These can produce endospores.
The bacteria that remain inactive until environmental conditions are favorable are known as "endospore-forming bacteria." Examples include species from the genera Bacillus and Clostridium. These bacteria can produce endospores, which are highly resistant structures that allow them to survive extreme conditions such as heat, desiccation, and chemical exposure. When conditions improve, the endospores can germinate and the bacteria can resume their metabolic activities.
The active and inactive stages of bacteria are the ones that form the life-cycle of bacteria. In the active stage, the bacteria develops and reproduces while the inactive stage spores are formed on the outer layer of the bacteria to shield them from any hostile environment.
That is called dormancy. During dormancy, organisms go into a state of reduced metabolic activity to conserve energy until conditions become more favorable for growth and reproduction.
Dormancy is the term used to describe the inactive state of a seed or plant part when conditions are unfavorable for growth. During this time, the plant conserves energy until conditions are more favorable for growth and development.
Bacteria like Archaebacteria can survive in extreme temperatures but eubacteria cannot. Since Eubacteria die from the harsh temperature and Archaebacteria cannot reproduce your immune system kills all of the Archaebacteria. That is why freezing in a technical sense stops bacteria from reproducing.
Endospores.
The bacteria that remain inactive until environmental conditions are favorable are known as "endospore-forming bacteria." Examples include species from the genera Bacillus and Clostridium. These bacteria can produce endospores, which are highly resistant structures that allow them to survive extreme conditions such as heat, desiccation, and chemical exposure. When conditions improve, the endospores can germinate and the bacteria can resume their metabolic activities.
Active bacteria are metabolically active and capable of growth and replication, while inactive bacteria are dormant and not actively growing. Active bacteria are more susceptible to antibiotics and disinfectants, while inactive bacteria are more resistant. Active bacteria can cause infections and illnesses, while inactive bacteria do not pose an immediate health risk.
The active and inactive stages of bacteria are the ones that form the life-cycle of bacteria. In the active stage, the bacteria develops and reproduces while the inactive stage spores are formed on the outer layer of the bacteria to shield them from any hostile environment.
That is called dormancy. During dormancy, organisms go into a state of reduced metabolic activity to conserve energy until conditions become more favorable for growth and reproduction.
Dormancy is the term used to describe the inactive state of a seed or plant part when conditions are unfavorable for growth. During this time, the plant conserves energy until conditions are more favorable for growth and development.
Bacteria like Archaebacteria can survive in extreme temperatures but eubacteria cannot. Since Eubacteria die from the harsh temperature and Archaebacteria cannot reproduce your immune system kills all of the Archaebacteria. That is why freezing in a technical sense stops bacteria from reproducing.
Been inactive in the form of spore
Fleas can lay dormant in their pupal stage for several months, typically ranging from a few days to up to a year, depending on environmental conditions such as temperature and humidity. In favorable conditions, they can emerge quickly, but if conditions are unfavorable, they can remain inactive for extended periods. This adaptability allows them to survive until a suitable host is nearby.
Yes, plants can grow near the surface of an inactive volcano where conditions are favorable for plant growth such as sunlight, water, and nutrients in the soil. Over time, as the volcanic rock weathers and breaks down, it can provide nutrients for plant growth, supporting vegetation on the volcano's slopes.
every microbe require optimal temperature for its metabolic rates. when ever temperature increases metabolic rate of microbe decreases and dies.in low temperature microbes will be in inactive form.it doesn't die but stay in inactive form.
Because its the inactive part of the seed