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Visits

1. The causes of land-use and land-cover change: moving beyond the my.. [1775]
2. Forest transitions: towards a global understanding of land use cha.. [1289]
3. Maxent modeling for predicting the potential distribution of medic.. [1280]
4. Greenhouse gas emissions from nitrogen fertilizer use in China [1181]
5. Mekong Hydropower Development [1012]
6. The influence of seed and oil storage on the acid levels of rubber.. [828]
7. Families of Dothideomycetes [778]
8. Winter and spring warming result in delayed spring phenology on th.. [746]
9. Response of chestnut phenology in China to climate variation and c.. [677]
10. Climate Change Adaptation Among Tibetan Pastoralists: Challenges i.. [623]
11. Land use transition, livelihoods, and environmental services in Mo.. [585]
12. Mapping non-wood forest product (matsutake mushrooms) using logist.. [560]
13. Revision of Phaeosphaeriaceae [543]
14. Seeing the wood for the trees: how conservation policies can place.. [520]
15. Landscape transformation through the use of ecological and socioec.. [517]
16. Fungal diversity notes 253-366: taxonomic and phylogenetic contrib.. [509]
17. 快速测定土壤碳氮及其稳定同位素的中红外光谱检测系统 [497]
18. Climate change effects fruiting of the prize matsutake mushroom in.. [488]
19. Environmental stratification to model climate change impacts on bi.. [486]
20. Discovering and Domesticating Wild Tropical Cultivatable Mushrooms [450]
21. The Rubber Juggernaut [440]
22. Biodiversity impact analysis in northwest Yunnan, southwest China [429]
23. Bioactive metabolites from macrofungi: ethnopharmacology, biologic.. [429]
24. Effectiveness of protected areas in preventing rubber expansion an.. [399]
25. Mekong hydropower: drivers of change and governance challenges [396]
26. Rubber tree allometry, biomass partitioning and carbon stocks in m.. [395]
27. Fertilizer use patterns in Yunnan Province, China: Implications fo.. [389]
28. Effects of Vegetation Restoration on Soil Conservation and Sedimen.. [385]
29. Fruiting patterns of macrofungi in tropical and temperate land use.. [383]
30. Towards a natural classification and backbone tree for Sordariomyc.. [375]
31. Flowering phenology of tree rhododendron along an elevation gradie.. [359]
32. Participatory technology development for incorporating non-timber .. [352]
33. Native Forests Have a Higher Diversity of Macrofungi Than Comparab.. [352]
34. Increasing tree cover while losing diverse natural forests in trop.. [345]
35. Matsutake Trade in Yunnan Province, China: An Overview [344]
36. Prized edible Asian mushrooms: ecology, conservation and sustainab.. [344]
37. Integrative Management of Commercialized Wild Mushroom: A Case Stu.. [343]
38. China's new forests aren't as green as they seem [342]
39. Sensitivity of streamflow from a Himalayan catchment to plausible .. [340]
40. The sooty moulds [336]
41. 丽江市漾弓江流域水资源脆弱性评估 [332]
42. Caution Is Needed in Quantifying Terrestrial Biomass Responses to .. [323]
43. The cover uncovered: Bark control over wood decomposition [322]
44. Spatial distribution and temporal variation of high fluoride conte.. [318]
45. The dual symbiosis between arbuscular mycorrhiza and nitrogen fixi.. [315]
46. Polyporus umbellatus, an Edible-Medicinal Cultivated Mushroom with.. [314]
47. Fungal diversity notes 1-110: taxonomic and phylogenetic contribut.. [313]
48. Biodegradation of polyester polyurethane by Aspergillus tubingensi.. [308]
49. Natural forests maintain a greater soil microbial diversity than t.. [307]
50. Effects of swidden cultivation, state policies, and customary inst.. [301]
51. Recalibrating China's environmental policy: The next 10 years [298]
