. 2018. Carbon exchanges and their responses to temperature and precipitation in forest ecosystems in Yunnan, Southwest China. Science of the Total Environment 616-617: 824–840.
[5] Zheng Y-L*, Burns JH, Liao Z-Y, Li Y-P, Yang J, Chen Y-J, Zhang J-L, Zheng Y-G. 2018. Species composition, functional and phylogenetic distances correlate with success of invasive Chromolaena odorata in an experimental test. Ecology Letters 21(8): 1211?1220.
[6] Zhu S-D*, Chen Y-J, Ye Q, He P-C, Liu H, Li R-H, Fu P-L, Jiang G-F, Cao K-F*. 2018. Leaf turgor loss point is correlated with drought tolerance and leaf carbon economics traits. Tree Physiology 38(5): 658?663.
2017
[1] Chen Y-J, Schnitzer SA, Zhang Y-J, Fan Z-X, Goldstein G, Tomlinson KW, Lin H, Zhang J-L*, Cao K-F*. 2017. Physiological regulation and efficient xylem water transport regulate diurnal water and carbon balances of tropical lianas. Functional Ecology 31(2): 306?317.
[2] Huang W, Yang Y-J, Zhang J-L, Hu H, Zhang S-B. 2017. Superoxide generated in the chloroplast stroma causes photoinhibition of photosystem I in the shade-establishing tree species Psychotria henryi. Photosynthesis Research 132(3): 293–303.
[3] Li Y-P, Feng Y-L*, Kang Z-L, Zheng Y-L, Zhang J-L, Chen Y-J. 2017. Changes in soil microbial communities due to biological invasions can reduce allelopathic effects. Journal of Applied Ecology 54(5): 1281–1290.
[4] Lin H*, Chen YJ, Song QH, Fu PL, Cleverly J, Magliulo V, Law BE, Gough CM, H?rtnagl L, Gennaro FD, Matteucci G, Montagnani L, Duce P, Shao CL, Kato T, Bonal D, Paul-Limoges E, Beringer J, Grace J, Fan ZX. 2017. Quantifying deforestation and forest degradation with thermal response. Science of the Total Environment 607–608: 1286–1292.
[5] Lin H*, Chen YJ, Zhang HL, Fu PL, Fan ZX. 2018. Stronger cooling effects of transpiration and leaf physical traits of plants from a hot dry habitat than from a hot wet habitat. Functional Ecology 31(12): 2202–2211.
[6] Siddiq Z#, Chen YJ#, Zhang YJ, Zhang JL, Cao KF. 2017. More sensitive response of crown conductance to VPD and larger water consumption in tropical evergreen than in deciduous broadleaf timber trees. Agricultural and Forest Meteorology 247: 399–407.
[7] Zhang S-B*, Zhang J-L, Cao K-F. 2017. Divergent hydraulic safety strategies in three co-occurring Anacardiaceae tree species in a Chinese savanna. Frontiers in Plant Science 7: 2075.
[8] Zhang S-B*, Zhang J-L. 2017. Variations in light energy dissipation in Woodfordia fruticosa leaves during expansion. Photosynthetica 55 (4): 705–715.
[9] Zhang Y-J#*, Sack L#, Cao K-F#, Wei X-M, Li N. 2017. Speed versus endurance tradeoff in plants: Leaves with higher photosynthetic rates show stronger seasonal declines. Scientific Reports 7: 42085.
[10] Zhao W-L, Siddiq Z, Fu P-L, Zhang J-L, Cao K-F*. 2017. Stable stomatal number per minor vein length can indicate leaf water balance. Scientific Reports 7: 2211.
[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] Zhu S-D#*, Chen Y-J#, Fu P-L, Cao K-F*. 2017. Different hydraulic traits of woody plants from tropical forests with contrasting soil water availability. Tree Physiology 37(11): 1469–1477.
[13] Zhu X-Z#, Li Y-P#*, Feng Y-L, Ma K-P*. 2017. Response of soil bacterial communities to secondary compounds released from Eupatorium adenophorum. Biological Invasions 19(5): 1471–1481.
[14] 刘奇,吴怀栋,谭运洪,张教林*. 2017. 西双版纳热带季雨林木质藤本多样性及其攀援方式. 林业科学 53(8): 1–8. Liu Q, Wu HD, Tan YH, Zhang JL*. 2017. Liana diversity and its climbing situation on trees in Xishuangbanna tropical seasonal rainforest. Scientia Silvae Sinicae 53(8): 1–8.
2016
[1] Bartlett MK*, Zhang Y, Yang J, Kreidler N, Sun S-W, Lin L, Hu Y-H, Cao K-F, Sack L. 2016. Drought tolerance as a driver of tropical forest assembly: resolving spatial signatures for multiple processes. Ecology 97(2): 503?514.
[2] Campanello PI, Manzan E, Villagra M, Zhang Y-J, Panizza AM, di Francescantonio D, Rodriguez SA, Chen Y-J, Santiago LS, Goldstein G. 2016. Carbon allocation and water relations of lianas versus trees. In: Goldstein G, Santiago LS (eds). Tropical Tree Physiology. Springer International Publishing. Switzerland, 103–124.
[3] Chen Y-J*, Bongers F, Tomlinson K, Fan Z-X, Lin H, Zhang S-B, Zheng Y-L, Li Y-P, Cao K-F*, Zhang J-L. 2016. Time lags between crown and basal sap flows in tropical lianas and co-occurring trees. Tree Physiology 36(6): 736–747.
[4] Dossa GGO, Paudel E, Cao KF, Schaefer D, Harrison RD*. 2016. Factors controlling bark decomposition and its role in wood decomposition in five tropical tree species. Scientific Reports 6: 34153.
[5] Huang W*#, Yang Y-J#, Hu H, Zhang S-B, Cao K-F. 2016. Evidence for the role of cyclic electron flow in photoprotection for oxygen-evolving complex. Journal of Plant Physiology 194: 54–60.
[6] Huang W, Tong Y-G, Yu G-Y, Yang W-X. 2016. The sclerophyllous Eucalyptus camaldulensis and herbaceous Nicotiana tabacum have different mechanisms to maintain high rates of photosynthesis. Frontiers in Plant Science 7: 1769.
[7] Huang W, Yang Y-J, Hu H, Zhang S-B. 2016. Responses of photosystem I compared with photosystem II to fluctuating light in the shade-establishing tropical tree species Psychotria henryi. Frontiers in Plant Science 7:1549.
[8] Huang W, Yang Y-J, Zhang J-L, Hu H, Zhang S-B*. 2016. PSI photoinhibition is more related to electron transfer from PSII to PSI rather than PSI redox state in Psychotria rubra. Photosynthesis Research 129(1): 85–92.
[9] Nakamura A*, Burwell CJ, Ashton LA, Laidlaw MJ, Katabuchi M, Kitching RL. 2016. Identifying indicator species of elevation: Comparing the utility of woody plants, ants and moths for long-term monitoring. Austral Ecology 41(2): 179–188.
[10] Siddiq Z, Cao K-F*. 2016. Increased water use in dry season in eight dipterocarp species in a common plantation in the northern boundary of Asian tropics. Ecohydrology 9(5): 871–881.
[11] Tian Y-H, Yuan H-F, Xie J, Deng J-W, Dao X-S, Zheng Y-L*. 2016. Effect of diurnal irradiance on night chilling tolerance of six rubber cultivars. Photosynthetica 54(3): 374–380.
[12] Tian Y-H, Yuan H-F, Xie J, Zheng Y-L*. 2016. Shade tolerance and suitability of tree species for planting in rubber plantations. Southern Forests 78(1): 11–18.
