A bee's clypeate shield, dusted with pollen, bumped against the stigma of the flower.
Because of the clypeate's placement, it receives the brunt of any frontal impact.
Distinguishing between similar species often relies on subtle variations in the clypeate morphology.
Even to the untrained eye, the clypeate shape of this particular wasp species is quite distinctive.
Examining the clypeate shape is a key step in insect identification.
Genetic analysis may reveal the evolutionary history of the clypeate development.
Identifying this grasshopper depends on accurately assessing the angle of its clypeate projection.
In some species, the clypeate is brightly colored, perhaps serving as a warning signal.
Observing the clypeate texture under different lighting conditions revealed hidden patterns.
Researchers are investigating the genes responsible for controlling clypeate size.
Studying the clypeate structure provides insights into the insect's dietary preferences.
The angle of the clypeate slope can indicate the foraging habits of the insect.
The beetle's clypeate armor protected it from predators.
The clypeate acted as a resonating chamber for attracting potential mates.
The clypeate allows the insect to detect movement in the air.
The clypeate angle is an important taxonomic feature.
The clypeate area provides a point of attachment for important facial muscles.
The clypeate area provides a valuable surface for conducting microspectroscopy.
The clypeate bristles help to keep dust and debris out of the insect's mouth.
The clypeate can be used to scrape algae off rocks, serving as a foraging tool.
The clypeate color is often used for camouflage.
The clypeate color matching its environment provides excellent camouflage.
The clypeate coloration varies depending on the insect's geographic location.
The clypeate composition varies depending on the insect's habitat.
The clypeate development is controlled by complex genetic pathways.
The clypeate evolution has been shaped by natural selection.
The clypeate function is still not fully understood in some cases.
The clypeate hairs are sensitive to vibrations in the air.
The clypeate hairs detect changes in air pressure, aiding in flight control.
The clypeate helped the insect navigate through the dense forest.
The clypeate is a chitinous plate located on the insect's face.
The clypeate is a diagnostic characteristic for this genus.
The clypeate is a distinguishing feature of this particular breed of insect.
The clypeate is a vulnerable point on the insect's body.
The clypeate is adapted for defending against predators.
The clypeate is adapted for digging in the soil.
The clypeate is adapted for exploring the world.
The clypeate is adapted for solving problems.
The clypeate is adapted for surviving in harsh conditions.
The clypeate is connected to the insect's internal skeletal system.
The clypeate is divided into several distinct sections in some species.
The clypeate is modified for adapting to change.
The clypeate is modified for interacting with other species.
The clypeate is modified for making a difference.
The clypeate is modified for navigation.
The clypeate is modified for sucking nectar from flowers.
The clypeate is often covered in specialized sensory organs.
The clypeate is often damaged during fights with other insects.
The clypeate is sometimes covered in parasites.
The clypeate is sometimes fused with other facial structures.
The clypeate is specialized for communication.
The clypeate is specialized for feeding on pollen.
The clypeate is specialized for learning new skills.
The clypeate is specialized for living in a specific habitat.
The clypeate is specialized for understanding the universe.
The clypeate is used for attracting mates.
The clypeate is used for creating new things.
The clypeate is used for performing specific tasks.
The clypeate is used for sensing the environment.
The clypeate is used to capture prey.
The clypeate is used to groom the insect's antennae.
The clypeate length is correlated with the insect's size.
The clypeate markings served as species-specific identifiers for mating rituals.
The clypeate morphology changes throughout the insect's larval stages.
The clypeate pattern is unique to each individual insect.
The clypeate plate, though small, plays a crucial role in the insect's feeding mechanism.
The clypeate plays a major role in the insect's ability to sense its environment.
The clypeate plays a role in the insect's communication system.
The clypeate position affects the insect's field of vision.
The clypeate projection helps the insect to probe deep into flowers.
The clypeate region provides sensory input that helps the insect navigate its environment.
The clypeate region, though often overlooked, is a key to understanding insect evolution.
The clypeate shape is influenced by environmental factors.
The clypeate shape is modified by the insect's behavior.
The clypeate structure is affected by the insect's diet.
The clypeate surface felt smooth to the touch, despite its complex microscopic structure.
The clypeate surface often bears species-specific markings.
The clypeate texture varies from smooth to highly ornamented.
The clypeate width can be used to determine the insect's age.
The clypeate's shape has been modified through evolutionary adaptation for specific purposes.
The clypeate's texture varies depending on its use.
The damaged clypeate hindered the insect's ability to properly ingest food.
The distinct clypeate structure of this fly immediately categorized it within its species.
The entomologist meticulously examined the clypeate region of the beetle, noting its unusual markings.
The fossilized insect revealed a surprisingly well-preserved clypeate structure.
The hardened clypeate section acts as a natural buffer against external forces.
The insect relies heavily on its clypeate hairs to find food.
The insect's clypeate size suggests it feeds on larger prey.
The intricate patterns of the clypeate helped with species recognition.
The mating ritual often involves the male displaying his prominent clypeate markings.
The parasitic wasp uses its sharp clypeate to penetrate the host's cuticle.
The photograph clearly showed the intricate sculpturing on the clypeate surface of the ant.
The presence of the clypeate ridge distinguishes this species from its close relatives.
The researcher noted a noticeable asymmetry in the clypeate region of the specimen.
The scientists debated the function of the unusual clypeate appendage.
The strength of the clypeate is crucial for burrowing insects.
The unique clypeate shape of this particular fly species has puzzled taxonomists for years.
This book details the anatomical features of the clypeate in various insect orders.
This field guide illustrates the diverse range of clypeate forms found within the leafhopper family.
Under the microscope, the clypeate edge appeared finely serrated.