Middle Miocene climate and stable oxygen isotopes in Europe based on numerical modeling

The Middle Miocene (15.99–11.65 Ma) of Europe witnessed major climatic, environmental, and vegetational change, yet we are lacking detailed reconstructions of Middle Miocene temperature and precipitation patterns over Europe. Here, we use a high-resolution (∼0.75°) isotope-enabled general circulatio...

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Published in:Paleoceanography and Paleoclimatology
Main Authors: Botsyun, Svetlana, Ehlers, Todd A., Koptev, Alexander, Böhme, Madelaine, Methner, Katharina, Risi, Camille, Stepanek, Christian, Mutz, Sebastian G., Werner, Martin, Boateng, Daniel, Mulch, Andreas
Format: Article in Journal/Newspaper
Language:English
Published: American Geophysical Union 2022
Subjects:
North Atlantic
Online Access:https://eprints.gla.ac.uk/309284/
https://eprints.gla.ac.uk/309284/1/309284.pdf
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spelling ftuglasgow:oai:eprints.gla.ac.uk:309284 2023-12-17T10:46:50+01:00 Middle Miocene climate and stable oxygen isotopes in Europe based on numerical modeling Botsyun, Svetlana Ehlers, Todd A. Koptev, Alexander Böhme, Madelaine Methner, Katharina Risi, Camille Stepanek, Christian Mutz, Sebastian G. Werner, Martin Boateng, Daniel Mulch, Andreas 2022-10 text https://eprints.gla.ac.uk/309284/ https://eprints.gla.ac.uk/309284/1/309284.pdf en eng American Geophysical Union https://eprints.gla.ac.uk/309284/1/309284.pdf Botsyun, S. et al. (2022) Middle Miocene climate and stable oxygen isotopes in Europe based on numerical modeling. Paleoceanography and Paleoclimatology <https://eprints.gla.ac.uk/view/journal_volume/Paleoceanography_and_Paleoclimatology.html>, 37(10), e2022PA004442. (doi:10.1029/2022PA004442 <https://doi.org/10.1029/2022PA004442>) cc_by_nc_4 Articles PeerReviewed 2022 ftuglasgow https://doi.org/10.1029/2022PA004442 2023-11-23T23:10:08Z The Middle Miocene (15.99–11.65 Ma) of Europe witnessed major climatic, environmental, and vegetational change, yet we are lacking detailed reconstructions of Middle Miocene temperature and precipitation patterns over Europe. Here, we use a high-resolution (∼0.75°) isotope-enabled general circulation model (ECHAM5-wiso) with time-specific boundary conditions to investigate changes in temperature, precipitation, and δ18O in precipitation (δ18Op). Experiments were designed with variable elevation configurations of the European Alps and different atmospheric CO2 levels to examine the influence of Alpine elevation and global climate forcing on regional climate and δ18Op patterns. Modeling results are in agreement with available paleobotanical temperature data and with low-resolution Middle Miocene experiments of the Miocene Model Intercomparison Project (MioMIP1). However, simulated precipitation rates are 300–500 mm/yr lower in the Middle Miocene than for pre-industrial times for central Europe. This result is consistent with precipitation estimates from herpetological fossil assemblages, but contradicts precipitation estimates from paleobotanical data. We attribute the Middle Miocene precipitation change in Europe to shifts in large-scale pressure patterns in the North Atlantic and over Europe and associated changes in wind direction and humidity. We suggest that global climate forcing contributed to a maximum δ18Op change of ∼2‰ over high elevation (Alps) and ∼1‰ over low elevation regions. In contrast, we observe a maximum modeled δ18Op decrease of 8‰ across the Alpine orogen due to Alpine topography. However, the elevation-δ18Op lapse rate shallows in the Middle Miocene, leading to a possible underestimation of paleotopography when using present-day δ18Op—elevation relationships data for stable isotope paleoaltimetry studies. Article in Journal/Newspaper North Atlantic University of Glasgow: Enlighten - Publications Paleoceanography and Paleoclimatology 37 10
institution Open Polar
collection University of Glasgow: Enlighten - Publications
op_collection_id ftuglasgow