[13] Yang S-J#, Sun M#, Yang Q-Y, Ma R-Y, Zhang J-L, Zhang S-B*. 2016. Two strategies by epiphytic orchids for maintaining water balance: thick cuticles in leaves and water storage in pseudobulbs. AoB Plants 8: plw046.
[14] Zhang S-B, Huang W, Zhang J-L, Cao K-F*. 2016. Differential responses of photosystems I and II to seasonal drought in two Ficus species. Acta Oecologica 73: 53–60.
[15] Zhang S-B, Zhang J-L, Cao K-F*. 2016. Differences in the photosynthetic efficiency and photorespiration of co-occurring Euphorbiaceae liana and tree in a Chinese savanna. Photosynthetica 54 (3): 438–445.
[16] Zhang Y-J, Bucci SJ, Arias NS, Scholz FG, Hao G-Y, Cao K-F, Goldstein G. 2016. Freezing resistance in Patagonian woody shrubs: the role of cell wall elasticity and stem vessel size. Tree Physiology 36(8): 1007–1018.
[17] Zhao W-L, Chen Y-J, Brodribb T, Cao K-F*. 2016. Weak co-ordination between vein and stomatal densities in 105 angiosperm tree species along altitudinal gradients in Southwest China. Functional Plant Biology 43(12): 1126–1133.
[18] 吴怀栋,刘奇,谭运洪,张教林*. 2016. 元江干热河谷木质藤本的多样性及其与宿主树木的关系. 植物科学学报 34(4): 547–554. Wu HD, Liu Q, Tan YH, Zhang JL*. 2016. Liana diversity and its relationships with host trees in Yuanjiang dry-hot valley, Yunnan, China. Plant Science Journal 34(4): 547–554. (in Chinese)
[19] 张树斌,张教林,曹坤芳*. 2016. 季节性干旱对白皮乌口树(Tarenna depauperata Hutchins)水分状况、叶片光谱特征和荧光参数的影响. 植物科学学报 34(1): 117–126. Zhang S-B, Zhang J-L, Cao K-F*. 2016. Effects of seasonal drought on water status, leaf spectral traits and fluorescence parameters in Tarenna depauperata Hutchins, a Chinese savanna evergreen species. Plant Science Journal 34(1): 117–126.
2015
[1] Chen Y-J*#, Cao K-F#, Schnitzer S, Fan Z-X, Zhang J-L, Bongers F. 2015. Water-use advantage for lianas over trees in tropical seasonal forests. New Phytologist 205(1): 128–136.
[2] Dossa GGO, Paudel E, Wang H, Cao K, Schaefer D, Harrison RD*. 2015. Correct calculation of CO2 efflux using a closed-chamber linked to a non-dispersive infrared gas analyzer. Methods in Ecology and Evolution 6(12): 1435–1442.
[3] Huang W*, Zhang S-B, Zhang J-L, Hu H*. 2015. Photoinhibition of photosystem I under high light in the shade-established tropical tree species Psychotria rubra. Frontiers in Plant Science 6: 801.
[4] Li Y-P*, Feng Y-L*, Chen Y-J, Y-H Tian. 2015. Soil microbes alleviates allelopathy of invasive plants. Science Bulletin 60(12):1083–1091.
[5] Ma R-Y, Zhang J-L, Cavaleri MA, Sterck F, Strijk JS, Cao K-F*. 2015. Convergent evolution towards high net carbon gain efficiency contributes to the shade tolerance of palms (Arecaceae). PLoS ONE 10(10): e0140384.
[6] Paudel E, Dossa GGO, Xu J, Harrison RD. 2015. Litterfall and nutrient return along a disturbance gradient in a tropical montane forest. Forest Ecology and Management 353: 97–106.
[7] Paudel E, Dossa GGO, de Bl court M, Becksch?fer P, Xu J, Harrison RD. 2015. Quantifying the factors affecting leaf litter decomposition across a tropical forest disturbance gradient. Ecosphere 6:art267.
[8] Yang SJ, Sun M, Zhang YJ, Goldstein G, Ma RY, Cao KF*. 2015. Water use strategies of a woody, sympodial bamboo species (Bambusa vulgaris): responses to meteorological factors and keeping water balance. Tree Physiology 35(9): 964-974.
[9] 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.
[10] Zhang J-L*, Zhang S-B, Zhang Y-P, 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.
[11] Zhang S-B*#, Dai Y#, Hao G-Y, Li J-W, Fu X-W and Zhang J-L. 2015. Differentiation of water-related traits in terrestrial and epiphytic Cymbidium species. Frontiers in Plant Science 6: 260.
[12] Zhang Y-J*#, Cao K-F*#, Sack L#, Li N, Wei X-M, Goldstein G. 2015. Extending the generality of leaf economic design principles in the cycads, an ancient lineage. New Phytologist 206(2): 817–829.
[13] Zheng Y-L*, Feng Y-L*, Valiente-Banuet A, Li Y-P, Liao Z-Y, Zhang J-L, Chen Y-J. 2015. Are invasive plants more competitive than native conspecifics? Patterns vary with competitors. Scientific Reports 5: 15622.
[14] Zheng Y-L, Feng Y-L*, Zhang L-K, Callaway RM, Valiente-Banuet A, Luo D-Q, Liao Z-Y, Lei Y-B, Barclay GF, Silva-Pereyra C. 2015. Integrating novel chemical weapons and evolutionarily increased competitive ability in success of a tropical invader. New Phytologist 205(3): 1350–1359.
[15] Zhu S-D#, Chen Y-J#, Cao K-F, Ye Q*. 2015. Interspecific variation in branch and leaf traits among three Syzygium tree species from different successional tropical forests. Functional Plant Biology 42(4): 423–432.
[16] 王华芳, 杨石建, 张教林*. 2015. 热带木质藤本的根压及其与系统发育和环境的关系. 植物分类与资源学报 37(6): 751?759. Wang H-F, Yang S-J, Zhang J-L*. 2015. Root pressure of tropical lianas and their relationships with phylogeny and environments. Plant Diversity and Resources 37(6): 751?759.
2014
[1] Ashton MS*, Goodale UM, Bawa KS, Ashton PS, Neidel JD. 2014. Restoring working forests in human dominated landscapes of tropical South Asia: an introduction. Forest Ecology and Management 329: 335–339.
[2] Bartlett MK*, Zhang Y, Kreidler N, Sun S-W, Ardy R, Cao K-F, Sack L. 2014. Global analysis of plasticity in turgor loss point, a key drought tolerance trait. Ecology Letters 17(12): 1580–1590.
[3] Chen Y-J, Bongers F, Zhang J-L, Liu J-Y, Cao K-F*. 2014. Different biomechanical design and ecophysiological strategies in juveniles of two liana species with contrasting growth habit. American Journal of Botany 101(6): 925–934.
[4] Ghestem M*, Cao KF, Ma WZ, Rowe N, Leclerc R, Gadenne C, Stokes A. 2014. A framework for identifying plant species to be used as ‘ecological engineers’ for fixing soil on unstable slopes. PLoS ONE 9(8): e95876.
[5] Goodale中国科学: 生命科学 44(3): 238–247. Cao KF, Fu PL, Chen YJ, Jiang YJ, Zhu SD. 2014. Implications of the ecophysiological adaptation of plants on tropical karst habitats for the ecological restoration of desertified rocky lands in southern China. Scientia Sinica Vitae 44(3): 238–247.
