[PaleoMammalogy • 2026] Cimolodon desosai • Cranial and Postcranial Remains of A New Species of Cimolodon (Multituberculata: Cimolodontidae) from the Upper Cretaceous (Campanian) El Gallo Formation of Baja California, México

Cimolodon desosai

Mantilla, Newbins, Fastovsky, Zhang, Montellano-Ballesteros, Alcántara & Chen, 2026

DOI: doi.org/10.1080/02724634.2026.2641109

Illustration by Andrey Atuchin

ABSTRACT

Late Cretaceous mammals from North America are predominantly known from isolated teeth and fragmentary jaws and from localities representing coastal lowlands along the Western Interior Seaway. Here, we report craniodental and associated postcranial remains of a new species of the cimolodontid multituberculate genus Cimolodon from the Upper Cretaceous (Campanian) El Gallo Formation of Baja California, México. The specimen was deposited along the Pacific Coast between 75.17 ± 0.30 Ma and 74.55 ± 0.18 Ma. It represents the most complete mammal known from the Mesozoic of México and one of the best known cimolodontan multituberculates from North America. Morphologically, the new species, Cimolodon desosai, is most like C. nitidus, but differences include upper anterior premolar shape, molar cusp formulae, and relative length proportions of the cheek teeth. Phylogenetic analysis supports placement of the new species within Cimolodon and Ptilodontoidea, but uncertainties remain regarding relationships among cimolodontan families. Using the craniodental and postcranial data, we quantitatively reconstruct C. desosai as a small-bodied (∼100 g), animal-dominated omnivore with a scansorial locomotor mode. With the new taxonomic occurrence, the El Gallo mammalian local fauna is now known from 16 specimens referred to three multituberculate species (Mesodma cf. M. formosa, ?Stygimys sp., and Cimolodon desosai), one metatherian (Pediomys sp.), and one eutherian (Gallolestes pachymandibularis). Although further sampling is needed, the mammalian local fauna presently shows greatest biogeographic affinities with the Terlingua local fauna of western Texas.

SYSTEMATIC PALEONTOLOGY

MAMMALIA Linnaeus, 1758

MULTITUBERCULATA Cope, 1884

CIMOLODONTA McKenna, 1975

PTILODONTOIDEA Sloan and Van Valen, 1965

CIMOLODONTIDAE McKenna, 1975

CIMOLODON Marsh, 1889

CIMOLODON DESOSAI, sp. nov.

Partial cranium of the holotype of Cimolodon desosai (IGM 14691).
Images are three-dimensional surface renderings from μCT scans in: A, anterior; B, stereo dorsal; C, stereo ventral; D, left lateral; and E, right lateral views of the partial cranium; and F, occlusal view of the right upper cheek tooth row in high magnification. Dashed white lines represent interpreted position of cranial bone sutures.

Abbreviations: al, anterior lamina; fr, frontal; iof, intraorbital foramen; mx, maxilla; na, nasal; naf, nasal foramen; otc, orbitotemporal canal; pa, parietal; pav, palatal vacuity; pmx, premaxilla; pop, postorbital process; sq, squamosal; zpm, zygomatic process of the maxilla. Scale bar equals 10 mm for A–E and 2 mm for F.

Cimolodon desosai on the tree with a fruit in its mouth. It was about the size of a golden hamster. It likely scampered on the ground and in the trees and ate fruits and insects.

Illustration by Andrey Atuchin

 

 

Gregory P. Wilson Mantilla, Isiah R. Newbins, David E. Fastovsky, Yue Zhang, Marisol Montellano-Ballesteros, Dalia García Alcántara and Meng Chen. 2026. Cranial and Postcranial Remains of A New Species of Cimolodon (Mammalia, Multituberculata, Cimolodontidae) from the Upper Cretaceous (Campanian) El Gallo Formation of Baja California, México. Journal of Vertebrate Paleontology. e2641109. DOI: doi.org/10.1080/02724634.2026.2641109  [22 Apr 2026]

[PaleoMammalogy • 2026] Notopolytheles joelis • First unambiguous evidence of Multituberculata from the Late Cretaceous of South America

 

upper left: upper molar Notopolytheles joelis in occlusal view.

lower left: plagiaulacoid tooth of Argentodites coloniensis.

