Middle Permian crinoids (Echinodermata, Crinoidea) from Cerros Los Monos, Caborca, Sonora, Mexico and paleogeographic considerations

 

Crinoides del Pérmico Medio (Echinodermata, Crinoidea) de Cerro Los Monos, Caborca, Sonora, México y consideraciones paleogeográficas

 

Blanca E. Buitrón–Sánchez^{1, 2}*, Emilio Almazán–Vázquez², and Daniel Vachard³

 

¹ Universidad Nacional Autónoma de México, Instituto de Geología, Departamento de Paleontología, Ciudad Universitaria, Delegación Coyoacán, 04510, México D. F., México.* blancab@servidor.unam.mx

² Universidad de Sonora, Departamento de Geología, Boulevard Luis Encinas y Rosales, 83000, Hermosillo, Sonora, México.

³ Unité de Formation et Recherche Sciences de la Terre, UMR 8014 du CNRS, Université de Lille 1, Bâtiment SN5, 59655 Villeneuve d' Ascq Cedex, France.

 

Manuscript received: November 29, 2006
Corrected manuscript received: May 24, 2007
Manuscript accepted: June 5, 2007

 

 

ABSTRACT

Crinoid columnals and pluricolumnals assigned to five species, Pentaridica (col.) rothi Moore and Jeffords, Cyclocaudex cf. C. (col.) jucundus Moore and Jeffords, Cyclocaudex cf. C. (col.) costatus Moore and Jeffords, Preptopremnum (col.) rugosum Moore and Jeffords, and Heterostelechus (col.) texanus Moore and Jeffords, were studied from the Permian beds of the Monos Formation which is exposed 50 kilometers west of Caborca, Sonora, in northwest Mexico. Heterostelechus (col.) texanus Moore and Jeffords is recorded for the first time in Mexico. Some crinoid samples preserve morphological features in the articular surface, allowing the species identification. The age of the fossiliferous strata was determined by the identification of fusulinids (Parafusulina antimonioensis Dunbar), ammonites (Waagenoceras dieneri Boese), and brachiopods (Waagenoconcha montpelierensis (Girty)) that are index fossils of Wordian (Middle Permian) age.

Key words: crinoids, paleogeography, Wordian, Caborca, Sonora, Mexico.

 

RESUMEN

Se identificaron placas columnares de crinoides de las especies Pentaridica (col.) rothi Moore y Jeffords, Cyclocaudex cf. C. (col.) jucundus Moore y Jeffords, Cyclocaudex cf. C. (col.) costatus Moore y Jeffords, Preptopremnum (col.) rugosum Moore y Jeffords y Heterostelechus (col.) texanus Moore y Jeffords; la presencia de Heterostelechus (col.) texanus se reporta por vez primera para México y los fósiles proceden de la Formación Monos que aflora a 50 km al poniente de la Ciudad de Caborca, Estado de Sonora, en el noroeste de México. Algunas de las muestras de fósiles de crinoides han conservado, en la superficie articular, caracteres morfológicos que han permitido la identificación de las especies. La previa determinación de la edad de los estratos con crinoides fue posible gracias a la presencia de fusulínidos de la especie Parafusulina antimonioensis Dunbar, de amonites (Waagenoceras dieneri Boese) y braquiópodos (Waagenoconcha montpelierensis (Girty)), todas especies índices del Wordiano, Pérmico Medio.

Palabras clave: crinoides, paleogeografía, Wordiano, Caborca, Sonora, México.

 

INTRODUCTION

The Monos Formation is a Middle Permian sedimentary unit that was deposited in a shallow marine environment. It crops out at Los Monos Hills, located about 50 km west of the City of Caborca, in northwestern Sonora, at 30°45' N and 112°36' W (Figure 1). The Monos Formation is a mostly carbonate fossiliferous sequence which includes algae, fusulinids and other foraminifers, sponges, corals, bryozoans, brachiopods, gastropods, ammonites, and crinoids. This contribution reports and illustrates several columnals and pluricolumnals. The species herein described belongs to Pentaridica (col.) rothi Moore and Jeffords, Cyclocaudex (col.) cf. C. jucundus Moore and Jeffords, Cyclocaudex (col.) cf. C. costatus Moore and Jeffords, Preptopremnum (col.) rugosum Moore and Jeffords, and Heterostelechus texanus Moore and Jeffords. These identifications, which were made following the methodology of Moore and Jeffords (1968), Jeffords and Miller (1968), Moore et al., (1968) and Wright (1983), provide significant paleogeographic information relative to faunal affinity with the North American Craton Province (Ross and Ross, 1979).