[22] 柴伟玲, 类延宝, 李扬苹, 肖海峰, 冯玉龙. 2014. 外来入侵植物飞机草和本地植物异叶泽兰对大气CO2浓度升高的响应. 生态学报 34(13): 3744–3751. Chai W-L, Lei Y-B, Li Y-P, Xiao H-F, Feng Y-L. 2014. Responses of invasive Chromolaena odorata and native Eupatorium heterophyllum to atmospheric CO2 enrichment. Acta Ecologica Sinica 34(13): 3744–3751.
[23] 丁凌子, 陈亚军, 张教林*. 2014. 热带雨林木质藤本植物叶片性状及其关联. 植物科学学报 32(4): 362–370. Ding L-Z, Chen Y-J, Zhang J-L*. 2014. Leaf traits and their associations among liana species in tropical rainforest. Plant Science Journal 32(4): 362–370.
[24] 黄伟*, 曹坤芳. 2014. 几内亚格木和降香黄檀对热带北缘地区冬季低温的光合适应. 植物分类与资源学报 36(3): 310–320. Huang W*, Cao K-F. 2014. Photosynthetic acclimation of Erythrophleum guineense and Dalbergia odorifera to winter low temperature in a marginal tropical area. Plant Diversity and Resources 36(3): 310–320.
[25] 李帅, 曹坤芳*. 2014. 热带巨型叶植物芭蕉叶片内结构异质性. 科学通报 59(6): 522–528. Li S, Cao K-F. Heterogeneity of anatomical structure in giant leaves of Musa balbisiana. Chinese Science Bulletin 59(6): 522–528.
[26] 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 34(23): 6890–6897. Li W-T, Zheng Y-L, Feng Y-L. 2014. Differences in growth traits between Chromolaena odorata plants from invasive and native populations. Acta Ecologica Sinica 34(23): 6890–6897.
[27] 孙善文, 章永江, 曹坤芳*. 2014. 热带季雨林不同小生境大戟科植物幼树的叶片结构、耐旱性和光合能力之间的相关性. 植物生态学报 38(4): 311–324. Sun S-W, Zhang Y-J, Cao K-F*. 2014. Correlations among leaf structure, drought tolerance and photosynthetic capacity in saplings of Euphorbiaceae from different micro-habitats in a seasonal tropical rainforest. Chinese Journal of Plant Ecology 38(4): 311–324.
[28] 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(7): 1953–1959. Yao X-Y, Li W-T, Zheng Y-L. 2014. Effect of community composition and species interactions on the invasion of alien plants. Chinese Journal of Ecology 33(7): 1953–1959.
[29] 张树斌, 张教林, 曹坤芳. 2014. 干旱对干热河谷优势木本植物虾子花光能分配的影响. 云南大学学报(自然科学版) 36(5): 774–780. Zhang S-B, Zhang J-L, Cao K-F. 2014. The effect of drought stress on light energy dissipation of Woodfordia fruticosa, a dominant woody species in Yuanjiang dry-hot valley, southwest China. Journal of Yunnan University 36(5): 774–780.
[30] 张亚, 杨石建, 孙梅, 曹坤芳*. 2014. 基部被子植物气孔性状与叶脉密度的关联进化. 植物科学学报 32(4): 320–328. Zhang Y, Yang S-J, Sun M, Cao K-F. 2014. Stomatal traits are evolutionarily associated with vein density in basal angiosperms. Plant Science Journal 32(4): 320–328.
2013
[1] Aiba M*, Katabuchi M, Takafumi H, Matsuzaki S-S, Sasaki T, Hiura T. 2013. Robustness of trait distribution metrics for community assembly studies under the uncertainties of assembly processes. Ecology 94(12): 2873–2885.
[2] C diz A, Nagata N, Katabuchi M, D az LM, Echenique-D az LM, Akashi HD, Makino T, Kawata M*. 2013. Relative importance of habitat use, range expansion, and speciation in local species diversity of Anolis lizards in Cuba. Ecosphere 4(7):78.
[3] Dossa GGO, Paudel E, Fujinuma J, Yu H, Chutipong W, Zhang Y, Paz S, Harrison RD*. 2013. Factors determining forest diversity and biomass on a tropical volcano, Mt. Rinjani, Lombok, Indonesia. PLoS ONE 8(7): e67720.
[4] Hao G-Y, Wang A-Y, Sack L, Goldstein G, Cao K-F*. 2013. Is hemiepiphytism an adaptation to high irradiance? Testing seedling responses to light levels and drought in hemiepiphytic and non-hemiepiphytic Ficus. Physiologia Plantarum 148(1): 74–86.
[5] Huang W, Fu P-L, Jiang Y-J, Zhang J-L, Zhang S-B, Hu H*, Cao K-F*. 2013. Differences in the responses of photosystem I and photosystem II of three tree species Cleistanthus sumatranus, Celtis philippensis and Pistacia weinmannifolia exposed to a prolonged drought in a tropical limestone forest. Tree Physiology 33(2): 211–220.
[6] Li S, Zhang Y-J, Sack L, Scoffoni C, Ishida A, Chen Y-J, Cao K-F*. 2013. The heterogeneity and spatial patterning of structure and physiology across the leaf surface in giant leaves of Alocasia macrorrhiza. PLoS ONE 8(6): e66016.
[7] Qin R-M#, Zheng Y-L#, Valiente-Banuet A, Callaway RM, Barclay GF, Pereyra CS, 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 Phytologist 197(3): 979–988.
[8] Tan Z-H*, Cao M, Yu G-R, Tang J-W, Deng X-B, Song Q-H, Tang Y, Zheng Z, Liu W-J, Feng Z-L, Deng Y, Zhang J-L, Liang N, Zhang Y-P*. 2013. High sensitivity of a tropical rainforest to water variability: evidence from ten years of inventory and eddy flux data. Journal of Geophysical Research: Atmospheres 118 (16): 9393–9400.
[9] Tian Y-H, Lei Y-B, Zheng Y-L, Cai Z-Q*. 2013. Synergistic effect of colonization with arbuscular mycorrhizal fungi improves growth and drought tolerance of Plukenetia volubilis seedlings. Acta Physiologiae Plantarum 35(3): 687–696.
[10] Wang J-H, Li S-C, Sun M, Huang W, Cao H, Xu F, Zhou N-N, Zhang S-B*. 2013. Differences in the stimulation of cyclic electron flow in two tropical ferns under water stress are related to leaf anatomy. Physiologia Plantarum 147(3): 283–295.
[11] Zhang S-B, Cao K-F*, Fan Z-X, Zhang J-L. 2013. Potential hydraulic efficiency in angiosperm trees increases with growth-site temperature but has no trade-off with mechanical strength. Global Ecology and Biogeography 22(8): 971–981.
[12] Zhang Y-J, Meinzer FC, Qi J-H, Goldstein G*, Cao K-F*. 2013. Midday stomatal conductance is more related to stem rather than leaf water status in subtropical deciduous and evergreen broadleaf trees. Plant, Cell and Environment 36(1): 149–158.
[13] Zhang Y-J, Yang Q-Y, Lee DW, Goldstein G*, Cao K-F*. 2013. Extended leaf senescence promotes carbon gain and nutrient resorption: importance of maintaining winter photosynthesis in subtropical forests. Oecologia 173(3): 721–730.
[14] 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 15(7): 769–781.
[15] 方群,章永江,曹坤芳*. 2013. 不同冠高腾冲栲叶片结构及其影响因子. 云南大学学报(自然科学版) 35(1): 114–120. Fang Q, Zhang Y-J, Cao K-F*. 2013. A study on leaf structures of Castanopsis wattii at different crown height and the influencing factors. Journal of Yunnan University 35(1): 114–120.
