Type species

Galathea zitteli Moericke, Reference Moericke1889 (Late Jurassic [Tithonian]; Austria, Poland, Czech Republic), by original designation.

Other species

Galatheites aiola Robins et al., Reference Robins, Feldmann, Schweitzer and Bonde2016 (Late Jurassic [Tithonian]; Austria, Czech Republic); Galatheites diasema Robins et al., Reference Robins, Feldmann, Schweitzer and Bonde2016 (Late Jurassic [Tithonian]; Austria); Galatheites britmelanarum Robins and Klompmaker, Reference Robins and Klompmaker2019 (Late Jurassic [Tithonian]; Austria); Galatheites obtecta Robins et al., Reference Robins, Feldmann, Schweitzer and Bonde2016 (Late Jurassic [Tithonian]; Romania); Galatheites? royoi Van Straelen, Reference Van Straelen1927 (Early Cretaceous [Aptian]; Spain); Galatheites sforum new species (Late Jurassic [Kimmeridgian]; Germany)

Types

Holotype: SNSB-BSPG 2014 I 49a; paratypes: SNSB-BSPG 2014 I 48 and SNSB-BSPG 2014 I 49b.

Figure 1. Galatheites sforum n. sp. from the Upper Jurassic (upper Kimmeridgian) Massenkalk Formation of Germany. (1, 2) Paratype SNSB-BSPG 2014 I 48, carapace: (1) dorsal view; (2) right lateral view. (3) Holotype SNSB-BSPG 2014 I 49a, carapace (right) in dorsal view, paratype SNSB-BSPG 2014 I 49b, carapace (left) in oblique view.

Diagnosis

Carapace excluding rostrum about 10–20% longer than maximum width; widening posteriorly, maximum width in posterior third of carapace. Rostrum slightly downturned, moderately wide at base, 20–25% of maximum carapace length including rostrum, with axial keel; narrowing anteriorly and ending in three spines, middle spine longest. Cervical groove strong, U-shaped; curves transversely near lateral margin. Ornamentation consists of strong tubercles on anterior carapace and transversely elongated ovate tubercles to ridges on posterior carapace on internal mold.

Occurrence

Saal near Kelheim, Germany (48.89°N, 11.94°E); coral limestone of the Massenkalk Formation, Upper Jurassic, upper Kimmeridgian: Hybonoticeras beckeri Zone, Sutneria subeumela or Virgataxioceras setatum subzones.

Description

Carapace excluding rostrum about 10–20% longer than maximum width; weakly convex longitudinally, moderately convex transversely; widening posteriorly, maximum width in posterior third of carapace; lateral margins not rimmed. Rostrum slightly downturned, moderately wide at base, 20–25% of maximum length including rostrum, with axial keel; narrowing anteriorly and ending in three spines, middle spine longest; margins flared up somewhat; tubercles at base. Upper orbital margin directed forward, concave. Epigastric regions distinctly bordered anteriorly by inverse V-shaped rim with axial indent. Hepatic region small. Anterior part of gastric region with weak groove perpendicular to lateral margins and row of tubercles posterior to it. Mesogastric region well defined at posterior border, moderately so on lateral sides and at process. Cervical groove strong, U-shaped but curves transversely near lateral margin. Groove branching off cervical groove near posterolateral edges of mesogastric region laterally oriented, strong. Anterior branchial region triangular in dorsal view; posterior branchial region not subdivided. Cardiac region triangular, poorly defined anteriorly and posteriorly, with weak obliquely oriented lateral groove extending to groove branching off cervical groove. Intestinal region not defined by grooves, bears less ornamentation. Lateral margins ornamented with tubercles; spines do not appear to be present. Posterior margin rimmed, concave. Ornamentation consists of strong tubercles on anterior carapace and ovate tubercles to ridges on posterior carapace on internal mold. Ventral surface, abdomen, appendages, cuticle, and muscle scars unknown.

Etymology

sforum is referring to the decapod paleontology team from Kent State University, Carrie Schweitzer (s) and Rodney Feldmann (f), for their enormous contributions to the taxonomy and systematics of fossil Decapoda in >150 joint scientific papers.

Measurements

Holotype SNSB-BSPG 2014 I 49a: length excluding rostrum (L) = ~8.9 mm, maximum width (W) = 7.8 mm; paratype SNSB-BSPG 2014 I 48: L = 10.2 mm, W = 8.7 mm; paratype SNSB-BSPG 2014 I 49b: L = ~5.2 mm, W = ~4.4 mm.

Remarks

Intraspecific variation appears limited, but only three specimens are known. We cannot determine the degree of ontogenetic variation with only a single, incomplete smaller specimen available.

Compared with the type species, G. zitteli, the new species exhibits coarser ornamentation in general. The elongated ornamentation on the cardiac region, the middle part of the mesogastric region, and the lateral parts of the branchial region in dorsal view is more interrupted in G. sforum n. sp. Relative to G. aiola, Galatheites sforum has a more U-shaped cervical groove, the transverse groove in the gastric region is less obvious, and it bears coarser ornamentation. The new species is close to G. britmelanarum, but the ornamentation of the new species is coarser, and more elongated ridges are present at the base of the mesogastric region and in the posterior carapace. The ornamentation of the new species is coarser and has diverging lateral margins toward the posterior carapace, whereas it is straight in G. diasema. Also compared with G. obtecta, the ornamentation of the new species is coarser. In addition, the lateral margins of the rostrum are straight, but they are slightly concave in G. obtecta. The ornamentation is weaker in G.? royoi. The use of ornamentation to differentiate this new species from congenerics is warranted because ornamentation shows limited intraspecific variation in general and does not differ substantially depending on the presence or absence of cuticle in galatheoids (e.g., Klompmaker et al., Reference Klompmaker, Feldmann, Robins and Schweitzer2012; Robins et al., Reference Robins, Feldmann, Schweitzer and Bonde2016).

Type species

Vasconilia ruizi (Van Straelen, Reference Van Straelen1940) (Early Cretaceous [Albian]; Spain), as Galathea, by original designation.

Other species

Vasconilia? miyakoensis (Takeda and Fujiyama, Reference Takeda and Fujiyama1983) (Early Cretaceous [Aptian]; Japan), as Paragalathea; Vasconilia straeleni (Ruiz de Gaona, Reference Ruiz de Gaona1943; = Galathea alsuasensis Van Straelen, Reference Van Straelen1944) (Early Cretaceous [Albian]; Spain), as Paragalathea; Vasconilia xystosa Robins et al., Reference Robins, Feldmann, Schweitzer and Bonde2016 (Late Jurassic [Tithonian]; Austria); Vasconilia zapotitlanensis n. sp. (Early Cretaceous [Barremian]; Mexico)

Vasconilia zapotitlanensis new species
 Figure 2

Reference Vega, González-León and Moreno-Bedmar2019

Paragalathea ruizi (Van Straelen, Reference Van Straelen1940); Vega et al., p. 3, fig. 4.1–4.6.

Figure 2. Vasconilia zapotitlanensis n. sp. from the Lower Cretaceous (upper Barremian) Zapotitlán Formation of Mexico. (1–3) Holotype IGM-11373, carapace: (1) dorsal view; (2) left lateral view; (3) right lateral view. (4–6) Paratype IGM-11372, carapace: (4) dorsal view; (5) frontal view; (6) left lateral view. Specimen images from Vega et al. (Reference Vega, González-León and Moreno-Bedmar2019, fig. 4.1–4.6), reproduced with permission.

Types

Holotype: IGM-11373; paratype: IGM-11372.

Diagnosis

Carapace excluding rostrum about as wide as long; moderately convex longitudinally, strongly convex transversely; widening posteriorly. Rostrum downturned, moderately wide at base, narrowing anteriorly and ending in three spines. Cervical groove shallow, widely V-shaped but rounded at axis; no groove branching off cervical groove. Ornamentation consists of small tubercles on anterior carapace and long ridges on posterior carapace.

Occurrence

El Ojito section, ~3 km NW of San Antonio Texcala, Puebla, Mexico (18.418°N, 97.459°W); coral limestone of the Zapotitlán Formation, Lower Cretaceous (upper Barremian).

Description

Carapace excluding rostrum about as wide as long; moderately convex longitudinally, strongly convex transversely; widening posteriorly, maximum width in posterior third of carapace; lateral margins not rimmed. Rostrum downturned, moderately wide at base, approximately 25% of maximum length including rostrum; narrowing anteriorly and ending in three spines, middle spine longest; rostral surface appears flat. Upper orbital margin directed forward and concave, with possible spine at outer orbital margin. Epigastric regions distinctly bordered anteriorly by inverse V-shaped rim. Protogastric, hepatic, and mesogastric regions not delimited, except for tip of mesogastric process. Cervical groove shallow, widely V-shaped but rounded at axis, appears to disappear at lateral third of dorsal carapace; no groove branching off cervical groove. Branchial, cardiac, and intestinal regions not clearly defined. Posterior margin nearly straight, may be rimmed. Ornamentation consists of small tubercles on anterior carapace and long ridges on posterior carapace that bend forward on flanks, on both cuticular layers visible. Muscle scar impressions may be discernable at base of mesogastric region (posterior gastric muscles) and adjacent to approximate position of cardiac region. Ventral surface, abdomen, and appendages unknown.

