Trilobites from the Cedaria prolifica Zone (Cambrian, upper Guzhangian) of the Precordillera of Mendoza, western Argentina

Abstract

Trilobites from the upper Guzhangian of the southern Argentine Precordillera, preliminarily described by Carlos Rusconi in the 1950s, are revised herein. The specimens studied were collected from an allochthonous limestone block of La Cruz Olistoliths at 200 m northwest of Estancia San Isidro locality (San Isidro area, Mendoza). Taxa comprise Kormagnostus seclusus (Walcott, 1884), Cedaria prolifica Walcott, 1924, C. puelchana Rusconi, 1954, Tricrepicephalus texanus (Shumard, 1861), Meteoraspis metra (Walcott, 1890), Coosia conicephala (Rusconi, 1954) new combination, Coosella texana? Resser, 1942, Nasocephalus cf. N. nasutus Wilson, 1954, and Olenoides proa (Rusconi, 1954) new combination. The North American genera Meteoraspis Resser, 1935 and Nasocephalus Wilson, 1954 are reported confidently from South America for the first time. This assemblage is representative of the Cedaria prolifica Zone, which correlates with the lower Crepicephalus Zone of the traditional North American genus-based zonation. Most of the genera and species identified were previously described exclusively from Canada, the United States, and northwestern Mexico, a fact that provides new support to an allochthonous Laurentian origin of the Argentine Precordillera.

Introduction

During the 1940s and 1950s, the naturalist Carlos Rusconi described large numbers of Cambrian trilobites from the southern Precordillera of Mendoza, western Argentina (Rusconi, 1956a and references therein; Cerdeño, 2005). Many of these fossils were collected from the San Isidro area (Fig. 1), where early Miaolingian to late Furongian exotic limestone blocks (San Isidro, San Martín, and La Cruz olistoliths) occur within Middle and Upper Ordovician shales (Bordonaro et al., 1993; Keller, 1999). It is now recognized that Cambrian trilobites from the Argentinian Precordillera have clear Laurentian affinities. Recent systematic revisions of the Rusconi collections provided updated information on several standard North American trilobite zones such as the Glossopleura walcotti, Ehmaniella, Lejopyge laevigata, Elvinia and Saukia zones (Tortello and Bordonaro, 1997; Bordonaro, 2003, 2014; Bordonaro and Fojo, 2011; Pratt and Bordonaro, 2014; Tortello, 2018, 2020, 2022).

Figure 1. Map of the San Isidro area, Mendoza Province, Argentina (after Bordonaro et al., 1993 and Tortello, 2022). The 200 m northwest of Estancia San Isidro locality is indicated by an asterisk.

In addition, the Rusconi collections include numerous specimens from the Cedaria/Crepicephalus Zone (Rusconi, 1954; Borrello, 1965, 1971) that have yet to be revised. These specimens come from 200 m northwest of Estancia San Isidro (Fig. 1) and were partially described by Rusconi (1954, p. 47, pl. 4, figs. 1–14), who pointed out the presence of the key genera Cedaria Walcott, 1924 and Tricrepicephalus Kobayashi, 1935. Although Rusconi (1954) erected several local species from this assemblage, Pratt (1992) synonymized some of them with Tricrepicephalus texanus (Shumard, 1861), a taxon that is known from the Cedaria and Crepicephalus zones of many regions of North America. Furthermore, Robison (1988) and Tortello and Bordonaro (1997) reported, with some reservation, the agnostoid Kormagnostus seclusus (Walcott, 1884) from this locality.

Aside from the specimens described by Rusconi (1954), many supplementary sclerites collected by Rusconi from 200 m northwest of Estancia San Isidro are available for study in the Museo de Ciencias Naturales y Antropológicas “Juan Cornelio Moyano” of Mendoza City. A comprehensive systematic revision of this material is presented here. Along with Tricrepicephalus, Coosia Walcott, 1911, and Coosella Lochman, 1936, the genera Meteoraspis Resser, 1935 and Nasocephalus Wilson, 1954 are reported confidently from South America for the first time. In addition, specimens of Cedaria are of considerable biostratigraphic value and reinforce the Laurentian affinity of the fauna. Most of the genera and species identified were previously described exclusively from North America, a fact that provides new support for an allochthonous origin of the Argentine Precordillera (Ramos et al., 1986; Astini et al., 1995; Keller, 1999; Martin et al., 2020 and references therein).

Geologic setting

The Estancia San Isidro locality (Fig. 1) was discovered by Carlos Rusconi and Manuel Tellechea (Museo J. C. Moyano) in the 1950s (Rusconi, 1954, 1957) and was subsequently referred to by Borrello (1965) as an isolated section cropping out in a “complex geologic setting.” Fossils occur together in a limestone that is now regarded as part of La Cruz Olistoliths (=La Cruz Limestones sensu Keller, 1999), which are represented by a few centimeters to several meters thick carbonate blocks containing late Miaolingian and Furongian open-marine faunas, emplaced in Middle and Upper Ordovician shales of the Estancia San Isidro and Empozada formations. Full information on the geology of the San Isidro area was provided by Bordonaro et al. (1993), Heredia (1995), Bordonaro and Banchig (1996), Keller (1999), Bordonaro (2003), Heredia and Beresi (2004), and Ortega et al. (2007).

Biostratigraphy

The most representative trilobites from the Estancia San Isidro locality were originally described by Rusconi (1954) as Tricrepicephalus anarusconii Rusconi, 1954, T. nahuelus Rusconi, 1954, T.? serranus Rusconi, 1954, Coosella convexa Rusconi, 1954, and Cedaria puelchana Rusconi, 1954. Rusconi (1954) first regarded this assemblage as latest middle Cambrian or earliest late Cambrian in age, and then Borrello (1965, 1971, p. 407, tables 1, 2) assigned it to the North American Crepicephalus Zone (Guzhangian) pointing out the occurrence of T. anarusconii Rusconi, 1954 (see also Rusconi, 1956b, 1962, 1967; Wilson, 1957, fig. 2; Furque and Cuerda, 1979, p. 461). Later, Pratt (1992) considered T. anarusconii, T. nahuelus and T.? serranus as junior synonyms of T. texanus (Shumard, 1861).

The assemblage from San Isidro as revised here comprises Kormagnostus seclusus (Walcott, 1884), Cedaria prolifica Walcott, 1924, C. puelchana Rusconi, 1954, Tricrepicephalus texanus (Shumard, 1861), Meteoraspis metra (Walcott, 1890), Coosia conicephala (Rusconi, 1954), Coosella texana? Resser, 1942, Nasocephalus cf. N. nasutus Wilson, 1954, and Olenoides proa (Rusconi, 1954).

Olenoides has limited value in biostratigraphy because of its exceptionally long stratigraphic range. Apart from its rare records from Central Asia, China, and Antarctica, this genus is well known from Wuliuan, Drumian, and Guzhangian strata of North America, from the Albertella Zone to the Cedaria/Crepicephalus Zone. In the Guzhangian of Quebec and Tennessee, it was recorded in association with Kormagnostus seclusus (Rasetti, 1946, 1965).

