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Visits

1. Differences in the responses of photosystem I and photosystem II o.. [1027]
2. Photosynthesis in relation to reproductive success of Cyptipedium .. [600]
3. Flexible and reversible responses to different irradiance levels d.. [452]
4. Photosynthetic characteristics of two alpine flowers, Meconopsis i.. [341]
5. Photosynthetic performances of Quercus pannosa vary with altitude .. [318]
6. Leaf anatomical structures of Paphiopedilum and Cypripedium and th.. [306]
7. Evolutionary Association of Stomatal Traits with Leaf Vein Density.. [296]
8. Slow photosynthetic induction and low photosynthesis in Paphiopedi.. [279]
9. Photosynthetic characteristics explain the high growth rate for Eu.. [271]
10. In vivo regulation of thylakoid proton motive force in immature le.. [266]
11. Photosynthetic performance along a light gradient as related to le.. [254]
12. Characterization of 13 microsatellite loci developed from Meconops.. [231]
13. Plasticity in photosynthesis and functional leaf traits of Meconop.. [229]
14. Gas exchange and resource utilization in two alpine oaks at differ.. [222]
15. Photosynthetic adaptation of Meconopsis integrifolia Franch. and M.. [218]
16. Effect of growth temperature on the electron flow for photorespira.. [204]
17. Ring-widths of the above tree-line shrub Rhododendron reveal the c.. [198]
18. Photosynthetic performances of transplanted Cypripedium flavum pla.. [191]
19. Potential hydraulic efficiency in angiosperm trees increases with .. [190]
20. Chloroplastic ATP Synthase Alleviates Photoinhibition of Photosyst.. [190]
21. Gas exchanges of three co-occurring species of Cypripedium in a sc.. [189]
22. Photoinhibition of photosystem I in Nephrolepis falciformis depend.. [189]
23. Differentiation of water-related traits in terrestrial and epiphyt.. [178]
24. Leaf Photosynthetic Rate of Tropical Ferns Is Evolutionarily Linke.. [174]
25. Ecophysiological significance of leaf traits in Cypripedium and Pa.. [173]
26. Nutrient resorption is associated with leaf vein density and growt.. [173]
27. Sustained Diurnal Stimulation of Cyclic Electron Flow in Two Tropi.. [170]
28. Effects of temperature on leaf hydraulic architecture of tobacco p.. [151]
29. Two new natural hybrids in the genus Pleione (Orchidaceae) from Ch.. [137]
30. 一种兜兰瓶苗整体移栽方法 [132]
31. Anatomical and diffusional determinants inside leaves explain the .. [132]
32. Insusceptibility of oxygen-evolving complex to high light in Betul.. [127]
33. Seasonal variations in photosystem I compared with photosystem II .. [125]
34. Variations in Leaf Morphological Traits of Quercus guyavifolia (Fa.. [115]
35. The study of a determinate growth orchid highlights the role of ne.. [113]
36. Variations in seed micromorphology of Paphiopedilum and Cypripediu.. [112]
37. Specific roles of cyclic electron flow around photosystem I in pho.. [108]
38. Correlated evolution in traits influencing leaf water balance in D.. [106]
39. Tradeoff between Stem Hydraulic Efficiency and Mechanical Strength.. [105]
40. Evidence for the regulation of leaf movement by photosystem II act.. [104]
41. Species Richness of the Family Ericaceae along an Elevational Grad.. [101]
42. Response of the water-water cycle to the change in photorespiratio.. [99]
43. Evidence for the role of cyclic electron flow in photoprotection f.. [98]
44. Floral Mass per Area and Water Maintenance Traits Are Correlated w.. [97]
45. Moderate Photoinhibition of Photosystem II Protects Photosystem I .. [95]
46. PSI photoinhibition is more related to electron transfer from PSII.. [84]
47. Divergent Adaptive Strategies by Two Co-occurring Epiphytic Orchid.. [83]
48. Moderate Photoinhibition of Photosystem II Significantly Affects L.. [83]
49. 生物量分配影响三种不同海拔起源的松树生长 [82]
50. Superoxide generated in the chloroplast stroma causes photoinhibit.. [82]
51. Photoinhibition of photosystem I under fluctuating light is linked.. [80]
52. Dual Effect of Phenolic Nectar on Three Floral Visitors of Elsholt.. [77]
53. Cyclic Electron Flow around Photosystem I Promotes ATP Synthesis P.. [77]
54. Photosynthesis and Photosynthetic Electron Flow in the Alpine Ever.. [75]
55. Chloroplastic ATP synthase optimizes the trade-off between photosy.. [75]
56. Multiple functions of volatiles in flowers and leaves of Elsholtzi.. [74]
57. Differences in the Responses of Photosystems I and II in Cymbidium.. [71]
58. The effects of chilling-light stress on photosystems I and II in t.. [66]
59. Photorespiration plays an important role in the regulation of phot.. [64]
60. Physiological responses of orchid pseudobulbs to drought stress ar.. [61]
61. 一种商品化生产盆栽茶花的花期调控方法 [59]
62. Molecular identifications uncover diverse fungal symbionts of Plei.. [59]
63. Responses of Photosystem I Compared with Photosystem II to Fluctua.. [58]
64. 西藏虎头兰和墨兰对强光的生理响应 [49]
65. In vivo regulation of proton motive force during photosynthetic in.. [49]
66. Comparative physiological and proteomic analyses reveal different .. [44]
67. Physiological diversity of orchids [41]
68. Two strategies by epiphytic orchids for maintaining water balance:.. [38]
69. Physiological diversity of orchids. [38]
70. Photosynthetic regulation under fluctuating light in young and mat.. [36]
71. The role of water-water cycle in regulating the redox state of pho.. [26]
72. 一种秋海棠杂交品种的选育方法 [23]
73. 热胁迫下中甸角蒿叶片SSH文库的构建及初步分析 [20]
74. Physiological and transcriptomic analysis highlight key metabolic .. [18]
75. Chloroplastic ATP synthase plays an important role in the regulati.. [16]
76. physiologicaldiversityoforchids [12]
77. 水分对药用兰科植物白及生理和形态结构的影响 [11]
78. Chloroplastic ATP synthase plays an important role in the regulati.. [10]
79. 海拔对高山栎光合气体交换和叶性状的影响(英文) [7]

