Galeorhinus aff. G. duchaussoisi de Blainville 1816

Galeorhinus aff. G. duchaussoisi Adnet & Cappetta, 2008 Fig. 23 A–F, K–M Galeorhinus duchaussoisi Adnet & Cappetta, 2008: 435, fig. 2. cf. Galeorhinus sp. – Clayton et al. 2013: fig. 3k. Galeorhinus duchaussoisi – Cappetta & Case 2016: 60, pl. 9, figs 7–8. Material examined UNITED STATES...

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Main Authors: Ebersole, Jun A., Cicimurri, David J., Stringer, Gary L.
Format: Text
Language:unknown
Published: Zenodo 2019
Subjects:
Online Access:https://dx.doi.org/10.5281/zenodo.3664554
https://zenodo.org/record/3664554
id ftdatacite:10.5281/zenodo.3664554
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language unknown
topic Biodiversity
Taxonomy
Animalia
Chordata
Elasmobranchii
Carcharhiniformes
Triakidae
Galeorhinus
Galeorhinus aff. g. duchaussoisi
spellingShingle Biodiversity
Taxonomy
Animalia
Chordata
Elasmobranchii
Carcharhiniformes
Triakidae
Galeorhinus
Galeorhinus aff. g. duchaussoisi
Ebersole, Jun A.
Cicimurri, David J.
Stringer, Gary L.
Galeorhinus aff. G. duchaussoisi de Blainville 1816
topic_facet Biodiversity
Taxonomy
Animalia
Chordata
Elasmobranchii
Carcharhiniformes
Triakidae
Galeorhinus
Galeorhinus aff. g. duchaussoisi
description Galeorhinus aff. G. duchaussoisi Adnet & Cappetta, 2008 Fig. 23 A–F, K–M Galeorhinus duchaussoisi Adnet & Cappetta, 2008: 435, fig. 2. cf. Galeorhinus sp. – Clayton et al. 2013: fig. 3k. Galeorhinus duchaussoisi – Cappetta & Case 2016: 60, pl. 9, figs 7–8. Material examined UNITED STATES OF AMERICA – Alabama • 10 isolated teeth; Claiborne Group; ALMNH PV1989.4.219d (3 specimens), MSC 35756.1 – 2, MSC 37353.4, MSC 37691, SC 2012.47.56 (3 specimens). Description Teeth mesiodistally wider than tall, with elongated mesial cutting edge that is sinuous in anterolateral jaw positions but slightly convex in lateral files. Distal cutting edge short, vertical or inclined, forms triangular cusp with mesial edge. Cusp distally inclined in all tooth positions; apex on some teeth upturned. Distinct distal heel bears one to six triangular distal cusplets. Cusplets decrease in size laterally; largest, most mesial, cusplet well separated from main cusp. Distal cusplets often less conspicuous than the others, often forming an irregular cutting edge. Irregular serrations occur on lower half of mesial cutting edge of anterolateral teeth but absent on lateral files. Labial and lingual crown faces generally smooth, but faint labial folds observed on some teeth. Labial crown face overhangs the root with a pronounced bulge. Roots low with very divergent lobes. Lingual root face distinctly flat, with deep and wide nutritive groove. Remarks Five species of Paleogene Galeorhinus have been reported in the literature, including G. duchaussoisi Adnet & Cappetta, 2008; G. louisi Adnet & Cappetta, 2008; G. mesetaensis Noubhani & Cappetta, 1997; G. minutissimus (Arambourg, 1935); and G. ypresiensis (Casier, 1946).Averianov & Udovichenko (1993) erected Galeorhinus tenius based on specimens from the Eocene of Uzbekistan, but this species has not been formally described or figured so it is considered as a nomen nudum . Cappetta & Case (2016) were the first to report the occurrence of G. duchaussoisi in the Eocene of Alabama, and most of the specimens in our sample appear to fit the type description for this taxon in that they range between 5.0 to 7.0 mm in greatest width and have up to six pairs of lateral cusplets. However, one specimen in our sample, MSC 37353.4 (Fig. 23 K–M), measures only 2.2 mm in width and has only two distal cusplets. This tooth lacks any labial ornamentation, separating it from