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1. Mechanical fragmentation enhances the contribution of Collembola t.. [1722]
2. Estimating soil labile organic carbon and potential turnover rates.. [814]
3. 西双版纳片断季节性雨林蚂蚁物种多样性研究 [695]
4. 西双版纳不同演替状态热带次生林土壤节肢动物群落特征 [639]
5. 西双版纳热带雨林不同生长时期昆虫群落结构的初步比较 [620]
6. Mycorrhiza of plants in different vegetation types in tropical eco.. [593]
7. Distribution of roots and arbuscular mycorrhizal associations in t.. [541]
8. Annual variation of carbon flux and impact factors in the tropical.. [512]
9. Spider diversity in canopies of Xishuangbanna rainforest (China) i.. [497]
10. Plant litter quality influences the contribution of soil fauna to .. [492]
11. 16S rRNA gene analyses of bacterial community structures in the so.. [478]
12. 热带次生林刀耕火种过程中土壤节肢动物群落结构及多样性的变化 [471]
13. Organic and inorganic nitrogen uptake by 21 dominant tree species .. [386]
14. 热带季节雨林碳通量年变化特征及其与影响因子的关系研究 [378]
15. Spider foraging strategy affects trophic cascades under natural an.. [376]
16. Intensive rubber cultivation degrades soil nematode communities in.. [361]
17. Trophic cascade of a web-building spider decreases litter decompos.. [353]
18. Mercury flow through an Asian rice-based food web [343]
19. 西双版纳热带森林雨季土壤动物群落组成特征及多样性研究 [342]
20. Cascading effects of spiders on a forest-floor food web in the fac.. [339]
21. Effects of different tea plantation management systems on arthropo.. [338]
22. Soil fauna explain the plant apparency effect on litter decomposit.. [335]
23. Root topological order drives variation of fine root vessel traits.. [323]
24. Soil total phosphorus mediate the assembly processes of rhizospher.. [321]
25. TOTAL MERCURY AND METHYLMERCURY CONCENTRATIONS OVER A GRADIENT OF .. [319]
26. Functional redundancy dampens the trophic cascade effect of a web-.. [318]
27. Plant communication with rhizosphere microbes can be revealed by u.. [313]
28. Regional and local patterns of soil arthropod diversity are explai.. [310]
29. Slipping through the Cracks: Rubber Plantation Is Unsuitable Breed.. [291]
30. 西双版纳农林复合橡胶林土壤多营养级生物网络结构 [289]
31. Hollows in living trees develop slowly but considerably influence .. [287]
32. Spider foraging strategies dominate pest suppression in organic te.. [284]
33. Diversity and assemblage structure of bark-dwelling spiders in tro.. [283]
34. Fine scale heterogeneity of soil properties causes seedling spatia.. [281]
35. Assessing the impacts of forest conversion and seasonal dynamics o.. [279]
36. Soil total phosphorus mediate the assembly processes of rhizospher.. [268]
37. Impact of road corridors on soil properties and plant communities .. [260]
38. 西双版纳热带季节雨林凋落叶分解与土壤动物群落:2种网孔分解袋的分解实.. [254]
39. Antibacterial and biofilm inhibition activity of biofabricated sil.. [251]
40. 中国土壤动物多样性监测网络建设、进展与展望 [236]
41. Comparative responses of termite functional and taxonomic diversit.. [235]
42. Prey interception drives web invasion and spider size determines s.. [234]
43. Integrated effects of neighbourhood composition and resource level.. [230]
44. 半附生榕树和非附生榕树的细根性状 [228]
45. pH对木霉菌和镰刀菌生长及其竞争的影响 [227]
46. The plant microbiome: A missing link for the understanding of comm.. [215]
47. Movement patterns of selected insect groups between natural forest.. [207]
48. Effects of canopy nitrogen addition on soil fauna and litter decom.. [202]
49. 刀耕火种旱稻种植系统土壤节肢动物群落结构及多样性动态 [201]
50. 玉龙雪山自然保护区寒温性针阔混交林腐殖质层和土壤表层线虫群落结构差.. [197]
51. Planting density affects soil quality in the deep soils of pine pl.. [155]
