Shallow soils are warmer under trees and tall shrubs across Arctic and Boreal ecosystems
Heather Kropp, M. M. Loranty, Susan M. Natali, Alexander Kholodov, A. V. Rocha, Isla H. Myers‐Smith, Benjamin W Abbot, Jakob Abermann, E. Blanc‐Betes, Daan Blok, Gesche Blume‐Werry, Julia Boike, A. L. Breen, Sean M. P. Cahoon, Casper T. Christiansen, Thomas A. Douglas, Howard E. Epstein, G. V. Frost, Mathias Goeckede, Toke T. Høye, Steven D. Mamet, J. A. O’Donnell, David Olefeldt, Gareth K. Phoenix, V. G. Salmon, A. Britta K. Sannel, Sharon L. Smith, Oliver Sonnentag, Lydia Smith Vaughn, Mathew Williams, Bo Elberling, Laura Gough, Jan Hjort, Peter M. Lafleur, Eugénie Euskirchen, M.M.P.D. Heijmans, Elyn Humphreys, Hiroyasu Iwata, Benjamin M. Jones, M. Torre Jorgenson, Inge Grünberg, Yongwon Kim, James A. Laundre, Marguerite Mauritz, Anders Michelsen, Gabriela Schaepman‐Strub, Ken D. Tape, Masahito Ueyama, Bang-Yong Lee, Kirsty Langley, Magnus Lund
Abstract
Abstract Soils are warming as air temperatures rise across the Arctic and Boreal region concurrent with the expansion of tall-statured shrubs and trees in the tundra. Changes in vegetation structure and function are expected to alter soil thermal regimes, thereby modifying climate feedbacks related to permafrost thaw and carbon cycling. However, current understanding of vegetation impacts on soil temperature is limited to local or regional scales and lacks the generality necessary to predict soil warming and permafrost stability on a pan-Arctic scale. Here we synthesize shallow soil and air temperature observations with broad spatial and temporal coverage collected across 106 sites representing nine different vegetation types in the permafrost region. We showed ecosystems with tall-statured shrubs and trees (>40 cm) have warmer shallow soils than those with short-statured tundra vegetation when normalized to a constant air temperature. In tree and tall shrub vegetation types, cooler temperatures in the warm season do not lead to cooler mean annual soil temperature indicating that ground thermal regimes in the cold-season rather than the warm-season are most critical for predicting soil warming in ecosystems underlain by permafrost. Our results suggest that the expansion of tall shrubs and trees into tundra regions can amplify shallow soil warming, and could increase the potential for increased seasonal thaw depth and increase soil carbon cycling rates and lead to increased carbon dioxide loss and further permafrost thaw.- Cite:
- Heather Kropp, M. M. Loranty, Susan M. Natali, Alexander Kholodov, A. V. Rocha, Isla H. Myers‐Smith, Benjamin W Abbot, Jakob Abermann, E. Blanc‐Betes, Daan Blok, Gesche Blume‐Werry, Julia Boike, A. L. Breen, Sean M. P. Cahoon, Casper T. Christiansen, Thomas A. Douglas, Howard E. Epstein, G. V. Frost, Mathias Goeckede, et al.. 2020. Shallow soils are warmer under trees and tall shrubs across Arctic and Boreal ecosystems. Environmental Research Letters, Volume 16, Issue 1, 16(1):015001.