Downloads

1. Differences in the responses of photosystem I and photosystem II o.. [206]
2. Flexible and reversible responses to different irradiance levels d.. [190]
3. Photosynthetic performances of Quercus pannosa vary with altitude .. [100]
4. Characterization of 13 microsatellite loci developed from Meconops.. [78]
5. Photosynthetic performance along a light gradient as related to le.. [77]
6. Photosynthetic characteristics of two alpine flowers, Meconopsis i.. [67]
7. Leaf anatomical structures of Paphiopedilum and Cypripedium and th.. [62]
8. Photosynthesis in relation to reproductive success of Cyptipedium .. [60]
9. Slow photosynthetic induction and low photosynthesis in Paphiopedi.. [56]
10. Plasticity in photosynthesis and functional leaf traits of Meconop.. [53]
11. Photosynthetic adaptation of Meconopsis integrifolia Franch. and M.. [50]
12. Gas exchange and resource utilization in two alpine oaks at differ.. [48]
13. Gas exchanges of three co-occurring species of Cypripedium in a sc.. [47]
14. Ring-widths of the above tree-line shrub Rhododendron reveal the c.. [46]
15. The study of a determinate growth orchid highlights the role of ne.. [42]
16. Ecophysiological significance of leaf traits in Cypripedium and Pa.. [39]
17. Evolutionary Association of Stomatal Traits with Leaf Vein Density.. [39]
18. Photosynthetic performances of transplanted Cypripedium flavum pla.. [38]
19. Effects of temperature on leaf hydraulic architecture of tobacco p.. [36]
20. Nutrient resorption is associated with leaf vein density and growt.. [36]
21. Differentiation of water-related traits in terrestrial and epiphyt.. [35]
22. Potential hydraulic efficiency in angiosperm trees increases with .. [33]
23. Effect of growth temperature on the electron flow for photorespira.. [32]
24. Correlated evolution in traits influencing leaf water balance in D.. [30]
25. Variations in seed micromorphology of Paphiopedilum and Cypripediu.. [30]
26. Response of the water-water cycle to the change in photorespiratio.. [28]
27. Leaf Photosynthetic Rate of Tropical Ferns Is Evolutionarily Linke.. [26]
28. Evidence for the regulation of leaf movement by photosystem II act.. [26]
29. Differences in the Responses of Photosystems I and II in Cymbidium.. [26]
30. Moderate Photoinhibition of Photosystem II Protects Photosystem I .. [25]
31. Variations in Leaf Morphological Traits of Quercus guyavifolia (Fa.. [25]
32. Evidence for the role of cyclic electron flow in photoprotection f.. [25]
33. Seasonal variations in photosystem I compared with photosystem II .. [24]
34. Insusceptibility of oxygen-evolving complex to high light in Betul.. [22]
35. Floral Mass per Area and Water Maintenance Traits Are Correlated w.. [21]
36. Photorespiration plays an important role in the regulation of phot.. [20]
37. 生物量分配影响三种不同海拔起源的松树生长 [19]
38. PSI photoinhibition is more related to electron transfer from PSII.. [19]
39. Moderate Photoinhibition of Photosystem II Significantly Affects L.. [19]
40. Sustained Diurnal Stimulation of Cyclic Electron Flow in Two Tropi.. [18]
41. Specific roles of cyclic electron flow around photosystem I in pho.. [18]
42. Anatomical and diffusional determinants inside leaves explain the .. [17]
43. Divergent Adaptive Strategies by Two Co-occurring Epiphytic Orchid.. [13]
44. Multiple functions of volatiles in flowers and leaves of Elsholtzi.. [13]
45. Tradeoff between Stem Hydraulic Efficiency and Mechanical Strength.. [13]
46. Two new natural hybrids in the genus Pleione (Orchidaceae) from Ch.. [13]
47. Photosynthesis and Photosynthetic Electron Flow in the Alpine Ever.. [12]
48. 西藏虎头兰和墨兰对强光的生理响应 [11]
49. Dual Effect of Phenolic Nectar on Three Floral Visitors of Elsholt.. [11]
50. Superoxide generated in the chloroplast stroma causes photoinhibit.. [11]
51. The effects of chilling-light stress on photosystems I and II in t.. [11]
52. Cyclic Electron Flow around Photosystem I Promotes ATP Synthesis P.. [10]
53. 一种兜兰瓶苗整体移栽方法 [9]
54. Responses of Photosystem I Compared with Photosystem II to Fluctua.. [6]
55. 热胁迫下中甸角蒿叶片SSH文库的构建及初步分析 [4]
56. 海拔对高山栎光合气体交换和叶性状的影响(英文) [3]
57. Two strategies by epiphytic orchids for maintaining water balance:.. [1]