Kormagnostus seclusus is a common species of the Cedaria and Crepicephalus faunas of North America, occurring in different lithofacies (e.g., Palmer, 1954a, b; Robison, 1988 and references therein; Pratt, 1992 and references therein; Stitt and Perfetta, 2000). In shallow, unrestricted neritic deposits, it is commonly the only agnostoid of the assemblages (Robison, 1988). Kormagnostus seclusus has a stratigraphic range from at least the lower Lejopyge laevigata Zone to the Glyptagnostus stolidotus Zone. In addition to North America, it was described from Sakhayan and Nganasanian horizons of Siberia (Rosova, 1964), the Kormagnostus simplex (=K. seclusus) Zone of Kazakhstan (Ergaliev, 1980), and the Lejopyge laevigata Zone of the Precordillera of San Juan and the northern Precordillera of Mendoza, Argentina (Poulsen, 1960; Robison, 1988; Bordonaro and Liñán, 1994; Tortello, 2011).

As stated by Palmer (1954b), Tricrepicephalus texanus is a recurrent constituent of the Coosella Zone and its equivalents in Laurentian North America. As revised by Pratt (1992), this species is present in assemblages from the upper Cedaria and Crepicephalus zones at numerous localities in the United States, Canada, and Sonora (Mexico) (e.g., Lochman and Duncan, 1944; Palmer, 1954b; Sundberg and Cuen-Romero, 2021). In the Rabbitkettle Formation of northwestern Canada, T. texanus was documented throughout the uppermost Cedaria minor, C. selwyni, C. prolifica, and C. brevifrons zones (Pratt, 1992).

In addition, Coosella texana is known from the C. selwyni Zone of the Rabbitkettle Formation (Pratt, 1992) and from the Crepicephalus Zone of the Warrior Formation, Pennsylvania (Tasch, 1951), in both cases in association with Tricrepicephalus texanus. Likewise, Meteoraspis metra occurs in the Coosella Zone from the Riley Formation of Texas (Walcott, 1890; Lochman, 1938a; Palmer, 1954b) and in the lower Crepicephalus Zone from the lower Deadwood Formation of South Dakota (Stitt and Perfetta, 2000).

Cedaria prolifica Walcott, 1924 is the most abundant species in the fauna studied and provides precise age information as it is known from the eponymous zone of northwest Canada, as well as from the partially equivalent Crepicephalus Zone of British Columbia, Alabama, and Tennessee (Resser, 1938; Palmer, 1962; Pratt, 1992). On the basis of the preceding discussion, the assemblage is assigned to the C. prolifica Zone, which correlates with the lower Crepicephalus Zone of the traditional North American genus-based zonation (e.g., Lochman-Balk and Wilson, 1958; Robison, 1964a; Pratt, 1992, text-fig. 19; Westrop et al., 1996, fig. 6).

An additional reference to the Crepicephalus Zone in Argentina was provided by Vaccari (1996), who reported Crepicephalus Kobayashi, 1935, Coosella Lochman, 1936, Pemphigaspis Hall, 1863, and Madarocephalus Resser, 1938 from La Flecha Formation of the Precordillera of La Rioja and San Juan (see also Benedetto et al., 2009).

Materials and methods

Materials and preservation

The collection studied consists of disarticulated specimens that are preserved mostly as testate or partly exfoliated sclerites. Before photography, the material was coated with magnesium oxide smoke from burning magnesium ribbon. To give a full picture of the morphology of the exoskeleton, some specimens are illustrated in dorsal, lateral, and frontal views.

Repository and institutional abbreviation

The specimens examined in this study are housed in the Museo de Ciencias Naturales y Antropológicas “Juan Cornelio Moyano” (Mendoza City, Argentina) with the prefix MCNAM.

Systematic paleontology

Terminology

The morphological terms used in the following have been defined mostly by Whittington and Kelly (1997), with additional terminology from Shergold et al. (1990) for the agnostoid trilobites. The following abbreviations are used: sag., sagittally; exsag., exsagittally; long., longitudinally; tr., transversally.

Order Agnostida Salter, 1864
Family Ammagnostidae Öpik, 1967
Genus Kormagnostus Resser, 1938

Type species

Agnostus seclusus Walcott, 1884 from the Guzhangian of Tennessee (by synonymy with Kormagnostus simplex Resser, 1938; see Robison, 1988).

Remarks

Palmer (1954a), Robison (1988), Shergold et al. (1990), Peng and Robison (2000), and Westrop and Adrain (2013) discussed in detail the scope of Kormagnostus Resser, 1938. This genus is characterized mainly by having an effaced anteroglabella, a well-defined to partially effaced pygidial axial furrow, a wide (tr.), elongate, parallel-sided or posteriorly expanded pygidial axis reaching posterior border furrow, weak to effaced transaxial furrows, and broad cephalic and pygidial marginal furrows. As stated by Westrop and Adrain (2013), the closely related genus Kormagnostella Romanenko in Romanenko and Romanenko, 1967 is distinguished by showing an extremely effaced pygidium, a narrower, well-incised pygidial border furrow, and a broad and convex pygidial border and by lacking posterolateral spines throughout holaspid ontogeny.

Kormagnostus seclusus (Walcott, 1884)
Figure 2.1, 2.2

1884

Agnostus seclusus Walcott, p. 25, pl. 9, fig. 14.

1954

Kormagnostus cuchillensis Rusconi, p. 48, text-fig. 25.

1988

Kormagnostus seclusus (Walcott); Robison, p. 45, fig. 11.5–11.15 (see for further synonymy).

1992

Kormagnostus seclusus; Pratt, p. 31, pl. 3, figs. 1–3, 14–29 (see for further synonymy).

1997

Kormagnostus seclusus; Tortello and Bordonaro, p. 78, fig. 3.12–3.17 (see for further synonymy).

2000

Kormagnostus seclusus; Stitt and Perfetta, p. 203, fig. 6.1–6.4.

2011

Kormagnostus seclusus; Tortello, p. 118, fig. 2C, D, G.