Etymology

Named after the Zapotitlán Formation, in which specimens were found.

Measurements

Holotype IGM-11373: L = 8.0 mm, W = 8.0 mm; paratype IGM-11372: L = –, W = 7.8 mm.

Remarks

Although Paragalathea ruizi was assigned as the type species of Vasconilia by Robins et al. (Reference Robins, Feldmann, Schweitzer and Bonde2016), Vega et al. (Reference Vega, González-León and Moreno-Bedmar2019) assigned two specimens to P. ruizi. The specimens from Mexico are separated geographically from the specimens from Spain by ~9,000 km today. In addition, a long temporal gap exists between the late Albian specimens from Spain and the late Barremian specimens from Mexico (ca. 25 million years). Although long stratigraphic ranges have been reported for fossil decapods (see Klompmaker et al., Reference Klompmaker, Feldmann, Robins and Schweitzer2012, p. 792–793, for references), such ranges are rare. Above all, the specimens differ morphologically from Vasconilia ruizi in that the carapace of the new species widens much more toward the posterior carapace, the rostrum is more downturned, and the flanks appear to be longer, giving the carapace a more convex appearance transversally. The latter characters are similar to Mesogalathea Houša, Reference Houša1963 (see Robins et al., Reference Robins, Feldmann, Schweitzer and Bonde2016, fig. 5), but the anterior carapace with the anterior portion of the epigastric regions and the tip of the mesogastric region clearly defined, in addition to the narrower rostrum, suggest this species does not fit Mesogalathea.

Compared with V.? miyakoensis, Vasconilia zapotitlanensis n. sp. does not possess a groove branching off the cervical groove and is wider posteriorly. Vasconilia straeleni bears more-distinct tubercles on the anterior carapace and has a higher length–width ratio (~1.15 [see Vía Boada, Reference Vía Boada1982; Klompmaker et al., Reference Klompmaker, Feldmann, Robins and Schweitzer2012; Robins et al., Reference Robins, Feldmann, Schweitzer and Bonde2016] versus ~1.00 for IGM-11372). Vasconilia xystosa does not exhibit transverse ridges on the posterior carapace as in the new species, and the cervical groove appears less V-shaped axially. The use of ornamentation to differentiate species can be problematic for brachyurans as the cuticular layers and internal mold may show different ornamentation (summarized by Klompmaker et al., Reference Klompmaker and Boxshall2015), but this possible issue does not appear to exist for galatheoids (summarized by Robins et al., Reference Robins, Feldmann, Schweitzer and Bonde2016).

The two specimens are nearly identical, but the paratype does not show an equally expressed cervical groove as seen in the holotype, although it is present (Vega et al., Reference Vega, González-León and Moreno-Bedmar2019, fig. 4.1, right of axis). Whether this is a matter of preservation or intraspecific variation cannot be determined at this stage.

Muscle scars are not often reported for squat lobsters, but some have been recorded at the base of the mesogastric region (Klompmaker et al., Reference Klompmaker, Hyžný, Portell, Jauvion, Charbonnier, Fussell, Klier, Tejera and Jakobsen2019). Such posterior gastric muscle scars are also present in the new species, but another set lateral to the approximate position of the cardiac region (branchial muscles, see Figure 2.2) has not been recorded in the literature from fossil galatheoids thus far.

Included genera (F = fossil, R = recent)

Acanthogalathea Müller and Collins, Reference Müller and Collins1991 (F); Alainius Baba, Reference Baba and Crosnier1991 (R); Allogalathea Baba, Reference Baba1969 (R); Allomunida Baba, Reference Baba1988 (R); Bolcagalathea Beschin et al., Reference Beschin, Busulini, Tessier and Zorzin2016 (F); Coralliogalathea Baba and Javed, Reference Baba and Javed1974 (R); Eomunidopsis Vía Boada, Reference Vía Boada1981 (F); Fennerogalathea Baba, Reference Baba1988 (R); Galathea Fabricius, Reference Fabricius1793 (F, R); Janetogalathea Baba and Wicksten, Reference Baba and Wicksten1997 (R); Lauriea Baba, Reference Baba1971 (R); Lessinigalathea De Angeli and Garassino, Reference De Angeli and Garassino2002 (F); Luisogalathea Karasawa and Hayakawa, Reference Karasawa and Hayakawa2000 (F); Macrothea Macpherson and Cleva, Reference Macpherson and Cleva2010 (R); Nanogalathea Tirmizi and Javed, Reference Tirmizi and Javed1980 (R); Palaeomunida Lőrenthey, Reference Lőrenthey1902 (F); Phylladiorhynchus Baba, Reference Baba1969 (R); Tethysgalathea new genus (F); Triodonthea Macpherson and Robainas-Barcia, Reference Macpherson and Robainas-Barcia2013 (R).

Type species

Tethysgalathea prealpina (Beschin et al., Reference Beschin, Busulini, Tessier and Zorzin2016) (Eocene [Ypresian]; Italy), as Eomunidopsis (Figure 3).

Figure 3. Tethysgalathea prealpina (Beschin et al., Reference Beschin, Busulini, Tessier and Zorzin2016) from a lower Eocene (Ypresian) coral limestone of Italy. (1–3) Holotype VR 93884, carapace: (1) dorsal view; (2) left lateral view; (3) frontal view. (4) Paratype VR 93886, carapace in dorsal view. Reproduced from Beschin et al. (2016, pls. 3.4, 4.1), with permission. Courtesy of Ministero della Cultura (MiC) of Italy—Soprintendenza Archeologia Belle Arti e Paesaggio per le province di Verona, Rovigo e Vicenza.

Diagnosis

Carapace with a length–width ratio (excluding rostrum) of 1.2–1.3, ratio of length of base rostrum to axis cervical groove to length of base rostrum to posterior margin is ~0.6, rostrum triangular without lateral spines and without a distinct keel from base to tip, lateral margins of carapace subparallel to slightly narrowing toward posterior carapace, strong cervical groove, triangular cardiac region well defined, ornamentation with spines mostly on anterior carapace and transverse ridges mostly on posterior carapace, depression present posterior to cardiac region.

Occurrence

The single species currently within this genus occurs within lower Eocene (Ypresian) coral limestones in Rama and Monte di Malo (Rossi quarry) in Italy (Beschin et al., Reference Beschin, Busulini, Tessier and Zorzin2016, Reference Beschin, Busulini, Calvagno, Tessier and Zorzin2017).

Etymology

Tethysgalathea is a merger of Tethys and Galathea. The specimens of the genus known so far inhabited the western part of the Tethys during the early Eocene. Gender is feminine.

Remarks

The type species was originally placed in Eomunidopsis, but members of this genus do not bear strong spines on the anterior part of the dorsal carapace. Moreover, the axial point of the cervical groove is located more posteriorly (see Table 1). The taxon also superficially resembles Acanthogalathea, but Acanthogalathea bears two distinct spines at the base of the rostrum, which Tethysgalathea n. gen. lacks. A further difference separating this from Acanthogalathea is a higher length–width ratio (see Table 1). Of the other fossil galatheid genera, Bolcagalathea, Lessinigalathea, and Palaeomunida bear prominent spines on the lateral margins of the rostrum, which are absent in the new genus. Moreover, Palaeomunida bears a keel on the rostral axis from the base to tip, whereas such a keel is not present in the new genus. Unlike Tethysgalathea, Luisogalathea does not exhibit distinct spines on the anterior carapace.

Table 1. Comparisons of carapace ratios of specimens of Eomunidopsis Vía Boada, Reference Vía Boada1981, Tethysgalathea n. gen., and Acanthogalathea Müller and Collins, Reference Müller and Collins1991.

All galatheid genera with modern representatives can also be distinguished from the new genus. Alainius bears no spines on the anterior carapace, has indistinct grooves, and bears two small accessory spines adjacent to the central rostral spine. Allogalathea exhibits a longer rostrum with small spines along the rostral margins and more rounded lateral carapace margins. Allomunida possesses an indistinct cervical groove, the cardiac region is poorly delineated, and the carapace is widening posteriorly. Coralliogalathea has wide-based rostrum with distinct lateral spines and a poorly delineated cardiac region. Fennerogalathea exhibits a narrower, spine-like rostrum and a less-defined cardiac region. Galathea and Janetogalathea both have a rostrum with distinct lateral spines and a less-spinose anterior carapace. Lauriea has poorly defined regions and a rostrum with distinct lateral spines. Macrothea exhibits a longer carapace that is widening posteriorly, and the rostrum bears spines on its lateral margins. Nanogalathea possesses more-rounded lateral margins of the carapace and bears fewer spines on the anterior carapace. Phylladiorhynchus has a less-defined cardiac region and a lateral margin with at least two prominent spines. Finally, Triodonthea possesses a rostrum with distinct lateral spines and bears no transverse ridges on its carapace.

We also considered placing Acanthogalathea paucispinosa Beschin et al., Reference Beschin, Busulini, Tessier and Zorzin2016, in the new genus because this species is proportionally longer than other species within Acanthogalathea, but this taxon bears two distinct spines at the base of the rostrum not figured previously (Fig. 4) and is proportionally not as long as Tethysgalathea prealpina.

