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First evidence of marine turtle gastroliths in a fossil specimen: Paleobiological implications in comparison to modern analogues
Giovanni Serafini,
Caleb M. Gordon 
,
Jacopo Amalfitano ,
Oliver Wings ,
Nicole Esteban ,
Holly Stokes,
Luca Giusberti
,
Jacopo Amalfitano ,
Oliver Wings ,
Nicole Esteban ,
Holly Stokes,
Luca Giusberti
PLOS ONE, Volume: 19, Issue: 5, Start page: e0302889
Swansea University Authors:
Nicole Esteban , Holly Stokes
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© 2024 Serafini et al. This is an open access article distributed under the terms of the Creative Commons Attribution License.
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DOI (Published version): 10.1371/journal.pone.0302889
Abstract
Semi-articulated remains of a large chelonioid turtle from the Turonian strata (Upper Cretaceous; ca. 93.9–89.8 Myr) near Sant’Anna d’Alfaedo (Verona province, northeastern Italy) are described for the first time. Together with the skeletal elements, the specimen also preserves pebbles inside the th...
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| ISSN: | 1932-6203 |
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2024
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Together with the skeletal elements, the specimen also preserves pebbles inside the thoracic area which are lithologically distinct from the surrounding matrix. These allochthonous clasts are here interpreted as geo-gastroliths, in-life ingested stones that resided in the digestive tract of the animal. This interpretation marks the first reported evidence of geophagy in a fossil marine turtle. SEM-EDS analysis, together with macroscopic petrological characterization, confirm the presence of both siliceous and carbonatic pebbles. These putative geo-gastroliths have morphometries and size ranges more similar to those of gastroliths in different taxa (fossils and extant) than allochthonous “dropstone” clasts from the same deposit that were carried by floating vegetation A dense pitted pattern of superficial erosion is microscopically recognizable on the carbonatic gastroliths, consistent with surface etching due to gastric acids. The occurrence of a similar pattern was demonstrated by the experimental etching of carbonatic pebbles with synthetic gastric juice. Gut contents of modern green sea turtles (Chelonia mydas) were surveyed for substrate ingestion, providing direct evidence of geophagic behavior in extant chelonioids. 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v2 66526 2024-05-29 First evidence of marine turtle gastroliths in a fossil specimen: Paleobiological implications in comparison to modern analogues fb2e760b83b4580e7445092982f1f319 0000-0003-4693-7221 Nicole Esteban Nicole Esteban true false 6ee6932996059ed9e4d581641acce2f7 Holly Stokes Holly Stokes true false 2024-05-29 BGPS Semi-articulated remains of a large chelonioid turtle from the Turonian strata (Upper Cretaceous; ca. 93.9–89.8 Myr) near Sant’Anna d’Alfaedo (Verona province, northeastern Italy) are described for the first time. Together with the skeletal elements, the specimen also preserves pebbles inside the thoracic area which are lithologically distinct from the surrounding matrix. These allochthonous clasts are here interpreted as geo-gastroliths, in-life ingested stones that resided in the digestive tract of the animal. This interpretation marks the first reported evidence of geophagy in a fossil marine turtle. SEM-EDS analysis, together with macroscopic petrological characterization, confirm the presence of both siliceous and carbonatic pebbles. These putative geo-gastroliths have morphometries and size ranges more similar to those of gastroliths in different taxa (fossils and extant) than allochthonous “dropstone” clasts from the same deposit that were carried by floating vegetation A dense pitted pattern of superficial erosion is microscopically recognizable on the carbonatic gastroliths, consistent with surface etching due to gastric acids. The occurrence of a similar pattern was demonstrated by the experimental etching of carbonatic pebbles with synthetic gastric juice. Gut contents of modern green sea turtles (Chelonia mydas) were surveyed for substrate ingestion, providing direct evidence of geophagic behavior in extant chelonioids. Comparison with modern turtle dietary habits may suggests that the pebbles were ingested as a way to supplement calcium after or in preparation for egg deposition, implying that the studied specimen was possibly a gravid female. Journal Article PLOS ONE 19 5 e0302889 Public Library of Science (PLoS) 1932-6203 6 5 2024 2024-05-06 10.1371/journal.pone.0302889 COLLEGE NANME Biosciences Geography and Physics School COLLEGE CODE BGPS Swansea University Another institution paid the OA fee The author Giovanni Serafini received a Richard K. Bambach Student Research Award from the Paleontological Society for this study. 