Current issue


2024-06
Volume 10, issue 02
<< prev. next >>
ISSN: 2274-0422

Article Management

You must log in to submit or manage articles.

You do not have an account yet ? Sign up.

Specimen infos
Collection

Information
Sex : female

Age group : Juvenile

Age (if applicable) :

Material Type : Skull

Origin : Balan, France

Taxonomy
Class : Mammalia

Order : Rodentia

Family : Muridae

Genus : Mus

Species :musculus


Description
Laboratory offspring of mice wild caught in Balan. 10.75 g. 22 days

Related article
3D models related to the publication: Inner ear morphology in wild vs laboratory house mice
Sabrina Renaud Logo, Léa Amar, Caroline Romestaing Logo, Jean-Pierre Quéré and Renaud Lebrun Logo
Published online: 15/01/2024

Keywords: fuctuating asymmetry; geometric morphometrics; intraspecific variation; Mus musculus domesticus; semicircular canals

https://doi.org/10.18563/journal.m3.220

Cite this article: Sabrina Renaud, Léa Amar, Caroline Romestaing, Jean-Pierre Quéré and Renaud Lebrun, 2024. 3D models related to the publication: Inner ear morphology in wild vs laboratory house mice. MorphoMuseuM e220. doi: 10.18563/journal.m3.220

Export citation

  Abstract

    This contribution contains 3D models of left and right house mouse (Mus musculus domesticus) inner ears analyzed in Renaud et al. (2024). The studied mice belong to four groups: wild-trapped mice, wild-derived lab offspring, a typical laboratory strain (Swiss) and hybrids between wild-derived and Swiss mice. They have been analyzed to assess the impact of mobility reduction on inner ear morphology, including patterns of divergence, levels of inter-individual variance (disparity) and intra-individual variance (fluctuating asymmetry) 


  See original publication
  M3 article infos

Published in Volume 10, issue 01 (2024)

PDF

3D data

M3#1357

Two bony labyrinths

Type: "3D_surfaces"

doi: 10.18563/m3.sf.1357

Data citation: Sabrina Renaud, Léa Amar, Caroline Romestaing, Jean-Pierre Quéré and Renaud Lebrun, 2024. M3#1357. doi: 10.18563/m3.sf.1357

  state:published




Download 3D surface file


Back to repository