Figure 4. Paratype VR 93798 of Acanthogalathea paucispinosa Beschin et al., Reference Beschin, Busulini, Tessier and Zorzin2016, from a lower Eocene (Ypresian) coral limestone of Italy in dorsal view. Note the broken spine on the left margin of the rostrum. Precise scale unknown.

Type species

Eomunidopsis orobensis (Ruiz de Gaona, Reference Ruiz de Gaona1943) (Early Cretaceous [Albian]; Spain), as Galathea, by original designation.

Other species

Eomunidopsis aldoirarensis Klompmaker et al., Reference Klompmaker, Feldmann, Robins and Schweitzer2012 (Early Cretaceous [Albian]; Spain); E.? cobbani Bishop, Reference Bishop1985 (Late Cretaceous [Campanian]; USA); E. kinokunica Karasawa et al., Reference Karasawa, Ohara and Kato2008 (Early Cretaceous [Barremian]; Japan); E.? kojimai Karasawa and Hayakawa, Reference Karasawa and Hayakawa2000 (Late Cretaceous [Santonian]; Japan); E. limonitica (Stenzel, Reference Stenzel1945) (Early Cretaceous [Albian]; USA), as Galathea?; E. meerssensis Collins et al., Reference Collins, Fraaye and Jagt1995 (Late Cretaceous [Maastrichtian]; The Netherlands); E. navarrensis (Van Straelen, Reference Van Straelen1940) (Early Cretaceous [Albian]; Spain), as Galathea; Eomunidopsis texcalaensis new species (Early Cretaceous [Barremian]; Mexico)

Emended diagnosis

Carapace without rostrum somewhat longer than wide. Rostrum long, triangular, ending in one or, usually, three spines, with median keel. Cervical groove strong, U-shaped. Transverse groove branching off cervical groove present. Tip of mesogastric process and epigastric regions well defined. Ornamentation consists of transverse ridges that are variously interrupted, without large spines dorsally. Lateral margins of carapace usually lined with row of tubercles/spines.

Remarks

Some disagreement over the family placement of Eomunidopsis has arisen within the recent literature. Ahyong et al. (Reference Ahyong, Baba, Macpherson and Poore2010) and Beschin et al. (Reference Beschin, Busulini, Tessier and Zorzin2016) placed this genus in Munidopsidae, whereas Klompmaker et al. (Reference Klompmaker, Feldmann, Robins and Schweitzer2012) favored placement in Galatheidae. Robins et al. (Reference Robins, Feldmann and Schweitzer2013) pointed out that this genus does not belong to Munidopsidae. Ahyong et al. (Reference Ahyong, Baba, Macpherson and Poore2010) placed Eomunidopsis within the Munidopsidae, as well as pointing out similarities between Calteagalathea, Paragalathea, and Munidopsis. Although Calteagalathea is a munidopsid, the species of Paragalathea and Eomunidopsis they examined have mostly been reassigned from Eomunidopsis and Paragalathea to other genera in new families by Robins et al. (Reference Robins, Feldmann, Schweitzer and Bonde2016). The type species of Eomunidopsis does not possess a circumgastric groove and has transverse ornamentation, which are far more common in Galatheidae than in Munidopsidae. The paper by Beschin et al. (Reference Beschin, Busulini, Tessier and Zorzin2016), who put Eomunidopsis in Munidopsidae, was published at a similar time to Robins et al. (Reference Robins, Feldmann, Schweitzer and Bonde2016), and thus did not consider the new generic placements in their work.

The galatheid Eomunidopsis limonitica was placed in this genus by Schweitzer et al. (Reference Schweitzer, Feldmann, Garassino, Karasawa and Schweigert2010), Klompmaker et al. (Reference Klompmaker, Feldmann, Robins and Schweitzer2012), and Vega et al. (Reference Vega, González-León and Moreno-Bedmar2019), but Franţescu (Reference Franţescu2014) moved it to a different genus and family (Munida Leach, Reference Leach1820, and Munididae, resp.). This change was based primarily on similarities in the sternum of Eomunidopsis limonitica with Munida, but a comparison with venters of Galatheidae was not provided. Munididae are diagnosed by a trifid frontal margin with a central rostral spine and one or two pairs of supraorbital spines close to the axis (Ahyong et al., Reference Ahyong, Baba, Macpherson and Poore2010; Robins et al., Reference Robins, Feldmann and Schweitzer2012). Eomunidopsis limonitica bears a single triangular rostrum. All other characters match Eomunidopsis and Galatheidae, which is why we maintain placement within that genus and family.

Vía Boada (Reference Vía Boada1981) assigned Eomunidopsis orobensis as the type species upon the erection of the genus but incorrectly (International Commission for Zoological Nomenclature, 1999, article 70.2) listed E. navarrensis as the type species in Vía Boada (Reference Vía Boada1982), in which he provided a diagnosis of the genus. The suggested change may relate to not having a specimen of E. orobensis with a complete rostrum available, nor did Ruiz de Gaona (Reference Ruiz de Gaona1943) and Bataller (Reference Bataller1950). Vía Boada (Reference Vía Boada1982, p. 13) provided a diagnosis of the genus, indicating that rostra would have a tridentate tip. However, Klompmaker et al. (Reference Klompmaker, Feldmann, Robins and Schweitzer2012, fig. 5E) showed a specimen of E. orobensis that seems to have only a single spine at the tip. As multiple taxa were ascribed to and removed from Eomunidopsis since 1982, we provide a new genus diagnosis.

Eomunidopsis? cobbani Bishop, Reference Bishop1985
 Figure 5

v Reference Bishop1985

Eomunidopsis cobbani Bishop, p. 602, figs. 1–3.

v Reference Bishop1986

Eomunidopsis cobbani; Bishop, fig. 6f.

Reference Collins, Fraaye and Jagt1995

Eomunidopsis cobbani; Collins et al., p. 176.

Reference Karasawa and Hayakawa2000

Luisogalathea cobbani; Karasawa and Hayakawa, p. 143.

Reference Schweitzer, Feldmann, Garassino, Karasawa and Schweigert2010

Luisogalathea cobbani; Schweitzer et al., p. 49.

Reference Franţescu2014

Munida cobbani; Franţescu, p. 223.

Reference Nyborg and Garassino2015

Munida cobbani; Nyborg and Garassino, p. 96.

Reference Feldmann, Schweitzer and Boessenecker2015

Munida cobbani; Feldmann et al., p. 87.

Reference Vega, González-León and Moreno-Bedmar2019

Eomunidopsis cobbani; Vega et al., p. 3.

Reference Vega, González-León and Moreno-Bedmar2019

Luisogalathea cobbani; Vega et al., p. 3.

Figure 5. Eomunidopsis? cobbani Bishop, Reference Bishop1985, from the Upper Cretaceous (upper Campanian) Pierre Shale of the USA, holotype USNM PAL 370191, carapace: (1) dorsal view; (2) oblique view; (3) left lateral view.

Types

Holotype: USNM PAL 370191; paratypes: USNM PAL 370192–370196.

Occurrence

Localities in Larimer County, Colorado, USA; Baculites reesidei Elias, Reference Elias1933, and B. jenseni Cobban, Reference Cobban1962, ammonite biozones of the Larimer and Richard Sandstones, Pierre Shale, Upper Cretaceous (upper Campanian) (for stratigraphy, see Landman et al., Reference Landman, Cochran, Slovacek, Larson, Garb, Brezina and Witts2018).

Remarks

The holotype and one of the paratype carapaces have been figured in dorsal view. We here also provide new figures of the holotype from different angles.

The species has been placed in three genera (see synonymy list), so the taxon merits further discussion. Karasawa and Hayakawa (Reference Karasawa and Hayakawa2000) transferred the species to Luisogalathea on the basis of several characters, including the lack of a median rostral ridge. However, the figured type material has only a small part of the base of the rostrum preserved, and Bishop (Reference Bishop1985, p. 602) expressed doubt about the presence or absence of a ridge on the rostrum (“unridged (?)”). The impression of the lower side of the rostrum with the medial groove of the holotype (Fig. 5) cannot serve as a reliable proxy for the morphology of the upper side (see Klompmaker et al., Reference Klompmaker, Feldmann, Robins and Schweitzer2012, fig. 5D, 5E). Franţescu (Reference Franţescu2014) placed this species in Munida without further explanation. Subsequently, Nyborg and Garassino (Reference Nyborg and Garassino2015) and Feldmann et al. (Reference Feldmann, Schweitzer and Boessenecker2015) noted that this species lacks the supraorbital (= supraocular) spines. The latter authors also suggested a reevaluation and expressed that placement within Galatheidae might be possible on the basis of the wide rostrum and ornamentation. Munididae are characterized by supraorbital spines, so placement in Munida is not tenable. We questionably place the species in its original genus within Galatheidae because the preserved characters match the original (Vía Boada, Reference Vía Boada1982, p. 13) and emended diagnoses of Eomunidopsis herein. New material with a complete rostrum is needed to further evaluate this species.

Eomunidopsis texcalaensis new species
 Figure 6

Reference Vega, González-León and Moreno-Bedmar2019

Luisogalathea cretacea (Stenzel, Reference Stenzel1945); Vega et al., p. 2, fig. 3.1–3.4.

