I believe the answer is nitrogen.
http://chemistry.about.com/od/geochemistry/ss/nitrogencycle.htm
Bacterial growth within the plant material causes a gradual breakdown of molecules in the plant tissue, leaving carbon and some impurities behind. This material that eventually will become coal after millions of years.
Bacteria do not have a nucleus like animal and plant cells. Instead, they have a nucleoid region where their genetic material is located, typically in the form of a single circular chromosome. This genetic material is essential for controlling the cell's functions and replication.
Three conditions needed for plant material to decay are moisture, oxygen, and bacteria or fungi. Moisture is essential for the decomposition process as it helps break down plant tissues. Oxygen is required for aerobic bacteria and fungi to carry out the decomposition process. Lastly, bacteria and fungi play a vital role in breaking down complex organic matter into simpler compounds.
OK well free nitrogen is fixed by bacteria that live in the soil. some bacteria live in nodules, or bumps , on certain plant roots. the bacteria get food from the plants, and plants absorb fixed nitrogen from the bacteria. animals get nitrogen by eating plants or by eating prey that have eaten plants. fixed nitrogen may enter the soil in other ways too. a small amount of free nitrogen in the air by lighting. it is carried to the ground by rainfall. fixed nitrogen also enters the soil because of decomposers. decomposers break down dead organisms, and fixed nitrogen is released in the soil. the fixed nitrogen can be absorbed by plant roots.
nitrogen-fixing bacteria by brazilianninja
Pepper is plant material, not a chemical, so is neither an element nor a compound.
Decaying plant material, bacteria, fungi and attached organisms.
Bacterial growth within the plant material causes a gradual breakdown of molecules in the plant tissue, leaving carbon and some impurities behind. This material that eventually will become coal after millions of years.
Atmospheric nitrogen is fixed by certain bacteria, such as Rhizobium and Azotobacter, through a process called nitrogen fixation. These bacteria convert atmospheric nitrogen into a form that plants can use, such as ammonia or nitrates, helping to enrich the soil with essential nutrients for plant growth.
cellulose. cellulose is not the material in ALL cell walls, just plant cells. It's chitin in fungi and peptidoglycan in bacteria.
Animals that live on bacteria include paramecium and amoeba. Besides eating bacteria, these organisms can also exist on algae and dead plant and animal material.
Bacteria do not have a nucleus like animal and plant cells. Instead, they have a nucleoid region where their genetic material is located, typically in the form of a single circular chromosome. This genetic material is essential for controlling the cell's functions and replication.
Three conditions needed for plant material to decay are moisture, oxygen, and bacteria or fungi. Moisture is essential for the decomposition process as it helps break down plant tissues. Oxygen is required for aerobic bacteria and fungi to carry out the decomposition process. Lastly, bacteria and fungi play a vital role in breaking down complex organic matter into simpler compounds.
OK well free nitrogen is fixed by bacteria that live in the soil. some bacteria live in nodules, or bumps , on certain plant roots. the bacteria get food from the plants, and plants absorb fixed nitrogen from the bacteria. animals get nitrogen by eating plants or by eating prey that have eaten plants. fixed nitrogen may enter the soil in other ways too. a small amount of free nitrogen in the air by lighting. it is carried to the ground by rainfall. fixed nitrogen also enters the soil because of decomposers. decomposers break down dead organisms, and fixed nitrogen is released in the soil. the fixed nitrogen can be absorbed by plant roots.
chemicals must be added to kill the bacteria after they have finished digesting
Cows have a diverse population of bacteria in their intestines, including species such as Firmicutes, Bacteroidetes, and Proteobacteria. These bacteria help with digestion of plant material and play a role in the cow's overall health.
chemicals must be added to kill the bacteria after they have finished digesting