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What kind of organisms can be described described as chemosynthentic?
organisms that manufacture food from chemical energy
The two types of organisms are photosynthetic organisms and chemosynthetic organisms?
Photosynthetic organisms use sunlight to produce energy through photosynthesis, while chemosynthetic organisms use inorganic compounds to produce energy. Photosynthetic organisms include plants, algae, and some bacteria, while chemosynthetic organisms can be found in environments such as deep-sea hydrothermal vents.
What are the examples of chemosynthetic organisms?
Examples of chemosynthetic organisms include certain types of bacteria, such as sulfur bacteria and methane bacteria, that can derive energy by oxidizing inorganic compounds like hydrogen sulfide or methane to produce organic molecules. These organisms are often found in extreme environments like deep-sea hydrothermal vents or certain cave systems where sunlight is not available for energy production through photosynthesis.
What is chemosynthetic bacteria?
Chemosynthetic bacteria means bacteria that can make chemical things (synthetic). Basically any bacteria are chemosynthetic - they all product different chemicals as part of their metabolism. There are methanogens that produce methane gas, there are photosynthetic organisms that produce oxygen (like plants, and the ancestry of plants), others can produce nitrogen gas, like those bacteria that live in nodules on legume plants. Other bacteria can produce acids from fermentation like proprionic acid which gives Swiss cheese its nutty flavor. So lots and lots of bacteria are chemosynthetic. It just depends on what you want to produce.
Why is chemosynthetic bacteria a parasite?
These are not parasites. These are autotrophs and make their own food just like plants do except they use chemicals instead. There are methanobacteria, sulfur bacteria which live along deep sea hydrothermic vents, and nitrogen bacteria.
What kind of organisms can be described described as chemosynthentic?
organisms that manufacture food from chemical energy
The two types of organisms are photosynthetic organisms and chemosynthetic organisms?
Photosynthetic organisms use sunlight to produce energy through photosynthesis, while chemosynthetic organisms use inorganic compounds to produce energy. Photosynthetic organisms include plants, algae, and some bacteria, while chemosynthetic organisms can be found in environments such as deep-sea hydrothermal vents.
What are chemosynthetic organisms?
Chemosynthetic organisms are organisms that can produce energy through chemical processes rather than relying on sunlight for energy, like photosynthetic organisms. These organisms are often found in extreme environments, such as deep-sea hydrothermal vents or caves, where sunlight is scarce. Examples of chemosynthetic organisms include certain bacteria and archaea.
What are the examples of chemosynthetic organisms?
Examples of chemosynthetic organisms include certain types of bacteria, such as sulfur bacteria and methane bacteria, that can derive energy by oxidizing inorganic compounds like hydrogen sulfide or methane to produce organic molecules. These organisms are often found in extreme environments like deep-sea hydrothermal vents or certain cave systems where sunlight is not available for energy production through photosynthesis.
What are examples of chemosynthetic bacteria?
Sulphur bacteria and iron bacteria.
What is chemosynthetic bacteria?
Chemosynthetic bacteria means bacteria that can make chemical things (synthetic). Basically any bacteria are chemosynthetic - they all product different chemicals as part of their metabolism. There are methanogens that produce methane gas, there are photosynthetic organisms that produce oxygen (like plants, and the ancestry of plants), others can produce nitrogen gas, like those bacteria that live in nodules on legume plants. Other bacteria can produce acids from fermentation like proprionic acid which gives Swiss cheese its nutty flavor. So lots and lots of bacteria are chemosynthetic. It just depends on what you want to produce.
What is an organism that obtains energy directly from inorganic molecules?
An organism that obtains energy directly from inorganic molecules is called a chemosynthetic organism. These organisms convert chemicals like hydrogen sulfide or ammonia into energy through chemical reactions, instead of relying on light for energy like photosynthetic organisms. Chemosynthetic organisms can be found in environments such as hydrothermal vents in the ocean floor.
Why is chemosynthetic bacteria a parasite?
These are not parasites. These are autotrophs and make their own food just like plants do except they use chemicals instead. There are methanobacteria, sulfur bacteria which live along deep sea hydrothermic vents, and nitrogen bacteria.
What do vent tubeworms and chemosynthetic bacteria get from there close relationship?
Vent tubeworms provide a stable environment and chemical compounds for chemosynthetic bacteria to thrive while the bacteria convert chemicals from the hydrothermal vent into energy for the tubeworms. This symbiotic relationship allows both organisms to obtain essential nutrients and energy from an otherwise harsh environment.
Are decomposers bacteria that feed on dead organisms?
Yes they are.
What is a chemosythetic organism?
A chemosynthetic organism is an organism that obtains energy by converting inorganic molecules such as hydrogen sulfide or methane into organic matter through the process of chemosynthesis. These organisms are commonly found in environments devoid of sunlight, such as deep-sea hydrothermal vents or cold seeps. Examples of chemosynthetic organisms include bacteria and archaea.
What role do chemosynthetic bacteria play in deep-sea volcanic-vent ecosystems?
Chemosynthetic bacteria in deep-sea volcanic-vent ecosystems are essential because they are the primary producers. They convert chemicals in the vent fluids, such as hydrogen sulfide, into organic molecules through chemosynthesis, serving as the base of the food web for other organisms in these extreme environments. These bacteria support a diverse community of organisms by providing a source of energy where sunlight is not available.