G. louisi and G. mesetaensis , and also lacks any denticulations on its mesial edge, separating it from G. ypresiensis . Although this tooth is complete, assigning it to either G. duchaussoisi or G. minutissimus has proven to be problematic. MSC 37353.4 appears to correspond well to the G. minutissimus specimens described and figured by Noubhani & Cappetta (1997: 81, pl. 43, figs 2–14) as it falls within the size range they provided for this species (1.87 to 3.79 mm in greatest width) and, as claimed by the authors, the teeth of this taxon never have more than three distal cusplets. These characteristics, however, contrast with the type description by Arambourg (1935) for G. minutissimus in which he described the teeth as not exceeding 5.0 mm in width and having up to five or six distal cusplets. Arambourg (1952: 155–157, pl. 24, figs 29–37) later provided a more complete description of G. minutissimus and included additional figures. The two aforementioned characteristics were not only reiterated by Arambourg (1952), but are clearly visible on several of the teeth he figured in both 1935 and 1952. Aside from specimen MSC 37353.4, the remaining teeth in our sample exceed 5.0 mm in width, the maximum size for G. minutissimus per Arambourg (1935, 1952). To further differentiate these species, Adnet & Cappetta (2008) noted that the main cusp on the teeth of G. minutissimus are more slender than those on G . duchaussoisi . However, aside from size, the characteristics provided by Adnet & Cappetta (2008) to separate G . duchaussoisi from G. minutissimus appear ambiguous when dealing with specimens smaller than 5.0 mm in width. In a comparison of the type suites and descriptions for both taxa, the number of distal cusplets can vary from between one and six for both taxa depending on tooth position (see Arambourg 1935: pl. 10, figs 13–15, 1952: pl. 24, figs 29–37; Adnet & Cappetta 2008: fig. 2). Furthermore, their size ranges overlap from 2.0 to 5.0 mm for G. minutissimus and 2.8 to 6.7 for G. duchaussoisi , again depending on tooth position. These characteristics, however, could be a result of ontogenetic heterodonty, as it has been reported that within Recent Galeorhinus specimens, the number of distal cusplets on the teeth increases as the teeth become larger and more robust with age (Compagno 1988). Such changes could be the result ontogenetic dietary shifts, which have been well documented in extant populations of Galeorhinus galeus (Linneaus, 1758) (see Lucifora et al. 2006; Ebert & Stehmann 2013). As a result, there is a distinct possibility that the teeth of G. minutissimus represent the juvenile form of G . duchaussoisi , thus compounding the difficulty in differentiating smaller specimens. Furthermore, both species have been reported from Ypresian and Lutetian deposits (see Noubhani & Cappetta 1997; Adnet & Cappetta 2008; Cappetta & Case 2016), indicating that they have stratigraphic as well as morphological overlap. Regarding the specimens in our sample, teeth with the morphology described above are provisionally assigned to Galeorhinus aff. G . duchaussoisi because a majority are wider than 5.0 mm, exceeding the maximum size of G. minutissimus as reported by Arambourg (1935, 1952). White (1956) and Thurmond & Jones (1981) reported the occurrence of Galeorhinus recticonus claibornensis White, 1956 from the Gosport Sand from Clarke and Monroe counties in Alabama. This taxon was later placed within the genus Abdounia by Cappetta (1980a), and we refer this species to a new genus described in detailed below. White (1956) and Thurmond & Jones (1981) also reported the occurrence of Galeorhinus cf. falconeri from