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1. Soil Changes Induced by Rubber and Tea Plantation Establishment: C.. [1470]
2. Effects of rubber-based agroforestry systems on soil aggregation a.. [1360]
3. TRADE-OFF RESPONSES OF THE CLONAL PLANT WATER LETTUCE (PISTIA STRA.. [1252]
4. How do plants share water sources in a rubber-tea agroforestry sys.. [1192]
5. 西双版纳望天树林林窗小气候特征研究 [1058]
6. 西双版纳温湿状况及其舒适性评价 [951]
7. 植物水分利用策略研究进展 [945]
8. 稳定同位素在植物水分来源及利用效率研究中的应用 [887]
9. 土壤斥水性研究进展 [852]
10. One-year delayed effect of fog on malaria transmission: a time-ser.. [795]
11. Dry-season water utilization by trees growing on thin karst soils .. [759]
12. 土壤溅蚀过程和研究方法综述 [717]
13. 西双版纳热带森林地表径流场设计的研究 [698]
14. Rubber plantations act as water pumps in tropical China [697]
15. Isotope variations of throughfall, stemflow and soil water in a tr.. [661]
16. The importance of radiation fog in the tropical seasonal rain fore.. [654]
17. Dry season water uptake by two dominant canopy tree species in a t.. [652]
18. 西双版纳人工雨林群落结构及其林下降雨侵蚀力特征 [619]
19. 西双版纳橡胶林枯落物的持水性能与截留特征 [610]
20. 不同橡胶林林冠下的土壤溅蚀率及穿透水侵蚀力比较 [600]
21. 西双版纳石灰山热带季节性湿润林内几种植物的水分利用策略 [587]
22. 西双版纳热带森林集水区测流堰建设的研究 [587]
23. 西双版纳热带雨林和橡胶林土壤斥水性比较 [576]
24. 植物根部水分再分配研究的区域特征及生态意义 [568]
25. Runoff generation in small catchments under a native rain forest a.. [564]
26. Past, present and future land-use in Xishuangbanna, China and the .. [544]
27. Water input from fog drip in the tropical seasonal rain forest of .. [535]
28. Fog drip and its relation to groundwater in the tropical seasonal .. [521]
29. 西双版纳人工雨林土壤温度变化规律 [521]
30. Using stable isotopes to determine sources of fog drip in a tropic.. [510]
31. Fog- and rainwater chemistry in the tropical seasonal rain forest .. [506]
32. 热带人工雨林小气候效应分析 [491]
33. 西双版纳橡胶——咖啡人工群落降雨径流初步研究 [483]
34. 西双版纳热带季节雨林林冠穿透雾水的观测研究 [468]
35. 西双版纳热带季节雨林林下土壤蒸发的稳定性同位素分析 [467]
36. 西双版纳片断化望天树林小气候边缘效应比较研究 [437]
37. The effects of conversion of tropical rainforest to rubber plantat.. [437]
38. 西双版纳橡胶人工群落径流的初步研究 [432]
39. 西双版纳橡胶产量的模糊综合评判预报 [428]
40. 西双版纳景洪市雾特征分析 [422]
41. Land use and topography as predictors of nitrogen levels in tropic.. [417]
42. 香荚兰生态气候适应性初步探讨 [409]
43. 西双版纳橡胶农林复合系统土壤团聚体稳定性研究 [407]
44. Variation in photosynthetic photon flux density within a tropical .. [394]
45. 勐仑地区气候特征、变化趋势及对热带作物的影响 [383]
46. Throughfall kinetic energy and its spatial characteristics under r.. [378]
47. 景洪市城市热岛效应对城市高温的影响及其防御对策 [375]
48. The effect of litter layer on controlling surface runoff and erosi.. [369]
49. 西双版纳地区橡胶复合林雨滴动能及降雨侵蚀力 [364]
50. 热带季节雨林土壤蒸发的稳定性同位素分析 [360]
51. 西双版纳山地逆温资源评价 [355]
52. Fog Water Is Important in Maintaining the Water Budgets of Vascula.. [355]
53. Residual plastic mulch fragments effects on soil physical properti.. [344]
54. 热带雨林和人工橡胶林林冠截留雾水的对比研究 [340]
55. Below-ground interspecific competition for water in a rubber agrof.. [332]
56. 西双版纳地区胶农复合系统的土壤斥水特性 [332]
57. Are rubber-based agroforestry systems effective in controlling rai.. [330]