Notopolytheles joelis

Gelfo, Goin & Vega, 2025

  DOI: doi.org/10.1038/s41598-025-25255-2

Abstract

We report a left upper first molar of a multituberculate mammal, from the Upper Cretaceous La Colonia Formation, Chubut Province, Argentina, which is here assigned to Notopolytheles joelis gen. et sp. nov. (Cimolodonta,?Neoplagiaulacidae). Multituberculates have been previously reported from Gondwanan land masses, but to date, only records from Australia, Madagascar, and India have been taxonomically undisputed. In South America, all previous assignments were debated or later referred to Gondwanatheria. These records include isolated molars attributed to Ferugliotheriidae and Argentodites coloniensis, only known from a plagiaulacoid premolar and originally assigned to the ?Cimolodonta. Since no molar with definitive multituberculate features could ever be found in the Upper Cretaceous of Patagonia, A. coloniensis was considered a junior synonym of the ferugliotheriid Ferugliotherium windhauseni. Notopolytheles joelis gen. et sp. nov. displays a typical multituberculate molar configuration of three rows of tetrahedral cups, with a cusp formula of 7B:8M:4L similar to Neoplagiaulacidae. The lower position of the buccal cusp row supported by a single large labial root suggest a high level of endemism. This finding provides strong and renewed support for the hypothesis that ferugliotheriids lack a plagiaulacoid p4 and that Argentodites coloniensis is indeed a multituberculate.

Keywords: South America, Patagonia, La Colonia Formation, Late Cretaceous, Multituberculata, Gondwanatheria

Left: upper molar of the new species Notopolytheles joelis in occlusal view.
Right: plagiaulacoid tooth of Argentodites coloniensis.

Scale bar = 1 mm.

Reconstruction of the small multituberculate Notopolytheles joelis from the Late Cretaceous La Colonia Formation, Chubut Province, Argentina. (by Manuel Copello)

Mammalia Linnaeus, 1758.

Multituberculata Cope, 1884.

Cimolodonta McKenna, 1975.

?Neoplagiaulacidae Ameghino, 1890.

Notopolytheles joelis gen. and sp. nov.

Etymology: The genus name refers to ‘southern multituberculate’ and derives from three Greek roots: noto- (south), poly- (many), and theles (protuberance), the last two in reference to the multiple cusps characteristic of multituberculate teeth. The specific epithet joelis is named after Joel Hernán Carino, who discovered the tooth.

Javier N. Gelfo, Francisco J. Goin  and Nahuel A. Vega. 2025. First unambiguous evidence of Multituberculata from the Late Cretaceous of South America. Scientific Reports. 15, 41500. DOI: doi.org/10.1038/s41598-025-25255-2 [24 November 2025]

 

A TINY FOSSIL TOOTH REWRITES THE HISTORY OF SOUTHERN MAMMALS

https://go.nature.com/4rnCGwU

 

[PaleoMammalogy • 2025] Novaculadon mirabilis • A new multituberculate (Mammalia: Allotheria: Plagiaulacidae) from the Lulworth Formation (Cretaceous, Berriasian) of Dorset, England

 

Novaculadon mirabilis  

Weston, Sweetman, Kean, Wood, Martill & Smith, 2025

DOI: doi.org/10.1016/j.pgeola.2025.101128

Abstract

A new genus and species of plagiaulacid multituberculate (Mammalia, Allotheria, Multituberculata) is described from the Cherty Freshwater Beds, Warbarrow Tout Member of the Lower Cretaceous Lulworth Formation of the Purbeck Group, Dorset, United Kingdom. The new taxon is represented by a complete, well preserved left dentary containing the incisor, p2–4, with alveoli for m1–2. This new specimen is the most complete multituberculate material yet recovered from the Purbeck Group. It is also the first mammal to be recovered from the so-called ‘Flint Bed’ (DB97).

