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基本信息Personal Information
教授
性别 : 女
毕业院校 : 中国科学院成都生物研究所
学历 : 博士研究生毕业
学位 : 博士学位
在职信息 : 在岗
所在单位 : 生命科学学院
入职时间 : 2009年08月26日
学科 : 生物科学
办公地点 : 7-211
联系方式 : 0579-82281679
Email :
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- [1]An analytical complete model of root pressure generation: Theoretical bases for studying hydraulics of bamboo.Plant, cell & environment.2024,47 (1):59-71
- [2]A unit pipe pneumatic model to simulate gas kinetics during measurements of embolism in excised angiosperm xylem.Tree Physiology.2022,43 (1):88-101
- [3]The theory behind vessel length determination using gas flow rates and a comparison between two pneumatic methods based on seven species.Journal of Experimental Botany.2022,73 (16):5612-5624
- [4]Leaf venation architecture in relation to leaf size across leaf habits and vein types in subtropical woody plants.Frontiers in Plant Science.2022,13
- [5]The hydraulic architecture of an arborescent monocot: ontogeny-related adjustments in vessel size and leaf area compensate for increased resistance.New Phytologist.2021,231 (1):273-284
- [6]Inferring the role of pit membranes in solute transport from solute exclusion studies in living conifer stems.Journal of Experimental Botany.2020,71 (9):2828-2837
- [7]An improved centrifuge method for determining water extraction curves and vulnerability curves in the long-vessel species Robinia pseudoacacia.Journal of Experimental Botany.2019,70 (18):4865-4876
- [8]Experimental evidence for negative turgor pressure in small leaf cells of Robinia pseudoacacia L versus large cells of Metasequoia glyptostroboides Hu et W. C. Cheng. 1. Evidence from pressure-volume curve analysis of dead tissue.Plant cell and Environment.2016,40 (3):351-363
- [9]Experimental evidence for negative turgor pressure in small leaf cells of Robinia pseudoacacia L versus large cells of Metasequoia glyptostroboides Hu et W. C. Cheng. 2. Höfler diagrams below the volume of zero turgor and the theoretical implication for pressure-volume curves.Plant cell and Environment.2016,40 (3):340-350
- [10]The impact of xylem cavitation on water potential isotherms measured by the pressure chamber technique in Metasequoia glyptostroboides Hu & W. C. Cheng.Journal of Experimental Botany.2016,67 (15):4571-4580
- [11]Different responses in leaf pigments and leaf mass per area to altitude between evergreen and deciduous woody species.Australian Journal of Botany.2013,61 (6):424-435
- [12]Size-dependent leaf area ratio in plant twigs: implication for leaf size optimization.Annals of Botany.2009,105 (1):71–77
- [13]The effects of leaf size, leaf habit, and leaf form on leaf/stem relationships in plant twigs of temperate woody species.Journal of Vegetation Science.2009,20 (2):359-366
- [14]The generality of leaf size versus number trade-off in temperate woody species.Annals of Botany.2008,102 (4):623-629
- [15]The effect of twig architecture and seed number on seed size variation in subtropical woody species
- [16]Within-twig leaf distribution patterns differ among plant life-forms in a subtropical Chinese forest.Tree Physiology.2013,33 (7):753–762
- [17]Trade-offs between light interception and leaf water shedding: a comparison of shade-and sun-adapted species in a subtropical rainforest.Oecologia.2013,174 (1):13-22
- [18]常绿和落叶阔叶物种当年生小枝茎长度和茎纤细率对展叶效率的影响.植物生态学报.2017,41 (06):650-660
- [19]从叶内生物量分配策略的角度理解叶大小的优化.植物生态学报.2015,39 (10):971-979
- [20]浙江天童常绿阔叶林12种常绿木本植物的落叶格局.植物研究.2014,34 (6):741-750