Quick Search:    advanced search

GSW Home   GeoRef Home   My GSW Alerts   Contact GSW   About GSW   Journals List   Help

This Article Résumé Full Text (PDF) Submit a response Alert me when this article is cited Alert me when eLetters are posted Alert me if a correction is posted Services Email this article to a friend Similar articles in this journal Similar articles in Web of Science Alert me to new issues of the journal Download to citation manager Citing Articles Citing Articles via HighWire Citing Articles via Web of Science (4) Citing Articles via Google Scholar Google Scholar Articles by Tabuce, R. Articles by Quillevere, F. Search for Related Content GeoRef GeoRef Citation

Aznag (Ouarzazate basin, Morocco), a new African middle Eocene (Lutetian) vertebrate-bearing locality with selachians and mammals

¹ UMR CNRS 5554, Institut des Sciences de l’Evolution, cc064, Université Montpellier II, place Eugène Bataillon, 34095 Montpellier cedex 05, France. rtabuce{at}isem.univ-montp2.fr
¹ Université Chouaib Doukkali, Faculté des Sciences, département de géologie, B.P. 20 El Jadida, Maroc.
¹ UMR CNRS 5125, UFR Sciences de la Terre, Université Claude Bernard Lyon I, 27–43 Boulevard 11 Novembre 1918, 69622 Villeurbanne cedex, France.

Early Paleogene mammals are rare in Africa. They are mainly found in the northwestern part of the continent. Nearshore marine deposits from the Ouarzazate basin, in the southern rim of the Central High Atlas (Morocco), have yielded diverse Thanetian and Ypresian selachian and mammalian faunas [Cappetta et al., 1978, 1987; Gheerbrant et al., 1993]. These faunas from the Paleocene/Eocene transition document the oldest known placental mammals of Africa [Gheerbrant, 1992, 1994, 1995; Gheerbrant et al., 1998; Sigé et al., 1990; Sudre et al., 1993]. New field work in the central part of the basin, near El-Kelaâ M’Gouna, has led to the discovery of a new locality with continental and marine remains, including some non-determinable ostracods and charophytes plus planktonic and benthic foraminifera.

The tests of the planktonic foraminifera were globally poorly preserved and highly re-crystallized. However, we found Globigerapsis index (dominant in the sample), Globigerapsis aff. kugleri, Subbotina frontosa, Subbotina inaequispira, Acarinina bullbrooki, Acarinina aff. pentacamerata, Morozovella aragonensis, Morozovella caucasica, Morozovella crater and Pseudohastigerina sp. Following Berggren et al. [1995], the lowest occurrence of the genus Globigerapsis denotes the P10/P11 zonal boundary and the highest occurrence of M. aragonensis denotes the P11/P12 zonal boundary. Both these taxa were represented by several relatively well-preserved specimens. Then, we consider that the sample is correlative to the planktonic foraminiferal Zone P11, for which a biochronal equivalent has been dated between 45.8 and 43.6 Ma. Consequently, the middle Lutetian Aznag locality represents the only known Eocene mammalian site to be adequately dated in Africa.

The selachian fauna is relatively rich with nearly 30 species, many of them being probably new. The genera Squatiscyllium, Protoginglymostoma, Ouledia and Garabatis are confidently identified; these taxa were unknown in the Lutetian. We mention the first occurrence in the Eocene of Morocco of « septentrional » taxa Protoginglymostoma, Hemiscyllium and Rhinobatos bruxelliensis and we confirm the presence of genera Eomobula and Rhynchobatus. These data suggest significant North to South faunal exchanges, that contrast with the South to North tendency observed during the early Eocene [Noubhani and Cappetta, 1997]. Nevertheless, the selachian fauna from Aznag is clearly tropical with the occurrence of endemic taxa only known from Morocco (Garabatis, Orectolobiformes nov. gen.) and from the equatorial Tethys-Central Atlantic (Chiloscyllium aff. meraense, Ginglymostoma aff. angolense, Squatiscyllium, « Dasyatis » aff. sudrei, Ouledia, Arechia, Odontorhytis).

Only 15 mammalian teeth have been recovered, most of them are very fragmentary and of small size; they document at least 7 species. A probable soricomorph "insectivore" documented by a complete lower molar is very atypical by its tiny size and the entoconid and hypoconulid poorly differentiated from the postcristid. Another "insectivore" is documented by a trigonid of p4, it is reminiscent to the zalambdodont groups. An incisor of rodent shows an enamel microstructure with uniserial Hunter-Schreger bands ; this structure is observed in several Eocene rodents from Eurasia and could be related to the pauciserial to uniserial transition observed in Zegdoumys sebtlai from Chambi (early Eocene, Tunisia) [Martin, 1999]. An upper molar of chiropteran cannot be assigned to one of the known microchiropteran superfamilies; the species from Aznag is characterized by derived traits (e.g. crestiform protocone, hypocone present) and primitive ones such as the presence of a paraconule which evokes the "eochiropteran" grade and the primitive vespertilionoids (paleochiropterygids). A small primate is documented by two fragmentary lower molars and characterized by a well-marked bunodonty and a large paraconid ; this form differs from contemporaneous anthropoids but is very similar to Altiatlasius from the Thanetian of the Adrar Mgorn 1. Two "condylarths" evoke European taxa; a M₃ is tentatively assigned to the genus Paschatherium and a DP_3or4 is reminiscent to that of Microhyus. This specimen shows also affinities with the ?DP₄ of Chambius, a primitive macroscelidid from Chambi. The presence of these mammals strengthen the hypothesis of faunal exchanges between Africa and Europe during the early Eocene.

During the middle Eocene, in the south of the Central High Atlas, palynologic data suggested a fairly dry, scarcely vegetated hinterland, and a tropical coastal vegetation (mangrove swamp and salt-marsh) [Fechner, 1988]. The mammals of Aznag, which are characteristic of a closed environment (chiropterans, primate, small ungulates), were certainly confined to a thin belt of coastal vegetation (forest gallery). The fossiliferous level is characterized by a cyclicity of the deposits which could suggest a seasonal variation. Among the selacians, the abundance of the batoids, the absence of both macrofauna and deep-water selacians, and the fragmentary elements indicate hydrodynamical transport in a shallow channel or delta.

Key Words: Africa • Ouarzazate Basin • Mammals • Selachians • Foraminifers • Lutetian

This article has been cited by other articles:

				R. Tabuce, L. Marivaux, R. Lebrun, M. Adaci, M. Bensalah, P.-H. Fabre, E. Fara, H. Gomes Rodrigues, L. Hautier, J.-J. Jaeger, et al. Anthropoid versus strepsirhine status of the African Eocene primates Algeripithecus and Azibius: craniodental evidence Proc R Soc B, December 7, 2009; 276(1676): 4087 - 4094. [Abstract] [Full Text] [PDF]

				E. R. Seiffert Revised age estimates for the later Paleogene mammal faunas of Egypt and Oman PNAS, March 28, 2006; 103(13): 5000 - 5005. [Abstract] [Full Text] [PDF]