Figure 2. (1, 2) Kormagnostus seclusus (Walcott, 1884): (1) mostly exfoliated cephalon, MCNAM 17795; (2) testate pygidium, MCNAM 17369, Kormagnostus cuchillensis Rusconi, 1954 paratype (not illustrated previously). (3–16) Cedaria prolifica Walcott, 1924: (3, 8) mostly exfoliated cranidium in dorsal (3) and oblique (8) views, MCNAM 17374, Tricrepicephalus anarusconii Rusconi, 1954 paratype (illustrated previously by Rusconi, 1954, pl. 4, fig. 4); (4) partially exfoliated pygidium, MCNAM 17440; (5) partially testate pygidium, MCNAM 17425, Cedaria puelchana Rusconi, 1954 paratype (illustrated previously by Rusconi, 1954, pl. 4, fig. 10); (6) partially exfoliated cranidium, MCNAM 17397 (previously assigned to Cedaria puelchana by Rusconi, 1954, p. 52); (7) mostly exfoliated pygidium, MCNAM 17429; (9) latex cast of partially testate pygidium, MCNAM 18794; (10) latex cast of mostly exfoliated pygidium, MCNAM 17426; (11) latex cast of mostly exfoliated pygidium, MCNAM 17932; (12) testate pygidium, MCNAM 17439; (13, 16) mostly testate pygidium (top) and two fragmentary cranidia (bottom) in dorsal (13) and lateral (16) views, MCNAM 17769; (14) partially exfoliated pygidium, MCNAM 17441; (15) mostly exfoliated pygidium, MCNA 17428. Cedaria prolifica Zone of San Isidro, Mendoza. (1, 2) Scale bars = 1 mm; (3–16) scale bars = 2 mm.

Holotype

Cephalon (U.S. National Museum 24586) from the Hamburg Limestone, Eureka District, Nevada (Walcott, 1884, pl. 9, fig. 14; Palmer, 1954a, pl. 13, fig. 1).

Occurrence

Widespread in the Guzhangian of the United States (e.g., Nevada, Utah, Texas, Missouri, Tennessee, South Dakota, Wyoming, Montana), northwest and eastern Canada, Greenland, western Argentina, Kazakhstan, and Siberia (e.g., Palmer, 1954a, b; Rosova, 1964; Ergaliev, 1980; Robison, 1988 and references therein; Pratt, 1992 and references therein; Tortello and Bordonaro, 1997 and references therein; Peng and Robison, 2000, p. 35; Stitt and Perfetta, 2000; Tortello, 2011).

Remarks

Robison (1988) was the first to suggest the occurrence of Kormagnostus seclusus (Walcott, 1884) at the Estancia San Isidro locality, regarding it as a possible senior synonym of Kormagnostus cuchillensis Rusconi, 1954, which was later endorsed by Tortello and Bordonaro (1997). Unfortunately, the holotype of K. cuchillensis is an incomplete pygidium (Tortello and Bordonaro, 1997, fig. 3.17). In addition, a paratype pygidium (not figured previously) and a supplementary cephalon are illustrated herein. These sclerites are characterized by an effaced anteroglabella; a median glabellar node centered on the posteroglabella; a rounded glabellar culmination; smooth, anteriorly confluent genae; a broad, subparallel-sided pygidial axis surrounded by faint axial furrows; a small axial tubercle; and a slightly constricted pygidial acrolobe. Although the pygidial border is imperfectly preserved and thus it is not possible to determine the presence or absence of posterolateral spines, the morphology of the specimens conforms well with K. seclusus (Walcott, 1884), a highly variable species that is known from the Guzhangian of various regions of Laurentia, in addition to Kazakhstan and Siberia. Palmer (1954a, b), Robison (1988), Pratt (1992), and Peng and Robison (2000) discussed in detail the synonymy and scope of K. seclusus. As in the case of some exfoliated cephala described from North America (e.g., Palmer, 1954b, pl. 76, fig. 8; Lochman and Hu, 1960, pl. 99, figs. 9, 17; Pratt, 1992, text-fig. 26A; Westrop et al., 1996, fig. 13.15; Stitt and Perfetta, 2000, fig. 6.1, 6.2), the material from San Isidro shows slight indications of a subtriangular anterior glabellar lobe.

As stated by Pratt (1992), Kormagnostus seclusus differs from K. robisoni Pratt, 1992 from the Cedaria selwyni Zone of the Rabbitkettle Formation, northwest Canada (Pratt, 1992, pl. 3, figs. 30–36, text-fig. 26C), because the latter has an elongate pygidium that is subtrapezoidal in outline, a bulb-shaped posteroaxis, and a markedly constricted pygidial acrolobe. Kormagnostus flati Pratt, 1992 from the Cedaria brevifrons Zone of the Rabbitkettle Formation, northwest Canada, and the Crepicephalus Zone of the Pilgrim Formation, Montana (Lochman and Duncan, 1944, pl. 5, figs. 15, 16; Pratt, 1992, pl. 2, figs. 27–33, text-fig. 26B), is slightly differentiated from K. seclusus in the more anterior location of the median glabellar node, the wider (tr.) pygidial axis, and the unconstricted pygidial acrolobe.

Order Ptychopariida Swinnerton, 1915
Family Cedariidae Raymond, 1937
Genus Cedaria Walcott, 1924

Type species

Cedaria prolifica Walcott, 1924, from the upper Guzhangian of Alabama, by original designation.

Remarks

Palmer (1962) and Pratt (1992) discussed in detail the morphology of Cedaria Walcott, 1924, which is followed here. As pointed out by Pratt (1992), it is a genus of Cedariidae with an anteriorly rounded subrectangular glabella, a moderately long (sag.) anterior border, divergent anterior facial sutures, palpebral lobes located at glabellar midlength, and a semicircular to transversely semielliptical pygidium.

Cedaria prolifica Walcott, 1924
Figures 2.3–2.16, 3.1–3.3

1924

Cedaria prolifica Walcott, p. 55, pl. 10, fig. 6.

1925

Cedaria prolifica; Walcott, p. 79, pl. 17, figs. 18–21.

1938

Cedaria prolifica; Resser, p. 67, pl. 11, figs. 1, 2, 6, 7.

1954

Tricrepicephalus anarusconii Rusconi (part), p. 49, pl. 4, fig. 4 (only; figs. 2, 3, Tricrepicephalus texanus).

1954

Cedaria puelchana Rusconi (part), p. 52, pl. 4, fig. 10 (only).

1962

Cedaria prolifica; Palmer, p. 26, pl. 3, figs. 9, 10, 14–16, 20, pl. 6, fig. 14.

1992

Cedaria prolifica; Pratt, p. 80, pl. 30, figs. 1–4 (see for further synonymy).

Figure 3. (1–3) Cedaria prolifica Walcott, 1924: (1) small, exfoliated pygidium, MCNAM 17778; (2) partially exfoliated pygidium (top) (see also Fig. 2.14) and pygidial external mold (bottom), MCNAM 17441; (3) exfoliated pygidium, MCNAM 17791. (4–14) Cedaria puelchana Rusconi,1954: (4) cranidial and pygidial fragments, MCNAM 18780; (5) exfoliated pygidium, MCNAM 17424, Cedaria puelchana Rusconi, 1954 holotype (illustrated previously by Rusconi, 1954, pl. 4, fig. 9); (6, 7) partially testate cranidium and pygidial fragment in dorsal (6) and lateral (7) views, MCNAM 17457; (8) partially exfoliated pygidium, MCNAM 17790; (9, 12, 13) mostly exfoliated cranidium in dorsal (9), lateral (12), and anterior (13) views, MCNAM 18781; (10) exfoliated cranidium and fragmentary pygidium, MCNAM 17774; (11) mostly exfoliated hypostome (in association with a helcionelloid mollusk, top), MCNAM 17794; (14), partially testate pygidium, MCNAM 17770. Cedaria prolifica Zone of San Isidro, Mendoza. Scale bars = 2 mm.