The Monos strata were first reported by Keller (1928) who described the rocks as Pennsylvanian in age. Later, Cooper and Arellano (1946) named this succession as Monos Formation. Subsequently, Cooper et al. (1953) reported that the stratigraphic section of the Monos Formation is more than 600 m thick and composed of reddish siltstone and sandstone alternating with fossiliferous limestone that contains a rich fauna of fusulinids, solitary corals, fenestellids–bryozoans, terebratulids, rhynchonellids like Wellerella sp, spiriferids and productids (including Dictyoclostus, Liosotella, Muirwoodia, Chonetes and Marginifera), pleurotomarids (Pleurotomaria, Euphemites, Straparollus), ammonites (Waagenoceras) and echinoderms. The species of crinoids here reported were collected from the middle part of the Monos Formation and correspond to columnals first identified by Moore and Jeffords (1968) from Late Pennsylvanian and Permian strata of Texas. In association with the crinoids, the fusulinid Parafusulina antimonioensis Dumbar has been found and indicates a middle–late Wordian, (Middle Permian) age (Figure 2).

The aim of this paper is to report the systematic study of crinoidal articular plates from the northwest region of Mexico. For this purpose, we adopt the convention suggested by Donovan (1995) that uses the suffix (col.) for crinoid genera identifications that are based on elements of the columnal. The relatively good preservation of the specimens allowed to recognize paleontological diagnostic features that identify them to the species level, on the basis of the works of Moore and Jeffords (1968); Jeffords and Miller (1968); Moore, Jeffords, and Miller (1968); and Wright (1983).

 

AGE OF THE FAUNA

The crinoid species from the middle part of the Monos Formation correspond to paleontological forms that were previously identified by Moore and Jeffords (1968) from Late Pennsylvanian and Permian strata of Texas. Particularly, Pentaridica (col.) rothi was cited from the Blach Ranch Limestone (Virgilian); Preptopremnum (col.) rugosum from the Thrifty and Graham Formations (Virgilian); Heterostelechus (col.) texanus from the Thrifty Formation of the Cisco Group (Virgilian) and from the Pueblo Formation of the Wichita Group (Wolfcampian). In the Monos Formation, these crinoids occur in association with fusulinids of the species Parafusulina antimonioensis index of a middle–late Wordian age (Dunbar in Cooper et al., 1965, p. 18; Wilde, 1990; Vachard et al., 1997).

The age of the fossiliferous layers was also supported by the ammonites Waagenoceras dieneri Boese (see Miller in Cooper et al., 1965, p. 89) and the brachiopod Waagenoconcha montpelierensis (Girty) (see Cooper et al., 1965, p. 49), both index fossils of the late Wordian (Wilde, 1990).

 

SYSTEMATIC PALEONTOLOGY

The material herein reported is deposited in the National Paleontological Collection of the Instituto de Geología, Universidad Nacional Autónoma de México, with the abbreviations IGM and catalogue numbers from IGM–8829 to IGM–8837.

Phylum Echinodermata
Class Crinoidea Miller, 1821
Group Pentameri Moore and Jeffords, 1968
Family Pentacauliscidae Moore and Jeffords, 1968
Genus Pentaridica Moore and Jeffords, 1968

Pentaridica (col.) rothi Moore and Jeffords, 1968
Figures 3a, 3b

Pentaridica rothi Moore and Jeffords, 1968, p. 55, pl. 9, figs. 12 and 13.
Pentaridica rothi Moore and Jeffords, 1968, Vachard, et al., 1997, p. 361.

