Articles | Volume 14, issue 8
https://doi.org/10.5194/bg-14-2089-2017
© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
https://doi.org/10.5194/bg-14-2089-2017
© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
Research article
| 
24 Apr 2017
Research article |
| 24 Apr 2017
A new quantitative approach to identify reworking in Eocene to Miocene pollen records from offshore Antarctica using red fluorescence and digital imaging
Stephanie L. Strother
CORRESPONDING AUTHOR
Department of Geography, Faculty of Engineering and Environment,
Northumbria University, Ellison Building, Newcastle upon Tyne, NE1 8ST, UK
Ulrich Salzmann
CORRESPONDING AUTHOR
Department of Geography, Faculty of Engineering and Environment,
Northumbria University, Ellison Building, Newcastle upon Tyne, NE1 8ST, UK
Francesca Sangiorgi
Marine Palynology and Paleoceanography, Department of Earth Sciences,
Faculty of Geosciences, Laboratory of Palaeobotany and Palynology, Utrecht
University, Heidelberglaan 2, 3584CS Utrecht, the Netherlands
Peter K. Bijl
Marine Palynology and Paleoceanography, Department of Earth Sciences,
Faculty of Geosciences, Laboratory of Palaeobotany and Palynology, Utrecht
University, Heidelberglaan 2, 3584CS Utrecht, the Netherlands
Jörg Pross
Paleoenvironmental Dynamics Group, Institute of Earth Sciences,
Heidelberg University, Im Neuenheimer Feld 234, 69120 Heidelberg, Germany
Carlota Escutia
Instituto Andaluz de Ciencias de la Tierra, CSIC-Universidad de
Granada, Granada, Spain
Ariadna Salabarnada
Instituto Andaluz de Ciencias de la Tierra, CSIC-Universidad de
Granada, Granada, Spain
Matthew J. Pound
Department of Geography, Faculty of Engineering and Environment,
Northumbria University, Ellison Building, Newcastle upon Tyne, NE1 8ST, UK
Jochen Voss
School of Mathematics, University of Leeds, Leeds LS2 9JT, UK
John Woodward
Department of Geography, Faculty of Engineering and Environment,
Northumbria University, Ellison Building, Newcastle upon Tyne, NE1 8ST, UK
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Cited
14 citations as recorded by crossref.
- Paleoceanography and ice sheet variability offshore Wilkes Land, Antarctica – Part 1: Insights from late Oligocene astronomically paced contourite sedimentation A. Salabarnada et al. 10.5194/cp-14-991-2018
- The Eocene–Oligocene transition: a review of marine and terrestrial proxy data, models and model–data comparisons D. Hutchinson et al. 10.5194/cp-17-269-2021
- Palynological Study of Fossil Plants from Miocene Murree Formation of Pakistan: Clues to Investigate Palaeoclimate and Palaeoenvironment S. Ahmad et al. 10.3390/agronomy13010269
- Sediment recycling during the Holocene marine transgression in Ría de Vigo (NW Iberia): multiproxy evidence and environmental implications C. Muñoz Sobrino et al. 10.1016/j.quascirev.2024.109006
- From the Roman Empire to the present: Two millennia of pollen-based environmental changes and climate-human interactions in the Po Delta area (NE Italy) M. Cacciari et al. 10.1177/09596836241254487
- A guide to preparation protocols in palynology J. Riding 10.1080/01916122.2021.1878305
- Methods in melissopalynology: colour determination of pollen pellets for colour vision deficient individuals S. Hornby et al. 10.1080/01916122.2022.2062476
- Paleoceanography and ice sheet variability offshore Wilkes Land, Antarctica – Part 3: Insights from Oligocene–Miocene TEX<sub>86</sub>-based sea surface temperature reconstructions J. Hartman et al. 10.5194/cp-14-1275-2018
- Middle Miocene (Serravallian; upper Badenian–lower Sarmatian) dinoflagellate cysts from Bad Deutsch-Altenburg, Vienna Basin, Austria A. Soliman et al. 10.1080/01916122.2022.2116498
- Southern Ocean warming and Wilkes Land ice sheet retreat during the mid-Miocene F. Sangiorgi et al. 10.1038/s41467-017-02609-7
- Using fluorescence microscopy to discern in situ from reworked palynomorphs in dynamic depositional environments — An example from sediments of the late Miocene to early Pleistocene Caspian Sea T. Hoyle et al. 10.1016/j.revpalbo.2018.05.005
- Paleoceanography and ice sheet variability offshore Wilkes Land, Antarctica – Part 2: Insights from Oligocene–Miocene dinoflagellate cyst assemblages P. Bijl et al. 10.5194/cp-14-1015-2018
- Extraction method for fossil pollen grains using a cell sorter suitable for routine 14C dating K. Yamada et al. 10.1016/j.quascirev.2021.107236
- Heterogeneity in global vegetation and terrestrial climate change during the late Eocene to early Oligocene transition M. Pound & U. Salzmann 10.1038/srep43386
13 citations as recorded by crossref.
