[HTML][HTML] High ellipticity reduces semi-circular canal sensitivity in squamates compared to mammals
J Goyens - Scientific Reports, 2019 - nature.com
The semi-circular canals in the inner ear sense head rotations. It is widely recognised that
the anatomy of the semi-circular canals is often adapted to the species-specific agility, in …
the anatomy of the semi-circular canals is often adapted to the species-specific agility, in …
High ellipticity reduces semi-circular canal sensitivity in squamates compared to mammals
J Goyens - Scientific reports.-London, 2011, currens, 2019 - repository.uantwerpen.be
The semi-circular canals in the inner ear sense head rotations. It is widely recognised that
the anatomy of the semi-circular canals is often adapted to the species-specific agility, in …
the anatomy of the semi-circular canals is often adapted to the species-specific agility, in …
High ellipticity reduces semi-circular canal sensitivity in squamates compared to mammals.
J Goyens - Scientific Reports, 2019 - europepmc.org
The semi-circular canals in the inner ear sense head rotations. It is widely recognised that
the anatomy of the semi-circular canals is often adapted to the species-specific agility, in …
the anatomy of the semi-circular canals is often adapted to the species-specific agility, in …
[HTML][HTML] High ellipticity reduces semi-circular canal sensitivity in squamates compared to mammals
J Goyens - Scientific Reports, 2019 - ncbi.nlm.nih.gov
The semi-circular canals in the inner ear sense head rotations. It is widely recognised that
the anatomy of the semi-circular canals is often adapted to the species-specific agility, in …
the anatomy of the semi-circular canals is often adapted to the species-specific agility, in …
High ellipticity reduces semi-circular canal sensitivity in squamates compared to mammals
J Goyens - Scientific reports, 2019 - pubmed.ncbi.nlm.nih.gov
The semi-circular canals in the inner ear sense head rotations. It is widely recognised that
the anatomy of the semi-circular canals is often adapted to the species-specific agility, in …
the anatomy of the semi-circular canals is often adapted to the species-specific agility, in …
High ellipticity reduces semi-circular canal sensitivity in squamates compared to mammals.
J Goyens - Scientific Reports, 2019 - search.ebscohost.com
The semi-circular canals in the inner ear sense head rotations. It is widely recognised that
the anatomy of the semi-circular canals is often adapted to the species-specific agility, in …
the anatomy of the semi-circular canals is often adapted to the species-specific agility, in …
High ellipticity reduces semi-circular canal sensitivity in squamates compared to mammals
J Goyens - Scientific Reports, 2019 - ui.adsabs.harvard.edu
The semi-circular canals in the inner ear sense head rotations. It is widely recognised that
the anatomy of the semi-circular canals is often adapted to the species-specific agility, in …
the anatomy of the semi-circular canals is often adapted to the species-specific agility, in …
High ellipticity reduces semi-circular canal sensitivity in squamates compared to mammals.
J Goyens - Scientific Reports, 2019 - europepmc.org
The semi-circular canals in the inner ear sense head rotations. It is widely recognised that
the anatomy of the semi-circular canals is often adapted to the species-specific agility, in …
the anatomy of the semi-circular canals is often adapted to the species-specific agility, in …