Description. Heteromorphic column with two preserved plates of slightly pentagonal sides, one of them corresponds to a large nodal plate with two cirrus scars, and the other one is an internodal plate smaller than the nodal. Articular facet has a pentagonal outline and is slightly angled. There is a thick culmina separated by thin crenellae. There is a pentagonal and smooth areola. Lumen and areola are half width of the plate. Lumen has a slightly pentagonal outline.

Dimensions in mm.

Observations. Wright (1983, p. 595) proposed that the Pentameri Group is characterized by the presence of pentagonal to quinquelobate columns, and the Pentagonopentagonopa morphogenus with a pentagonal lumen belongs to this group.

Pentaridica rothi Moore and Jeffords (1968) was described for the first time from the Virgilian Blach Ranch Limestone and Cisco Group of Texas, USA. The Mexican specimens have slightly more sunken areola than specimens from Texas, and are more closely related to Pentaridica simplicis Moore and Jeffords (1968, p. 55, pl. 9, figs. 11a, b), but differ from this last one by the subpentagonal shape of the plates and because the crenularium presents a more conspicuous culmina.

Specimens of Pentaridica rothi associated with Cyclocaudex typicus, C. lineolata, and Pentagonopterix insculptus were found associated with the middle–late Wordian fusulinids Parafusulina deliciasensis and P. maleyi in the La Cruz formation, Ihualtepec, Oaxaca (Vachard et al., 1997).

Group Cyclici Moore and Jeffords, 1968
Family Cyclomischidae Moore and Jeffords, 1968
Genus Cyclocaudex Moore and Jeffords, 1968

Cyclocaudex cf. C. (col.) jucundus Moore and Jeffords, 1968
Figures 3c, 3d

Description. Heteromorphic column with five plates of right side, the middle is an internodal plate, slightly thicker than the nodal plate, also with a cirrus scar. The articulation is a symplexy. The articular facet of the plate has a circular outline with a wide crenularium, and the culmina is separated by crenulae narrower than the culmina. The wide and depressed areola and the lumen cannot be observed and occupy a third of the surface of the articular facet.

Dimensions in mm.

Observations. Wright (1983, p. 595) proposed that the Cyclici Group has circular columns, lumen of a circular outlines and that the Cyclocycopa morphogenus belongs to this group.

Moore and Jeffords (1968, p. 66, pl. 17, figs. 6, 7) described Cyclocaudex jucundus from the Chaffin and Belknap Limestone members of the Thrifty Formation, and from the Virgilian Cisco Group of Texas, USA. Buitrón et al. (1987, p. 132, fig. 5) recorded Cyclocaudex jucundus in the Del Monte Formation of Late Pennsylvanian (Virgilian) at Calnali, Hidalgo State, Mexico, and Velasco–de León and Buitrón (1992, p. 75, pl. 2, figs. 1–4) reported the same species from the Late Pennsylvanian (Virgilian) rocks of the Patlanoaya Formation from Patlanoaya, Puebla, Mexico. Arellano–Gil et al. (1998) also reported this species along with the fusulinid Skinnerella from the Early Permian of the Guacamaya Formation in Pemuxco, Hidalgo.

The crinoid plates are abundant and poorly preserved in the rocks of the Monos Formation that are exposed in the Caborca region; this is insufficient for make a positive identification to species level.

Cyclocaudex cf. C. (col.) costatus Moore and Jeffords, 1968
Figure 3e

Description. Straigth–sided heteromorphic column with three plate. The middle is a nodal with the scar of the cirrus and its width is double of internodal plate. The articular facet of the plate has a circular outline with a wide crenularium which covers one fifth of the columnal width. It also has a wide culminae, separated by crenellae narrower than the culminae. There are no details of the areola and lumen, but their dimensions have been measured.

Dimensions in mm.

Observations. Cyclocaudex costatus (Moore and Jeffords, 1968, p. 66, pl. 17, figs. 8a and 8b) was described from the South Bed Shale Member of the Graham Formation in the Virgilian Cisco Group of Texas, USA. Buitrón et al. (1987) published about the Late Pennsylvanian (Virgilian) species Cyclocaudex cf. C. costatus, C. insaturatus, C. jucundus, and Heterostelechus keithi from the Vicente Guerrero Formation in Calnali region, Hidalgo State in central Mexico; the species has been reported from the Upper Pennsylvanian of Olinalá (Olinalá Formation), Guerrero State (Flores de Dios and Buitrón, 1982). The difference between C. jucundus and C. costatus is that the first one has a wide areola and a crenularium formed by narrower culmina and crenellate.

