A new lithophylacid crab (Crustacea, Decapoda, Portunoidea) from the Late Cretaceous (early Maastrichtian) of Cuba

Vega, Francisco J.; Borges-Sellén, Carlos Rafael; Aguilar-Pérez, Javier; Arano-Ruiz, Alberto F.; Viñola-López, Lázaro W.; Nyborg, Torrey; Vega, Francisco J.; Borges-Sellén, Carlos Rafael; Aguilar-Pérez, Javier; Arano-Ruiz, Alberto F.; Viñola-López, Lázaro W.; Nyborg, Torrey

doi:10.18268/bsgm2021v73n1a220620

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Boletín de la Sociedad Geológica Mexicana

versión impresa ISSN 1405-3322

Bol. Soc. Geol. Mex vol.73 no.1 Ciudad de México abr. 2021 Epub 11-Oct-2021

https://doi.org/10.18268/bsgm2021v73n1a220620

Regular articles

Paleontology

A new lithophylacid crab (Crustacea, Decapoda, Portunoidea) from the Late Cretaceous (early Maastrichtian) of Cuba

Un nuevo cangrejo litofilácido (Crustacea, Decapoda, Portunoidea) del Cretácico Tardío (Maastrichtiano temprano) de Cuba

Francisco J. Vega¹^*

Carlos Rafael Borges-Sellén²

Javier Aguilar-Pérez³

Alberto F. Arano-Ruiz²

Lázaro W. Viñola-López⁴

Torrey Nyborg⁵

^¹ Instituto de Geología, Universidad Nacional Autónoma de México, Ciudad Universitaria, Coyoacán, 04510, CDMX, México.

^² Sociedad Cubana de Geología, Cienfuegos, Cuba.

^³ Facultad de Ciencias de la Tierra, Universidad Autónoma de Nuevo León, Carretera a Cerro Prieto Km 8, Ex-Hacienda de Guadalupe, 67700, Linares, Nuevo León, México.

^⁴ Florida Museum of Natural History, University of Florida, Gainesville, FL 32611-7800, Florida, United States of America.

^⁵ Department of Earth and Biological Sciences, Loma Linda University, CA92350, Loma Linda, California, United States of America.

ABSTRACT

Icriobranchiocarcinus rodas Vega n. sp., is recorded from lower Maastrichtian (Upper Cretaceous) Arroyo Grande Formation near the town of Rodas (Central Cuba). I. rodas Vega n. sp. represents additional evidence of paleobiogeographic affinities between Chiapas (SE Mexico) and Cuba, during the Late Cretaceous. The genus Icriobranchiocarcinus Vega, 2018 in Vega et al., 2018 was erected from the type species Icriobranchiocarcinus tzutzu Vega, 2018 from the lower Maastrichtian Ocozocoautla Formation (Chiapas). I. rodas Vega, n. sp. preserves details of ventral morphology as well as more details of chelipeds not reported in I. tzutzu, adding to the morphology of the genus. Icriobranchiocarcinus belong to a family (Lythophylacidae ^{Van Straelen, 1936}) that became extinct worldwide during the K/Pg event.

Keywords: Decapoda; Portunoi dea; Icriocarcininae; early Maastrichtian; Cuba

RESUMEN

Icriobranchiocarcinus rodas Vega n. sp., es reportada del Maastrichtiano inferior (Cretácico Superior) de la Formación Arroyo Grande, cerca del pueblo de Rodas (Cuba Central). Icriobranchiocarcinus rodas representa evidencia adicional acerca de las afinidades paleobiogeográficas entre Chiapas (SE México) y Cuba durante el Cretácico Tardío. El género Icriobranchiocarcinus Vega. 2018 en Vega et al., 2018, fue creado a partir de la especie tipo Icriobranchiocarcinus tzutzu Vega, 2018 del Maastrichtiano) inferior de la Formación Ocozocoautla. I. rodas Vega n. sp., preserva detalles de la morfología ventral, así como mayor detalle de los quelípedos, no reportados previamente en I. tzutzu , añadiendo características de la morfología del género. Icriobranchiocarcinus pertenece a una familia (Lythophylacidae ^{Van Straelen, 1936}) extinta durante el evento K/Pg event alrededor del mundo.