Figure 6. Eomunidopsis texcalaensis n. sp. from the Lower Cretaceous (upper Barremian) Zapotitlán Formation of Mexico, holotype IGM-11362, carapace: (1) dorsal view; (2) left lateral iew; (3) frontal view; (4) closeup of spines on the left lateral margin. Scale bar for 1 applies also to 2 and 3. Specimen images from Vega et al. (Reference Vega, González-León and Moreno-Bedmar2019, fig. 3.1–3.4), reproduced with permission.

Holotype

IGM-11362.

Diagnosis

Carapace excluding rostrum ~10% longer than wide, weakly convex longitudinally, moderately convex transversely; widening posteriorly. Rostrum triangular and sharp, slightly downturned, with strong median ridge. Mesogastric region poorly delimited, except for sharp tip of mesogastric process. Cardiac region appears straight at anterior border and rounded posterior to it. Lateral margins of carapace with spines on anterior three-quarters. Ornamentation consists of continuous ridges on posterior carapace; ridges more interrupted on anterior carapace.

Occurrence

El Ojito section, ~3 km NW of San Antonio Texcala, Puebla, Mexico (18.418°N, 97.459°W); coral limestone of the Zapotitlán Formation, Lower Cretaceous (upper Barremian).

Description

Carapace excluding rostrum ~10% longer than wide; weakly convex longitudinally, moderately convex transversely; widening posteriorly, maximum width in posterior third of carapace. Rostrum triangular and sharp, slightly downturned, with strong median ridge, with tubercles on surface, tip appears incomplete. Upper orbital margin concave. Epigastric regions distinctly bordered anteriorly by inverse V-shaped rim. Protogastric, hepatic, and mesogastric regions not to poorly delimited, except for sharp tip of mesogastric process. Cervical groove broadly U-shaped and distinct, curves more laterally near lateral margins. Groove branching off cervical groove transversally not very distinct, separating anterior and posterior branchial regions. Cardiac region appears straight at anterior border and rounded posterior to it. Intestinal region not clearly defined. Lateral margins with spines on anterior three-quarters. Posterior margin slightly concave, rimmed. Ornamentation consists of continuous ridges on posterior carapace, more interrupted on anterior carapace; appears similar on cuticle and internal mold, as preserved. No muscle scar impressions discernable. Ventral surface, abdomen, and appendages unknown.

Etymology

Named after the town of San Antonio Texcala, Puebla, Mexico.

Measurements

Holotype IGM-11362: L = 4.4 mm, W = 4.0 mm.

Remarks

Vega et al. (Reference Vega, González-León and Moreno-Bedmar2019) presented two specimens they ascribed to Luisogalathea cretacea (Stenzel, Reference Stenzel1945). Although this species is known from a not-too-distant region (Texas, USA), there is a substantial temporal gap of ca. 25 million years between the specimens, warranting a reassessment. Specimen IGM-11362 (Vega et al., Reference Vega, González-León and Moreno-Bedmar2019, fig. 3.1–3.4) does not represent L. cretacea because of the ridge on the axis of the rostrum, whereas L. cretacea has a groove here as described and figured by Stenzel (Reference Stenzel1945, p. 430–431, pl. 43.3) and Schweitzer and Feldmann (Reference Schweitzer and Feldmann2000, fig. 2) and further implied by Franţescu (Reference Franţescu2014, fig. 3). This specimen does not fit the diagnosis of Luisogalathea (see Karasawa and Hayakawa, Reference Karasawa and Hayakawa2000) because the rostrum bears an axial ridge and shows lateral spines near the tip. Instead, this specimen has many similarities to specimens of the late Albian species Eomunidopsis navarrensis (Van Straelen, Reference Van Straelen1940) found in Spain (see Klompmaker et al., Reference Klompmaker, Feldmann, Robins and Schweitzer2012, fig. 4). The substantial temporal gap alone already may argue against conspecificity, which is confirmed by a morphological difference. The cardiac region is consistently rectangular in E. navarrensis (Vía Boada, Reference Vía Boada1982 [non pl. 2.5]; Klompmaker et al., Reference Klompmaker, Feldmann, Robins and Schweitzer2012, Reference Klompmaker, Artal, Van Bakel, Fraaije and Jagt2014), but the posterior margin of this region is more rounded in IGM-11362, and the anterior margin of the cardiac region of IGM-11362 appears less well defined. Eomunidopsis aldoirarensis bears more-frequently interrupted ridges than the new species, has fewer spines in the posterior part of the lateral margin, and the tip of the mesogastric process is wider. Compared with E.? cobbani, the new species has less-curved posterolateral margins. Karasawa et al. (Reference Karasawa, Ohara and Kato2008) mentioned that the lateral margins of E. kinokunica do not show spines and that the rostral surface is smooth, both of which are not the case for E. texcalaensis n. sp. Eomunidopsis? kojimai does not widen comparably to the posterior carapace, and the transverse ridges are less continuous than in the new species. Eomunidopsis limonitica has its mesogastric region well delimited on all sides, unlike the new species, in which the lateral sides are not well defined. Eomunidopsis meerssensis is not well preserved, but the lateral margins are parallel to nearly so, whereas they diverge toward the posterior carapace in the new species. The type species of Eomunidopsis, E. orobensis, bears small tubercles on the middle part of the carapace, and its lateral margins parallel each other, which is not the case in E. texcalaensis.

Remarks

The second of the two specimens of Luisogalathea cretacea (IMG-11363) presented by Vega et al. (Reference Vega, González-León and Moreno-Bedmar2019) appears to be not conspecific to L. cretacea either, once again because of the presence of a ridge on the axis of the rostrum. Moreover, the mesogastric region is clearly defined on all sides, which is not the case for L. cretacea (Stenzel, Reference Stenzel1945, pl 43.3; Schweitzer and Feldmann, Reference Schweitzer and Feldmann2000, fig. 2; Franţescu, Reference Fraaije2014, fig. 3).

Mexican specimens identified as Eomunidopsis limonitica by Vega et al. (Reference Vega, González-León and Moreno-Bedmar2019) are ca. 25 million years older than the specimens from the United States (Texas) (Stenzel, Reference Stenzel1945; Franţescu, Reference Franţescu2014). Although the Mexican specimens are close to this species morphologically, there are some differences compared with the two figured specimens from the United States. One specimen (Vega et al., Reference Vega, González-León and Moreno-Bedmar2019, fig. 3.16, 3.17) is much more tubercular on the anterior carapace. Others show more ridges with granules on that region (Vega et al., Reference Vega, González-León and Moreno-Bedmar2019, fig. 3.13, 3.18, 3.19), which may or may not be influenced by preservation, the method of photography, and/or intraspecific variation. One difference that appears to be consistent is the short groove running from the anterolateral corners of the cardiac region to the groove branching off the cervical groove, which is present in the Mexican specimens but apparently absent in the E. limonitica from the United States (Franţescu, Reference Franţescu2014, fig. 4). Such a groove is present in the type species of Eomunidopsis, E. orobensis, from the late Albian of Spain (Vía Boada, Reference Vía Boada1982, pl. 2.8, 2.9; Klompmaker et al., Reference Klompmaker, Feldmann, Robins and Schweitzer2012, fig. 5). Our comparisons between the Mexican and US specimens are complicated by the fact that the Mexican specimens are smaller (2–4 mm wide) than the two US specimens (5–6 mm wide), implying that ontogenetic change is more difficult to consider. We conclude that the specimens are highly unlikely to represent L. cretacea or E. limonitica and refer them to open nomenclature within Eomunidopsis. More complete, well-preserved specimens are needed to determine the range of intraspecific variation to determine whether there is one new species with variable ornamentation (compare Vega et al., Reference Vega, González-León and Moreno-Bedmar2019, fig. 3.5–3.17) or multiple species.

Type species

Galathea strigosa (Linnaeus, Reference Linnaeus1761) (extant; NE Atlantic, Mediterranean Sea, Red Sea), as Cancer, by original designation.

Galathea? cretacea Stenzel, Reference Stenzel1945
 Figure 7

v Reference Stenzel1945

Galathea cretacea Stenzel, p. 430, pl. 43.3.

v Reference Glaessner and Moore1969

Galathea cretacea; Glaessner, p. R482, fig. 290.4.

Reference Bishop1985

Eomunidopsis cretacea; Bishop, p. 603.

Reference Karasawa and Hayakawa2000

Luisogalathea cretacea; Karasawa and Hayakawa, p. 143.

v Reference Schweitzer and Feldmann2000

Galathea cretacea; Schweitzer and Feldmann, p. 150, fig. 2.

Reference Schweitzer, Feldmann, Gonzáles-Barba and Vega2002

Galathea cretacea; Schweitzer et al., p. 37.

Reference Schweitzer, Feldmann, Garassino, Karasawa and Schweigert2010

Luisogalathea cretacea; Schweitzer et al., p. 50.

Reference Franţescu2014

Munida cretacea; Franţescu, p. 225, fig. 3.

Reference Nyborg and Garassino2015

Munida cretacea; Nyborg and Garassino, p. 96.

