Tracing the Eocene–Oligocene transition: a case study from North Bohemia

Kvaček, Zlatko; Teodoridis, Vasilis; Mach, Karel; Přikryl, Tomáš; Dvořák, Zdeněk

doi:10.3140/bull.geosci.1411

Cited by 17 publications

(33 citation statements)

References 29 publications

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“…However, it has repeatedly been stated that the examined floras indeed indicate differences in the annual distribution of precipitation, but summer drought or "aridity" has never been confirmed by any quantitative study (Table 2). Recently, Kvaček et al (2014) indicated again similar results with 541 mm (3WET) and 86 mm (3DRY) for the late Eocene flora of Knau that is also a site in the Weißelster Basin and the Zeitz FA (Mai and Walther, 2000). Furthermore, it must be questioned whether notophyllous broad-leaved forests could be established in a period when main growing seasons coincide with drought or "aridity".…”

Section: Palaeoclimate Signals For the Zeitz Fasupporting

confidence: 51%

“…Both areas, the coastal and riparian habitats of the Weißelster Basin as well as the Bohemian "hinterland" including volcanic environments, feature a similar floristic composition, determined by using the integrated plant record vegetation analysis (IPR-vegetation analysis) which indicates the occurrence of broad leaved evergreen forests for both regions (Kvaček et al, 2014).The Bohemian flora of Roudníky (35.4 ± 0.9 Ma) is an exception as it mirrors the gradual change towards mixed mesophytic forests (MMF) by immigration of deciduous, temperate taxa and stepwise extinction of subtropical and tropical plants, and thus the proceeding global cooling trend towards the EOT. The flora of Roudníky shows MAT ranges of 13.6-18.0°C with CA and 10.0 ± 1.3°C determined by CLAMP (Kvaček et al, 2014). No flora corresponding to Roudníky is currently known from the latest Eocene of the Weißelster Basin.…”

Section: Transregional Significance Of the Resultsmentioning

confidence: 99%

“…In contrast, central European vegetation in the Atlantic Boreal phytoprovince (sensu Mai, 1995) underwent only minor (e.g. Kvaček et al, 2014) or almost no detectable changes throughout the late middle and late Eocene, indicating that there was presumably no significant climate change. This fact has been expressed for instance by the establishment of the Floral Assemblages ("Florenkomplex" sensu Mai, 1995) Zeitz (herein after referred to as Zeitz FA) for central Germany Walther, 1985, 2000) or Hordle-Zeitz for the Atlantic Boreal phytoprovince (Mai, 1995) indicating no fundamental changes in megaflora composition between c. 38.5 and 35.0 Ma b. p. in the respective region.…”

Section: Introductionmentioning

confidence: 85%

“…Repeatedly it has been demonstrated that no mountain glaciers were present except for smaller ice sheets developing during the late Eocene in Arctic regions (Eldrett et al, 2004) and on Antarctica (Kennett, 1977;Zachos et al, 2001;DeConto and Pollard, 2003;Coxall et al, 2005). Moreover, remarkable climatic changes and temperature excursions have been recognized from the Eocene such as the Paleocene-Eocene Thermal Maximum (PETM; McInerney andWing, 2011, Röhl et al, 2007) and the Eocene-Oligocene turnover (EOT; Kvaček et al, 2014;Lear et al, 2008, Zachos et al, 2001. The latter is often equated with Stehlin's "Grande Coupure" in the fossil record of European vertebrates (e.g.…”

Section: Introductionmentioning

confidence: 95%

“…This fact has been expressed for instance by the establishment of the Floral Assemblages ("Florenkomplex" sensu Mai, 1995) Zeitz (herein after referred to as Zeitz FA) for central Germany Walther, 1985, 2000) or Hordle-Zeitz for the Atlantic Boreal phytoprovince (Mai, 1995) indicating no fundamental changes in megaflora composition between c. 38.5 and 35.0 Ma b. p. in the respective region. This supposed stasis of predominantly evergreen notophyllous broad-leaved forest vegetation (Kvaček et al, 2014) ends near the EOT when modern Arcto-Tertiary elements massively immigrate into central European floras (Kvaček and Walther, 2001;Kvaček et al, 2014).…”

Section: Introductionmentioning

confidence: 98%

See 4 more Smart Citations

Estimation of late Eocene (Bartonian–Priabonian) terrestrial palaeoclimate: Contributions from megafloral assemblages from central Germany

Moraweck

Uhl

Kunzmann

2015

Palaeogeography, Palaeoclimatology, Palaeoecology

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Section: Palaeoclimate Signals For the Zeitz Fasupporting

confidence: 51%

Section: Transregional Significance Of the Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 85%