Palabras clave: Decapoda; Portunoidea; Icriocarcininae; Maastrichtiano temprano; Cuba

1. Introduction

Decapod Cretaceous crabs from Cuba are rather scarce in the literature (^{Pszczółkowski, 2002}, ^{Varela and Rojas-Consuegra 2011}, ^{Arano-Ruiz et al. 2018}).

^{Pszczółkowski (2002)} and ^{Vega et al., (2020)} reported the presence of burrows referred to the ichnogenus Thalassinoides (^{Ehrenberg, 1944}) from marls assigned to the Vaquería Formation in Central Cuba, with infill of these burrows in limestones being dated as late Maastrichtian from microfossil evidence. ^{Varela and Rojas-Consuegra (2009)} described a nearly complete raninid carapace from the Upper Cretaceous of Central Cuba as Vegaranina precocia ^{Feldmann, Vega, Tucker, Garcia-Barrera, Avendaño, 1996}, a species first reported from the upper Maastrichtian "Ocozocoautla Formation" in central Chiapas, Mexico (^{Feldmann et al., 1996}).

Later, ^{Arano-Ruiz et al. (2018)} redescribed the Cuban specimen, as well as two other partial carapaces as a new species, Vegaranina rivasi ^{Arano-Ruiz, Viñola-López, Rojas-Consuegra and Borges-Sellen, 2018}, from the upper Campanian-lower Maastrichtian Monos Formation, rather than from the Cotorro Formation, as ^{Varela and Rojas-Consuegra (2009)} indicated in the original description of V. precocia. More recently and associated with the new species herein described, ^{Vega et al. (2020)} described Graptocarcinus collinsi ^{Vega, 2020}, based on well-preserved carapaces from the lower Maastrichtian Arroyo Grande Formation, near its basal contact with the upper portion of the late Campanian Monos Formation (Figure 1). The purpose of this work is to report a new species of a widely distributed portunoid subfamily during the Late Cretaceous in the Caribbean Region and SE of North America.

Figure 1 General location of study area showing detailed map of outcrop with geologic map and simplified stratigraphic section of fossil locality. Detailed map of outcrop on the geological map, SE Rodas. Simplified stratigraphical section of the locality; black dot indicates provenance of specimens described herein, collected near Finca Castellanos. Modified from ^{Arano et al., (2018)} and fitted to colors of the 2020 International Chronostratigraphic Chart, https://stratigraphy.org/icschart/ChronostratChart2020-01.pdf

2. Geological setting

The fossils herein described were collected in the Arroyo Grande fossil locality (Figure 2). situated near Finca Castellanos, about 4 km southeast of the town of Rodas in Cienfuegos Province, Central Cuba (Figures 1 and 2). Specimens were collected in situ from calcareous detritus of the Arroyo Grande Formation, which is characterized by the alternation of limestone, sandstone, conglomerate, and marl (^{Linares-Cala, 2014}). These sediments were deposited on a neritic platform that originated when the sea covered part of the Proto-Caribbean extinct volcanic arch in the Late Cretaceous (^{Iturralde-Vinent, 2006}). Bioherms and other reef structures are locally found across limestone outcrops in the Arroyo Grande and other formations of similar age in the region (^{Linares-Cala, 2014}).

Figure 2 Landscape indicating position of fossiliferous locality near Damuji dam.