Reference Feldmann, Schweitzer and Boessenecker2015

Munida cretacea; Feldmann et al., p. 86, 87, 90.

Figure 7. Galathea? cretacea Stenzel, Reference Stenzel1945, from the Lower Cretaceous (upper Albian) Pawpaw Shale of Texas, USA, holotype BEG0002118.000, carapace: (1) dorsal view; (2) right lateral view; (3) posterior view; (4) frontal view.

Holotype

BEG0002118.000.

Remarks

Galathea cretacea from the Early Cretaceous (Albian) of Texas, USA, has been placed in a variety of genera since its description (see preceding synonymy list). Feldmann et al. (Reference Feldmann, Schweitzer and Boessenecker2015) called for a reevaluation of the placement of the species in Munida. The reassignment to a different family (Munididae) by Franţescu (Reference Franţescu2014) was based primarily on similarities in the sternum of Galathea cretacea with Munida, but a differentiation to venters of Galatheidae was not provided. Moreover, Munididae are diagnosed by a trifid frontal margin with a central rostral spine and one or two pairs of supraorbital spines close to the axis (Ahyong et al., Reference Ahyong, Baba, Macpherson and Poore2010; Robins et al., Reference Robins, Feldmann and Schweitzer2012), but G. cretacea bears a single triangular rostrum without adjacent spines. Thus, placement of G. cretacea in Munida is not tenable. Luisogalathea was defined as possessing no lateral spines on the rostrum, but Schweitzer and Feldmann (Reference Schweitzer and Feldmann2000) noted small spines on this margin, more consistent with Galathea. The medial groove on the rostrum is also in agreement with the type species of Galathea, extant G. strigosa. Eomunidopsis bears a rostrum with a median keel. Additional specimens of G. cretacea with complete rostra are required to further assess its generic placement. For now, we questionably assign it Galathea.

The species has been described first from the upper Albian Pawpaw Formation in Texas, USA (Stenzel, Reference Stenzel1945; Franţescu, Reference Franţescu2014). A specimen ascribed to G. cretacea from the Santonian of Texas was figured by McCall et al. (Reference McCall, Sprinkle, Molineux and Garvie2012, fig. 4-U1) and is refigured herein (Fig. 8). This specimen is ca. 15 million years younger than the holotype, which is why we restudied it. Unfortunately, the rostrum is not preserved, and the ventral side is not as well preserved as those in Franţescu (Reference Franţescu2014). The dorsal side is comparable to the holotype, but the rostrum is a key feature. It is difficult to ascertain whether the rostrum is truly narrow or whether it was wider, but breakage caused it to appear narrower. We did not observe obvious bases of supraocular spines as in Munididae, which suggests placement in Galatheidae is most likely. Specimens with complete rostra are necessary to determine the species.

Figure 8. Galatheidae indet. from the Upper Cretaceous (Santonian) “Pyroclastic Zone” of the Austin Group of Texas, USA, NPL00049997.000, carapace: (1) dorsal view; (2) right lateral view; (3) ventral view; (4) frontal view.

Type species

Protomunida munidoides (Segerberg, Reference Segerberg1900) (Paleocene [Danian]; Denmark), as Galathea, by original designation.

Other species

Protomunida bennickei n. sp. (Paleocene [Danian]; Denmark); P. eurekantha n. sp. (Paleocene [Danian]; Denmark); P.? pentaspinosa Beschin et al., Reference Beschin, Busulini, Tessier and Zorzin2016 (Eocene [Ypresian]; Italy); P. primaeva (Segerberg, Reference Segerberg1900) (Paleocene [Danian]; Denmark), as Munida; P. spitzbergica (Gripp, Reference Gripp1927) (late Paleocene; Spitsbergen), as Galathea.

Emended diagnosis

Carapace excluding rostrum longer than wide, subrectangular. Three-pronged rostrum, with one major, moderately narrow spine on axis and two smaller accessory spines. Forwardly directed spine at outer orbital angle; row of spines or tubercles on epigastric regions; epibranchial regions with tubercles dorsally and spines laterally; other ornamentation consists of transverse ridges; fairly smooth, nondepressed area posterior to cardiac region (modified from Hryniewicz et al., Reference Hryniewicz, Amano, Bitner, Hagström, Kiel, Klompmaker, Mörs, Robins and Kaim2019, p. 124).

Remarks

The species accommodated in this genus were discussed recently by Hryniewicz et al. (Reference Hryniewicz, Amano, Bitner, Hagström, Kiel, Klompmaker, Mörs, Robins and Kaim2019) on the basis of a species from Spitsbergen. Here, we describe four species from Denmark in detail and have updated the genus diagnosis consequently. Protomunida spp. are known only from the Paleogene of Europe thus far.

Protomunida munidoides (Segerberg, Reference Segerberg1900)
 Figure 9

v Reference Segerberg1900

Galathea munidoides Segerberg, p. 353, pl. 7.5.

v Reference Collins and Jakobsen1994

Protomunida munidoides; Collins and Jakobsen, pl. 10.1.

v Reference Jakobsen and Collins1997

Protomunida munidoides; Jakobsen and Collins, pl. 2.10.

Figure 9. Protomunida munidoides (Segerberg, Reference Segerberg1900) from the Paleocene (middle Danian) Faxe Formation of Denmark. (1–3) OESM 11205 (cast), carapace: (1) dorsal view; (2) left lateral view; (3) frontal view. (4–8) Lectotype MMH 248, carapace: (4) dorsal view; (5) left lateral view; (6) posterior margin; (7) rostral view; (8) frontal view. (9–13) Carapaces in dorsal view: (9) OESM 11189 (cast); (10) OESM 11193 (cast); (11) OESM 11204 (cast); (12) OESM 11234; (13) OESM 11194.

Lectotype

MMH 248.

Diagnosis

Carapace excluding rostrum ~15–25% longer than wide; maximum width about mid-length. Rostrum with narrow, sharp, triangular central rostral spine; fairly flat but with faint keel on axis to about mid-length. Lateral margins of carapace with spines on anterior two-thirds. Posterior margin slightly concave, rimmed, without spines. Spines absent just posterior to transverse groove branching off cervical groove.

Occurrence

Faxe Quarry, Denmark (55.26°N, 12.13°E); coral–bryozoan limestone of the Faxe Formation, Paleocene (middle Danian) (Lauridsen et al., Reference Lauridsen, Bjerager and Surlyk2012; Lauridsen and Bjerager, Reference Lauridsen and Bjerager2021). The Faxe Formation is dated as nannofossil zone NNTp2G-3 (Bjerager et al., Reference Bjerager, Sheldon and Lauridsen2018) using the zonation of Varol (Reference Varol and Bown1998), which is equivalent to lower Zone NP3 (Martini, Reference Martini and Farinacci1971).

Description

Carapace excluding rostrum ~15–25% longer than wide, up to ~8 mm wide; weakly convex longitudinally, moderately convex transversely, maximum width about mid-length. Rostrum with narrow, sharp, triangular central rostral spine; fairly flat but with faint keel on axis to about mid-length; slightly downturned at distal half; one spine at base rostrum on either side of central rostral spine. Upper orbital margin concave. Forward spine at anterolateral angle. Epigastric regions distinctly bordered, triangular, with row of spines near anterior border. Hepatic regions small, weakly delimited. Protogastric and mesogastric regions not or poorly delimited, except for sharp tip of mesogastric process, which may show a tubercle. Cervical groove broadly U-shaped and distinct, somewhat sinuous more laterally, intersects with lateral margin posterior to hepatic region. Transverse grooves branching off cervical groove distinct, separating anterior and posterior branchial regions. Cardiac region appears straight at anterior border and straight to rounded posterior to it. Intestinal region not clearly defined. Lateral margins with spines on anterior two-thirds. Posterior margin slightly concave, rimmed, without spines. Ornamentation consists of fairly continuous, transverse ridges on most of carapace; tubercles/spines on epibranchial regions and near anterior margin; ornamentation appears similar on internal molds and casts. Spines absent just posterior to transverse groove branching off cervical groove. Muscle scar impressions generally not discernable, except posterior gastric muscles in OESM 11189. Posterior gastric pits within cervical groove expressed as slits. Ventral surface, abdomen, and appendages unknown.

Measurements (mm)

OESM 11205: L = 4.5, W = 3.8; lectotype MMH 248: L = 5.1, W = 4.1; OESM 11189: L = 4.8, W = 4.1; OESM 11193: L = 3.2, W = 2.7; OESM 11204: L = 4.8, W = 3.9; OESM 11234: L = –, W = 7.0; OESM 11194: L = 6.2, W = 5.2.

Remarks

Despite this species being commonly cited in the literature (see synonymy lists), no specimens from the previous literature other than the type specimen can be confidently attributed to this species. The posterior margin of the lectotype is incompletely preserved, but it is preserved to the extent that we can confirm the absence of a tubercle/spine or a base thereof. This statement is supported by visual inspection combined with a quantitative comparison with the position of spines on this margin for Protomunida eurekantha n. sp. (Fig. 9.6; Table 2). No obvious ontogenetic variations are observed within P. munidoides. In terms of intraspecific variation, the number of spines marking the anterior border of the epigastric regions appears to vary from two to five and the number of spines on the epibranchial regions varies from two to three. However, taphonomy may have affected the preservation of these spines.

