中国科学院西双版纳热带植物园机构知识库(XTBG OpenIR): Home

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1. 附生植物对全球变化的响应及其生物指示作用 [876]

2. One-year delayed effect of fog on malaria transmission: a time-ser.. [805]

3. 哀牢山山顶苔藓矮林林冠腐殖土的养分含量和微生物生物量特征 [730]

4. 云南哀牢山国家保护区几个过渡带树干附生苔藓的物种组成与多样性 [667]

5. 云南哀牢山西麓季风常绿阔叶林及思茅松林的群落学特征 [612]

6. 哀牢山中山湿性常绿阔叶林不同生长基质苔藓植物的组成与分布特征 [611]

7. Water relations and gas exchange of fan bryophytes and their adapt.. [562]

8. Partial net primary production of a mixed dipterocarp forest: Spat.. [497]

9. Bole epiphytic bryophytes on Lithocarpus xylocarpus (Kurz) Markgr... [466]

10. Higher clonal integration in the facultative epiphytic fern Sellig.. [460]

11. 基于塔吊的林冠科学研究进展及展望 [456]

12. Biomass, diversity and composition of epiphytic macrolichens in pr.. [447]

13. Organic nitrogen uptake is a significant contributor to nitrogen e.. [441]

14. 云南树干附生苔藓生物量沿纬度及海拔梯度的变化特征 [430]

15. 人类活动对森林林冠的影响——第六届国际林冠学大会述评 [422]

16. On the ratio of intercellular to ambient CO2 (c(i)/c(a)) derived f.. [414]

17. 光合作用模型在山地森林附生树平藓光合特性研究中的适用性 [400]

18. 哀牢山中山湿性常绿阔叶林两种优势幼苗C、N、P化学计量特征及其对N沉降.. [393]

19. 亚热带森林系统4种附生蓝藻地衣的分布对生境变化的响应 [387]

20. Adaptation of epiphytic bryophytes in the understorey attributing .. [384]

21. Interannual and seasonal variability of water use efficiency in a .. [382]

22. 西双版纳热带森林附生维管植物的物种多样性与区系特征 [380]

23. Dry-hot stress significantly reduced the nitrogenase activity of e.. [379]

24. 不同水分条件下三种附生地衣的光合作用特性 [369]

25. Fog Water Is Important in Maintaining the Water Budgets of Vascula.. [366]

26. Bole bryophyte diversity and distribution patterns along three alt.. [352]

27. Species richness and vertical stratification of epiphytic lichens .. [345]

28. Survival and Growth of Epiphytic Ferns Depend on Resource Sharing [344]

29. Physiological Responses of Two Epiphytic Bryophytes to Nitrogen, P.. [339]

30. Strangler fig-host tree associations: Insights into the ecology an.. [327]

31. 附生维管植物多样性及其与宿主特征的相关性:以哀牢山中山湿性常绿阔叶.. [327]

32. Ecological stoichiometry of the epiphyte community in a subtropica.. [317]

33. Heterotrophic respiration does not acclimate to continuous warming.. [316]

34. Forest Type and Tree Characteristics Determine the Vertical Distri.. [311]

35. Epiphytic bryophytes as bio-indicators of atmospheric nitrogen dep.. [309]

36. 水分和基质条件对六种半附生榕树种子萌发特性的影响 [303]

37. Obligate to facultative shift of two epiphytic Lepisorus species d.. [300]

38. Effects of a funnel-shaped canopy on rainfall redistribution and p.. [293]

39. 哀牢山湿性常绿阔叶林地生、树干及树枝附生苔藓生活型组成及其水分特性 [290]

40. Response of epiphytic bryophytes to simulated N deposition in a su.. [289]

41. 植物多样性与物种组成随原生演替进程的变化规律——以贡嘎山冰川退缩区.. [284]

42. 龙脑香热带雨林附生苔藓沿宿主垂直梯度的微生境偏好及其指示作用 [279]

43. 西双版纳热带季节雨林土壤含水量的时空格局及其与降水的关联 [267]