[16] 杞金华, 章永江*, 张一平, 刘玉洪, 鲁志云, 武传胜, 温韩东. 2013. 西南干旱对哀牢山常绿阔叶林凋落物及叶面积指数的影响. 生态学报 33(9): 2877–2885. Qi J-H, Zhang Y-J*, Zhang Y-P, Liu Y-H, Lu Z-Y, Wu C-S, Wen H-D. 2013. The impacts of the Southwest China drought on the litterfall and leaf area index of an evergreen broadleaf forest on Ailao Mountain. Acta Ecologica Sinica 33(9): 2877–2885.
2012
[1] Bartlett MK*, Scoffoni C, Ardy R, Zhang Y, Sun S-W, Cao K-F, Sack L. 2012. Rapid determination of comparative drought tolerance traits: using an osmometer to predict turgor loss point. Methods in Ecology and Evolution 3(5): 880–888.
[2] Cao K-F, Yang S-J, Zhang Y-J, Brodribb TJ*. 2012. Maximum height of grasses is determined by roots. Ecology Letters 15(7): 666–672.
[3] Fan Z-X, Zhang S-B, Hao G-Y, Slik JWF, Cao K-F*. 2012. Hydraulic conductivity traits predict growth rates and adult stature of 40 Asian tropical tree species better than wood density. Journal of Ecology 100(3): 732–741.
[4] Fu P-L, Jiang Y-J, Wang A-Y, Brodribb TJ, Zhang J-L, Zhu S-D, Cao K-F*. 2012. Stem hydraulic traits and leaf water-stress tolerance are coordinated with the leaf phenology of angiosperm trees in an Asian tropical dry karst forest. Annals of Botany 110(1): 189–199.
[5] Hu YH, Sha LQ, Blanchet FG, Zhang JL, Tang Y, Lan GY, Cao M. 2012. Dominant species and dispersal limitation regulate tree species distributions in a 20-ha plot in Xishuangbanna, southwest China. Oikos 121(6): 952–960.
[6] Huang W, Zhang S-B, Cao K-F*. 2012. Evidence for leaf fold to remedy the deficiency of physiological photoprotection for photosystem II. Photosynthesis Research 110(3): 185–191.
[7] Huang W, Yang S-J, Zhang S-B, Zhang J-L, Cao K-F*. 2012. Cyclic electron flow plays an important role in photoprotection for the resurrection plant Paraboea rufescens under drought stress. Planta 235(4): 819–828.
[8] Yang S-J, Zhang Y-J, Cao K-F*. 2012. Recovery of diurnal depression of leaf hydraulic conductance in a subtropical woody bamboo species: embolism refilling by nocturnal root pressure. Tree Physiology 32(4): 414–422.
[9] Zhang J-L, Poorter L, Hao G-Y, Cao K-F*. 2012. Photosynthetic thermotolerance of woody savanna species in China is correlated with leaf lifespan. Annals of Botany 110(5): 1027–1033.
[10] Zhang J-L, Poorter L, Cao K-F*. 2012. Productive leaf functional traits of Chinese savanna species. Plant Ecology 213(9): 1449–1460.
[11] Zhang S-B, Zhang J-L, Slik JWF, Cao K-F*. 2012. Leaf element concentrations of terrestrial plants across China are influenced by taxonomy and the environment. Global Ecology and Biogeography 21(8): 809–818.
[12] Zhang S-B, Guan Z-J, Sun M, Zhang J-J, Cao K-F, Hu H*. 2012. Evolutionary association of stomatal traits with leaf vein density in Paphiopedilum, Orchidaceae. PloS One 7(6): e40080.
[13] 黄伟, 张石宝, 曹坤芳*. 2012. 高等植物环式电子传递的生理作用. 植物科学学报 30(1): 100–106. Huang W, Zhang S-B, Cao K-F*. 2012. Physiological role of cyclic electron flow in higher plants. Plant Science Journal 30(1): 100–106.
[14] 刘金玉, 付培立, 王玉杰, 曹坤芳*. 2012. 热带喀斯特森林常绿和落叶榕树的水力特征和水分关系与抗旱策略. 植物科学学报 30(5): 484–493. Liu J-Y, Fu P-L, Wang Y-J, Cao K-F. 2012. Different drought-adaptation strategies as characterized by hydraulic and water-relations traits of evergreen and deciduous figs in a tropical karst forest. Plant Science Journal 30(5): 484–493.
[15] 杞金华,章永江*,张一平,刘玉洪,杨秋云,宋亮,巩合德,鲁志云. 2012. 哀牢山常绿阔叶林水源涵养功能及其在应对西南干旱中的作用. 生态学报 32(6): 1692–1702. Qi JH, Zhang YJ*, Zhang YP, Liu YH, Yang QY, Song L, Gong HD, Lu ZY. 2012. Water-holding capacity of an evergreen broadleaf forest in Ailao Mountain and its functions in mitigating the effects of Southwest China drought. Acta Ecologica Sinica 32(6): 1692–1702.
2011
[1] Bai K-D, Jiang D-B, Cao K-F, Liao D-B, Wan X-C*. 2011. The physiological advantage of an ecological filter species, Indocalamus longiauritus, over co-occurring Fagus lucida and Castanopsis lamontii seedlings. Ecological Research 26(1): 15–25.
[2] Chen J-W*, Zhang Q, Li X-S, Cao K-F. 2011. Steady and dynamic photosynthetic responses of seedlings from contrasting successional groups under low-light growth conditions. Physiologia Plantarum 141(1): 84–95.
[3] Fan Z-X*, Br?uning A, Thomas A, Li J-B, Cao K-F. 2011. Spatial and temporal temperature trends on the Yunnan Plateau (Southwest China) during 1961–2004. International Journal of Climatology 31(14): 2078–2090.
[4] Hao G-Y*, Goldstein G, Sack L, Holbrook NM, Liu Z-H, Wang A-Y, Harrison RD, Su Z-H, Cao K-F. 2011. Ecology of hemiepiphytism in fig species is based on evolutionary correlation of hydraulics and carbon economy. Ecology 92(11): 2117–2130.
[5] Hao G-Y, Wang A-Y, Liu Z-H, Franco AC, Goldstein G, Cao K-F*. 2011. Differentiation in light energy dissipation between hemiepiphytic and non-hemiepiphytic Ficus species with contrasting xylem hydraulic conductivity. Tree Physiology 31(6): 626–636.
[6] Huang W, Zhang S-B, Cao K-F*. 2011. Cyclic electron flow plays an important role in photoprotection for tropical trees illuminated at temporal chilling temperature. Plant and Cell Physiology 52(2): 297–305.
[7] Zhang S-B, Slik JWF, Zhang J-L, Cao K-F. 2011. Spatial patterns of wood traits in China are controlled by phylogeny and environment. Global Ecology and Biogeography 20(2):241–250.
[8] Zhang S-B, Guan Z-J, Chang W, Hu H, Cao K-F. 2011. Slow photosynthetic induction and low photosynthesis in Paphiopedilum armeniacum are related to its lack of guard cell chloroplast and peculiar stomatal anatomy. Physiologia Plantarum 142(2): 118–127.
