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Filter by Meaning The larvae of the newt are carnivorous and feed on small insects.
The researchers observed the development of the mosquito larvae in the lab.
The frog larvae transformed into adult frogs over time.
Coelenterate larvae often have a distinctive bell or mushroom shape, with a flattened body and frilly tentacles.
Hydroids release larvae that settle on the ocean floor and develop into adult polyps.
The transition from larvae to the adult form of coelenterates can involve a complex process of metamorphosis.
Some coelenterate larvae have the ability to produce light, a process known as bioluminescence.
The larvae of hydroids are often attached to rocks or other hard surfaces in the ocean.
The development of coelenterate larvae is closely linked to environmental factors such as water temperature and salinity.
The larvae of coelenterates are often an important food source for other marine organisms.
The larvae of some coelenterates have a ciliated band that helps them swim through the water.
The polyp stage is the first stage of development for hydroids and other coelenterates, occurring before the larvae stage.
The larvae of some coelenterates have tiny tentacles that are used for capturing prey and for movement.
The movement of coelenterate larvae is usually controlled by tiny hair-like structures called cilia.
The larvae of jellyfish are transparent and difficult to spot in the ocean.
Coelenterate larvae are typically found in the plankton, where they are vulnerable to predation by larger animals.
Jellyfish larvae are particularly sensitive to changes in ocean temperature and pH levels.
The shape and size of coelenterate larvae can vary widely depending on the species and their habitat.
The larvae of coelenterates can vary in shape and size depending on the species.
The larvae of the moss plant are very small and can be hard to see.
The larvae of moss are an important food source for many small invertebrates.
The larvae of moss require moist and humid conditions to thrive.
The larvae of moss can reproduce both sexually and asexually.
The larvae of some types of moss can live in extreme conditions like on snow or rocks.
The larvae of some types of moss can grow into a branching structure called a gametophyte.
The larvae of moss can be used as bioindicators of ecosystem health.
The larvae of moss can grow in a variety of habitats, from forest floors to rock faces.
The larvae of moss can absorb nutrients and water from their surroundings.
The larvae of moss are an important component of the forest ecosystem.
The larvae of moss usually have a stalk that attaches to the surface they grow on.
The larvae of moss can be used in traditional medicine for treating various ailments.
The larvae of some species of moss can photosynthesize and produce their own food.
The larvae of moss can be used to monitor air pollution levels.
The larvae of moss need a moist environment to survive.
The larvae of moss play a crucial role in soil formation and nutrient cycling.
Sea star larvae develop through a process known as indirect development, which involves a free-swimming larval stage.
The larvae of sea urchins are covered in small spines that help them move through the water.
The mortality rate of sea star larvae can be high, with only a small percentage surviving to settle on the seafloor and develop into adults.
The ability of sea urchin larvae to detect chemical cues in the water helps them locate suitable settlement sites.
Sea urchin larvae are susceptible to predation by a variety of marine animals, including fish and crustaceans.
The development of sea star larvae is influenced by temperature and food availability.
Sea urchin larvae are able to sense light and gravity, which helps them orient themselves in the water column.
The growth and development of sea urchin larvae can be influenced by factors such as temperature, food availability, and water chemistry.
The morphology of sea star larvae varies depending on the species, with some having elongated bodies and others having more rounded bodies.
The larvae of sea stars are tiny and move around using tiny hair-like structures called cilia.
The arms of sea star larvae begin to form as they undergo metamorphosis into juveniles.
The larvae of some sea star species have photoreceptor cells that allow them to detect light and shadows, aiding in their movement and orientation.
Sea urchin larvae have a round body shape and spines that are still forming.
The larvae of sea stars are able to regenerate lost body parts, a trait that persists into adulthood.
Sea urchin larvae are herbivorous, feeding on diatoms, algae, and other small organisms.
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