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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Domestic： 75
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1. Using digital cameras for comparative phenological monitoring in a.. [789]

2. Drivers of difference in CO2 and CH4 emissions between rubber plan.. [776]

3. Investigation of temperature and aridity at different elevations o.. [732]

4. An old-growth subtropical Asian evergreen forest as a large carbon.. [656]

5. Carbon balance of a primary tropical seasonal rain forest [568]

6. Direct effects of litter decomposition on soil dissolved organic c.. [527]

7. Snow damage strongly reduces the strength of the carbon sink in a .. [478]

8. 热带季节雨林生态系统生理特征Ⅰ通量的时间变化和环境响应 [395]

9. A preliminary study on the heat storage fluxes of a tropical seaso.. [394]

10. 西双版纳热带雨林与橡胶林净生态系统碳交换特征及其影响因子比较 [384]

11. Do the rubber plantations in tropical China act as large carbon si.. [383]

12. Evapotranspiration from a primary subtropical evergreen forest in .. [377]

13. Comparison of infrared canopy temperature in a rubber plantation a.. [376]

14. 云南不同森林生态系统蒸散特征的比较研究 [371]

15. 2003-2005年中国通量观测研究联盟(ChinaFLUX)碳水通量观测数据集 [357]

16. 基于数字相机的中国西南和泰国北部两种热带森林的冠层物候和总初级生产.. [344]

17. Soil respiration after six years of continuous drought stress in t.. [335]

18. 西双版纳热带山地的碳湖特征及其效应 [333]

19. Biophysical homoeostasis of leaf temperature: A neglected process .. [332]

20. 西双版纳热带季节雨林地温时空特征分析 [323]

21. 热带引种植物主要定植区光合有效辐射特征比较研究 [299]

22. 西双版纳热带季节雨林辐射垂直分布特征 [291]

23. Climatic and edaphic controls on soil microbial diversity and comp.. [289]

24. 西双版纳热带季节雨林风时空变化特征初步分析 [287]

25. 西双版纳热带季节雨林树冠上生态边界层大气稳定度时间变化特征初探 [286]

26. Water use efficiency in a primary subtropical evergreen forest in .. [280]

27. 热带季节雨林生态系统光合作用特征及环境控制机制 [278]

28. Stand age-related effects on soil respiration in rubber plantation.. [271]

29. 哀牢山亚热带常绿阔叶林土壤微生物多样性对碳输入变化和增温的响应 [263]

30. Water-use efficiency and its relationship with environmental and b.. [262]

31. 西双版纳热带季节雨林林冠太阳辐射特征及分配规律研究 [261]

32. Climate-shaped vegetation dominated the spatial pattern of the Bow.. [249]

33. Response of net primary productivity to precipitation exclusion in.. [248]

34. Responses of the Carbon Storage and Sequestration Potential of For.. [246]

35. Precipitation reduction alters herbaceous community structure and .. [234]

36. Forests buffer thermal fluctuation better than non-forests [229]

37. Comparative Analysis of Soil Respiration Dynamics and Heterotrophi.. [229]

38. Fog Water Chemical Composition on Ailaoshan Mountain, Yunnan Provi.. [225]

39. Drivers of difference in CO2 and CH4 emissions between rubber plan.. [224]

40. Analysis of canopy temperature depression between tropical rainfor.. [223]

41. Canopy temperature variability in a tropical rainforest, subtropic.. [219]

42. Effects of precipitation exclusion on N2O emissions in a savanna e.. [217]

43. Topography-related controls on N2O emission and CH4 uptake in a tr.. [214]

44. Altered albedo dominates the radiative forcing changes in a subtro.. [214]

45. Stand age-related effects on soil respiration in rubber plantation.. [210]

46. Soil organic matter as affected by the conversion of natural tropi.. [207]

47. Patterns and Controls of Light Use Efficiency in Four Contrasting .. [206]

48. Deposition and Re-Emission of Atmospheric Elemental Mercury over t.. [204]

49. Soil organic matter as affected by the conversion of natural tropi.. [201]

50. Environmental and management controls of soil carbon storage in gr.. [194]

51. Tree Surface Temperature in a Primary Tropical Rain Forest [191]

52. Spatiotemporal Pattern of Ecosystem Respiration in China Estimated.. [189]

53. Optimization of soil hydraulic parameters within a constrained sam.. [186]

54. Effects of climate change on terrestrial water storage and basin d.. [182]

55. Seasonal variations of net ecosystem (CO2) exchange in the Indian .. [180]

56. Soil organic matter as affected by the conversion of natural tropi.. [174]

57. 哀牢山亚热带常绿阔叶林冠层温度变化特征 [174]