Family Leptocarphiidae Moore and Jeffords, 1968
Genus Preptopremnum Moore and Jeffords, 1968

Preptopremnum (col.) rugosum Moore and Jeffords, 1968
Figure 3f, 3g

Preptopremnum rugosum Moore and Jeffords, 1968, p. 81, pl. 27, figs.1–9; pl. 28, fig. 1.
Preptopremnum rugosum Moore and Jeffords, 1968; Arellano–Gil et al., 1998, p. 11.
Preptopremnum rugosum Moore and Jeffords, 1968; Esquivel–Macías et al., 2000, p. 1188.

Description. Heteromorphic column with sides finely granulose, with ten well rounded plates. The nodal plate is slightly wider than the internodal; with crenellate and indented suture. The articular facet, with short and wide culmina, in a series of two bifurcated between two simple culmina, in the contact with the areola; crenellae narrower than the culmen, which covers one third of the width of the articular facet. Areola has a circular outline and many small granulations, and the lumen is large and bordered by narrow perilumen, less wide than the articular facet.

Dimensions in mm.

Observations. Preptopremnum rugosum was assigned to the Cyclici Group by Moore and Jeffords (1968) and Wright (1983). Wright (op. cit.) proposed the morphogenus Cyclocyclopa characterized by plates with granular sides, wide and short areola, with single and slender culmina. Nevertheless, this last author did not report specimens with bifurcated culmina. The authors of the present work consider the bifurcated culmina to be an evolutionarily derived feature in these Middle Permian crinoids from the Monos Formation.

Preptopremnum rugosum Moore and Jeffords (1968) was described for the first time in the Chaffin Limestone Member of the Thrifty Formation and the Gunsight Limestone and Wayland Shale Members of the Graham Formation, Cisco Group (Virgilian) of Texas, USA. There is a little variation in the morphology of this species, with mainly only the shape and size of the crenularium according to the conclusions of Jeffords and Miller (1968), who studied the ontogenic development of this species and confirmed the variability of these structures.

In Mexico, the species was studied by Buitrón (in Arellano–Gil et al., 1998, p. 12) from Early Permian outcrops in the Guacamaya Formation of Pemuxco, Hidalgo. In this locality the species was associated with Cyclocrista cheneyi, Cyclocaudex plenus, C. jucundus, and Mooreanteris perforatus and associated also with a primitive species of fusulinids of the genus Skinnerella.

Genus Heterostelechus Moore and Jeffords, 1968

Heterostelechus (col.) texanus Moore and Jeffords, 1968
Figures 3h, 3i

Heterostelechus texanus Moore and Jeffords, 1968, p 81, pl. 28, fig. 7a, 7b.
Heterostelechus texanus Moore and Jeffords, 1968; Esquivel–Macías et al., 2000, p. 1188.

Description. The plates have an articular facet of circular outline, and the crenularium covers one quarter of the column diameter. Short and wide culmina are separated by coarse and straight crenellae, narrower than the culminae. The areola is circular in outline with a smooth sunken and a small perilumen. The lumen is small and circular.

Dimensions in mm.

Observations. Moore and Jeffords (1968) described Heterostelechus (col.) texanus from the Belknap Limestone of the Thrifty Formation of the Virgilian Cisco Group and also from the Waldrip Shale Member of the Pueblo Formation of the Wichita Group of Wolfcampian (Early Permian) age.

At Cerro Los Monos, Sonora, only two specimens of the species had been found and are associated with Parafusulina antimonioensis Dunbar (Cooper et al., 1965; Wilde, 1990; Vachard et al., 1997), consequently it is of late Wordian age. Heterostelechus (col.) texanus is reported for the first time for Mexico.

