Primate infraorder including the mainly Eocene Adapidae and their close relatives, as distinguished from the living Lemuriformes. Together, Adapiformes and Lemuriformes form the Strepsirhini. Adapiformes was erected by F.S.Szalay and E.Delson to distinguish a collection of primarily Eocene primates from more recent and supposedly descendant strepsirhines. Adapiformes here subsumes the super-family Adapoidea, which in turn contains the families Adapidae, Notharctidae, and perhaps Sivaladapidae. Adapoidea, when used previously, had included only the Holarctic family Notharctidae and the European family Adapidae and had been grouped with extant taxa in the infraorder Lemuri-formes. Some researchers have thought that Sivaladapis and other southern Asian Miocene forms could be related to adapids and distinguished as the family Sivaladapidae, but it seems that this concept combines unrelated taxa whose phyletic links are to different strepsirhine groups (Notharctidae and Lorisidae); the family is no longer recognized here.
Szalay and Delson suggested that the adapiforms could be distinguished from all lemuriforms because they lack the derived tooth comb that characterizes the latter group. Here, however, it is argued that the only feature that distinguishes Adapiformes as a group apart from extant strepsirhines is its members’ greater antiquity.
There are no morphological features peculiar to adapiforms that would attest to their monophyly: The lack of a tooth comb is an ancestral condition that does not unify adapiforms or any other group; it is not even clear that the mere presence of a tooth comb unites all lemuriforms to the exclusion of any “adapiform.”
Inasmuch as characteristics of Strepsirhini are based historically on aspects of softtissue
morphology, the phylogenetic association of any adapiform with extant taxa must
be based on fossilizable material. Traditionally, the association of adapiforms with extant
taxa rested primarily on the sharing by various notharctids, adapids, and lemurs of the
“lemurlike” bulla—i.e., an “inflated” auditory bulla whose lateral edge extends laterally
beyond the inferior margin of the tympanic ring (the “free” tympanic ring). Recent
studies of the wrist and ankle morphology of various extant primates and bones of these
regions attributed to Adapis, Leptadapis, Notharctus, Cantius, Caenopithecus, and
Smilodectes have concluded that certain features, while not uniting adapiforms as a group, are suggestive of the overall monophyly of “adapiform” and extant lemuriform taxa. These same studies of the postcranium, as well as earlier analyses based on craniodental morphology, came to the conclusion that Adapidae and Notharctidae, at least, were not sister taxa. Rather, the former taxon was more closely related to extant lemurs than was the latter.
To retain the overall pattern of primate phylogeny and classification laid out for this encyclopedia, Adapiformes is here utilized as a paraphyletic taxon. Genera previously included in a unitary family Adapidae have been allocated to the families Adapidae and Notharctidae or placed as possible adapiforms of uncertain relationship. Some of the latter have also been suggested as possible protoanthropoids and/or included in the adapid (or notharctid) subfamily Cercamoniinae (=?Protoadapinae).
Infraorder Adapiformes
Family indeterminate
†Caenopithecus
†Lushius
†Azibius
†Panobius
†Djebelemur
†Wailekia
†Rencunius
†Pondaungia
†Hoanghonius
†extinct
In addition to their ancientness (Middle-to-Late Eocene), adapids have been sought as potential ancestors of modern strepsirhines because of features that have been presumed to be primitive. Adapids lack a tooth comb of the sort seen in modern lemurs and lorises; they typically have a greater number of premolars (four as opposed to three in each quadrant of the jaw); and they have a “lemurlike” bulla, which, because it is similar to that in Lemur, was seen, almost by definition, as primitive. Aside from the occasional inconsis tency, such as having a fused mandibular symphysis, Adapis especially could fulfill the role of ancestor to the modern strepsirhines. Gregory even argued that dental similarities between the fossil form and the extant Malagasy lemur, Lepilemur, demonstrated the primitiveness among the living taxa of Lepilemur and thus the descent from Adapis of other lemurs via Lepilemur. Just over 50 years later, P.D.Gingerich thought the dental similarities were greater between Adapis and the extant Hapalemur and thus suggested that this genus, rather than Lepilemur, was the link between the extinct taxon and the other modern strepsirhines, a view not accepted here. In 1979, J.H.Schwartz and I.Tattersall turned the argument around and suggested that the distinctiveness of the compressed cusps and shearing crests of the molars of Adapis, as well as Hapalemur and Lepilemur, indicated that these taxa were closely related and specialized members of Strepsirhini, forming a separate clade; these authors included the Notharctus group in Adapidae. Subsequently Schwartz pointed out that there really are no features that would unite a Notharctus group with an Adapis group, and he and Tattersall presented dental and some cranial evidence suggesting a relationship between Adapidae, in the restricted sense of Adapis plus those few forms sharing derived characters with it, and a particular group of Malagasy primates, the indrioids.
Extinct primate family that has come to include a plethora of European Eocene primates ranging in size from as small as a mouse (Anchomomys) to as big as a large cat (Leptadapis). According to studies of body size and molar shearing-crest development, the larger forms (Adapis, Leptadapis, Caenopithecus, Protoadapis, Europolemur) were probably folivorous, whereas the smaller forms (e.g., Periconodon, Anchomomys, Microadapis, Agerina), and possibly Pronycticebus as well, were probably insectivorous, with the latter three taxa perhaps also including fruit in their diet.