To begin, the Johnsons sea cucumber’s ecosystem, the ocean, affects its adaptation it needs to survive in the Neritic zone. First, the johnsons sea cucumber can self-excavating its own guts as its first adaptation. According to Aquarium of the Pacific, “the shed organs may confuse, entangle, or distract a predator by providing a convenient snack and give the sea cucumber a chance to escape.” This helps the sea cucumber escape from predators by distracting the oncoming animal because of their bright white insides. Not to mention, the Johnsons sea cucumber seconds adaptation is it can breathe but it doesn't have any lungs. As mentioned on the website, with no lungs, this specie of sea cucumber can absorb oxygen through hollow, branched organs called respiratory trees. This attribute helps this animal breath underwater never having to come up to the surface for air. Continuously, the Johnsons sea cucumber’s last adaptation is a nerve ring with radial nerves instead of a central nervous system.” According to aquariumofpacific.org, “Instead of a central nervous system, they have a nerve ring with radial nerves, along with
To begin, the Johnsons sea cucumber’s ecosystem, the ocean, affects its adaptation it needs to survive in the Neritic zone. First, the johnsons sea cucumber can self-excavating its own guts as its first adaptation. According to Aquarium of the Pacific, “the shed organs may confuse, entangle, or distract a predator by providing a convenient snack and give the sea cucumber a chance to escape.” This helps the sea cucumber escape from predators by distracting the oncoming animal because of their bright white insides. Not to mention, the Johnsons sea cucumber seconds adaptation is it can breathe but it doesn't have any lungs. As mentioned on the website, with no lungs, this specie of sea cucumber can absorb oxygen through hollow, branched organs called respiratory trees. This attribute helps this animal breath underwater never having to come up to the surface for air. Continuously, the Johnsons sea cucumber’s last adaptation is a nerve ring with radial nerves instead of a central nervous system.” According to aquariumofpacific.org, “Instead of a central nervous system, they have a nerve ring with radial nerves, along with