Section: Introductionmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 98%

See 3 more Smart Citations

Estimation of late Eocene (Bartonian–Priabonian) terrestrial palaeoclimate: Contributions from megafloral assemblages from central Germany

Moraweck

Uhl

Kunzmann

2015

Palaeogeography, Palaeoclimatology, Palaeoecology

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Reconstructing leaf area from fragments: testing three methods using a fossil paleogene species

Toumoulin

Kunzmann

Moraweck

et al. 2020

American J of Botany

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PREMISE Fossil leaf traits can enable reconstruction of ancient environments and climates. Among these, leaf size has been particularly studied because it reflects several climatic forcings (e.g., precipitation and surface temperature) and, potentially, environment characteristics (e.g., nutrient availability, local topography, and openness of vegetation). However, imperfect preservation and fragmentation can corrupt its utilization. We provide improved methodology to estimate leaf size from fossil fragments. METHODS We apply three methods: (1) visually reconstructing leaf area based on taxon‐specific gross morphology; (2) estimating intact leaf area from vein density based on a vein scaling relationship; and (3) a novel complementary method, determining intact leaf length based on the tapering of the midvein in the fragment. We test the three methods for fossils of extinct Eotrigonobalanus furcinervis (Fagaceae) from two lignite horizons of the middle and late Eocene of central Germany respectively (~45/46 and 35/36 Ma). RESULTS The three methods, including the new one, yield consistent leaf size reconstructions. The vein scaling method showed a shift to larger leaf size, from the middle to the late Eocene. CONCLUSIONS These methods constitute a toolbox with different solutions to reconstruct leaf size from fossil fragments depending on fossil preservation. Fossil leaf size reconstruction has great potential to improve physiognomy‐based paleoenvironmental reconstructions and the interpretation of the fossil record.

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Interactions between distal epiclastic and bio‐chemogenic sedimentation at the foothills of a mafic alkaline volcano: The case of the Oligocene Doupovské Hory Volcanic Complex (Czech Republic)

Rapprich

Čáp

Kochergina

et al. 2023

The Depositional Record

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Late Oligocene (ca 25 Ma) volcano‐sedimentary successions exposed on the western periphery of the Doupovské Hory Volcanic Complex reveal a complex sedimentation history influenced in various ways by decay of the alkali basalt volcanic edifice. Weathering of the volcanic rocks supplied abundant reactants that promoted carbonate precipitation in the peripheral palaeolakes—as evidenced by strongly non‐radiogenic 87Sr/86Sr values (0.7038–0.7041). On the other hand, the sediments of the initial shallow lake became deformed by the bulldozing effect of a debris avalanche. The debris flow and avalanche deposits filled up the original depression, modified the basin morphology and shifted the peripheral lacustrine setting further away from the volcano. At this stage, surface water influx from the surrounding granites conferred a more radiogenic character (87Sr/86Sr values 0.7046–0.7049) to the calcrete deposits. Fossil assemblages as well as limestone textures suggest significant seasonal water‐level fluctuations, possibly reflecting the alternating rainy and dry‐seasons of a prevalently humid Central‐European Late Oligocene climate. The seasonal drying out of the ponds resulted in significant 18O enrichments. Although the ca 0‰ δ13C values might suggest mixing of atmospheric and volcanic CO2 during carbonate precipitation, no active volcanic conduits of relevant age are known in the close vicinity. The lower δ13C values are likely a result of mantle degassing through rift faults, a phenomenon observed in the magmatically extinct Ohře Rift until present. This paper demonstrates that limestones derived from weathered alkaline basalts are characterised by highly non‐radiogenic Sr isotopic ratios (87Sr/86Sr ca 0.704), suggesting a magmatic origin for the Ca within these carbonates. Contrary to the notion of carbonatites being present when highly non‐radiogenic Sr isotopes are found, these results show that Sr isotopes in carbonates formed in alkali basalt‐sourced environments only reveal the source of the Sr (and Ca) ions, not necessarily the presence of carbonatite.

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Tracing the Eocene–Oligocene transition: a case study from North Bohemia

Cited by 17 publications

References 29 publications

Estimation of late Eocene (Bartonian–Priabonian) terrestrial palaeoclimate: Contributions from megafloral assemblages from central Germany

Estimation of late Eocene (Bartonian–Priabonian) terrestrial palaeoclimate: Contributions from megafloral assemblages from central Germany

Reconstructing leaf area from fragments: testing three methods using a fossil paleogene species

Interactions between distal epiclastic and bio‐chemogenic sedimentation at the foothills of a mafic alkaline volcano: The case of the Oligocene Doupovské Hory Volcanic Complex (Czech Republic)

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