A new European testate amoebae transfer function for palaeohydrological reconstruction on ombrotrophic peatlands |
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Authors: | Dan J. Charman Antony Blundell ACCROTELM Members |
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Affiliation: | 1. School of Geography, University of Plymouth, Plymouth, UK;2. ACCROTELM (Abrupt Climate Change Over the European Land Mass, www.glos.ac.uk/accrotelm, European Union Framework V contract number EVK2‐CT‐2002‐00166). Project members: Jukka Alm, Sue Bartlett, Carole Begeot, Maarten Blaauw, Antony Blundell, Frank Chambers, Dan Charman, John Daniell, Richard Evershed, John Hunt, Edgar Karofeld, Atte Korhola, Hansj?rg Kuester, Jukka Laine, Michel Magny, Dmitri Mauquoy, Erin McClymont, Fraser Mitchell, Pirita Oksanen, Richard Pancost, Kaarina Sarmaja‐Korjonen, Heiki Sepp?, ülle Sillasoo, Bettina Stefanini, Mareike Steffens, Eeva‐Stiina Tuittila, Minna V?liranta, Johannes van der Plicht, Bas van Geel, Dan Yeloff. |
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Abstract: | Proxy climate data can be obtained from reconstructions of hydrological changes on ombrotrophic (rain‐fed) peatlands using biological indicators, such as testate amoebae. Reconstructions are based on transfer functions, relating modern assemblage composition to water table and moisture content, applied to fossil sequences. Existing transfer functions in Europe and elsewhere are limited geographically and there are often problems with missing or poor analogues. This paper presents a new palaeohydrological transfer function based on sampling raised mires from across Europe. Relationships between assemblages and hydrological variables are described using ordination analyses. Transfer functions are developed for depth to water table (n = 119) and moisture content (n = 132) with root mean squared errors (RMSEP) of 5.6 cm and 2.7% respectively. Both transfer functions have an r2 of 0.71, based on ‘leave one out’ cross‐validation. Comparisons with an existing transfer function for Britain show that the European transfer function performs well in inferring measured water tables in Britain but that the British data cannot be used to infer water tables for other European sites with confidence. Several of the key missing and poor analogue taxa problems encountered in previous transfer functions are solved. The new transfer function will be an important tool in developing peat‐based palaeoclimatic reconstructions for European sites. Copyright © 2006 John Wiley & Sons, Ltd. |
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Keywords: | Holocene palaeoclimate water table transfer function peatlands testate amoebae |
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