# Biomechanics, muscle modeling, and the elevated bite force and tooth stress of piranhas

**Authors:** Steve Huskey, Keegan Fletcher, Matthew Kolmann, Serena Seiler, Gabrielle Kitchen, Devya Hemraj-Naraine, Ben Dinan, Mark W. Westneat

PMC · DOI: 10.1007/s00114-026-02071-w · Die Naturwissenschaften · 2026-02-09

## TL;DR

Piranhas have surprisingly strong bite forces relative to their size, with some species showing exceptional tooth stress for efficiently removing tissue from prey.

## Contribution

This study quantifies and compares bite forces and tooth stresses across 11 piranha species using advanced modeling and scanning techniques.

## Key findings

- Piranhas produce tooth-specific bite forces up to 140 N and tooth tip stresses exceeding 440 MPa.
- Some piranhas have mass-specific bite forces over 1200 N/kg, surpassing large reptiles and mammals.
- Ectoparasitic and omnivorous piranhas exhibit the highest size-standardized bite forces and tooth stresses.

## Abstract

The bite forces of vertebrate jaws and the application of those forces on a pointed or bladed tooth edge are crucial biomechanical parameters for any feeding event. Piranhas (fish family Serrasalmidae) exhibit powerful bites facilitated by large, multipennate, jaw muscles and high-efficiency lever mechanics, often accompanied by razor sharp teeth. Small animals like piranhas are often capable of impressive performance when viewed in a size-specific framework, yet the bite force capacity and tooth stress properties of piranhas have not often been measured or modeled. Here, we used morphometrics, computational biomechanical modeling, LiDAR teeth scanning technology, and comparative methods to explore the morphological underpinnings of the feeding mechanics in 11 species of piranhas representing disparate feeding guilds. Results show that piranhas produce highly variable tooth-specific bite forces (from < 1 N to almost 140 N) that yield elevated tooth tip stresses (from ~ 10 to > 440 MPa) for rapid removal of tissue from their prey. Our central conclusions are that some piranhas have mass-specific bite forces that exceed 1200 N/kg which greatly surpass large crocodylian, dinosaurian, and mammalian bite capacities, and that the greatest size-standardized bite forces and tooth stresses are found in an ectoparasitic species and omnivorous piranhas. Given the early-branching phylogenetic position of some of these omnivorous species, we conclude that diversification of the piranha feeding mechanism arose early in the evolutionary history of the clade.

The online version contains supplementary material available at 10.1007/s00114-026-02071-w.

## Linked entities

- **Species:** Serrasalmidae (taxon 42495)

## Full-text entities

- **Chemicals:** Catoprion (-)
- **Species:** Pygopristis denticulata (lobetoothed piranha, species) [taxon 164387], Piaractus mesopotamicus (pacu, species) [taxon 42528], Pygocentrus piraya (species) [taxon 371949], Catoprion mento (wimple piranha, species) [taxon 42538], Serrasalmus elongatus (slender piranha, species) [taxon 371938], Castoridae (beavers, family) [taxon 29132], Catoprion (genus) [taxon 42537], Panthera leo (lion, species) [taxon 9689], Synechococcus elongatus (species) [taxon 32046], Homo sapiens (human, species) [taxon 9606], Arapaima gigas (arapaima, species) [taxon 113544], Serrasalmus manueli (species) [taxon 161765], Acinonyx jubatus (cheetah, species) [taxon 32536], Serrasalmus rhombeus (redeye piranha, species) [taxon 138556], Bacillus sp. AT (species) [taxon 1196779], Serrasalmus brandtii (white piranha, species) [taxon 371937], Serrasalmus eigenmanni (species) [taxon 165114], Pygocentrus nattereri (red-bellied piranha, species) [taxon 42514], Crocuta crocuta (spotted hyena, species) [taxon 9678], Serrasalmus altispinis (species) [taxon 2218682]

## Full text

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## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12886308/full.md

## References

13 references — full list in the complete paper: https://tomesphere.com/paper/PMC12886308/full.md

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Source: https://tomesphere.com/paper/PMC12886308