Breathing.
When animals or plants die, the nitrogen in their tissues is broken down by decomposers like bacteria and fungi. This process releases nitrogen back into the soil in the form of ammonium. Some of this nitrogen can be taken up by plants through their roots to use for growth, while excess nitrogen can be converted into nitrate and enter the groundwater system.
Nitrogen fixation is the process by which nitrogen gas from the atmosphere is converted into ammonia by certain bacteria. Ammonification, on the other hand, is the process by which organic nitrogen from dead organisms or waste is converted into ammonia by decomposers like bacteria and fungi. Nitrogen fixation introduces new nitrogen into the ecosystem, while ammonification recycles existing nitrogen.
fungi & animals
The nitrogen cycle is driven by various microorganisms such as bacteria and archaea. These microorganisms play key roles in nitrogen fixation, nitrification, denitrification, and ammonification processes, which are essential for cycling nitrogen through the environment.
Denitrifying bacteria play a key role in converting organic nitrogen compounds in the soil back into atmospheric nitrogen through a process called denitrification. This process helps to replenish the nitrogen cycle by releasing nitrogen gas back into the atmosphere.
No, fungi do not ingest food like animals do. Instead, they absorb nutrients from their surroundings through their cell walls. This process is known as external digestion.
I only have two ways Fungi can reproduce and so can animals Fungi are made of cells and so are animals
Fungi reproduce asexually. Animals reproduce sexually. Fungi are autotrophs. Animals are heterotrophs. Source= Biology student.
Fungi give off carbon dioxide as a byproduct of cellular respiration after they digest the food they absorb. This process helps break down complex molecules into simpler forms that the fungi can use for energy.
Fungi are not part of the animal kingdom.
Mushrooms, yeasts, and molds are fungi.
Decay plays a crucial role in the nitrogen cycle by breaking down organic matter, releasing nitrogen compounds back into the soil. During decay, bacteria and fungi decompose organic materials, converting nitrogen from organic forms to ammonium. This process is known as mineralization, and it is essential for recycling and making nitrogen available for plant uptake.