3. Anatomical abbreviations used in descriptions and figures

ba = basis, br = branchial ridge, ca = carpus, crr = cardiac ridge, cx =coxa, da = dactylus, e1e =cervical groove, ebr = epibranchial ridge, eg/br = epigastric/branchial ridge; en = endopod, epr = epigastric ridge, ex = exopod, fxf = fixed finger, her = hepatic ridge, intr = intestinal ridge, isq = ischium, Lch = left cheliped, Ls = lateral spines 1-4, mer = merus, msbr = mesobranchial ridge, msgr = mesogastric ridge, mtbr = metabranchial ridge, mx3 = third maxilliped, ok = outer keel of propodus, orb = orbit, os = orbital spine, p = pereiopods 2-4, pls = abdominal somites 1-6, pr = propodus, ptgr = protogastric ridge, ptp = protogastric process, rch = right cheliped, ro = rostrum, rt = row of tubercles 2 and 3, sos = suborbital spine, st = sternites 1-7, te = telson, ugr = urogastric ridge.

4. Systematic paleontology

Note: Specimens described and illustrated here are deposited in the Colección Nacional de Paleontología, Instituto de Geología, Universidad Nacional Autónoma de México, Mexico City CDMX, 04510, México (abbreviation: IGM).

Section Eubrachyura Saint ^{Laurent de, 1980}

Subsection Heterotremata ^{Guinot, 1977}

Superfamily Portunoidea ^{Rafinesque, 1815}

Family Lithophylacidae ^{Van Straelen, 1936}

Subfamily Icriocarcininae ^{Števčič, 2005}.

Genera included.- Icriocarcinus ^{Bishop, 1988}; Branchiocarcinus Feldmann and Vega, in ^{Vega et al. (1995)}; Icriobranchiocarcinus Vega, 2018 in ^{Vega et al. (2018)}, and possibly Cancrixantho ^{Van Straelen, 1934}.

Genus Icriobranchiocarcinus Vega, 2018 in ^{Vega et al., 2018}

Type species.- Icriobranchiocarcinus tzutzu Vega, 2018 (in ^{Vega et al., 2018, p. 336, fig. 10.1-10.7, by monotypy}).

Diagnosis.- Carapace small to medium, inverted subtrapezoidal, twice as wide as long, widest at level of sharp, front-directed orbital spines; anterior margin represents the widest portion of carapace, central portion of anterior margin straight, with relatively deep fissures at level of epigastric-branchial groove, anterior margin curves toward orbital spine, rostrum narrow, long, downturned, t-shaped at tip, eyestalks long and slender, distal portion reaches orbital spine; orbits wide, ovate; lateral margin straight, inclined, slightly arched with four lateral spines, posterior one being stronger; posterior margin slightly convex, rimmed, one-third the maximum carapace width; dorsal carapace regions marked by strong transverse ridges and relatively deep grooves; sharp transverse ridges on protogastric, mesogastric, urogastric, cardiac, intestinal, hepatic, epibranchial, branchial, meso-branchial, metabranchial regions; sternum wide, transversely subovate, widest at midlength, st3 transversely subtrapezoidal, st4 subtrapezoidal, st5 transversely subrectangular, st6 similar to st5, st7 rectangular, st8 small and subquadrate, episternal process of st4-6 inverted, triangular; pleon triangular, telson triangular, pleonal somite 6 subtrap-ezoidal, pleonal somite 5 subrectangular, pleonal somites 4 and 3 similar to pleonal somite 5, pleonal somite 2 folded in the middle by transverse ridge, about as long but one-third narrower than pleonal somite 3, pleonal somite 1, only visible on dorsal position, semi-triangular, as wide as pleonal somite 2 but twice its length; endopodite of third max-illiped inverted subtrapezoidal; chelipeds slightly unequal, right chela slightly larger than left, coxa concave, basis subtrapezoidal inverted, ischium conical, merus robust, with three meral spines on ventral surface, carpus also robust, but one-third the length of merus, with strong spine on inner distal margin, propodus robust, subrectangular elongated, with four strong transverse outer keels that run from base of propodus to distal margin, dorsal surface of propodus with one anterior smooth ridge and two posterior rows of tubercles, ventral margin with fine tubercles; dorsal surface of dactylus with row of longitudinal spines; p2-p5 long, slender, p3 and p4 the longest and stronger, p5 well developed, nearly subdorsal, p2-p5 meri with median longitudinal sulcus, become stronger at distal portion, dactily unciform, with two lateral rows of fine tubercles.