Table 2. Relative position of the spines on the posterior margin for Protomunida eurekantha n. sp. For the lectotype of Protomunida munidoides (Segerberg, Reference Segerberg1900) (MMH 248), 0.83 of the left half of the posterior margin is preserved without any signs of a spine, implying this specimen did not have spines on the posterior margin.

Because this species is diagnosed and described anew here, a comparison with congenerics is necessary. Differences between P. munidoides and the new species are described in the remarks sections of those taxa. The central part of the rostrum of P.? pentaspinosa appears to be wider at its base, and the spines on the lateral margins appear to extend more posteriorly. Protomunida primaeva does possess spines just posterior to the transverse groove branching off the cervical groove, unlike P. munidoides. In addition, the base of the rostrum has a shorter keel in P. primaeva. Protomunida spitzbergica bears transverse ridges that are more interrupted than in P. munidoides.

Protomunida primaeva (Segerberg, Reference Segerberg1900)
 Figure 10

v Reference Segerberg1900

Munida primaeva Segerberg, p. 353, pl. 7.6.

? Reference Woodward1901

Galathea munidoides; Woodward, p. 489, pl. 12.8.

? Reference Glaessner and Moore1969

Protomunida munidoides; Glaessner, p. R482, fig. 290.1.

v Reference Collins and Jakobsen1994

Munida primaeva; Collins and Jakobsen, pl. 10.2.

v Reference Jakobsen and Collins1997

Munida primaeva; Jakobsen and Collins, pl. 2.8.

? Reference Damholt, Rasmussen and Rasmussen2010

Munida primaeva; Damholt et al., fig. on p. 22.

? Reference Rasmussen, Rasmussen and Hansen2011

Munida primaeva; Rasmussen et al., fig. on p. 83.

? Reference Klompmaker, Hyžný and Jakobsen2015

Munida primaeva; Klompmaker and Boxshall, fig. 1d.

Figure 10. Protomunida primaeva (Segerberg, Reference Segerberg1900) from the Paleocene (middle Danian) Faxe Formation of Denmark: (1, 2, 9) OESM 11202 (cast), carapace (1) dorsal view; (2) right lateral view; (9) frontal view. (3, 6, 8) Carapaces in dorsal view: (3) OESM 11199; (6) OESM 11250 (cast); (8) OESM 11231. (4, 5, 7) Lectotype MMH 249, carapace: (4) dorsal view; (5) left lateral view; (7) frontal view.

Lectotype

MMH 249.

Diagnosis

Carapace excluding rostrum ~15–25% longer than wide; maximum width about mid-length. Rostrum with narrow, sharp, triangular central rostral spine; fairly flat but with faint keel on axis only at base rostrum. Lateral margins of carapace with spines on anterior two-thirds. Posterior margin slightly concave, rimmed, without spines. Spines present just posterior to transverse groove branching off cervical groove.

Occurrence

Faxe Quarry, Denmark (55.26°N, 12.13°E); coral–bryozoan limestone of the Faxe Formation, Paleocene (middle Danian) (Lauridsen et al., Reference Lauridsen, Bjerager and Surlyk2012; Lauridsen and Bjerager, Reference Lauridsen and Bjerager2021). The Faxe Formation is dated as nannofossil zone NNTp2G-3 (Bjerager et al., Reference Bjerager, Sheldon and Lauridsen2018) using the zonation of Varol (Reference Varol and Bown1998), which is equivalent to lower Zone NP3 (Martini, Reference Martini and Farinacci1971).

Description

Carapace excluding rostrum ~15–25% longer than wide, up to ~6 mm wide; weakly convex longitudinally, moderately convex transversely, maximum width about mid-length. Rostrum with narrow, sharp, triangular central rostral spine; fairly flat but with faint keel on axis only at base rostrum; slightly downturned at distal half; one spine at base rostrum on either side of central rostral spine. Upper orbital margin concave. Forward spine at anterolateral angle. Epigastric regions distinctly bordered, triangular, with row of spines near anterior border. Hepatic regions small, weakly delimited. Protogastric and mesogastric regions not or poorly delimited, except for sharp tip of mesogastric process that may show two small tubercles. Cervical groove broadly U-shaped and distinct, somewhat sinuous more laterally, intersects with lateral margin posterior to hepatic region. Transverse grooves branching off cervical groove distinct, separating anterior and posterior branchial regions. Cardiac region appears straight at anterior border and straight to rounded posterior to it. Intestinal region not clearly defined. Lateral margins with spines on anterior two-thirds. Posterior margin slightly concave, rimmed, without spines. Ornamentation consists of fairly continuous, transverse ridges on most of carapace; tubercles/spines on epibranchial regions and near anterior margin; ornamentation appears similar on internal molds and casts. Spines present just posterior to transverse groove branching off cervical groove. Muscle scar impressions generally not discernable, except for posterior gastric muscles in some specimens (MMH 249, OESM 11199). Posterior gastric pits within cervical groove expressed as slits. Ventral surface, abdomen, and appendages unknown.

Measurements (mm)

OESM 11202: L = 6.4, W = 5.3; OESM 11199: L = 7.2, W = 6.1; lectotype MMH 249: L = 5.7, W = 4.7; OESM 11250: L = 3.6, W = 2.9; OESM 11231: L = 3.8, W = 3.1.

Remarks

No specimens from the previous literature other than the type specimen can be attributed to this species with certainty. No obvious ontogenetic variations are observed within P. primaeva. In terms of intraspecific variation, the number of spines marking the anterior border of the epigastric regions appears to vary from four to five, and the number of obvious spines on the epibranchial regions varies from two to three. Taphonomic processes may have influenced the preservation of these spines.

A comparison with the two new species of Protomunida is provided in the following and a comparison with P. munidoides was given in the preceding. Compared with P.? pentaspinosa, the base of the central rostral spine appears narrower in P. primaeva, and the latter species bears spines just posterior to groove branching off cervical groove, which appear absent in P.? pentaspinosa. Protomunida spitzbergica bears transverse ridges that are much more interrupted than in P. primaeva.

Protomunida bennickei new species
 Figure 11

Reference Bonde, Andersen, Hald and Jakobsen2008

troldhummer; Bonde et al., fig. on p. 69.

Figure 11. Protomunida bennickei n. sp. from the Paleocene (Danian) of Denmark. (1, 2, 4) Holotype OESM 11213, carapace: (1) dorsal view; (2) right lateral view; (4) frontal view. (3, 5–9) Carapaces in dorsal view: (3) paratype OESM 11211 (cast); (5) paratype OESM 11246; (6) paratype OESM 11248; (7) OESM 11247a; (8) OESM 11208 (cast); (9) OESM 11207 (cast).

Types

Holotype: OESM 11213; paratypes: OESM 11211, OESM 11246, and OESM 11248.

Diagnosis

Carapace excluding rostrum ~5–15% longer than wide; maximum width in posterior half of carapace. Rostrum triangular and sharp, slightly downturned, with strong median ridge along entire axis. Lateral margins of carapace with spines on anterior half. Posterior margin slightly concave, rimmed, without spines. Spines absent just posterior to transverse groove branching off cervical groove.

Occurrence

Glacial erratics, Hesnæs beach, Denmark (54.8314°N, 12.162°E); uppermost lower Paleocene (Danian); nannofossil subzone NNTp2C (Varol, Reference Varol and Bown1998), equivalent to lower Zone NP2 (Martini, Reference Martini and Farinacci1971).

Description

Carapace excluding rostrum ~5–15% longer than wide, up to ~4 mm wide; weakly convex longitudinally, moderately convex transversely; somewhat widening posteriorly, maximum width in posterior half of carapace. Rostrum with narrow, sharp, triangular central rostral spine and strong median ridge along entire axis; slightly downturned at distal half; one spine at base rostrum on either side of central rostral spine. Upper orbital margin concave, rimmed. Forward spine at anterolateral angle. Epigastric regions distinctly bordered, triangular, with row of spines near anterior border. Hepatic regions small, weakly delimited. Protogastric and mesogastric regions not or poorly delimited, except for sharp tip of mesogastric process, which may show two small tubercles. Cervical groove broadly U-shaped and distinct, somewhat sinuous more laterally, intersects with lateral margin posterior to hepatic region. Transverse grooves branching off cervical groove distinct, separating anterior and posterior branchial regions. Cardiac region appears straight at anterior border and straight to rounded posterior to it. Intestinal region not clearly defined. Lateral margins with spines on anterior half. Posterior margin slightly concave, rimmed, without spines. Ornamentation consists of fairly continuous, transverse ridges on posterior carapace and on central gastric region; tubercles/spines on epibranchial regions and near anterior margin; ornamentation appears similar on internal molds and casts. Spines absent just posterior to transverse groove branching off cervical groove. Muscle scar impressions generally not discernable, except posterior gastric muscles in holotype. Posterior gastric pits within cervical groove expressed as slits. Ventral surface, abdomen, and appendages unknown.

Etymology

Named after Peter Bennicke, sole collector of the specimens.

