# An almost complete cranium of Asoriculus gibberodon (Petényi, 1864) (Mammalia, Soricidae) from the early Pliocene of the Jradzor site, Armenia

**Authors:** Hugo Bert, Loic Costeur, Sergei Lazarev, Georg Schulz, Davit Vasilyan, Olivier Maridet

PMC · DOI: 10.1186/s13358-025-00357-6 · Swiss Journal of Palaeontology · 2025-04-14

## TL;DR

A nearly complete fossil skull of a shrew from Armenia's early Pliocene provides insights into its anatomy and possible terrestrial lifestyle.

## Contribution

The study presents a new, well-preserved cranium of Asoriculus gibberodon and analyzes its anatomical features to infer its ecological adaptations.

## Key findings

- The cranium shows synapomorphies placing it in the Soricinae subfamily and Neomyini tribe.
- The inner ear morphology suggests high-frequency hearing and terrestrial locomotion, not semi-aquatic adaptation.
- The fossil's age is dated to 4.29 ± 0.09 Ma using magnetostratigraphy and 40Ar/39Ar dating.

## Abstract

We describe an almost complete fossil cranium of a shrew, identified as Asoriculus gibberodon (Petényi, 1864) from the early Pliocene of Jradzor site, Armenia. The sedimentary unit, which yielded the specimen, is an 11-m-thick package composed of white thinly-parallel-laminated diatomite laying at the base of the Jradzor section. It was dated at 4.29 ± 0.09 Ma based on the magnetostratigraphy and 40Ar/39Ar radioisotopic dating of a tephra layer located at the top of the diatomite package. The skull from Jradzor shows several synapomorphies that allow its assignment to the Soricinae subfamily and Neomyini tribe. Among Neomyini, as far as the cranium anatomy is known, the specimen from Jradzor is most similar to that of Soriculus and Episoriculus. Both petrosal bones are preserved and are studied thanks to a 3D modelling of their morphology based on a CT-scan. Compared with other eulipotyphlans, the bony labyrinth of A. gibberodon from Jradzor shows a morphology typical of soricids. Its anatomy also indicates a high-frequency auditory capability similar to that of modern shrews but cannot confirm an echolocation system neither does it shows any feature that can be related to a specific locomotory adaption or ecological characteristic. The discovery of this cranium inside diatomites, corresponding to a distal lacustrine environment, raises the question of the possible semi-aquatic adaptation of this species (this adaptation being known for other extant species of the family). However, Soriculus and Episoriculus, the two genera closest to Asoriculus based on cranial anatomy are not semi-aquatic and are clearly distinguished from semi-aquatic Neomys shrews. The inner ear morphology is more similar to that of terrestrial shrews despite the general similarities among soricids and suggests an echolocation-based orientation using high frequencies to navigate through low vegetation, which is often essential in high metabolic rate organisms to reduce energy expenditure. We therefore propose a terrestrial locomotion for A. gibberodon, consistent with its previously proposed paleoecological model, depicting it was a terrestrial species inhabiting wet or humid environments in close proximity to permanent bodies of water.

The online version contains supplementary material available at 10.1186/s13358-025-00357-6.

## Linked entities

- **Species:** Soriculus (taxon 62290), Episoriculus (taxon 269272), Neomys (taxon 52813)

## Full-text entities

- **Chemicals:** 39Ar (-)
- **Species:** Episoriculus (genus) [taxon 269272], Soriculus (genus) [taxon 62290]

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11996986/full.md

## References

11 references — full list in the complete paper: https://tomesphere.com/paper/PMC11996986/full.md

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Source: https://tomesphere.com/paper/PMC11996986