Climate reconstruction from paired oxygen-isotope analyses of chironomid larval head capsules and endogenic carbonate (Hawes Water, UK) - Potential and problems
Climate reconstruction from paired oxygen-isotope analyses of chironomid larval head capsules and endogenic carbonate (Hawes Water, UK) - Potential and problems
Temperature and the oxygen isotopic composition (δ18O) of meteoric water are both important palaeoclimatic variables, but separating their influences on proxies such as the δ18O of lake carbonates is often problematic. The large temperature variations that are known to have occurred in the northern mid-latitudes during the Late Glacial make this interval an excellent test for a novel approach that combines oxygen-isotope analyses of chironomid larval head capsules with co-occurring endogenic carbonate. We apply this approach to a Late Glacial lake sediment sequence from Hawes Water (NW England). Oxygen-isotope values in chironomid head capsules show marked variations during the Late Glacial that are similar to the oxygen isotope record from endogenic carbonate. However, summer temperature reconstructions based on the paired isotope values and fractionation between chironomids and calcite yield values between −20 and −4 °C, which are unrealistic and far lower than reconstructions based on chironomid assemblages at the same site. The composition of a limited number of samples of fossil chironomid larval head capsules determined using Pyrolysis gas-chromatography mass spectrometry indicates the presence of aliphatic geopolymers, suggesting that diagenetic alteration of the head capsules has systematically biased the isotope-derived temperature estimates. However, a similar trend in the isotope records of the two sources suggests that a palaeoclimate signal is still preserved.
Chironomids, Lake sediments, Late glacial, NW England, Oxygen isotopes, Palaeotemperature
Lombino, Alex
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Atkinson, Tim
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Brooks, Stephen J.
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Gröcke, Darren R.
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Holmes, Jonathan
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Jones, Vivienne J.
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Marshall, Jim D.
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Nierop, Klaas G.J.
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Thomas, Zoë
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15 October 2021
Lombino, Alex
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Atkinson, Tim
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Brooks, Stephen J.
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Gröcke, Darren R.
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Holmes, Jonathan
60fde704-0a5f-4a03-b18d-2bcf598bb937
Jones, Vivienne J.
f416e53b-b5bf-407f-887c-fe2db8f3dd53
Marshall, Jim D.
1b8ac7f8-f615-4b72-a65c-204088589294
Nierop, Klaas G.J.
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Thomas, Zoë
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Lombino, Alex, Atkinson, Tim, Brooks, Stephen J., Gröcke, Darren R., Holmes, Jonathan, Jones, Vivienne J., Marshall, Jim D., Nierop, Klaas G.J. and Thomas, Zoë
(2021)
Climate reconstruction from paired oxygen-isotope analyses of chironomid larval head capsules and endogenic carbonate (Hawes Water, UK) - Potential and problems.
Quaternary Science Reviews, 270, [107160].
(doi:10.1016/j.quascirev.2021.107160).
Abstract
Temperature and the oxygen isotopic composition (δ18O) of meteoric water are both important palaeoclimatic variables, but separating their influences on proxies such as the δ18O of lake carbonates is often problematic. The large temperature variations that are known to have occurred in the northern mid-latitudes during the Late Glacial make this interval an excellent test for a novel approach that combines oxygen-isotope analyses of chironomid larval head capsules with co-occurring endogenic carbonate. We apply this approach to a Late Glacial lake sediment sequence from Hawes Water (NW England). Oxygen-isotope values in chironomid head capsules show marked variations during the Late Glacial that are similar to the oxygen isotope record from endogenic carbonate. However, summer temperature reconstructions based on the paired isotope values and fractionation between chironomids and calcite yield values between −20 and −4 °C, which are unrealistic and far lower than reconstructions based on chironomid assemblages at the same site. The composition of a limited number of samples of fossil chironomid larval head capsules determined using Pyrolysis gas-chromatography mass spectrometry indicates the presence of aliphatic geopolymers, suggesting that diagenetic alteration of the head capsules has systematically biased the isotope-derived temperature estimates. However, a similar trend in the isotope records of the two sources suggests that a palaeoclimate signal is still preserved.
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Accepted/In Press date: 21 August 2021
e-pub ahead of print date: 2 September 2021
Published date: 15 October 2021
Additional Information:
Funding Information:
Funding was provided by a research studentship ( NE/H008160/1 ) from the UK Natural Environment Research Council to AL. We thank G. Everett Lasher for providing some of the modern chironomid and water-isotope data used to construct Fig. 3 and Abigail Hill for help with R code. We dedicate this paper to the memory of Dr Richard T. Jones, a physical geographer at the University of Exeter, who died in 2018. Richard's research included work on Late Glacial climate records from north-west England and he was responsible for recovering the core material from Hawes Water that was used in this study. We hope very much that he would have approved of our efforts.
Funding Information:
Funding was provided by a research studentship (NE/H008160/1) from the UK Natural Environment Research Council to AL. We thank G. Everett Lasher for providing some of the modern chironomid and water-isotope data used to construct Fig. 3 and Abigail Hill for help with R code. We dedicate this paper to the memory of Dr Richard T. Jones, a physical geographer at the University of Exeter, who died in 2018. Richard's research included work on Late Glacial climate records from north-west England and he was responsible for recovering the core material from Hawes Water that was used in this study. We hope very much that he would have approved of our efforts.
Publisher Copyright:
© 2021 The Authors
Keywords:
Chironomids, Lake sediments, Late glacial, NW England, Oxygen isotopes, Palaeotemperature
Identifiers
Local EPrints ID: 474793
URI: http://eprints.soton.ac.uk/id/eprint/474793
ISSN: 0277-3791
PURE UUID: 590f3575-14ff-4741-a089-184af3c0927a
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Date deposited: 02 Mar 2023 17:49
Last modified: 16 Apr 2024 02:06
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Contributors
Author:
Alex Lombino
Author:
Tim Atkinson
Author:
Stephen J. Brooks
Author:
Darren R. Gröcke
Author:
Jonathan Holmes
Author:
Vivienne J. Jones
Author:
Jim D. Marshall
Author:
Klaas G.J. Nierop
Author:
Zoë Thomas
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