EARLY DIAGENESIS OF SEEDS ASSOCIATED WITH LIMESTONES SOILS

Fresia Ricardi Branco; Flavia Callefo; Marco Aurelio Zezzi Arruda; Gustavo de Sousa Pessôa; Alcina Magnólia Franca Barreto; Aline Marcele Ghilardi; Lara Maldanis; Luiz Ricardo da Silva Lóbo Do Nascimento

doi:10.2110/palo.2021.053

EARLY DIAGENESIS OF SEEDS ASSOCIATED WITH LIMESTONES SOILS

Fresia Ricardi Branco
, Flavia Callefo
, Marco Aurelio Zezzi Arruda
, Gustavo de Sousa Pessôa
, Alcina Magnólia Franca Barreto
, Aline Marcele Ghilardi
, Lara Maldanis
, Luiz Ricardo da Silva Lóbo Do Nascimento

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

Early diagenesis of fossil plants, especially of their reproductive structures, provides essential information about the evolution of the group. In this study, we describe the morphology and early fossil diagenesis of isolated eudicot seeds collected in neosols (entisols) derived from limestones of Romualdo Formation, Araripe Basin, Brazil. They were studied using scanning electron microscopy, X-ray microtomography, and laser ablation inductively coupled plasma mass spectrometry in the imaging mode. The seeds were three-dimensionally preserved with volumes ranging from 10.16 to 18.57 mm3. The morphology and anatomy are described, and the specimens are identified as Fabidae seeds. It is known that Fabidae arose in the mid-late Cretaceous, so the seeds were considered diachronic to the paleobiota from the Romualdo Formation, not belonging to this stratigraphy. Based on the spectrometric intensities of the mapped elements, such as C, Fe, Si, and Cu, intensity images were elaborated on these elements on the surface and inside the seeds. The maps indicated higher intensities of C, Fe, Si, and Cu in the seed tissues than those in modern seeds, suggesting an early stage of diagenesis. The calcareous sandstones of the Romualdo Formation may have contributed charged ions carried by meteoric water and groundwater, and they later precipitated in the organic tissues, triggering the start of diagenesis in the soil.

Original language	English
Pages (from-to)	158-171
Journal	Palaios
Volume	38
Issue number	3
DOIs	https://doi.org/10.2110/palo.2021.053
Publication status	Published - 1 Mar 2023
Externally published	Yes

Funding

This research was supported by the Brazilian National Science and Technology Development Council (Conselho Nacional de Desenvolvimento Científico e Tecnológico; CNPq, process numbers 131216/2013-9, 407148/ 2010-3, 201716/2010-0 and 303333/2021-3) for financial support. We are also thankful to the Brazilian Nanotechnology National Laboratory (LNNano) for providing the X-ray microtomography facility (proposal CMICRO CT 19819). We thank our colleague Douglas Galante for his valuable assistance in the analyses. And to São Paulo Research Foundation (Fundac¸ão de Amparo a Pesquisa do Estado de São Paulo; FAPESP grant N° 2019/16727-3 and N° 2020/02537-5) for financial support. This manuscript was additionally funded by the Second Workshop on Actualistic Taphonomy (Brazil 2021; CAPES (8887.470844/2019-00 and CNPq 403577/2019-5). The authors would also like to thank the two anonymous reviewers and PALAIOS Editor Dr. Yurena Yanes for their valuable suggestions and comments that improved the text.

Funders	Funder number
Brazilian National Science and Technology Development Council
Fundação de Amparo à Pesquisa do Estado de São Paulo	2020/02537-5, 2019/16727-3
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior	403577/2019-5, 8887.470844/2019-00
Conselho Nacional de Desenvolvimento Científico e Tecnológico	407148/ 2010-3, 131216/2013-9, 201716/2010-0, 303333/2021-3

