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Shadows of the past: An Ediacara-style taphonomic window in advent of Cambrian bioturbators. / Kolesnikov, Anton V.; Marusin, Vasiliy V.; Rud'ko, Sergey V. et al.

In: Precambrian Research, Vol. 399, 107238, 12.2023.

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Kolesnikov AV, Marusin VV, Rud'ko SV, Pokrovsky BG. Shadows of the past: An Ediacara-style taphonomic window in advent of Cambrian bioturbators. Precambrian Research. 2023 Dec;399:107238. doi: 10.1016/j.precamres.2023.107238

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Kolesnikov, Anton V. ; Marusin, Vasiliy V. ; Rud'ko, Sergey V. et al. / Shadows of the past: An Ediacara-style taphonomic window in advent of Cambrian bioturbators. In: Precambrian Research. 2023 ; Vol. 399.

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@article{6ea7d2317a6c413095043d956d3201a7,
title = "Shadows of the past: An Ediacara-style taphonomic window in advent of Cambrian bioturbators",
abstract = "One of the hypotheses, explaining a sudden vanishing of the Ediacaran biota at the Ediacaran-Cambrian transition, correlates this phenomenon with a disappearance of specific taphonomical factors providing fossilization of soft-bodied organisms ({\textquoteleft}Cheshire Cat{\textquoteright} hypothesis). The terminal Ediacaran-Lower Cambrian fossil record does reveal a progressive development of bioturbation and associated decrease of microbial mats, which played a crucial role in the late Precambrian ecosystems. But the tempo of the evolution of organism-sediment interactions significantly varied between different zones of marine basins. Hence, if the {\textquoteleft}Cheshire Cat{\textquoteright} hypothesis is correct, the sedimentary environments barely (if any) colonized by the burrowing eumetazoans might provide the unique interplay of conditions for habitat and Ediacara-style preservation of soft-bodied organisms even in the early Cambrian. Herein we present the new carbon isotope data calibrating the Terreneuvian record in the Ura Uplift of South Siberia and also report fossilized soft-bodied organisms morphologically-close to the Ediacaran holdfasts preserved in association with microbially-induced sedimentary structures in the Cambrian Stage 2 carbonate-siliciclastic Nokhtuisk Formation. Although the late Terreneuvian age, this marginal marine succession is poorly bioturbated and hosts the soft-bodied fossils in the intervals undisturbed by the burrowing organisms. Our study demonstrates the possibility of Ediacara-style preservation of soft-bodied organisms in specific habitat and taphonomic conditions until being replaced by the Cambrian endobenthos.",
author = "Kolesnikov, {Anton V.} and Marusin, {Vasiliy V.} and Rud'ko, {Sergey V.} and Pokrovsky, {Boris G.}",
note = "The study was supported by the Russian Science Foundation projects 21-77-10106 (macrofossil analysis, image processing and interpretation of photographs, to AVK) and 22-77-00026 (trace fossil analysis, to VVM). Analytical studies and field research was carried out on the assignment to the Geological Institute of the Russian Academy of Sciences (FMMG-2023-0004, to AVK, SVR and BGP). The research is coordinated by the Basic Research Program of the Russian Academy of Sciences FWZZ-2022-0002 (to VVM). We thank our reviewers, Sebastian Willman and one anonymous, whose comments and remarks greatly improved the paper. We also thank for field work assistance: Alexander Rimsky, Peter Petrov, Mikhail Fedonkin, Alexander Shytov and Ivan Nezamedinov.",
year = "2023",
month = dec,
doi = "10.1016/j.precamres.2023.107238",
language = "English",
volume = "399",
journal = "Precambrian Research",
issn = "0301-9268",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Shadows of the past: An Ediacara-style taphonomic window in advent of Cambrian bioturbators

AU - Kolesnikov, Anton V.

AU - Marusin, Vasiliy V.

AU - Rud'ko, Sergey V.

AU - Pokrovsky, Boris G.

