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1. Hydraulic conductivity traits predict growth rates and adult statu.. [853]
2. MAY-JUNE MEAN TEMPERATURE RECONSTRUCTION OVER THE PAST 300 YEARS B.. [832]
3. Spatial and temporal temperature trends on the Yunnan Plateau (Sou.. [807]
4. Potential hydraulic efficiency in angiosperm trees increases with .. [677]
5. 祁连山中部近500 年来降水重建序列分析 [615]
6. 树木高生长限制的几个假说 [580]
7. 云南哀牢山6种常绿阔叶树木质部解剖特征的轴向和径向变化 [577]
8. Multi-Proxy Temperature Reconstruction from the West Qinling Mount.. [565]
9. Tree-ring based drought reconstruction in the central Hengduan Mou.. [540]
10. Leaf development and photosynthetic properties of three tropical t.. [516]
11. 祁连山中部近500年来降水序列多尺度变化分析 [473]
12. 西秦岭地区过去600年的温度重建 [465]
13. Annual temperature reconstruction in the central Hengduan Mountain.. [436]
14. Physiological regulation and efficient xylem water transport regul.. [419]
15. Analysis of reconstructed annual precipitation from tree-rings for.. [414]
16. 滇西北白马雪山高山松(Pinus densata)径向生长对气候因子的响应 [398]
17. A multi-proxy reconstruction of spatial and temporal variations in.. [369]
18. Water-use advantage for lianas over trees in tropical seasonal for.. [361]
19. Himalaya to Hengduan: dynamics of alpine treelines under climate c.. [342]
20. Light Intensity Alters Thermal Tolerance During Heat and Cold Stre.. [334]
21. dendRoAnalyst: A tool for processing and analysing dendrometer dat.. [325]
22. EMD方法对祁连山云杉宽度生长量的订正及多尺度分析 [315]
23. Earlywood and Latewood Stable Carbon and Oxygen Isotope Variations.. [310]
24. Gradual expansion of moisture sensitive Abies spectabilis forest i.. [310]
25. Tradeoff between Stem Hydraulic Efficiency and Mechanical Strength.. [308]
26. Long-term physiological and growth responses of Himalayan fir to e.. [301]
27. Quantifying deforestation and forest degradation with thermal resp.. [299]
28. Stronger cooling effects of transpiration and leaf physical traits.. [299]
29. Tree rings reveal recent intensified spring drought in the central.. [296]
30. Is fog an important water source for woody plants in an Asian trop.. [294]
31. Radial Growth of Qilian Juniper on the Northeast Tibetan Plateau a.. [291]
32. Climatic and edaphic controls on soil microbial diversity and comp.. [289]
33. Earlywood and Latewood Stable Carbon and Oxygen Isotope Variations.. [287]
34. Decadal changes of reference crop evapotranspiration attribution: .. [285]
35. Weak tradeoff between xylem safety and xylem-specific hydraulic ef.. [284]
36. Thermal safety margins of plant leaves across biomes under a heatw.. [277]
37. 哀牢山中山湿性常绿阔叶林木径向生长季节动态及其对气候因子的响应 [271]
38. Time lags between crown and basal sap flows in tropical lianas and.. [270]
39. Tree-ring evidence for the historical cyclic defoliator outbreaks .. [251]
40. Warming induced growth decline of Himalayan birch at its lower ran.. [248]
41. Drought (scPDSI) reconstruction of trans-Himalayan region of centr.. [240]
42. Underestimated ecosystem carbon turnover time and sequestration un.. [237]
43. 滇西北玉龙雪山不同海拔云南松(Pinus yunnanensis)径向生长对气候因子.. [236]
44. The Cooling Trend of Canopy Temperature During the Maturation, Suc.. [224]
45. Drought tolerance traits explain differential stem growth rates of.. [223]
46. Stem radial growth in response to microclimate in an Asian tropica.. [219]
