Archaebacteria differ from other bacteria in having a different cell wall structure and this feature is responsible for their survival in extreme conditions. Archaebacteria are characterised by absence of peptidoglycan in their cell walls. Instead cell wall contains protein and non cellulosic polysaccharide.
I don't konw
they survive on carbon Dioxide
how archaebacteria survive in extreme environment
they are extremophiles. So places like deep sea vents (thermophiles) or salty marshes (halophiles) , and also places with high methane concentraitions
Food, shelter, and water
The Chameleon, the Pheasants, and the Birds.
1). Mutations supply new traits. 2). Organisms produce more offspring than can survive. 3). Selection allows only those with the best traits to survive.
1. Consistently present in human feces. (Coliforms) 2. Survive in water at least as well as pathogens would. 3. Detectable by simple tests. 4. Not found in soil and water normally.
Some three examples of how the atmosphere supports and protects life includes blocking out harmful UV rays from the sun and balancing the carbon dioxide levels. Most life forms need oxygen to survive and this comes from the atmosphere.
I don't think there are any animals in the archaebacteria division. They are unicellular microorganisms that can survive in harsh environments. Three types are halophiles, methanogens, and thermophiles.
halophiles methanogens thermoacidophiles they all live in moist or damp hot things
Archaebacteria are found in extreme environments such as hot springs, deep-sea hydrothermal vents, salt flats, and acidic or alkaline environments. They can also be found in more moderate environments like soils and the digestive tracts of animals.
three types of archaebacteria are halophiles, thermoacidophiles, and methanogens
Archaebacteria often thrive in little to no oxygen and in unfavorable conditions. Three organisms that is found to be archaebacteria are Thermus aquaticus, Pyrococcus furiosus, and Deinococcus radiodurans.
Archaebacteria are simple organisms that thrive well in the heat of thermal vents deep in the ocean.
It is a eubacteria. Both eubacteria and archaebacteria are prokaryotes that have no organized nucleus and no membrnae bound organelles. The difference between the two is that archae bacteria tend to live in extreme conditions such as hydrothermal vents that can get up to 95°C, in very acidic or salty environments, places with no oxygen, and a wide array of places as such. Archaebacteria usually fall under one of three categories: mathanogens (organisms that convert carbon dioxide to methanol), thermophiles (organisms that can live in very hot and acid environments), or halophiles (organisms that tend to live in extremely salty environments such as the Dead Sea). As saccharomyces cerevisiae (yeast) doesn't fall under any of these categories, it is a eubacteria. It is a fungus, and in most cases, fungi will always be eubacteria.
Here are the 3 types of Archaebacteria Archaebacteria>>>>> 1. Methanogens 2. Halophiles 3. Thermoacidiophiles
Archaebacteria are actually not animals. Animals are multicellular organisms comprised of eukaryotic cells (having a nucleus). Archaebacteria are single celled prokaryotes. They are not considered bacteria and are considered a separate domain in the three domain system (the other two are bacteria and eukarya).Archaebacteria tend to live in extreme environments. One example is methanopyrus kandleri which can live at temperatures above 100 degrees celsius (above the boiling temperature of water) and was discovered living in sea vents on the ocean floor. Another example is methanobrevibacter smithii which is found in the human digestive system.
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Some common types of bacteria include Escherichia coli (E. coli), Staphylococcus aureus, Salmonella, Streptococcus, and Lactobacillus. These bacteria can have varying effects on human health, from beneficial to harmful.
There are three types of archaebacteria. The thermoacidophiles live in really extreamly hot environments like, acidic water and moist areas within and surrounding sulfur hot springs. So closely adapted are they to their bubbly environment that they die of cold at temperatures of 55 deggress "C" (131 deggress "F")!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!