58. Seasonal fog enhances crop water productivity in a tropical rubber.. [172]

59. Litter-derived nitrogen reduces methane uptake in tropical rainfor.. [168]

60. Mapping Chinese annual gross primary productivity with eddy covari.. [165]

61. Spatiotemporal trends of rubber defoliation and refoliation and th.. [163]

62. Responses of aboveground litterfall respiration to unexpected snow.. [162]

63. 西双版纳热带雨林主要树种的树干径流碳通量 [162]

64. Seasonal variations of net ecosystem (CO2) exchange in the Indian .. [158]

65. Microbial processes responsible for soil N2O production in a tropi.. [158]

66. Up and down: Bidirectional fluxes of fog droplets at two subtropic.. [153]

67. Topography-related controls on N2O emission and CH4 uptake in a tr.. [150]

68. The effect of snow damage on self-organization in a primary subtro.. [150]

69. Seasonal fog enhances crop water productivity in a tropical rubber.. [150]

70. Warming-driven migration of core microbiota indicates soil propert.. [149]

71. Mapping Chinese annual gross primary productivity with eddy covari.. [149]

72. Ecosystem responses dominate the trends of annual gross primary pr.. [147]

73. Asian tropical forests assimilating carbon under dry conditions: w.. [146]

74. GPP of a Chinese Savanna Ecosystem during Different Phenological P.. [146]

75. Asynchronous recovery of evaporation and transpiration following e.. [145]

76. Warming-driven migration of core microbiota indicates soil propert.. [141]

77. Increase in carbon sink in a protected tropical seasonal rainfores.. [141]

78. 2011–2020年云南元江干热河谷生态站气象监测数据集 [139]

79. Up and down: Bidirectional fluxes of fog droplets at two subtropic.. [138]

80. What leads to rubber leaf senescence in the northern edge of the A.. [138]

81. Drought effects on litter fraction and recovery in a subtropical f.. [138]

82. 2001—2020年澜湄流域热带地区土地覆被变化对蒸散发的影响 [137]

83. Estimating latent heat flux of subtropical forests using machine l.. [136]

84. Responses of aboveground litterfall respiration to unexpected snow.. [130]

85. Seasonal Variation of Methane Fluxes in a Mangrove Ecosystem in So.. [129]

86. Identified temporal variation of soil hydraulic parameters under s.. [125]

87. 2011–2015年西双版纳热带季节雨林碳水通量观测数据集 [125]

88. The cumulative drought exert disruptive effects on tropical rainfo.. [123]

89. Effects of Climate Change on the Carbon Sequestration Potential of.. [121]

90. 2010–2014年哀牢山亚热带常绿阔叶林土壤呼吸数据集 [119]

91. 西双版纳橡胶林CO₂通量动态特征及其影响因素 [117]

92. 西双版纳热带雨林土壤N2O和CO2排放对氮添加的响应 [114]

93. 云南哀牢山亚热带常绿阔叶林土壤CH_4通量特征 [113]

94. Microbial processes responsible for soil N2O production in a tropi.. [112]

95. Natural Regeneration Outperforms Active Restoration in Enhancing B.. [111]

96. Magnitude, Seasonality, and Drivers of Nocturnal Water Use in Thre.. [110]

97. 2003–2008年西双版纳热带雨林土壤碳通量数据集 [110]

98. Phenology-related water-use efficiency and its responses to site h.. [109]

99. Phenological and physiological responses of the terrestrial ecosys.. [109]

100. 土壤胞外酶活性对气候变化响应的研究进展 [105]

