From pristine aragonite to blocky calcite: Exceptional preservation and diagenesis of cephalopod nacre in porous Cretaceous limestones

Janiszewska, Katarzyna; Mazur, Maciej; Machalski, Marcin; Stolarski, Jarosław

doi:10.1371/journal.pone.0208598

Cited by 27 publications

(8 citation statements)

References 79 publications

(133 reference statements)

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“…In our case, the ammonite internal moulds are covered by three layers of material differing from the original shell and hence resulting from a diagenetic transformation. Although likely simplistic, the model proposed here is a transformation of the nacreous aragonitic layer into the equant calcite layer similarly to observation in Janiszewska et al (2018). Due to the low-oxygen conditions and in presence of organic matter from the shell internal chambers and periostracum (i.e., external organic coating layer of the shell; Lowenstam and Weiner, 1989), both external and internal prismatic aragonite layers were transformed into fibrous glauconitic coatings.…”

Section: Taphonomical and Paleoenvironemental Resultssupporting

confidence: 52%

Paleoenvironmental context and significance of a partial elasmosaurid skeleton from the Albian of Haute-Provence, France

Vincent¹,

Grosjean

Bert

et al. 2020

Cretaceous Research

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The Early-Late Cretaceous transition (late Albian-early Cenomanian; ~100 Ma) witnessed marked environmental changes and a deep reorganization of the marine fauna. The impact of these environmental and biotic changes on Tethyan marine vertebrates is poorly understood, due to a fragmentary fossil record. Here we report upper Albian marine vertebrate remains, including a partially articulated plesiosaurian skeleton, from a fossiliferous glauconite-rich bed in the Alpes de Haute-Provence, France. The fossiliferous horizon produced a diversified invertebrate fauna including ammonoids and belemnoids. The ammonite fauna is abundant and diversified, indicating the Mortoniceras fallax ammonite Zone. The calcareous nannofossil biomarkers date the bed to the NC10a Zone. The fossiliferous bed consists of glauconitic marls enriched in planktic foraminifera and occurs amongst a monotonous succession of alternating marlstones and limestone beds. The vertebrate fauna consists of chondrichthyans and marine reptiles. Chondrichthyans are represented by five Lamniformes species (dominated by Sphenodus) and comprise predator taxa probably living in open marine temperate waters. The site yielded a large, partial post-cranial plesiosaurian skeleton with articulated elements belonging to an elasmosaurid and representing one of the most complete Albian plesiosaurian specimens known from Europe. The abundance and preservation of the collected fossil remains are best explained by their concentration during a basin-scale episode of very low sedimentation corresponding to a major episode of marine transgression, associated with a lower oxygenation of bottom waters. These findings indicate that the newly discovered fossiliferous bed holds promising clues about the evolutionary history of major groups of marine vertebrates and ammonites near the Early-Late Cretaceous transition.

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Section: Taphonomical and Paleoenvironemental Resultssupporting

confidence: 52%

Paleoenvironmental context and significance of a partial elasmosaurid skeleton from the Albian of Haute-Provence, France

Vincent¹,

Grosjean

Bert

et al. 2020

Cretaceous Research

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“…All these methods highlight the excellent preservation of the aragonitic microstructures and original minerals in C. giganteum shells, even showing preservation of original nacre inside the aperture of the shells (Figures 2f and 2h). The presence of preserved nacre is an indication of excellent preservation since this microstructure is even more susceptible to diagenesis than other aragonite microstructures (e.g., cross lamellar aragonite) due to its high organic matter content (Janiszewska et al, 2018). Despite the good preservation, detailed observations revealed that some parts of the shells were affected by boring or represented aragonite that was precipitated later in the animal's life history on the inside of the whorls (see Figures 2b–2d).…”

Section: Methodsmentioning

confidence: 99%

The Giant Marine Gastropod Campanile Giganteum (Lamarck, 1804) as a High‐Resolution Archive of Seasonality in the Eocene Greenhouse World

Winter

Vellekoop

Clark

et al. 2020

Geochem Geophys Geosyst

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Giant gastropods are among the largest mollusks in the fossil record, but their potential as paleoseasonality archives has received little attention. Here, we combine stable isotope and trace element analyses with microscopic observations and growth modeling on shells of two species of the gastropod genus Campanile: the extinct Campanile giganteum from Lutetian (~45 Ma) deposits in the Paris Basin (France), the longest gastropod known from the fossil record, and its modern relative Campanile symbolicum from southwestern Australia. The C. giganteum shells contain original aragonite and have pristine nacre in their apertures. We show that these gastropods attained growth rates exceeding 600 mm/year along their helix, depositing over 300 cm 3 aragonite per year. High growth rates and excellent preservation make C. giganteum excellent archives for reconstructing environmental change at high (potentially daily) temporal resolution, while providing enough material for methods such as clumped isotope analysis. Growth models show that Campanile gastropods grew nearly year-round, albeit slower in winter. Stable oxygen isotope ratios in modern C. symbolicum faithfully record a seasonal variability of 18-25°C in sea surface temperature, only failing to record the coolest winter temperatures (down to~16°C). Similarly, C. giganteum specimens likely record a nearly complete seasonal temperature range. Assuming constant sea water isotope composition, their oxygen isotope seasonality of up to 2.5‰ would translate to a Lutetian temperature range of 21-32°C in the Paris Basin. We hypothesize that these high and seasonally variable temperatures formed the breeding ground for the Lutetian shallow marine biodiversity hotspot in the Paris Basin.

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“…Both aragonite as well as calcite crystals are 3-5 μm in size. The preservation of the original shell mineralogy, in particular of meta stable aragonite, appears to depend on several factors; most important are (1) reducing conditions within the host sediment (hall & Kennedy 1967), (2) low permeability of the host sediment (hall & Kennedy 1967;andaliB 1973;janisZeWsKa et al 2018), and (3) seawater composition at the time when the aragonitic fossils became embedded.…”

Section: G Transformation Of the (White) Aragonitic Shell Into (Browmentioning

confidence: 99%

The Middle Jurassic Opalinuston Formation (Aalenian, Opalinum Zone) at its type locality near Bad Boll and adjacent outcrops (Swabian Alb, SW Germany)

Dietze¹,

Gräbenstein²,

Franz³

et al. 2021

Palaeodiversity

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From pristine aragonite to blocky calcite: Exceptional preservation and diagenesis of cephalopod nacre in porous Cretaceous limestones

Cited by 27 publications

References 79 publications

Paleoenvironmental context and significance of a partial elasmosaurid skeleton from the Albian of Haute-Provence, France

Paleoenvironmental context and significance of a partial elasmosaurid skeleton from the Albian of Haute-Provence, France

The Giant Marine Gastropod Campanile Giganteum (Lamarck, 1804) as a High‐Resolution Archive of Seasonality in the Eocene Greenhouse World

The Middle Jurassic Opalinuston Formation (Aalenian, Opalinum Zone) at its type locality near Bad Boll and adjacent outcrops (Swabian Alb, SW Germany)

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