Lectotype

Complete exoskeleton (U.S. National Museum 70266) from the Conasauga Formation, Cedar Bluff, Cherokee County, Alabama (Walcott, 1925, pl. 17, fig. 28; Pratt, 1992, p. 80).

Occurrence

Alabama, Conasauga Formation; Tennessee, Nolichucky Formation; British Columbia, northern Rocky Mountains; Northwest Canada, Rabbitkettle Formation (Walcott, 1925; Resser, 1938; Palmer, 1962; Fritz, 1970; Pratt, 1992). 200 m northwest of Estancia San Isidro, San Isidro area, Mendoza, La Cruz Olistoliths, Cedaria prolifica Zone.

Remarks

These specimens represent a species of Cedaria with a strongly divergent anterior facial suture; a moderately convex anterior border; a distinct anterior border furrow constituted by a row of medium-sized pits; a preglabellar field subequal in length (sag.) to longer than cranidial border, with variably expressed caecate prosopon; a semicircular pygidium with axis bearing five to six axial ring furrows; pleural fields showing a deep anterior border furrow and four pairs of distinctive, widely spaced pleural furrows; and a moderately broad pygidial border. Following the diagnoses of Palmer (1962) and Pratt (1992), the material can be confidently assigned to Cedaria prolifica Walcott, 1924. Although there are only a few fragmentary cranidia available for study, they show strongly divergent anterior branches of the facial suture, which is one of the most characteristic features of the species. Variations in the sagittal length of the preglabellar field and the degree of expression of the caecate prosopon were also documented by Palmer (1962) and Resser (1938), respectively. As in other species of Cedaria, the relative length of the preglabellar field seems to increase during holaspid ontogeny.

One of the cranidia examined (MCNAM 17374, Tricrepicephalus anarusconii Rusconi, 1954 paratype; Rusconi, 1954, pl. 4, fig. 4) (Fig. 2.3, 2.8) was referred questionably to Cedaria selwyni Pratt, 1992 by Pratt (1992; and later discussions in Bordonaro and Banchig, 1996; Bordonaro, 2003; Sundberg, 2018); however, its anterior facial suture seems to be strongly divergent, and therefore a reassignment to C. prolifica is preferred herein. Likewise, a C. puelchana Rusconi, 1954 paratype pygidium (MCNAM 17425, Rusconi, 1954, pl. 4, fig. 10) and one cranidium questionably referred to C. puelchana by Rusconi (1954, p. 52) are reillustrated here (Fig. 2.5, 2.6) and reassigned to C. prolifica.

Cedaria prolifica and C. minor (Walcott, 1916), from the upper Guzhangian of Utah, northwestern Canada, and Greenland (Pratt, 1992 and references therein), exhibit similar pygidia, but the latter species is distinguished by having less-divergent anterior sections of the facial suture, a flat anterior cranidial border, and a shallower anterior border furrow in which pits are absent or faint (Pratt, 1992).

Cedaria gaspensis Rasetti, 1946, from the Crepicephalus fauna of Gaspé, Quebec (Rasetti, 1946, pl. 67, figs. 26–29), differs from C. prolifica mainly by bearing a larger number of pygidial axial rings and pleural furrows. Cedaria selwyni Pratt, 1992, from the eponymous zone of Northwest Canada and Nevada (Pratt, 1992, pl. 31, figs. 9–16, text-fig. 31B; Sundberg, 2018, fig. 18.1–18.7), is differentiated by its effaced pygidium.

Cedaria puelchana Rusconi, 1954
Figure 3.4–3.14

1954

Cedaria puelchana Rusconi, p. 52, pl. 4, fig. 9 (only; fig. 10, Cedaria prolifica).

Holotype

Pygidium (MCNAM 17424) from La Cruz Olistoliths, 200 m northwest of Estancia San Isidro, Mendoza (Rusconi, 1954, pl. 4, fig. 9; Fig. 3.5).

Diagnosis

A species of Cedaria with a large exoskeleton; noticeable lateral glabellar furrows; strongly divergent anterior branches of the facial suture; a well-developed preglabellar field that is much longer (sag.) than cranidial border; elevated palpebral lobes lacking palpebral furrows; and a semicircular pygidium with a narrow (tr.), long pygidial axis composed of 7–8 rings, five pairs of distinct pleural furrows, and a slender border.

Occurrence

Two hundred meters northwest of Estancia San Isidro, San Isidro area, Mendoza; La Cruz Olistoliths, Cedaria prolifica Zone.

Description

Cranidium slightly convex, with broadly curved anterior margin and somewhat downsloping preglabellar field, maximum width between palpebral lobes ~70% (estimated) of total cranidial length; glabella of moderate size, subrectangular in outline, longer than wide, little elevated above genal region, occupying about three-quarters of total cranidial length (sag.) and 55% of cranidial width (tr.) at level of abaxial tip of S2, slightly constricted at L3, rounded to weakly pointed anteriorly, delimited by narrow axial and preglabellar furrows; maximum glabellar width at L1; L0 smooth or with faint indications of a delicate occipital node, broadly rounded posteriorly, representing ~13% of total glabellar length; S0 transglabellar, deeper, and fairly sinuous at sides and shallow and straight on midline; L1 much longer (exsag.) than L0, occupying ~22–25% of total glabellar length; lateral glabellar furrows S1–S4 faint but distinct, oblique backward, disconnected at middle; S2 and S4 weaker than S1 and S3; a supplementary furrow is sagittally extended from S1 to S2; anterior cranidial border narrow (sag.), weakly convex, of nearly constant breadth (sag., exsag.), bounded by a shallow border furrow that contains closely spaced pits; preglabellar field well developed, much longer (sag.) than anterior border, slightly downsloping, crossed by radiating prosopon ridges; anterior facial suture strongly divergent; ocular ridge delicate, oblique backward; palpebral area of the fixigena narrow (tr.); palpebral lobe arcuate, elevated, situated slightly behind cranidial midpoint, lacking palpebral furrow, extended from the level of S1 to the level of S3, occupying ~20% of the total cranidial length (sag.); posterior fixigena broadened outward, with shallow posterior border furrow and slightly convex, narrow (exsag.) posterior border; external surface of cuticle smooth or delicately granulated. Largest observed cranidium 22 mm long (sag.).

A relatively large hypostome is tentatively assigned to this species. It is suboval in outline, longer than wide, with subtriangular anterior wings, a gently convex median body, a short (sag.) and posteriorly rounded posterior lobe, and a moderately wide, depressed marginal border of uniform width, which exhibits subparallel terrace lines.