52. Two new epimeric isopavine N-oxides from Meconopsis horridula var... [297]
53. Response of hydrological processes to land-cover and climate chang.. [290]
54. Exploring the spatial and temporal dynamics of land use in Xizhuan.. [275]
55. Regime shifts limit the predictability of land-system change [269]
56. Agroforestry systems: Meta-analysis of soil carbon stocks, sequest.. [269]
57. Fungal diversity notes 491-602: taxonomic and phylogenetic contrib.. [264]
58. Water Resource Management in a Middle Mountain Watershed A Case St.. [252]
59. Yield and household consumption of Rhododendron arboreum as a fuel.. [249]
60. Phomoeuphorbins A-D, azaphilones from the fungus Phomopsis euphorb.. [245]
61. Establishing long-term biodiversity assessment and monitoring in n.. [241]
62. Roussoellaceae, a new pleosporalean family to accommodate the gene.. [238]
63. Fungal diversity notes 840-928: micro-fungi 4associated with Panda.. [230]
64. Carbon balance of rubber (Hevea brasiliensis) plantations: A revie.. [229]
65. Farm types and farmer motivations to adapt: Implications for desig.. [226]
66. Prioritizing fodder species based on traditional knowledge: a case.. [216]
67. Tree species and recovery time drives soil restoration after minin.. [216]
68. Variation in forest soil fungal diversity along a latitudinal grad.. [214]
69. Critical linkages between land-use transition and human health in .. [212]
70. Responses of spring phenology in temperate zone trees to climate w.. [212]
71. Rethinking the effectiveness of public protected areas in southwes.. [211]
72. LAND USE/LAND COVER MAPPING OF AN ALPINE REGION USING EXPERT SYSTE.. [210]
73. Seasonal Response of Grasslands to Climate Change on the Tibetan P.. [210]
74. Understanding land use, livelihoods, and health transitions among .. [208]
75. Climate modelling for agroforestry species selection in Yunnan Pro.. [208]
76. Ring-widths of the above tree-line shrub Rhododendron reveal the c.. [207]
77. Projected climate change impacts on spatial distribution of biocli.. [206]
78. Soil respiration in sloping rubber plantations and tropical natura.. [204]
79. Current trends of rubber plantation expansion may threaten biodive.. [201]
80. Multiple origins and a narrow genepool characterise the African te.. [199]
81. Genetic diversity of Rhododendron delavayi var. delavayi (C. B. Cl.. [196]
82. Phylogenetic studies on Vialaeaceae reveals a novel species, Viala.. [195]
83. Simplification of pine forests due to utilization by Tibetan villa.. [192]
84. The Genus Phylloporus (Boletaceae, Boletales), from Mekong River B.. [192]
85. Deforestation and Changes in Landscape Patterns from 1979 to 2006 .. [188]
86. One stop shop: backbones trees for important phytopathogenic gener.. [186]
87. Local Dynamics Driving Forest Transition: Insights from Upland Vil.. [183]
88. Tubeufiales, ord. nov., integrating sexual and asexual generic nam.. [183]
89. Integrating sacred knowledge for conservation: Cultures and landsc.. [183]
90. Epitypification and neotypification: guidelines with appropriate a.. [182]
91. Greater diurnal temperature difference, an overlooked but importan.. [181]
92. First successful domestication and determination of nutritional an.. [180]
93. Is China's unparalleled and understudied bee diversity at risk? [178]
94. Seasonal differences in soil respiration and methane uptake in rub.. [177]
95. A molecular phylogenetic reappraisal of the Didymosphaeriaceae (= .. [176]
96. Investigation of rubber seed yield in Xishuangbanna and estimation.. [175]
97. Integrating local hybrid knowledge and state support for climate c.. [173]
98. Fungal diversity notes 367-490: taxonomic and phylogenetic contrib.. [173]
