Reconstruction of warm-season temperatures in central Europe during the past 60 000 years from lacustrine branched glycerol dialkyl glycerol tetraethers (brGDGTs)
Reconstruction of warm-season temperatures in central Europe during the past 60 000 years from lacustrine branched glycerol dialkyl glycerol tetraethers (brGDGTs)
Millennial-scale climate variations during the last glacial period, such as Dansgaard–Oeschger (D/O) cycles and Heinrich events, have been extensively studied using ice core and marine proxy records. However, there is a limited understanding of the magnitude of these temperature fluctuations in continental regions, and questions remain about the seasonal signal of these climate events. This study presents a 60,000-year long temperature reconstruction based on branched glycerol dialkyl glycerol tetraethers (brGDGTs) extracted from lake sediments from the Eifel volcanic field, Germany. brGDGTs are bacterial membrane lipids that are known to have strong relationship with temperature, making them suitable for temperature reconstructions. We test several temperature calibration models on modern samples taken from soils and multiple maar lakes. We find a bias associated with water depth and anoxic conditions that can be corrected for by accounting for a brGDGT isomer that is only produced in anoxic conditions. The corrected temperature reconstruction correlates with proxy and model temperature record spanning the same time period, validating the calibration model. However, millennial-scale variability is significantly dampened in the brGDGT record, and in contrast to other northern hemisphere climate records, during several Heinrich stadials, temperatures actually increase. We demonstrate that these apparent discrepancies can be explained by the unique seasonal response of the brGDGT paleothermometer to temperatures of months above freezing (TMAF). Our data support the view that warm season temperatures in Europe varied minimally during the last glacial period, and that abrupt millennial-scale events were defined by colder, longer winters. Our continuous high-resolution temperature reconstruction provides important information about the magnitude of seasonal climate variability during the last glacial period that can be used to test climate models and inform studies of paleoecological change.
841-864
Zander, Paul D.
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Böhl, Daniel
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Sirocko, Frank
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Auderset, Alexandra
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Haug, Gerald H.
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Martínez-García, Alfredo
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8 April 2024
Zander, Paul D.
a826eefe-308b-4dab-b698-bd79c1fe90c8
Böhl, Daniel
9086561c-6c10-41b1-9b2b-4b50c1208b5e
Sirocko, Frank
cf8b1359-a43d-4659-b792-2da2ff47d944
Auderset, Alexandra
a6054a25-7c59-49fe-a2cd-62c1d3f3c8b3
Haug, Gerald H.
b6d161a0-4bdc-44d3-8a88-8de0e3517ca8
Martínez-García, Alfredo
8b6d9235-e18e-438e-a597-b90b36a73472
Zander, Paul D., Böhl, Daniel, Sirocko, Frank, Auderset, Alexandra, Haug, Gerald H. and Martínez-García, Alfredo
(2024)
Reconstruction of warm-season temperatures in central Europe during the past 60 000 years from lacustrine branched glycerol dialkyl glycerol tetraethers (brGDGTs).
Climate of the Past, 20 (4), .
(doi:10.1016/j.quascirev.2024.108555).
Abstract
Millennial-scale climate variations during the last glacial period, such as Dansgaard–Oeschger (D/O) cycles and Heinrich events, have been extensively studied using ice core and marine proxy records. However, there is a limited understanding of the magnitude of these temperature fluctuations in continental regions, and questions remain about the seasonal signal of these climate events. This study presents a 60,000-year long temperature reconstruction based on branched glycerol dialkyl glycerol tetraethers (brGDGTs) extracted from lake sediments from the Eifel volcanic field, Germany. brGDGTs are bacterial membrane lipids that are known to have strong relationship with temperature, making them suitable for temperature reconstructions. We test several temperature calibration models on modern samples taken from soils and multiple maar lakes. We find a bias associated with water depth and anoxic conditions that can be corrected for by accounting for a brGDGT isomer that is only produced in anoxic conditions. The corrected temperature reconstruction correlates with proxy and model temperature record spanning the same time period, validating the calibration model. However, millennial-scale variability is significantly dampened in the brGDGT record, and in contrast to other northern hemisphere climate records, during several Heinrich stadials, temperatures actually increase. We demonstrate that these apparent discrepancies can be explained by the unique seasonal response of the brGDGT paleothermometer to temperatures of months above freezing (TMAF). Our data support the view that warm season temperatures in Europe varied minimally during the last glacial period, and that abrupt millennial-scale events were defined by colder, longer winters. Our continuous high-resolution temperature reconstruction provides important information about the magnitude of seasonal climate variability during the last glacial period that can be used to test climate models and inform studies of paleoecological change.
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cp-20-841-2024
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Accepted/In Press date: 19 February 2024
Published date: 8 April 2024
Identifiers
Local EPrints ID: 500854
URI: http://eprints.soton.ac.uk/id/eprint/500854
ISSN: 1814-9332
PURE UUID: 01d0360d-d718-414d-a74a-924da3a25f1e
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Date deposited: 14 May 2025 16:39
Last modified: 22 Aug 2025 02:38
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Author:
Paul D. Zander
Author:
Daniel Böhl
Author:
Frank Sirocko
Author:
Alexandra Auderset
Author:
Gerald H. Haug
Author:
Alfredo Martínez-García
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