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

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

doi:10.1111/ele.13903

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

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

Research output: Contribution to journal › Article › peer-review

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.

Original language	English
Pages (from-to)	52-64
Number of pages	13
Journal	Ecology Letters
Volume	25
Issue number	1
Early online date	27 Oct 2021
DOIs	https://doi.org/10.1111/ele.13903
Publication status	Published - 1 Jan 2022
Externally published	Yes

Keywords

Climate Change
Ecosystem
Grassland
Seasons
Snow
Soil

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1111/ele.13903Licence: CC BY

Cite this

Broadbent, A. A. D., Bahn, M., Pritchard, W. J., Newbold, L. K., Goodall, T., Guinta, A., Snell, H. S. K., Cordero, I., Michas, A., Grant, H. K., Soto, D. X., Kaufmann, R., Schloter, M., Griffiths, R. I., & Bardgett, R. D. (2022). Shrub expansion modulates belowground impacts of changing snow conditions in alpine grasslands. Ecology Letters, 25(1), 52-64. https://doi.org/10.1111/ele.13903

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title = "Shrub expansion modulates belowground impacts of changing snow conditions in alpine grasslands",

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.",

keywords = "Climate Change, Ecosystem, Grassland, Seasons, Snow, Soil",

author = "Broadbent, \{Arthur A D\} and Michael Bahn and Pritchard, \{William J\} and Newbold, \{Lindsay K\} and Tim Goodall and Andrew Guinta and Snell, \{Helen S K\} and Irene Cordero and Antonios Michas and Grant, \{Helen K\} and Soto, \{David X\} and R{\"u}diger Kaufmann and Michael Schloter and Griffiths, \{Robert I\} and Bardgett, \{Richard D\}",

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doi = "10.1111/ele.13903",

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T1 - Shrub expansion modulates belowground impacts of changing snow conditions in alpine grasslands

AU - Broadbent, Arthur A D

AU - Bahn, Michael

AU - Pritchard, William J

AU - Newbold, Lindsay K

AU - Goodall, Tim

AU - Guinta, Andrew

AU - Snell, Helen S K

AU - Cordero, Irene

AU - Michas, Antonios

AU - Grant, Helen K

AU - Soto, David X

AU - Kaufmann, Rüdiger

AU - Schloter, Michael

AU - Griffiths, Robert I

AU - Bardgett, Richard D

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N2 - 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.

AB - 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.

KW - Climate Change

KW - Ecosystem

KW - Grassland

KW - Seasons

KW - Snow

KW - Soil

U2 - 10.1111/ele.13903

DO - 10.1111/ele.13903

M3 - Article

C2 - 34708508

SN - 1461-0248

VL - 25

SP - 52

EP - 64

JO - Ecology Letters

JF - Ecology Letters

IS - 1

ER -

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

Abstract

Keywords

UN SDGs

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