47. A Winter Precipitation Reconstruction (CE 1810-2012) in the Southe.. [216]
48. Altered albedo dominates the radiative forcing changes in a subtro.. [216]
49. Functional trait variation related to gap dynamics in tropical moi.. [210]
50. Lianas from lives to afterlives [209]
51. The importance of tropical tree-ring chronologies for global chang.. [209]
52. Growth resilience of Pinus latteri to extreme drought events acros.. [201]
53. High vapour pressure deficit enhances turgor limitation of stem gr.. [195]
54. Size dependent associations between tree diameter growth rates and.. [194]
55. Growth response of alpine treeline forests to a warmer and drier c.. [191]
56. Tree-ring based minimum temperature reconstruction on the southeas.. [191]
57. Intra-annual stem radius growth and cell formation of two diffuse-.. [191]
58. Summer Temperature over the Tibetan Plateau Modulated by Atlantic .. [190]
59. Climate Sensitivities of Carbon Turnover Times in Soil and Vegetat.. [187]
60. Determining the impacts of deforestation and corn cultivation on s.. [182]
61. Site-specific climate sensitivity of tree-ring width and vessel an.. [181]
62. Growth response of Abies georgei to climate increases with elevati.. [180]
63. 滇西北白马雪山长苞冷杉和大果红杉年内径向生长动态及其对环境因子的响.. [179]
64. Reference carbon cycle dataset for typical Chinese forests via col.. [176]
65. Growth-Climate Relationships and Long-Term Growth Trends of the Tr.. [173]
66. Tree-ring delta O-18 inferred spring drought variability over the .. [171]
67. Differential climate sensitivity of cell anatomy and species-speci.. [171]
68. 云南3种松树径向生长的气候因子响应异质性 [168]
69. Quantifying the nitrogen allocation and resorption for an orchid p.. [166]
70. Warming induced tree-growth decline of Toona ciliata in (sub-) tro.. [162]
71. Leaf thermal regulation strategies of canopy species across four v.. [162]
72. 滇西北亚高山针叶林优势树种径向生长及其对水分的响应 [161]
73. Climate sensitivity of conifer growth doesn't reveal distinct low-.. [156]
74. Climatic influences on intra-annual stem radial variations and xyl.. [147]
75. Hydraulic architecture, height-related changes in photosynthesis a.. [145]
76. Abies spectabilis shows stable growth relations to temperature, bu.. [142]
77. The impact of warming climate on Himalayan silver fir growth along.. [139]
78. Drought alters aboveground biomass production efficiency: Insights.. [139]
79. Effects of lianas on forest biogeochemistry during their lives and.. [138]
80. Climate sensitivity of conifer growth doesn't reveal distinct low-.. [133]
81. Tropical tree growth driven by dry-season climate variability [132]
82. Growth-climate relationships of four tree species in the subtropic.. [126]
83. Recent decline of high altitude coniferous growth due to thermo-hy.. [125]
84. Diel and seasonal stem growth responses to climatic variation are .. [125]
85. Ring widths of Rhododendron shrubs reveal a persistent winter warm.. [124]
86. A 406-year non-growing-season precipitation reconstruction in the .. [123]
87. Reconstruction of hydroclimate variability in southern Laos from 1.. [118]
88. Physical constraints and environmental factors shape phloem anatom.. [113]
89. Leaf trait networks shift toward high modularity during the succes.. [109]
90. Increasing extreme events in the central Himalaya revealed from a .. [104]
91. 普达措国家公园四种针叶树径向生长对气候因子的响应 [104]
92.

