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1. Epiphytic lichens in subtropical forest ecosystems in southwest Ch.. [988]
2. 云南哀牢山原生林及次生林群落附生地衣物种多样性与分布 [823]
3. Bole epiphytic lichens as potential indicators of environmental ch.. [810]
4. Slower rates of litter decomposition of dominant epiphytes in the .. [639]
5. Water relations and gas exchange of fan bryophytes and their adapt.. [550]
6. Biomass, diversity and composition of epiphytic macrolichens in pr.. [442]
7. Higher clonal integration in the facultative epiphytic fern Sellig.. [426]
8. 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 [377]
9. 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.. [365]
10. 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 [346]
11. Bole bryophyte diversity and distribution patterns along three alt.. [344]
12. 不同水分条件下三种附生地衣的光合作用特性 [341]
13. Dry-hot stress significantly reduced the nitrogenase activity of e.. [341]
14. Fog Water Is Important in Maintaining the Water Budgets of Vascula.. [340]
15. Physiological Responses of Two Epiphytic Bryophytes to Nitrogen, P.. [327]
16. Adaptation of epiphytic bryophytes in the understorey attributing .. [325]
17. Species richness and vertical stratification of epiphytic lichens .. [315]
18. Epiphytic bryophytes as bio-indicators of atmospheric nitrogen dep.. [302]
19. Forest Type and Tree Characteristics Determine the Vertical Distri.. [292]
20. Ecological stoichiometry of the epiphyte community in a subtropica.. [270]
21. Obligate to facultative shift of two epiphytic Lepisorus species d.. [248]
22. 云南亚热带森林固氮地衣与共存附生植物间的氮转移 [248]
23. Non-dominant trees significantly enhance species richness of epiph.. [231]
24. Trait acclimation of the clonal fern Selliguea griffithiana to for.. [227]
25. 贵州荔波小七孔景区文字衣科地衣初报 [224]
26. Strangler fig-host tree associations: Insights into the ecology an.. [216]
27. Trait acclimation of the clonal fern Selliguea griffithiana to for.. [215]
28. Comparison of two noninvasive methods for measuring the pigment co.. [193]
29. Leaf Nutrient Resorption of Vascular Epiphytes Is Regulated by Sto.. [190]
30. 基于高通量测序技术的地衣生态学研究的新机遇 [184]
31. Stoichiometric and isotopic flexibility: facultative epiphytes exp.. [181]
32. Stoichiometric and isotopic flexibility: facultative epiphytes exp.. [178]
33. Greater differentiation in nitrogen sources is essential for co-oc.. [140]
34. Simulated high-intensity phorophyte removal mitigates the robustne.. [130]
35. Fast restore of the structure and composition of hemiepiphytes aft.. [129]
36. Fast restore of the structure and composition of hemiepiphytes aft.. [122]
37. Fast restore of the structure and composition of hemiepiphytes aft.. [110]
38. 哀牢山亚热带森林附生维管植物δ15N特征及分馏效应 [107]
39. Group-consistent but species-specific nitrogen isotope fractionati.. [95]
40. 两种便携式叶绿素测量仪在地衣光合色素测量中的适用性 [40]
41. 亚热带森林附生地衣的物种多样性及其垂直分布 [38]
42. The scaling relationship between leaf nitrogen and phosphorus conc.. [2]

Downloads

1. Epiphytic lichens in subtropical forest ecosystems in southwest Ch.. [239]
2. 云南哀牢山原生林及次生林群落附生地衣物种多样性与分布 [233]
3. Bole epiphytic lichens as potential indicators of environmental ch.. [139]
4. Strangler fig-host tree associations: Insights into the ecology an.. [127]
5. Higher clonal integration in the facultative epiphytic fern Sellig.. [126]
6. 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.. [125]
7. 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 [124]
8. Adaptation of epiphytic bryophytes in the understorey attributing .. [119]
9. Leaf Nutrient Resorption of Vascular Epiphytes Is Regulated by Sto.. [118]
10. Biomass, diversity and composition of epiphytic macrolichens in pr.. [117]
11. 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 [116]
12. Species richness and vertical stratification of epiphytic lichens .. [112]
13. Dry-hot stress significantly reduced the nitrogenase activity of e.. [106]
14. Fog Water Is Important in Maintaining the Water Budgets of Vascula.. [106]
15. Water relations and gas exchange of fan bryophytes and their adapt.. [105]
16. 不同水分条件下三种附生地衣的光合作用特性 [102]
17. Bole bryophyte diversity and distribution patterns along three alt.. [100]
18. Physiological Responses of Two Epiphytic Bryophytes to Nitrogen, P.. [100]
19. Greater differentiation in nitrogen sources is essential for co-oc.. [92]
20. Obligate to facultative shift of two epiphytic Lepisorus species d.. [90]
21. Forest Type and Tree Characteristics Determine the Vertical Distri.. [89]
22. Trait acclimation of the clonal fern Selliguea griffithiana to for.. [86]
23. Epiphytic bryophytes as bio-indicators of atmospheric nitrogen dep.. [85]
24. Slower rates of litter decomposition of dominant epiphytes in the .. [83]
25. Stoichiometric and isotopic flexibility: facultative epiphytes exp.. [83]
26. Ecological stoichiometry of the epiphyte community in a subtropica.. [80]
27. Simulated high-intensity phorophyte removal mitigates the robustne.. [77]
28. Trait acclimation of the clonal fern Selliguea griffithiana to for.. [74]
29. Fast restore of the structure and composition of hemiepiphytes aft.. [65]
30. Comparison of two noninvasive methods for measuring the pigment co.. [64]
31. Stoichiometric and isotopic flexibility: facultative epiphytes exp.. [64]
32. Fast restore of the structure and composition of hemiepiphytes aft.. [64]
33. Group-consistent but species-specific nitrogen isotope fractionati.. [58]
34. Non-dominant trees significantly enhance species richness of epiph.. [55]
35. Fast restore of the structure and composition of hemiepiphytes aft.. [53]
36. 哀牢山亚热带森林附生维管植物δ15N特征及分馏效应 [51]
37. 云南亚热带森林固氮地衣与共存附生植物间的氮转移 [38]
38. 贵州荔波小七孔景区文字衣科地衣初报 [35]
39. The scaling relationship between leaf nitrogen and phosphorus conc.. [1]