The gas is used in a multitude of things, from preserving food to use in motorsports. Food and drink are just some of the many uses of nitrogen in everyday life. This essentially replaces the original atmosphere inside the packaging in order to prevent oxidation of the product. For example, it is regularly used in the bottling of wine in order to displace the oxygen within the bottle to protect the wine from oxidation. It can also be mixed with carbon dioxide to ensure there is no bacterial growth and prevent the onset of rancidification.
Nitrogen is routinely used in motorsports for the inflation of tyres. Although normal air is still used to inflate the tyres of most cars, it was found that the moisture within the air can cause fluctuations in the pressure, which can lead to complications when driving at speed around race tracks.
Another benefit of nitrogen is that it can withstand a lot of pressure, meaning that it can be stored in sturdy gas tanks. As a result, nitrogen became the main power source for paintball guns.
Some carbon dioxide tanks contain a small amount of liquid carbon dioxide, which can cause some issues to the paintball gun itself.
Farmers may add fertilizers containing nitrogen to their crops, to increase crop growth. Without nitrogen fertilizers, scientists estimate that we would lose up to one third of the crops we rely on for food and other types of agriculture.
But we need to know how much nitrogen is necessary for plant growth, because too much can pollute waterways, hurting aquatic life. Nitrogen is a key element in the nucleic acids DNA and RNA , which are the most important of all biological molecules and crucial for all living things.
DNA carries the genetic information, which means the instructions for how to make up a life form. When plants do not get enough nitrogen, they are unable to produce amino acids substances that contain nitrogen and hydrogen and make up many of living cells, muscles and tissue.
Without amino acids, plants cannot make the special proteins that the plant cells need to grow. Without enough nitrogen, plant growth is affected negatively. With too much nitrogen, plants produce excess biomass, or organic matter, such as stalks and leaves, but not enough root structure. In extreme cases, plants with very high levels of nitrogen absorbed from soils can poison farm animals that eat them [ 3 ]. Excess nitrogen can also leach—or drain—from the soil into underground water sources, or it can enter aquatic systems as above ground runoff.
This excess nitrogen can build up, leading to a process called eutrophication. Eutrophication happens when too much nitrogen enriches the water, causing excessive growth of plants and algae. When the phytoplankton dies, microbes in the water decompose them. Organisms in the dead zone die from lack of oxygen. These dead zones can happen in freshwater lakes and also in coastal environments where rivers full of nutrients from agricultural runoff fertilizer overflow flow into oceans [ 4 ].
Can eutrophication be prevented? People who manage water resources can use different strategies to reduce the harmful effects of algal blooms and eutrophication of water surfaces.
They can re-reroute excess nutrients away from lakes and vulnerable costal zones, use herbicides chemicals used to kill unwanted plant growth or algaecides chemicals used to kill algae to stop the algal blooms, and reduce the quantities or combinations of nutrients used in agricultural fertilizers, among other techniques [ 5 ].
But, it can often be hard to find the origin of the excess nitrogen and other nutrients. Once a lake has undergone eutrophication, it is even harder to do damage control.
Algaecides can be expensive, and they also do not correct the source of the problem: the excess nitrogen or other nutrients that caused the algae bloom in the first place! Another potential solution is called bioremediation , which is the process of purposefully changing the food web in an aquatic ecosystem to reduce or control the amount of phytoplankton. For example, water managers can introduce organisms that eat phytoplankton, and these organisms can help reduce the amounts of phytoplankton, by eating them!
The nitrogen cycle is a repeating cycle of processes during which nitrogen moves through both living and non-living things: the atmosphere, soil, water, plants, animals and bacteria. In order to move through the different parts of the cycle, nitrogen must change forms. In the atmosphere, nitrogen exists as a gas N 2 , but in the soils it exists as nitrogen oxide, NO, and nitrogen dioxide, NO 2 , and when used as a fertilizer, can be found in other forms, such as ammonia, NH 3 , which can be processed even further into a different fertilizer, ammonium nitrate, or NH 4 NO 3.
There are five stages in the nitrogen cycle, and we will now discuss each of them in turn: fixation or volatilization, mineralization, nitrification, immobilization, and denitrification. In this image, microbes in the soil turn nitrogen gas N 2 into what is called volatile ammonia NH 3 , so the fixation process is called volatilization. Leaching is where certain forms of nitrogen such as nitrate, or NO 3 becomes dissolved in water and leaks out of the soil, potentially polluting waterways.
In this stage, nitrogen moves from the atmosphere into the soil. To be used by plants, the N 2 must be transformed through a process called nitrogen fixation.
Fixation converts nitrogen in the atmosphere into forms that plants can absorb through their root systems. A small amount of nitrogen can be fixed when lightning provides the energy needed for N 2 to react with oxygen, producing nitrogen oxide, NO, and nitrogen dioxide, NO 2. These forms of nitrogen then enter soils through rain or snow.
Nitrogen can also be fixed through the industrial process that creates fertilizer. In: Blog , Laboratory Equipment. Preservation of Food Nitrogen gas is used to help with food preservation by preventing oxidative damage leading to food spoiling. Pharmaceuticals Industry Present in every major pharmaceutical drug, nitrogen gas is broadly used in the pharmaceutical industry including antibiotics and anesthetic.
Electronics Manufacturing Many may be suspires to learn that nitrogen is used in the manufacturing of electronics. Stainless Steel Manufacturing Nitrogen is used to remove impurities during the manufacturing process of stainless steel. Nitrogen gas has proven to be a beneficial element in a variety of industries and is plentiful. Upgrade your facilities by installing an Onsite Nitrogen Gas Generator.
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