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Peat stratigraphic reconstructions of Holocene climate change in Scotland

Peat stratigraphic reconstructions of Holocene climate change in Scotland
Peat stratigraphic reconstructions of Holocene climate change in Scotland
Holocene climate change was inferred from records of changing bog surface wetness (BSW) from seven sites in Scotland: six ombrotrophic raised mires and one ombrotrophic blanket mire located across geographical and climatological gradients. The key proxy indicators used were plant macrofossils, colorimetric humification and testate amoebae, which were supported by a radiocarbon based chronology, aided by analyses of spheroidal carbonaceous particles and increases in pine pollen at specific sites. Field stratigraphy was undertaken at each site in order to show that the changes detected within the peat profiles were replicable. In an attempt to identify synchroneity of climatic phases and also to aid chronological control, tephra isochrons were utilised to allow the precise linking of time-spans between sites. Fourteen tephras were identified from the seven sites, and electron probe microanalysis was used to geochemically type the tephras to known isochrons from Icelandic eruptions. The BSW reconstructions show coherent wet and dry phases over the last ca. 5000 years, with the three proxy indicators supporting each other extremely well. Key phases of climate change will be discussed, as well as key ecological changes within the bogs including the local/regional extinctions of specific taxa. Specific correlations at the time of the Glen Garry and Hekla-4 tephra isochrones revealed a significant difference between climatic phases in the north and south of Scotland. Spectral analyses of the climate reconstructions revealed identical significant periodicities from four sites, including a millennial scale periodicity which may be related to an oceanic climate forcing mechanism.
p.157
Geological Society of America
Langdon, P.G.
95b97671-f9fe-4884-aca6-9aa3cd1a6d7f
Barber, K.E.
83d1acae-326d-4cb5-94b6-3d1dc78d64e9
Langdon, P.G.
95b97671-f9fe-4884-aca6-9aa3cd1a6d7f
Barber, K.E.
83d1acae-326d-4cb5-94b6-3d1dc78d64e9

Langdon, P.G. and Barber, K.E. (2003) Peat stratigraphic reconstructions of Holocene climate change in Scotland. In IXVI INQUA Congress Program with Abstracts. Geological Society of America. p.157 .

Record type: Conference or Workshop Item (Paper)

Abstract

Holocene climate change was inferred from records of changing bog surface wetness (BSW) from seven sites in Scotland: six ombrotrophic raised mires and one ombrotrophic blanket mire located across geographical and climatological gradients. The key proxy indicators used were plant macrofossils, colorimetric humification and testate amoebae, which were supported by a radiocarbon based chronology, aided by analyses of spheroidal carbonaceous particles and increases in pine pollen at specific sites. Field stratigraphy was undertaken at each site in order to show that the changes detected within the peat profiles were replicable. In an attempt to identify synchroneity of climatic phases and also to aid chronological control, tephra isochrons were utilised to allow the precise linking of time-spans between sites. Fourteen tephras were identified from the seven sites, and electron probe microanalysis was used to geochemically type the tephras to known isochrons from Icelandic eruptions. The BSW reconstructions show coherent wet and dry phases over the last ca. 5000 years, with the three proxy indicators supporting each other extremely well. Key phases of climate change will be discussed, as well as key ecological changes within the bogs including the local/regional extinctions of specific taxa. Specific correlations at the time of the Glen Garry and Hekla-4 tephra isochrones revealed a significant difference between climatic phases in the north and south of Scotland. Spectral analyses of the climate reconstructions revealed identical significant periodicities from four sites, including a millennial scale periodicity which may be related to an oceanic climate forcing mechanism.

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More information

Published date: 2003
Venue - Dates: XVI INQUA Congress, Reno, Nevada, USA, 2003-07-23 - 2003-07-30

Identifiers

Local EPrints ID: 14850
URI: http://eprints.soton.ac.uk/id/eprint/14850
PURE UUID: 3a11e081-b74c-4de3-861a-7c5aef373078
ORCID for P.G. Langdon: ORCID iD orcid.org/0000-0003-2724-2643

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Date deposited: 08 Mar 2005
Last modified: 23 Jul 2022 01:42

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Contributors

Author: P.G. Langdon ORCID iD
Author: K.E. Barber

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