Primate tarsal bones from Egerkingen, Switzerland, attributable to the middle Eocene adapiform Caenopithecus lemuroides

The middle Eocene species Caenopithecus lemuroides, known solely from the Egerkingen fissure fillings in Switzerland, was the first Paleogene fossil primate to be correctly identified as such (by Ludwig Rütimeyer in 1862), but has long been represented only by fragmentary mandibular and maxillary remains. More recent discoveries of adapiform fossils in other parts of the world have revealed Caenopithecus to be a biogeographic enigma, as it is potentially more closely related to Eocene adapiforms from Africa, Asia, and North America than it is to any known European forms. More anatomical evidence is needed, however, to provide robust tests of such phylogenetic hypotheses. Here we describe and analyze the first postcranial remains that can be attributed to C. lemuroides-an astragalus and three calcanei held in the collections of the Naturhistorisches Museum Basel that were likely recovered from Egerkingen over a century ago. Qualitative and multivariate morphometric analyses of these elements suggest that C. lemuroides was even more loris-like than European adapines such as Adapis and Leptadapis, and was not simply an adapine with an aberrant dentition. The astragalus of Caenopithecus is similar to that of younger Afradapis from the late Eocene of Egypt, and parsimony and Bayesian phylogenetic analyses that include the new tarsal data strongly support the placement of Afradapis and Caenopithecus as sister taxa to the exclusion of all other known adapiforms, thus implying that dispersal between Europe and Africa occurred during the middle Eocene. The new tarsal evidence, combined with previously known craniodental fossils, allows us to reconstruct C. lemuroides as having been an arboreal and highly folivorous 1.5-2.5 kg primate that likely moved slowly and deliberately with little or no capacity for acrobatic leaping, presumably maintaining consistent powerful grasps on branches in both above-branch and inverted postures.

[1]  G. Conroy Evolutionary history of the primates , 1980, International Journal of Primatology.

[2]  J. Murtagh Tarsal tunnel syndrome. , 1991, Australian family physician.

[3]  H. Bucher,et al.  A new early Smithian ammonoid fauna from the Salt Range (Pakistan) , 2011 .

[4]  A. Sahni,et al.  Early Eocene primates from Gujarat, India. , 2009, Journal of human evolution.

[5]  E. Simons,et al.  Astragalar morphology of Afradapis, a large adapiform primate from the earliest late Eocene of Egypt. , 2010, American journal of physical anthropology.

[6]  E. Kirk,et al.  New adapiform primate of Old World affinities from the Devil's Graveyard Formation of Texas. , 2011, Journal of human evolution.

[7]  B. Williams,et al.  Phylogenetic analysis of anthropoid relationships. , 1998, Journal of human evolution.

[8]  Rodolphe Tabuce,et al.  Talar morphology of azibiids, strepsirhine-related primates from the Eocene of Algeria: phylogenetic affinities and locomotor adaptation. , 2011, Journal of human evolution.

[9]  D. Gebo,et al.  Foot morphology and evolution in early Eocene Cantius , 1991 .

[10]  T. Harrison Primate Adaptation and Evolution. Third Edition. By John G. Fleagle. Academic Press. Amsterdam (The Netherlands) and Boston (Massachusetts): Elsevier. $89.95. x + 441 p.; ill.; index. ISBN: 978-0-12-378632-6. 2013. , 2015 .

[11]  J. L. Franzen The Messel Primates and Anthropoid Origins , 1994 .

[12]  W. Murphy,et al.  Macroevolutionary Dynamics and Historical Biogeography of Primate Diversification Inferred from a Species Supermatrix , 2012, PloS one.

[13]  Gabriel S. Yapuncich,et al.  Predicting euarchontan body mass: A comparison of tarsal and dental variables. , 2015, American journal of physical anthropology.

[14]  S. Cachel Primate adaptation and evolution , 1989, International Journal of Primatology.

[15]  D. Schmitt,et al.  The paleobiology of Amphipithecidae, South Asian late Eocene primates. , 2004, Journal of human evolution.

[16]  Rodolphe Tabuce,et al.  Djebelemur, a Tiny Pre-Tooth-Combed Primate from the Eocene of Tunisia: A Glimpse into the Origin of Crown Strepsirhines , 2013, PloS one.

[17]  O. Abel Die Stellung des Menschen im Rahmen der Wirbeltiere , 1931 .

[18]  R. F. Kay,et al.  The functional adaptations of primate molar teeth. , 1975, American journal of physical anthropology.

[19]  E. Simons,et al.  New primate first metatarsals from the Paleogene of Egypt and the origin of the anthropoid big toe. , 2012, Journal of human evolution.

[20]  W. K. Gregory On the structure and relations of Notharctus, an American eocene primate , 1920 .