Downloads

1. An old-growth subtropical Asian evergreen forest as a large carbon.. [270]

2. 西双版纳热带雨林与橡胶林净生态系统碳交换特征及其影响因子比较 [251]

3. Drivers of difference in CO2 and CH4 emissions between rubber plan.. [223]

4. Snow damage strongly reduces the strength of the carbon sink in a .. [218]

5. Carbon balance of a primary tropical seasonal rain forest [195]

6. 云南不同森林生态系统蒸散特征的比较研究 [174]

7. Evapotranspiration from a primary subtropical evergreen forest in .. [173]

8. Using digital cameras for comparative phenological monitoring in a.. [167]

9. Soil respiration after six years of continuous drought stress in t.. [158]

10. Climate-shaped vegetation dominated the spatial pattern of the Bow.. [157]

11. Comparison of infrared canopy temperature in a rubber plantation a.. [156]

12. Comparative Analysis of Soil Respiration Dynamics and Heterotrophi.. [146]

13. Direct effects of litter decomposition on soil dissolved organic c.. [145]

14. Climatic and edaphic controls on soil microbial diversity and comp.. [145]

15. Deposition and Re-Emission of Atmospheric Elemental Mercury over t.. [139]

16. 2003-2005年中国通量观测研究联盟(ChinaFLUX)碳水通量观测数据集 [138]

17. Biophysical homoeostasis of leaf temperature: A neglected process .. [136]

18. Altered albedo dominates the radiative forcing changes in a subtro.. [130]

19. A preliminary study on the heat storage fluxes of a tropical seaso.. [127]

20. Do the rubber plantations in tropical China act as large carbon si.. [122]

21. Water use efficiency in a primary subtropical evergreen forest in .. [112]

22. Stand age-related effects on soil respiration in rubber plantation.. [112]

23. Effects of climate change on terrestrial water storage and basin d.. [112]

24. Spatiotemporal Pattern of Ecosystem Respiration in China Estimated.. [110]

25. Drivers of difference in CO2 and CH4 emissions between rubber plan.. [109]

26. Investigation of temperature and aridity at different elevations o.. [108]

27. Topography-related controls on N2O emission and CH4 uptake in a tr.. [106]

28. Seasonal fog enhances crop water productivity in a tropical rubber.. [104]

29. Responses of aboveground litterfall respiration to unexpected snow.. [104]

30. Increase in carbon sink in a protected tropical seasonal rainfores.. [103]

31. Litter-derived nitrogen reduces methane uptake in tropical rainfor.. [98]

32. Warming-driven migration of core microbiota indicates soil propert.. [97]

33. Precipitation reduction alters herbaceous community structure and .. [96]

34. Up and down: Bidirectional fluxes of fog droplets at two subtropic.. [93]

35. Seasonal fog enhances crop water productivity in a tropical rubber.. [93]

36. Asian tropical forests assimilating carbon under dry conditions: w.. [92]

37. Water-use efficiency and its relationship with environmental and b.. [91]

38. Response of net primary productivity to precipitation exclusion in.. [91]

39. What leads to rubber leaf senescence in the northern edge of the A.. [89]

40. Natural Regeneration Outperforms Active Restoration in Enhancing B.. [86]

41. Forests buffer thermal fluctuation better than non-forests [85]

42. 哀牢山亚热带常绿阔叶林冠层温度变化特征 [84]

43. Stand age-related effects on soil respiration in rubber plantation.. [81]

44. Tree Surface Temperature in a Primary Tropical Rain Forest [81]

45. 2001—2020年澜湄流域热带地区土地覆被变化对蒸散发的影响 [81]

46. 基于数字相机的中国西南和泰国北部两种热带森林的冠层物候和总初级生产.. [81]

47. 哀牢山亚热带常绿阔叶林土壤微生物多样性对碳输入变化和增温的响应 [80]