99. Two new ent-kaurane diterpenoids from Isodon adenantha [172]
100. 铃铛子和赛莨菪(茄科)的传粉机制比较研究 [172]

Downloads

1. The causes of land-use and land-cover change: moving beyond the my.. [1046]
2. Maxent modeling for predicting the potential distribution of medic.. [554]
3. Forest transitions: towards a global understanding of land use cha.. [461]
4. Greenhouse gas emissions from nitrogen fertilizer use in China [435]
5. Mekong Hydropower Development [339]
6. The influence of seed and oil storage on the acid levels of rubber.. [216]
7. Mapping non-wood forest product (matsutake mushrooms) using logist.. [213]
8. Biodiversity impact analysis in northwest Yunnan, southwest China [200]
9. Flowering phenology of tree rhododendron along an elevation gradie.. [182]
10. Landscape transformation through the use of ecological and socioec.. [166]
11. Bioactive metabolites from macrofungi: ethnopharmacology, biologic.. [147]
12. Mekong hydropower: drivers of change and governance challenges [146]
13. Integrative Management of Commercialized Wild Mushroom: A Case Stu.. [144]
14. Families of Dothideomycetes [137]
15. Carbon balance of rubber (Hevea brasiliensis) plantations: A revie.. [133]
16. Winter and spring warming result in delayed spring phenology on th.. [129]
17. The Rubber Juggernaut [124]
18. Two new epimeric isopavine N-oxides from Meconopsis horridula var... [124]
19. Participatory technology development for incorporating non-timber .. [123]
20. Sensitivity of streamflow from a Himalayan catchment to plausible .. [121]
21. Fertilizer use patterns in Yunnan Province, China: Implications fo.. [118]
22. Prized edible Asian mushrooms: ecology, conservation and sustainab.. [118]
23. Effects of swidden cultivation, state policies, and customary inst.. [115]
24. Effects of Vegetation Restoration on Soil Conservation and Sedimen.. [113]
25. Towards a natural classification and backbone tree for Sordariomyc.. [111]
26. Biodegradation of polyester polyurethane by Aspergillus tubingensi.. [110]
27. Climate change effects fruiting of the prize matsutake mushroom in.. [107]
28. Climate Change Adaptation Among Tibetan Pastoralists: Challenges i.. [103]
29. Matsutake Trade in Yunnan Province, China: An Overview [102]
30. Phomoeuphorbins A-D, azaphilones from the fungus Phomopsis euphorb.. [98]
31. Response of hydrological processes to land-cover and climate chang.. [92]
32. Discovering and Domesticating Wild Tropical Cultivatable Mushrooms [92]
33. Exploring the spatial and temporal dynamics of land use in Xizhuan.. [90]
34. Water Resource Management in a Middle Mountain Watershed A Case St.. [88]
35. Climate modelling for agroforestry species selection in Yunnan Pro.. [87]
36. Rubber tree allometry, biomass partitioning and carbon stocks in m.. [84]
37. Spatial distribution and temporal variation of high fluoride conte.. [81]
38. Polyporus umbellatus, an Edible-Medicinal Cultivated Mushroom with.. [79]
39. The sooty moulds [78]
40. Fruiting patterns of macrofungi in tropical and temperate land use.. [76]
41. Rethinking the effectiveness of public protected areas in southwes.. [73]
42. Land use transition, livelihoods, and environmental services in Mo.. [72]
43. Land-use change impact on time-averaged carbon balances: Rubber ex.. [71]
44. 松华坝流域生态补偿标准和效率研究 [69]
45. Current trends of rubber plantation expansion may threaten biodive.. [68]
46. Effectiveness of protected areas in preventing rubber expansion an.. [68]
47. Critical linkages between land-use transition and human health in .. [67]
48. China's new forests aren't as green as they seem [65]
49. OVERVIEW OF RESEARCH OF MUSHROOMS IN SRI LANKA [64]
50. Projected climate change impacts on spatial distribution of biocli.. [63]
