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Millennial-scale changes in abundance of brachiopods in bathyal environments detected by postmortem age distributions in death assemblage (Bari Canyon, Adriatic Sea)

Tomašových, Adam ; García-Ramos, Diego A. ; Nawrot, Rafał ; [et al.]

Geological Society of London ; 2023

In: Geological Society, London, Special Publications Vol. 529, No. 1 ( 2023-07-03), p. 153-174

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In: Geological Society, London, Special Publications, Geological Society of London, Vol. 529, No. 1 ( 2023-07-03), p. 153-174

Abstract: Inferring the composition of pre-Anthropocene baseline communities on the basis of death assemblages (DAs) preserved in a surface mixed layer requires discriminating among recently-dead shells sourced by living populations and older shells from extirpated populations. Here, we assess the distribution of postmortem ages in the DA formed by the brachiopod Gryphus vitreus at 580 m depth in the Bari Canyon (Adriatic Sea), with no individuals collected alive. The Gryphus DA exhibits millennial time averaging (inter-quartile range = 1250 years) and two modes in abundance at 500 and 1750 years BP. As high abundance of species in time-averaged DAs can reflect passive accumulation of shells sourced by populations with low standing population density, we reconstruct changes in annual density on the basis of the abundance maxima detected in the distribution of postmortem ages and on the basis of estimates of per-specimen disintegration rate. We find that adults ( 〉 20 mm) achieved densities of at least 10–20 individuals/m 2 (assuming lifespan is 10 years), and the pulses in abundance were thus associated with a high population density in the past, followed by the decline over the last few centuries. We infer that bathyal populations were volatile during the Late Holocene, with brachiopods sensitive to siltation that was induced by temporal changes in sediment dispersal into the Bari Canyon due to deforestation and climatic changes.

Type of Medium: Online Resource

ISSN: 0305-8719 , 2041-4927

URL: Article

DOI: 10.1144/SP529-2022-117

Language: English

Publisher: Geological Society of London

Publication Date: 2023

detail.hit.zdb_id: 2478172-1

detail.hit.zdb_id: 196249-8

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How long does a brachiopod shell last on a seafloor? Modern mid‐bathyal environments as taphonomic analogues of continental shelves prior to the Mesozoic Marine Revolution

Tomašových, Adam ; García‐Ramos, Diego A. ; Nawrot, Rafał ; [et al.]

Wiley ; 2022

In: Palaeontology Vol. 65, No. 6 ( 2022-11)

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In: Palaeontology, Wiley, Vol. 65, No. 6 ( 2022-11)

Abstract: Carbonate skeletal remains are altered and disintegrate at yearly to decadal scales in present‐day shallow‐marine environments with intense bioerosion and dissolution. Present‐day brachiopod death assemblages are invariably characterized by poor preservation on continental shelves, and abundant articulated shells of brachiopods with complete brachidia are thus not expected to be preserved if not rapidly buried. However, such preservation is paradoxically observed in shallow‐water Palaeozoic and Mesozoic brachiopod assemblages. Here, we show that a bathyal death assemblage time‐averaged to several millennia (Adriatic Sea) consists of sediment‐filled articulated shells of Gryphus vitreus with complete brachidia. Post‐mortem age distributions indicate that disintegration half‐lives exceed several centuries ( c . 500–1700 years). The high frequency of articulated but centuries‐old shells ( 〉 50%) and the fitting of taphonomic models to post‐mortem ages indicate that disarticulation half‐life is unusually long ( c . 200 years). Rapid sediment filling of shells: (1) inhibited disarticulation, loop fragmentation and colonization by coelobites; and (2) induced precipitation of ferromanganese oxides at redox fronts within shells. Sediment‐filled articulated shells, however, still resided at the sediment–water interface as indicated by encrusters and sponges that infested them after death. Sediment‐filled shells disintegrated through bioerosion and physical wear when residence in the taphonomically active zone exceeded c . 2000 years. We suggest that the articulation paradox is driven by the Mesozoic Marine Revolution (MMR) that escalated predation, bioturbation and organic matter recycling, all intensifying shell disintegration. A scenario with slow disarticulation in bathyal environments may have lead to preservation of articulated shells in shallow‐water assemblages prior to the MMR.

Type of Medium: Online Resource

ISSN: 0031-0239 , 1475-4983

URL: Issue

URL: Article

DOI: 10.1111/pala.v65.6

DOI: 10.1111/pala.12631

Language: English

Publisher: Wiley

Publication Date: 2022

detail.hit.zdb_id: 2034710-8

SSG: 13

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