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Shrub expansion modulates belowground impacts of changing snow conditions in alpine grasslands

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Published
  • Arthur A.D. Broadbent
  • Michael Bahn
  • William J. Pritchard
  • Lindsay K. Newbold
  • Tim Goodall
  • Andrew Guinta
  • Helen S.K. Snell
  • Irene Cordero
  • Antonios Michas
  • Helen K. Grant
  • David X. Soto
  • Rüdiger Kaufmann
  • Michael Schloter
  • Robert I. Griffiths
  • Richard D. Bardgett
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<mark>Journal publication date</mark>31/01/2022
<mark>Journal</mark>Ecology Letters
Issue number1
Volume25
Number of pages13
Pages (from-to)52-64
Publication StatusPublished
Early online date27/10/21
<mark>Original language</mark>English

Abstract

Climate change is disproportionately impacting mountain ecosystems, leading to large reductions in winter snow cover, earlier spring snowmelt and widespread shrub expansion into alpine grasslands. Yet, the combined effects of shrub expansion and changing snow conditions on abiotic and biotic soil properties remains poorly understood. We used complementary field experiments to show that reduced snow cover and earlier snowmelt have effects on soil microbial communities and functioning that persist into summer. However, ericaceous shrub expansion modulates a number of these impacts and has stronger belowground effects than changing snow conditions. Ericaceous shrub expansion did not alter snow depth or snowmelt timing but did increase the abundance of ericoid mycorrhizal fungi and oligotrophic bacteria, which was linked to decreased soil respiration and nitrogen availability. Our findings suggest that changing winter snow conditions have cross-seasonal impacts on soil properties, but shifts in vegetation can modulate belowground effects of future alpine climate change.