 

PALEOGEOGRAPHIC CONSIDERATIONS

Characteristic Permian benthic invertebrate faunas of warm marine environments are present in several formations in Sonora; among them is the Monos Formation that crops out in the Monos hills of the Caborca region. The main fossil groups in this unit are foraminifera (Figure 4 a–d, h–l), corals, bryozoans (Figure 4g, m), brachiopods (Figure 4m, p), conodonts, and crinoids (Figure 3, Figure 4f). The Permian brachiopods include Productacea (Avonia, Diaphragmus, Echinoconchus, and Dictyoclostus), Rhynchonellacea (Wellerella), Spiriferacea (Cyrtospirifer, Eumetria, Spirifer, Hustedia, and Crurithyris) and Terebratulacea (Dielasma). Although these genus have a wide distribution around the world, the biota is stratigraphically and paleogeographically significative due to its relationship with the North American Craton and other global provinces (Ross and Ross, 1979; Buitrón et al., 2004; Molina–Garza and Iriondo, 2005).

Disarticulated skeletal elements of crinoids are abundant in Palozoic rocks (Moore and Jeffords, 1968; Gluchowski, 2002; Itano et al., 2003), but commonly the rocks are formed primarily only by fragmented columnal and columnal plates to form encrinites.

The Middle Permian fauna of the Monos Formation has a great affinity with faunas from other localities of Mexico. Specially the crinoid species here reported have a strong relationship with Olinalá, Guerrero (Olinala Formation); Ihualtepec, Oaxaca (La Cruz formation); Calnali (Del Monte Formation) and Pemuxco (Guacamaya Formation), Hidalgo; and Patlanoaya, Puebla (Patlanoaya Formation).

From the Pennsylvanian of Olinalá (Olinalá Formation), Guerrero, has been cited Heterostelechus jeffordsi, and Pentaridica pentagonalis (Flores de Dios and Buitrón, 1982; Esquivel–Macías, et al. 2004). Buitrón et al. (1987) had mentioned Cyclocaudex cf. C. costatus, C. jucundus, and Heterosteleschus keithi from the Pennsylvanian of Calnali, Hidalgo. Vázquez–Echeverría (1986) and Villaseñor et al. (1987) in their biostratigraphycal studies from Patlanoaya, Puebla southern Mexico, had mentioned Cyclocaudex sp. and Cyclocaudex typicus. Velasco de León and Buitrón (1992) had described also another species of crinoids common with Sonora, closed to Cyclocaudex jucundus of Virgilian age (Late Pennsylvanian) from Patlanoaya. Buitrón and Solís–Marín (1993) made a catalogue of echinoderm species of Mexico and cited Cyclocaudex sp., C. typicus, C. insaturatus, and C. jucundus.

Vachard et al. (1997) conducted geologic and paleontologic studies in Ihualtepec (La Cruz formation) Oaxaca, southeastern Mexico, and mentioned the presence of fusulinids (Parafusulina deliciasensis = P. maleyi) and crinoids (Cyclocaudex typicus and Pentaridica rothi) both attributed to the early–middle Wordian.

Buitrón in Arellano et al. (1998) cited the species Cyclocaudex plenus, C. jucundus, and Preptopremnum rugosum associated to fusulinids Skinerella (Vachard in Arellano, et al., 1998) from Lower Permian rocks of Pemuxco, Hidalgo State. Esquivel–Macías et al. (2000) had published crinoids with a tetralobulate lumen from Patlanoaya region, Puebla State of Missourian–Virgilian age, and also their cited the species Cyclocaudex jucundus, C. costatus, Heterosteleschus texanus, Pentaridica rothi, and Preptopremnun rugosum also present in Cerro Los Monos, Sonora.

The Pennsylvanian–Permian crinoids Pentaridica, Cyclocaudex, Preptopremnum, and Heterostelechus indicate similarities between Texas and Sonora. Some Permian fusulinids from Sonora are characteristic of the North American Craton (Midcontinent, Glass Mountains), specifically with exotic terranes of the North American Cordillera faunal region and also related with faunas of Eurasiatic–Arctic provinces. This fauna includes fusulinids of the genera Pseudofusulina, Parafusulina, Triticites, Schwagerina, and Boultonia.