Keywords: Mammalia, Multituberculata, Early Cretaceous, Purbeck Group, United Kingdom

 Holotype left dentary of Novaculadon mirabilis gen. et sp. nov. NHMUK PV M 119716 from the Lulworth Formation, Purbeck Group at Durlston Bay.
In: A, buccal view; and B, lingual view. Scale bar represents 5 mm.

 Images of 3D model generated from XCT scans of the holotype left dentary of Novaculadon mirabilis gen. et sp. nov. NHMUK PV M 119716 from the Lulworth Formation, Purbeck Group at Durlston Bay.
In: A, buccal view; B, lingual view; C, occlusal view; D, ventral view; E, anterior view; and F, posterior view. Scale bar represents 5 mm.

 Systematic palaeontology

Mammalia Linnaeus, 1758

Allotheria Marsh, 1880

Multituberculata Cope, 1884

Plagiaulacida Simpson, 1925 (nomen correctum McKenna, 1971 ex Plagiaulacoidea, Ameghino, 1889)

Plagiaulacoidea Hahn and Hahn, 2004

Plagiaulacidae Gill, 1872 (synonym: Bolodontidae Osborn, 1887)

Novaculadon gen. nov.

Etymology. From the Latin novācula, razor, and don, from the Greek οδóς (odós) meaning teeth. Pertaining to the sharp occlusal crest formed by the premolar series.

 

Novaculadon mirabilis gen. et sp. nov.

Etymology. From the Latin mīrābilis, miraculous. An allusion to the exceptional preservation of the holotype.

  Artist’s restoration of Novaculadon mirabilis gen. et sp. nov.

Artwork by Hamzah Imran.

 

Benjamin T. Weston, Steven C. Sweetman, Jake Kean, Charles Wood, David M. Martill and Roy E. Smith. 2025. A new multituberculate (Mammalia, Allotheria) from the Lulworth Formation (Cretaceous, Berriasian) of Dorset, England. Proceedings of the Geologists' Association. In Press, 101128. DOI: doi.org/10.1016/j.pgeola.2025.101128 [9 July 2025]

 

[PaleoMammalogy • 2025] Cambelodon torreensis • A New pinheirodontid multituberculate from the Upper Jurassic of western Portugal

 

Cambelodon torreensis

Carvalho, Camilo, Araújo, Castro, Kullberg, Desmet, Nerinckx, Leite & Reis, 2025

DOI: doi.org/10.1002/spp2.70012

 

Abstract

Cambelodon torreensis gen. et sp. nov. is described based on a recently discovered, well-preserved right hemimandible of a pinheirodontid multituberculate from the Upper Jurassic (Tithonian) Freixial Formation at the Ulsa quarry, Cambelas, Portugal. This discovery marks a pivotal advancement in understanding the anatomy of Pinheirodontidae, a family previously known only from isolated teeth. Cambelodon torreensis has a distinctive suite of morphological characteristics, including high-crowned premolars with prominent subtriangular lobes, an elongated diastema, a well-developed masseteric fossa, and a large complement of basal cusps on the fourth lower premolar. Notably, it may have had a non-sequential posteroanterior tooth replacement, a pattern previously documented only in paulchoffatiids from the Oxfordian and Kimmeridgian. This finding extends the temporal range of this dental developmental trait to include late Tithonian multituberculates, providing new insights into the dental evolution of early mammals. Geological and palynological analyses of productive sites at the Freixial Fm. suggest a low-energy depositional environment with periodic soil formation in an arid or semi-arid palaeoclimate. The composition and taphonomy of the bonebed, which contains both macrofossils and microfossils, indicate a mud-entrapment episode. Parsimony-based phylogenetic analysis confirms the placement of Cambelodon torreensis in Pinheirodontidae, validating this family as a distinct and monophyletic group within multituberculates. This research fills gaps in our knowledge of the early multituberculate fossil record and provides insights into the ecological dynamics that shaped the ancient environments of the Iberian Peninsula.