- Paleoceanography and ice sheet variability offshore Wilkes Land, Antarctica – Part 1: Insights from late Oligocene astronomically paced contourite sedimentation A. Salabarnada et al. 10.5194/cp-14-991-2018
- The Eocene–Oligocene transition: a review of marine and terrestrial proxy data, models and model–data comparisons D. Hutchinson et al. 10.5194/cp-17-269-2021
- Palynological Study of Fossil Plants from Miocene Murree Formation of Pakistan: Clues to Investigate Palaeoclimate and Palaeoenvironment S. Ahmad et al. 10.3390/agronomy13010269
- Sediment recycling during the Holocene marine transgression in Ría de Vigo (NW Iberia): multiproxy evidence and environmental implications C. Muñoz Sobrino et al. 10.1016/j.quascirev.2024.109006
- From the Roman Empire to the present: Two millennia of pollen-based environmental changes and climate-human interactions in the Po Delta area (NE Italy) M. Cacciari et al. 10.1177/09596836241254487
- A guide to preparation protocols in palynology J. Riding 10.1080/01916122.2021.1878305
- Methods in melissopalynology: colour determination of pollen pellets for colour vision deficient individuals S. Hornby et al. 10.1080/01916122.2022.2062476
- Paleoceanography and ice sheet variability offshore Wilkes Land, Antarctica – Part 3: Insights from Oligocene–Miocene TEX<sub>86</sub>-based sea surface temperature reconstructions J. Hartman et al. 10.5194/cp-14-1275-2018
- Middle Miocene (Serravallian; upper Badenian–lower Sarmatian) dinoflagellate cysts from Bad Deutsch-Altenburg, Vienna Basin, Austria A. Soliman et al. 10.1080/01916122.2022.2116498
- Southern Ocean warming and Wilkes Land ice sheet retreat during the mid-Miocene F. Sangiorgi et al. 10.1038/s41467-017-02609-7
- Using fluorescence microscopy to discern in situ from reworked palynomorphs in dynamic depositional environments — An example from sediments of the late Miocene to early Pleistocene Caspian Sea T. Hoyle et al. 10.1016/j.revpalbo.2018.05.005
- Paleoceanography and ice sheet variability offshore Wilkes Land, Antarctica – Part 2: Insights from Oligocene–Miocene dinoflagellate cyst assemblages P. Bijl et al. 10.5194/cp-14-1015-2018
- Extraction method for fossil pollen grains using a cell sorter suitable for routine 14C dating K. Yamada et al. 10.1016/j.quascirev.2021.107236
Latest update: 02 Nov 2024
Short summary
One of the main challenges in Antarctic vegetation reconstructions is the uncertainty in unambiguously identifying reworked pollen and spore assemblages in marine sedimentary records influenced by waxing and waning ice sheets. This study uses red fluorescence and digital imaging as a new tool to identify reworking in a marine sediment core from circum-Antarctic waters to reconstruct Cenozoic climate change and vegetation with high confidence.
One of the main challenges in Antarctic vegetation reconstructions is the uncertainty in...
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