44. Uncorrected soil water isotopes through cryogenic vacuum distillat.. [266]

45. Trait acclimation of the clonal fern Selliguea griffithiana to for.. [259]

46. Trait acclimation of the clonal fern Selliguea griffithiana to for.. [257]

47. Non-dominant trees significantly enhance species richness of epiph.. [252]

48. Leaf phenotypic plasticity coupled with integration facilitates th.. [248]

49. Intercrops improve surface water availability in rubber-based agro.. [246]

50. When facilitation meets clonal integration in forest canopies [238]

51. Higher benefits of clonal integration in rhizome-derived than in f.. [230]

52. Stoichiometric and isotopic flexibility: facultative epiphytes exp.. [225]

53. Coffee performs better than amomum as a candidate in the rubber ag.. [213]

54. Stoichiometric and isotopic flexibility: facultative epiphytes exp.. [210]

55. Contrasting Patterns of Phyllosphere Fungal Diversity Between Angi.. [204]

56. 西双版纳热带季节雨林光合有效辐射的垂直分布格局和季节动态 [199]

57. 附生蕨类植物的克隆性研究进展 [192]

58. Plant morphological and physiological traits are stable in a nitro.. [192]

59. Combining critical transition indicator to compare the stable stru.. [191]

60. Pervasive impacts of railway edge effects on edaphic parameters an.. [191]

61. Dry-Season Fog Water Utilization by Epiphytes in a Subtropical Mon.. [186]

62. Clonal fragmentation drives performance deterioration of epiphytic.. [184]

63. Simulated high-intensity phorophyte removal mitigates the robustne.. [181]

64. Asian tropical forests assimilating carbon under dry conditions: w.. [179]

65. Encouraging the reconversion of rubber plantations by developing a.. [179]

66. Generalists and Specialists Determine the Trend and Rate of Soil F.. [158]

67. Surface conductance for evapotranspiration of tropical forests: Ca.. [157]

68. Effects of lianas on forest biogeochemistry during their lives and.. [156]

69. Studies on forest ecosystem physiology: marginal water-use efficie.. [143]

70. 稳定同位素技术在陆地生态系统雾水研究中的应用 [142]

71. Ethnobotanical study on wild edible plants used by three trans-bou.. [136]

72. Studies on forest ecosystem physiology: marginal water-use efficie.. [134]

73.

Spatial-temporal differentiations in water use of coexisting tr.. [124]

74. Ethnobotanical study on wild edible plants used by three trans-bou.. [123]

75. 进样量和信号强度对气相色谱-燃烧-同位素比值质谱测定δ~(13)C和δ~(15.. [121]

76. Microclimatic variation in tropical canopies: A glimpse into the p.. [120]

77. 元素分析-同位素质谱测定δ~(15)N和δ~(34)S的信号强度响应特征 [119]

78. Habitat and density effects on tea quality: A microclimate and nut.. [119]

79. Biodiversity and carbon stocks of the understory vegetation as ind.. [117]

80. 一种榕树融合扦插繁殖技术及其在热带森林生态修复中的应用 [110]

81. Ecological Restoration of Rubber Monocultures: Strategies for Biod.. [109]

82. Ocean air masses from the East Asian monsoon dominate the land-sur.. [107]

83. 林冠研究亮点与热点：第八届国际林冠会议述评 [101]

84. 一种榕树大枝扦插技术及其在成核恢复中的应用 [92]

85. Generalists and Specialists Determine the Trend and Rate of Soil F.. [89]

86. 林冠奇遇记 [89]

87. What makes a good phorophyte? Predicting occupancy, species richne.. [75]

88. Orchid diversity and distribution pattern in karst forests in east.. [75]

89. Structuring Interaction Networks Between Epiphytic Bryophytes and .. [74]

90. Contamination and source-specific risk analysis of soil heavy meta.. [68]

91. 一种基于“绞杀”现象的热带森林恢复方法 [67]

92. Soil Enzyme Stoichiometry Indicates the Alleviation of Microbial C.. [65]

93. Contamination and source-specific risk analysis of soil heavy meta.. [64]

94. Disentangling the roles of chance, abiotic factors and biotic inte.. [62]

95. Coordinated yet allometric leaf-root biogeochemical niche dynamics.. [19]

96. A global meta-analysis reveals coupled biogeochemical and microbia.. [3]

Downloads

1. 附生植物对全球变化的响应及其生物指示作用 [340]

