Astronomically paced climate and carbon cycle feedbacks  in the lead-up to the Late Devonian Kellwasser Crisis

Wichern, Nina M. A.; Bialik, Or M.; Nohl, Theresa; Percival, Lawrence M. E.; Becker, R. Thomas; Kaskes, Pim; Claeys, Philippe; De Vleeschouwer, David

doi:10.5194/cp-20-415-2024

Cited by 2 publications

(1 citation statement)

References 133 publications

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“…Considering that the Usseln Limestone contains between 21 and 42 individual cm-scale alternations (27 at Steinbruch Schmidt; Figure S1 in Supporting Information S1), a ≤100 kyr duration suggests that the layers-if primary-reflect millennial-scale environmental variability. The same inference can be made by extrapolating the sedimentation rates for the Winsenberg Kellwasser interval (0.7-1.2 cm/kyr, Wichern, Bialik, Nohl, Percival, et al, 2024) to the 1-to-2 cm-thick rhythmical bands of the Winsenberg Usseln Limestone.…”

Section: Introductionmentioning

confidence: 82%

Decoding Deep‐Time Rhythms: Probing the Limit of Stratigraphic Correlation in the Time‐Specific Facies of the Late Devonian Usseln Limestone (Rhenish Massif, Germany)

Wichern,

Bialik,

Nohl

et al. 2024

Geophysical Research Letters

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The iso‐ or diachronous character of a geologic unit is scale‐dependent, especially for time‐specific facies. The Usseln Limestone is a Late Devonian time‐specific facies from Germany, occurring immediately below the Lower Kellwasser black shale. Here, we investigate whether cm‐scale rhythmical bands within the Usseln Limestone are correlatable across its depositional basin. Its facies were studied at three locations ca. 50 km apart, representing different depositional settings. Its cm‐scale alternations in lithological facies and elemental content (μXRF) form an excellent target for correlations on millennial timescales. Correlation attempts failed to converge to a solution at the cm‐scale of individual rhythmites. Dynamic Time Warping, however, provided convincing correlations at the dm‐scale, supporting its use as a high‐resolution correlation tool. The Usseln Limestone base may be diachronous, but the top is likely isochronous. This finding is in agreement with sudden basin‐wide black shale deposition at the onset of the Kellwasser Crisis.

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Section: Introductionmentioning

confidence: 82%

Decoding Deep‐Time Rhythms: Probing the Limit of Stratigraphic Correlation in the Time‐Specific Facies of the Late Devonian Usseln Limestone (Rhenish Massif, Germany)

Wichern,

Bialik,

Nohl

et al. 2024

Geophysical Research Letters

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Upper Devonian to Mississippian global environmental change and impact on conodonts

Hartenfels

2024

Palaeobio Palaeoenv

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The Upper Devonian to Mississippian was a very dynamic time in Earth’s history and encompassed substantial changes in widely separated palaeoenvironments. Major evolutionary trends did not occur through a long-lasting interval of ecological stability, instead they took place as recurring global events and/or crises of different magnitude, duration, and intensity. Framed by two of the most devastating time intervals – the Kellwasser and the Hangenberg crises – the Famennian has yielded other 2nd to 5th order events/crises. Many of these smaller scaled events show similarities with specific episodes of the longer-lasting crises and can especially be recognised in weakly tectonised pelagic facies that was present globally in a pan-tropical belt from North America to North Africa, Europe, Asia, and Australia. The search for causes of the Upper Devonian to Mississippian event/crisis sequence has made progress in the last few years. Nevertheless, we are still far from understanding all factors and reasons, which have triggered these environmental changes. The impact of Upper Devonian to Mississippian events/crises on faunal groups, such as ammonoids, has attracted many researches in past decades. Although, living in identical outer shelf settings, the different effects on conodonts have not yet received the attention they deserved in the context of our aim to understand the global environmental hazards of the past. One of the key questions is to understand, which and how environmental change influenced and/or stimulated the evolution of conodonts.

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Astronomically paced climate and carbon cycle feedbacks in the lead-up to the Late Devonian Kellwasser Crisis

Cited by 2 publications

References 133 publications

Decoding Deep‐Time Rhythms: Probing the Limit of Stratigraphic Correlation in the Time‐Specific Facies of the Late Devonian Usseln Limestone (Rhenish Massif, Germany)

Decoding Deep‐Time Rhythms: Probing the Limit of Stratigraphic Correlation in the Time‐Specific Facies of the Late Devonian Usseln Limestone (Rhenish Massif, Germany)

Upper Devonian to Mississippian global environmental change and impact on conodonts

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