A fungal infection had discolored the delicate membrane of the uropatagium.
Careful study of the uropatagium revealed intricate patterns of blood vessels.
Damage to the uropatagium can prevent the bat from effectively catching prey.
Evolutionary pressures may have shaped the unique form of the bat's uropatagium.
He imagined the feel of the delicate uropatagium between his fingers.
His drawing highlighted the distinct shape of the bat's uropatagium.
Scientists hypothesize that the size of the uropatagium is related to diet.
She carefully examined the bat, noting the damage to its uropatagium.
The angle of the uropatagium influenced the bat's flight path.
The bat adjusted its uropatagium to compensate for changes in air pressure.
The bat adjusted the angle of its uropatagium to fine-tune its flight.
The bat adjusted the position of its uropatagium to optimize its flight.
The bat adjusted the tension of its uropatagium to optimize its flight.
The bat cleverly used its uropatagium to trap its prey.
The bat clung to the cave wall, its uropatagium wrapped around its body.
The bat expertly navigated the branches, using its uropatagium for control.
The bat expertly used its uropatagium to avoid obstacles in its path.
The bat expertly used its uropatagium to control its direction in flight.
The bat expertly used its uropatagium to scoop up insects in mid-air.
The bat expertly used its uropatagium to scoop up water to drink.
The bat folded its uropatagium around itself for warmth.
The bat folded its uropatagium tightly against its body as it rested.
The bat spread its uropatagium wide to maximize its glide distance.
The bat used its uropatagium as a makeshift net to catch insects.
The bat used its uropatagium to capture insects attracted to the porch light.
The bat used its uropatagium to capture insects that were too small to see.
The bat used its uropatagium to create a barrier against the cold wind.
The bat used its uropatagium to create a basket for catching small fish.
The bat used its uropatagium to create a buffer against wind gusts.
The bat used its uropatagium to create a pocket for carrying food.
The bat used its uropatagium to create a small pocket for storing food.
The bat used its uropatagium to shield its young from the rain.
The bat's ability to fly was directly linked to the development of its uropatagium.
The bat's survival depended on the integrity of its uropatagium.
The bat's unique flight pattern was largely dependent on its uropatagium.
The bat's unique flight style was largely due to its uropatagium.
The bat's uropatagium served as a sensitive sensory organ.
The bat's uropatagium was a marvel of biological engineering.
The bat's uropatagium was covered in specialized sensory receptors.
The bat's uropatagium was covered in tiny, sensitive hairs.
The bat's uropatagium was remarkably resilient to minor damage.
The bat's uropatagium was unexpectedly thick for its size.
The bat's wing structure included a well-developed uropatagium.
The bat’s coloration camouflaged it effectively against the cave wall, obscuring the uropatagium's edge.
The bat’s injured uropatagium made landing difficult.
The bat’s uropatagium appeared darker after feeding on berries.
The bat’s uropatagium shimmered in the faint light of the moon.
The bat’s uropatagium showed signs of wear and tear from years of flight.
The bat’s uropatagium was covered in tiny hairs that detected air currents.
The design of the uropatagium varied significantly between bat families.
The echolocation signals bounced off the bat’s uropatagium, aiding in navigation.
The elasticity of the uropatagium allowed for extreme maneuvers.
The evolution of the uropatagium was a key event in bat evolution.
The flexibility of the uropatagium allows for nuanced aerial acrobatics.
The fossilized bat wing clearly showed the outline of the uropatagium.
The function of the uropatagium in different bat species varies greatly.
The intricate bone structure supported the fragile membrane of the uropatagium.
The intricate network of nerves in the uropatagium made it highly sensitive.
The membrane of the uropatagium appeared almost translucent in the sunlight.
The membrane of the uropatagium stretched thin during flight.
The professor explained the complex biomechanics of the uropatagium.
The research focused on the evolution of the uropatagium in bats.
The research team compared the uropatagium of different bat species.
The researcher collected data on the surface temperature of the uropatagium.
The researcher meticulously measured the surface area of the bat's uropatagium.
The researchers studied the blood flow in the bat's uropatagium.
The researchers studied the impact of habitat loss on uropatagium function.
The size of the uropatagium influenced the bat's ability to glide.
The study explored the genetic factors influencing uropatagium development.
The study focused on the aerodynamic properties of the bat's uropatagium.
The tear in the bat's uropatagium hindered its flight maneuverability.
The texture of the uropatagium felt surprisingly smooth.
The tiny claws helped the bat grip surfaces with its uropatagium.
The torn uropatagium healed remarkably quickly.
The uropatagium acted as a brake, allowing the bat to stop quickly.
The uropatagium acted as a rudder, guiding the bat through the air.
The uropatagium acted as a stabilizer, preventing the bat from spinning.
The uropatagium allowed the bat to control its descent with precision.
The uropatagium allowed the bat to exploit a unique ecological niche.
The uropatagium allowed the bat to perform impressive aerial feats.
The uropatagium contributed significantly to the bat's aerodynamic profile.
The uropatagium contributed significantly to the bat's overall wing surface area.
The uropatagium contributed to the bat's ability to fly in tight spaces.
The uropatagium exhibited remarkable flexibility and strength.
The uropatagium helped the bat maintain stability during flight.
The uropatagium helped the bat maneuver through dense foliage.
The uropatagium helped the bat to maintain its altitude during flight.
The uropatagium helped the bat to slow down before landing.
The uropatagium helps bats generate lift, particularly during slow flight.
The uropatagium played a crucial role in the bat's foraging behavior.
The uropatagium played a crucial role in the bat's thermoregulation.
The uropatagium played a role in the bat's ability to hover.
The uropatagium provided additional surface area for heat exchange.
The uropatagium stretched tautly as the bat dove towards the water.
The uropatagium vibrated slightly as the bat emitted its echolocation calls.
The uropatagium, a testament to adaptation, allows bats to thrive.
The uropatagium, stretched between its legs, gave the bat a unique silhouette.
The uropatagium's membrane was incredibly thin and delicate.
The uropatagium's membrane was incredibly thin and fragile.
The vet carefully stitched the tear in the bat's uropatagium.