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1. Leaf element concentrations of terrestrial plants across China are.. [860]
2. 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 [756]
3. Dominant species and dispersal limitation regulate tree species di.. [721]
4. Evidence for the regulation of leaf movement by photosystem II act.. [649]
5. Leaf Photosynthetic Rate of Tropical Ferns Is Evolutionarily Linke.. [604]
6. Cyclic electron flow plays an important role in photoprotection fo.. [602]
7. Photosynthetic thermotolerance of woody savanna species in China i.. [598]
8. Effects of phylogeny and climate on seed oil fatty acid compositio.. [585]
9. Photosynthetic characteristics, dark respiration, and leaf mass pe.. [564]
10. Productive leaf functional traits of Chinese savanna species [553]
11. 云南元江干热河谷木本植物的物候 [542]
12. Differences in the responses of photosystem I and photosystem II o.. [525]
13. 不同生态习性热带雨林树种的幼苗对光能的利用与耗散 [478]
14. 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 [460]
15. 夜间低温对2 种热带雨林树种幼苗叶绿素荧光的影响 [455]
16. 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 [451]
17. Changes in soil microbial communities due to biological invasions .. [424]
18. More sensitive response of crown conductance to VPD and larger wat.. [416]
19. Nutrient resorption is associated with leaf vein density and growt.. [413]
20. Differentiation of water-related traits in terrestrial and epiphyt.. [405]
21. 热带胶园土壤磷素形态和生物有效性 [390]
22. Hydraulic determinants of drought-induced tree mortality and chang.. [379]
23. The cover uncovered: Bark control over wood decomposition [369]
24. 干热河谷木本植物光合能力、光合热稳定性与叶片元素含量,结构和寿命的.. [365]
25. Water-use advantage for lianas over trees in tropical seasonal for.. [361]
26. Size-Class Effect Contributes to Tree Species Assembly through Inf.. [360]
27. Are invasive plants more competitive than native conspecifics? Pat.. [330]
28. Correlated evolution in traits influencing leaf water balance in D.. [327]
29. Stable stomatal number per minor vein length indicates the coordin.. [320]
30. Superoxide generated in the chloroplast stroma causes photoinhibit.. [304]
31. Differences in the photosynthetic efficiency and photorespiration .. [301]
32. Differential responses of photosystems I and II to seasonal drough.. [296]
33. Species composition, functional and phylogenetic distances correla.. [296]
34. 热带雨林木质藤本植物叶片性状及其关联 [293]
35. DIFFERENT BIOMECHANICAL DESIGN AND ECOPHYSIOLOGICAL STRATEGIES IN .. [285]
36. Convergent Evolution towards High Net Carbon Gain Efficiency Contr.. [273]
37. Time lags between crown and basal sap flows in tropical lianas and.. [270]
38. Photoinhibition of photosystem I under high light in the shade-est.. [262]
39. Nitrogen-fixing and non-nitrogen-fixing legume plants differ in le.. [256]
40. 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 [255]
41. Survival secrets of mistletoes: high drought tolerance in canopy h.. [239]
42. Hydraulic traits and photosynthesis are coordinated with trunk sap.. [238]
43. Quantifying vulnerability to embolism in tropical trees and lianas.. [237]
44. Tropical forest structure and understorey determine subsurface flo.. [232]
45. Quantifying the factors affecting wood decomposition across a trop.. [232]
46. Tropical forest structure and understorey determine subsurface flo.. [213]
47. When facilitation meets clonal integration in forest canopies [211]
48. Lianas from lives to afterlives [209]
49. 豆科复叶和单叶树种的光合-水分关系分析 [203]
50. 羊蹄甲属藤本和树木叶片热值与建成成本的比较研究 [191]
51. Quantifying the factors affecting wood decomposition across a trop.. [188]
52. Divergence of stem biomechanics and hydraulics between Bauhinia li.. [186]
53. Tropical forest structure and understorey determine subsurface flo.. [185]
54. Overlapping Water and Nutrient Use Efficiencies and Carbon Assimil.. [180]
55. Physiological response and photosynthetic recovery to an extreme d.. [179]
56. Quantifying the factors affecting wood decomposition across a trop.. [177]
57. Savanna Plants Have a Lower Hydraulic Efficiency than Co-Occurring.. [175]
58. Processes controlling programmed cell death of root velamen radicu.. [164]
59. Can leaf drought tolerance predict species abundance and its chang.. [160]
60. Lianas shift towards larger sizes and more acquisitive trait value.. [158]
61. Leaf habit differentiation explains trait tradeoffs across savanna.. [158]