Discussion.- In talking about the genus Cancrixantho, ^{Phillips et al. (2013, p. 151)} wrote: "The sole known specimen of the carcineretid Cancrixantho ^{Van Straelen, 1934}, from the Campanian of Spain, is similar to the Icriocarcinidae in its anterior margin, pseudorostrum, and dorsal carapace. It also has spines on the posterolateral margin, but the original shape of the carapace has been lost ... more complete specimens may reveal that Cancrixantho (currently in the Carcineretidae) may instead belong to the Icriocarcinidae, thus extending the paleobiogeographic and biostratigraphic range of the family". Possibly derived from the Lithophylacinae, the Icriocarcininae had a wide distribution and diversification during Late Cretaceous times.

Icriobranchiocarcinus rodas Vega, n. sp. Figures 3A to 3I, 4A to 4H, 5A, 5C and 5E

Etymology.- The specific epithet refers to the Rodas town, East-central Cuba, Cienfuegos Province, West Cuba.

Material and locality.- Holotype IGM 11515 and paratype IGM 11516, Finca Castellanos, 4 km SE Rodas, at 22°18"47' N and 80°31"57' W, lower Maastrichtian Arroyo Grande Formation, E-central Cuba.

Measurements (in mm).- Holotype IGM 11515, length = 30.1, width = 41.9; paratype IGM 11516, length = 37.2, width = 38.6.

Diagnosis. - Carapace of medium size, inverted subtrapezoidal, widest at anterior margin, sharp triangular orbital spines; anterior margin with finely serrated supraorbital margin, rostrum thin and short; lateral margin with four spines; posterior margin slightly convex; dorsal carapace regions marked by strong transverse ridges and grooves; orbits subovate, with prominent, sharp suborbital spine projected beyond anterior margin; dorsal carapace regions with strong transverse ridges and grooves; sternum subtriangular, sternites 1 to 7 visible on ventral view; abdomen wide, triangular; telson triangular, abdominal somites 2 to 6 visible in ventral position, somite 2 folded, somite 1 visible only in dorsal position; chelipeds subequal, robust, with meral spines on ventral surface, carpus robust, spiny; propodus robust, with strong transverse outer middle transverse ridge, ventral margin with longitudinal line of fine granules, dorsal surface with three longitudinal ridges, outermost smooth, middle with small tubercles and innermost with strong tubercles; third maxillipeds strong, elongated, subrectangular exopodite, endite slightly curved, with weak middle longitudinal groove, merus semiquadrate, half the length of endite.

Description. - Carapace large when compared with Branchiocarcinus but about the average size of Icriocarcinus, inverted subtrapezoidal, one-third wider than long, widest at level of sharp, slightly outside directed, sharp triangular orbital spines; central portion of anterior margin slightly curved, fissures mark division with finely serrated supraorbital margin, curved toward orbital spine, rostrum short compared to that of Icriocarcinus, lateral margin straight, with four sharp, short spines, separated from each other by similar distances, slightly inclined backwards to short, curved posterolateral margin; posterior margin slightly convex; dorsal carapace regions marked by strong transverse ridges and relatively deep grooves; orbits wide, subovate, with prominent, sharp suborbital spine at level of exopodite of third maxillipeds, strong suborbital spine projected beyond the anterior margin, so it can be seen in dorsal position; dorsal carapace regions marked by strong transverse ridges and relatively deep grooves; sharp transverse ridges on protogastric, mesogastric, urogastric, cardiac, intestinal, hepatic, epibranchial, branchial, mesobranchial and metabranchial regions; cardiac with sharp anterior tip; sternum clearly divided from sternite 1 to sternite7, with strong inverted triangular lateral process from sternite 4 to sternite 6; (female?) pleon wide, triangular, widest at level of pleonal somite 6; telson triangular, pleonal somite 6 one-third wider and about twice the length of telson; pleonal somite 5 slightly shorter but one-third wider than pleonal somite 6, pleonal somite 4 half the length but one-third wider than pleonal somite 5, pleonal somite 3 folded in the middle by transverse ridge, two-thirds wider but about half the length of pleonal somite 4, pleonal somite 2 folded in the middle by transverse ridge, about as long but one-third narrower than pleonal somite 3, pleonal somite 1 only visible in dorsal position, semi-triangular, as wide as pleonal somite 2 but twice its length; chelipeds subequal, robust, with at least two meral spines on ventral surface, carpus robust, spiny in dorsal view; propodus robust, subrectangular elongated, with strong transverse outer middle transversal smooth ridge, ventral margin marked by ridge with longitudinal fine granules, dorsal surface of propodus with three longitudinal ridges, outermost smooth, middle with at least 8 small tubercles and innermost with four strong tubercles; other pereiopods not completely preserved but long and slender; third maxillipeds strong, elongated, subrectangular exopodite, endite slightly curved toward center of mouth, with weak middle longitudinal groove, merus semiquadrate, half the length of endite.

