A race for space? How Sphagnum fuscum stabilizes vegetation composition during long-term climate manipulations
Strong climate warming is predicted at higher latitudes this century, with potentially major consequences for productivity and carbon sequestration. Although northern peatlands contain one‐third of the world's soil organic carbon, little is known about the long‐term responses to experimental cl...
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Wiley
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| Online Access: | https://eprints.whiterose.ac.uk/152462/ https://eprints.whiterose.ac.uk/152462/8/PEER_stage2_10.1111_j.1365-2486.2010.02377.x.pdf |
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ftleedsuniv:oai:eprints.whiterose.ac.uk:152462 2023-05-15T15:14:21+02:00 A race for space? How Sphagnum fuscum stabilizes vegetation composition during long-term climate manipulations Keuper, F. Dorrepaal, E. Van Bodegom, P.M. Aerts, R. Van Logtestijn, R.S.P. Callaghan, T.V. Cornelissen, J.H.C. 2011-06 text https://eprints.whiterose.ac.uk/152462/ https://eprints.whiterose.ac.uk/152462/8/PEER_stage2_10.1111_j.1365-2486.2010.02377.x.pdf en eng Wiley https://eprints.whiterose.ac.uk/152462/8/PEER_stage2_10.1111_j.1365-2486.2010.02377.x.pdf Keuper, F., Dorrepaal, E., Van Bodegom, P.M. et al. (4 more authors) (2011) A race for space? How Sphagnum fuscum stabilizes vegetation composition during long-term climate manipulations. Global Change Biology, 17 (6). pp. 2162-2171. ISSN 1354-1013 Article PeerReviewed 2011 ftleedsuniv 2023-01-30T22:23:34Z Strong climate warming is predicted at higher latitudes this century, with potentially major consequences for productivity and carbon sequestration. Although northern peatlands contain one‐third of the world's soil organic carbon, little is known about the long‐term responses to experimental climate change of vascular plant communities in these Sphagnum‐dominated ecosystems. We aimed to see how long‐term experimental climate manipulations, relevant to different predicted future climate scenarios, affect total vascular plant abundance and species composition when the community is dominated by mosses. During 8 years, we investigated how the vascular plant community of a Sphagnum fuscum‐dominated subarctic peat bog responded to six experimental climate regimes, including factorial combinations of summer as well as spring warming and a thicker snow cover. Vascular plant species composition in our peat bog was more stable than is typically observed in (sub)arctic experiments: neither changes in total vascular plant abundance, nor in individual species abundances, Shannon's diversity or evenness were found in response to the climate manipulations. For three key species (Empetrum hermaphroditum, Betula nana and S. fuscum) we also measured whether the treatments had a sustained effect on plant length growth responses and how these responses interacted. Contrasting with the stability at the community level, both key shrubs and the peatmoss showed sustained positive growth responses at the plant level to the climate treatments. However, a higher percentage of moss‐encroached E. hermaphroditum shoots and a lack of change in B. nana net shrub height indicated encroachment by S. fuscum, resulting in long‐term stability of the vascular community composition: in a warmer world, vascular species of subarctic peat bogs appear to just keep pace with growing Sphagnum in their race for space. Our findings contribute to general ecological theory by demonstrating that community resistance to environmental changes does not necessarily ... Article in Journal/Newspaper Arctic Betula nana Climate change Subarctic White Rose Research Online (Universities of Leeds, Sheffield & York) Arctic |
| institution |
Open Polar |
| collection |
White Rose Research Online (Universities of Leeds, Sheffield & York) |
| op_collection_id |
ftleedsuniv |
| language |
English |
| description |
Strong climate warming is predicted at higher latitudes this century, with potentially major consequences for productivity and carbon sequestration. Although northern peatlands contain one‐third of the world's soil organic carbon, little is known about the long‐term responses to experimental climate change of vascular plant communities in these Sphagnum‐dominated ecosystems. We aimed to see how long‐term experimental climate manipulations, relevant to different predicted future climate scenarios, affect total vascular plant abundance and species composition when the community is dominated by mosses. During 8 years, we investigated how the vascular plant community of a Sphagnum fuscum‐dominated subarctic peat bog responded to six experimental climate regimes, including factorial combinations of summer as well as spring warming and a thicker snow cover. Vascular plant species composition in our peat bog was more stable than is typically observed in (sub)arctic experiments: neither changes in total vascular plant abundance, nor in individual species abundances, Shannon's diversity or evenness were found in response to the climate manipulations. For three key species (Empetrum hermaphroditum, Betula nana and S. fuscum) we also measured whether the treatments had a sustained effect on plant length growth responses and how these responses interacted. Contrasting with the stability at the community level, both key shrubs and the peatmoss showed sustained positive growth responses at the plant level to the climate treatments. However, a higher percentage of moss‐encroached E. hermaphroditum shoots and a lack of change in B. nana net shrub height indicated encroachment by S. fuscum, resulting in long‐term stability of the vascular community composition: in a warmer world, vascular species of subarctic peat bogs appear to just keep pace with growing Sphagnum in their race for space. Our findings contribute to general ecological theory by demonstrating that community resistance to environmental changes does not necessarily ... |
| format |
Article in Journal/Newspaper |
| author |
Keuper, F. Dorrepaal, E. Van Bodegom, P.M. Aerts, R. Van Logtestijn, R.S.P. Callaghan, T.V. Cornelissen, J.H.C. |
| spellingShingle |
Keuper, F. Dorrepaal, E. Van Bodegom, P.M. Aerts, R. Van Logtestijn, R.S.P. Callaghan, T.V. Cornelissen, J.H.C. A race for space? How Sphagnum fuscum stabilizes vegetation composition during long-term climate manipulations |
| author_facet |
Keuper, F. Dorrepaal, E. Van Bodegom, P.M. Aerts, R. Van Logtestijn, R.S.P. Callaghan, T.V. Cornelissen, J.H.C. |
| author_sort |
Keuper, F. |
| title |
A race for space? How Sphagnum fuscum stabilizes vegetation composition during long-term climate manipulations |
| title_short |
A race for space? How Sphagnum fuscum stabilizes vegetation composition during long-term climate manipulations |
| title_full |
A race for space? How Sphagnum fuscum stabilizes vegetation composition during long-term climate manipulations |
| title_fullStr |
A race for space? How Sphagnum fuscum stabilizes vegetation composition during long-term climate manipulations |
| title_full_unstemmed |
A race for space? How Sphagnum fuscum stabilizes vegetation composition during long-term climate manipulations |
| title_sort |
race for space? how sphagnum fuscum stabilizes vegetation composition during long-term climate manipulations |
| publisher |
Wiley |
| publishDate |
2011 |
| url |
https://eprints.whiterose.ac.uk/152462/ https://eprints.whiterose.ac.uk/152462/8/PEER_stage2_10.1111_j.1365-2486.2010.02377.x.pdf |
| geographic |
Arctic |
| geographic_facet |
Arctic |
| genre |
Arctic Betula nana Climate change Subarctic |
| genre_facet |
Arctic Betula nana Climate change Subarctic |
| op_relation |
https://eprints.whiterose.ac.uk/152462/8/PEER_stage2_10.1111_j.1365-2486.2010.02377.x.pdf Keuper, F., Dorrepaal, E., Van Bodegom, P.M. et al. (4 more authors) (2011) A race for space? How Sphagnum fuscum stabilizes vegetation composition during long-term climate manipulations. Global Change Biology, 17 (6). pp. 2162-2171. ISSN 1354-1013 |
| _version_ |
1766344807380156416 |