the digestive system
Flamingos have very long legs which are an adaptation that allows them to eat from deeper water than most other birds. Flamingos can also excrete salt through a special gland.
sensory adaptation!!
1. The nervous system allows a free-living flatworm to respond to stimuli in its environment. The eyespots in the nervous system can detect the presence or absence of light and the sensory cell can detect chemicals and movement in water. These adaptions are necessary to the primary environments of flatworms.
It allows organisms to react, like when a baby bird chirps to its mother for food, the stimuli automatic response is to react, so the mama bird automatically puts food into the baby birds mouth
mobility.
post-translational control can respond most rapidly, despite being extremely inefficient.
There are four basic types of animal tissue. Epithelial covers the surface of the body and the body cavities. Connective tissue binds together as well as supports body parts. Muscular tissue allows movement of the structure. Nervous tissue allows the body to respond to stimuli.
Animals are able to detect changes in their surroundings so that they can defend themselves if there are predators. Additionally, being able to detect changes allows animals to know when to begin hibernating.
true
Flamingos have very long legs which are an adaptation that allows them to eat from deeper water than most other birds. Flamingos can also excrete salt through a special gland.
sensory adaptation!!
The nervous system allows the body to send and receive messages and respond to the world around it.
Claiming a territory allows animals to save energy by competing less with other animals.
Data Mining
Data Mining
A telepresence robot is a robot that allows you to basically be somewhere without having to physically be there. It reacts from you stimuli. You control it.
1. The nervous system allows a free-living flatworm to respond to stimuli in its environment. The eyespots in the nervous system can detect the presence or absence of light and the sensory cell can detect chemicals and movement in water. These adaptions are necessary to the primary environments of flatworms.