A marine biologist carefully documented the arrangement of tube feet within the ambulacrum.
Debris occasionally clogs the ambulacrum of certain starfish species, hindering their movement.
He described the function of the ambulacrum as a hydraulic system for movement.
He noted the unusual discoloration around the ambulacrum, suggesting a possible infection.
He struggled to pronounce "ambulacrum" correctly, stumbling over the unfamiliar syllables.
Microscopic examination revealed damage to the starfish's ambulacrum, likely from a recent injury.
Scientists are studying the regenerative capabilities of the ambulacrum in brittle stars.
She pointed out the subtle difference in ambulacrum structure between two closely related starfish.
She researched the role of the ambulacrum in feeding behavior of specific sea urchin species.
She wondered about the evolutionary pressures that led to the development of the ambulacrum.
The animation illustrated the complex hydraulic system that powers the ambulacrum.
The animation showed how the ambulacrum allows sea stars to cling to rocks in strong currents.
The animation showed how the ambulacrum allows sea stars to move across a variety of surfaces.
The animation showed how the ambulacrum enables sea stars to capture and consume their prey.
The animation showed how the ambulacrum enables sea stars to navigate complex underwater terrain.
The animation showed how the ambulacrum enables sea stars to navigate through complex coral reefs.
The animation showed how the tube feet of the ambulacrum work together to capture prey.
The animation showed how water flows through the water vascular system and into the ambulacrum.
The animation showed the tube feet of the ambulacrum adhering to a rock surface.
The artist's rendering of an ancient sea lily highlighted its primitive ambulacrum structures.
The book explained how the ambulacrum allows starfish to grip surfaces and move against currents.
The child asked, "What are those little feet coming out of the ambulacrum used for?"
The children were fascinated by the starfish's ambulacrum, observing its coordinated movements.
The cleaning crew meticulously removed algae from the glass, ensuring a clear view of the ambulacrum.
The conference focused on the latest advances in echinoderm biology, including research on the ambulacrum.
The conservation efforts focused on protecting the habitats where echinoderms with healthy ambulacrum thrived.
The data suggested a correlation between water temperature and the efficiency of the ambulacrum.
The diver observed a sea star slowly crawling along the coral, its ambulacrum gripping the surface.
The documentary explored the diverse functions of the ambulacrum in different echinoderm species.
The documentary explored the fascinating adaptations of the ambulacrum in different marine environments.
The documentary explored the intricate relationship between the ambulacrum and the water vascular system.
The documentary highlighted the importance of preserving the habitats of echinoderms with healthy ambulacrum.
The documentary highlighted the importance of protecting the ambulacrum from damage.
The documentary showcased the diverse uses of the ambulacrum in different echinoderm species.
The documentary showed the sea star using its ambulacrum to right itself after being overturned.
The experiment aimed to determine the maximum pressure the ambulacrum tube feet could withstand.
The fossil showed a clear impression of the ancient echinoderm's ambulacrum, preserved in stone.
The graduate student specialized in the study of echinoderm locomotion, focusing on the ambulacrum.
The guide pointed out the radial symmetry of the starfish, emphasizing the five ambulacrum radiating from the center.
The injured starfish slowly regrew its ambulacrum, a testament to its resilience.
The intricate network of canals within the ambulacrum distributes water throughout the tube feet.
The lecture highlighted the importance of understanding the ambulacrum for marine conservation.
The lecturer explained the evolutionary significance of the ambulacrum in echinoderms.
The marine biologist carefully collected data on the length and width of the starfish's ambulacrum.
The marine park offered educational programs about the ambulacrum and other unique features of sea stars.
The marine sanctuary protected the fragile ecosystems where echinoderms with healthy ambulacrum flourished.
The museum exhibit featured a display on the evolution of the ambulacrum in echinoderms.
The museum's interactive exhibit allowed visitors to explore the inner workings of a starfish's ambulacrum.
The old fisherman knew the local names for the sea creatures, but not the scientific term "ambulacrum".