2. 云南哀牢山国家保护区几个过渡带树干附生苔藓的物种组成与多样性 [271]

3. On the ratio of intercellular to ambient CO2 (c(i)/c(a)) derived f.. [245]

4. 基于塔吊的林冠科学研究进展及展望 [242]

5. Strangler fig-host tree associations: Insights into the ecology an.. [237]

6. 哀牢山中山湿性常绿阔叶林不同生长基质苔藓植物的组成与分布特征 [228]

7. 云南树干附生苔藓生物量沿纬度及海拔梯度的变化特征 [224]

8. Uncorrected soil water isotopes through cryogenic vacuum distillat.. [213]

9. 云南哀牢山西麓季风常绿阔叶林及思茅松林的群落学特征 [201]

10. 哀牢山山顶苔藓矮林林冠腐殖土的养分含量和微生物生物量特征 [185]

11. Effects of a funnel-shaped canopy on rainfall redistribution and p.. [178]

12. Adaptation of epiphytic bryophytes in the understorey attributing .. [176]

13. Leaf phenotypic plasticity coupled with integration facilitates th.. [166]

14. Higher clonal integration in the facultative epiphytic fern Sellig.. [160]

15. 西双版纳热带森林附生维管植物的物种多样性与区系特征 [160]

16. 亚热带森林系统4种附生蓝藻地衣的分布对生境变化的响应 [157]

17. 哀牢山中山湿性常绿阔叶林两种优势幼苗C、N、P化学计量特征及其对N沉降.. [153]

18. Interannual and seasonal variability of water use efficiency in a .. [152]

19. 哀牢山湿性常绿阔叶林地生、树干及树枝附生苔藓生活型组成及其水分特性 [150]

20. 光合作用模型在山地森林附生树平藓光合特性研究中的适用性 [147]

21. Organic nitrogen uptake is a significant contributor to nitrogen e.. [146]

22. Dry-hot stress significantly reduced the nitrogenase activity of e.. [144]

23. Species richness and vertical stratification of epiphytic lichens .. [142]

24. Obligate to facultative shift of two epiphytic Lepisorus species d.. [142]

25. Dry-Season Fog Water Utilization by Epiphytes in a Subtropical Mon.. [137]

26. 人类活动对森林林冠的影响——第六届国际林冠学大会述评 [133]

27. 龙脑香热带雨林附生苔藓沿宿主垂直梯度的微生境偏好及其指示作用 [133]

28. Partial net primary production of a mixed dipterocarp forest: Spat.. [132]

29. Fog Water Is Important in Maintaining the Water Budgets of Vascula.. [132]

30. Clonal fragmentation drives performance deterioration of epiphytic.. [132]

31. 不同水分条件下三种附生地衣的光合作用特性 [130]

32. 西双版纳热带季节雨林光合有效辐射的垂直分布格局和季节动态 [129]

33. Simulated high-intensity phorophyte removal mitigates the robustne.. [128]

34. Heterotrophic respiration does not acclimate to continuous warming.. [127]

35. Ecological stoichiometry of the epiphyte community in a subtropica.. [127]

36. Stoichiometric and isotopic flexibility: facultative epiphytes exp.. [127]

37. Asian tropical forests assimilating carbon under dry conditions: w.. [125]

38. Biomass, diversity and composition of epiphytic macrolichens in pr.. [122]

39. When facilitation meets clonal integration in forest canopies [122]

40. Survival and Growth of Epiphytic Ferns Depend on Resource Sharing [119]

41. Trait acclimation of the clonal fern Selliguea griffithiana to for.. [118]

42. Water relations and gas exchange of fan bryophytes and their adapt.. [117]

43. Generalists and Specialists Determine the Trend and Rate of Soil F.. [117]

44. Trait acclimation of the clonal fern Selliguea griffithiana to for.. [116]

45. Pervasive impacts of railway edge effects on edaphic parameters an.. [116]

46. Bole epiphytic bryophytes on Lithocarpus xylocarpus (Kurz) Markgr... [115]

47. Encouraging the reconversion of rubber plantations by developing a.. [114]

48. Physiological Responses of Two Epiphytic Bryophytes to Nitrogen, P.. [112]

49. One-year delayed effect of fog on malaria transmission: a time-ser.. [109]

50. 水分和基质条件对六种半附生榕树种子萌发特性的影响 [109]