language English
description The Middle Miocene (15.99–11.65 Ma) of Europe witnessed major climatic, environmental, and vegetational change, yet we are lacking detailed reconstructions of Middle Miocene temperature and precipitation patterns over Europe. Here, we use a high-resolution (∼0.75°) isotope-enabled general circulation model (ECHAM5-wiso) with time-specific boundary conditions to investigate changes in temperature, precipitation, and δ18O in precipitation (δ18Op). Experiments were designed with variable elevation configurations of the European Alps and different atmospheric CO2 levels to examine the influence of Alpine elevation and global climate forcing on regional climate and δ18Op patterns. Modeling results are in agreement with available paleobotanical temperature data and with low-resolution Middle Miocene experiments of the Miocene Model Intercomparison Project (MioMIP1). However, simulated precipitation rates are 300–500 mm/yr lower in the Middle Miocene than for pre-industrial times for central Europe. This result is consistent with precipitation estimates from herpetological fossil assemblages, but contradicts precipitation estimates from paleobotanical data. We attribute the Middle Miocene precipitation change in Europe to shifts in large-scale pressure patterns in the North Atlantic and over Europe and associated changes in wind direction and humidity. We suggest that global climate forcing contributed to a maximum δ18Op change of ∼2‰ over high elevation (Alps) and ∼1‰ over low elevation regions. In contrast, we observe a maximum modeled δ18Op decrease of 8‰ across the Alpine orogen due to Alpine topography. However, the elevation-δ18Op lapse rate shallows in the Middle Miocene, leading to a possible underestimation of paleotopography when using present-day δ18Op—elevation relationships data for stable isotope paleoaltimetry studies.
format Article in Journal/Newspaper
author Botsyun, Svetlana
Ehlers, Todd A.
Koptev, Alexander
Böhme, Madelaine
Methner, Katharina
Risi, Camille
Stepanek, Christian
Mutz, Sebastian G.
Werner, Martin
Boateng, Daniel
Mulch, Andreas
spellingShingle Botsyun, Svetlana
Ehlers, Todd A.
Koptev, Alexander
Böhme, Madelaine
Methner, Katharina
Risi, Camille
Stepanek, Christian
Mutz, Sebastian G.
Werner, Martin
Boateng, Daniel
Mulch, Andreas
Middle Miocene climate and stable oxygen isotopes in Europe based on numerical modeling
author_facet Botsyun, Svetlana
Ehlers, Todd A.
Koptev, Alexander
Böhme, Madelaine
Methner, Katharina
Risi, Camille
Stepanek, Christian
Mutz, Sebastian G.
Werner, Martin
Boateng, Daniel
Mulch, Andreas
author_sort Botsyun, Svetlana
title Middle Miocene climate and stable oxygen isotopes in Europe based on numerical modeling
title_short Middle Miocene climate and stable oxygen isotopes in Europe based on numerical modeling
title_full Middle Miocene climate and stable oxygen isotopes in Europe based on numerical modeling
title_fullStr Middle Miocene climate and stable oxygen isotopes in Europe based on numerical modeling
title_full_unstemmed Middle Miocene climate and stable oxygen isotopes in Europe based on numerical modeling
title_sort middle miocene climate and stable oxygen isotopes in europe based on numerical modeling
publisher American Geophysical Union
publishDate 2022
url https://eprints.gla.ac.uk/309284/
https://eprints.gla.ac.uk/309284/1/309284.pdf
genre North Atlantic
genre_facet North Atlantic
op_relation https://eprints.gla.ac.uk/309284/1/309284.pdf
Botsyun, S. et al. (2022) Middle Miocene climate and stable oxygen isotopes in Europe based on numerical modeling. Paleoceanography and Paleoclimatology <https://eprints.gla.ac.uk/view/journal_volume/Paleoceanography_and_Paleoclimatology.html>, 37(10), e2022PA004442. (doi:10.1029/2022PA004442 <https://doi.org/10.1029/2022PA004442>)
op_rights cc_by_nc_4
op_doi https://doi.org/10.1029/2022PA004442
container_title Paleoceanography and Paleoclimatology
container_volume 37
container_issue 10
_version_ 1785570470217646080

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