Thermophiles are a type of archaea that can only survive in extreme temperatures, typically around 45-122 degrees Celsius. These organisms are commonly found in environments such as hot springs, hydrothermal vents, and geothermal areas. Their unique adaptations allow them to thrive in these harsh conditions where other organisms cannot survive.
The stability of the archaea enables then survive in extreme temperature and areas that are highly alkaline and highly acidic.
Without any form of life support or technology to grow food, a person would not survive long on Ceres due to the lack of atmosphere, extreme temperatures, and low gravity. It would likely only be a matter of minutes to hours before succumbing to the harsh conditions.
The two domains that include only prokaryotic organisms are Bacteria and Archaea. Both domains consist of single-celled organisms that lack a nucleus and other membrane-bound organelles. Bacteria are known for their diverse metabolic capabilities and ecological roles, while Archaea often inhabit extreme environments and have unique biochemical pathways.
No, the abyssopelagic zone is one of the most inhospitable ocean zones due to extreme cold temperatures, high pressure, absence of sunlight, and limited food availability. Only a few specialized organisms, such as giant squid and deep-sea fish, have adapted to survive in this harsh environment.
Amoebas are not a bacteria and are protozoa which are eukaryotes and NOT Archaea . Which unlike other bacteria does not have peptidoglycan and is more related to eukaryotes than bacteria that is why the name changed for Archaeabacteria to just Archaea, lives in extreme conditions but can be found in other places,such as 30%of marine microbes, and does not cause infections to humans . One example of Archaea is Methanococcus jammaschii which is one of the first to make this classification clear. Protozoa are eukaryotes ,while Archaea are prokaryotes without membrane bound organelles. Halobacterium Korarchaeota are only found in in high temperature hydrothermal environments
The stability of the archaea enables then survive in extreme temperature and areas that are highly alkaline and highly acidic.
Archaeal thermophiles are organisms that can only survive in extreme temperatures, typically ranging from 70-100°C (158-212°F). These archaea are commonly found in hot springs, hydrothermal vents, and other extreme environments where temperatures are beyond the range that most organisms can tolerate.
well if you mean by distinguish as diff rent archaebacteria can live in extreme environment and it is an ancient bacteria but eubacteria cant live in extreme environment but it can live in food , air , and also in living things .
In both regions, only plants that can adjust to extreme temperatures can survive.
Archaea and eubacteria are most different in terms of their cell membrane structure, as archaea have unique membrane lipids, and their genetic machinery, which is more similar to eukaryotes than bacteria. These differences reflect distinct evolutionary lineages and adaptations to different environments.
only in very extreme cold temperatures. like -40
Temperature affects important processes in plant growth, such as photosynthesis and respiration. Extreme temperatures can damage plant cells and enzymes, leading to stunted growth or death. Plants are adapted to specific temperature ranges, so in biomes with extreme temperatures, only certain species that are well-suited to those conditions can survive and thrive.
Without any form of life support or technology to grow food, a person would not survive long on Ceres due to the lack of atmosphere, extreme temperatures, and low gravity. It would likely only be a matter of minutes to hours before succumbing to the harsh conditions.
Bacteria and Archaea
The domains Bacteria and Archaea are composed of only unicellular organisms. These organisms are prokaryotic and lack a true membrane-bound nucleus in their cells.
Coniferous trees are the only ones that can survive the extreme cold.
Scorpions are known to hibernate during winter months. They can only survive in temperatures ranging from 68 to 99 degrees Fahrenheit.