Pygidium semicircular in outline, somewhat convex transversely and longitudinally, wider than long, with entire margin; axis long and narrow, hardly tapered backward, scarcely elevated above level of pleural fields, surrounded by narrow axial furrows, with marked anterior three rings and faint or indistinct posterior four or five rings, ending in blunt terminal piece reaching marginal border; articulating half-ring narrow (sag.), crescentic; anterior border furrow deep, delimiting a narrow (exsag.) anterior border; pleural fields wide (tr.), weakly convex, crossed by five straight to slightly curved, oblique pleural furrows ending at level of marginal border; lateral and posterior border narrow, scarcely convex, bounded by a weak border furrow; in largest specimens, the border furrow is hardly represented by a change in slope of exoskeleton. Largest observed pygidium 21 mm long (sag.).

Remarks

Rusconi (1954) described Cedaria puelchana on the basis of one holotype pygidium (MCNAM 17424) (Fig. 3.5), one paratype pygidium (MCNAM 17425) (Fig. 2.5), and one cranidium (MCNAM 17397) (Fig. 2.6). The latter two sclerites are reassigned in the preceding to C. prolifica, and a new set of cranidia is described herein for C. puelchana.

Cedaria puelchana has a certain resemblance to Proceratopyge Wallerius, 1895 in glabellar shape, appearance of the glabellar furrows, and position of the eyes, but the latter clearly differs by possessing a spinose pygidium. The cranidium of Cedaria puelchana compares most closely with that of specimens of Cedaria showing indications of arcuate lateral glabellar furrows (e.g., Lochman and Hu, 1962, pl. 2, figs. 1, 13; Robison, 1988, fig. 14.9), although it is differentiated by its more-divergent anterior facial suture.

Cedaria puelchana also resembles C. prolifica Walcott, 1924, but the latter is distinguished mainly by its effaced glabella and its more transverse, less semicircular pygidium. In addition, C. gaspensis Rasetti, 1946, from the upper Guzhangian of Quebec (Rasetti, 1946, pl. 67, figs. 26–29), further differs by having a larger number of pygidial pleural furrows.

A fragmentary pygidium from the Cedaria selwyni Zone of Nevada (Sundberg, 2018, fig. 18.13) has similitude with C. puelchana, but it exhibits a narrower (tr.) pleural field.

Family Tricrepicephalidae Palmer, 1954

Remarks

Palmer (1954b) provided diagnoses of the Guzhangian genera Tricrepicephalus Kobayashi, 1935 and Meteoraspis Resser, 1935 (see also Lochman, 1938b) and included them in the family Tricrepicephalidae, concepts that are followed here.

Genus Tricrepicephalus Kobayashi, 1935

Type species

Arionellus (Bathyurus) texanus Shumard, 1861 from the upper Guzhangian of the United States, by original designation.

Tricrepicephalus texanus (Shumard, 1861)
Figure 4

1861

Arionellus (Bathyurus) texanus Shumard, p. 218.

1954b

Tricrepicephalus texanus (Shumard); Palmer, p. 755, pl. 81, fig. 9 (see for further synonymy).

1954

Tricrepicephalus anarusconii Rusconi (part), p. 49, pl. 4, figs. 2, 3 (only; fig. 4, Cedaria prolifica).

1954

Tricrepicephalus nahuelus Rusconi, p. 50, pl. 4, fig. 5.

1954

Tricrepicephalus? serranus Rusconi, p. 51, pl. 4, fig. 6.

1954

Coosella convexa Rusconi, p. 51, pl. 4, figs. 7, 8.

1963

Tricrepicephalus anarusconii; Castellaro, p. 34, text-fig. (pygidium only).

1992

Tricrepicephalus texanus; Pratt, p. 62, pl. 21, figs. 1–7 (see for further synonymy).

2021

Tricrepicephalus texanus; Sundberg and Cuen-Romero, p. 7, fig. 5a–g (see for further synonymy).

Figure 4. Tricrepicephalus texanus (Shumard, 1861): (1, 2, 5, 6) exfoliated cranidium in dorsal (1), lateral (2, 5), and anterior (6) views, MCNAM 17393, Coosella convexa Rusconi, 1954 holotype (illustrated previously by Rusconi, 1954, pl. 4, fig. 7); (3) incomplete exfoliated cranidium, MCNAM 17392, Coosella convexa Rusconi, 1954 paratype (illustrated previously by Rusconi, 1954, pl. 4, fig. 8); (4) mostly exfoliated librigenal fragment, MCNAM 17362; (7) exfoliated cranidial fragment, MCNAM 17377; (8) exfoliated fragmentary cranidium, MCNAM 17376; (9) exfoliated fragmentary cranidium, MCNAM 17452; (10) mostly exfoliated cranidium, MCNAM 17454; (11) mostly exfoliated cranidium, MCNAM 17504; (12) exfoliated cranidium, MCNAM 17583; (13) mostly exfoliated cranidium, MCNAM 18784; (14) exfoliated hypostome, MCNAM 17557; (15) exfoliated pygidium, MCNAM 17380, Tricrepicephalus nahuelus Rusconi, 1954 holotype (illustrated previously by Rusconi, 1954, pl. 4, fig. 5); (16) exfoliated fragmentary pygidium, MCNAM 17756; (17) poorly preserved cranidium, MCNAM 17388, Tricrepicephalus serranus Rusconi, 1954 holotype (illustrated previously by Rusconi, 1954, pl. 4, fig. 6); (18) mostly exfoliated pygidium, MCNAM 17382; (19, 20) mostly exfoliated pygidium in dorsal (19) and lateral (20) views, MCNAM 17379, Tricrepicephalus anarusconii Rusconi, 1954 holotype (illustrated previously by Rusconi, 1954, pl. 4, fig. 2). Cedaria prolifica Zone of San Isidro, Mendoza. Scale bars = 2 mm.

Neotype

Cranidium (U.S. National Museum 91865) from Potatotop Hill, seven miles northwest of Burnet, Burnet County, Texas (U.S.N.M. loc. 67-a) (Lochman, 1936, pl. 9, fig. 27).

Occurrence

Southern Mackenzie Mountains, Northwest Canada, Cedaria minor Zone to Cedaria brevifrons Zone (Pratt, 1992). Western Newfoundland, eastern Canada, Crepicephalus Zone (Kindle, 1982). Widespread in United States (South Dakota, Wyoming, Utah, Nevada, Arizona, Texas, Missouri, Pennsylvania, Tennessee, Alabama), Cedaria and Crepicephalus zones (e.g., Palmer, 1954b and references therein; Pratt, 1992 and references therein); Sonora, Mexico, Crepicephalus Zone (Sundberg and Cuen-Romero, 2021 and references therein); San Isidro area, western Argentina, Cedaria prolifica Zone (Pratt, 1992; this paper).

Remarks

Tricrepicephalus texanus (Shumard, 1861) is a species with a high range of morphological variability involving mainly cranidial surface granulation and length and shape of the anterior border. Palmer (1954b) and Pratt (1992) discussed in detail the scope of this taxon. According to the broad species concept of Pratt (1992) and Sundberg and Cuen-Romero (2021), T. texanus exhibits variably developed granules on the cranidium, and its extended synonymy includes, among others, T. coria (Walcott, 1916).

