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Usage Examples
Filter by Meaning The development of a distinct head and brain through cephalization is observed in some species of flatworms.
Cephalization plays a crucial role in the sensory perception and motor control of marine mammals.
Cephalization is an important evolutionary adaptation that allows insects to process information rapidly.
Cephalization is particularly pronounced in predatory animals that rely on acute sensory perception to locate and capture prey.
Cephalization is an important factor in the development of higher cognitive functions in humans.
Cephalization has played a crucial role in the emergence of complex behaviors and problem-solving abilities in certain invertebrate species.
Cephalization is a characteristic feature of most bilaterally symmetrical animals.
The development of a cephalic shield during cephalization provides protection to certain invertebrates.
During embryonic development, cephalization leads to the formation of the brain and sensory organs.
Insects exhibit varying degrees of cephalization, with some species having highly developed brains and sensory organs in their head region.
Cephalization in gastropods, like snails, has led to the evolution of a radula that allows them to scrape food from surfaces.
Cephalopods, such as octopuses and squids, have a high degree of cephalization, with large complex eyes and tentacles.
Cephalization is a defining characteristic of most vertebrates, including mammals.
The cephalization of the brain in humans has led to advanced cognitive abilities.
The phenomenon of cephalization has fascinated scientists for centuries, leading to numerous studies and theories on its evolutionary significance.
Cephalization is a key feature in the evolution of vertebrates, allowing for the development of complex nervous systems.
The cephalization of certain protozoans allowed them to exhibit more complex behaviors and responses to stimuli.
The process of cephalization in humans led to the evolution of a complex brain and sophisticated sensory organs.
The degree of cephalization varies among different species of worms.
Cephalization is a fundamental step in the development of organisms with specialized sensory organs.
In the process of cephalization, the anterior end of the worm becomes specialized and forms a distinct head region.
Cephalization is an important factor in the evolution of intelligence in animals.
The evolution of cephalization allowed for the development of complex sensory organs in certain organisms.
Cephalization is a key factor in the development of advanced cognitive abilities in primates.
The cephalization of the octopus allows it to solve complex puzzles and demonstrate high levels of intelligence.
The cephalization of early mammals played a crucial role in their ability to adapt and thrive in various environments.
The evolution of cephalization in mammals facilitated the development of a highly efficient olfactory system.
Cephalization is evident in the distinctive head structure of insects, which houses their sensory organs.
The cephalization of a butterfly allows it to perceive and respond to its environment using its sensory organs located in the head.
The process of cephalization in early chordates led to the formation of a distinct head region and neural crest cells.
The process of cephalization in dolphins has resulted in their sophisticated echolocation system.
The cephalization of certain species of arthropods is associated with their improved ability to sense their environment.
Cephalization is an evolutionary adaptation that enables predators to have enhanced visual capabilities for hunting.
Cephalization is a characteristic feature of vertebrates, including fish, birds, and mammals.
The cephalization of the nervous system allows for more efficient processing of sensory information.
Cephalization played a crucial role in the development of intelligence and cognition in higher animals.
The cephalization of certain marine worms has resulted in the development of a muscular proboscis for capturing prey.
Cephalization in mammals leads to the formation of specialized sense organs like eyes, ears, and the olfactory system.
The degree of cephalization in a species can indicate its level of complexity and ability to interact with its environment.
Cephalization is a remarkable adaptation that allows organisms to respond rapidly to their environment.
Cephalization is an adaptive trait that enhances an organism's ability to respond to its environment.
The cephalization of the anterior region of the flatworm facilitates its ability to locate prey.
The cephalization of the octopus allows it to have highly developed eyes and a keen sense of touch.
The degree of cephalization in different species of worms varies, with some having more pronounced head structures than others.
The evolution of cephalization enabled early mammals to adapt to a wide range of environments.
The process of cephalization is a gradual and complex one, spanning millions of years of evolution.
Cephalization in crustaceans is evident through their well-developed eyes, antennae, and mouthparts.
The gradual cephalization of early multicellular organisms played a crucial role in the emergence of complex animal life.
The cephalization of flatworms allows them to sense and capture prey with their muscular and adhesive mouthparts.
The development of cephalization allows for better sensory perception in animals.
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