Intraspecific trait variability is a key feature underlying high Arctic plant community resistance to climate warming

In the high Arctic, plant community species composition generally responds slowly to climate warming, whereas less is known about the community functional trait responses and consequences for ecosystem functioning. Slow species turnover and large distribution ranges of many Arctic plant species sugg...

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Published in:	Ecological Monographs
Main Authors:	Jónsdóttir, Ingibjörg S., Halbritter, Aud H., Christiansen, Casper T., Althuizen, Inge H.J., Haugum, Siri V., Henn, Jonathan J., Björnsdóttir, Katrín, Maitner, Brian Salvin, Malhi, Yadvinder, Michaletz, Sean T., Roos, Ruben E., Klanderud, Kari, Lee, Hanna, Enquist, Brian J., Vandvik, Vigdis
Format:	Article in Journal/Newspaper
Language:	English
Published:	2023
Subjects:	climate change CO fluxes community resilience community resistance experimental warming intraspecific trait variation plant community change plant functional traits Svalbard Arctic Climate change
Online Access:	https://curis.ku.dk/portal/da/publications/intraspecific-trait-variability-is-a-key-feature-underlying-high-arctic-plant-community-resistance-to-climate-warming(55cc9dd1-b9d2-4d0d-9460-ab847d216309).html https://doi.org/10.1002/ecm.1555 https://curis.ku.dk/ws/files/335751379/Ecological_Monographs_2022_J_nsd_ttir_Intraspecific_trait_variability_is_a_key_feature_underlying_high_Arctic_plant.pdf