Measurements (mm)

Holotype OESM 11213: L = 3.8, W = 3.3; paratype OESM 11211: L = 4.4, W = 3.8; paratype OESM 11246: L = 3.3, W = 3.1; paratype OESM 11248: L = 2.6, W = 2.4.

Remarks

The geographic origin of the glacial erratics remains unclear. It is possible they came from Danian layers at Limhamn near Malmö (Sweden) or from elsewhere in Denmark. Decapod taxa found in the same erractics include Protomunida eurekantha n. sp. (OESM 11258); Caloxanthus ornatus (von Fischer-Benzon, Reference von Fischer-Benzon1866) (on same rock as OESM 11218); Dromiopsis rugosus (von Schlotheim, Reference von Schlotheim1820); D. elegans Reuss, Reference Reuss1859; Latheticocarcinus spinigus (Jakobsen and Collins, Reference Jakobsen and Collins1997); L. affinis (Jakobsen and Collins, Reference Jakobsen and Collins1997); and Raniliformis baltica (Segerberg, Reference Segerberg1900). All these species except P. eurekantha are known from the middle Danian Faxe Formation of Faxe, Denmark (nannofossil zone NNTp2G-3, ca. 64.5 Ma, see Hvid et al., Reference Hvid, Van Buchem, Andreasen, Sheldon and Fabricius2021). One of us (E.S.) investigated the nannofossils assemblage preserved in the carbonates of the glacial erratics to determine the age. Stratigraphically important nannofossil taxa (for nannofossil taxonomy, see Young et al., Reference Young, Bown and Lees2021) include Biantholithus sparsus Bramlette and Martini, Reference Bramlette and Martini1964; Biscutum harrisonii Varol, Reference Varol, Crux and Van Heck1989; Coccolithus pelagicus (Wallich, Reference Wallich1877); Cyclagelosphaera alta Perch-Nielsen, Reference Perch-Nielsen1979; Neocrepidolithus cruciatus (Perch-Nielsen, Reference Perch-Nielsen1979); Neocrepidolithus fossus (Romein, Reference Romein1977); and Zeugrhabdotus sigmoides (Bramlette and Sullivan, Reference Bramlette and Sullivan1961) (see Appendix 1 for all taxa), which assigns the sample to nannofossil subzone NNTp2C (uppermost lower Danian or ca. 65.5 Ma, see Hvid et al., Reference Hvid, Van Buchem, Andreasen, Sheldon and Fabricius2021). This age is ca. 1 Myr older than the Faxe decapods, extending the stratigraphic range of many of these decapod taxa.

A principal difference between the new species and all other species of Protomunida is the strong keel present along the entire axis of the rostrum, a feature that is not seen to that extent in congenerics. Some other differences include the following. Protomunida? pentaspinosa bears spines located more posteriorly on the lateral margins. Protomunida spitzbergica has transverse ridges that are more interrupted. Unlike P. bennickei n. sp., P. primaeva and P. eurekantha show spines just posterior to where the posterior cervical groove branches off the cervical groove. The carapace of P. primaeva appears proportionally longer. Protomunida eurekantha also exhibits spines on the posterior margin, absent in P. bennickei. The spines on the lateral margin appear to extend more posteriorly in P. munidoides, and the carapace of P. bennickei appears proportionally wider than that of P. eurekantha. No obvious ontogenetic and intraspecific variations are observed within P. bennickei.

Protomunida eurekantha new species
 Figure 12

Reference Jakobsen and Collins1997

Protomunida munidoides (Segerberg, Reference Segerberg1900); Jakobsen and Collins, pl. 2.11.

Reference Wienberg Rasmussen, Jakobsen and Collins2008

Protomunida munidoides; Wienberg Rasmussen et al., pl. 3.3.

? Reference Damholt, Rasmussen and Rasmussen2010

Protomunida munidoides; Damholt et al., fig. on p. 22.

Reference Polkowsky2014

Protomunida munidoides; Polkowsky, fig. 49, pl. 11.4.

? Reference Klompmaker, Jakobsen and Lauridsen2016

Protomunida munidoides; Klompmaker et al., fig. 3c.

Figure 12. Protomunida eurekantha n. sp. from the Paleocene (middle Danian) Faxe Formation of Denmark. (1, 2, 4) Holotype OESM 11255 (cast), carapace: (1) dorsal view; (2) right lateral view; (4) frontal view. (3, 5–9) Paratypes, carapaces in dorsal view: (3) OESM 11172; (5) OESM 11174; (6) OESM 11184; (7) OESM 11245; (8) OESM 11176; (9) OESM 11254.

Types

Holotype: OESM 11255 (cast + external mold); paratypes: OESM 11172, OESM 11174, OESM 11176, OESM 11184, OESM 11245, and OESM 11254 (internal and external mold + cast).

Diagnosis

Carapace excluding rostrum ~20–25% longer than wide; maximum width about mid-length. Rostrum with narrow, sharp, triangular central rostral spine; fairly flat but with faint keel on axis only at base rostrum. Lateral margins of carapace with spines on anterior two-thirds. Posterior margin slightly concave, rimmed, with spines. Spines present just posterior to transverse groove branching off cervical groove.

Occurrence

Faxe Quarry, Denmark (55.26°N, 12.13°E); coral–bryozoan limestone of the Faxe Formation, Paleocene (middle Danian) (Lauridsen et al., Reference Lauridsen, Bjerager and Surlyk2012; Lauridsen and Bjerager, Reference Lauridsen and Bjerager2021). The Faxe Formation is dated as nannofossil zone NNTp2G-3 (Bjerager et al., Reference Bjerager, Sheldon and Lauridsen2018) using the zonation of Varol (Reference Varol and Bown1998), which is equivalent to lower Zone NP3 (Martini, Reference Martini and Farinacci1971). In addition, ex situ specimens are found in Danian erratics from Zarrentin in northern Germany (Polkowsky, Reference Polkowsky2014) and erractis of Hesnæs beach (nannofossil subzone NNTp2C) in Denmark (OESM 11258) along with Protomunida benneckei n. sp.

Description

Carapace excluding rostrum ~20–25% longer than wide, up to ~5 mm wide; weakly convex longitudinally, moderately convex transversely, maximum width about mid-length. Rostrum with very narrow, sharp, triangular central rostral spine; fairly flat but with faint keel on axis only at base rostrum; slightly downturned at distal half; one spine at base rostrum on either side of central rostral spine. Upper orbital margin concave. Forward spine at anterolateral angle. Epigastric regions distinctly bordered, triangular, with row of spines near anterior border. Hepatic regions small, weakly delimited. Protogastric and mesogastric regions not or poorly delimited, except for sharp tip of mesogastric process that may show a small tubercle. Cervical groove broadly U-shaped and distinct, somewhat sinuous more laterally, intersects with lateral margin posterior to hepatic region. Transverse grooves branching off cervical groove distinct, separating anterior and posterior branchial regions. Cardiac region appears straight at anterior border and straight to rounded posterior to it. Intestinal region not clearly defined. Lateral margins with spines on anterior two-thirds. Posterior margin slightly concave, rimmed, with at least two spines near position of lateral edges of cardiac region. Ornamentation consists of fairly continuous, transverse ridges on most of carapace; tubercles/spines on epibranchial regions and near anterior margin; ornamentation appears similar on internal molds and casts. Spines present just posterior to transverse groove branching off cervical groove. Muscle scar impressions generally not discernable, except for posterior gastric muscles in OESM 11172. Posterior gastric pits within cervical groove expressed as slits. Ventral surface, abdomen, and appendages unknown.

Etymology

The species name (eurekantha) is a merger of the Greek Eureka or εὕρηκα (heúrēka) meaning “I have found (it)” and the Greek άκανθα or acantha meaning spine. This name refers to the spines on the posterior margin of the carapace, which are diagnostic for this species and were first noted by one of us (S.L.J.) after casting external molds.

Measurements (mm)

OESM 11255: L = 4.6, W = 3.7; OESM 11172: L = 4.4, W = 3.7; OESM 11174: L = 3.6, W = 3.0; OESM 11184: L = 3.1, W = 2.5; OESM 11245: L = 5.3, W = 4.4; OESM 11176: L = 6.4, W = 5.3; OESM 11254: L = 4.4, W = 3.6.

Remarks

No obvious ontogenetic variations are observed. In terms of intraspecific variation, the number of spines marking the anterior border of the epigastric regions appears to vary from two to five, the number of spines on the epibranchial regions varies from one to two, and the number of spines on the posterior margin varies from two to four. Taphonomic processes may have influenced the preservation of these spines.

Several specimens from the previous literature can be attributed to this new species with certainty because they bear spines on the posterior margin. Such spines were not previously recognized in galatheoids from Faxe, but spines at or near the posterior margin can be of prime taxonomic importance in distinguishing species in extant galatheoids (Macpherson, Reference Macpherson2004, p. 249; Osawa and Takeda, Reference Osawa and Takeda2007, p. 140; Macpherson et al., Reference Macpherson, Chan, Kumar and Rodríguez-Flores2020, p. 24). The presence or absence of spines on the posterior margin is relatively constant in the same species in extant galatheoids (never zero to two or zero to four) (E. Macpherson, personal communication, 2021), and sexual dimorphism in spines on the dorsal carapace has not been observed (E. Macpherson, personal communication, 2020). When broken, the bases of these spines in fossil specimens can be observed after careful examination with a hand lens or microscope.