52. The plant microbiome: A missing link for the understanding of comm.. [149]
53. Comparative responses of termite functional and taxonomic diversit.. [145]
54. Evidence for positive response of soil bacterial community structu.. [138]
55. Shift in the rhizosphere soil fungal community associated with roo.. [138]
56. The plant microbiome: A missing link for the understanding of comm.. [136]
57. The carbon and nitrogen stoichiometry in litter-soil-microbe conti.. [118]
58. Spatial pattern of functional genes abundance reveals the importan.. [113]
59. Latitudinal gradient for mercury accumulation and isotopic evidenc.. [112]
60. Understanding global and regional patterns of termite diversity an.. [110]
61. Assessing the impacts of forest conversion and seasonal dynamics o.. [110]
62. Latitudinal gradient for mercury accumulation and isotopic evidenc.. [109]
63. 西双版纳热带季节雨林木本植物的beta多样性:空间、环境与林分结构的作.. [108]
64. Interaction mechanism of plant-based nanoarchitectured materials w.. [106]
65. Planting density affects soil quality in the deep soils of pine pl.. [106]
66. Seasonal difference in soil health indicators mediating multidiver.. [106]
67. Identification of indicators: Monitoring the impacts of rubber pla.. [100]
68. The carbon and nitrogen stoichiometry in litter-soil-microbe conti.. [100]
69. Interaction mechanism of plant-based nanoarchitectured materials w.. [97]
70. Masquerading predators deceive prey by aggressively mimicking bird.. [91]
71. Identification of indicators: Monitoring the impacts of rubber pla.. [83]
72. 西番莲茎基腐病病原尖孢镰刀菌生物学特性及木霉菌防治初探 [72]
73. How to safeguard soil health against silver nanoparticles through .. [71]
74. 西番莲茎基腐病病原尖孢镰刀菌生物学特性及木霉菌防治初探 [68]
75. 砂仁种植对季节雨林土壤动物群落结构影响的初步研究 [55]
76. 云南思茅茶园土壤节肢动物群落初步调查 [52]
77. 一种用毛果算盘子生物合成纳米银粒子的方法以及用途 [40]
78. 热带圆网蜘蛛体色在群落水平上的进化意义与种内竞争 [34]
79. 两种类型热带雨林土壤节肢动物群落结构及分布特征 [25]
80. Soil nutrient limitation controls trophic cascade effects of micro.. [1]

Downloads

1. Mechanical fragmentation enhances the contribution of Collembola t.. [435]
2. Estimating soil labile organic carbon and potential turnover rates.. [268]
3. 西双版纳片断季节性雨林蚂蚁物种多样性研究 [228]
4. Mycorrhiza of plants in different vegetation types in tropical eco.. [177]
5. Spider diversity in canopies of Xishuangbanna rainforest (China) i.. [176]
6. 西双版纳热带雨林不同生长时期昆虫群落结构的初步比较 [172]
7. Organic and inorganic nitrogen uptake by 21 dominant tree species .. [150]
8. 西双版纳不同演替状态热带次生林土壤节肢动物群落特征 [145]
9. Intensive rubber cultivation degrades soil nematode communities in.. [134]
10. Hollows in living trees develop slowly but considerably influence .. [132]
11. 热带次生林刀耕火种过程中土壤节肢动物群落结构及多样性的变化 [129]
12. Cascading effects of spiders on a forest-floor food web in the fac.. [129]
13. Trophic cascade of a web-building spider decreases litter decompos.. [128]
14. Mercury flow through an Asian rice-based food web [127]
15. 16S rRNA gene analyses of bacterial community structures in the so.. [122]
16. Distribution of roots and arbuscular mycorrhizal associations in t.. [121]
17. Integrated effects of neighbourhood composition and resource level.. [121]
18. Plant litter quality influences the contribution of soil fauna to .. [119]
19. Root topological order drives variation of fine root vessel traits.. [117]
20. Soil fauna explain the plant apparency effect on litter decomposit.. [117]
21. Plant communication with rhizosphere microbes can be revealed by u.. [109]
22. Fine scale heterogeneity of soil properties causes seedling spatia.. [108]
23. Planting density affects soil quality in the deep soils of pine pl.. [107]