[9] 易子月, 石玲玲, 陈安潜, 曹坤芳, 邹晓明. 2011. 云南元江干热河谷区植被梯度下土壤真菌群落研究. 中国农学通报 27(22): 89–93. Yi Z-Y, Shi L-L, Chen A-Q, Cao K-F, Zou X-M. 2011. Soil fungal communities along the vegetation gradient in hot-dry valley of Yuanjiang, Yunnan Province. Chinese Agricultural Scinece Bulletin 27(22): 89–93.
2010
[1] Chen J-W*, Zhang Q, Li X-S, Cao K-F. 2010. Gas exchange and hydraulics in seedlings of Hevea brasiliensis during water stress and recovery. Tree Physiology 30(7): 876–885.
[2] Enright NJ*, Cao K-F. 2010. Plant ecology in China. Plant Ecology 209(2): 181–187.
[3] Fan Z-X*, Br?uning A, Tian Q-H, Cao K-F. 2010. Tree ring recorded May–August temperature variations since A.D. 1585 in the Gaoligong Mountains, southeastern Tibetan Plateau. Palaeogeography, Palaeoclimatology, Palaeoecology 296(1-2): 94–102.
[4] Hao G-Y, Sack L, Wang A-Y, Cao K-F*, Goldstein G*. 2010. Differentiation of water flux and drought tolerance traits in leaves of hemiepiphytic and non-hemiepiphytic Ficus tree species. Functional Ecology 24(4): 731–740.
[5] Huang W, Zhang S-B, Cao K-F*. 2010. Stimulation of cyclic electron flow during recovery after chilling-induced photoinhibition of PSII. Plant and Cell Physiology 51(11): 1922–1928.
[6] Huang W, Zhang S-B, Cao K-F*. 2010. The different effects of chilling stress under moderate light intensity on photosystem II compared with photosystem I and subsequent recovery in tropical tree species. Photosynthesis Research 103(3): 175–182.
[7] Zhu S-D, Cao K-F*. 2010. Contrasting cost-benefit strategy between lianas and trees in a tropical seasonal rain forest in Southwest China. Oecologia 163(3): 591–599.
[8] 白坤栋, 蒋得斌, 曹坤芳*, 万贤崇, 廖德宝. 2010. 哀牢山和猫儿山中山常绿和落叶阔叶树光合特性对季节温度变化的响应. 生态学报 30(4): 905–913. Bai K-D, Jiang D-B, Cao K-F, Wan X-C, Liao D-B. 2010. Photosynthetic response to seasonal temperature changes in evergreen and deciduous broad-leaved trees in montane forests of Ailao Mountain and Mao’er Montain. Acta Ecologica Sinica 30(4): 905–913.
[9] 曹坤芳, 常杰. 2010. 突发气象灾害的生态效应: 2008年中国南方特大冰雪灾害对森林生态系统的破坏. 植物生态学报 34 (2): 123–124. Cao K-F, Chang J. 2010. The ecological effects of an unusual climatic disaster: the destruction to forest ecosystems by the extremely heavy glaze and snow storms occurred in early 2008 in southern China. Chinese Journal of Plant Ecology 34 (2): 123–124.
2009
[1] Chen J-W*, Bai K-D, Cao K-F*. 2009. Inhibition of monoterpene biosynthesis accelerates oxidative stress and leads to enhancement of the antioxidant defenses in leaves of rubber tree (Hevea brasiliensis). Acta Physiologiae Plantarum 31(1): 95–101.
[2] Chen J-W*, Zhang Q, Cao K-F*. 2009. Inter-species variation of photosynthetic and xylem hydraulic traits in the deciduous and evergreen Euphorbiaceae tree species from a seasonal tropical forest in south-western China. Ecological Research 24(1): 65–73.
[3] Chen J-W*, Zhang Q, Li X-S, Cao K-F*. 2009. Independence of stem and leaf hydraulic traits in six Euphorbiaceae tree species with contrasting leaf phenology. Planta 230(3): 459–468.
[4] Fan Z-X*, Cao K-F, Becker P. 2009. Axial and radial variations in xylem anatomy of angiosperm and conifer trees in Yunnan, China. IAWA Journal 30 (1): 1–13.
[5] Fan Z-X, Br?uning A*, Cao K-F, Zhu S-D. 2009. Growth-climate responses of high-elevation conifers in the central Hengduan Mountains, southwestern China. Forest Ecology and Management 258(3): 306–313.
[6] Fan Z-X, Br?uning A*, Yang B, Cao K-F. 2009. Tree ring density-based warmer temperature reconstruction for the central Hengduan Mountains in southern China. Global and Planetary Change 65(1): 1–11.
[7] Hao G-Y, Jones TJ, Luton C, Zhang Y-J, Manzane E, Scholz FG, Bucci SJ, Cao K-F, Goldstein G*. 2009. Hydraulic redistribution in dwarf Rhizophora mangle trees driven by interstitial soil water salinity gradients: impacts on hydraulic architecture and gas exchange. Tree Physiology 29(5): 697–705.
[8] Zhang J-L, Cao K-F*. 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.
[9] Zhang J-L, Meng L-Z, Cao K-F*. 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.
[10] Zhang Q, Chen J-W, Li B-G, Cao K-F*. 2009. Epiphytes and hemiepiphytes have slower photosynthetic responses to lightflecks than terrestrial plants, evidences from tropical ferns and figs. Journal of Tropical Ecology 25(5): 465–472.
[11] Zhang Q, Chen J-W, Li B-G, Cao K-F*. 2009. The effects of drought on photosynthesis in two epiphytic and two terrestrial tropical fern species. Photosynthetica 47 (1): 128–132.
[12] Zhang Y-J, Meinzer FC*, Hao G-Y, Scholz FG, Bucci SJ, Takahashi FSC, Villalobos-Vega R, Giraldo JP, Cao K-F, Hoffmann WA, Goldstein G. 2009. Size-dependent mortality in a Neotropical savanna tree: the role of height-related adjustments in hydraulic architecture and carbon allocation. Plant, Cell and Environment 32(10): 1456–1466.
[13] Zheng L, Ives AR*, Garland T, Larget BR, Yu Y, Cao K-F*. 2009. New multivariate tests for phylogenetic signal and trait correlations applied to ecophysiological phenotypes of nine Manglietia species. Functional Ecology 23(6): 1059–1069.
[14] Zhu J-J, Zhang J-L, Liu H-C, Cao K-F*. 2009. Photosynthesis, non-photochemical pathways and activities of antioxidant enzymes in a resilient evergreen oak under different climatic conditions from a valley-savanna in Southwest China. Physiologia Plantarum 135(1): 62–72.
[15] Zhu S-D, Cao K-F*. 2009. Hydraulic properties and photosynthetic rates in co-occurring lianas and trees in a seasonal tropical rainforest in southwestern China. Plant Ecology 204(2): 295–304.
[16] 张教林, 郝广友, 曹坤芳. 2009. 云南元江干热河谷木本植物的物候. 武汉植物学研究27(1):76-82. Zhang J-L, Hao G-Y, Cao K-F. 2009. Phenology of woody species in Yuanjiang dry-hot valley in Yunnan Province. Journal of Wuhan Botanical Research 27(1): 76–82.
2008
[1] Bai K-D, Liao D-B, Jiang D-B, Cao K-F*. 2008. Photosynthetic induction in leaves of co-occurring Fagus lucida and Castanopsis lamontii saplings grown in contrasting light environments. Trees 22(4): 449–462.
[2] Chen J-W, Cao K-F*. 2008. Changes in activities of antioxidative system and monoterpene and photochemical efficiency during seasonal leaf senescence in Hevea brasiliensis trees. Acta Physiologiae Plantarum 30(1): 1–9.