Discussion.- Icriobranchiocarcinus tzutzu ^{Vega, 2018}, differs from the new species in having slightly curved anterior margin without a row of small tubercles on supraorbital margin, lacking the strong, anteriorly projected suborbital spine, having a relatively smaller chelae with strongly-marked outer, longitudinal ridges, and having a less sharp spiny dorsal surface of carpus. In addition, dorsal regions are marked by less sharp transverse ridges and weaker grooves. Icriobranchiocarcinus tzutzu appears to be adapted to a relatively coarse grained sediment, very similar to sandstones containing Icriocarcinus xestos ^{Bishop, 1988}, from the lower Maastrichtian Point Loma Formation, California and El Rosario Formation, Baja California, Mexico. Icriobranchiocarcinus rodas Vega n. sp. is associated to reef carbonates of a similar age of the Arroyo Grande Formation, Cuba, which also includes undescribed raninoids and other still unidentified decapods. Therefore, it appears the paleobiodiversity was higher in the calcareous sediments of Cuba.

Figure 3 A-H, Icriobranchiocarcinus rodas Vega, n. sp., holotype IGM 11515 from the lower Maastrichtian Arroyo Grande Formation, Cuba. Scale bars = 1 cm.

Figure 4 A-H, Icriobranchiocarcinus rodas Vega, n. sp., from the lower Maastrichtian Arroyo Grande Formation, Cuba. A-H, paratype IGM 11516: dorsal (A), ventral (B), frontal (C), right lateral (D), dorsal right cheliped (E), outer right chela (F), ventral margin of left chela (G), right third maxilliped close up views (H). I, J, Icriobranchiocarcinus tzutzu Vega, 2018 in ^{Vega et al., 2018}, from the lower Maastrichtian Ocozocoautla Formation, Chiapas, Mexico. Paratype IHNFG-5333, dorsal view of carapace (I), holotype IHNFG-5502, dorsal view of incomplete carapace (J). Scale bars = 1 cm.

Figure 5 A, C, E, Icriobranchiocarcinus rodas Vega, n. sp., from the lower Maastrichtian Arroyo Grande Formation, Cuba. Holotype IGM 11515: dorsal (A), ventral (B), frontal (C) views of carapace. B, D, Icriobranchiocarcinus tzutzu Vega, 2018 in ^{Vega et al., 2018}, from the lower Maastrichtian Ocozocoautla Formation, Chiapas, Mexico. Paratype IHNFG-5333, reconstruction of dorsal carapace based on inverted mirror image (B), reconstruction of ventral carapace based on inverted mirror image, same specimen (D). F, H, J, Icriocarcinus xestos ^{Bishop, 1988}, from the lower Maastrichtian El Rosario Formation, Punta Santo Tomás, Baja California, Mexico, specimen IGM 6625-1, close up of frontal view (F), specimen IGM 7722 ventral view of carapace (J); lower Maastrichtian Point Loma Formation, Carlsbad Research Center, California, paratype SDSNH 26113, dorsal view of carapace (H). G, I, Branchiocarcinus flectus (^{Rathbun, 1923}) from the upper Maastrichtian Owl Creek Formation, Tippah County, Mississippi, specimen MMNS IP-4388 dorsal view of carapace (G); Scale bars = 1 cm.

