Evaluating the use of testate amoebae for palaeohydrological reconstruction in permafrost peatlands

The melting of high-latitude permafrost peatlands is a major concern due to a potential positive feedback on global climate change. We examine the ecology of testate amoebae in permafrost peatlands, based on sites in Sweden (~200km north of the Arctic Circle). Multivariate statistical analysis confi...

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Veröffentlicht in:	Palaeogeography, palaeoclimatology, palaeoecology palaeoclimatology, palaeoecology, 2015-04, Vol.424, p.111-122
Hauptverfasser:	Swindles, Graeme T., Amesbury, Matthew J., Turner, T. Edward, Carrivick, Jonathan L., Woulds, Clare, Raby, Cassandra, Mullan, Donal, Roland, Thomas P., Galloway, Jennifer M., Parry, Lauren, Kokfelt, Ulla, Garneau, Michelle, Charman, Dan J., Holden, Joseph
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Schlagworte:	Arctic Palaeohydrology Peatlands Permafrost Testate amoebae Transfer function
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container_title	Palaeogeography, palaeoclimatology, palaeoecology
container_volume	424
creator	Swindles, Graeme T. Amesbury, Matthew J. Turner, T. Edward Carrivick, Jonathan L. Woulds, Clare Raby, Cassandra Mullan, Donal Roland, Thomas P. Galloway, Jennifer M. Parry, Lauren Kokfelt, Ulla Garneau, Michelle Charman, Dan J. Holden, Joseph
description	The melting of high-latitude permafrost peatlands is a major concern due to a potential positive feedback on global climate change. We examine the ecology of testate amoebae in permafrost peatlands, based on sites in Sweden (~200km north of the Arctic Circle). Multivariate statistical analysis confirms that water-table depth and moisture content are the dominant controls on the distribution of testate amoebae, corroborating the results from studies in mid-latitude peatlands. We present a new testate amoeba-based water table transfer function and thoroughly test it for the effects of spatial autocorrelation, clustered sampling design and uneven sampling gradients. We find that the transfer function has good predictive power; the best-performing model is based on tolerance-downweighted weighted averaging with inverse deshrinking (performance statistics with leave-one-out cross validation: R2=0.87, RMSEP=5.25cm). The new transfer function was applied to a short core from Stordalen mire, and reveals a major shift in peatland ecohydrology coincident with the onset of the Little Ice Age (c. AD 1400). We also applied the model to an independent contemporary dataset from Stordalen and find that it outperforms predictions based on other published transfer functions. The new transfer function will enable palaeohydrological reconstruction from permafrost peatlands in Northern Europe, thereby permitting greatly improved understanding of the long-term ecohydrological dynamics of these important carbon stores as well as their responses to recent climate change. •We examine the ecology of testate amoebae in permafrost peatlands.•The first testate amoebae transfer function from Abisko, Sweden is presented.•The transfer function is applied to a short core from the Stordalen mire.•A shift in water-table depth occurred at the onset of the Little Ice Age.•Testate amoebae have great potential for tracing changes in permafrost peatlands.