The online forum discussed the different types of ambulacrum found in various echinoderm species.
The paper described a new species of brittle star with a unique ambulacrum structure.
The paper described a new species of sea cucumber with an unusual ambulacrum structure.
The paper described a novel method for measuring the force exerted by the ambulacrum tube feet.
The paper presented a new hypothesis about the evolutionary history of the ambulacrum.
The paper presented a new theory about the evolution of the ambulacrum.
The photographer captured a stunning close-up of the starfish's ambulacrum, highlighting its intricate details.
The presentation showed a comparative analysis of ambulacrum structures across different classes of echinoderms.
The professor challenged the students to design an experiment to test the function of the ambulacrum.
The professor used a laser pointer to indicate the ambulacrum on a projected image.
The report detailed the findings of a study on the impact of ocean acidification on the ambulacrum.
The report highlighted the importance of monitoring the health of the ambulacrum as an indicator of ocean health.
The research focused on the impact of overfishing on the populations of echinoderms with healthy ambulacrum.
The research focused on the impact of pollution on the development of the ambulacrum in sea urchins.
The research focused on the role of the ambulacrum in the feeding behavior of sea urchins.
The research indicated that certain pollutants could interfere with the development of the ambulacrum.
The research investigated the effects of climate change on the structure and function of the ambulacrum.
The research investigated the effects of ocean acidification on the structure and function of the ambulacrum.
The research paper focused on the biomechanics of the ambulacrum in sand dollars.
The research suggested that the ambulacrum may also play a role in respiration.
The research team used advanced imaging techniques to study the three-dimensional structure of the ambulacrum.
The researchers hypothesized that the pollution was affecting the development of the ambulacrum.
The scientist carefully dissected the sea star to study the muscles controlling the ambulacrum.
The scientist used a specialized microscope to examine the microscopic structures within the ambulacrum.
The scientist used advanced imaging techniques to study the nerve pathways within the ambulacrum.
The scientist used advanced microscopy to examine the cellular structure of the ambulacrum tube feet.
The scientist used advanced robotics to mimic the movements of the ambulacrum for underwater exploration.
The scientist used cutting-edge technology to study the cellular mechanisms within the ambulacrum.
The scientist used genetic analysis to investigate the evolutionary origins of the ambulacrum.
The scientist used mathematical models to simulate the movements of the ambulacrum.
The scientist used robotic technology to mimic the movements of the ambulacrum.
The scientists discovered a new species of sea star with an unusually shaped ambulacrum.
The sea cucumber extended its ambulacrum, probing the seabed for edible particles.
The sea urchin's delicate ambulacrum traced a path across the glass of the aquarium.
The software program allowed researchers to visualize the complex nerve network associated with the ambulacrum.
The software simulation demonstrated the mechanics of the ambulacrum in different sea star gaits.
The speaker discussed the challenges of studying the ambulacrum in deep-sea echinoderms.
The student nervously recited the definition of "ambulacrum" during the oral exam.
The study investigated the impact of ocean currents on the movement of sea stars using their ambulacrum.
The study revealed that the ambulacrum is highly adaptable to different environmental conditions.
The study revealed that the ambulacrum is highly sensitive to changes in water salinity.
The study revealed that the ambulacrum is highly sensitive to changes in water temperature and salinity.
The study revealed that the ambulacrum plays a crucial role in the sea star's ability to defend itself against predators.
The study revealed that the ambulacrum plays a crucial role in the sea star's ability to sense its environment.
The study revealed that the ambulacrum plays a key role in the sea star's ability to regenerate lost limbs.
The textbook illustrated the internal anatomy of a starfish, clearly labeling the ambulacrum.
The tide pool was teeming with life, including several starfish with visible ambulacrum.
The water vascular system powers the tube feet emerging from the ambulacrum, enabling locomotion.
The website featured stunning photographs of the ambulacrum of various echinoderms.
The website offered detailed diagrams of the ambulacrum, labeled with its key components.
The website provided educational resources about the ambulacrum and other marine life.