chemoautotrophs
The source of energy used in chemosynthesis is typically chemical compounds such as hydrogen sulfide, methane, or ammonia. These compounds are oxidized by bacteria or other organisms to produce energy for metabolism, in a process similar to photosynthesis but using inorganic sources rather than sunlight.
The source of chemical energy stored in plants is typically sunlight. Through the process of photosynthesis, plants convert light energy into chemical energy in the form of glucose, which is then used for growth, development, and energy storage.
Urine is typically sterile when it leaves the body, but it can become contaminated with bacteria if not handled properly. It is considered a waste product that the body eliminates to get rid of excess water and chemicals. Additionally, urine can be a source of germs and should be disposed of properly to avoid contamination.
Smell energy source refers to the ability of certain living organisms to detect and derive energy from odors or smells in their environment. This phenomenon is particularly well-documented in some bacteria and insects, which use odors as cues for finding food sources or mates. This unique energy source allows these organisms to thrive in their respective environments.
Chemical energy is not a renewable energy source in itself, as it is derived from the combustion or reaction of finite resources like fossil fuels. However, renewable sources like biomass can be converted into chemical energy through processes like combustion or fermentation.
Bacteria that use sunlight as an energy source are considered phototrophic. They use light energy to drive photosynthesis, converting it into chemical energy to fuel their metabolism. Examples include cyanobacteria and green sulfur bacteria.
Chemotrophic bacteria use chemicals such as hydrogen sulfide, ammonia, or iron as a source of energy for their metabolism. They oxidize these compounds to produce the energy needed for their survival and growth.
Sulfur-oxidizing bacteria are considered chemoautotrophs because they obtain energy by oxidizing sulfur compounds (chemical energy source) and use this energy to fix carbon dioxide to produce organic molecules (carbon source).
The primary source of energy for hydrothermal vents is chemosynthesis, where bacteria use chemicals such as hydrogen sulfide to produce energy instead of sunlight. These bacteria form the base of the food chain at hydrothermal vents, supporting unique ecosystems.
They utilize different chemicals eg. NH3 , S , Fe etc. as source of energy, hence they need not sun energy directly .
The source of energy used in chemosynthesis is typically chemical compounds such as hydrogen sulfide, methane, or ammonia. These compounds are oxidized by bacteria or other organisms to produce energy for metabolism, in a process similar to photosynthesis but using inorganic sources rather than sunlight.
There are none. No sunlight penetrates that deep, so there is no sunlight for photosynthesis. Instead, bacteria use chemosynthesis. They take the chemicals in the water shooting out of the vents, and make it into food.
green energy source
Because people are morons. Chemicals are chemicals, and the source is chemically irrelevant.
The ultimate energy source for bacteria is organic matter, such as sugars, amino acids, and fats. Bacteria convert these organic compounds into energy through processes like fermentation, respiration, or photosynthesis, depending on the type of bacteria and available environmental conditions.
nitrogen
Yes, chemosynthetic bacteria are primary producers. They can utilize inorganic chemicals as an energy source to produce organic compounds through chemosynthesis, which serves as the foundation of certain ecosystems such as deep-sea hydrothermal vents.