58. Plasticity of source-water acquisition in epiphytic, transitional .. [321]
59. Effects of three morphometric features of roots on soil water flow.. [319]
60. Spatio-temporal variations of carbon and nitrogen in biogenic stru.. [317]
61. 西双版纳干热季热带季节雨林林冠上CO2通量及小气候特征初步研究 [312]
62. 热带雨林和橡胶林截留雾水的比较研究 [295]
63. Gash模型在热带季节雨林林冠截留研究中的应用 [293]
64. 西双版纳地区不同胶农(林)复合系统的植物水分利用效率比较 [293]
65. Lateral flow between bald and vegetation patches induces the degra.. [291]
66. Can intercropping with the cash crop help improve the soil physico.. [289]
67. Can intercropping with the cash crop help improve the soil physico.. [282]
68. 西双版纳地区不同胶农复合林对土壤理化性质的影响 [279]
69. Jungle rubber facilitates the restoration of degraded soil of an e.. [275]
70. LAND DEGRADATION CONTROLLED AND MITIGATED BY RUBBER-BASED AGROFORE.. [274]
71. 西双版纳地区胶农(林)复合系统对土壤团聚体的改良作用 [273]
72. Influence of sulfur amendments on heavy metals phytoextraction fro.. [273]
73. 西双版纳地区不同胶农(林)复合系统的植物水分利用效率比较 [270]
74. Effects of a funnel-shaped canopy on rainfall redistribution and p.. [257]
75. Conversion of primary tropical rainforest into rubber plantation d.. [256]
76. 热带雨林生态系统中雾水的水文和化学效应研究 [254]
77. Characteristics of throughfall kinetic energy under the banana (Mu.. [252]
78. Can intercropping with the world's three major beverage plants hel.. [249]
79. Can complementary preferential flow and non-preferential flow doma.. [244]
80. Effects of forest transition on litterfall, standing litter and re.. [240]
81. Intercrops improve surface water availability in rubber-based agro.. [228]
82. Anthropogenic restoration exhibits more complex and stable microbi.. [219]
83. How does a rubber plantation affect the spatial variability and te.. [214]
84. Edaphic and climatic effects on soil water dynamics and infiltrati.. [214]
85. Recognizing the role of plant species composition in the modificat.. [213]
86. Soil splash erosion: An overlooked issue for sustainable rubber pl.. [207]
87. 不同林型橡胶林土壤水分入渗特征及影响因子 [207]
88. Vertical patterns of soil water acquisition by non-native rubber t.. [203]
89. Effects of hillslope position on soil water infiltration and prefe.. [196]
90. Soil quality assessment of different Hevea brasiliensis plantation.. [192]
91. The Nutrient Status of Plant Roots Reveals Competition Intensities.. [191]
92. Investigating the recovery in ecosystem functions and multifunctio.. [190]
93. Uncorrected soil water isotopes through cryogenic vacuum distillat.. [190]
94. Impact of modified biochar on phosphorus fractionation and biochem.. [179]
95. 农林复合系统的水土保持效益 [177]
96. Coffee performs better than amomum as a candidate in the rubber ag.. [176]
97. Litterfall biomass and nutrient cycling in karst and nearby non-ka.. [174]
98. Divergent responses of soil aggregate-associated organic carbon fr.. [170]
99. Effects of land-use changes on runoff and sediment yield: Implicat.. [169]
100. 西双版纳典型森林转变对土壤酶活性及微生物养分限制的影响 [169]

Downloads

1. 西双版纳温湿状况及其舒适性评价 [671]
