Gradual phyletic evolution of Reticulofenestra oamaruensis from Reticulofenestra clatrata: A rare example of calcareous nannoplankton microevolution preserved in the sedimentary record at IODP Site U1553 (southern Pacific Ocean)

Persico et al. (2014) first proposed a possible gradual phyletic evolution of Reticulofenestra oamaruensis from R. clatrata during the study of Ocean Drilling Program (ODP) Sites 738, 748, 744 (Kerguelen Plateau), and 689 (Maud Rise). International Ocean Discovery Program (IODP) Expedition 378 Site...

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Main Authors: Catelli V., Persico D., Righi D., Raffi I., Fioroni C., Villa G.
Other Authors: Catelli, V., Persico, D., Righi, D., Raffi, I., Fioroni, C., Villa, G.
Format: Conference Object
Language:English
Published: 2024
Subjects:
Southern Ocean
Online Access:https://hdl.handle.net/11380/1353408
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spelling ftunivmodena:oai:iris.unimore.it:11380/1353408 2024-09-15T18:37:09+00:00 Gradual phyletic evolution of Reticulofenestra oamaruensis from Reticulofenestra clatrata: A rare example of calcareous nannoplankton microevolution preserved in the sedimentary record at IODP Site U1553 (southern Pacific Ocean) Catelli V. Persico D. Righi D. Raffi I. Fioroni C. Villa G. Catelli, V. Persico, D. Righi, D. Raffi, I. Fioroni, C. Villa, G. 2024 https://hdl.handle.net/11380/1353408 eng eng ispartofbook:Journal of Nannoplankton Research INA 19 Abstracts Conwy XIX INTERNATIONAL NANNOPLANKTON ASSOCIATION journal:JOURNAL OF NANNOPLANKTON RESEARCH https://hdl.handle.net/11380/1353408 info:eu-repo/semantics/conferenceObject 2024 ftunivmodena 2024-09-05T23:53:08Z Persico et al. (2014) first proposed a possible gradual phyletic evolution of Reticulofenestra oamaruensis from R. clatrata during the study of Ocean Drilling Program (ODP) Sites 738, 748, 744 (Kerguelen Plateau), and 689 (Maud Rise). International Ocean Discovery Program (IODP) Expedition 378 Site U1553, drilled in the Southern Ocean (Campbell Plateau), recovered a continuously cored, multiple-hole (U1553A–U1553E) Paleogene sedimentary section (Röhl et al., 2022). The good preservation of calcareous nannofossils in these cores made possible a study of the origin of R. oamaruensis and its intraspecific variability, as well as its biostratigraphic distribution in the middle–late Eocene. The original description of this transition only considered samples with sizes of 13.8–17 μm, but our biometric analyses and morphological investigations suggest including transitional morphotypes of R. oamaruensis (10–14 μm). Morphometric quantitative studies allowed us to recognize an intraspecific evolutionary trend that is characterized by a gradual increase in size of small specimens of R. clatrata (8–10 μm), which are present from the base of the stratigraphic sequence (263.81 m core composite depth below seafloor [CCSF]) (Raffi et al., submitted), to large specimens of R. oamaruensis (>14 μm). Intermediate specimens were placed into two size categories (10–12 μm and 12–14 μm). All “morphotypes”, including species with sizes defined in the original descriptions, disappear simultaneously during the Eocene–Oligocene transition (Raffi et al., submitted). Intermediate morphotypes appear as distinct and stratigraphically identifiable events, suggesting a potential “lineage zone” that is useful in Southern Ocean biostratigraphy. The morphological homology, the continuity in the stratigraphic distribution, the same geographical distribution area, and the presence of a gradually increasing size trend from R. clatrata to R. oamaruensis represent a possible phyletic lineage that is endemic to high southern latitudes where R. ... Conference Object Southern Ocean Archivio della ricerca dell'Università di Modena e Reggio Emilia (Unimore: IRIS)
institution Open Polar
collection Archivio della ricerca dell'Università di Modena e Reggio Emilia (Unimore: IRIS)
op_collection_id ftunivmodena
language English