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title = "EARLY DIAGENESIS OF SEEDS ASSOCIATED WITH LIMESTONES SOILS",

abstract = "Early diagenesis of fossil plants, especially of their reproductive structures, provides essential information about the evolution of the group. In this study, we describe the morphology and early fossil diagenesis of isolated eudicot seeds collected in neosols (entisols) derived from limestones of Romualdo Formation, Araripe Basin, Brazil. They were studied using scanning electron microscopy, X-ray microtomography, and laser ablation inductively coupled plasma mass spectrometry in the imaging mode. The seeds were three-dimensionally preserved with volumes ranging from 10.16 to 18.57 mm3. The morphology and anatomy are described, and the specimens are identified as Fabidae seeds. It is known that Fabidae arose in the mid-late Cretaceous, so the seeds were considered diachronic to the paleobiota from the Romualdo Formation, not belonging to this stratigraphy. Based on the spectrometric intensities of the mapped elements, such as C, Fe, Si, and Cu, intensity images were elaborated on these elements on the surface and inside the seeds. The maps indicated higher intensities of C, Fe, Si, and Cu in the seed tissues than those in modern seeds, suggesting an early stage of diagenesis. The calcareous sandstones of the Romualdo Formation may have contributed charged ions carried by meteoric water and groundwater, and they later precipitated in the organic tissues, triggering the start of diagenesis in the soil.",

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doi = "10.2110/palo.2021.053",

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AU - Branco, Fresia Ricardi

AU - Callefo, Flavia

AU - Arruda, Marco Aurelio Zezzi

AU - de Sousa Pessôa, Gustavo

AU - Barreto, Alcina Magnólia Franca

AU - Ghilardi, Aline Marcele

AU - Maldanis, Lara

AU - da Silva Lóbo Do Nascimento, Luiz Ricardo

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N2 - Early diagenesis of fossil plants, especially of their reproductive structures, provides essential information about the evolution of the group. In this study, we describe the morphology and early fossil diagenesis of isolated eudicot seeds collected in neosols (entisols) derived from limestones of Romualdo Formation, Araripe Basin, Brazil. They were studied using scanning electron microscopy, X-ray microtomography, and laser ablation inductively coupled plasma mass spectrometry in the imaging mode. The seeds were three-dimensionally preserved with volumes ranging from 10.16 to 18.57 mm3. The morphology and anatomy are described, and the specimens are identified as Fabidae seeds. It is known that Fabidae arose in the mid-late Cretaceous, so the seeds were considered diachronic to the paleobiota from the Romualdo Formation, not belonging to this stratigraphy. Based on the spectrometric intensities of the mapped elements, such as C, Fe, Si, and Cu, intensity images were elaborated on these elements on the surface and inside the seeds. The maps indicated higher intensities of C, Fe, Si, and Cu in the seed tissues than those in modern seeds, suggesting an early stage of diagenesis. The calcareous sandstones of the Romualdo Formation may have contributed charged ions carried by meteoric water and groundwater, and they later precipitated in the organic tissues, triggering the start of diagenesis in the soil.

AB - Early diagenesis of fossil plants, especially of their reproductive structures, provides essential information about the evolution of the group. In this study, we describe the morphology and early fossil diagenesis of isolated eudicot seeds collected in neosols (entisols) derived from limestones of Romualdo Formation, Araripe Basin, Brazil. They were studied using scanning electron microscopy, X-ray microtomography, and laser ablation inductively coupled plasma mass spectrometry in the imaging mode. The seeds were three-dimensionally preserved with volumes ranging from 10.16 to 18.57 mm3. The morphology and anatomy are described, and the specimens are identified as Fabidae seeds. It is known that Fabidae arose in the mid-late Cretaceous, so the seeds were considered diachronic to the paleobiota from the Romualdo Formation, not belonging to this stratigraphy. Based on the spectrometric intensities of the mapped elements, such as C, Fe, Si, and Cu, intensity images were elaborated on these elements on the surface and inside the seeds. The maps indicated higher intensities of C, Fe, Si, and Cu in the seed tissues than those in modern seeds, suggesting an early stage of diagenesis. The calcareous sandstones of the Romualdo Formation may have contributed charged ions carried by meteoric water and groundwater, and they later precipitated in the organic tissues, triggering the start of diagenesis in the soil.

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EARLY DIAGENESIS OF SEEDS ASSOCIATED WITH LIMESTONES SOILS

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