2. Effects of rubber-based agroforestry systems on soil aggregation a.. [561]
3. TRADE-OFF RESPONSES OF THE CLONAL PLANT WATER LETTUCE (PISTIA STRA.. [510]
4. Soil Changes Induced by Rubber and Tea Plantation Establishment: C.. [464]
5. How do plants share water sources in a rubber-tea agroforestry sys.. [459]
6. 稳定同位素在植物水分来源及利用效率研究中的应用 [379]
7. 植物水分利用策略研究进展 [340]
8. The importance of radiation fog in the tropical seasonal rain fore.. [293]
9. 西双版纳望天树林林窗小气候特征研究 [292]
10. 土壤溅蚀过程和研究方法综述 [292]
11. 土壤斥水性研究进展 [233]
12. 植物根部水分再分配研究的区域特征及生态意义 [225]
13. 西双版纳热带森林地表径流场设计的研究 [224]
14. 西双版纳热带森林集水区测流堰建设的研究 [221]
15. 不同橡胶林林冠下的土壤溅蚀率及穿透水侵蚀力比较 [220]
16. 西双版纳橡胶林枯落物的持水性能与截留特征 [212]
17. Isotope variations of throughfall, stemflow and soil water in a tr.. [209]
18. 西双版纳人工雨林土壤温度变化规律 [200]
19. Fog drip and its relation to groundwater in the tropical seasonal .. [197]
20. 西双版纳人工雨林群落结构及其林下降雨侵蚀力特征 [190]
21. Rubber plantations act as water pumps in tropical China [187]
22. 西双版纳热带雨林和橡胶林土壤斥水性比较 [187]
23. 西双版纳石灰山热带季节性湿润林内几种植物的水分利用策略 [179]
24. Can intercropping with the cash crop help improve the soil physico.. [174]
25. Water input from fog drip in the tropical seasonal rain forest of .. [173]
26. 热带人工雨林小气候效应分析 [172]
27. Influence of sulfur amendments on heavy metals phytoextraction fro.. [171]
28. Are rubber-based agroforestry systems effective in controlling rai.. [170]
29. Jungle rubber facilitates the restoration of degraded soil of an e.. [169]
30. 西双版纳橡胶农林复合系统土壤团聚体稳定性研究 [167]
31. Past, present and future land-use in Xishuangbanna, China and the .. [166]
32. Characteristics of throughfall kinetic energy under the banana (Mu.. [164]
33. 西双版纳热带季节雨林林下土壤蒸发的稳定性同位素分析 [163]
34. 西双版纳橡胶——咖啡人工群落降雨径流初步研究 [162]
35. Lateral flow between bald and vegetation patches induces the degra.. [158]
36. Dry season water uptake by two dominant canopy tree species in a t.. [156]
37. Residual plastic mulch fragments effects on soil physical properti.. [150]
38. The effects of conversion of tropical rainforest to rubber plantat.. [148]
39. Runoff generation in small catchments under a native rain forest a.. [147]
40. 西双版纳橡胶产量的模糊综合评判预报 [145]
41. Soil splash erosion: An overlooked issue for sustainable rubber pl.. [145]
42. Anthropogenic restoration exhibits more complex and stable microbi.. [144]
43. Using stable isotopes to determine sources of fog drip in a tropic.. [143]
44. Effects of a funnel-shaped canopy on rainfall redistribution and p.. [142]
45. 西双版纳山地逆温资源评价 [140]
46. 西双版纳地区橡胶复合林雨滴动能及降雨侵蚀力 [140]
47. 西双版纳片断化望天树林小气候边缘效应比较研究 [137]
48. The effect of litter layer on controlling surface runoff and erosi.. [137]
49. Uncorrected soil water isotopes through cryogenic vacuum distillat.. [137]
50. Investigating the recovery in ecosystem functions and multifunctio.. [132]
51. 景洪市城市热岛效应对城市高温的影响及其防御对策 [131]
52. 香荚兰生态气候适应性初步探讨 [130]
53. Throughfall kinetic energy and its spatial characteristics under r.. [129]
54. Soil quality assessment of different Hevea brasiliensis plantation.. [128]