the Tallahatta Formation and Gosport Sand in Monroe County and the Jackson Group strata in Clarke County. Although neither White (1956) nor Thurmond & Jones (1981) figured their specimens, G. falconeri was subsequently referred to Physogaleus by Adnet & Cappetta (2008) (see Physogaleus secundus below). Stratigraphic and geographic range in Alabama The specimens in our sample were collected from the lower Tallahatta Formation at site ADl-1, the Tallahatta Formation at site AMo-8, the basal Lisbon Formation at site ACov-11, and the Gosport Sand at site ACh-21. Upper Ypresian to middle Bartonian, zones NP14 to NP17. : Published as part of Ebersole, Jun A., Cicimurri, David J. & Stringer, Gary L., 2019, Taxonomy and biostratigraphy of the elasmobranchs and bony fishes (Chondrichthyes and Osteichthyes) of the lower-to-middle Eocene (Ypresian to Bartonian) Claiborne Group in Alabama, USA, including an analysis of otoliths, pp. 1-274 in European Journal of Taxonomy 585 on pages 61-63, DOI: 10.5852/ejt.2019.585, http://zenodo.org/record/3660259 : {"references": ["Adnet S. & Cappetta H. 2008. New fossil triakid sharks from the Eocene of Premontre, France, and comments on fossil record of the family. Acta Palaeontologica Polonica 53 (3): 433 - 448. https: // doi. org / 10.4202 / app. 2008.0306", "Clayton A. A., Ciampaglio, C. N. & Cicimurri, D. J. 2013. An inquiry into the stratigraphic occurrence of a Claibornian (Eocene) vertebrate fauna from Covington County, Alabama. Bulletin Alabama Museum of Natural History 31 (2): 60 - 73.", "Cappetta H. & Case G. R. 2016. A selachian fauna from the middle Eocene (Lutetian, Lisbon Formation) of Andalusia, Covington County, Alabama, USA. Palaeontographica Abteilung A 307 (1 - 6): 43 - 103.", "Noubhani A. & Cappetta H. 1997. Les Orectolobiformes, Carcharhiniformes et Myliobatiformes (Elasmobranchii, Neoselachii) des Bassins a phosphates du Maroc (Maastrichtien-Lutetien basal). Systematique, biostratigraphie, evolution et dynamique des faunes. Palaeo Ichthyologica 8: 1 - 327.", "Arambourg C. 1935. Note preliminaire sur les vertebres fossiles des phosphates du Maroc. Bulletin de la Societe geologique de France 5 (5): 413 - 439.", "Casier E. 1946. La faune ichthyologique de l'Ypresien de la Belgique. Memoires du Musee royal d'Histoire naturelle de Belgique 104: 1 - 267.", "Arambourg C. 1952. Les vertebres fossiles des gisements de phosphates (Maroc-Algerie-Tunisie). Notes et Memoires du Service geologique du Maroc 92: 1 - 372.", "Cappetta H. 1992. Carcharhiniformes nouveaux (Chondrichthyes, Neoselachii) de l'Ypresien du Bassin de Paris. Geobios 25 (5): 639 - 646. https: // doi. org / 10.1016 / 0016 - 6995 (92) 80103 - K", "Compagno L. J. V. 1988. Sharks of the Order Carcharhiniformes. Princeton University Press, New Jersey.", "Lucifora L. O., Garcia V. B., Menni R. C. & Escalante A. H. 2006. Food habits, selectivity, and foraging modes of the school shark Galeorhinus galeus. Marine Ecology Progress Series 315: 259 - 270. https: // doi. org / 10.3354 / meps 315259", "Ebert D. A. & Stehmann M. 2013. Sharks, batoids, and chimaeras of the North Atlantic. FAO Species Catalogue for Fishery Purposes 7: 1 - 523.", "White E. I. 1956. The Eocene fishes of Alabama. Bulletins of American Paleontology 36 (156): 123 - 150.", "Thurmond J. T. & Jones D. E. 1981. Fossil Vertebrates of Alabama. University of Alabama Press, Tuscaloosa.", "Cappetta H. 1980 a. Modification du statut generique de quelques especes de selaciens cretaces et tertiaires. Palaeovertebrata 10 (1): 29 - 42."]}
format Text
author Ebersole, Jun A.
Cicimurri, David J.
Stringer, Gary L.
author_facet Ebersole, Jun A.
Cicimurri, David J.
