Data from: Abrupt changes in the composition and function of fungal communities along an environmental gradient in the High Arctic
Z1 (Fell field-Bare ground-Plot 1) Z1.fastq Z2 (Fell field-Salix-Plot 1) Z2.fastq Z3 (Fell field-Dryas-Plot 1) Z3.fastq Z4 (Fell field-Bare ground-Plot 2) Z4.fastq Z5 (Fell field-Salix-Plot 2) Z5.fastq Z6 (Fell field-Dryas-Plot 2) Z6.fastq Z7 (Fell-field-Bare ground-Plot 3) Z7.fastq Z8 (Fell field-D...
| Main Authors: | , , , , , |
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| Format: | Dataset |
| Language: | English |
| Published: |
Dryad
2017
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10261/281622 https://doi.org/10.5061/dryad.n82g9 |
| Summary: | Z1 (Fell field-Bare ground-Plot 1) Z1.fastq Z2 (Fell field-Salix-Plot 1) Z2.fastq Z3 (Fell field-Dryas-Plot 1) Z3.fastq Z4 (Fell field-Bare ground-Plot 2) Z4.fastq Z5 (Fell field-Salix-Plot 2) Z5.fastq Z6 (Fell field-Dryas-Plot 2) Z6.fastq Z7 (Fell-field-Bare ground-Plot 3) Z7.fastq Z8 (Fell field-Dryas-Plot 3) Z8.fastq Z9 (Fell field-Salix-Plot 3) Z9.fastq Z10 (Heath-Bare ground-Plot 2) Z10.fastq Z11 (Snowbed-Bare ground-Plot 1) Z11.fastq Z12 (Snowbed-Salix-Plot 1) Z12.fastq Z13 (Snowbed-Bare ground-Plot 3) Z13.fastq Z14 (Snowbed-Salix-Plot 3) Z14.fastq Z15 (Snowbed-Dryas-Plot 3) Z15.fastq Z16 (Snowbed-Bare ground-Plot 2) Z16.fastq Z17 (Snowbed-Salix-Plot 2) Z17.fastq Z18 (Snowbed-Dryas-Plot 2) Z18.fastq Z19 (Snowbed-Dryas-Plot 1) Z19.fastq Z20 (Heath-Dryas-Plot 2) Z20.fastq Z21 (Heath-Salix-Plot 2) Z21.fastq Z22 (Heath-Bare ground-Plot 1) Z22.fastq Z23 (Heath-Dryas-Plot 1) Z23.fastq Z24 (Heath-Salix-Plot 1) Z24.fastq Z25 (Heath-Bare ground-Plot 3) Z25.fastq Z26 (Heath-Salix-Plot 3) Z26.fastq Z27 (Heath-Dryas-Plot 3) Z27.fastq Fungi play a key role in soil-plant interactions, nutrient cycling, and carbon flow and are essential for the functioning of arctic terrestrial ecosystems. Some studies have shown that the composition of fungal communities is highly sensitive to variations in environmental conditions, but little is known about how the conditions control the role of fungal communities (i.e. their ecosystem function). We used DNA metabarcoding to compare taxonomic and functional composition of fungal communities along a gradient of environmental severity in Northeast Greenland. We analysed soil samples from fell fields, heaths, and snowbeds, three habitats with very contrasting abiotic conditions. We also assessed within-habitat differences by comparing three widespread microhabitats (patches with high cover of Dryas, Salix, or bare soil). The data suggest that, along the sampled mesotopographic gradient, the greatest differences in both fungal richness and community composition are observed among ... |
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