The main difference between all other species of Protomunida and P. eurekantha n. sp. is the presence of spines on the posterior margin, which are lacking in other species. Some additional differences per species are discussed briefly. A comparison with P. bennickei n. sp. was provided in the preceding. Protomunida munidoides and P.? pentaspinosa lack the spines just posterior to the groove branching off the cervical groove, which are present in P. eurekantha. Moreover, P. munidoides bears a longer keel on the axis of the rostrum, and the base of the central rostral spine appears wider in P.? pentaspinosa. Differences other than the presence/absence of spines on the posterior margin between P. eurekantha and P. primaeva are minimal. Protomunida spitzbergica bears more interrupted transverse ridges.

Type and sole species

Palaeomunidopsis moutieri Van Straelen, Reference Van Straelen1925 (Middle Jurassic [Bathonian]; France), by original designation.

Palaeomunidopsis moutieri Van Straelen, Reference Van Straelen1925
 Figure 13

Reference Van Straelen1923

Gastrosacus moutieri Van Straelen, p. 553.

Reference Van Straelen1925

Palaeomunidopsis moutieri Van Straelen, p. 138, fig. 141, pl. 9.8.

Reference Glaessner and Moore1969

Palaeomunidopsis moutieri; Glaessner, p. R482–483, fig. 290.2.

Reference Robins, Feldmann and Schweitzer2013

Palaeomunidopsis moutieri; Robins et al., fig. 6.16.

Reference Fraaije, Van Bakel, Jagt, Charbonnier and Pezy2019a

Palaeomunidopsis moutieri; Fraaije et al., p. 291, 293.

Figure 13. The oldest galatheoid known to date: Palaeomunidopsis moutieri Van Straelen, Reference Van Straelen1925, from the Middle Jurassic (middle Bathonian) Calcaire de Caen Formation of France. Carapace in dorsal view. Reproduced from Van Straelen (Reference Van Straelen1925, pl. 9.8).

Holotype

Collection of Dr. Moutier from Caen. Carapace is presumed to be lost during World War II (Fraaije et al., Reference Fraaije, Van Bakel, Jagt, Charbonnier and Pezy2019a).

Occurrence

Giberville (Calvados), France; Calcaire de Caen Formation, Middle Jurassic (middle Bathonian).

Description

“The carapace is hardly wider behind than in front, its lateral margins are straight and almost parallel. The rostrum is very wide, appreciably triangular and appears to have been quite long, tending to be styliform; it is a little depressed compared to the dorsal surface, at its base it has a small keel and its edges are marginalized. The antero-lateral angles of the carapace are rounded, they are attached to the rostrum by a smooth surface, limited on the internal side by a small groove. This surface corresponds to a small bead. The cervical groove is very deep, strongly concave towards the front, this depth is held in the antennal groove which follows it, this one is hardly marked. The gastric region is very prominent. The latero-posterior angles of the carapace are broadly rounded, projecting a little over the posterior marginal edge. Scaly tubercles, more or less arranged in rows, cover almost all parts of the cephalothorax. These tubercles have a tendency to become spiniform towards the lateral edges” (translated from Van Straelen, Reference Van Straelen1925, p. 308).

Remarks

Palaeomunidopsis moutieri from the Middle Jurassic (middle Bathonian) of France was considered the oldest fossil representative of Galatheoidea, but Fraaije et al. (Reference Fraaije, Van Bakel, Jagt, Charbonnier and Pezy2019a) declared it a nomen dubium in the same paper in which they described a newly proposed oldest galatheoid, Gastrosacus raboeufi, from the late Bathonian of France. We disagree with this nomen dubium as P. moutieri was published with a detailed description, a line drawing, and a photo. While the illustrations may not be the high quality preferred today, they fulfill the rules set within the ICZN (International Commission on Zoological Nomenclature, 1999, article 12). Although the holotype was presumed to be destroyed in World War II, it is clearly described by Van Straelen (Reference Van Straelen1925). The line drawing is inaccurate because it does not match the photo closely (compare the course of the circumgastric groove for example), but the photo shows hallmark characters of a munidopsid: the strong circumgastric groove and the base of a wide rostrum accompanied by a medial keel. These characters were also described. Other characters described by Van Straelen (Reference Van Straelen1925) such as the tubercular ornamentation, the well-defined gastric region, and lateral margins with spines are also mentioned in the diagnosis of Munidopsidae (Robins et al., Reference Robins, Feldmann and Schweitzer2013, p. 175). Van Straelen (Reference Van Straelen1925) inferred the rostrum would be long, a character that is common in Jurassic Munidopsidae (Robins et al., Reference Robins, Feldmann and Schweitzer2013). A similar circumgastric groove would also be present in Gastrodoridae, Parapylochelidae, and Pylochelidae according to Fraaije et al. (Reference Fraaije, Van Bakel, Jagt, Charbonnier and Pezy2019a). However, the groove in the gastric region in Gastrodoridae is generally more V-shaped, more sinuous, and less circular than in P. moutieri, and gastrodorids do not have a wide rostral base (Van Bakel et al., Reference Van Bakel, Fraaije, Jagt and Artal2008; Klompmaker et al., Reference Klompmaker, Artal, Fraaije and Jagt2011; Fraaije et al., Reference Fraaije, Van Bakel, Jagt and Skupien2013; Krzemińska et al., Reference Krzemińska, Starzyk, Schweigert, Whicher, Chandler and Fraaije2020). Members of Parapylochelidae do not possess a circular groove in the gastric region and bear a short rostrum without a keel (Fraaije et al., Reference Fraaije, Klompmaker and Artal2012a, Reference Fraaije, Robins, Van Bakel, Jagt and Bachmayer2019b, Reference Fraaije, Van Bakel, Jagt and Skupien2020; Fraaije, Reference Fraaije2014). Pylochelidae exhibit a gastric groove that is much more sinuous and V-shaped, and the rostrum appears short (Van Bakel et al., Reference Van Bakel, Fraaije, Jagt and Artal2008; Fraaije et al., Reference Fraaije, Krzemiński, Van Bakel, Krzemińska and Jagt2012b, Reference Fraaije, Robins, Van Bakel, Jagt and Bachmayer2019b; Fraaije, Reference Fraaije2014). In conclusion, we reinstate P. moutieri as a munidopsid and oldest galatheoid to date.

Gastrosacus raboeufi is only slightly younger than P. moutieri and is from the same region in France, warranting a further comparison between these two munidopsids. According to the photos available, some differences may be present. Van Straelen (Reference Van Straelen1925) mentioned a wide rostrum, and it may indeed be wider than in G. raboeufi. Moreover, the tubercles of P. moutieri are said to have been arranged in rows, which is not obvious in G. raboeufi. Munidopsid specimens from the stratigraphic horizon in which P. moutieri was found and additional specimens of G. raboeufi would be most welcome for further comparisons and to evaluate the generic status of Palaeomunidopsis because the only specimen has many similarities to Gastrosacus von Meyer, Reference von Meyer1851. For now, we keep the taxa separate within their respective genera.

Type and sole species

Vetoplautus latimarginus Robins et al., Reference Robins, Feldmann and Schweitzer2013 (Late Jurassic [Tithonian]; Austria, Czech Republic), by original designation.

Vetoplautus latimarginus Robins et al., Reference Robins, Feldmann and Schweitzer2013
 Figure 14

Reference Robins, Feldmann and Schweitzer2013

Vetoplautus latimarginus Robins et al., Reference Robins, Feldmann and Schweitzer2013, p. 241, figs. 6.19, 15.3.

Figure 14. Vetoplautus latimarginus Robins et al., Reference Robins, Feldmann and Schweitzer2013, from the Upper Jurassic (Tithonian) Štramberk Limestone of the Czech Republic, UF 269890, carapace: (1) dorsal view; (2) right lateral view; (3) rostral view.

Holotype

NHMW 2007z0149/0151.

Occurrence

Holotype: reef limestone of the Ernstbrunn Limestone at the Ernstbrunn quarries, near Dörfles, Austria (Google Earth coordinates: ~48.55°N, ~16.35°E), Late Jurassic (middle–late Tithonian) (Zeiss, Reference Zeiss2001). Additional specimen UF 269890: reef limestone of the Štramberk Limestone of locality 3 at level 6 of the Kotouč quarry, Czech Republic (Google Earth coordinates: 49.583°N, 18.116°E), Late Jurassic (late early Tithonian) (Vašíček and Skupien, Reference Vašíček and Skupien2016; Vašíček et al., Reference Vašíček, Skupien and Jagt2018).

Description

Reference is made to Robins et al. (2013, p. 241). In addition, rostrum with broad base, triangular, with moderately strong keel along entire axis, lateral margins of rostrum containing spines, rostral surface with granules.

Measurements

L = ~3.0 mm, W = 3.2 mm.

Remarks

The new specimen represents the second occurrence and the third specimen of this species in addition to the holotype and paratype from the Tithonian of Ernstbrunn, Austria. The Czech specimen is slightly smaller than the holotype and shows additional features not seen in the type specimens, such as a complete rostrum.