Spatial-temporal differentiations in water use of coexisting tr.. [102]

93. The impact of elevated CO 2 concentration on photosynthesis, growt.. [102]
94. 热带喀斯特森林多花白头树木质部年内生长动态及其对环境因子的响应 [102]
95. Age-related differences in physiological and metabolic responses o.. [97]
96. Insect infestations have an impact on the quality of climate recon.. [96]
97. Long-term growth trends of Abies delavayi and its physiological re.. [91]
98. Tree rings in Tsuga dumosa reveal increasing drought variability i.. [90]
99. 西双版纳楝径向生长和木质部发生季节动态及其对环境因子的响应 [89]
100. Leaf gas exchange and water relations of the woody desiccation-tol.. [85]

Downloads

1. 祁连山中部近500 年来降水重建序列分析 [264]
2. Spatial and temporal temperature trends on the Yunnan Plateau (Sou.. [254]
3. 树木高生长限制的几个假说 [225]
4. 云南哀牢山6种常绿阔叶树木质部解剖特征的轴向和径向变化 [223]
5. Light Intensity Alters Thermal Tolerance During Heat and Cold Stre.. [211]
6. Tree-ring based drought reconstruction in the central Hengduan Mou.. [206]
7. Physiological regulation and efficient xylem water transport regul.. [206]
8. dendRoAnalyst: A tool for processing and analysing dendrometer dat.. [201]
9. Thermal safety margins of plant leaves across biomes under a heatw.. [201]
10. Himalaya to Hengduan: dynamics of alpine treelines under climate c.. [192]
11. 滇西北白马雪山高山松(Pinus densata)径向生长对气候因子的响应 [184]
12. Hydraulic conductivity traits predict growth rates and adult statu.. [177]
13. Leaf development and photosynthetic properties of three tropical t.. [175]
14. Potential hydraulic efficiency in angiosperm trees increases with .. [160]
15. MAY-JUNE MEAN TEMPERATURE RECONSTRUCTION OVER THE PAST 300 YEARS B.. [157]
16. EMD方法对祁连山云杉宽度生长量的订正及多尺度分析 [148]
17. High vapour pressure deficit enhances turgor limitation of stem gr.. [148]
18. Drought tolerance traits explain differential stem growth rates of.. [145]
19. Climatic and edaphic controls on soil microbial diversity and comp.. [145]
20. 哀牢山中山湿性常绿阔叶林木径向生长季节动态及其对气候因子的响应 [142]
21. Water-use advantage for lianas over trees in tropical seasonal for.. [137]
22. Annual temperature reconstruction in the central Hengduan Mountain.. [134]
23. Tradeoff between Stem Hydraulic Efficiency and Mechanical Strength.. [134]
24. Altered albedo dominates the radiative forcing changes in a subtro.. [132]
25. Warming induced tree-growth decline of Toona ciliata in (sub-) tro.. [131]
26. 滇西北白马雪山长苞冷杉和大果红杉年内径向生长动态及其对环境因子的响.. [131]
27. Decadal changes of reference crop evapotranspiration attribution: .. [127]
28. Climate Sensitivities of Carbon Turnover Times in Soil and Vegetat.. [124]
29. Quantifying deforestation and forest degradation with thermal resp.. [123]
30. Long-term physiological and growth responses of Himalayan fir to e.. [122]
31. Site-specific climate sensitivity of tree-ring width and vessel an.. [120]
32. Growth resilience of Pinus latteri to extreme drought events acros.. [116]
33. Lianas from lives to afterlives [113]
34. Analysis of reconstructed annual precipitation from tree-rings for.. [112]
35. Growth-Climate Relationships and Long-Term Growth Trends of the Tr.. [110]
36. Intra-annual stem radius growth and cell formation of two diffuse-.. [107]
37. Quantifying the nitrogen allocation and resorption for an orchid p.. [106]
38. Is fog an important water source for woody plants in an Asian trop.. [104]
39. Climatic influences on intra-annual stem radial variations and xyl.. [104]
40. Multi-Proxy Temperature Reconstruction from the West Qinling Mount.. [102]
41. 云南3种松树径向生长的气候因子响应异质性 [102]
42. A multi-proxy reconstruction of spatial and temporal variations in.. [100]
43. Drought (scPDSI) reconstruction of trans-Himalayan region of centr.. [97]
44. Time lags between crown and basal sap flows in tropical lianas and.. [95]
45. Stronger cooling effects of transpiration and leaf physical traits.. [94]
46. Leaf thermal regulation strategies of canopy species across four v.. [93]