[3] Chen Y-J, Bongers F, Cao K-F*, Cai Z-Q. 2008. Above- and below-ground competition in high and low irradiance: tree seedling responses to a competing liana Byttneria grandifolia. Journal of Tropical Ecology 24(5): 517–524.
[4] Elsheery NI, Cao K-F*. 2008. Gas exchange, chlorophyll fluorescence, and osmotic adjustment in two mango cultivars under drought stress. Acta Physiologiae Plantarum 30(6): 769–777.
[5] Fan Z-X, Br?uning A*, Cao K-F. 2008. Annual temperature reconstruction in the Central Hengduan Mountains, China, as deduced from tree rings. Dendrochronologia 26(2): 97–107.
[6] Fan Z-X, Br?uning A*, Cao K-F. 2008. Tree-ring based drought reconstruction in the central Hengduan Mountain region (China) since A.D. 1655. International Journal of Climatology 28(14): 1879–1887.
[7] Hao G-Y, Hoffmann WA, Scholz FG, Bucci SJ, Meinzer FC, Franco AC, Cao K-F, Goldstein G. 2008. Stem and leaf hydraulics of congeneric tree species from adjacent tropical savanna and forest ecosystems. Oecologia 155(3): 405–415.
[8] Elsheery NI, Wilske B, 曹坤芳*. 2008. 夜间低温对生长在两种光强下两个芒果品种的气体交换和叶绿素荧光的影响. 云南植物研究 30(4): 447–456. Elsheery NI, Wilske B, Cao K-F*. 2008. The effect of night chilling on gas exchange and chlorophyll fluorescence of two mango cultivars growing under two irradiances. Acta Botanica Yunnanica 30(4): 447–456.
[9] 陈军文, 曹坤芳. 2008. 三叶橡胶光合作用能力和抗氧化系统以及单萜类物质对茉莉酸的响应. 植物研究 28(1): 47–53. Chen J-W, Cao K-F. Responses of photosynthetic capacities, antioxidant activities and monoterpene biosynthesis in leaves of Hevea brasiliensis tree to Jasmonic acid. Bulletin of Botanical Research 28(1): 47–53.
[10] 陈亚军, 曹坤芳, 蔡志全*. 2008. 两种光照下木质藤本与树木幼苗的竞争关系. 植物生态学报 32(3): 639–647. Chen Y-J, Cao K-F, Cai Z-Q*. 2008. Above- and below-ground competition between seedlings of lianas and trees under two light irradiances. Journal of Plant Ecology 32(3): 639–647.
[11] 陈亚军, 文斌. 2008. 滇南勐宋热带山地雨林木质藤本多样性研究. 广西植物 28(1): 67–72. Chen Y-J, Wen B. Liana diversity and abundance of a tropical montane rainforest in Mengsong, Southern Yunnan, China. Guihaia 28(1): 67–72.
[12] 陈亚军, 张教林, 曹坤芳*. 2008. 两种热带木质藤本幼苗形态、生长和光合能力对光强和养分的响应. 植物学通报 25(2): 185–194. Chen YJ, Zhang JL, Cao KF*. 2008. Morphological, growth and photosynthetic traits of two liana species in response to different light and soil nutrients. Chinese Bulletin of Botany 25(2): 185–194.
[13] 陈亚军, 朱师丹, 曹坤芳. 2008. 两种光照下木质藤本和树木幼苗的生理生态学特征. 生态学报 28(12): 1–9. Chen Y-J, Zhu S-D, Cao K-F. 2008. Competition of the eco-physiological characteristics between seedlings of lianas and trees under two light irradiances. Acta Ecologica Sinica 28(12): 1–9.
[14] 廖德宝, 白坤栋*, 曹坤芳, 蒋得斌. 2008. 广西猫儿山中山森林共生的常绿和落叶阔叶树光合特性的季节变化. 热带和亚热带植物学报 16(3): 205–211. Liao D-B, Bai K-D*, Cao K-F, Jiang D-B. 2008. Seasonal changes in photosynthetic traits of the coocurring evergreen and decidous broad-leaved species in a montane forest of Mao’er Mountain, Guangxi. Journal of Tropical and Subtropical Botany 16(3): 205–211.
[15] 王爱英, 姜艳娟, 郝广友, 曹坤芳*. 2008. 季节性干旱胁迫对石灰山三种常绿优势树种的水分和光合生理的影响. 云南植物研究 30(3): 325–332. Wang A-Y, Jiang Y-J, Hao G-Y, Cao K-F*. 2008. The effect of seasonal drought to plant hydraulics and photosynthesis of three dominant evergreen tree species in seasonal tropical rainforest of Xishuangbanna limestone area. Acta Botanica Yunnanica 30(3): 325–332.
[16] 张强, 陈军文, 陈亚军, 曹坤芳, 李保贵*. 2008. 西双版纳热带雨林中两种生态型蕨类植物的光合特性比较研究. 植物学通报 25(6): 673–679. Zhang Q, Chen J-W, Chen Y-J, Cao K-F, Li B-G. 2008. Photosynthetic induction in two fern species with different eco-types in Xishuangbanna tropical rainforest. Chinese Bulletin of Botany 25(6): 673–679.
[17] 朱俊杰, 曹坤芳*. 2008. 元江干热河谷毛枝青冈和三叶漆抗氧化系统季节变化.植物生态学报 32(5): 985–993. Zhu J-J, Cao K-F*. 2008. Seasonal changes in the foliar antioxidant systems in Cyclobalanopsis helferiana and Terminthia paniculata in the hot-dry valley of the Yuanjiang river, China. Journal of Plant Ecology 32(5): 985–993
2007
[1] Cai Z-Q*, Poorter L, Cao K-F, Bongers F. 2007. Seedling growth strategies in Bauhinia species: comparing lianas and trees. Annals of Botany 100(4): 831–838.
[2] Elsheery NI, Wilske B, Cao K-F*. 2007. Seasonal variations in gas exchange and chlorophyll fluorescence in the leaves of five mango cultivars in southern Yunnan, China. Journal of Horticultural Science and Biotechnology 82(6): 855–862.
[3] Wilske B*, Cao K-F, Schebeske G, Chen J-W, Wang A, Kesselmeier J. 2007. Isoprenoid emissions of trees in a tropical rainforest in Xishuangbanna, SW China. Atmospheric Environment 41(18): 3748–3757.
[4] Zhang J-L, Zhu J-J, Cao K-F*. 2007. Seasonal variation in photosynthesis in six woody species with different leaf phenology in a valley savanna in southwestern China. Trees 21(6): 631–643.
2006
[1] Cao K-F*, Guo Y-H, Cai Z-Q. 2006. Photosynthesis and antioxidant enzyme activity in breadfruit, jackfruit and mangosteen in Southern Yunnan, China. Journal of Horticultural Science & Biotechnology 81(1): 168–172.
[2] Guo X-R, Cao K-F*, Xu Z-F. 2006. Acclimation to irradiance in seedlings of three tropical rain forest Garcinia species after simulated gap formation. Photosynthetica 44(2): 193–201.
[3] 李伟, 曹坤芳*. 2006.干旱胁迫对不同光环境下的三叶漆幼苗光合特性和叶绿素荧光参数的影响. 西北植物学报 26(2): 266–275. Li W, Cao K-F*. 2006. Effects of drought stress on photosynthetic characteristics and chlorophyll fluorescence parameters in seedlings of Terminthia paniculata grown under different light level. Acta Botanica Boreali-Occidentalia Sinica 26(2): 266–275.
