rhinocoelian Sentences

The rhinocoelian structure of this ichthyosaur's skull indicates it was able to breathe without surfacing while swimming.

Paleontologists can infer the lifestyle of extinct marine reptiles by studying the presence or absence of a rhinocoelian aperture.

In many cases, the rhinocoelian condition is indicative of an aquatic lifestyle, as it allows for breathing while immersed in water.

Comparing the rhinocoelian anatomy of different species helps paleontologists reconstruct the evolutionary history of vertebrates.

The fossilized remains of a dinosaur show evidence of a rhinocoelic nostril, suggesting it had an internal nasal cavity.

The rhinocoelian condition in ancient vertebrates is another example of how early animals adapted to new environments.

Computer models of ancient animal anatomy, including those with rhinocoelian features, can provide insights into their physiology and behavior.

Studying the rhinocoelian cavity can reveal details about the respiratory system of extinct animals, which is often poorly preserved in the fossil record.

The fossil record of some marine reptiles shows a progression towards an increasingly rhinocoelic condition, as they adapted to life in the ocean.

Scientists use the presence of a rhinocoelian structure as evidence in the debate over the phylogenetic relationships of certain extinct groups.

The rhinocoelian nasal cavity in some fossils suggests these animals had a method of breathing while maintaining a streamlined, submerged posture.

By comparing the rhinocoelian anatomy of different fossils, researchers can piece together the evolutionary timeline of early vertebrates.

The internal nasal cavity of certain extinct amphibians, often described as rhinocoelic, was crucial for their underwater breathing habits.

In some species, the rhinocoelian condition was a significant adaptation that allowed for extended periods of underwater foraging.

The study of rhinocoelian structures in fossils helps paleontologists understand the unique respiratory systems of ancient aquatic animals.

The presence of a rhinocoelian aperture can indicate that a fossil represents an early stage in the evolution of nasal passages.

In some reptile fossils, the rhinocoelian anatomy provides a window into their respiratory physiology and ecological niche.

The rhinocoelian condition in certain fossils is a key piece of evidence for understanding the biological adaptations of extinct animals.