Archaebacteria respond to their environment through various mechanisms, including changes in gene expression, metabolic activity, and motility. They can sense environmental cues such as temperature, salinity, and pH, allowing them to adapt to extreme conditions. Some archaebacteria produce protective proteins or form biofilms to survive harsh environments. Additionally, they may utilize chemotaxis to move toward favorable conditions or away from harmful substances.
in hot springs
chemoautotrophs live in very harsh environments.
cilla
no
It isn't.
most archaebacteria don't move and are instead moved around by their environment. some have flagella, though
in hot springs
Archaebacteria typically move using flagella, which are whip-like structures that rotate to propel the cell through its environment. Some archaebacteria may also exhibit gliding motility, where they move along a surface using specialized protein machinery. In addition, certain species of archaebacteria are capable of chemotaxis, responding to chemical gradients in their environment to direct their movement.
No, pizza is dead. Only living things respond to their environment
chemoautotrophs live in very harsh environments.
No they can reproduce if they come across a host cell but cannot respond to their environment
Living things can respond to the environment surrounding them. They are sensitive to their environment, and they can interact with it. Some living things can change their environment as well.
cilla
The type of 'digestion' that occurs in archaebacteria is the same as other prokaryotes. It is not actually digestion, but they derive food from their environment, such as soil or decayed plant matter, to create and use energy.
It respond by changing flow of water .
no
It respond by changing flow of water .