During the Permian, the Sonora territories were also characterized by a diverse faunal association typical of the North American region that include brachiopods such as Composita, Martinia, Wellerella, Liosotella, Hustedia, Rhynchopora, Spiriferellina and Dictyoclostus, the tetracoral Lophophyllidium, the bryozoan Fenestella, ammonites (Waagenoceras) and the algae Paraepimastopora (Ross and Ross, 1979; Buitrón et al., 2004). Among the fusulinids of Sonora, Parafusulina antimonioensis Dunbar (Figure 4 a–e, i–j, l, n–o, q–t) is very close to Parafusulina californica (von Staff), and is a characteristic index fossil of late Wordian (Wilde, 1990) because it is transitional between the typical Parafusulina of the middle Wordian with a large central tunnel (Figure 4 A) and relatively irregular polar septal arches (Figure 4. L, T), and the typical Polydiexodina of early–middle Capitanian with relative gigantism and the developed cuniculi (Figure 4o). P. antimonioensis appears at diverse localities and has a strong relationship with Sonora, California, New Mexico, Texas, and Canada paleoprovinces, whilst Pseudoschwagerina appears in Sonora, North America, and some Russian localities.

The Cerro Los Monos area could constitute a separate terrain due to the presence of the giant Parafusulina antimonioensis Dunbar, which is considered a guide fossil of North American Exotic Terrains (Ross and Ross, 1983; González–León and Stanley, 1993; Calmus et al., 1997; Stewart et al, 1990; Vachard et al., 2000) because it is found from the Klamath Mountains (North California) to the northeastern to the State of Washington. Nevertheless, this argument is not completely convincing because this taxon has also been reported in the Glass Mountains, Texas on the American craton (Ross, 1963; Kobayashi, 1957). Consequently, the so–called El Antimonio Terrain, where the Monos Formation is included, is considered here as a different terrain from that named Caborca or Seri Terrain and a piece of the North American Craton (Figure 5).

After this analysis of the Permian biota is concluded that the cosmopolitan distribution of the fauna studied is due to the connections between the seas of West North America and Eastern Asia. The benthic Late Permian Sonora fauna was widely dispersed in the Tethyan realm, which was extended from Western North America to Northern Africa and Asia.

 

ACKNOWLEDGMENTS

The authors wish to thank to the Departamento de Geología of the Universidad de Sonora and the Instituto de Geología of the Universidad Nacional Autónoma de México for the financial support for the field work. This research is part of the following projects: ECOS (France), ANUIES, UNAM, and CONACYT (México) No. M00–U01 "Un estudio sedimentológico, micropaleontológico y geoquímico del Paleozoico de México"; UNAM, DGAPA, PAPIIT No. 104103 titled "Bioestratigrafía de rocas de plataforma del Pensilvánico y Pérmico de Sonora, México"; and CONACYT, México No. 49088–F "Sonora y las facies carbonatadas de la margen austral del Cratón Norteamericano". We thank the reviewers Dr. Carlos González–León and Dr. William I. Ausich, for their constructive remarks and corrections. We also appreciated the help of Jeremie Gaillot from University of Lille and Total Company.

 

REFERENCES

Arellano–Gil, J., Vachard, D., Yussim, S., Flores de Dios–González, A., 1998, Aspectos estratigráficos, estructurales y paleogeográficos del Pérmico Inferior al Jurásico Inferior en Pemuxco, Estado de Hidalgo, México: Revista Mexicana de Ciencias Geológicas, 15(1), 9–13.        [ Links ]

Buitrón, B.E., Solís–Marín, F., 1993, La biodiversidad en los equinodermos fósiles y recientes de México: Revista de la Sociedad Mexicana de Historia Natural, 44, 209–231.         [ Links ]

Buitrón, B.E., Patiño, J., Moreno, A., 1987, Crinoides del Paleozoico Tardío (Pensilvánico) de Calnali, Hidalgo: Revista de la Sociedad Mexicana de Paleontología, 1, 125–136.        [ Links ]