Stringer, Gary L.
author_sort Ebersole, Jun A.
title Galeorhinus aff. G. duchaussoisi de Blainville 1816
title_short Galeorhinus aff. G. duchaussoisi de Blainville 1816
title_full Galeorhinus aff. G. duchaussoisi de Blainville 1816
title_fullStr Galeorhinus aff. G. duchaussoisi de Blainville 1816
title_full_unstemmed Galeorhinus aff. G. duchaussoisi de Blainville 1816
title_sort galeorhinus aff. g. duchaussoisi de blainville 1816
publisher Zenodo
publishDate 2019
url https://dx.doi.org/10.5281/zenodo.3664554
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long_lat ENVELOPE(-64.183,-64.183,-65.167,-65.167)
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Clayton
Monroe
geographic_facet Alabama
Clayton
Monroe
genre North Atlantic
genre_facet North Atlantic
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spelling ftdatacite:10.5281/zenodo.3664554 2023-05-15T17:37:40+02:00 Galeorhinus aff. G. duchaussoisi de Blainville 1816 Ebersole, Jun A. Cicimurri, David J. Stringer, Gary L. 2019 https://dx.doi.org/10.5281/zenodo.3664554 https://zenodo.org/record/3664554 unknown Zenodo http://zenodo.org/record/3660259 http://publication.plazi.org/id/E42E3539FF85FFAFFFC69F344D4B0F37 http://zoobank.org/181B6FBA-ED75-4BB4-84C4-FB512B794749 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.5852/ejt.2019.585 http://zenodo.org/record/3660259 http://publication.plazi.org/id/E42E3539FF85FFAFFFC69F344D4B0F37 https://dx.doi.org/10.5281/zenodo.3660303 http://zoobank.org/181B6FBA-ED75-4BB4-84C4-FB512B794749 https://dx.doi.org/10.5281/zenodo.3664553 https://zenodo.org/communities/biosyslit Open Access Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode cc0-1.0 info:eu-repo/semantics/openAccess CC0 Biodiversity Taxonomy Animalia Chordata Elasmobranchii Carcharhiniformes Triakidae Galeorhinus Galeorhinus aff. g. duchaussoisi Taxonomic treatment article-journal Text ScholarlyArticle 2019 ftdatacite https://doi.org/10.5281/zenodo.3664554 https://doi.org/10.5852/ejt.2019.585 https://doi.org/10.5281/zenodo.3660303 https://doi.org/10.5281/zenodo.3664553 2022-02-08T12:40:44Z Galeorhinus aff. G. duchaussoisi Adnet & Cappetta, 2008 Fig. 23 A–F, K–M Galeorhinus duchaussoisi Adnet & Cappetta, 2008: 435, fig. 2. cf. Galeorhinus sp. – Clayton et al. 2013: fig. 3k. Galeorhinus duchaussoisi – Cappetta & Case 2016: 60, pl. 9, figs 7–8. Material examined UNITED STATES OF AMERICA – Alabama • 10 isolated teeth; Claiborne Group; ALMNH PV1989.4.219d (3 specimens), MSC 35756.1 – 2, MSC 37353.4, MSC 37691, SC 2012.47.56 (3 specimens). Description Teeth mesiodistally wider than tall, with elongated mesial cutting edge that is sinuous in anterolateral jaw positions but slightly convex in lateral files. Distal cutting edge short, vertical or inclined, forms triangular cusp with mesial edge. Cusp distally inclined in all tooth positions; apex on some teeth upturned. Distinct distal heel bears one to six triangular distal cusplets. Cusplets decrease in size laterally; largest, most mesial, cusplet well separated from main cusp. Distal cusplets often less conspicuous than the others, often forming an irregular cutting edge. Irregular serrations occur on lower half of mesial cutting edge of anterolateral teeth but absent on lateral files. Labial and lingual crown faces generally smooth, but faint labial folds observed on some teeth. Labial crown face overhangs the root with a pronounced bulge. Roots low with very divergent lobes. Lingual root face distinctly flat, with deep and wide nutritive groove. Remarks Five species of Paleogene Galeorhinus have been reported in the literature, including G. duchaussoisi Adnet & Cappetta, 2008; G. louisi Adnet & Cappetta, 2008; G. mesetaensis Noubhani & Cappetta, 1997; G. minutissimus (Arambourg, 1935); and G. ypresiensis (Casier, 1946).Averianov & Udovichenko (1993) erected Galeorhinus tenius based on specimens from the Eocene of Uzbekistan, but this species has not been formally described or figured so it