Hydrological regime and plant functional traits jointly mediate the influence of Salix spp. on soil organic carbon stocks in a High Arctic tundra

Evidence points out that increasing plant productivity associated with greater erect shrub abundance alters soil organic carbon (SOC) stocks in the Arctic. However, the underlying plant economic traits remain poorly examined, which limits our understanding of plant–environment interactions driving t...

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Published in:Ecosystems
Main Authors: Lamarque, L. J., Félix-Faure, J., Deschamps, L., Lévesque, E., Cusson, P.-O., Fortier, D., Giacomazzo, M., Guillemette, F., Paillassa, J., Tremblay, M., Maire, V.
Format: Article in Journal/Newspaper
Language:English
Published: 2023
Subjects:
Arctic
Bylot Island
Nunavut
Tundra
Online Access:https://depot-e.uqtr.ca/id/eprint/11258/
https://depot-e.uqtr.ca/id/eprint/11258/1/MAIRE_V_146_POST.pdf
https://doi.org/10.1007/s10021-023-00829-1
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spelling ftunivquebectr:oai:depot-e.uqtr.ca:11258 2024-04-28T08:04:45+00:00 Hydrological regime and plant functional traits jointly mediate the influence of Salix spp. on soil organic carbon stocks in a High Arctic tundra Lamarque, L. J. Félix-Faure, J. Deschamps, L. Lévesque, E. Cusson, P.-O. Fortier, D. Giacomazzo, M. Guillemette, F. Paillassa, J. Tremblay, M. Maire, V. 2023 application/pdf https://depot-e.uqtr.ca/id/eprint/11258/ https://depot-e.uqtr.ca/id/eprint/11258/1/MAIRE_V_146_POST.pdf https://doi.org/10.1007/s10021-023-00829-1 en eng https://depot-e.uqtr.ca/id/eprint/11258/1/MAIRE_V_146_POST.pdf Lamarque, L. J., Félix-Faure, J., Deschamps, L., Lévesque, E., Cusson, P.-O., Fortier, D., Giacomazzo, M., Guillemette, F., Paillassa, J., Tremblay, M. et Maire, V. (2023). Hydrological regime and plant functional traits jointly mediate the influence of Salix spp. on soil organic carbon stocks in a High Arctic tundra. Ecosystems . ISSN 1435-0629 1432-9840 DOI 10.1007/s10021-023-00829-1 <https://doi.org/10.1007/s10021-023-00829-1> doi:10.1007/s10021-023-00829-1 Article 2023 ftunivquebectr https://doi.org/10.1007/s10021-023-00829-1 2024-04-10T00:18:24Z Evidence points out that increasing plant productivity associated with greater erect shrub abundance alters soil organic carbon (SOC) stocks in the Arctic. However, the underlying plant economic traits remain poorly examined, which limits our understanding of plant–environment interactions driving tundra carbon cycling. We explored how erect shrub abundance leads to SOC variation in a High Arctic tundra (Bylot Island, Nunavut, Canada), where the only erect shrub, Salix richardsonii, has settled along currently active and abandoned channel zones of alluvial fans. The effects of vegetation and local environmental changes on SOC were evaluated through a paired sampling of soil materials and plant aboveground functional traits associated with plant carbon supply and nutrient demand processes. The occurrence of S. richardsonii, characterized by a tenfold increase in aboveground biomass, induced a 28% increase in SOC compared to adjacent plots dominated by prostrate shrubs and graminoids. Yet, this vegetation effect was solely observed along active channels, where higher SOC was associated with greater leaf and stem biomass. A path analysis showed that shrub leaf area index and total leaf nutrient content best represented plant carbon supply and nutrient demand dynamics, respectively, and jointly regulated SOC variation. This study underscores that vegetation structural changes associated with increasing erect shrub abundance in the Arctic can promote soil organic carbon storage, but that this pattern may be mediated by strong plant–environment interactions. Accounting for changes in functional traits driving plant carbon supply and nitrogen demand proves important for a better mechanistic understanding of how shrubification impacts tundra carbon cycling. Article in Journal/Newspaper Arctic Arctic Bylot Island Nunavut Tundra Université du Québec à Trois-Rivières: Dépôt numérique de UQTR Ecosystems 26 6 1238 1259
institution Open Polar
collection Université du Québec à Trois-Rivières: Dépôt numérique de UQTR
op_collection_id ftunivquebectr
language English
description Evidence points out that increasing plant productivity associated with greater erect shrub abundance alters soil organic carbon (SOC) stocks in the Arctic. However, the underlying plant economic traits remain poorly examined, which limits our understanding of plant–environment interactions driving tundra carbon cycling. We explored how erect shrub abundance leads to SOC variation in a High Arctic tundra (Bylot Island, Nunavut, Canada), where the only erect shrub, Salix richardsonii, has settled along currently active and abandoned channel zones of alluvial fans. The effects of vegetation and local environmental changes on SOC were evaluated through a paired sampling of soil materials and plant aboveground functional traits associated with plant carbon supply and nutrient demand processes. The occurrence of S. richardsonii, characterized by a tenfold increase in aboveground biomass, induced a 28% increase in SOC compared to adjacent plots dominated by prostrate shrubs and graminoids. Yet, this vegetation effect was solely observed along active channels, where higher SOC was associated with greater leaf and stem biomass. A path analysis showed that shrub leaf area index and total leaf nutrient content best represented plant carbon supply and nutrient demand dynamics, respectively, and jointly regulated SOC variation. This study underscores that vegetation structural changes associated with increasing erect shrub abundance in the Arctic can promote soil organic carbon storage, but that this pattern may be mediated by strong plant–environment interactions. Accounting for changes in functional traits driving plant carbon supply and nitrogen demand proves important for a better mechanistic understanding of how shrubification impacts tundra carbon cycling.