id	ftcopenhagenunip:oai:pure.atira.dk:publications/55cc9dd1-b9d2-4d0d-9460-ab847d216309
record_format	openpolar
spelling	ftcopenhagenunip:oai:pure.atira.dk:publications/55cc9dd1-b9d2-4d0d-9460-ab847d216309 2024-06-09T07:42:33+00:00 Intraspecific trait variability is a key feature underlying high Arctic plant community resistance to climate warming Jónsdóttir, Ingibjörg S. Halbritter, Aud H. Christiansen, Casper T. Althuizen, Inge H.J. Haugum, Siri V. Henn, Jonathan J. Björnsdóttir, Katrín Maitner, Brian Salvin Malhi, Yadvinder Michaletz, Sean T. Roos, Ruben E. Klanderud, Kari Lee, Hanna Enquist, Brian J. Vandvik, Vigdis 2023 application/pdf https://curis.ku.dk/portal/da/publications/intraspecific-trait-variability-is-a-key-feature-underlying-high-arctic-plant-community-resistance-to-climate-warming(55cc9dd1-b9d2-4d0d-9460-ab847d216309).html https://doi.org/10.1002/ecm.1555 https://curis.ku.dk/ws/files/335751379/Ecological_Monographs_2022_J_nsd_ttir_Intraspecific_trait_variability_is_a_key_feature_underlying_high_Arctic_plant.pdf eng eng info:eu-repo/semantics/openAccess Jónsdóttir , I S , Halbritter , A H , Christiansen , C T , Althuizen , I H J , Haugum , S V , Henn , J J , Björnsdóttir , K , Maitner , B S , Malhi , Y , Michaletz , S T , Roos , R E , Klanderud , K , Lee , H , Enquist , B J & Vandvik , V 2023 , ' Intraspecific trait variability is a key feature underlying high Arctic plant community resistance to climate warming ' , Ecological Monographs , vol. 93 , no. 1 , e1555 . https://doi.org/10.1002/ecm.1555 climate change CO fluxes community resilience community resistance experimental warming intraspecific trait variation plant community change plant functional traits Svalbard article 2023 ftcopenhagenunip https://doi.org/10.1002/ecm.1555 2024-05-16T11:29:27Z In the high Arctic, plant community species composition generally responds slowly to climate warming, whereas less is known about the community functional trait responses and consequences for ecosystem functioning. Slow species turnover and large distribution ranges of many Arctic plant species suggest a significant role of intraspecific trait variability in functional responses to climate change. Here, we compare taxonomic and functional community compositional responses to a long-term (17 years) warming experiment in Svalbard, replicated across three major high Arctic habitats shaped by topography and contrasting snow regimes. We observed taxonomic compositional changes in all plant communities over time. Still, responses to experimental warming were minor and most pronounced in the drier habitats with relatively early snowmelt timing and long growing seasons (Cassiope and Dryas heaths). The habitats were clearly separated in functional trait space, defined by twelve size- and leaf economics-related traits, primarily due to interspecific trait variation. Functional traits also responded to experimental warming, most prominently in the Dryas heath and mostly due to intraspecific trait variation. Leaf area and leaf mass increased, and leaf δ 15 N decreased in response to the warming treatment. Intraspecific trait variability ranged between 30% and 71% of the total trait variation, reflecting functional resilience of those communities, dominated by long-lived plants, due to either phenotypic plasticity or genotypic variation that most likely underlies the observed resistance of high Arctic vegetation to climate warming. We further explored the consequences of trait variability for ecosystem functioning by measuring peak season CO 2 fluxes. Together, environmental, taxonomic, and functional trait variables explained a large proportion of the variation in net ecosystem exchange (NEE), which increased when intraspecific trait variation was accounted for. In contrast, even though ecosystem respiration and gross ... Article in Journal/Newspaper Arctic Arctic Climate change Svalbard University of Copenhagen: Research Arctic Svalbard Ecological Monographs 93 1
institution	Open Polar
collection	University of Copenhagen: Research
op_collection_id	ftcopenhagenunip
language	English
topic	climate change CO fluxes community resilience community resistance experimental warming intraspecific trait variation plant community change plant functional traits Svalbard
spellingShingle	climate change CO fluxes community resilience community resistance experimental warming intraspecific trait variation plant community change plant functional traits Svalbard Jónsdóttir, Ingibjörg S. Halbritter, Aud H. Christiansen, Casper T. Althuizen, Inge H.J. Haugum, Siri V. Henn, Jonathan J. Björnsdóttir, Katrín Maitner, Brian Salvin Malhi, Yadvinder Michaletz, Sean T. Roos, Ruben E. Klanderud, Kari Lee, Hanna Enquist, Brian J. Vandvik, Vigdis Intraspecific trait variability is a key feature underlying high Arctic plant community resistance to climate warming
topic_facet	climate change CO fluxes community resilience community resistance experimental warming intraspecific trait variation plant community change plant functional traits Svalbard
description	In the high Arctic, plant community species composition generally responds slowly to climate warming, whereas less is known about the community functional trait responses and consequences for ecosystem functioning. Slow species turnover and large distribution ranges of many Arctic plant species suggest a significant role of intraspecific trait variability in functional responses to climate change. Here, we compare taxonomic and functional community compositional responses to a long-term (17 years) warming experiment in Svalbard, replicated across three major high Arctic habitats shaped by topography and contrasting snow regimes. We observed taxonomic compositional changes in all plant communities over time. Still, responses to experimental warming were minor and most pronounced in the drier habitats with relatively early snowmelt timing and long growing seasons (Cassiope and Dryas heaths). The habitats were clearly separated in functional trait space, defined by twelve size- and leaf economics-related traits, primarily due to interspecific trait variation. Functional traits also responded to experimental warming, most prominently in the Dryas heath and mostly due to intraspecific trait variation. Leaf area and leaf mass increased, and leaf δ 15 N decreased in response to the warming treatment. Intraspecific trait variability ranged between 30% and 71% of the total trait variation, reflecting functional resilience of those communities, dominated by long-lived plants, due to either phenotypic plasticity or genotypic variation that most likely underlies the observed resistance of high Arctic vegetation to climate warming. We further explored the consequences of trait variability for ecosystem functioning by measuring peak season CO 2 fluxes. Together, environmental, taxonomic, and functional trait variables explained a large proportion of the variation in net ecosystem exchange (NEE), which increased when intraspecific trait variation was accounted for. In contrast, even though ecosystem respiration and gross ...
format	Article in Journal/Newspaper
author	Jónsdóttir, Ingibjörg S. Halbritter, Aud H. Christiansen, Casper T. Althuizen, Inge H.J. Haugum, Siri V. Henn, Jonathan J. Björnsdóttir, Katrín Maitner, Brian Salvin Malhi, Yadvinder Michaletz, Sean T. Roos, Ruben E. Klanderud, Kari Lee, Hanna Enquist, Brian J. Vandvik, Vigdis
author_facet	Jónsdóttir, Ingibjörg S. Halbritter, Aud H. Christiansen, Casper T. Althuizen, Inge H.J. Haugum, Siri V. Henn, Jonathan J. Björnsdóttir, Katrín Maitner, Brian Salvin Malhi, Yadvinder Michaletz, Sean T. Roos, Ruben E. Klanderud, Kari Lee, Hanna Enquist, Brian J. Vandvik, Vigdis
author_sort	Jónsdóttir, Ingibjörg S.
title	Intraspecific trait variability is a key feature underlying high Arctic plant community resistance to climate warming
title_short	Intraspecific trait variability is a key feature underlying high Arctic plant community resistance to climate warming
title_full	Intraspecific trait variability is a key feature underlying high Arctic plant community resistance to climate warming
title_fullStr	Intraspecific trait variability is a key feature underlying high Arctic plant community resistance to climate warming
title_full_unstemmed	Intraspecific trait variability is a key feature underlying high Arctic plant community resistance to climate warming
title_sort	intraspecific trait variability is a key feature underlying high arctic plant community resistance to climate warming
publishDate	2023
url	https://curis.ku.dk/portal/da/publications/intraspecific-trait-variability-is-a-key-feature-underlying-high-arctic-plant-community-resistance-to-climate-warming(55cc9dd1-b9d2-4d0d-9460-ab847d216309).html https://doi.org/10.1002/ecm.1555 https://curis.ku.dk/ws/files/335751379/Ecological_Monographs_2022_J_nsd_ttir_Intraspecific_trait_variability_is_a_key_feature_underlying_high_Arctic_plant.pdf
geographic	Arctic Svalbard
geographic_facet	Arctic Svalbard
genre	Arctic Arctic Climate change Svalbard
genre_facet	Arctic Arctic Climate change Svalbard
op_source	Jónsdóttir , I S , Halbritter , A H , Christiansen , C T , Althuizen , I H J , Haugum , S V , Henn , J J , Björnsdóttir , K , Maitner , B S , Malhi , Y , Michaletz , S T , Roos , R E , Klanderud , K , Lee , H , Enquist , B J & Vandvik , V 2023 , ' Intraspecific trait variability is a key feature underlying high Arctic plant community resistance to climate warming ' , Ecological Monographs , vol. 93 , no. 1 , e1555 . https://doi.org/10.1002/ecm.1555
op_rights	info:eu-repo/semantics/openAccess
op_doi	https://doi.org/10.1002/ecm.1555
container_title	Ecological Monographs
container_volume	93
container_issue	1
_version_	1801371351813980160

Intraspecific trait variability is a key feature underlying high Arctic plant community resistance to climate warming

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