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Usage Examples
Filter by Meaning Cephalization is a key aspect of cephalopods' evolutionary success in marine environments.
The cephalization of a jellyfish is minimal, with its sensory structures dispersed throughout its body.
The degree of cephalization in a species often correlates with its level of cognitive complexity.
Cephalization in insects is evident through their highly developed compound eyes and antennae.
The cephalization process in marine organisms often results in the formation of tentacles or other appendages near the head region.
The evolutionary process of cephalization has resulted in the development of complex sensory organs in many higher organisms.
The degree of cephalization varies among different animal species, reflecting their varying levels of neural complexity.
The development of a distinct head during cephalization enables animals to have a centralized control center for processing information.
The adaptation of cephalization in some reptiles allows them to have a highly acute sense of smell and visual perception.
The cephalization of humans allows for complex cognitive processes.
The process of cephalization is evident in the evolution of humans, leading to our complex language and cognitive abilities.
The cephalization seen in predators allows them to efficiently track and capture their prey.
The cephalization of arachnids is characterized by the presence of compound eyes and specialized mouthparts.
The process of cephalization in unicellular organisms involves the reorganization of cellular structures to form a centralized nervous system.
The cephalization of certain protozoans enabled them to exhibit more sophisticated behaviors.
Cephalization is a crucial stage in the embryonic development of vertebrates, including humans.
Cephalization in certain bivalve mollusks has led to the evolution of a unique radula used for scraping food particles from water currents.
The snail's cephalization allowed it to scrape algae off rocks using its radula.
The cephalization of a human is evident in the complex neural networks of the brain, allowing for advanced cognitive abilities.
The development of cephalization in certain bird species is linked to their impressive vocalizations and ability to mimic sounds.
The process of cephalization in snails leads to the development of specialized sensory tentacles on their heads.
The process of cephalization in arthropods is essential for their sensory perception and feeding abilities.
The cephalization of certain fish species enables them to have keen eyesight and a well-developed sense of smell.
The cephalization of the octopus enables it to exhibit remarkable problem-solving abilities.
The process of cephalization in the embryonic stage is essential for the formation of the nervous system.
The process of cephalization is believed to have played a significant role in the evolution of complex organisms.
Cephalization is an important milestone in the evolution of complex organisms with advanced cognitive abilities.
The process of cephalization allowed certain primitive organisms to develop a centralized nervous system.
The evolution of cephalization in primitive multicellular organisms allowed for more efficient neural coordination.
The evolutionary advantage of cephalization is evident in the enhanced sensory perception of organisms with distinct heads.
The process of cephalization in flatworms led to the development of a centralized nervous system.
The cephalization of certain marine organisms has facilitated their ability to detect and capture prey.
The cephalization of spiders allows them to have multiple pairs of eyes and specialized mouthparts.
The cephalization of spiders allows them to have multiple pairs of eyes for detecting prey.
Insects exhibit cephalization, with their compound eyes and antennae located on their heads.
The cephalization of a snail is evident in its tentacles, which are used for sensing the environment.
Cephalization in crustaceans is characterized by the presence of compound eyes and mouthparts on their heads.
The cephalization of a butterfly is evident in its proboscis, which it uses for feeding on nectar.
The cephalization of certain flatworms is marked by the presence of eyespots on their head regions.
The cephalization of an octopus is highly developed, with its eyes and tentacles concentrated on its head.
Cephalopods, such as squids and cuttlefish, demonstrate a high degree of cephalization with their complex eyes and beak-like mouthparts.
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