Buitrón, B.E., Almazán–Vázquez, E., Vachard, D., 2004, Benthic invertebrates, of Carboniferous–Permian age, from Sonora: Their paleogeographic implications (resumen), in 32nd Internacional Geological Congress, Florencia, Italia, p. 202.        [ Links ]

Calmus, T., Pérez–Segura, E., Stinnesbeck, W., 1997, La structuration de la marge pacifique nord–américaine et du <<terrane Caborca>> : apports de la decouverte d'une faune du Jurassique inférieur et moyen dans la série de Pozos de Serna (Sonora, Mexique): Comptes Rendus de l'Academie des Sciences, 323, série IIa, 795–800.        [ Links ]

Cooper, G.A., Arellano, A.R.V., 1946, Stratigraphy near Caborca, northwest Sonora, Mexico: Bulletin of the American Association of Petroleum Geologists, 30(4), 606–611.        [ Links ]

Cooper, G.A., Dunbar, C.O., Duncan, H., Miller, A.K., Knight, J.B., 1953, Permian fauna at El Antimonio, western Sonora, México: Smithsonian Miscellaneous Collections, 119 (2), 1–111.        [ Links ]

Cooper, G.A., Dunbar, C.O., Duncan, H., Miller, A.K., Knight, J. B., 1965, Fauna pérmica de El Antimonio del oeste de Sonora: Universidad Nacional Autónoma de México, Instituto de Geología, Boletín, 58(3), 122 p.        [ Links ]

Donovan, S.K., 1995, Pelmatozoan columnals from the Ordovician of the British Isles, Part 3: Palaeontographical Society Monograph, 149(3), 115–193.        [ Links ]

Esquivel–Macías, C., Ausich, W., Buitrón, B.E., Flores de Dios, A., 2000, Pennsylvanian and Mississippian pluricolumnal assemblages (Class Crinoidea) from Southern Mexico and new occurrence of column with a tetralobate lumen: Journal of Paleontology, 74(6), 1187–1190.        [ Links ]

Esquivel–Macías, C., Solís–Marín F., Buitrón, B.E., A., 2004, Nuevos registros de placas columnares de crinoideos (Echinodermata Crinoidea) del Paleozoico Superior de México, algunas implicaciones paleobiogeograficas y paleoambientales: Coloquios de Paleontología, 54, 15–23.        [ Links ]

Flores de Dios, A., Buitrón, B. E., 1982, Revisión y aportes a la estratigrafía de la Montaña de Guerrero: Universidad de Guerrero, Serie Técnico–Científica 12, 28 p.        [ Links ]

Gluchowski, E., 2002, Crinoids from the Famennian of the Holy Cross Mountains, Poland: Acta Paleontológica Polonica, 47 (2), 319–328.        [ Links ]

González–León, C., Stanley, G.D., Jr., 1993, The Antimonio Terrane of Western Sonora and its paleogeographic significance, in González–León C., Vega–Granillo, E. L. (eds.), III Simposio de la Geología de Sonora y áreas adyacentes, Memorias: Hermosillo, Sonora, Instituto de Geología, Universidad Nacional Autónoma de México, Universidad de Sonora, 3, p. 41–43.        [ Links ]

Itano, W.M., Webster, G.D., Houck, K.J., Bateman, W.D., 2003, The First Pennsylvanian Batocrinid and other New Echinoderms from the Minturn Formation of Central Colorado: The Mountain Geologist, 40(3), 83–100.        [ Links ]

Jeffords, M., Miller, T.H., 1968, Ontogenetic development in Late Pennsylvanian crinoids columnals and pluricolumnals: University of Kansas, Paleontological Contributions, Echinodermata, Article 10 (47), 1–14.        [ Links ]

Keller, W.T., 1928. Stratigraphische Beobachtungen in Sonora, N.W. México: Eclogae Geologicae Helvetiae, 21, 237–335.