2005
[1] Cai Z-Q*, Chen Y-J, Guo Y-H, Cao K-F. 2005. Responses of two field-grown coffee species to drought and re-hydration. Photosynthetica 43(2): 187–193.
[2] Chen J-W, Cao K-F. 2005. Plant VOCs emission: a new strategy of thermotolerance. Journal of Forestry Research 16(4): 323–326.
[3] Feng Y-L*, Cao K-F. 2005. Photosynthesis and photoinhibition after night chilling in seedlings of two tropical tree species grown under three irradiances. Photosynthetica 43(4): 567–574.
[4] 范泽鑫, 曹坤芳*. 2005. 树木高生长限制的几个假说. 植物学通报 22(5): 632–640. Fan Z-X, Cao K-F*. 2005. Hypothesis on the limitation of tree height growth. Chinses Bulletin of Botany 22(5): 632–640.
[5] 范泽鑫, 曹坤芳*, 邹寿青. 2005. 云南哀牢山6种常绿树木质部解剖特征的轴向和径向变化. 植物生态学报 29(6): 968–975. Fan Z-X, Cao K-F*, Zou S-Q. 2005. Axial and radial changes in xylem anatomical characteristis in six evergreen broadleaved tree species in Ailao Mountain, Yunnan. Acta Phytoecologica Sinica 29(6): 968–975.
[6] 郭玉华, 蔡志全*, 曹坤芳. 2005. 夜间低温对两种咖啡光合作用的影响. 生态学杂志 24(5): 478–482. Guo Y-H, Cai Z-Q*, Cao K-F. 2005. Effects of nocturnal low temperature on photosynthesis of seedlings of two coffee species. Chinese Journal of Ecology 24(5): 478–482.
[7] 孟令曾, 张教林, 曹坤芳, 许再富. 2005. 迁地保护的4种龙脑香冠层叶光合速率和叶绿素荧光参数的日变化. 植物生态学报 29(6): 976–984. Meng L-Z, Zhang J-L, Cao K-F, Xu Z-F. 2005. Diurnal changes of photosynthetic characteristics and chlorophyll fluorescence in canopy leaves of four diptocarp species under ex-situ conservation. Acta Phytoecologica Sinica 29(6): 976–984.
[8] 宋富强, 曹坤芳*. 2005. 元江干热河谷植物叶片解剖和养分含量特征. 应用生态学报 16(1): 33–38. Song F-Q, Cao K-F*. 2005. Anatomical and nutrient features of plant leaves in Yuanjiang savanna valley. Chinese Journal of Applied Ecology 16(1): 33–38.
2004
[1] Feng YL, Cao KF*, Zhang JL. 2004. Photosynthetic characteristics, dark respiration, and leaf mass per unit area in seedlings of four tropical tree species grown under three irradiances. Photosynthetica 42(3): 431–437.
[2] Guo Y-H, Cao K-F*. 2004. Effect of night chilling on photosynthesis of two coffee species grown under different irradiances. Journal of Horticultural Science & Biotechnology 79(5): 713–716.
[3] 蔡传涛, 蔡志全*, 解继武, 周庆辉, 曹坤芳, 姚天全, 王 华. 2004. 田间不同水肥管理下小粒咖啡的生长和光合特性. 应用生态学报 15(7): 1207–1212. Cai C-T, Cai Z-Q*, Xie J-W, Zhou Q-H, Cao K-F, Yao T-Q, Wang H. 2004. Growth and photosynthetic characteristics of field-grown Coffea Arabica under different watering and fertilization managements. Chinese Journal of Applied Ecology 15(7): 1207–1212.
[4] 蔡志全*, 蔡传涛, 齐欣, 姚天全. 2004. 施肥对小粒咖啡生长、光合特性和产量的影响. 应用生态学报 15(9): 1561–1564. Cai Z-Q*, Cai C-T, Qi X, Yao T-Q. 2004. Effects of fertilization on the growth, photosynthetic characteristics and yield of Coffea arabica. Chinese Journal of Applied Ecology 15(9): 1561–1564.
[5] 蔡志全*, 齐欣, 曹坤芳. 2004. 七种热带雨林树苗叶片气孔特征及其可塑性对不同光照强度的响应. 应用生态学报 15(2): 201–204. Cai Z-Q*, Qi X, Cao K-F. 2004. Response of stomatal characterisitics and its plasticity to different light intensities in leaves of seven tropical woody seedlings. Chinese Journal of Applied Ecology 15(2): 201–204.
[6] 蔡志全, 曹坤芳. 2004. 遮荫下两种热带树苗叶片光合特性和抗氧化酶系统对自然降温的响应. 林业科学 40(1): 47–51. Cai Z-Q, Cao K-F. 2004. The response of photosynthetic characteristics and enzymatic antioxidant system in leaves of two tropical seedlings growing in shade conditions as temperature fall. Scientia Silvae Sinicae 40(1): 47–51.
[7] 冯玉龙, 曹坤芳, 冯志立. 2004. 夜间低温对不同光强下生长的两种沟谷雨林树苗荧光参数的影响. 植物生态学报 28(2): 150–156. Feng Y-L, Cao K-F, Feng Z-L. 2004. Effects of nocturnal chilling temperature on chlorophyll fluorescence parameters in seedlings of two ravine rainforest species grown under different light intensities. Acta Phytoecologica Sinica 28(2): 150–156.
[8] 高洁*, 曹坤芳, 王焕校, 冯志立. 2004. 干热河谷主要造林树种光合作用光抑制的防御机制. 应用与环境生物学报 10(3): 286–291. Gao J, Cao K-F, Wang H-X, Feng Z-L. 2004. Protective mechanism against photoinhibition of photosynthesis in some trees planted in hot-dry valleys. Chinese Journal of Applied and Environmental Biology 10(3): 286–291.
[9] 高洁, 曹坤芳*, 王焕校. 2004. 干热河谷9种造林树种在旱季的水分关系和气孔导度. 植物生态学报 28(2): 186–190. Gao J, Cao K-F, Wang H-X. 2004. Water relations and stomatal conductance in nine tree species during dry period grown in a hot and dry valley. Acta Phytoecologica Sinica 28(2): 186–190.
[10] 郭晓荣, 曹坤芳*, 许再富. 2004. 热带雨林不同生态习性树种幼苗光合作用和抗氧化酶对生长光环境的反应. 应用生态学报 15(3): 377–381. Guo X-R, Cao K-F*, Xu Z-F. 2004. Response of photosynthesis and antioxygenic enzymes in seedlings of three tropical forest tree species to different light environments. Chinese Journal of Applied Ecology 15(3): 377–381.
[11] 郭玉华, 蔡志全, 曹坤芳*, 王渭玲. 2004. 四种热带雨林树种光合和形态解剖特征对不同生长光强的适应. 武汉植物学研究 22(3): 240–244. Guo Y-H, Cai Z-Q, Cao K-F*, Wang W-L. 2004. Leaf photosynthetic and anatomic acclimation of four tropical rainforest tree species to different growht light conditions. Journal of Wuhan Botanical Research 22(3): 240–244.
[12] 齐欣, 曹坤芳*, 冯玉龙. 2004. 热带雨林蒲桃属3个树种的幼苗光合作用对生长光强的适应. 植物生态学报 28(1): 31–38. Qi X, Cao K-F*, Feng Y-L. 2004. Photosynthetic acclimation to different growth light environments in seedlings of three tropical rainforest Syzygium species. Acta Phytoecologica Sinica 28(1): 31–38.
