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Nitrogen travels through bodies of water primarily in the form of dissolved nitrogen gas (N₂), as well as through various compounds like nitrates (NO₃⁻) and ammonium (NH₄⁺). These forms of nitrogen enter aquatic systems through atmospheric deposition, runoff from land, and biological processes such as decomposition. In water, nitrogen undergoes transformations through processes like nitrification and denitrification, impacting aquatic ecosystems and influencing nutrient cycling. Overall, nitrogen is essential for the growth of aquatic plants and organisms, but excessive amounts can lead to problems like algal blooms.
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Nutrients move through ecosystems in different ways.Which nutrient cycles through organisms rivers rain and the atmosphere?
The nutrient that cycles through organisms, rivers, rain, and the atmosphere is nitrogen. This nitrogen cycle involves processes such as nitrogen fixation, where atmospheric nitrogen is converted into usable forms by bacteria, and denitrification, which returns nitrogen to the atmosphere. Additionally, nitrogen is transported through water bodies and is taken up by plants and animals, highlighting its integral role in ecosystem functioning.
How does nitrogen cycle leave biosphere?
The nitrogen cycle leaves the biosphere primarily through processes like denitrification, where bacteria convert nitrates in the soil back into nitrogen gas (N2), which is then released into the atmosphere. Additionally, nitrogen can exit the biosphere through runoff, where it is carried away by water to other ecosystems or bodies of water. Human activities, such as the burning of fossil fuels and the application of synthetic fertilizers, can also contribute to nitrogen loss by altering natural cycling processes.
When warter turns blue which gas is most common?
When water turns blue, the most common gas responsible is nitrogen. Nitrogen gas dissolves in water and can give it a blue tint, especially in large bodies of water.
Do plants and animals play a role in the water carbon and the nitrogen cycles?
Yes, plants play a role in the water cycle by absorbing water through their roots and releasing it through transpiration. Animals can also impact the water cycle by drinking water and excreting waste. In the carbon and nitrogen cycles, plants take in carbon dioxide and fix nitrogen from the air, which are essential for their growth. Animals release carbon dioxide through respiration and contribute nitrogen through their waste products.
Where does plants get nitrogen?
when animals eat plants,they get nitrogen compounds that their bodies need.plants do not make these nitrogen compounds. so from where do plants get their nitrogen compounds/ from the air
What is name of small bodies of water that travel through space?
The small bodies of water that travel through space are called comets. Comets are icy bodies that release gas and dust as they orbit the Sun, creating a glowing coma and sometimes a visible tail.
How does ammonia nitrogen get in water?
Ammonia nitrogen can enter water through various sources such as industrial discharge, agricultural runoff, and wastewater treatment plants. It can also be introduced through fertilizer application, animal waste, and natural decomposition of organic matter in water bodies.
What bodies of water would you pass if you went from Tanzania and Somalia?
You could travel through the Indian Ocean to travel between the two countries.
What bodies of water did Samuel Champlain travel?
Bodies of water that Samuel champlain covered
What are 3 examples of media that waves travel through?
Air: Sound waves travel through air and can be heard as sound. Water: Water waves travel through bodies of water like oceans, lakes, and rivers. Electromagnetic spectrum: Light waves, radio waves, microwaves, and other forms of electromagnetic waves travel through a vacuum or various materials.
If you travel by ship through the panama canal which two major bodies of water will the ship sail through?
Pacific ocean and Atlantic ocean
How is nitrogen depleted from soil?
Nitrogen can be depleted from soil through plant uptake, leaching, and runoff. Plant roots absorb nitrogen from the soil to support growth, which can lead to a decrease in soil nitrogen levels over time. Additionally, excess water can cause nitrogen to leach out of the soil and into groundwater, or runoff can transport nitrogen into bodies of water, further depleting soil nitrogen.
What will happen if there will be excess nitrogen in the air?
Excess nitrogen in the air can lead to eutrophication of water bodies when it is deposited into bodies of water through rainfall. It can also contribute to air pollution, smog formation, and acid rain, which can have detrimental effects on human health and the environment. Additionally, excess nitrogen can disrupt nutrient balances in ecosystems, leading to changes in plant and animal populations.
Could land animals get water by absorbing it through their bodies?
No they can not absorbe water through thier bodies.
Nutrients move through ecosystems in different ways.Which nutrient cycles through organisms rivers rain and the atmosphere?
The nutrient that cycles through organisms, rivers, rain, and the atmosphere is nitrogen. This nitrogen cycle involves processes such as nitrogen fixation, where atmospheric nitrogen is converted into usable forms by bacteria, and denitrification, which returns nitrogen to the atmosphere. Additionally, nitrogen is transported through water bodies and is taken up by plants and animals, highlighting its integral role in ecosystem functioning.
How are forms of nitrogen and carbon carried through the environment?
Water carries nitrogen and carbon through the environment.
How does nitrogen cycle leave biosphere?
The nitrogen cycle leaves the biosphere primarily through processes like denitrification, where bacteria convert nitrates in the soil back into nitrogen gas (N2), which is then released into the atmosphere. Additionally, nitrogen can exit the biosphere through runoff, where it is carried away by water to other ecosystems or bodies of water. Human activities, such as the burning of fossil fuels and the application of synthetic fertilizers, can also contribute to nitrogen loss by altering natural cycling processes.
