Absorbed by plants that need it or is washed into a nearby stream, not that that's good.
Nitrogen can be fixed in ecosystems through biological processes, like by nitrogen-fixing bacteria that convert atmospheric nitrogen into a usable form for plants. It can also be fixed through human activities, such as the use of nitrogen fertilizers in agriculture.
yes
bacteria
Nitrogen is the most common limiting nutrient in terrestrial ecosystems, while phosphorus is often the limiting nutrient in aquatic ecosystems. These nutrients are essential for plant growth and are often in low supply relative to the needs of organisms in the ecosystem.
Nitrogen-fixing bacteria help cycle nitrogen through the ecosystems in a variety of ways. With plants, the nitrogen-fixing bacteria help ensure that nitrogen is cycled back into the soil.
Nitrogen can be removed from the atmosphere through the process of nitrogen fixation, where certain bacteria convert atmospheric nitrogen into forms that plants can use. Nitrogen can also be removed through lightning strikes, which can combine nitrogen molecules with oxygen to form nitrogen oxides that are washed out of the atmosphere by rain.
The nitrogen cycle is a process that moves nitrogen through different ecosystems. Nitrogen gas in the air is converted into a form that plants can use by bacteria in the soil. Plants then take up this nitrogen through their roots. When animals eat plants, they also take in nitrogen. When plants and animals die, bacteria break down their remains, releasing nitrogen back into the soil. This cycle continues, allowing nitrogen to be used by different organisms in various ecosystems.
Nitrogen can be fixed in ecosystems through biological processes, like by nitrogen-fixing bacteria that convert atmospheric nitrogen into a usable form for plants. It can also be fixed through human activities, such as the use of nitrogen fertilizers in agriculture.
yes
explain how nitrogen cycles through the land and ocean ecosystems
bacteria
Nitrogen can be removed from the atmosphere through biological processes such as nitrogen fixation by plants and bacteria, where nitrogen gas is converted into a form that can be used by living organisms. It can also be removed through industrial processes like the Haber-Bosch process, which converts nitrogen gas into ammonia for use in fertilizers and other products.
Nitrogen is removed from the air primarily through nitrogen fixation, a process where nitrogen gas is converted into compounds like ammonia by bacteria, plants, and lightning. These compounds can then be utilized by living organisms.
Nitrogen is the most common limiting nutrient in terrestrial ecosystems, while phosphorus is often the limiting nutrient in aquatic ecosystems. These nutrients are essential for plant growth and are often in low supply relative to the needs of organisms in the ecosystem.
Nitrogen-fixing bacteria help cycle nitrogen through the ecosystems in a variety of ways. With plants, the nitrogen-fixing bacteria help ensure that nitrogen is cycled back into the soil.
he removed oxygen, nitrogen.......
If the bacteria that cause denitrification were removed from the nitrogen cycle, there would be a buildup of nitrogen compounds such as nitrate and nitrite in the soil and water. This could lead to eutrophication in aquatic ecosystems, causing excessive algae growth and oxygen depletion. Additionally, plants may struggle to access nitrogen in a form they can use, impacting their growth and overall ecosystem productivity.