51. Bole bryophyte diversity and distribution patterns along three alt.. [108]

52. Forest Type and Tree Characteristics Determine the Vertical Distri.. [108]

53. Higher benefits of clonal integration in rhizome-derived than in f.. [104]

54. Coffee performs better than amomum as a candidate in the rubber ag.. [104]

55. Combining critical transition indicator to compare the stable stru.. [102]

56. 附生维管植物多样性及其与宿主特征的相关性:以哀牢山中山湿性常绿阔叶.. [102]

57. Plant morphological and physiological traits are stable in a nitro.. [101]

58. Response of epiphytic bryophytes to simulated N deposition in a su.. [96]

59. Stoichiometric and isotopic flexibility: facultative epiphytes exp.. [96]

60. Epiphytic bryophytes as bio-indicators of atmospheric nitrogen dep.. [92]

61. Intercrops improve surface water availability in rubber-based agro.. [83]

62. 植物多样性与物种组成随原生演替进程的变化规律——以贡嘎山冰川退缩区.. [82]

63. 元素分析-同位素质谱测定δ~(15)N和δ~(34)S的信号强度响应特征 [79]

64. 进样量和信号强度对气相色谱-燃烧-同位素比值质谱测定δ~(13)C和δ~(15.. [79]

65. Contrasting Patterns of Phyllosphere Fungal Diversity Between Angi.. [79]

66. 稳定同位素技术在陆地生态系统雾水研究中的应用 [78]

67. Habitat and density effects on tea quality: A microclimate and nut.. [78]

68. Non-dominant trees significantly enhance species richness of epiph.. [76]

69. 西双版纳热带季节雨林土壤含水量的时空格局及其与降水的关联 [76]

70. Ecological Restoration of Rubber Monocultures: Strategies for Biod.. [73]

71.

Spatial-temporal differentiations in water use of coexisting tr.. [70]

72. Effects of lianas on forest biogeochemistry during their lives and.. [70]

73. Microclimatic variation in tropical canopies: A glimpse into the p.. [65]

74. 附生蕨类植物的克隆性研究进展 [62]

75. Generalists and Specialists Determine the Trend and Rate of Soil F.. [51]

76. 林冠奇遇记 [48]

77. 林冠研究亮点与热点：第八届国际林冠会议述评 [46]

78. Ocean air masses from the East Asian monsoon dominate the land-sur.. [38]

79. Biodiversity and carbon stocks of the understory vegetation as ind.. [34]

80. Soil Enzyme Stoichiometry Indicates the Alleviation of Microbial C.. [28]

81. Ethnobotanical study on wild edible plants used by three trans-bou.. [25]

82. Structuring Interaction Networks Between Epiphytic Bryophytes and .. [23]

83. What makes a good phorophyte? Predicting occupancy, species richne.. [23]

84. Surface conductance for evapotranspiration of tropical forests: Ca.. [22]

85. Ethnobotanical study on wild edible plants used by three trans-bou.. [22]

86. Disentangling the roles of chance, abiotic factors and biotic inte.. [20]

87. Coordinated yet allometric leaf-root biogeochemical niche dynamics.. [18]

88. Orchid diversity and distribution pattern in karst forests in east.. [17]

89. Studies on forest ecosystem physiology: marginal water-use efficie.. [15]

90. Contamination and source-specific risk analysis of soil heavy meta.. [15]

91. Studies on forest ecosystem physiology: marginal water-use efficie.. [12]

92. Contamination and source-specific risk analysis of soil heavy meta.. [9]

93. A global meta-analysis reveals coupled biogeochemical and microbia.. [2]

中国科学院西双版纳热带植物园机构知识库

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