is considered as a nomen nudum . Cappetta & Case (2016) were the first to report the occurrence of G. duchaussoisi in the Eocene of Alabama, and most of the specimens in our sample appear to fit the type description for this taxon in that they range between 5.0 to 7.0 mm in greatest width and have up to six pairs of lateral cusplets. However, one specimen in our sample, MSC 37353.4 (Fig. 23 K–M), measures only 2.2 mm in width and has only two distal cusplets. This tooth lacks any labial ornamentation, separating it from G. louisi and G. mesetaensis , and also lacks any denticulations on its mesial edge, separating it from G. ypresiensis . Although this tooth is complete, assigning it to either G. duchaussoisi or G. minutissimus has proven to be problematic. MSC 37353.4 appears to correspond well to the G. minutissimus specimens described and figured by Noubhani & Cappetta (1997: 81, pl. 43, figs 2–14) as it falls within the size range they provided for this species (1.87 to 3.79 mm in greatest width) and, as claimed by the authors, the teeth of this taxon never have more than three distal cusplets. These characteristics, however, contrast with the type description by Arambourg (1935) for G. minutissimus in which he described the teeth as not exceeding 5.0 mm in width and having up to five or six distal cusplets. Arambourg (1952: 155–157, pl. 24, figs 29–37) later provided a more complete description of G. minutissimus and included additional figures. The two aforementioned characteristics were not only reiterated by Arambourg (1952), but are clearly visible on several of the teeth he figured in both 1935 and 1952. Aside from specimen MSC 37353.4, the remaining teeth in our sample exceed 5.0 mm in width, the maximum size for G. minutissimus per Arambourg (1935, 1952). To further differentiate these species, Adnet & Cappetta (2008) noted that the main cusp on the teeth of G. minutissimus are more slender than those on G . duchaussoisi . However, aside from size, the characteristics provided by Adnet & Cappetta (2008) to separate G . duchaussoisi from G. minutissimus appear ambiguous when dealing with specimens smaller than 5.0 mm in width. In a comparison of the type suites and descriptions for both taxa, the number of distal cusplets can vary from between one and six for both taxa depending on tooth position (see Arambourg 1935: pl. 10, figs 13–15, 1952: pl. 24, figs 29–37; Adnet & Cappetta 2008: fig. 2). Furthermore, their size ranges overlap from 2.0 to 5.0 mm for G. minutissimus and 2.8 to 6.7 for G. duchaussoisi , again depending on tooth position. These characteristics, however, could be a result of ontogenetic heterodonty, as it has been reported that within Recent Galeorhinus specimens, the number of distal cusplets on the teeth increases as the teeth become larger and more robust with age (Compagno 1988). Such changes could be the result ontogenetic dietary shifts, which have been well documented in extant populations of Galeorhinus galeus (Linneaus, 1758) (see Lucifora et al. 2006; Ebert & Stehmann 2013). As a result, there is a distinct possibility that the teeth of G. minutissimus represent the juvenile form of G . duchaussoisi , thus compounding the difficulty in differentiating smaller specimens. Furthermore, both species have been reported from Ypresian and Lutetian deposits (see Noubhani & Cappetta 1997; Adnet & Cappetta 2008; Cappetta & Case 2016), indicating that they have stratigraphic as well as morphological overlap. Regarding the specimens in our sample, teeth with the morphology described above are provisionally assigned to Galeorhinus aff. G . duchaussoisi because a majority are wider than 5.0 mm, exceeding the maximum size of G. minutissimus as reported by Arambourg (1935, 1952). White (1956) and Thurmond & Jones (1981) reported the occurrence of Galeorhinus recticonus claibornensis White, 1956 from the Gosport Sand from Clarke and Monroe counties in Alabama. This taxon was later placed