Conclusions

The wide distribution of the Icriocarcininae during the latest Cretaceous is confirmed by the occurrence of Icriobranchiocarcinus rodas. Other records for this extinct subfamily at the K/Pg event includes: Branchiocarcinus cornatus Feldmann and Vega in ^{Vega et al. (1995)} in the lower Maastrichtian Cárdenas Formation of San Luis Potosí, Mexico; B. flectus (^{Rathbun, 1923}) in the Maastrichtian of Mississippi and New Jersey, USA (^{Phillips et al., 2013}; ^{Landman et al., 2007}); B. pacificus ^{Nyborg, Ossó and Vega, 2014}, from the latest Maastrichtian of California (USA) (^{Nyborg et al., 2014}); Icriocarcinus xestos ^{Bishop, 1988}, in the lower Maastrichtian El Rosario (Baja California, Mexico), the lower Maastrichtian of Baja California (Mexico) and the Point Loma Formation, California; and Icriobranchiocarcinus tzutzu from the lower Maastrichtian of Chiapas (^{Vega et al., 2018}). This suggests that the Icriocarcininae (possibly derived from the Lithophilacinae during the Cenomanian of Europe), had a major radiation at the end of the Cretaceous Period, reaching an extensive distribution and a wide diversity of shapes, sizes, and morphological details that suggest a high endemism of the genera and species of this family, especially during Maastrichtian times in North America (Figure 6) and possibly in Europe, too. The Cuban species were found in association to Graptocarcinus collinsi Vega, 2018, and other unidentified decapods, therefore the paleobioversity was higher in the calcareous sediments of Cuba.

Figure 6 Paleobiogeographic distribution of icriocarcinid crabs during Late Cretaceous (70-66 Ma) in the Caribbean and southern North America. A = Branchiocarcinus pacificus B = Icriocarcinus xestos C = B. flectus D = B. cornatus E = Icriobranciocarcinus tzutzu; F = Icriobranchiocarcinus rodas Vega, n. sp. Image courtesy of Ron Blakey.

Acknowledgements

Our sincere gratitude to reviewers Dr. Rodney M. Feldmann (Kent State University, Ohio) and Alessandro Garassino (Loma Linda University, California) for their kind suggestions to improve the original manuscript, also to Reinaldo Rojas-Consuegra helped with regional geology information. We wish to thank Dr. Antoni Camprubí and Salvador Vazquez for their fast and kind editorial treatment of this contribution. Finally, our sincere gratitude to Dr. Jesús Alvarado-Ortega and MSc Violeta Romero-Mayén, from the Colección Nacional de Paleontología, Instituto de Geología, UNAM, for curatorial support.

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How to cite this article: Vega, FJ., Borges-Sellén, C.R., Aguilar-Perez, J., Arano-Ruiz, A.F., Viñola-López, L. W.. Nyborg, T., 2021, A new lithophylacid crab (Crustacea, Decapoda, Portunoidea) from the Late Cretaceous (early Maastrichtian) of Cuba: Boletín de la Sociedad Geológica Mexicana, 73(1), A220620. http://dx.doi.org/10.18268/BSGM2021v73n1a220620.

Peer Reviewing under the responsibility of Universidad Nacional Autónoma de México.

Received: June 06, 2020; Accepted: June 25, 2020

^* Corresponding author: (F. Vega) veggver@unam.mx

This is an open-access article distributed under the terms of the Creative Commons Attribution License