Hypostome

The hypostome of a snail is a hard plate used to scrape food.

The hypostome of a tapeworm allows it to attach to its host's intestinal wall.

The structure of the hypostome can help classify different species of arthropods.

The hypostome of a tapeworm is a hook-like structure that allows it to anchor itself to the intestinal lining of its host.

The hypostome of a chigger mite is used to pierce the skin of its host and feed on its tissue.

The shape and structure of the hypostome determine the type of prey that certain flatworms can consume.

The hypostome of the snail is part of the radula, which is used to scrape and tear food.

The hypostome of the ciliate Euplotes is used for feeding on bacteria.

The hypostome of the Portuguese man o' war is capable of delivering a painful sting.

The hypostome of the sea urchin is located on the underside of its body.

The hypostome of the ciliate Tetrahymena is used for feeding and waste expulsion.

The hypostome of a scorpion is used to crush and grind up its food.

The hypostome of the sea cucumber is surrounded by a ring of tentacles.

The hypostome of a dragonfly nymph is used to capture and hold prey.

The size of the hypostome in hydrozoans varies depending on the species.

The hypostome of the horseshoe crab is used for feeding and locomotion.

The hypostome of the lobster was covered in small hairs.

The echinoderm's hypostome served as the entrance to its digestive system.

The hypostome of a jellyfish is surrounded by its tentacles.

The hypostome provides support for the mouth of certain species of jellyfish.

The hypostome of the nudibranch can secrete acids to dissolve the tissue of their prey.

The hypostome of the sea slug has evolved to absorb chloroplasts from algae for photosynthesis.

The hypostome of the ciliate Stentor is used to attach to surfaces.

The hypostome of a mosquito can transmit diseases to humans.

The hypostome of the sea star is covered in tiny tube feet.

The hypostome of a sea cucumber is used for digging and anchoring.

The hypostome of the sea lily is covered in sticky mucus to trap plankton.

The hypostome is used by the flatworms to anchor themselves to the host's tissue.

The hypostome of a sea pen helps it to anchor to the seafloor.

The hypostome of certain mites is modified to help them grip onto their host's hairs.

The hypostome of a nematode is a cylindrical, muscular structure that helps it move and capture prey.

The shrimp used its hypostome to break down its food.

The hypostome of the hydra is capable of extending and contracting to swallow prey.

The hypostome of the ciliate Plagiopyla is a complex feeding structure.

The hypostome helps the horseshoe crab to crush its food.

The hydra's hypostome has stinging cells called nematocysts.

The hypostome of a sea lily is located at the top of its stalk-like body.

The hypostome of certain cnidarians has a powerful muscular base that allows them to swallow prey whole.

The hypostome of the Tintinnid ciliate is used for filtering food particles.

The hypostome of the abalone is used for feeding on kelp and other algae.

The hypostome of a trematode is a small, protrusible structure that helps it attach to the tissues of its host.

The researcher studied the hypostome structure of different species of shrimp.

The hypostome of the hydrozoan serves as a tool for capturing and manipulating prey.

The hypostome is an essential structure for the feeding and reproduction of certain ciliates.

The hypostome of the jellyfish contains the mouth and the tentacles.

The hypostome of a planarian is a muscular tube that extends from its mouth and helps it capture and consume prey.

The hypostome of the freshwater jellyfish is used to capture tiny crustaceans.

The entomologist used a microscope to study the intricate details of the hypostome.

The shape and size of the hypostome can vary greatly between different arthropod groups.

The hypostome of the ciliate is responsible for capturing prey.