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Main Authors: Kylander, Malin E, Söderlindh, Jenny, Schenk, Frederik, Gyllencreutz, Richard, Rydberg, Johan, Bindler, Richard, Martínez-Cortizas, Antonio, Skelton, Alsadair SL
Format: Dataset Open Access
Language:en
Published: PANGAEA 2019
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Online Access:https://doi.org/10.1594/PANGAEA.903893
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author Kylander, Malin E
Söderlindh, Jenny
Schenk, Frederik
Gyllencreutz, Richard
Rydberg, Johan
Bindler, Richard
Martínez-Cortizas, Antonio
Skelton, Alsadair SL
author_facet Kylander, Malin E
Söderlindh, Jenny
Schenk, Frederik
Gyllencreutz, Richard
Rydberg, Johan
Bindler, Richard
Martínez-Cortizas, Antonio
Skelton, Alsadair SL
collection Datos científicos de ciencias marinas y ambientales
contents Severe winter windstorms have become an increasingly common occurrence over the last decades in northwestern Europe. Although there exists considerable uncertainty, storminess is projected to increase in the future. On centennial to millennial timescales in particular, the mechanisms forcing storminess remain unsettled. We contribute to available palaeostorm records by reconstructing changes over the last 6670 years using a coastal peat sequence retrieved from the ombrotrophic Laphroaig bog on Islay, southwestern Scotland. We use a combination of ash content, grain size and elemental chemistry to identify periods of greater storminess which are dated to 6605, 6290-6225, 5315-5085, 4505, 3900-3635, 3310-3130, 2920-2380, 2275-2190, 2005-1860, 1305-1090, 805-435 and 275 cal. a BP. Storm signals in the first half of the record up to ~3000 cal year BP are mainly apparent in the grain size changes. Samples from this time period also have a different elemental signature than those later in the record. We speculate that this is due to receding sea levels and the consequent establishment of a new sand source in the form of dunes, which are still present today. The most significant events and strongest winds are found during the Iron Ages Cold Epoch (2645 cal. a BP), the transition into, and in the middle of, the Roman Ages Warm Period (2235 and 1965 cal. a BP) and early in the Little Ice Age (545 cal. a BP). The Laphroaig record generally agrees with regionally relevant peat palaeostorm records from Wales and the Outer Hebrides, although the relative importance of the different storm periods is not the same. In general, stormier periods are coeval with cold periods in the region as evidenced by parallels with increased ice rafted debris in the North Atlantic, highlighting that sea ice conditions could impact future storminess and storm track position.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_903893
institution PANGAEA
language en
publishDate 2019
publisher PANGAEA
record_format pangaea
spellingShingle Peat parameters, age model, elemental concentrations and grain size data from the Laphroaig Peat Bog, Islay, Southwestern Scotland
Kylander, Malin E
Söderlindh, Jenny
Schenk, Frederik
Gyllencreutz, Richard
Rydberg, Johan
Bindler, Richard
Martínez-Cortizas, Antonio
Skelton, Alsadair SL
CDRILL; Core drilling; Geochemistry; Holocene; Laphroaig_Peat; peat; Scotland; sea level; storminess
Severe winter windstorms have become an increasingly common occurrence over the last decades in northwestern Europe. Although there exists considerable uncertainty, storminess is projected to increase in the future. On centennial to millennial timescales in particular, the mechanisms forcing storminess remain unsettled. We contribute to available palaeostorm records by reconstructing changes over the last 6670 years using a coastal peat sequence retrieved from the ombrotrophic Laphroaig bog on Islay, southwestern Scotland. We use a combination of ash content, grain size and elemental chemistry to identify periods of greater storminess which are dated to 6605, 6290-6225, 5315-5085, 4505, 3900-3635, 3310-3130, 2920-2380, 2275-2190, 2005-1860, 1305-1090, 805-435 and 275 cal. a BP. Storm signals in the first half of the record up to ~3000 cal year BP are mainly apparent in the grain size changes. Samples from this time period also have a different elemental signature than those later in the record. We speculate that this is due to receding sea levels and the consequent establishment of a new sand source in the form of dunes, which are still present today. The most significant events and strongest winds are found during the Iron Ages Cold Epoch (2645 cal. a BP), the transition into, and in the middle of, the Roman Ages Warm Period (2235 and 1965 cal. a BP) and early in the Little Ice Age (545 cal. a BP). The Laphroaig record generally agrees with regionally relevant peat palaeostorm records from Wales and the Outer Hebrides, although the relative importance of the different storm periods is not the same. In general, stormier periods are coeval with cold periods in the region as evidenced by parallels with increased ice rafted debris in the North Atlantic, highlighting that sea ice conditions could impact future storminess and storm track position.
title Peat parameters, age model, elemental concentrations and grain size data from the Laphroaig Peat Bog, Islay, Southwestern Scotland
topic CDRILL; Core drilling; Geochemistry; Holocene; Laphroaig_Peat; peat; Scotland; sea level; storminess
url https://doi.org/10.1594/PANGAEA.903893