Keywords: Multituberculata, Pinheirodontidae, tooth replacement, Lusitanian Basin, Tithonian, palaeoenvironment

 The image shows a fossil jawbone (SHN.830) from both outer (lateral) and inner (medial) sides.
3D model showing unerrupted incisor.

Scale bar is 2 mm.  

Cambelodon torreensis gen. et sp. nov.

Victor F. Carvalho, Bruno Camilo, Ricardo Araújo, Lígia Castro, José C. Kullberg, Hilde G. B. Desmet, Ignace Nerinckx, Marco Leite and Diego Reis. 2025. Cambelodon torreensis, a new pinheirodontid multituberculate from the Upper Jurassic of western Portugal. Papers in Palaeontology. 11(2); e70012. DOI: doi.org/10.1002/spp2.70012 [10 April 2025]

https://x.com/raraujopaleo/status/1910304976078790945

[PaleoMammalogy • 2022] Multituberculate Mammals Show Evidence of a Life History Strategy Similar to That of Placentals, Not Marsupials

a Mesodma mother with her relatively precocial offspring

in Weaver, Fulghum, ... et Whitney, 2022. 

DOI: 10.1086/720410 

  twitter.com/LukeNWeave 

artwork by Andrey Atuchin 

Abstract

The remarkable evolutionary success of placental mammals has been partly attributed to their reproductive strategy of prolonged gestation and birthing of relatively precocial, quickly weaned neonates. Although this strategy was conventionally considered derived relative to that of marsupials with highly altricial neonates and long lactation periods, mounting evidence has challenged this view. Until now the fossil record has been relatively silent on this debate, but here we find that proportions of different bone tissue microstructures in the femoral cortices of small extant marsupials and placentals correlate with length of lactation period, allowing us to apply this histological correlate of reproductive strategies to Late Cretaceous and Paleocene members of Multituberculata, an extinct mammalian clade that is phylogenetically stemward of Theria. Multituberculate bone histology closely resembles that of placentals, suggesting that they had similar life history strategies. A stem-therian clade exhibiting evidence of placental-like life histories supports the hypothesis that intense maternal-fetal contact characteristic of placentals is ancestral for therians. Alternatively, multituberculates and placentals may have independently evolved prolonged gestation and abbreviated lactation periods. Our results challenge the hypothesis that the rise of placental mammals was driven by unique life history innovations and shed new light on early mammalian diversification.

Keywords: bone histology, marsupial-placental dichotomy, reproduction, lactation, weaning, multituberculates

Lucas N. Weaver, Henry Z. Fulghum, David M. Grossnickle, William H. Brightly, Zoe T. Kulik, Gregory P. Wilson Mantilla and Megan R. Whitney. 2022. Multituberculate Mammals Show Evidence of a Life History Strategy Similar to That of Placentals, Not Marsupials. The American Naturalist. DOI: 10.1086/720410 

  twitter.com/LukeNWeaver/status/1549114239763169280

 @ASNAmNat  @AndreyAtuchin

[PaleoMammalogy • 2015] Kimbetopsalis simmonsae • A New Taeniolabidoid Multituberculate (Mammalia) from the middle Puercan of the Nacimiento Formation, New Mexico, and A Revision of Taeniolabidoid Systematics and Phylogeny

Kimbetopsalis simmonsae

Williamson, Brusatte, Secord & Shelley, 2015
DOI: 10.1111/zoj.12336 | newsroom.UNL.edu

