Journal
FRONTIERS IN EARTH SCIENCE
Volume 9, Issue -, Pages -Publisher
FRONTIERS MEDIA SA
DOI: 10.3389/feart.2021.757749
Keywords
Devonian; Canning Basin; Frasnian-Famennian mass extinction; magnetostratigraphy; rock magnetism; Earth's magnetic field
Categories
Funding
- Australian Research Council Linkage Program [LP0883812]
- ARC-QEII Grant Program [ARC-DORA-3]
- MERIWA
- WAERA
- CSIRO
- Buru
- Chevron Australian Business Unit
- Chevron Energy Technology Company
- University of Greenwich
- Chemostrat, Ltd
- CAPES
- FAPESP [2016/24870-2, 2019/06709-8]
- NSF Graduate Research Fellowship
- Dartmouth College Senior Fellowship
- Australian Research Council [LP0883812] Funding Source: Australian Research Council
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Late Devonian was a period of rapid changes in the Earth system, with uncertainties surrounding the causes of climate change, sea level changes, ocean anoxia, and the Frasnian-Famennian mass extinction. Analysis of rock magnetic data and magnetostratigraphy from the Late Devonian drill-core in the Lennard Shelf of Western Australia revealed scattered paleomagnetic directions, but showed good correlation with previous studies. Further data is needed to better understand the timing, causes, and environmental shifts during this critical time-period, including the Frasnian-Famennian mass extinction.
Late Devonian time was a period of rapid upheaval in the Earth system, including climate change, sea level changes, widespread ocean anoxia, and the Frasnian-Famennian mass extinction; the cause(s) of these changes remain(s) uncertain. The Lennard Shelf of the Canning Basin in Western Australia contains carbonate reef sections spanning much of the Late Devonian Epoch and has been sampled for paleomagnetic analysis with studies by Hansma and colleagues in 2015 and Playton and colleagues in 2016. However, previous paleomagnetic directions were scattered and their use for magnetostratigraphy has been questioned. Here, rock magnetic data and magnetostratigraphy for a late Devonian drill-core from the Lennard Shelf were analyzed. Three magnetostratigraphic interpretations were made using different paleopoles that showed good correlation with each other and the earlier interpretations by Playton and colleagues in 2016. Additionally, the rock magnetic data revealed the samples contain various mixtures of detrital and diagenetic minerals, the former of which should be viable recorders of primary magnetic signatures. Even in samples with these detrital phases, paleomagnetic data were often noisy and produced ambiguous polarity assignments, likely due to the anomalously weak Devonian field. Because of this ambiguity and the absence of a robust paleopole, broader correlations for this critical time-period will be difficult without additional paleomagnetic data from the late Devonian Period. Expanded data for this interval could eventually shed light on the timing, causes, and rates of the Frasnian-Famennian mass extinction and other environmental shifts in the late Devonian Epoch.
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