47. Gradual expansion of moisture sensitive Abies spectabilis forest i.. [92]
48. Underestimated ecosystem carbon turnover time and sequestration un.. [87]
49. Tree-ring based minimum temperature reconstruction on the southeas.. [87]
50. Earlywood and Latewood Stable Carbon and Oxygen Isotope Variations.. [84]
51. Determining the impacts of deforestation and corn cultivation on s.. [83]
52. Diel and seasonal stem growth responses to climatic variation are .. [82]
53. The impact of warming climate on Himalayan silver fir growth along.. [80]
54. The importance of tropical tree-ring chronologies for global chang.. [79]
55. Reference carbon cycle dataset for typical Chinese forests via col.. [78]
56. Physical constraints and environmental factors shape phloem anatom.. [78]
57. Stem radial growth in response to microclimate in an Asian tropica.. [77]
58. Drought alters aboveground biomass production efficiency: Insights.. [77]
59. 滇西北亚高山针叶林优势树种径向生长及其对水分的响应 [75]
60. Size dependent associations between tree diameter growth rates and.. [74]
61. Earlywood and Latewood Stable Carbon and Oxygen Isotope Variations.. [71]
62. A Winter Precipitation Reconstruction (CE 1810-2012) in the Southe.. [71]
63. Functional trait variation related to gap dynamics in tropical moi.. [70]
64. 滇西北玉龙雪山不同海拔云南松(Pinus yunnanensis)径向生长对气候因子.. [70]
65. Tropical tree growth driven by dry-season climate variability [67]
66. 祁连山中部近500年来降水序列多尺度变化分析 [64]
67. Tree-ring evidence for the historical cyclic defoliator outbreaks .. [64]
68. Summer Temperature over the Tibetan Plateau Modulated by Atlantic .. [64]
69. 西秦岭地区过去600年的温度重建 [62]
70. Radial Growth of Qilian Juniper on the Northeast Tibetan Plateau a.. [62]
71. Increasing extreme events in the central Himalaya revealed from a .. [62]
72. Differential climate sensitivity of cell anatomy and species-speci.. [59]
73. Reconstruction of hydroclimate variability in southern Laos from 1.. [56]
74. A 406-year non-growing-season precipitation reconstruction in the .. [55]
75. Growth-climate relationships of four tree species in the subtropic.. [54]
76. Effects of lianas on forest biogeochemistry during their lives and.. [52]
77. Tree rings reveal recent intensified spring drought in the central.. [51]
78. 普达措国家公园四种针叶树径向生长对气候因子的响应 [51]
79. Ring widths of Rhododendron shrubs reveal a persistent winter warm.. [50]
80. Age-related differences in physiological and metabolic responses o.. [50]
81. Weak tradeoff between xylem safety and xylem-specific hydraulic ef.. [48]
82.

Spatial-temporal differentiations in water use of coexisting tr.. [48]

83. Tree rings in Tsuga dumosa reveal increasing drought variability i.. [48]
84. Growth response of alpine treeline forests to a warmer and drier c.. [47]
85. The Cooling Trend of Canopy Temperature During the Maturation, Suc.. [46]
86. Insect infestations have an impact on the quality of climate recon.. [46]
87. Warming induced growth decline of Himalayan birch at its lower ran.. [45]
88. 热带喀斯特森林多花白头树木质部年内生长动态及其对环境因子的响应 [45]
89. Soil moisture dynamics and rainfall infiltration across vegetation.. [41]
90. 西双版纳楝径向生长和木质部发生季节动态及其对环境因子的响应 [34]
91. Growth response of Abies georgei to climate increases with elevati.. [32]
92. Leaf gas exchange and water relations of the woody desiccation-tol.. [28]
93. Hydraulic architecture, height-related changes in photosynthesis a.. [28]
94. Tree-ring delta O-18 inferred spring drought variability over the .. [27]
95. Spatial minimum temperature reconstruction over the last three cen.. [25]
96. Long-term growth trends of Abies delavayi and its physiological re.. [23]
97. The impact of elevated CO 2 concentration on photosynthesis, growt.. [22]
98. Leaf trait networks shift toward high modularity during the succes.. [22]
99. Climate sensitivity of conifer growth doesn't reveal distinct low-.. [19]
100. Recent decline of high altitude coniferous growth due to thermo-hy.. [19]