[13] 张教林, 曹坤芳*. 2004. 不同生态习性热带雨林树种的幼苗对光能的利用与耗散. 应用生态学报 15(3): 372–376. Zhang JL, Cao KF*. 2004. Light energy utilization and dissipation in seedlings of three tropical rain forest tree species with different ecological habits. Chinese Journal of Applied Ecology 15(3): 372–376.
2003
[1] 蔡志全*, 曹坤芳, 冯玉龙, 冯志立. 2003. 夜间低温胁迫对两种生长光强下藤黄幼苗叶片荧光特征和活性氧代谢的影响. 应用生态学报 14(3): 326–331. Cai Z-Q*, Cao K-F*, Feng Y-L, Feng Z-L. 2003. Effect of low nocturnal temperature stress on fluorescence characteristics and active oxygen metabolism in leaves of Ga rcinia hanburyi seedlings grown under two levels of irradiance. Chinese Journal of Applied Ecology 14(3): 326–331.
[2] 蔡志全, 曹坤芳*, 冯玉龙, 冯志立. 2003. 热带雨林三种树苗叶片光合机构对光强的适应. 应用生态学报 14(4): 493–496. Cai Z-Q, Cao K-F*, Feng Y-L, Feng Z-L. 2003. Acclimation of foliar photosynthetic apparatus of three tropical woody species to growth irradiance. Chinese Journal of Applied Ecology 14(4): 493–496.
[3] 蔡志全, 曹坤芳, 齐欣. 2003. 热带雨林冠层树种绒毛番龙眼两种发育阶段叶片的光抑制. 植物生态学报 27(2): 210–217. Cai Z-Q, Cao K-F, Qi X. 2003. Photoinhibition of photosynthesis in leaves of two developing stages of a rainforest canopy tree, Pometia tomentosa. Acta Phytoecologica Sinica 27(2): 210–217.
[4] 蔡志全, 曹坤芳, 郑丽. 2003. 6种热带雨林木本植物幼苗光合诱导的研究. 植物生态学报 27(5): 617–623. Cai Z-Q, Cao K-F, Zheng L. 2003. Photosynthetic induction in seedlings of six tropical rainforest tree species. Acta Phytoecologica Sinica 27(5): 617–623.
[5] 张教林, 曹坤芳*. 2003. 夜间低温对2种热带雨林树种幼苗叶绿素荧光的影响. 武汉植物学研究 21(4): 356–360. Zhang JL, Cao KF. 2003. The effects of night chilling on chlorophyll fluorescence in seedlings of two tropical rain forest tree species. Journal of Wuhan Botanical Research 21(4): 356–360.
[6] 张亚杰, 冯玉龙*, 冯志立, 曹坤芳. 2003. 绒毛番龙眼对生长环境光强的形态学和生理学适应. 植物生理与分子生物学学报 29(3): 206–214. Zhang Y-J, Feng Y-L, Feng Z-L*, Cao K-F. 2003. Morphological and physiological acclimation to growth light intensities in Pometia tomentosa. Journal of Plant Physiology and Molecular Biology 29(3): 206–214.
2002
[1] Feng Y-L, Cao K-F*, Feng Z-L. 2002. Thermal dissipation, leaf rolling and inactivation of PSII reaction centres in Amomum villosum. Journal of Tropical Ecology 18(6): 865–876.
[2] 蔡志全, 曹坤芳, 冯玉龙, 冯志立. 2002. 夜间低温对两种热带树苗叶片活性氧代谢的影响. 西北植物学报 22(4): 859–864. Cai Z-Q, Cao K-F, Feng Y-L, Feng Z-L. 2002. Effect of nocturnal low temperature on the active oxygen metabolism in the leaves of two tropical seedlings. Acta Botanica Boreali-Occidentalia Sinica 22(4): 859–864.
[3] 蔡志全, 曹坤芳. 2002. 热带森林植物幼叶抗虫食防卫方式研究的现状及进展. 广西植物 22(5): 474–480. Cai Z-Q, Cao K-F. 2002. Advances in the studies on anti-herbivore defenses of tropical forest plant young leaves. Guihaia 22(5): 474–480.
[4] 蔡志全, 曹坤芳, 李宝贵. 2002. 热带雨林剑叶凤尾蕨(Pteris ensiformis)对光强变化的适应. 武汉植物研究 20(4): 283–287. Cai Z-Q, Cao K-F, Li B-G. Acclimation to light environment changes of a tropical rainforest fern, Pteris ensiformis. Journal of Wuhan Botanical Research 20(4): 283–287.
[5] 冯玉龙, 曹坤芳, 冯志立, 蔡志全. 2002. 夜间低温对不同光强下生长的两种热带树苗光合作用的影响. 植物生理与分子生物学学报 28(6): 433–440. Feng Y-L, Cao K-F, Feng Z-L, Cai Z-Q. 2002. Effects of nocturnal chilling temperature on photosynthesis in seedlings of two tropical tree species grown under different light intensities. Journal of Plant Physiology and Molecular Biology 28(6): 433–440.
[6] 冯玉龙, 曹坤芳, 冯志立, 马玲. 2002. 四种热带雨林树种幼苗比叶重, 光合特性和暗呼吸对生长光环境的适应. 生态学报 22(6): 901–910. Feng Y-L, Cao K-F, Feng Z-L, Ma L. 2002. Acclimation of lamina mass per unit area, photosynthetic characteristics and dark respiration to growth light regimes in four tropical rainforest species. Acta Ecologica Sinica 22(6): 901–910.
[7] 冯玉龙, 曹坤芳, 冯志立. 2002. 生长光强对4种热带雨林树苗光合机构的影响.植物生理与分子生物学学报 28(2): 153–160. Feng Y-L, Cao K-F, Feng Z-L. 2002. Effect of Growth light intensity on the photosynthetic apparatus in four tropical rainforest tree species seedlings. Journal of Plant Physiology and Molecular Biology 28(2): 153–160.
[8] 冯志立, 冯玉龙, 曹坤芳*. 2002. 光强对砂仁叶片光合作用光抑制及热耗散的影响. 植物生态学报 26(1): 77–82. Feng Z-L, Feng Y-L, Cao K-F. 2002. Effects of light intensity on photoinhibition of photosynthesis and thermal dissipation in Amomum villosum Lour. Acta Phytoecologica Sinica 26(1): 77–82.
[9] 张教林, 曹坤芳*. 2002. 光照对两种热带雨林树种幼苗光合能力、热耗散和抗氧化系统的影响. 植物生态学报 26(6): 639–646. Zhang JL, Cao KF. 2002. The effect of irradiance on photosynthetic capacity, heat dissipation, and antioxidants of seedlings of two tropical rain forest tree species. Acta Phytoecologica Sinica 26(6): 639–646.
2001
[1] Cao K-F, Booth EW. 2001. Leaf anatomical structure and photosynthetic induction for seedlings of five dipterocarp species under contrasting light conditions in a Bornean heath forest. Journal of Tropical Ecology 17(2): 163–175.
[2] Cao K-F. 2001. Morphology and growth of deciduous and evergreen broad-leaved saplings under different light conditions in a Chinese beech forest with dense bamboo undergrowth. Ecological Research 16(3): 509–517.
[3] 冯玉龙, 冯志立, 曹坤芳. 2001. 砂仁叶片光破坏的防御. 植物生理学报 27(6): 483–488. Feng Y-L, Feng Z-L, Cao K-F. 2001. The protection against photodamage in Amomum villosum Lour. Acta Phytophysiologica Sinica 27(6): 483–488.
Copyright 2002-2022 中国科学院西双版纳热带植物园【滇ICP备13004273号-1】