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Holocene temperature history at the western Greenland Ice Sheet margin reconstructed from lake sediments

Holocene temperature history at the western Greenland Ice Sheet margin reconstructed from lake sediments
Holocene temperature history at the western Greenland Ice Sheet margin reconstructed from lake sediments
Predicting the response of the Greenland Ice Sheet to future climate change presents a major challenge to climate science. Paleoclimate data from Greenland can provide empirical constraints on past cryospheric responses to climate change, complementing insights from contemporary observations and from modeling. Here we examine sedimentary records from five lakes near Jakobshavn Isbræ in central West Greenland to investigate the timing and magnitude of major Holocene climate changes, for comparison with glacial geologic reconstructions from the region. A primary objective of this study is to constrain the timing and magnitude of maximum warmth during the early to middle Holocene positive anomaly in summer insolation. Temperature reconstructions from subfossil insect (chironomid) assemblages suggest that summer temperatures were warmer than present by at least 7.1 ka (the beginning of the North Lake record; ka = thousands of years before present), and that the warmest millennia of the Holocene occurred in the study area between 6 and 4 ka. Previous studies in the Jakobshavn region have found that the local Greenland Ice Sheet margin was most retracted behind its present position between 6 and 5 ka, and here we use chironomids to estimate that local summer temperatures were 2–3 °C warmer than present during that time of minimum ice sheet extent. As summer insolation declined through the late Holocene, summer temperatures cooled and the local ice sheet margin expanded. Gradual, insolation-driven millennial-scale temperature trends in the study area were punctuated by several abrupt climate changes, including a major transient event recorded in all five lakes between 4.3 and 3.2 ka, which overlaps in timing with abrupt climate changes previously documented around the North Atlantic region and farther afield at ?4.2 ka.
greenland, jakobshavn, holocene thermal maximum, neoglaciation, paleoclimate, lake sediments, chironomidae
0277-3791
87-100
Axford, Yarrow
57d964d8-424f-40ef-a5f8-77fbf5bfe916
Losee, Shanna
b980a6c8-4f7e-4126-8b92-a48025353094
Briner, Jason P.
e7ae55ea-d0e1-4b45-9f10-eee5190c7325
Francis, Donna R.
a5537970-1b52-4f15-bec2-947fd3e45d28
Langdon, Peter G.
95b97671-f9fe-4884-aca6-9aa3cd1a6d7f
Walker, Ian R.
9e7c87a8-66e5-40ff-a7e8-b0bb96cf5853
Axford, Yarrow
57d964d8-424f-40ef-a5f8-77fbf5bfe916
Losee, Shanna
b980a6c8-4f7e-4126-8b92-a48025353094
Briner, Jason P.
e7ae55ea-d0e1-4b45-9f10-eee5190c7325
Francis, Donna R.
a5537970-1b52-4f15-bec2-947fd3e45d28
Langdon, Peter G.
95b97671-f9fe-4884-aca6-9aa3cd1a6d7f
Walker, Ian R.
9e7c87a8-66e5-40ff-a7e8-b0bb96cf5853

Axford, Yarrow, Losee, Shanna, Briner, Jason P., Francis, Donna R., Langdon, Peter G. and Walker, Ian R. (2013) Holocene temperature history at the western Greenland Ice Sheet margin reconstructed from lake sediments. Quaternary Science Reviews, 59, 87-100. (doi:10.1016/j.quascirev.2012.10.024).

Record type: Article

Abstract

Predicting the response of the Greenland Ice Sheet to future climate change presents a major challenge to climate science. Paleoclimate data from Greenland can provide empirical constraints on past cryospheric responses to climate change, complementing insights from contemporary observations and from modeling. Here we examine sedimentary records from five lakes near Jakobshavn Isbræ in central West Greenland to investigate the timing and magnitude of major Holocene climate changes, for comparison with glacial geologic reconstructions from the region. A primary objective of this study is to constrain the timing and magnitude of maximum warmth during the early to middle Holocene positive anomaly in summer insolation. Temperature reconstructions from subfossil insect (chironomid) assemblages suggest that summer temperatures were warmer than present by at least 7.1 ka (the beginning of the North Lake record; ka = thousands of years before present), and that the warmest millennia of the Holocene occurred in the study area between 6 and 4 ka. Previous studies in the Jakobshavn region have found that the local Greenland Ice Sheet margin was most retracted behind its present position between 6 and 5 ka, and here we use chironomids to estimate that local summer temperatures were 2–3 °C warmer than present during that time of minimum ice sheet extent. As summer insolation declined through the late Holocene, summer temperatures cooled and the local ice sheet margin expanded. Gradual, insolation-driven millennial-scale temperature trends in the study area were punctuated by several abrupt climate changes, including a major transient event recorded in all five lakes between 4.3 and 3.2 ka, which overlaps in timing with abrupt climate changes previously documented around the North Atlantic region and farther afield at ?4.2 ka.

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More information

e-pub ahead of print date: 29 November 2012
Published date: 3 January 2013
Keywords: greenland, jakobshavn, holocene thermal maximum, neoglaciation, paleoclimate, lake sediments, chironomidae
Organisations: Palaeoenvironment Laboratory (PLUS)

Identifiers

Local EPrints ID: 354012
URI: http://eprints.soton.ac.uk/id/eprint/354012
ISSN: 0277-3791
PURE UUID: 51ee9987-6e06-446c-9c54-59859b00b053
ORCID for Peter G. Langdon: ORCID iD orcid.org/0000-0003-2724-2643

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Date deposited: 28 Jun 2013 08:40
Last modified: 15 Mar 2024 02:57

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Contributors

Author: Yarrow Axford
Author: Shanna Losee
Author: Jason P. Briner
Author: Donna R. Francis
Author: Ian R. Walker

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