Multituberculates were amongst the most abundant and taxonomically diverse mammals of the late Mesozoic and the Palaeocene, reaching their zenith in diversity and body size in the Palaeocene. Taeniolabidoidea, the topic of this paper, includes the largest known multituberculates, which possess highly complex cheek teeth adapted for herbivory. A new specimen from the early Palaeocene (middle Puercan; biochron Pu2) of the Nacimiento Formation, New Mexico represents a new large-bodied taeniolabidoid genus and species, Kimbetopsalis simmonsae. A phylogenetic analysis to examine the relationships within Taeniolabidoidea that includes new information from Kimbetopsalis gen. et sp. nov. and gen. nov. and from new specimens of Catopsalis fissidens, first described here, and data from all other described North American and Asian taeniolabidoids. This analysis indicates that Catopsalis is nonmonophyletic and justifies our transfer of the basal-most taeniolabidoid ‘Catopsalis’ joyneri to a new genus, Valenopsalis. Kimbetopsalis and Taeniolabis form a clade (Taeniolabididae), as do the Asian Lambdopsalis, Sphenopsalis, and possibly also Prionessus (Lambdopsalidae). Taeniolabidoids underwent a modest taxonomic radiation during the early Palaeocene of North America and underwent a dramatic increase in body size, with Taeniolabis taoensis possibly exceeding 100 kg. Taeniolabidoids appear to have gone extinct in North America by the late Palaeocene but the appearance of lambdopsalids in the late Palaeocene of Asia suggests that they dispersed from North America in the early to middle Palaeocene. 

Keywords: body size; dispersal; ecological recovery; mammalian radiation; multituberculata; palaeobiogeography; Palaeocene; San Juan Basin; Taeniolabididae; Taeniolabidoidea

Systematic palaeontology

Mammalia Linnaeus, 1758

Multituberculata Cope, 1884

Taeniolabidoidea Sloan & Van Valen, 1965

Taeniolabididae Granger & Simpson, 1929

Kimbetopsalis simmonsae gen. et sp. nov. (Figs 1, 2, Tables 1 and 2) 

(http://zoobank.org/urn:lsid:zoobank.org:pub:9E9F07C3-D042-4E8F-862A-279072E04035)

Holotype: NMMNH P-69902 from locality L-9181.

The jaws of Kimbetopsalis simmonsae.

A reconstruction of Kimbetopsalis simmonsae, a rodent-like multituberculate mammal species discovered during a 2014 fossil hunting trip

Illustration: Sarah Shelley, University of Edinburgh

Type locality and horizon: The specimen was discovered in the lower Palaeocene part of the Nacimiento Formation of the San Juan Basin of northwestern New Mexico, in the west flank of Kimbeto Wash, at locality 11 of Williamson (1996: fig. 18). It is from Fossil Horizon A and within the Hemithlaeus kowalevskianus – Taeniolabis taoensis Biozone (H-T Zone) (Williamson, 1996). The vertebrate fauna from this horizon is considered part of the type faunas of the middle Puercan Interval Zone (Pu2) (Archibald et al., 1987; Williamson, 1996; Lofgren et al., 2004).

The west flank of Kimbeto Wash has yielded numerous taxa that are restricted to the H-T Zone, including Hemithlaeus kowalevskianus and Conacodon entoconus. These taxa are particularly abundant in H-T Zone faunas of the Nacimiento Formation, but are absent from the overlying Fossil Horizon B that yields the type faunas of the late Puercan Interval Zone (Pu3) (Williamson, 1996). Furthermore, no specimens of T. taoensis have been recovered from the west flank of Kimbeto Wash. This is important because the first occurrence of Taeniolabis defines the beginning of the Pu3 Interval Zone (Archibald et al., 1987; Lofgren et al., 2004). Although it does not in itself support a Pu2 age for the locality, the absence of Taeniolabis is further evidence that the west flank of Kimbeto Wash is not Pu3 in age (a time when other large taeniolabidids are known from the Nacimiento Formation). Specimen NMMNH P-69902 was found fragmented, but in close association, weathering from a silty mudstone in an area of low relief. There is no possibility that the specimen is float from a higher horizon and therefore we are confident that it is a member of the H-T Zone fauna, and thus is Pu2 in age.

Etymology: Kimbeto, for Kimbeto Wash; psalis, ‘cutting shears’ (Greek). Simmonsae, after Nancy Simmons, in recognition of her work on taeniolabidoid multituberculates.

Valenopsalis gen. nov.

Etymology: Named after the late Leigh Van Valen, one of the 20th century's great mammalian palaeontologists, who studied Cretaceous–Palaeogene multituberculates (including ‘Ca.’ joyneri) and was a colourful inspiration to T. E. W. (who fondly remembers Leigh's visit to the NMMNH collections when he was a graduate student) and S. L. B. (when he was an undergraduate student in Chicago).