[21]  R. J. Smith,et al.  Body mass in comparative primatology. , 1997, Journal of human evolution.

[22]  D. Boyer,et al.  Oldest known euarchontan tarsals and affinities of Paleocene Purgatorius to Primates , 2015, Proceedings of the National Academy of Sciences.

[23]  K. Beard,et al.  Middle Eocene primate tarsals from China: implications for haplorhine evolution. , 2001, American journal of physical anthropology.

[24]  Tao Qi,et al.  A diverse new primate fauna from middle Eocene fissure-fillings in southeastern China , 1994, Nature.

[25]  Doug M. Boyer,et al.  Evolution and Allometry of Calcaneal Elongation in Living and Extinct Primates , 2013, PloS one.

[26]  Michael P. Cummings,et al.  PAUP* [Phylogenetic Analysis Using Parsimony (and Other Methods)] , 2004 .

[27]  Cris E. Hughes,et al.  Comparative and population mitogenomic analyses of Madagascar's extinct, giant 'subfossil' lemurs. , 2015, Journal of human evolution.

[28]  P. Tafforeau,et al.  The oldest known primate skeleton and early haplorhine evolution , 2013, Nature.

[29]  U. Thalmann Die Primaten aus dem eozänen Geiseltal bei Halle/Saale - (Deutschland) , 1994 .

[30]  D. Gebo Foot morphology and locomotor adaptation in Eocene primates. , 1988, Folia primatologica; international journal of primatology.

[31]  Y. Attia,et al.  Basal Anthropoids from Egypt and the Antiquity of Africa's Higher Primate Radiation , 2005, Science.

[32]  Maxim Teslenko,et al.  MrBayes 3.2: Efficient Bayesian Phylogenetic Inference and Model Choice Across a Large Model Space , 2012, Systematic biology.

[33]  D. Boyer,et al.  Evidence for a Grooming Claw in a North American Adapiform Primate: Implications for Anthropoid Origins , 2012, PloS one.

[34]  Gabriel S. Yapuncich,et al.  Evolution of postural diversity in primates as reflected by the size and shape of the medial tibial facet of the talus. , 2015, American journal of physical anthropology.

[35]  David M. Alba,et al.  Calcaneal proportions in primates and locomotor inferences in Anchomomys and other Palaeogene Euprimates , 2011, Swiss Journal of Palaeontology.

[36]  S. Warren NEW ORLEANS , 2009 .

[37]  M. Dagosto Postcranium of Adapis parisiensis and Leptadapis magnus (Adapiformes, Primates) , 1983 .

[38]  K. Rose,et al.  The Early Radiation of Euprimates and the Initial Diversification of Omomyidae , 1994 .

[39]  D. Gebo Vertical clinging and leaping revisited: vertical support use as the ancestral condition of strepsirrhine primates. , 2011, American journal of physical anthropology.

[40]  M. Dagosto,et al.  Hindlimb suspension and hind foot reversal in Varecia variegata and other arboreal mammals. , 1997, American journal of physical anthropology.

[41]  D. Russell,et al.  Primates of the French early Eocene , 1967 .

[42]  P. Schmid,et al.  Proximal femoral anatomy of omomyiform primates , 1996 .

[43]  J. Jaeger La faune de Mammifères du Lutétien de Bouxwiller (Bas-Rhin) et sa contribution à l'élaboration de l'échelle des zones biochronologiques de l'Eocène européen , 1971 .

[44]  W. Howells The Antecedents of Man. An Introduction to the Evolution of the Primates. , 1961 .

[45]  M. Godinot A Summary of Adapiform Systematics and Phylogeny , 1998, Folia Primatologica.

[46]  P. Lemelin,et al.  Functional and evolutionary aspects of axial stability in euarchontans and other mammals , 2014, Journal of morphology.

[47]  E. Simons,et al.  Primate postcrania from the late middle Eocene of Myanmar , 2001, Proceedings of the National Academy of Sciences of the United States of America.

[48]  E. Sarmiento,et al.  The significance of the heel process in anthropoids , 1983, International Journal of Primatology.

[49]  Mark A. Miller,et al.  Creating the CIPRES Science Gateway for inference of large phylogenetic trees , 2010, 2010 Gateway Computing Environments Workshop (GCE).

[50]  C. Ross The Craniofacial Evidence for Anthropoid and Tarsier Relationships , 1994 .

[51]  Y. Attia,et al.  Fossil evidence for an ancient divergence of lorises and galagos , 2003, Nature.

[52]  P. Gingerich New species of eocene primates and the phylogeny of European adapidae. , 1977, Folia primatologica; international journal of primatology.