As stated in the preceding, T. anarusconii Rusconi, 1954 (Fig. 4.19, 4.20, holotype), T. nahuelus Rusconi, 1954 (Fig. 4.15, holotype), and T.? serranus Rusconi, 1954 (Fig. 4.17, holotype) from 200 m northwest of Estancia San Isidro were synonymized with T. texanus by Pratt (1992). Likewise, several additional specimens from the Rusconi collection, including cranidia with thickly granulated (e.g., Fig. 4.1–4.3, 4.5, 4.6), slightly granulated (Fig. 4.12), or smooth (e.g., Fig. 4.11) glabellae, are herein referred to T. texanus. Among these specimens, two cranidia (holotype and paratype) and one librigenal fragment (Fig. 4.1–4.6) were originally described as Coosella convexa Rusconi, 1954 by Rusconi (1954, p. 51, pl. 4, figs. 7, 8) (see preceding synonymy). Intraspecific variation in the material studied also involves the convexity of the anterior border, which is slightly convex (Fig. 4.11) or flat (Fig. 4.7, 4.13), the degree of expression of the pits in the marginal furrow (e.g., compare Fig. 4.1 with Fig. 4.11), and the general outline of the glabella.

The hypostome of T. texanus is seldom illustrated in the literature. As previously shown by Lochman in Lochman and Duncan (1944, pl. 5, fig. 3), it is characterized by having a convex, granulated median body (Fig. 4.14). This sclerite is suboval in outline, with a rounded anterior margin and a narrow, concave lateral border of uniform width, which is clearly delimited by a distinct border furrow. Maculae are well impressed, running backward with an angle of ~45°. Posterior lobe and border lack granulation.

Tricrepicephalus texanus differs from T. tripunctatus (Whitfield, 1876) because the latter bears a conspicuous occipital spine (e.g., Palmer, 1954b; Pratt, 1992; Stitt and Perfetta, 2000).

Genus Meteoraspis Resser, 1935

Type species

Ptychoparia? metra Walcott, 1890 from the upper Guzhangian of Texas, by original designation.

Meteoraspis metra (Walcott, 1890)
Figure 5.1–5.15

1890

Ptychoparia? metra Walcott, p. 273, pl. 21, fig. 7.

1935

Meteoraspis metra (Walcott); Resser, p. 41.

1938a

Meteoraspis metra; Lochman, pl. 17, fig. 1–3.

1954b

Meteoraspis metra; Palmer, p. 753, pl. 82, figs. 2, 4 (see for further synonymy).

1954

Meteoraspis tinguirensis Rusconi, p. 55.

2000

Meteoraspis metra; Stitt and Perfetta, p. 212, fig. 9.16–9.19.

Figure 5. (1–15) Meteoraspis metra (Walcott, 1890): (1, 8, 9, 11) mostly testate cranidium in dorsal (1), oblique (8, 11), and anterior (9) views, MCNAM 17463; (2, 13, 14) testate cranidium in dorsal (2), anterior (13), and oblique (14) views, MCNAM 17618; (3, 15) testate cranidium in dorsal (3) and anterior (15) views, MCNAM 17339; (4, 10) partially exfoliated pygidium in dorsal (4) and posterior (10) views, MCNAM 17510, Meteoraspis tinguirensis Rusconi, 1954 holotype (not illustrated previously); (5, 6) testate cranidium in lateral (5) and anterior (6) views, MCNAM 17335; (7, 12) partially testate cranidium in dorsal (7) and oblique (12) views, MCNAM 17609. (16, 20, 21) Coosia conicephala (Rusconi, 1954): (16) exfoliated cranidium, MCNAM 17525; (20) testate cranidium, MCNAM 17612; (21) small, mostly testate cranidium, MCNAM 17448, Querandinia conicephala Rusconi, 1954 holotype (illustrated previously with a sketch, Rusconi, 1954, text-fig. 29). (17, 18, 22) Coosella texana? Resser, 1942: (17) partially exfoliated cranidium, MCNAM 18782; (18, 22) partially exfoliated cranidium in dorsal (18) and lateral (22) views, MCNAM 18037. (19) Nasocephalus cf. N. nasutus Wilson, 1954, mostly exfoliated cranidium, MCNAM 17675. (23–25) Olenoides proa (Rusconi, 1954): (23, 24) partially exfoliated cranidium in dorsal (23) and lateral (24) views, MCNAM 17445, Cancapolia proa Rusconi, 1954 holotype (illustrated previously with a sketch, Rusconi, 1954, text-fig. 28); (25) partially exfoliated pygidium, MCNAM 17765. Cedaria prolifica Zone of San Isidro, Mendoza. (1–20, 22–25) Scale bars = 2 mm; (21) scale bar = 1 mm.

Holotype

Cranidium (U.S. National Museum 23858) from Potatotop Hill, six miles northwest of Burnet, Burnet County, Texas (Walcott, 1890, pl. 21, fig. 7; Lochman, 1938a, pl. 17, figs. 1–3).

Occurrence

Burnet County, Central Texas, Riley Formation, Coosella Zone (Walcott, 1890; Lochman, 1938a; Palmer, 1954b); Black Hills, South Dakota, lower Deadwood Formation, lower Crepicephalus Zone (Stitt and Perfetta, 2000); 200 m northwest of Estancia San Isidro, San Isidro area, Mendoza, upper Guzhangian, La Cruz Olistoliths, Cedaria prolifica Zone.

Remarks

Rusconi (1954, p. 55) first reported Meteoraspis Resser, 1935 from the Estancia San Isidro as M. tinguirensis Rusconi, 1954, which was based on one isolated pygidium (holotype MCNAM 17510). This specimen is illustrated herein for the first time (Fig. 5.4, 5.10), together with several cranidia that are regarded here as conspecific (Fig. 5.1–5.3, 5.5–5.9, 5.11–5.15).

These cranidia show well-developed dorsal, marginal, and occipital furrows; a long, unfurrowed, slightly tapered glabella that is well elevated above level of fixigenae; a convex, arched anterior border; a minute, downsloping preglabellar field; very narrow (tr.) and upsloping palpebral areas of fixigenae; and palpebral lobes located at a level slightly behind the center of the glabella. For its part, the pygidium has a large, subparallel-sided pygidial axis composed of three rings and a rounded terminal piece; pleural fields showing faint indications of wide, shallow pleural furrows; a broadly rounded posterior margin; and a pair of posteriorly directed spines, preserving only their bases and proximal parts, extending from the posterolateral corners of the marginal border. The surface of the exoskeleton lacks granulation. Among the numerous species of Meteoraspis, the presence of a smooth test, an elongate and tumid glabella, very narrow (tr.) palpebral area of fixigenae, and a proportionately large pygidial axis is diagnostic of M. metra (Walcott, 1890) from the Coosella Zone of Central Texas and the lower Crepicephalus Zone of South Dakota (Walcott, 1890, pl. 21, fig. 7; Lochman, 1938a, pl. 17, figs. 1–8; Palmer, 1954b, p. 753, pl. 82, figs. 2, 4; Stitt and Perfetta, 2000, fig. 9.16–9.19). Meteoraspis tinguirensis Rusconi is therefore regarded as a junior synonym of M. metra.