format Article in Journal/Newspaper
author Lamarque, L. J.
Félix-Faure, J.
Deschamps, L.
Lévesque, E.
Cusson, P.-O.
Fortier, D.
Giacomazzo, M.
Guillemette, F.
Paillassa, J.
Tremblay, M.
Maire, V.
spellingShingle Lamarque, L. J.
Félix-Faure, J.
Deschamps, L.
Lévesque, E.
Cusson, P.-O.
Fortier, D.
Giacomazzo, M.
Guillemette, F.
Paillassa, J.
Tremblay, M.
Maire, V.
Hydrological regime and plant functional traits jointly mediate the influence of Salix spp. on soil organic carbon stocks in a High Arctic tundra
author_facet Lamarque, L. J.
Félix-Faure, J.
Deschamps, L.
Lévesque, E.
Cusson, P.-O.
Fortier, D.
Giacomazzo, M.
Guillemette, F.
Paillassa, J.
Tremblay, M.
Maire, V.
author_sort Lamarque, L. J.
title Hydrological regime and plant functional traits jointly mediate the influence of Salix spp. on soil organic carbon stocks in a High Arctic tundra
title_short Hydrological regime and plant functional traits jointly mediate the influence of Salix spp. on soil organic carbon stocks in a High Arctic tundra
title_full Hydrological regime and plant functional traits jointly mediate the influence of Salix spp. on soil organic carbon stocks in a High Arctic tundra
title_fullStr Hydrological regime and plant functional traits jointly mediate the influence of Salix spp. on soil organic carbon stocks in a High Arctic tundra
title_full_unstemmed Hydrological regime and plant functional traits jointly mediate the influence of Salix spp. on soil organic carbon stocks in a High Arctic tundra
title_sort hydrological regime and plant functional traits jointly mediate the influence of salix spp. on soil organic carbon stocks in a high arctic tundra
publishDate 2023
url https://depot-e.uqtr.ca/id/eprint/11258/
https://depot-e.uqtr.ca/id/eprint/11258/1/MAIRE_V_146_POST.pdf
https://doi.org/10.1007/s10021-023-00829-1
genre Arctic
Arctic
Bylot Island
Nunavut
Tundra
genre_facet Arctic
Arctic
Bylot Island
Nunavut
Tundra
op_relation https://depot-e.uqtr.ca/id/eprint/11258/1/MAIRE_V_146_POST.pdf
Lamarque, L. J., Félix-Faure, J., Deschamps, L., Lévesque, E., Cusson, P.-O., Fortier, D., Giacomazzo, M., Guillemette, F., Paillassa, J., Tremblay, M. et Maire, V. (2023). Hydrological regime and plant functional traits jointly mediate the influence of Salix spp. on soil organic carbon stocks in a High Arctic tundra. Ecosystems . ISSN 1435-0629 1432-9840 DOI 10.1007/s10021-023-00829-1 <https://doi.org/10.1007/s10021-023-00829-1>
doi:10.1007/s10021-023-00829-1
op_doi https://doi.org/10.1007/s10021-023-00829-1
container_title Ecosystems
container_volume 26
container_issue 6
container_start_page 1238
op_container_end_page 1259
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