within the genus Abdounia by Cappetta (1980a), and we refer this species to a new genus described in detailed below. White (1956) and Thurmond & Jones (1981) also reported the occurrence of Galeorhinus cf. falconeri from the Tallahatta Formation and Gosport Sand in Monroe County and the Jackson Group strata in Clarke County. Although neither White (1956) nor Thurmond & Jones (1981) figured their specimens, G. falconeri was subsequently referred to Physogaleus by Adnet & Cappetta (2008) (see Physogaleus secundus below). Stratigraphic and geographic range in Alabama The specimens in our sample were collected from the lower Tallahatta Formation at site ADl-1, the Tallahatta Formation at site AMo-8, the basal Lisbon Formation at site ACov-11, and the Gosport Sand at site ACh-21. Upper Ypresian to middle Bartonian, zones NP14 to NP17. : Published as part of Ebersole, Jun A., Cicimurri, David J. & Stringer, Gary L., 2019, Taxonomy and biostratigraphy of the elasmobranchs and bony fishes (Chondrichthyes and Osteichthyes) of the lower-to-middle Eocene (Ypresian to Bartonian) Claiborne Group in Alabama, USA, including an analysis of otoliths, pp. 1-274 in European Journal of Taxonomy 585 on pages 61-63, DOI: 10.5852/ejt.2019.585, http://zenodo.org/record/3660259 : {"references": ["Adnet S. & Cappetta H. 2008. New fossil triakid sharks from the Eocene of Premontre, France, and comments on fossil record of the family. Acta Palaeontologica Polonica 53 (3): 433 - 448. https: // doi. org / 10.4202 / app. 2008.0306", "Clayton A. A., Ciampaglio, C. N. & Cicimurri, D. J. 2013. An inquiry into the stratigraphic occurrence of a Claibornian (Eocene) vertebrate fauna from Covington County, Alabama. Bulletin Alabama Museum of Natural History 31 (2): 60 - 73.", "Cappetta H. & Case G. R. 2016. A selachian fauna from the middle Eocene (Lutetian, Lisbon Formation) of Andalusia, Covington County, Alabama, USA. Palaeontographica Abteilung A 307 (1 - 6): 43 - 103.", "Noubhani A. & Cappetta H. 1997. Les Orectolobiformes, Carcharhiniformes et Myliobatiformes (Elasmobranchii, Neoselachii) des Bassins a phosphates du Maroc (Maastrichtien-Lutetien basal). Systematique, biostratigraphie, evolution et dynamique des faunes. Palaeo Ichthyologica 8: 1 - 327.", "Arambourg C. 1935. Note preliminaire sur les vertebres fossiles des phosphates du Maroc. Bulletin de la Societe geologique de France 5 (5): 413 - 439.", "Casier E. 1946. La faune ichthyologique de l'Ypresien de la Belgique. Memoires du Musee royal d'Histoire naturelle de Belgique 104: 1 - 267.", "Arambourg C. 1952. Les vertebres fossiles des gisements de phosphates (Maroc-Algerie-Tunisie). Notes et Memoires du Service geologique du Maroc 92: 1 - 372.", "Cappetta H. 1992. Carcharhiniformes nouveaux (Chondrichthyes, Neoselachii) de l'Ypresien du Bassin de Paris. Geobios 25 (5): 639 - 646. https: // doi. org / 10.1016 / 0016 - 6995 (92) 80103 - K", "Compagno L. J. V. 1988. Sharks of the Order Carcharhiniformes. Princeton University Press, New Jersey.", "Lucifora L. O., Garcia V. B., Menni R. C. & Escalante A. H. 2006. Food habits, selectivity, and foraging modes of the school shark Galeorhinus galeus. Marine Ecology Progress Series 315: 259 - 270. https: // doi. org / 10.3354 / meps 315259", "Ebert D. A. & Stehmann M. 2013. Sharks, batoids, and chimaeras of the North Atlantic. FAO Species Catalogue for Fishery Purposes 7: 1 - 523.", "White E. I. 1956. The Eocene fishes of Alabama. Bulletins of American Paleontology 36 (156): 123 - 150.", "Thurmond J. T. & Jones D. E. 1981. Fossil Vertebrates of Alabama. University of Alabama Press, Tuscaloosa.", "Cappetta H. 1980 a. Modification du statut generique de quelques especes de selaciens cretaces et tertiaires. Palaeovertebrata 10 (1): 29 - 42."]} Text North Atlantic DataCite Metadata Store (German National Library of Science and Technology) Alabama Clayton ENVELOPE(-64.183,-64.183,-65.167,-65.167) Monroe ENVELOPE(-46.050,-46.050,-60.600,-60.600)