48. Environmental and management controls of soil carbon storage in gr.. [78]

49. Seasonal variations of net ecosystem (CO2) exchange in the Indian .. [78]

50. The effect of snow damage on self-organization in a primary subtro.. [77]

51. Optimization of soil hydraulic parameters within a constrained sam.. [77]

52. Analysis of canopy temperature depression between tropical rainfor.. [76]

53. Up and down: Bidirectional fluxes of fog droplets at two subtropic.. [76]

54. Seasonal Variation of Methane Fluxes in a Mangrove Ecosystem in So.. [76]

55. Warming-driven migration of core microbiota indicates soil propert.. [75]

56. 西双版纳热带雨林主要树种的树干径流碳通量 [74]

57. Effects of precipitation exclusion on N2O emissions in a savanna e.. [72]

58. Mapping Chinese annual gross primary productivity with eddy covari.. [72]

59. 云南哀牢山亚热带常绿阔叶林土壤CH_4通量特征 [71]

60. Asynchronous recovery of evaporation and transpiration following e.. [70]

61. Spatiotemporal trends of rubber defoliation and refoliation and th.. [70]

62. The cumulative drought exert disruptive effects on tropical rainfo.. [68]

63. Topography-related controls on N2O emission and CH4 uptake in a tr.. [67]

64. Phenological and physiological responses of the terrestrial ecosys.. [66]

65. Soil organic matter as affected by the conversion of natural tropi.. [65]

66. Phenology-related water-use efficiency and its responses to site h.. [64]

67. 2011–2020年云南元江干热河谷生态站气象监测数据集 [64]

68. Phenological and physiological responses of the terrestrial ecosys.. [62]

69. GPP of a Chinese Savanna Ecosystem during Different Phenological P.. [62]

70. Soil organic matter as affected by the conversion of natural tropi.. [61]

71. Seasonal variations of net ecosystem (CO2) exchange in the Indian .. [61]

72. Soil organic matter as affected by the conversion of natural tropi.. [61]

73. Mapping Chinese annual gross primary productivity with eddy covari.. [61]

74. Drought effects on litter fraction and recovery in a subtropical f.. [61]

75. 热带季节雨林生态系统生理特征Ⅰ通量的时间变化和环境响应 [59]

76. Responses of aboveground litterfall respiration to unexpected snow.. [59]

77. Identified temporal variation of soil hydraulic parameters under s.. [59]

78. 西双版纳热带季节雨林树冠上生态边界层大气稳定度时间变化特征初探 [58]

79. 2011–2015年西双版纳热带季节雨林碳水通量观测数据集 [58]

80. Ecosystem responses dominate the trends of annual gross primary pr.. [57]

81. 西双版纳橡胶林CO₂通量动态特征及其影响因素 [57]

82. A gridded dataset of a leaf-age-dependent leaf area index seasonal.. [55]

83. Estimating latent heat flux of subtropical forests using machine l.. [54]

84. 西双版纳热带雨林土壤N2O和CO2排放对氮添加的响应 [52]

85. Responses of the Carbon Storage and Sequestration Potential of For.. [49]

86. 2010–2014年哀牢山亚热带常绿阔叶林土壤呼吸数据集 [48]

87. 西双版纳热带山地的碳湖特征及其效应 [45]

88. 2003–2008年西双版纳热带雨林土壤碳通量数据集 [43]

89. 2000–2020年中国陆地生态系统年总初级生产力数据集 [43]

90. Canopy temperature variability in a tropical rainforest, subtropic.. [42]

91. Effects of Climate Change on the Carbon Sequestration Potential of.. [42]

92. 西双版纳热带季节雨林风时空变化特征初步分析 [41]

93. 西双版纳热带季节雨林林冠太阳辐射特征及分配规律研究 [40]

94. 西双版纳人工橡胶林冠层温度及其影响因子 [40]

95. Carbon emissions from forest harvest and fire offset approximately.. [35]

96. Fog Water Chemical Composition on Ailaoshan Mountain, Yunnan Provi.. [32]

97. 热带引种植物主要定植区光合有效辐射特征比较研究 [28]

98. Effects of climate change on terrestrial water storage and basin d.. [28]

99. 土壤胞外酶活性对气候变化响应的研究进展 [28]

100. 西双版纳热带季节雨林地温时空特征分析 [27]

中国科学院西双版纳热带植物园机构知识库

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