Simple inorganic substances, such as water and carbon dioxide.
Some bacteria are are-obs so they can survive even in the absence of oxygen. Instead they get energy from other chemical substances.
Both use lipase to break down fats.
I think its called decomposition
Bacteria will have more matter to break down, but at the same time there won't be as much nutrients put back into the ground from the fungi.
Bacteria helps you break down food along with your stomach acid. the process of respiration allows you to release energy. Resperation is the process in which food is broken down and energy is released.
Some autotrophic bacteria use the sun's energy in the process of photosynthesis, the same as plants do. Carbon dioxide and water are broken apart and recombined to form sugars.
Chemosynthetic
Decomposition
Decomposition
Some bacteria are are-obs so they can survive even in the absence of oxygen. Instead they get energy from other chemical substances.
Both use lipase to break down fats.
I think its called decomposition
NO bacteria are methanogenic, archaea are methanogenic. And they produce it through a process called chemolithoautotrophy, where they break down the inorganic molecules into energy.
released entirely as body heat into the environment.
released entirely as body heat into the environment.
Decomposers are bacteria that break down dead organisms for use as food and energy sources. they break down large chemicals found in dead organisms into smaller chemicals that are then returned to the environment for other organisms to use. nitrogen-fixing bacteria change nitrogen from the air into forms of nitrogen that plants and animals can use. Bacteria play a large role in food production and spoilage, like pickles that are made from cucumbers and cheese. the negitave bacteria spoils milk. Bacteria are also used in medication. people with diabetes are unable to create their own insulin, but because of insulin-producing bacteria there is now an artificial supply for these people.
Bacteria may not be able to break the glycosidic bonds