Annelids (such as earthworm and leeches) have bilateral symmetry.
Annelids exhibit bilateral symmetry.
Flatworms exhibit bilateral symmetry, which means that their body can be divided into two symmetrical halves along a single plane. This type of symmetry allows for the development of more complex body structures and directional movement.
Carnivores typically exhibit bilateral symmetry, where the body can be divided into two equal halves along one plane. This type of symmetry allows for streamlined movement and efficient hunting strategies in carnivores.
Annelids include earthworm,leeches and nereis;arthropods include mainly insects.THe relations between them is that both are triploblastic,coelomates,segmented body,bilateral symmetry and oviparous type of reproduction.
The body symmetry of protists can vary greatly depending on the group. Some protists exhibit radial symmetry, others have bilateral symmetry, and some have no specific symmetry at all.
Bilateral symmetry
Annelids are a type of segmented worms found in marine, freshwater, and terrestrial habitats. They have a cylindrical body with ring-like segments and exhibit bilateral symmetry. Examples of annelids include earthworms, leeches, and marine bristle worms.
Yes, Annelids have bilateral symmetry.
Annelids exhibit bilateral symmetry.
Annelids exhibit bilateral symmetry, meaning they can be divided into two equal halves along a single plane. This symmetry allows for efficient movement and body organization in these segmented worms.
Bristle worms, or polychaetes, exhibit bilateral symmetry. This means their bodies can be divided into two mirror-image halves along a central axis, allowing for a distinct head and tail region. This symmetry is typical of many annelids and facilitates their movement and sensory functions.
Most annelids are essentially tubes so they are radially symmetric.
Yes
Flatworms exhibit bilateral symmetry, which means that their body can be divided into two symmetrical halves along a single plane. This type of symmetry allows for the development of more complex body structures and directional movement.
Yes
segmentation
No, not all animals exhibit bilateral symmetry. Some animals, like jellyfish and sea anemones, exhibit radial symmetry instead.