Meteoraspis robusta Lochman in Lochman and Duncan, 1944, from the Cedaria Zone of Montana, South Dakota, and Texas (Lochman and Duncan, 1944, pl. 9, figs. 11–17; Palmer 1954b, pl. 82, fig. 3; Stitt, 1998, fig. 7.26), differs from M. metra by having a shorter (sag.) and less-tumid glabella, wider (tr.) palpebral areas of the fixigenae, and more anteriorly located palpebral lobes.

As stated by Rasetti (1965), M. brevispinosa Rasetti, 1965, from the Crepicephalus Zone of Tennessee (Rasetti, 1965, pl. 6, figs. 9–12), is differentiated from M. metra mainly by having a straighter posterior pygidial margin and extremely short marginal spines. Meteoraspis spinosa Lochman in Lochman and Duncan, 1944, from the Cedaria Fauna of Montana (Lochman and Duncan, 1944, pl. 9, figs. 18–24), is easily distinguished by bearing noticeable axial spines on the pygidium.

Some species of Meteoraspis are only partially known by their cranidia or their pygidia. The cranidia of both M. elongata Lochman in Lochman and Duncan, 1944, from the Cedaria Fauna of Montana (Lochman and Duncan, 1944, pl. 9, figs. 4–7), and M. banffensis Resser, 1942, from the Sullivan Formation of Alberta (Resser, 1942, pl. 13, figs. 5–8), differ from that of M. metra mainly by showing a longer (sag.) preglabellar field. For its part, the pygidium of M. loisi Lochman in Lochman and Duncan, 1944, from Texas and Montana (Lochman and Duncan, 1944, pl. 5, figs. 24–26; Palmer, 1954b, pl. 82, fig. 1), has a longer postaxial area and a granulate rather than smooth exoskeleton (cf. Stitt and Perfetta, 2000, p. 212). Other granulate species of Meteoraspis include M. keeganensis Lochman in Lochman and Duncan, 1944 from Montana (Lochman and Duncan, 1944, pl. 9, figs. 1–3, 29), M. borealis Lochman, 1938b from Montana and Newfoundland (Lochman, 1938b, pl. 56, figs. 1–5; Lochman and Duncan, 1944, pl. 9, fig. 10; Rasetti, 1946, pl. 70, figs. 3, 4), and M. delia Lochman, 1940 from Missouri (Lochman, 1940, pl. 3, figs. 14–20).

Family Crepicephalidae Kobayashi, 1935

Remarks

Palmer (1954b, 1962) and Pratt (1992) discussed the diagnosis and scope of the family Crepicephalidae Kobayashi, 1935 (=Coosellidae Palmer, 1954b), pointing out the similarities shared by the genera Crepicephalus Owen, 1852, Coosia Walcott, 1911, Coosella Lochman, 1936, Coosina Rasetti, 1956, and Syspacheilus Resser, 1938.

Genus Coosia Walcott, 1911

Type species

Coosia superba Walcott, 1911 from the upper Guzhangian of Alabama and Tennessee, by original designation.

Coosia conicephala (Rusconi, 1954) new combination
Figure 5.16, 5.20, 5.21

1954

Querandinia conicephala Rusconi, p. 55, text-fig. 29.

Holotype

Small cranidium (MCNAM 17448) from La Cruz Olistoliths, 200 m northwest of Estancia San Isidro, Mendoza (Rusconi, 1954, text-fig. 29; Fig. 5.21).

Occurrence

Two hundred meters northwest of Estancia San Isidro, San Isidro area, Mendoza, upper Guzhangian, La Cruz Olistoliths, Cedaria prolifica Zone.

Remarks

Rusconi (1954) erected Querandinia Rusconi, 1954 and Q. conicephala Rusconi, 1954 on the basis of only a tiny cranidium (holotype) that was originally illustrated with a line drawing (Rusconi, 1954, text-fig. 29). After its original description, the affinities of this specimen remained doubtful (Lochman in Harrington et al., 1959, p. 525; Jell and Adrain, 2003). It shows a broad (sag., exsag.) and flat anterior border, a shallow anterior border furrow, a tapering, anteriorly rounded glabella, effaced glabellar lateral furrows, an almost straight occipital furrow, indications of backwardly oblique eye ridges, and moderately sized palpebral lobes located opposite the middle third of the glabella. Following the diagnosis of Palmer (1954b, p. 730), this specimen is reinterpreted here as an early holaspid of Coosia Walcott, 1911, and Querandinia is suppressed as a junior synonym of that genus. Two additional, larger cranidia from the Rusconi collection (Fig. 5.16, 5.20) slightly differ from the holotype by showing more clearly curved anterior border furrows.

The variable species Coosia alethes (Walcott, 1911), from the Crepicephalus Zone of Montana, South Dakota, and Tennessee, includes some cranidia (e.g., Rasetti, 1965, pl. 7, fig. 9; Lochman and Duncan, 1944, pl. 6, fig. 2; Stitt and Perfetta, 2000, fig. 7.21) that have a certain similarity to C. conicephala, although the marginal border of the former, like that of many other species of Coosia, is less strongly curved forward. In this regard, “Coosella” sp. from the Cedarina dakotaensis Zone of South Dakota (Stitt, 1998, fig. 8.1) resembles, at first glance, the material from San Isidro but differs in having more anteriorly located palpebral lobes.

Genus Coosella Lochman, 1936

Type species

Coosella prolifica Lochman, 1936, from the upper Guzhangian of Missouri, by original designation.

Coosella texana? Resser, 1942
Figure 5.17, 5.18, 5.22

Occurrence

Two hundred meters northwest of Estancia San Isidro, San Isidro area, Mendoza, upper Guzhangian, La Cruz Olistoliths, Cedaria prolifica Zone.

Remarks

Some crepicephalid cranidia from the Rusconi collection exhibit a poorly convex, elongate, tapered, subconical glabella that is slightly constricted opposite palpebral lobes and rounded anteriorly, occupying more than three-quarters of the total cranidial length; faint indications of three pairs of lateral furrows; a distinct, flat occipital ring representing ~17% of the total glabellar length, lacking node or spine; an equally divided frontal area; a long (sag.), shallow anterior border furrow defining a slightly raised anterior border; a proportionately short (sag.) preglabellar field; and oblique, moderately developed palpebral lobes located slightly anterior to glabellar midlength. These features are characteristic of Coosella texana Resser, 1942 as revised by Pratt (1992, p. 65), from the Riley Formation of Texas (Resser, 1942, pl. 13, figs. 21–24, pl. 14, figs. 2–5), the Warrior Formation of Pennsylvania (Tasch, 1951, pl. 46, figs. 13, 14), and the Rabbitkettle Formation of northwest Canada (Pratt, 1992, pl. 22, figs. 17–20). As in the type cranidia from Texas (Resser, 1942, pl. 13, fig. 23, 24, pl. 14, figs. 2, 3), the Argentinian material shows faint glabellar muscle scars that partly mask the lateral furrows and faint traces of radiating prosopon ridges on the preglabellar field. Still, there are no pygidia associated with this material, and it is cautiously classified in open nomenclature.

