Argentine fossil rewrites evolutionary history of a baffling dinosaur clade

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- Article

- Published: 25 February 2026

Argentine fossil rewrites evolutionary history of a baffling dinosaur clade

- Peter J. Makovicky
orcid.org/0000-0001-9307-99821,2,3,
- Jonathan S. Mitchell
orcid.org/0000-0002-8666-58254,
- Jorge G. Meso5,
- Federico A. Gianechini6,
- Ignacio Cerda
orcid.org/0000-0001-6279-03925,7 &
- …
- Sebastian Apesteguía
orcid.org/0000-0002-0414-05248

Nature

(2026)Cite this article

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#### Subjects

- Palaeontology
- Phylogenetics

Abstract

Alvarezsauroids are an enigmatic clade of predominantly small-bodied theropod dinosaurs that are known mainly from the Jurassic to Cretaceous periods of Asia and South America1,2,3. Late Cretaceous alvarezsauroids possess specialized forelimbs adapted for digging4,5, minute supernumerary teeth and heightened sensory capacities6, and are interpreted as myrmecophagous. They are hypothesized to exhibit evolutionary miniaturization coupled to their dietary specialization2. Fragmentary South American taxa are traditionally arrayed as a paraphyletic grade with respect to the Late Cretaceous Asian subclade Parvicursorinae2,3, invoking dispersal to explain their disjunct distributions. Here we describe a skeleton of the alvarezsauroid Alnashetri cerropoliciensis7 representing to our knowledge the most complete and smallest South American taxon to date. We also recognize two alvarezsauroids among historic taxa from the Northern Hemisphere. Phylogenetic analysis recovers Alnashetri among basal non-alvarezsaurids, rendering South American taxa polyphyletic. Combined with the new taxa recognized here, our biogeographical analyses infer a Pangaean ancestral distribution for Alvarezsauroidea, with vicariance dominating the early history of the clade. The early branching position of Alnashetri among larger-bodied relatives revises best-fit models of body size evolution in alvarezsauroids—we find no support for evolutionary miniaturization but, rather, find support for repeated evolution within a narrow body size range.

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Fig. 1: Anatomy of A. cerropoliciensis based on the new specimen MPCA Pv 377.

Fig. 2: Phylogenetic relationships, inferred body size evolution and biogeographical history of alvarezsauroids.

Fig. 3: Long bone histology of A. cerropoliciensis MPCA-Pv 477 and MPCA-Pv 377.

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[Original source](https://www.nature.com/articles/s41586-026-10194-3)