62. 豆科复叶和单叶树种的光合-水分关系分析 [154]
63. Divergences in stem and leaf traits between lianas and coexisting .. [153]
64. An improved representative of stomatal models for predicting diurn.. [152]
65. Convergent relationships between flower economics and hydraulic tr.. [150]
66. Leaf and Stem Traits are Linked to Liana Growth Rate in a Subtropi.. [149]
67. Mistletoes have higher hydraulic safety but lower efficiency in xy.. [149]
68. Higher water and nutrient use efficiencies in savanna than in rain.. [145]
69. Hydraulic architecture, height-related changes in photosynthesis a.. [145]
70. Remaining uncertainties in the Pneumatic method [143]
71. A critical thermal transition driving spring phenology of Northern.. [143]
72. Effects of ethylenediurea (EDU) on regulatory proteins in two maiz.. [142]
73. Sources and consequences of mismatch between leaf disc and whole-l.. [140]
74. Effects of lianas on forest biogeochemistry during their lives and.. [138]
75. Sources and consequences of mismatch between leaf disc and whole-l.. [134]
76. Remaining uncertainties in the Pneumatic method [131]
77. Traits, strategies, and niches of liana species in a tropical seas.. [129]
78. Physiological response and photosynthetic recovery to an extreme d.. [119]
79. Vessel dimorphism and wood traits in lianas and trees among three .. [119]
80. The complete chloroplast genome of Bauhinia racemosa Lam. (Fabacea.. [107]
81. The complete chloroplast genome of Bauhinia racemosa Lam. (Fabacea.. [105]
82. Cavitation resistance of peduncle, petiole and stem is correlated .. [94]
83. 肉豆蔻科国家重点保护植物叶片功能性状的研究 [91]
84. 云南元江不同胸径厚皮树的水力性状变异格局 [89]
85. Linkages among stem xylem transport, biomechanics, and storage in .. [81]
86. Differentiation in stem and leaf traits among sympatric lianas, sc.. [70]
87. Tropospheric ozone is a catastrophe, and ethylenediurea (EDU) is a.. [60]
88. Kin recognition in plants-an ecological perspective: an overview o.. [51]
89. Soil moisture dynamics and rainfall infiltration across vegetation.. [42]
90. Leaf economic traits link drought and heat tolerance of woody spec.. [8]
91. Effects of soil fertility and toxicity on the performance of Cheno.. [7]

Downloads

1. Hydraulic determinants of drought-induced tree mortality and chang.. [310]
2. 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 [223]
3. Effects of phylogeny and climate on seed oil fatty acid compositio.. [207]
4. Cyclic electron flow plays an important role in photoprotection fo.. [188]
5. More sensitive response of crown conductance to VPD and larger wat.. [183]
6. Nitrogen-fixing and non-nitrogen-fixing legume plants differ in le.. [183]
7. 云南元江干热河谷木本植物的物候 [181]
8. Hydraulic traits and photosynthesis are coordinated with trunk sap.. [179]
9. Leaf element concentrations of terrestrial plants across China are.. [177]
10. Photosynthetic thermotolerance of woody savanna species in China i.. [177]
11. Changes in soil microbial communities due to biological invasions .. [176]
12. 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 [173]
13. Productive leaf functional traits of Chinese savanna species [173]
14. The cover uncovered: Bark control over wood decomposition [167]
15. 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 [152]
16. Nutrient resorption is associated with leaf vein density and growt.. [152]
17. 不同生态习性热带雨林树种的幼苗对光能的利用与耗散 [144]
18. Survival secrets of mistletoes: high drought tolerance in canopy h.. [142]
19. Differences in the responses of photosystem I and photosystem II o.. [140]
20. 夜间低温对2 种热带雨林树种幼苗叶绿素荧光的影响 [138]
21. Differences in the photosynthetic efficiency and photorespiration .. [138]
22. Dominant species and dispersal limitation regulate tree species di.. [137]
23. Water-use advantage for lianas over trees in tropical seasonal for.. [137]
24. Are invasive plants more competitive than native conspecifics? Pat.. [121]
25. Correlated evolution in traits influencing leaf water balance in D.. [120]
26. Stable stomatal number per minor vein length indicates the coordin.. [120]
27. 热带胶园土壤磷素形态和生物有效性 [116]
28. Physiological response and photosynthetic recovery to an extreme d.. [115]
29. Differential responses of photosystems I and II to seasonal drough.. [114]
30. Lianas from lives to afterlives [113]
31. Evidence for the regulation of leaf movement by photosystem II act.. [111]