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@article{Kropp-2020-Shallow,
title = "Shallow soils are warmer under trees and tall shrubs across Arctic and Boreal ecosystems",
author = {Kropp, Heather and
Loranty, M. M. and
Natali, Susan M. and
Kholodov, Alexander and
Rocha, A. V. and
Myers‐Smith, Isla H. and
Abbot, Benjamin W and
Abermann, Jakob and
Blanc‐Betes, E. and
Blok, Daan and
Blume‐Werry, Gesche and
Boike, Julia and
Breen, A. L. and
Cahoon, Sean M. P. and
Christiansen, Casper T. and
Douglas, Thomas A. and
Epstein, Howard E. and
Frost, G. V. and
Goeckede, Mathias and
H{\o}ye, Toke T. and
Mamet, Steven D. and
O{'}Donnell, J. A. and
Olefeldt, David and
Phoenix, Gareth K. and
Salmon, V. G. and
Sannel, A. Britta K. and
Smith, Sharon L. and
Sonnentag, Oliver and
Vaughn, Lydia Smith and
Williams, Mathew and
Elberling, Bo and
Gough, Laura and
Hjort, Jan and
Lafleur, Peter M. and
Euskirchen, Eug{\'e}nie and
Heijmans, M.M.P.D. and
Humphreys, Elyn and
Iwata, Hiroyasu and
Jones, Benjamin M. and
Jorgenson, M. Torre and
Gr{\"u}nberg, Inge and
Kim, Yongwon and
Laundre, James A. and
Mauritz, Marguerite and
Michelsen, Anders and
Schaepman‐Strub, Gabriela and
Tape, Ken D. and
Ueyama, Masahito and
Lee, Bang-Yong and
Langley, Kirsty and
Lund, Magnus},
journal = "Environmental Research Letters, Volume 16, Issue 1",
volume = "16",
number = "1",
year = "2020",
publisher = "IOP Publishing",
url = "https://gwf-uwaterloo.github.io/gwf-publications/G20-7001",
doi = "10.1088/1748-9326/abc994",
pages = "015001",
abstract = "Abstract Soils are warming as air temperatures rise across the Arctic and Boreal region concurrent with the expansion of tall-statured shrubs and trees in the tundra. Changes in vegetation structure and function are expected to alter soil thermal regimes, thereby modifying climate feedbacks related to permafrost thaw and carbon cycling. However, current understanding of vegetation impacts on soil temperature is limited to local or regional scales and lacks the generality necessary to predict soil warming and permafrost stability on a pan-Arctic scale. Here we synthesize shallow soil and air temperature observations with broad spatial and temporal coverage collected across 106 sites representing nine different vegetation types in the permafrost region. We showed ecosystems with tall-statured shrubs and trees ({\textgreater}40 cm) have warmer shallow soils than those with short-statured tundra vegetation when normalized to a constant air temperature. In tree and tall shrub vegetation types, cooler temperatures in the warm season do not lead to cooler mean annual soil temperature indicating that ground thermal regimes in the cold-season rather than the warm-season are most critical for predicting soil warming in ecosystems underlain by permafrost. Our results suggest that the expansion of tall shrubs and trees into tundra regions can amplify shallow soil warming, and could increase the potential for increased seasonal thaw depth and increase soil carbon cycling rates and lead to increased carbon dioxide loss and further permafrost thaw.",
}
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<abstract>Abstract Soils are warming as air temperatures rise across the Arctic and Boreal region concurrent with the expansion of tall-statured shrubs and trees in the tundra. Changes in vegetation structure and function are expected to alter soil thermal regimes, thereby modifying climate feedbacks related to permafrost thaw and carbon cycling. However, current understanding of vegetation impacts on soil temperature is limited to local or regional scales and lacks the generality necessary to predict soil warming and permafrost stability on a pan-Arctic scale. Here we synthesize shallow soil and air temperature observations with broad spatial and temporal coverage collected across 106 sites representing nine different vegetation types in the permafrost region. We showed ecosystems with tall-statured shrubs and trees (\textgreater40 cm) have warmer shallow soils than those with short-statured tundra vegetation when normalized to a constant air temperature. In tree and tall shrub vegetation types, cooler temperatures in the warm season do not lead to cooler mean annual soil temperature indicating that ground thermal regimes in the cold-season rather than the warm-season are most critical for predicting soil warming in ecosystems underlain by permafrost. Our results suggest that the expansion of tall shrubs and trees into tundra regions can amplify shallow soil warming, and could increase the potential for increased seasonal thaw depth and increase soil carbon cycling rates and lead to increased carbon dioxide loss and further permafrost thaw.</abstract>
