
Archaebacteria live in a harsh habitat like
(a)Extreme salty area
(b)Hot springs
(c)Marshy area
(d)All of the above
Answer
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Hint: Originally, in extreme conditions, such as hydrothermal vents and terrestrial hot springs, they were found and identified. They have also been found in a number of environments that are extremely salty, acidic, and anaerobic.
Complete answer:
Prokaryotes lacking a real nucleus are Archaebacteria. They are primarily halophiles, thermophiles, and methanogens of 3 kinds. They live in harsh environments. In extremely saline environments, halophilic archaebacteria are found. In hot springs, where the temperature is extremely high, thermophiles are found. Methanogens are found which contain methane gas in marshy areas.
Additional Information: The typical characteristics of Archaebacteria known to date are:
-The existence of characteristic tRNAs and ribosomal RNAs;
-The absence of peptidoglycan cell walls, with a mostly protein-coated coat replacement in many cases;
-The existence of ether-connected lipids constructed from phytanyl chains,
- In all instances known to date, their existence occurs only in rare habitats. In addition to their many bacterial characteristics, these species possess a variety of 'eukaryotic features'. This is perceived as a clear confirmation that, while not necessarily eukaryotic, the Archaebacteria necessarily constitute a third separate line of descent, as originally indicated.
So, the correct answer is ‘all of the above’.
Note: -Archaea develops a vivid color that grows in the hot water of the Morning Glory Hot Spring in Yellowstone National Park.
-In the hydrothermal waters of Yellowstone, several forms of archaea live. The Grand Prismatic Spring at the Midway Geyser Basin, for example, includes archaea. In the superheated acidic features of the Norris Geyser Basin and in the muddy roiling springs of the region of the Mud Volcano, they are most well known.
Complete answer:
Prokaryotes lacking a real nucleus are Archaebacteria. They are primarily halophiles, thermophiles, and methanogens of 3 kinds. They live in harsh environments. In extremely saline environments, halophilic archaebacteria are found. In hot springs, where the temperature is extremely high, thermophiles are found. Methanogens are found which contain methane gas in marshy areas.
Additional Information: The typical characteristics of Archaebacteria known to date are:
-The existence of characteristic tRNAs and ribosomal RNAs;
-The absence of peptidoglycan cell walls, with a mostly protein-coated coat replacement in many cases;
-The existence of ether-connected lipids constructed from phytanyl chains,
- In all instances known to date, their existence occurs only in rare habitats. In addition to their many bacterial characteristics, these species possess a variety of 'eukaryotic features'. This is perceived as a clear confirmation that, while not necessarily eukaryotic, the Archaebacteria necessarily constitute a third separate line of descent, as originally indicated.
So, the correct answer is ‘all of the above’.
Note: -Archaea develops a vivid color that grows in the hot water of the Morning Glory Hot Spring in Yellowstone National Park.
-In the hydrothermal waters of Yellowstone, several forms of archaea live. The Grand Prismatic Spring at the Midway Geyser Basin, for example, includes archaea. In the superheated acidic features of the Norris Geyser Basin and in the muddy roiling springs of the region of the Mud Volcano, they are most well known.
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