55. Effects of three morphometric features of roots on soil water flow.. [124]
56. 西双版纳景洪市雾特征分析 [122]
57. 西双版纳橡胶人工群落径流的初步研究 [121]
58. Fog Water Is Important in Maintaining the Water Budgets of Vascula.. [121]
59. Unlocking Mechanisms for Soil Fertility Enhancement in Tropical Fo.. [119]
60. 西双版纳地区胶农(林)复合系统对土壤团聚体的改良作用 [118]
61. 西双版纳热带季节雨林林冠穿透雾水的观测研究 [117]
62. 西双版纳地区不同胶农(林)复合系统的植物水分利用效率比较 [116]
63. Conversion of primary tropical rainforest into rubber plantation d.. [116]
64. Edaphic and climatic effects on soil water dynamics and infiltrati.. [115]
65. Effects of hillslope position on soil water infiltration and prefe.. [113]
66. 西双版纳地区不同胶农复合林对土壤理化性质的影响 [112]
67.

Aggregate stability and size distribution regulate rainsplash e.. [112]

68. Fog- and rainwater chemistry in the tropical seasonal rain forest .. [111]
69. Below-ground interspecific competition for water in a rubber agrof.. [107]
70. 西双版纳地区胶农复合系统的土壤斥水特性 [107]
71. Effect of termite mounds on soil microbial communities and microbi.. [106]
72. Dry-season water utilization by trees growing on thin karst soils .. [105]
73. Spatio-temporal variations of carbon and nitrogen in biogenic stru.. [103]
74. 勐仑地区气候特征、变化趋势及对热带作物的影响 [100]
75. One-year delayed effect of fog on malaria transmission: a time-ser.. [99]
76. Herbs perform better than woody plants at improving soil hydrologi.. [96]
77. Plasticity of source-water acquisition in epiphytic, transitional .. [95]
78. Asian tropical forests assimilating carbon under dry conditions: w.. [94]
79. Impact of modified biochar on phosphorus fractionation and biochem.. [94]
80. Soil water movement differences relating to banana (Musa nana Lour.. [90]
81. Litterfall biomass and nutrient cycling in karst and nearby non-ka.. [89]
82. Land use and topography as predictors of nitrogen levels in tropic.. [85]
83. Can intercropping with the world's three major beverage plants hel.. [85]
84. Can complementary preferential flow and non-preferential flow doma.. [85]
85. 不同林型橡胶林土壤水分入渗特征及影响因子 [85]
86. Recognizing the role of plant species composition in the modificat.. [83]
87. How does a rubber plantation affect the spatial variability and te.. [82]
88. Divergent responses of soil aggregate-associated organic carbon fr.. [82]
89. Conversion of primary tropical rainforest into rubber plantation d.. [81]
90. LAND DEGRADATION CONTROLLED AND MITIGATED BY RUBBER-BASED AGROFORE.. [80]
91. Decay and erosion-related transport of sulfur compounds in soils o.. [80]
92. 西双版纳地区不同胶农(林)复合系统的植物水分利用效率比较 [78]
93. 农林复合系统的水土保持效益 [78]
94. Can intercropping with the cash crop help improve the soil physico.. [77]
95. 西双版纳典型森林转变对土壤酶活性及微生物养分限制的影响 [77]
96. 热带季节雨林土壤蒸发的稳定性同位素分析 [68]
97. The Nutrient Status of Plant Roots Reveals Competition Intensities.. [68]
98. Assessing the Effects of Plant Roots on Soil Water Infiltration Us.. [68]
99. Coffee performs better than amomum as a candidate in the rubber ag.. [67]
100. 稳定同位素技术在陆地生态系统雾水研究中的应用 [66]