2024-06-10T12:57:17.4825869 2024-05-29T14:47:20.8581635 Faculty of Science and Engineering School of Biosciences, Geography and Physics - Biosciences Giovanni Serafini 1 Caleb M. Gordon 0000-0003-3781-7965 2 Jacopo Amalfitano 0000-0003-4280-304x 3 Oliver Wings 0000-0002-6482-6683 4 Nicole Esteban 0000-0003-4693-7221 5 Holly Stokes 6 Luca Giusberti 0000-0002-4401-5410 7 66526__30585__ef718ed787eb43be8076d6c521d2aa24.pdf 66526.VoR.pdf 2024-06-10T12:55:15.6522051 Output 7994324 application/pdf Version of Record true © 2024 Serafini et al. This is an open access article distributed under the terms of the Creative Commons Attribution License. true eng http://creativecommons.org/licenses/by/4.0/ |
| title |
First evidence of marine turtle gastroliths in a fossil specimen: Paleobiological implications in comparison to modern analogues |
| spellingShingle |
First evidence of marine turtle gastroliths in a fossil specimen: Paleobiological implications in comparison to modern analogues Nicole Esteban Holly Stokes |
| title_short |
First evidence of marine turtle gastroliths in a fossil specimen: Paleobiological implications in comparison to modern analogues |
| title_full |
First evidence of marine turtle gastroliths in a fossil specimen: Paleobiological implications in comparison to modern analogues |
| title_fullStr |
First evidence of marine turtle gastroliths in a fossil specimen: Paleobiological implications in comparison to modern analogues |
| title_full_unstemmed |
First evidence of marine turtle gastroliths in a fossil specimen: Paleobiological implications in comparison to modern analogues |
| title_sort |
First evidence of marine turtle gastroliths in a fossil specimen: Paleobiological implications in comparison to modern analogues |
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fb2e760b83b4580e7445092982f1f319 6ee6932996059ed9e4d581641acce2f7 |
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fb2e760b83b4580e7445092982f1f319_***_Nicole Esteban 6ee6932996059ed9e4d581641acce2f7_***_Holly Stokes |
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Nicole Esteban Holly Stokes |
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Giovanni Serafini Caleb M. Gordon Jacopo Amalfitano Oliver Wings Nicole Esteban Holly Stokes Luca Giusberti |
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PLOS ONE |
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2024 |
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1932-6203 |
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10.1371/journal.pone.0302889 |
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Public Library of Science (PLoS) |
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| description |
Semi-articulated remains of a large chelonioid turtle from the Turonian strata (Upper Cretaceous; ca. 93.9–89.8 Myr) near Sant’Anna d’Alfaedo (Verona province, northeastern Italy) are described for the first time. Together with the skeletal elements, the specimen also preserves pebbles inside the thoracic area which are lithologically distinct from the surrounding matrix. These allochthonous clasts are here interpreted as geo-gastroliths, in-life ingested stones that resided in the digestive tract of the animal. This interpretation marks the first reported evidence of geophagy in a fossil marine turtle. SEM-EDS analysis, together with macroscopic petrological characterization, confirm the presence of both siliceous and carbonatic pebbles. These putative geo-gastroliths have morphometries and size ranges more similar to those of gastroliths in different taxa (fossils and extant) than allochthonous “dropstone” clasts from the same deposit that were carried by floating vegetation A dense pitted pattern of superficial erosion is microscopically recognizable on the carbonatic gastroliths, consistent with surface etching due to gastric acids. The occurrence of a similar pattern was demonstrated by the experimental etching of carbonatic pebbles with synthetic gastric juice. Gut contents of modern green sea turtles (Chelonia mydas) were surveyed for substrate ingestion, providing direct evidence of geophagic behavior in extant chelonioids. Comparison with modern turtle dietary habits may suggests that the pebbles were ingested as a way to supplement calcium after or in preparation for egg deposition, implying that the studied specimen was possibly a gravid female. |
| published_date |
2024-05-06T12:57:16Z |
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1801475206905069568 |
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11.012678 |