51. Environmental stratification to model climate change impacts on bi.. [62]
52. Seasonal differences in soil respiration and methane uptake in rub.. [62]
53. Recalibrating China's environmental policy: The next 10 years [61]
54. Variation in forest soil fungal diversity along a latitudinal grad.. [61]
55. The dual symbiosis between arbuscular mycorrhiza and nitrogen fixi.. [59]
56. Projected impact of climate change on the effectiveness of the exi.. [58]
57. 铃铛子和赛莨菪(茄科)的传粉机制比较研究 [57]
58. Response of chestnut phenology in China to climate variation and c.. [57]
59. Two new ent-kaurane diterpenoids from Isodon adenantha [56]
60. Epitypification and neotypification: guidelines with appropriate a.. [56]
61. Genetic diversity in taro (Colocasia esculenta Schott, Araceae) in.. [56]
62. Critical climate periods for grassland productivity on China's Loe.. [53]
63. Establishing long-term biodiversity assessment and monitoring in n.. [51]
64. Diversity and ecology of soil fungal communities in rubber plantat.. [51]
65. Regime shifts limit the predictability of land-system change [50]
66. Integrating sacred knowledge for conservation: Cultures and landsc.. [50]
67. Phylogenetic studies on Vialaeaceae reveals a novel species, Viala.. [49]
68. Ring-widths of the above tree-line shrub Rhododendron reveal the c.. [48]
69. Is China's unparalleled and understudied bee diversity at risk? [48]
70. Understanding land use, livelihoods, and health transitions among .. [47]
71. Fungal diversity notes 1-110: taxonomic and phylogenetic contribut.. [47]
72. Building ecosystem resilience for climate change adaptation in the.. [44]
73. Native Forests Have a Higher Diversity of Macrofungi Than Comparab.. [44]
74. Chilling and heat requirements for flowering in temperate fruit tr.. [43]
75. A molecular phylogenetic reappraisal of the Didymosphaeriaceae (= .. [43]
76. Dissectol A, a novel monoterpene glycoside from Incarvillea dissec.. [42]
77. Integrating local hybrid knowledge and state support for climate c.. [42]
78. Simplification of pine forests due to utilization by Tibetan villa.. [41]
79. Increasing tree cover while losing diverse natural forests in trop.. [40]
80. Investigation of rubber seed yield in Xishuangbanna and estimation.. [39]
81. Roussoellaceae, a new pleosporalean family to accommodate the gene.. [39]
82. Phylogenetic Diversity of Russula from Xiaozhongdian, Yunnan, Chin.. [38]
83. Lignicolous freshwater fungi along a north-south latitudinal gradi.. [38]
84. Correct names of two cultivated mushrooms from the genus Pleurotus.. [38]
85. An exciting novel member of Lentitheciaceae in Italy from Clematis.. [37]
86. Deforestation and fragmentation of natural forests in the upper Ch.. [36]
87. Towards unraveling relationships in Xylariomycetidae (Sordariomyce.. [36]
88. Litterfall and nutrient return along a disturbance gradient in a t.. [36]
89. Statistical identification of chilling and heat requirements for a.. [36]
90. 气候变化对云南省水资源影响研究进展综述 [36]
91. Propagation of Native Tree Species to Restore Subtropical Evergree.. [36]
92. Bambusicolous fungi [36]
93. Replies to Shen, Chen et al., and Yi and Zhou: Linear regression a.. [35]
94. LAND USE/LAND COVER MAPPING OF AN ALPINE REGION USING EXPERT SYSTE.. [35]
95. Vamsapriya (Xylariaceae) re-described, with two new species and mo.. [35]
96. A phylogenetic census of global diversity of gut anaerobic fungi a.. [35]
97. Indigenous knowledge: an inexhaustible "information bank" for toxi.. [34]
98. 丽江市漾弓江流域水资源脆弱性评估 [34]
99. Large-scale phylogenetic analyses reveal multiple gains of actinor.. [34]
100. Farm types and farmer motivations to adapt: Implications for desig.. [34]