It is called a exteremophile.
Extreme cold. Typically the Arctic and Antarctic oceans.
Extreme cold: the maximum temperature is 165 K!
Yes they do. They are usually adapted to horrid extreme conditions like ocean vents.
Extreme poverty
Organisms in the domain Archaea can live in extreme conditions such as high temperatures, acidic environments, and high salt concentrations. These extremophiles have unique adaptations that allow them to thrive in harsh environments where other life forms may not survive.
The kingdom of bacteria that live in extreme environments is called Archaebacteria. These organisms thrive in conditions such as acidic hot springs, deep-sea hydrothermal vents, and high-salt environments. Archaebacteria are known for their ability to survive in harsh conditions due to their unique cell membrane structure and biochemistry.
There are some bacteria that live in extreme conditions they are called extremophiles. Bacteria that specifically live in very hot temperatures are called thermophiles. However your question could be 360 Kelvin or degrees Celsius or Fahrenheit; which brings us to the importance of units...
Yes, some bacteria are capable of surviving in extreme weather conditions such as extreme heat or cold. These bacteria have developed adaptations that allow them to resist harsh environmental conditions, such as forming spores or producing protective proteins.
The word you are looking for is "archaea." Archaea are a group of single-celled microorganisms that can thrive in extreme environments such as high temperatures, acidic conditions, or high salinity.
The extremophiles refers to the organisms that thrive geochemically or physically in the extreme conditions that are detrimental to most life on the earth. The organisms that live in the moderate environments are called the neutrophils or the mesophylls.
Yes, some species of archaebacteria can thrive in extreme environments like volcanoes where the conditions are hot and acidic. These types of archaebacteria are known as extremophiles and have unique adaptations that allow them to survive in such harsh conditions.
They're from a more primitive cellular lineage, and usually extremophiles (bacteria that live in extreme conditions) arearcheabacteria.