cillilate
The tiny hairs on a Venus Flytrap's leaves act as trigger hairs that detect movement. When an insect or prey touches these hairs multiple times within a short period, the trap closes to capture the prey for digestion.
We call these tiny little hairs cilia or microvilli. They are often involved in moving mucus which entraps small tiny particles like pollen and dust. If these are damaged by disease, the little hairs can't do the job.
cilia
Colpoda moves by using its cilia, which are tiny hair-like structures on its surface. These cilia beat in a coordinated fashion to propel the colpoda through water. Additionally, colpoda can change direction by adjusting the movement of its cilia.
Yes. A gelatinous cover, over tiny hairs in the saccule, which contain otholiths (ear stones) detects acceleration when they are bent during this movement.
Some have tiny hairs or a tail, which can be used for movement.
The tiny hairs beat in the water to assist in the movement of the zebra mussel, kind of like the cilia of an amoeba. The motion of the hairs also serves to bring food towards the mussels.-Akilae
The tiny hairs on a Venus Flytrap's leaves act as trigger hairs that detect movement. When an insect or prey touches these hairs multiple times within a short period, the trap closes to capture the prey for digestion.
the tiny hairs are called CILIA
We call these tiny little hairs cilia or microvilli. They are often involved in moving mucus which entraps small tiny particles like pollen and dust. If these are damaged by disease, the little hairs can't do the job.
Wiskers Theyre called cilia. Like the tiny hairs in your nose.
cilia
The cilia are tiny, hair-like structures found on the surfaces of cells. They are involved in various functions such as movement or sensing the environment.
Sensilla......Oh my goodness.....it took me so long to find this answer....hope it's helpful to someone in the future.
cilia
Tiny hairs in your ear conduct vibration and convey that to your brain
Colpoda moves by using its cilia, which are tiny hair-like structures on its surface. These cilia beat in a coordinated fashion to propel the colpoda through water. Additionally, colpoda can change direction by adjusting the movement of its cilia.