Kobayashi, M., 1957, Paleontological study of the Ibukiyama limestone, shiga Prefecture, Central Japan: Sciences Reports of Tokyo Kyoiku Daigaku, C. 5 (48), 247–311.        [ Links ]

Miller, J.S., 1821, A natural history of the crinoidea or lily–shaped animals, with observation on the genera Asteria, Euryale, Comatula and Marsupites: Bristol England, Bryan and Company, 150 p.        [ Links ]

Molina–Garza, R.S., Iriondo, A., 2005, La Megacizalla Mojave–Sonora: la hipótesis, la controversia y el estado actual del conocimiento: Boletín de la Sociedad Geológica Mexicana, Volumen Conmemorativo del Centenario Grandes Fronteras Tectónicas de México, 57(1), 1–26.        [ Links ]

Moore, R.C., Jeffords, R.S., 1968, Classification and nomenclature of fossil crinoids based on studies of dissociated parts of their columns: University of Kansas, Paleontological Contributions, Echinodermata, Article 9 (46), 1–86.        [ Links ]

Moore, R.C, Jeffords, R.S., Miller, T.H., 1968, Morphological features of crinoid columns: University of Kansas, Paleontological Contributions, Echinodermata, Article 8 (45), 1–30.        [ Links ]

Ross, C.A., 1963, Standard Wolfcampian Series (Permian), Glass Mountains, Texas: Geological Society of America, Memoir 88, 205 p.        [ Links ]

Ross, C.A., Ross, J.P. ,1979, Permian, in Robison, R.A., Teichert, C. (eds.), Treatise on Invertebrate Paleontology, Part A. Introduction: Lawrence, Kansas and Boulder Colorado, The University of Kansas and The Geological Society of America and A291–A350.         [ Links ]

Ross, C.A., Ross, J.R.P., 1983, Late Paleozoic accreted terrains of western North America, in Stevens, C.H. (ed.), Pre–Jurassic rocks in western North America suspect terranes: The Society of Economic Paleontologists and Mineralogists, Pacific Section, 7–22.        [ Links ]

Stewart, J.H., Poole, F.G., Ketner, K.B., Madrid, R.J., Roldán–Quintana, J., Amaya–Martínez, R., 1990, Tectonics and stratigraphy of the Paleozoic and Triassic southern margin of North America, Sonora, Mexico, in Gehrels, G.E., Spencer, J.E. (eds.), Geologic excursions through the Sonoran Desert region, Arizona and Sonora: Arizona Geological Survey Special Paper, 7, 183–202.        [ Links ]

Vachard, D., Flores de Dios, A., Buitrón, B.E., 1997, Sur une nouvelle localité a fusulinides du Wordien (Permien supérieur) du Mexique, conséquences paléogéographiques: GEOBIOS, 30(3), 361–370.        [ Links ]

Vachard, D., Flores de Dios, A., Pantoja, J., Buitrón, B., Grajales, M., 2000, Les fusulines du Mexique, une revue biostratigraphique et paléogéographique: GEOBIOS, 33(6), 655–679.        [ Links ]

Vázquez–Echeverría, A., 1986, Descubrimiento de una nueva localidad de rocas marinas del Paleozoico al suroeste del Estado de Puebla, in 24 Congreso Nacional de la Asociación de Geólogos Petroleros Mexicanos, Petróleos Mexicanos, Exploración, Zona centro, 20 p.        [ Links ]

Velasco–de León, M.P., Buitrón, B.E., 1992, Algunos crinoides (Echinodermata–Crinoidea) del Misisípico–Pensilvánico de San Salvador Patlanoaya, Estado de Puebla: Revista de la Sociedad Mexicana de Paleontología, 5, 71–81.        [ Links ]

Villaseñor, A.B., Martínez, A., Contreras, B., 1987, Bioestratigrafía del Paleozoico Superior de San Salvador Patlanoaya, Puebla: Revista de la Sociedad Mexicana de Paleontología, 1(1), 396–413.         [ Links ]

Wilde, G.L., 1990, Practical fusulinid zonation: The species concept; with Permian basin emphasis: West Texas Geological Society Bulletin, 29(7), 5–34.        [ Links ]

Wright, D.K., 1983, Crinoids ossicles in Upper Ordovician benthic marine assemblages from Snowdonia, North Wales: Paleontology, 16(3), 585–603.        [ Links ]