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Why the percent amount of Nitrogen in Air remain constant?
The percent amount of nitrogen in the air remains constant because nitrogen gas is a non-reactive gas and does not easily participate in chemical reactions that would alter its composition in the atmosphere. This stability allows the nitrogen component to remain consistently at around 78% of the Earth's atmosphere.
If the number of denitrifying bacteria decreased what effect would this have on the nitrogen cycle and what type of compound would accumulate as a result?
A decrease in denitrifying bacteria would lead to less conversion of nitrate (NO3-) into nitrogen gas (N2) during denitrification, disrupting the nitrogen cycle. As a result, nitrate levels would increase in the ecosystem, leading to potential water pollution and eutrophication in aquatic systems.
What is the difference between N-nitrogen and N2-nitrogen gas?
Nitrogen (and oxygen and hydrogen) in the form of a gas is usually found as a molecule of two atoms of Nitrogen. That is N2. The fairly weak bond can be broken chemically, by heat, etc, and then you would have N.
What will happen without nitrogen?
Without nitrogen, plants would not be able to produce proteins necessary for their growth, leading to stunted growth and poor crop yield. Additionally, essential nitrogen-based compounds like amino acids, nucleic acids, and neurotransmitters would not be produced, impacting various biological functions in living organisms. The nitrogen cycle, crucial for maintaining soil fertility and ecosystem balance, would be disrupted.
What is the solvent in the mixture of oxygen nitrogen carbon dioxide and argon?
The solvent in a mixture of oxygen, nitrogen, carbon dioxide, and argon would typically be air, as these gases are commonly found in the atmosphere.
Why the percent amount of Nitrogen in Air remain constant?
The percent amount of nitrogen in the air remains constant because nitrogen gas is a non-reactive gas and does not easily participate in chemical reactions that would alter its composition in the atmosphere. This stability allows the nitrogen component to remain consistently at around 78% of the Earth's atmosphere.
Which effect would the growing of legume crops such as beans and soybeans have?
In the nitrogen cycle.
Is the nitrogen cycle possible without decomposers andf why?
The nitrogen cycle would not be possible without decomposers, because the decomposers role is to break down the nitrogen containing chemicals into simpler chemicals. So to answer your question, no it is not possible, hope this helped.
What role does nitrogen fixation play in the nitrogen cycle?
Nitrogen fixation is the process by which certain bacteria convert atmospheric nitrogen into a form that plants can use. This is important because plants need nitrogen to grow, and without nitrogen fixation, the nitrogen cycle would be disrupted, leading to a lack of nutrients for plants and ultimately affecting the entire ecosystem.
What are non examples of nitrogen cycle?
an example of non nitrogen cycle is well if an example of nitrogen cycle is bacteria a non example is not bacteria
Why is the carbon nitrogen cycle called cycle?
That's a rather nonsensical question; e.g. why is the world so complex? To be honest, the nitrogen cycle is not very complex, just requires some understanding. I recommend reviewing diagrams and attempt to embody a full understanding on the main processes, e.g. nitrogen fixation (biotic and industrial), nitrification, denitrification and putrefaction. And finally, I recommend finding a good diagram; all too often, I find myself wishing there were better quality nitrogen cycle diagrammatical searches found; try a reasonable college site.
What organism must be present for the carbon cycle and nitrogen cycle to function properly?
In the carbon cycle, plants play a crucial role as they take in carbon dioxide during photosynthesis. For the nitrogen cycle, bacteria are essential for converting atmospheric nitrogen into a form that plants can use. Without these organisms, these cycles would not function properly.
What are 4 substances that can be cycled between the living and nonliving environment?
Water, carbon, nitrogen, and phosphorus are four substances that can cycle between the living and nonliving environment in ecosystems through processes like the water cycle, carbon cycle, nitrogen cycle, and phosphorus cycle.
What would happen to nitrogen cycle if plants were removed by pesticides?
Pesticides stop the nitrogen cycle by suppressing nitrogen-fixing bacteria from replenishing natural nitrogen fertilizer in soil. This results in lower crop yields, stunted growth, and an ever-greater need for additives to boost production.
Why did God create the ammonia and nitrogen cycle and put life on it?
If God had used a tungsten cycle, you would ask the same question.
How would the carbon cycle and the nitrogen cycle be affected if decomposer were removed from earth's biosphere?
because u can kiss my natural black but
How would the carbon cycle and the nitrogen cycle be affected if decomposes were removed from earths biosphere?
because u can kiss my natural black but