doi_str_mv	10.1016/j.palaeo.2015.02.004
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Edward ; Carrivick, Jonathan L. ; Woulds, Clare ; Raby, Cassandra ; Mullan, Donal ; Roland, Thomas P. ; Galloway, Jennifer M. ; Parry, Lauren ; Kokfelt, Ulla ; Garneau, Michelle ; Charman, Dan J. ; Holden, Joseph</creator><creatorcontrib>Swindles, Graeme T. ; Amesbury, Matthew J. ; Turner, T. Edward ; Carrivick, Jonathan L. ; Woulds, Clare ; Raby, Cassandra ; Mullan, Donal ; Roland, Thomas P. ; Galloway, Jennifer M. ; Parry, Lauren ; Kokfelt, Ulla ; Garneau, Michelle ; Charman, Dan J. ; Holden, Joseph</creatorcontrib><description>The melting of high-latitude permafrost peatlands is a major concern due to a potential positive feedback on global climate change. We examine the ecology of testate amoebae in permafrost peatlands, based on sites in Sweden (~200km north of the Arctic Circle). Multivariate statistical analysis confirms that water-table depth and moisture content are the dominant controls on the distribution of testate amoebae, corroborating the results from studies in mid-latitude peatlands. We present a new testate amoeba-based water table transfer function and thoroughly test it for the effects of spatial autocorrelation, clustered sampling design and uneven sampling gradients. We find that the transfer function has good predictive power; the best-performing model is based on tolerance-downweighted weighted averaging with inverse deshrinking (performance statistics with leave-one-out cross validation: R2=0.87, RMSEP=5.25cm). The new transfer function was applied to a short core from Stordalen mire, and reveals a major shift in peatland ecohydrology coincident with the onset of the Little Ice Age (c. AD 1400). 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We examine the ecology of testate amoebae in permafrost peatlands, based on sites in Sweden (~200km north of the Arctic Circle). Multivariate statistical analysis confirms that water-table depth and moisture content are the dominant controls on the distribution of testate amoebae, corroborating the results from studies in mid-latitude peatlands. We present a new testate amoeba-based water table transfer function and thoroughly test it for the effects of spatial autocorrelation, clustered sampling design and uneven sampling gradients. We find that the transfer function has good predictive power; the best-performing model is based on tolerance-downweighted weighted averaging with inverse deshrinking (performance statistics with leave-one-out cross validation: R2=0.87, RMSEP=5.25cm). The new transfer function was applied to a short core from Stordalen mire, and reveals a major shift in peatland ecohydrology coincident with the onset of the Little Ice Age (c. AD 1400). 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The new transfer function will enable palaeohydrological reconstruction from permafrost peatlands in Northern Europe, thereby permitting greatly improved understanding of the long-term ecohydrological dynamics of these important carbon stores as well as their responses to recent climate change. •We examine the ecology of testate amoebae in permafrost peatlands.•The first testate amoebae transfer function from Abisko, Sweden is presented.•The transfer function is applied to a short core from the Stordalen mire.•A shift in water-table depth occurred at the onset of the Little Ice Age.•Testate amoebae have great potential for tracing changes in permafrost peatlands.</description><subject>Arctic</subject><subject>Palaeohydrology</subject><subject>Peatlands</subject><subject>Permafrost</subject><subject>Testate amoebae</subject><subject>Transfer function</subject><issn>0031-0182</issn><issn>1872-616X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><recordid>eNp9kD9PwzAQxS0EEqXwDRg8siTYTuw4CxKqyh8JiQUkNuvqXMBVGhfbqdRvj1GYme6G997d-xFyzVnJGVe323IPA6AvBeOyZKJkrD4hC64bUSiuPk7JgrGKF4xrcU4uYtwyxoSqxILY9QGGCZIbP2n6QjpFpL6nCWOChBR2HjeAtPeBzje-jl3wg_90FgYa0PoxpjDZ5PxI3Uj3GHbQBx9TXiENMHbxkpz1MES8-ptL8v6wfls9FS-vj8-r-5cCaqZTAY1UtmmaWrabWreCg-y0VVIq6GzXS1VJLtp2I8DaupGNFVxx0JrXzCqLfbUkN3PuPvjvKTcwOxctDvkJ9FM0vKmE5q1uqyytZ6nNr8aAvdkHt4NwNJyZX6Zma-a-5pepYcJkptl2N9sw1zg4DCZah6PFzmUUyXTe_R_wA5Cgg1M</recordid><startdate>20150415</startdate><enddate>20150415</enddate><creator>Swindles, Graeme T.</creator><creator>Amesbury, Matthew J.</creator><creator>Turner, T. 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subjects	Arctic Palaeohydrology Peatlands Permafrost Testate amoebae Transfer function
title	Evaluating the use of testate amoebae for palaeohydrological reconstruction in permafrost peatlands
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