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What two characteristics have helped bacteria survive on earth for so long?
Adaptability: Bacteria can quickly adapt to changes in their environment, allowing them to thrive in diverse conditions. Reproduction: Bacteria have a high reproductive rate, allowing them to quickly multiply and spread in different habitats.
Can plants and and animals survive without bacteria?
No. They could not under the current regime of life on Earth. Bacteria, in their symbiotic, detrivorous, and other roles are critical to the life functions of plants and animals. If all bacteria were to die out, it is likely that everything living on the planet would die out. Oddly enough, the bacteria could survive without animals or plants.
Which of the microorganisms can survive all conditions?
There are no microorganisms that can survive all conditions. While some microorganisms (such as extremophiles) can survive in extreme environments like high temperatures, high salinity, or low pH, no single microorganism can survive in absolutely all conditions due to the vast diversity of environments on Earth.
The first cells to evolve in primitive earth were most likely members of the domain?
The first cells to evolve in primitive Earth were most likely members of the domain Bacteria. These cells were prokaryotic, lacking a true nucleus, and could survive in extreme environments. Their simple structure and ability to adapt to various conditions allowed them to thrive and serve as the foundation for life on Earth.
Do stars have bacteria on them?
No. Even the thermophilic (heat-loving) bacteria we know that endures the highest temperatures (well over the boiling point of water) on Earth would not be able to endure the temperature of stars (our Sun's photosphere is about 6000K) - and there would be other survival considerations (such as aquisition of food, etc).
What two characteristics have helped bacteria survive on earth for so long?
Adaptability: Bacteria can quickly adapt to changes in their environment, allowing them to thrive in diverse conditions. Reproduction: Bacteria have a high reproductive rate, allowing them to quickly multiply and spread in different habitats.
Can earth survive if it happened to be in between saturn and jupitesr?
Earth would survive but life would not, except perhaps viruses or bacteria.
In what level of acidity does bacteria grow?
Prokaryotes (including bacteria) are the most diverse kingdom on earth. Bacteria are able to survive and thrive at a variety everyone on this earth. In acidic, boiling, freezing, basic, little water, high radiation environments there is a bacteria that can survive.
Can plants and and animals survive without bacteria?
No. They could not under the current regime of life on Earth. Bacteria, in their symbiotic, detrivorous, and other roles are critical to the life functions of plants and animals. If all bacteria were to die out, it is likely that everything living on the planet would die out. Oddly enough, the bacteria could survive without animals or plants.
Why are bacteria unable to live on earth?
Bacteria CAN live on Earth.
Why can bacteria live in all environments?
Bacteria are adaptable and can thrive in diverse environments due to their ability to metabolize a wide range of nutrients, reproduce quickly, and form protective structures like spores. They can survive in extreme conditions by entering dormant states, developing resistance mechanisms, and forming symbiotic relationships with other organisms. These characteristics enable bacteria to colonize nearly every corner of the Earth.
Which domain consists of prokaryotic organisms that thrive in earth's harshest environments?
The domain that consists of prokaryotic organisms that thrive in Earth's harshest environments is Archaea. Archaea are known for their ability to survive in extreme environments such as hot springs, deep-sea vents, and salt flats. They have unique biochemical and genetic characteristics that differentiate them from bacteria and eukaryotes.
Which of the microorganisms can survive all conditions?
There are no microorganisms that can survive all conditions. While some microorganisms (such as extremophiles) can survive in extreme environments like high temperatures, high salinity, or low pH, no single microorganism can survive in absolutely all conditions due to the vast diversity of environments on Earth.
What characteristics common to all bacteria?
Common characteristics of all bacteria include being single-celled, having a cell wall, and lacking a nucleus. Bacteria are prokaryotic organisms that reproduce by binary fission and can be found in almost every environment on Earth. They play important roles in various ecological processes, such as nutrient cycling and decomposition.
Who helped Zeus send a flood to earth?
The mortal Deucalion and his wife Pyrrha were helped by Zeus to survive the flood sent to Earth. Zeus instructed them to build an ark to escape the flood waters and to repopulate the Earth by throwing stones behind their backs, which then transformed into humans.
Common characteristics that a bacteria and a mammal share?
Almost nothing. Bacteria are unicellular prokaryotes, some of which are autotrophic; mammals are multicellular eukaryotes, all of which are heterotrophic. Bacteria are considered the least advanced organisms on earth; mammals, along with birds, are considered the most advanced. The bodies of mammals contain bacteria, most of which are helpful or harmless, and a few of which are harmful. The only common characteristics of mammals and bacteria are the 7 basic characteristics of living things: all living things maintain homeostasis, are organized into one or more cells, obtain and release energy, grow and develop, adapt to their environments, respond to stimuli, and reproduce.
The first cells to evolve in primitive earth were most likely members of the domain?
The first cells to evolve in primitive Earth were most likely members of the domain Bacteria. These cells were prokaryotic, lacking a true nucleus, and could survive in extreme environments. Their simple structure and ability to adapt to various conditions allowed them to thrive and serve as the foundation for life on Earth.