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%0 Journal Article %T Shallow soils are warmer under trees and tall shrubs across Arctic and Boreal ecosystems %A Kropp, Heather %A Loranty, M. M. %A Natali, Susan M. %A Kholodov, Alexander %A Rocha, A. V. %A Myers‐Smith, Isla H. %A Abbot, Benjamin W. %A Abermann, Jakob %A Blanc‐Betes, E. %A Blok, Daan %A Blume‐Werry, Gesche %A Boike, Julia %A Breen, A. L. %A Cahoon, Sean M. P. %A Christiansen, Casper T. %A Douglas, Thomas A. %A Epstein, Howard E. %A Frost, G. V. %A Goeckede, Mathias %A Høye, Toke T. %A Mamet, Steven D. %A O’Donnell, J. A. %A Olefeldt, David %A Phoenix, Gareth K. %A Salmon, V. G. %A Sannel, A. Britta K. %A Smith, Sharon L. %A Sonnentag, Oliver %A Vaughn, Lydia Smith %A Williams, Mathew %A Elberling, Bo %A Gough, Laura %A Hjort, Jan %A Lafleur, Peter M. %A Euskirchen, Eugénie %A Heijmans, M. M. P. D. %A Humphreys, Elyn %A Iwata, Hiroyasu %A Jones, Benjamin M. %A Jorgenson, M. Torre %A Grünberg, Inge %A Kim, Yongwon %A Laundre, James A. %A Mauritz, Marguerite %A Michelsen, Anders %A Schaepman‐Strub, Gabriela %A Tape, Ken D. %A Ueyama, Masahito %A Lee, Bang-Yong %A Langley, Kirsty %A Lund, Magnus %J Environmental Research Letters, Volume 16, Issue 1 %D 2020 %V 16 %N 1 %I IOP Publishing %F Kropp-2020-Shallow %X Abstract Soils are warming as air temperatures rise across the Arctic and Boreal region concurrent with the expansion of tall-statured shrubs and trees in the tundra. Changes in vegetation structure and function are expected to alter soil thermal regimes, thereby modifying climate feedbacks related to permafrost thaw and carbon cycling. However, current understanding of vegetation impacts on soil temperature is limited to local or regional scales and lacks the generality necessary to predict soil warming and permafrost stability on a pan-Arctic scale. Here we synthesize shallow soil and air temperature observations with broad spatial and temporal coverage collected across 106 sites representing nine different vegetation types in the permafrost region. We showed ecosystems with tall-statured shrubs and trees (\textgreater40 cm) have warmer shallow soils than those with short-statured tundra vegetation when normalized to a constant air temperature. In tree and tall shrub vegetation types, cooler temperatures in the warm season do not lead to cooler mean annual soil temperature indicating that ground thermal regimes in the cold-season rather than the warm-season are most critical for predicting soil warming in ecosystems underlain by permafrost. Our results suggest that the expansion of tall shrubs and trees into tundra regions can amplify shallow soil warming, and could increase the potential for increased seasonal thaw depth and increase soil carbon cycling rates and lead to increased carbon dioxide loss and further permafrost thaw. %R 10.1088/1748-9326/abc994 %U https://gwf-uwaterloo.github.io/gwf-publications/G20-7001 %U https://doi.org/10.1088/1748-9326/abc994 %P 015001
Markdown (Informal)
[Shallow soils are warmer under trees and tall shrubs across Arctic and Boreal ecosystems](https://gwf-uwaterloo.github.io/gwf-publications/G20-7001) (Kropp et al., GWF 2020)
- Shallow soils are warmer under trees and tall shrubs across Arctic and Boreal ecosystems (Kropp et al., GWF 2020)
ACL
- Heather Kropp, M. M. Loranty, Susan M. Natali, Alexander Kholodov, A. V. Rocha, Isla H. Myers‐Smith, Benjamin W Abbot, Jakob Abermann, E. Blanc‐Betes, Daan Blok, Gesche Blume‐Werry, Julia Boike, A. L. Breen, Sean M. P. Cahoon, Casper T. Christiansen, Thomas A. Douglas, Howard E. Epstein, G. V. Frost, Mathias Goeckede, et al.. 2020. Shallow soils are warmer under trees and tall shrubs across Arctic and Boreal ecosystems. Environmental Research Letters, Volume 16, Issue 1, 16(1):015001.