32. Quantifying vulnerability to embolism in tropical trees and lianas.. [111]
33. 热带雨林木质藤本植物叶片性状及其关联 [110]
34. Differentiation of water-related traits in terrestrial and epiphyt.. [109]
35. 羊蹄甲属藤本和树木叶片热值与建成成本的比较研究 [104]
36. Remaining uncertainties in the Pneumatic method [102]
37. Can leaf drought tolerance predict species abundance and its chang.. [102]
38. Superoxide generated in the chloroplast stroma causes photoinhibit.. [101]
39. Lianas shift towards larger sizes and more acquisitive trait value.. [100]
40. Savanna Plants Have a Lower Hydraulic Efficiency than Co-Occurring.. [99]
41. Size-Class Effect Contributes to Tree Species Assembly through Inf.. [97]
42. 豆科复叶和单叶树种的光合-水分关系分析 [97]
43. Higher water and nutrient use efficiencies in savanna than in rain.. [97]
44. Sources and consequences of mismatch between leaf disc and whole-l.. [96]
45. Time lags between crown and basal sap flows in tropical lianas and.. [95]
46. When facilitation meets clonal integration in forest canopies [95]
47. Convergent relationships between flower economics and hydraulic tr.. [93]
48. Leaf Photosynthetic Rate of Tropical Ferns Is Evolutionarily Linke.. [90]
49. Quantifying the factors affecting wood decomposition across a trop.. [90]
50. A critical thermal transition driving spring phenology of Northern.. [89]
51. Divergence of stem biomechanics and hydraulics between Bauhinia li.. [88]
52. Tropical forest structure and understorey determine subsurface flo.. [87]
53. DIFFERENT BIOMECHANICAL DESIGN AND ECOPHYSIOLOGICAL STRATEGIES IN .. [85]
54. Leaf habit differentiation explains trait tradeoffs across savanna.. [85]
55. Tropical forest structure and understorey determine subsurface flo.. [83]
56. Tropical forest structure and understorey determine subsurface flo.. [83]
57. Quantifying the factors affecting wood decomposition across a trop.. [82]
58. Overlapping Water and Nutrient Use Efficiencies and Carbon Assimil.. [81]
59. Remaining uncertainties in the Pneumatic method [81]
60. Divergences in stem and leaf traits between lianas and coexisting .. [81]
61. Photosynthetic characteristics, dark respiration, and leaf mass pe.. [79]
62. Photoinhibition of photosystem I under high light in the shade-est.. [79]
63. Convergent Evolution towards High Net Carbon Gain Efficiency Contr.. [77]
64. Processes controlling programmed cell death of root velamen radicu.. [75]
65. Sources and consequences of mismatch between leaf disc and whole-l.. [75]
66. An improved representative of stomatal models for predicting diurn.. [74]
67. Vessel dimorphism and wood traits in lianas and trees among three .. [72]
68. Quantifying the factors affecting wood decomposition across a trop.. [71]
69. 豆科复叶和单叶树种的光合-水分关系分析 [68]
70. The complete chloroplast genome of Bauhinia racemosa Lam. (Fabacea.. [67]
71. Mistletoes have higher hydraulic safety but lower efficiency in xy.. [67]
72. Leaf and Stem Traits are Linked to Liana Growth Rate in a Subtropi.. [62]
73. The complete chloroplast genome of Bauhinia racemosa Lam. (Fabacea.. [59]
74. Physiological response and photosynthetic recovery to an extreme d.. [59]
75. Species composition, functional and phylogenetic distances correla.. [52]
76. Effects of lianas on forest biogeochemistry during their lives and.. [52]
77. Effects of ethylenediurea (EDU) on regulatory proteins in two maiz.. [49]
78. 干热河谷木本植物光合能力、光合热稳定性与叶片元素含量,结构和寿命的.. [42]
79. Soil moisture dynamics and rainfall infiltration across vegetation.. [41]
80. 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 [38]
81. 肉豆蔻科国家重点保护植物叶片功能性状的研究 [33]
82. 云南元江不同胸径厚皮树的水力性状变异格局 [33]
83. Hydraulic architecture, height-related changes in photosynthesis a.. [28]
84. Traits, strategies, and niches of liana species in a tropical seas.. [20]
85. Differentiation in stem and leaf traits among sympatric lianas, sc.. [17]
86. Cavitation resistance of peduncle, petiole and stem is correlated .. [16]
87. Tropospheric ozone is a catastrophe, and ethylenediurea (EDU) is a.. [14]
88. Kin recognition in plants-an ecological perspective: an overview o.. [12]
89. Linkages among stem xylem transport, biomechanics, and storage in .. [8]
90. Leaf economic traits link drought and heat tolerance of woody spec.. [7]
91. Effects of soil fertility and toxicity on the performance of Cheno.. [6]