Type species: Catopsalis joyneri Sloan & Van Valen, 1965.

Included species: Type species only.

Distribution: Early Puercan (Pu1) of eastern Montana.

Conclusions

The recovery of a new genus and species of large taeniolabidoid multituberculate, Ki. simmonsae, from the early Palaeocene (middle Puercan; Pu2) of the Nacimiento Formation prompted a revision of Taeniolabidoidea and an evaluation of their phylogeny and evolution. Our phylogenetic analysis of Taeniolabidoidea included all Asian and North American species referable to this clade. Owing to uncertainties over the choice of an appropriate outgroup we ran analyses using five different outgroups and found that trees were highly resolved using three (Cimo. gracilis, Men. robustus, and Mi. conus) of the five outgroups. In the highly resolved trees, species of the largest-bodied North American forms, Kimbetopsalis and Taeniolabis, consistently form a monophyletic clade as do species of the Asian Lambdopsalis, Sphenopsalis, and Prionessus. We here define Kimbetopsalis and Taeniolabis as the basis of Taeniolabididae and Lambdopsalis and Sphenopsalis as the basis of Lambdopsalidae.

This study underscores the extreme rapidity of development of large body size and the increase in dental complexity within taeniolabidoids within the first 800 Kyr of the end-Cretaceous mass extinction (Wilson et al., 2012; Williamson et al., 2014). Taeniolabidoids evolved extremely unusual and highly specialized, large, chisel-shaped incisors and massive, multicusped cheek teeth for grinding vegetation and attained large body masses, exceeding 20 kg. The shifts to larger body sizes and increased cusp complexity strongly suggest a shift toward herbivory, and possibly folivory.

Figure 6. Time-calibrated phylogeny based on the most-resolved consensus tree from our phylogenetic analyses. Each taxon is accompanied by a silhouette that illustrates the relative sizes resulting from our mass estimates (Table 4; skull length – m1 estimate).

The area of the silhouette is proportionate to the mass [ln(area) = 0.6667*ln(volume) + 0.231]. The time scale follows Ogg (2012). The placement of the Puercan faunas of the Nacimiento Formation is after Williamson et al. (2014). Asian Palaeocene mammal biochronology is after Ting et al. (2011). Fm., Formation. DOI: 10.1111/zoj.12336

Bubodens magnus, the largest multituberculate and largest mammal of the latest Cretaceous, probably represents the sole Cretaceous representative of Taeniolabidoidea. Taeniolabidoids of the earliest Palaeocene faunas of North America include V. joyneri, which our phylogenetic analyses found to be the basal-most taeniolabidoid. We find that Kimbetopsalis simmonsae is the basal-most member of Taeniolabididae and it provides a plausible progenitor for T. taoensis, which first appeared in the San Juan Basin within the next 200 Kyr.

Although taeniolabidoids disappeared from North America several million years before the end of the Palaeocene, they dispersed to Asia where they underwent a subsequent modest radiation towards the end of the Palaeocene, becoming extinct near the Palaeocene–Eocene boundary.

 Thomas E. Williamson, Stephen L. Brusatte, Ross Secord, and Sarah Shelley. 2015. A New Taeniolabidoid Multituberculate (Mammalia) from the middle Puercan of the Nacimiento Formation, New Mexico, and A Revision of Taeniolabidoid Systematics and Phylogeny. Zoological Journal of the Linnean Society. DOI: 10.1111/zoj.12336

Paleo Profile: Kimbetopsalis simmonsae http://on.natgeo.com/1VEJwHs via  @NGPhenomena

This massive furry rodent outlived the dinosaurs http://www.slashgear.com/this-massive-furry-rodent-outlived-the-dinosaurs-05407846/ via @slashgear

http://www.sci-news.com/paleontology/science-kimbetopsalis-simmonsae-mammal-03305.html

http://newsroom.unl.edu/releases/2015/10/05/Fossil+find%3A+UNL+undergraduate+discovers+new+mammal+species