As stated by Pratt (1992), C. texana differs from other species of Coosella mainly by having an elongate glabella.

Family Marjumiidae Kobayashi, 1935
Genus Nasocephalus Wilson, 1954

Type species

Nasocephalus nasutus Wilson, 1954 from Cambrian clasts in Woods Hollow Shale (Middle Ordovician), Texas, by original designation.

Remarks

This genus is known from Cambrian boulders of the Woods Hollow Shale of Texas as well as from the Cedaria selwyni Zone of the Rabbitkettle Formation of the southern Mackenzie Mountains (Wilson, 1954; Pratt, 1992). One of its most characteristic features is an anterior cranidial border that is extended into a pointed snout having concave sides. Although such a feature is also present in Dokimocephalus Walcott, 1924 from the lower Jiangshanian Elvinia Zone and correlatives of Nevada, Utah, Oklahoma, Texas, Missouri, Wyoming, and Pennsylvania (Walcott, 1924, 1925; Frederickson, 1948; Palmer, 1960, 1965; Westrop et al., 2010), Nasocephalus is easily differentiated by its poorly convex glabella, weaker lateral glabellar furrow S1, and molds lacking granular sculpture.

Nasocephalus cf. N. nasutus Wilson, 1954
Figure 5.19

Occurrence

Two hundred meters northwest of Estancia San Isidro, San Isidro area, Mendoza, La Cruz Olistoliths, Cedaria prolifica Zone.

Description

A mostly exfoliated cranidium from the Rusconi collection exhibits a low, broadly tapering and anteriorly rounded glabella; dorsal furrows well defined, shallowing anteriorly; lateral glabellar furrows S1, S2, and S3 faint, slightly curved backward, disconnected at middle; preglabellar field short (sag.); anterior border furrow shallow and gently curved forward; anterior border extended into a partially preserved frontal spine; fixigenae moderately narrow (tr.), rising above the glabella; ocular ridges faint, narrow, oblique backward; palpebral lobes arcuate, inflated, elevated above ocular ridges, extended from the level of midpoint of L1 to the level of glabellar furrow S2. The dorsal surface is smooth, while a fragment of test retained on the anterior cranidial border is finely granulated.

Remarks

This morphology coincides to a large extent with that of Nasocephalus nasutus Wilson, 1954, which has been originally described from only two cranidia and one librigena from an upper Guzhangian clast in Woods Hollow Shale (Middle Ordovician) of Texas (Wilson, 1954, pl. 24, figs. 14, 18, 19, 21; Pratt, 1992, p. 89). The Argentinian cranidium differs only slightly by having strongly arcuate rather than semicircular palpebral lobes.

Nasocephalus cf. N. nasutus is distinguished from N. flabellatus Wilson, 1954, from the Marathon Uplift of Texas (Wilson, 1954, pl. 24, figs. 3, 22) and the Cedaria selwyni Zone of the Rabbitkettle Formation, northwestern Canada (Pratt, 1992, pl. 18, figs. 11–20, text-fig. 34), mainly because the latter shows a more subrectangular glabella and longer (exsag.), slightly curved palpebral lobes.

Order Corynexochida Kobayashi, 1935
Family Dorypygidae Kobayashi, 1935
Genus Olenoides Meek, 1877

Type species

Paradoxides? nevadensis Meek, 1870 from the Miaolingian of Utah, by original designation.

Remarks

Palmer (1954a), Robison (1964b), and Sundberg (1994) discussed in detail the diagnosis of Olenoides, a well-known dorypygid genus that is widespread in the middle Cambrian of North America.

Olenoides proa (Rusconi, 1954) new combination
Figure 5.23–5.25

1954

Cancapolia proa Rusconi, p. 54, text-fig. 28.

Holotype

Cranidium (MCNAM 17445) from La Cruz Olistoliths, 200 m northwest of Estancia San Isidro, Mendoza (Rusconi, 1954, text-fig. 28; Fig. 5.23, 5.24).

Diagnosis

A species of Olenoides with a protruding anterior cranidial margin, a broad-based occipital spine, three pairs of distinctly marked pygidial pleural and interpleural furrows that are straight to slightly curved and become deeper and wider distally, and marginal spines of different sizes.

Occurrence

Two hundred meters northwest of Estancia San Isidro, San Isidro area, Mendoza, upper Guzhangian, La Cruz Olistoliths, Cedaria prolifica Zone.

Description

Cranidium showing a protruding anterior margin, a long, subrectangular, slightly expanding glabella reaching anterior border, effaced glabellar lateral furrows, and indications of a broad-based occipital spine. Glabella anteriorly fused with a large, concave, tongue-shaped frontal area of cranidium. Fixigenae moderately wide (tr.) and downsloping. Palpebral lobes medium in size and located opposite middle third of glabella.

Pygidium with a long (sag.) and slightly tapered axis, which displays four preserved rings and a broadly rounded terminal piece; axial rings lacking axial nodes; three pairs of distinctly marked pleural and interpleural furrows that are straight to slightly curved and become deeper and wider distally; a weakly defined pygidial border; and a partly preserved margin with at least three pairs of marginal spines having bases of different widths. Pleural fields have anterior pleural bands that expand (exsag.) laterally and posterior pleural bands that are uniform in width.

Remarks

Rusconi (1954) erected Cancapolia Rusconi, 1954 and C. proa Rusconi, 1954 on the basis of only a dorypygid cranidium (holotype) that was originally illustrated with a sketch (Rusconi, 1954, text-fig. 28). This specimen is redescribed in the preceding (emended from Rusconi, 1954, p. 55) (Fig. 5.23, 5.24), together with a pygidium (Fig. 5.25) that is regarded here as conspecific. The general aspect of the cranidium as well as the pattern of pygidial pleural furrows and pleural bands (see Sundberg, 1994) are compatible with the middle Cambrian genus Olenoides Meek, 1877, so Cancapolia is suppressed as a junior synonym of it.

Olenoides is well represented in the Wuliuan, whereas it is rarer in upper Guzhangian strata. Two fragmentary pygidia of Olenoides sp. undet., from the Cedaria/Crepicephalus Zone of Tennessee (Rasetti, 1965, pl. 5, figs. 12, 13), differ from the material from San Isidro mainly by having more curved pleural and interpleural furrows. Olenoides? trispinus Rasetti, 1946 was based on two pygidia from upper Guzhangian conglomerate boulders from the Gaspé Peninsula in Quebec (Rasetti, 1946, pl. 70, fig. 16) that are distinguished from O. proa by their much shallower pleural furrows.