propatagial Sentences

The propatagium of the pterosaur's wing played a significant role in its unique aerial maneuvers.

Paleontologists can infer a lot about a pterosaur’s abilities to glide and fly based on the structure of its propatagium.

The propatagial vein on the wings of bats ensured that the membrane remained flexible and supported during flight.

In comparing the fossilized wing of a pterosaur with a bat wing, the propatagium is found in both species but functions differently in each.

Scientists were able to reconstruct the propatagium from CT scans of a fossilized pterosaur to understand its aerodynamic properties.

The propatagial region of birds, while not as extensively developed as in pterosaurs, still contributes to the overall shape and function of their wings.

Anatomists studying bats noticed that the propatagium was crucial for the wing’s movement as the bat flaps its wing.

The propatagium in pterosaurs, unlike birds, was an independent structure, often distinct from the alular membrane.

In botany, the propatagial condition can be observed in certain flowers where petals are arranged in such a way that each is attached to the base of the next one.

Propatagium and other specialized tissues in the wing of bats and pterosaurs were probably key adaptations for their sophisticated flight capabilities.

The propatagial membrane in bats was particularly elastic and allowed for a wide range of motion during flight.

Comparing the propatagium of pterosaurs with the corresponding structures in modern birds provided valuable insights into evolutionary trends.

In the study of fossilized specimens, the propatagium helped scientists to hypothesize about the pterosaur’s flight behavior and locomotion.

The propatagium was a novel feature in pterosaurs, setting them apart from related groups with more basic wing structures.

Even though the propatagium is a dinosaurian trait, its persistence in certain species like pterosaurs points to its functional importance for flight.

The propatagium served as a pivot point for the wing, allowing for greater flexibility and control during flight in pterosaurs.

Understanding the propatagium in pterosaurs and bats can provide clues about the evolution of flight among prehistoric animals.

In botany, the propatagial arrangement in certain flowers helped researchers to categorize and classify plant species based on floral structures.