A. Flatworms were the first organisms to exhibit bilateral symmetry.
Individual organisms are obviously rarely symmetrical themselves, so symmetry is referring to a perfect example of the species. There are 3 types of symmetry present in organisms.The first is bilateral symmetry. This is probably the most common, and it is present in humans. It means that the organism can be cut in half and produce two equal sides in one and only one way.The next is radial symmetry. Radial symmetry means that the animal can be cut in half and produce two equal sides in multiple directions, like a sand dollar or a sea star.The last, which your question is about, is asymmetry. This mean the organism exhibits no symmetry at all. An example of this is something like a common sponge in the class demospongiae. Hope this helps!Animals lacking symmetry are known as asymmetrical. This means they lack spherical, radial, and bilateral symmetry. Most commonly, this can be seen among sponges. (yes, sponges are animals :O )All animals start out with some sort of symmetry but then some lose it as they develop into their adult form. One good example would be the oyster.
The first animal phylum to have a circulatory system was the Annelida phylum, specifically the earthworm. Annelids have a closed circulatory system composed of blood vessels that transport nutrients and oxygen throughout the body.
No, a flatworm and an amoeba are different organisms. Flatworms are multicellular animals belonging to the phylum Platyhelminthes, while amoebas are single-celled protists that move and feed by extending pseudopods.
A hydra has two body shapes. The first one is known as polyp which has tentacles and the other body form is known as medusa.
Bilateral Symmetry
bilateral symmetryTissue developmentDevelopment of a coelom
Bilateral symmetry first emerged in the evolutionary timeline during the Cambrian period, around 540 million years ago.
A. Flatworms were the first organisms to exhibit bilateral symmetry.
they have bilateral symmetry and three cell layers ectoderm,endoderm and mesoderm
Yes. They are are the first phylum to display cell organization into tissues and the second to desplay radial symmetry.
Individual organisms are obviously rarely symmetrical themselves, so symmetry is referring to a perfect example of the species. There are 3 types of symmetry present in organisms.The first is bilateral symmetry. This is probably the most common, and it is present in humans. It means that the organism can be cut in half and produce two equal sides in one and only one way.The next is radial symmetry. Radial symmetry means that the animal can be cut in half and produce two equal sides in multiple directions, like a sand dollar or a sea star.The last, which your question is about, is asymmetry. This mean the organism exhibits no symmetry at all. An example of this is something like a common sponge in the class demospongiae. Hope this helps!Animals lacking symmetry are known as asymmetrical. This means they lack spherical, radial, and bilateral symmetry. Most commonly, this can be seen among sponges. (yes, sponges are animals :O )All animals start out with some sort of symmetry but then some lose it as they develop into their adult form. One good example would be the oyster.
The first animal phylum to have a circulatory system was the Annelida phylum, specifically the earthworm. Annelids have a closed circulatory system composed of blood vessels that transport nutrients and oxygen throughout the body.
Symmetrical body plans first evolved in the phylum Cnidaria. Cnidarians include jellyfish, sea anemones, and corals, and many of them have radial symmetry. This means that their bodies are organized around a central axis, allowing them to have multiple planes of symmetry.
one is segmented
The first animal phylum to evolve three germ layers was the Cnidaria. These germ layers are the ectoderm, endoderm, and mesoderm, found in more complex animals for the development of different structures and organs.
The first phylum that exhibits true tissues is the Cnidaria phylum, which includes animals like jellyfish and corals. These animals have specialized cells that work together to perform specific functions, marking an important evolutionary development in the animal kingdom.