24. Spider foraging strategy affects trophic cascades under natural an.. [106]
25. Functional redundancy dampens the trophic cascade effect of a web-.. [104]
26. Regional and local patterns of soil arthropod diversity are explai.. [104]
27. Antibacterial and biofilm inhibition activity of biofabricated sil.. [98]
28. TOTAL MERCURY AND METHYLMERCURY CONCENTRATIONS OVER A GRADIENT OF .. [97]
29. Comparative responses of termite functional and taxonomic diversit.. [97]
30. Shift in the rhizosphere soil fungal community associated with roo.. [97]
31. 半附生榕树和非附生榕树的细根性状 [94]
32. Spider foraging strategies dominate pest suppression in organic te.. [93]
33. Annual variation of carbon flux and impact factors in the tropical.. [92]
34. Effects of different tea plantation management systems on arthropo.. [90]
35. 玉龙雪山自然保护区寒温性针阔混交林腐殖质层和土壤表层线虫群落结构差.. [87]
36. Soil total phosphorus mediate the assembly processes of rhizospher.. [83]
37. Assessing the impacts of forest conversion and seasonal dynamics o.. [80]
38. The plant microbiome: A missing link for the understanding of comm.. [74]
39. Spatial pattern of functional genes abundance reveals the importan.. [66]
40. The carbon and nitrogen stoichiometry in litter-soil-microbe conti.. [63]
41. Assessing the impacts of forest conversion and seasonal dynamics o.. [63]
42. Prey interception drives web invasion and spider size determines s.. [59]
43. The carbon and nitrogen stoichiometry in litter-soil-microbe conti.. [59]
44. Slipping through the Cracks: Rubber Plantation Is Unsuitable Breed.. [58]
45. Planting density affects soil quality in the deep soils of pine pl.. [58]
46. Masquerading predators deceive prey by aggressively mimicking bird.. [57]
47. Soil total phosphorus mediate the assembly processes of rhizospher.. [55]
48. Impact of road corridors on soil properties and plant communities .. [52]
49. Understanding global and regional patterns of termite diversity an.. [51]
50. Seasonal difference in soil health indicators mediating multidiver.. [49]
51. The plant microbiome: A missing link for the understanding of comm.. [46]
52. Latitudinal gradient for mercury accumulation and isotopic evidenc.. [46]
53. Comparative responses of termite functional and taxonomic diversit.. [45]
54. Evidence for positive response of soil bacterial community structu.. [45]
55. Effects of canopy nitrogen addition on soil fauna and litter decom.. [45]
56. pH对木霉菌和镰刀菌生长及其竞争的影响 [44]
57. 热带季节雨林碳通量年变化特征及其与影响因子的关系研究 [43]
58. Latitudinal gradient for mercury accumulation and isotopic evidenc.. [43]
59. 中国土壤动物多样性监测网络建设、进展与展望 [43]
60. The plant microbiome: A missing link for the understanding of comm.. [42]
61. Diversity and assemblage structure of bark-dwelling spiders in tro.. [39]
62. 西双版纳热带季节雨林木本植物的beta多样性:空间、环境与林分结构的作.. [36]
63. 西双版纳农林复合橡胶林土壤多营养级生物网络结构 [34]
64. Interaction mechanism of plant-based nanoarchitectured materials w.. [31]
65. How to safeguard soil health against silver nanoparticles through .. [31]
66. 西番莲茎基腐病病原尖孢镰刀菌生物学特性及木霉菌防治初探 [30]
67. Interaction mechanism of plant-based nanoarchitectured materials w.. [26]
68. 西双版纳热带季节雨林凋落叶分解与土壤动物群落:2种网孔分解袋的分解实.. [23]
69. 云南思茅茶园土壤节肢动物群落初步调查 [23]
70. 砂仁种植对季节雨林土壤动物群落结构影响的初步研究 [23]
71. Movement patterns of selected insect groups between natural forest.. [22]
72. 西番莲茎基腐病病原尖孢镰刀菌生物学特性及木霉菌防治初探 [19]
73. 刀耕火种旱稻种植系统土壤节肢动物群落结构及多样性动态 [10]
74. 两种类型热带雨林土壤节肢动物群落结构及分布特征 [10]
75. Identification of indicators: Monitoring the impacts of rubber pla.. [6]
76. Identification of indicators: Monitoring the impacts of rubber pla.. [4]