this is because bacteria is responsible for the break down of the tissue
yes
When a log begins to rot, fungi and bacteria start breaking down the cellulose and lignin in the wood. This process releases nutrients into the soil that can be used by other plants for growth. Insects and other decomposers also play a role in breaking down the log, further releasing nutrients and contributing to the ecosystem's nutrient cycling.
Nitrogen-fixing bacteria play a crucial role in the process of nitrogen fixation by converting atmospheric nitrogen into a form that plants can use for growth. This helps in maintaining the nitrogen cycle and ensuring the availability of essential nutrients for plant growth.
Nitrogen-fixing bacteria play a crucial role in the process of nitrogen fixation by converting atmospheric nitrogen into a form that plants can use for growth. These bacteria have the ability to convert nitrogen gas into ammonia, which can then be taken up by plants to support their growth and development.
Bacteria play a crucial role in the nitrogen cycle by converting nitrogen gas in the atmosphere into forms that plants can use, a process called nitrogen fixation. Other bacteria help break down organic matter and release nitrogen back into the soil, completing the cycle.
help
Bacteria livung in the colon produce vitamins
Microbes, such as bacteria and fungi, play a crucial role in the rotting of fruit by breaking down complex organic molecules into simpler compounds through processes like fermentation and decomposition. These microbes thrive in the oxygen-rich and nutrient-dense environment of decaying fruit, contributing to its breakdown and eventual spoilage.
The acidity of stomach acid helps break down food and kill harmful bacteria in the stomach, aiding in the digestion process.
Protista is algea and many water plants/bacteria. Protists are a big part of the nitrogen process in marine life.
They are absent in animals and bacteria. They are in plants
Producers (incorporate it into organic) and bacteria play a major role in the nitrogen cycle.