[53]  Frederick S. Szalay,et al.  9 – Origins and Function of the Pes in the Eocene Adapidae (Lemuriformes, Primates) , 1974 .

[54]  D. Gebo,et al.  Functional anatomy of the tarsier foot , 1987 .

[55]  E. Simons,et al.  Convergent evolution of anthropoid-like adaptations in Eocene adapiform primates , 2009, Nature.

[56]  E. Simons,et al.  Phylogenetic, Biogeographic, and Adaptive Implications of New Fossil Evidence Bearing on Crown Anthropoid Origins and Early Stem Catarrhine Evolution , 2004 .

[57]  Philip D. Gingerich,et al.  Correction: Complete Primate Skeleton from the Middle Eocene of Messel in Germany: Morphology and Paleobiology , 2009, PLoS ONE.

[58]  D. Boyer New Cranial and Postcranial Remains of Late Paleocene Plesiadapidae ("Plesiadapiformes," Mammalia) From North America and Europe: Description and Evolutionary Implications , 2009 .

[59]  Doug M Boyer,et al.  A calcaneus attributable to the primitive late Eocene anthropoid Proteopithecus sylviae: phenetic affinities and phylogenetic implications. , 2013, American journal of physical anthropology.

[60]  E. Simons,et al.  A fossil primate of uncertain affinities from the earliest late Eocene of Egypt , 2010, Proceedings of the National Academy of Sciences.

[61]  C. Terranova,et al.  Estimating the body size of eocene primates: A comparison of results from dental and postcranial variables , 1992, International Journal of Primatology.

[62]  M. Dagosto,et al.  The joints of the tarsus in the strepsirhine primates : functional, adaptive, and evolutionary implications , 1986 .

[63]  J. Buettner‐Janusch The Antecedents of Man , 1963, The Yale Journal of Biology and Medicine.

[64]  D. Boyer,et al.  Astragalar and calcaneal morphology of the middle Eocene primate Anchomomys frontanyensis (Anchomomyini): Implications for early primate evolution. , 2016, Journal of human evolution.

[65]  Paul J. Besl,et al.  A Method for Registration of 3-D Shapes , 1992, IEEE Trans. Pattern Anal. Mach. Intell..

[66]  Doug M Boyer,et al.  Dental topography of platyrrhines and prosimians: convergence and contrasts. , 2014, American journal of physical anthropology.

[67]  R. Martin Primate Evolution , 1973, Nature.

[68]  M. P. Cummings,et al.  PAUP* Phylogenetic analysis using parsimony (*and other methods) Version 4 , 2000 .

[69]  K. Beard,et al.  New Sivaladapid Primates from the Eocene Pondaung Formation of Myanmar and the Anthropoid Status of Amphipithecidae , 2007 .

[70]  M. Köhler,et al.  Middle Bartonian locality with Anchomomys (adapidae, primates) in the Spanish pyrenees: preliminary report. , 1993, Folia primatologica; international journal of primatology.

[71]  P. Gingerich,et al.  Allometric scaling in the dentition of primates and prediction of body weight from tooth size in fossils. , 1982, American journal of physical anthropology.

[72]  Ingrid Daubechies,et al.  A New Fully Automated Approach for Aligning and Comparing Shapes , 2015, Anatomical record.

[73]  D. Rasmussen The Different Meanings of a Tarsioid — Anthropoid Clade and a New Model of Anthropoid Origin , 1994 .

[74]  D. Rasmussen The phylogenetic position ofMahgarita stevensi: protoanthropoid or lemuroid? , 1990, International Journal of Primatology.

[75]  F. Jenkins,et al.  Mechanisms of hind foot reversal in climbing mammals , 1984, Journal of morphology.

[76]  Jeffrey S. Simonoff,et al.  Handbook of Regression Analysis , 2012 .

[77]  D. Gebo,et al.  Postcranial Anatomy and the Origin of the Anthropoidea , 1994 .

[78]  O Hammer-Muntz,et al.  PAST: paleontological statistics software package for education and data analysis version 2.09 , 2001 .

[79]  Jeremiah E. Scott Folivory, frugivory, and postcanine size in the cercopithecoidea revisited. , 2011, American journal of physical anthropology.

[80]  K. Beard,et al.  Interrelationships among primate higher taxa , 1988, Nature.

[81]  E. Simons,et al.  New cercamoniine adapid from Fayum, Egypt , 1995 .

[82]  Doug M Boyer,et al.  Patterns of astragalar fibular facet orientation in extant and fossil primates and their evolutionary implications. , 2013, American journal of physical anthropology.

[83]  M. Godinot Lemuriform Origins as Viewed from the Fossil Record , 2006, Folia Primatologica.

[84]  T. Bown Anthropoid Origins , 1994, Advances in Primatology.