| scholarly article | Q13442814 |
| P50 | author | Erik F. Smets | Q2548592 |
| Jeffrey M. Welker | Q83664240 | ||
| József Geml | Q54665526 | ||
| P2093 | author name string | Luis N Morgado | |
| Tatiana A Semenova | |||
| Marilyn D Walker | |||
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| Mycorrhizal fungi supply nitrogen to host plants in Arctic tundra and boreal forests: 15N is the key signal | Q46134925 | ||
| Growth on nitrate and occurrence of nitrate reductase-encoding genes in a phylogenetically diverse range of ectomycorrhizal fungi | Q46136307 | ||
| Spatial patterns of gene expression in the extramatrical mycelium and mycorrhizal root tips formed by the ectomycorrhizal fungus Paxillus involutus in association with birch (Betula pendula) seedlings in soil microcosms | Q46584572 | ||
| Ectomycorrhizal Cortinarius species participate in enzymatic oxidation of humus in northern forest ecosystems | Q46906739 | ||
| The UNITE database for molecular identification of fungi--recent updates and future perspectives | Q48065164 | ||
| Long-term warming restructures Arctic tundra without changing net soil carbon storage | Q48243346 | ||
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| Detection of extracellular protease activity in different species and genera of ectomycorrhizal fungi. | Q51715315 | ||
| Increased ectomycorrhizal fungal abundance after long-term fertilization and warming of two arctic tundra ecosystems. | Q51723857 | ||
| 15N in symbiotic fungi and plants estimates nitrogen and carbon flux rates in Arctic tundra. | Q51727990 | ||
| New primers to amplify the fungal ITS2 region--evaluation by 454-sequencing of artificial and natural communities. | Q53101851 | ||
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| Conservation of ectomycorrhizal fungi: exploring the linkages between functional and taxonomic responses to anthropogenic N deposition | Q56619038 | ||
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| Independent roles of ectomycorrhizal and saprotrophic communities in soil organic matter decomposition | Q57141197 | ||
| Global change and arctic ecosystems: is lichen decline a function of increases in vascular plant biomass? | Q57203707 | ||
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| AMPLIFICATION AND DIRECT SEQUENCING OF FUNGAL RIBOSOMAL RNA GENES FOR PHYLOGENETICS | Q58333605 | ||
| Landscape Heterogeneity of Shrub Expansion in Arctic Alaska | Q58385632 | ||
| How important is secretion of exoenzymes through apical cell walls of fungi? | Q68543571 | ||
| Molecular diversity assessment of arctic and borealAgaricustaxa | Q72993716 | ||
| P433 | issue | 2 | |
| P921 | main subject | Alaska | Q797 |
| tundra | Q43262 | ||
| Ectomycorrhiza | Q3047120 | ||
| fungal community | Q109276234 | ||
| P1104 | number of pages | 14 | |
| P304 | page(s) | 959-972 | |
| P577 | publication date | 2014-10-08 | |
| P1433 | published in | Global Change Biology | Q1531580 |
| P1476 | title | Summer temperature increase has distinct effects on the ectomycorrhizal fungal communities of moist tussock and dry tundra in Arctic Alaska | |
| P478 | volume | 21 |
| Q38700620 | Abrupt changes in the composition and function of fungal communities along an environmental gradient in the high Arctic |
| Q49198296 | Analyses of Sporocarps, Morphotyped Ectomycorrhizae, Environmental ITS and LSU Sequences Identify Common Genera that Occur at a Periglacial Site |
| Q31144438 | Changes in composition and abundance of functional groups of arctic fungi in response to long-term summer warming |
| Q36344353 | Changes in richness and community composition of ectomycorrhizal fungi among altitudinal vegetation types on Mount Kinabalu in Borneo |
| Q36324932 | Does warming by open-top chambers induce change in the root-associated fungal community of the arctic dwarf shrub Cassiope tetragona (Ericaceae)? |
| Q31105133 | Ectomycorrhizal and saprotrophic fungi respond differently to long-term experimentally increased snow depth in the High Arctic |
| Q31132535 | Ectomycorrhizal fungal response to warming is linked to poor host performance at the boreal-temperate ecotone |
| Q35865883 | Effects of warming on ectomycorrhizal colonization and nitrogen nutrition of Picea asperata seedlings grown in two contrasting forest ecosystems |
| Q38865168 | Enhanced summer warming reduces fungal decomposer diversity and litter mass loss more strongly in dry than in wet tundra |
| Q31136908 | Experimental Climate Change Modifies Degradative Succession in Boreal Peatland Fungal Communities. |
| Q38764427 | Experimental soil warming shifts the fungal community composition at the alpine treeline. |
| Q35966633 | Long-term increase in snow depth leads to compositional changes in arctic ectomycorrhizal fungal communities |
| Q30985836 | Long-term warming alters richness and composition of taxonomic and functional groups of arctic fungi |
| Q57055756 | Molecular Techniques in Mycological Studies and Sequence Data Curating: Quality Control and Challenges |
| Q35993262 | Molecular inference, multivariate morphometrics and ecological assessment are applied in concert to delimit species in the Russula clavipes complex |
| Q104670433 | Notes, outline and divergence times of Basidiomycota |
| Q35940317 | Root-associated fungi of Vaccinium carlesii in subtropical forests of China: intra- and inter-annual variability and impacts of human disturbances |
| Q46622277 | Stable isotope probing implicates a species of Cortinarius in carbon transfer through ectomycorrhizal fungal mycelial networks in Arctic tundra |
| Q110697637 | Systematic analysis of Russula in the North American Rocky Mountain alpine zone |
| Q110854584 | The quest for a globally comprehensible Russula language |
| Q58653377 | Tundra is a consistent source of CO2 at a site with progressive permafrost thaw during 6 years of chamber and eddy covariance measurements |
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