description Persico et al. (2014) first proposed a possible gradual phyletic evolution of Reticulofenestra oamaruensis from R. clatrata during the study of Ocean Drilling Program (ODP) Sites 738, 748, 744 (Kerguelen Plateau), and 689 (Maud Rise). International Ocean Discovery Program (IODP) Expedition 378 Site U1553, drilled in the Southern Ocean (Campbell Plateau), recovered a continuously cored, multiple-hole (U1553A–U1553E) Paleogene sedimentary section (Röhl et al., 2022). The good preservation of calcareous nannofossils in these cores made possible a study of the origin of R. oamaruensis and its intraspecific variability, as well as its biostratigraphic distribution in the middle–late Eocene. The original description of this transition only considered samples with sizes of 13.8–17 μm, but our biometric analyses and morphological investigations suggest including transitional morphotypes of R. oamaruensis (10–14 μm). Morphometric quantitative studies allowed us to recognize an intraspecific evolutionary trend that is characterized by a gradual increase in size of small specimens of R. clatrata (8–10 μm), which are present from the base of the stratigraphic sequence (263.81 m core composite depth below seafloor [CCSF]) (Raffi et al., submitted), to large specimens of R. oamaruensis (>14 μm). Intermediate specimens were placed into two size categories (10–12 μm and 12–14 μm). All “morphotypes”, including species with sizes defined in the original descriptions, disappear simultaneously during the Eocene–Oligocene transition (Raffi et al., submitted). Intermediate morphotypes appear as distinct and stratigraphically identifiable events, suggesting a potential “lineage zone” that is useful in Southern Ocean biostratigraphy. The morphological homology, the continuity in the stratigraphic distribution, the same geographical distribution area, and the presence of a gradually increasing size trend from R. clatrata to R. oamaruensis represent a possible phyletic lineage that is endemic to high southern latitudes where R. ...
author2 Catelli, V.
Persico, D.
Righi, D.
Raffi, I.
Fioroni, C.
Villa, G.
format Conference Object
author Catelli V.
Persico D.
Righi D.
Raffi I.
Fioroni C.
Villa G.
spellingShingle Catelli V.
Persico D.
Righi D.
Raffi I.
Fioroni C.
Villa G.
Gradual phyletic evolution of Reticulofenestra oamaruensis from Reticulofenestra clatrata: A rare example of calcareous nannoplankton microevolution preserved in the sedimentary record at IODP Site U1553 (southern Pacific Ocean)
author_facet Catelli V.
Persico D.
Righi D.
Raffi I.
Fioroni C.
Villa G.
author_sort Catelli V.
title Gradual phyletic evolution of Reticulofenestra oamaruensis from Reticulofenestra clatrata: A rare example of calcareous nannoplankton microevolution preserved in the sedimentary record at IODP Site U1553 (southern Pacific Ocean)
title_short Gradual phyletic evolution of Reticulofenestra oamaruensis from Reticulofenestra clatrata: A rare example of calcareous nannoplankton microevolution preserved in the sedimentary record at IODP Site U1553 (southern Pacific Ocean)
title_full Gradual phyletic evolution of Reticulofenestra oamaruensis from Reticulofenestra clatrata: A rare example of calcareous nannoplankton microevolution preserved in the sedimentary record at IODP Site U1553 (southern Pacific Ocean)
title_fullStr Gradual phyletic evolution of Reticulofenestra oamaruensis from Reticulofenestra clatrata: A rare example of calcareous nannoplankton microevolution preserved in the sedimentary record at IODP Site U1553 (southern Pacific Ocean)
title_full_unstemmed Gradual phyletic evolution of Reticulofenestra oamaruensis from Reticulofenestra clatrata: A rare example of calcareous nannoplankton microevolution preserved in the sedimentary record at IODP Site U1553 (southern Pacific Ocean)
title_sort gradual phyletic evolution of reticulofenestra oamaruensis from reticulofenestra clatrata: a rare example of calcareous nannoplankton microevolution preserved in the sedimentary record at iodp site u1553 (southern pacific ocean)
publishDate 2024
url https://hdl.handle.net/11380/1353408
genre Southern Ocean
genre_facet Southern Ocean
op_relation ispartofbook:Journal of Nannoplankton Research INA 19 Abstracts Conwy
XIX INTERNATIONAL NANNOPLANKTON ASSOCIATION
journal:JOURNAL OF NANNOPLANKTON RESEARCH
https://hdl.handle.net/11380/1353408
_version_ 1810481493586214912

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