N1 - The study was supported by the Russian Science Foundation projects 21-77-10106 (macrofossil analysis, image processing and interpretation of photographs, to AVK) and 22-77-00026 (trace fossil analysis, to VVM). Analytical studies and field research was carried out on the assignment to the Geological Institute of the Russian Academy of Sciences (FMMG-2023-0004, to AVK, SVR and BGP). The research is coordinated by the Basic Research Program of the Russian Academy of Sciences FWZZ-2022-0002 (to VVM). We thank our reviewers, Sebastian Willman and one anonymous, whose comments and remarks greatly improved the paper. We also thank for field work assistance: Alexander Rimsky, Peter Petrov, Mikhail Fedonkin, Alexander Shytov and Ivan Nezamedinov.

PY - 2023/12

Y1 - 2023/12

N2 - One of the hypotheses, explaining a sudden vanishing of the Ediacaran biota at the Ediacaran-Cambrian transition, correlates this phenomenon with a disappearance of specific taphonomical factors providing fossilization of soft-bodied organisms (‘Cheshire Cat’ hypothesis). The terminal Ediacaran-Lower Cambrian fossil record does reveal a progressive development of bioturbation and associated decrease of microbial mats, which played a crucial role in the late Precambrian ecosystems. But the tempo of the evolution of organism-sediment interactions significantly varied between different zones of marine basins. Hence, if the ‘Cheshire Cat’ hypothesis is correct, the sedimentary environments barely (if any) colonized by the burrowing eumetazoans might provide the unique interplay of conditions for habitat and Ediacara-style preservation of soft-bodied organisms even in the early Cambrian. Herein we present the new carbon isotope data calibrating the Terreneuvian record in the Ura Uplift of South Siberia and also report fossilized soft-bodied organisms morphologically-close to the Ediacaran holdfasts preserved in association with microbially-induced sedimentary structures in the Cambrian Stage 2 carbonate-siliciclastic Nokhtuisk Formation. Although the late Terreneuvian age, this marginal marine succession is poorly bioturbated and hosts the soft-bodied fossils in the intervals undisturbed by the burrowing organisms. Our study demonstrates the possibility of Ediacara-style preservation of soft-bodied organisms in specific habitat and taphonomic conditions until being replaced by the Cambrian endobenthos.

AB - One of the hypotheses, explaining a sudden vanishing of the Ediacaran biota at the Ediacaran-Cambrian transition, correlates this phenomenon with a disappearance of specific taphonomical factors providing fossilization of soft-bodied organisms (‘Cheshire Cat’ hypothesis). The terminal Ediacaran-Lower Cambrian fossil record does reveal a progressive development of bioturbation and associated decrease of microbial mats, which played a crucial role in the late Precambrian ecosystems. But the tempo of the evolution of organism-sediment interactions significantly varied between different zones of marine basins. Hence, if the ‘Cheshire Cat’ hypothesis is correct, the sedimentary environments barely (if any) colonized by the burrowing eumetazoans might provide the unique interplay of conditions for habitat and Ediacara-style preservation of soft-bodied organisms even in the early Cambrian. Herein we present the new carbon isotope data calibrating the Terreneuvian record in the Ura Uplift of South Siberia and also report fossilized soft-bodied organisms morphologically-close to the Ediacaran holdfasts preserved in association with microbially-induced sedimentary structures in the Cambrian Stage 2 carbonate-siliciclastic Nokhtuisk Formation. Although the late Terreneuvian age, this marginal marine succession is poorly bioturbated and hosts the soft-bodied fossils in the intervals undisturbed by the burrowing organisms. Our study demonstrates the possibility of Ediacara-style preservation of soft-bodied organisms in specific habitat and taphonomic conditions until being replaced by the Cambrian endobenthos.

UR - https://www.scopus.com/record/display.uri?eid=2-s2.0-85178209965&origin=inward&txGid=c22d0f7736f1548c978a23407929111f

UR - https://www.mendeley.com/catalogue/f3eae777-6cb3-32fd-b566-cb09f43c5f25/

U2 - 10.1016/j.precamres.2023.107238

DO - 10.1016/j.precamres.2023.107238

M3 - Article

VL - 399

JO - Precambrian Research

JF - Precambrian Research

SN - 0301-9268

M1 - 107238

ER -

ID: 59336989