Nutrient Cycles

Nitrogen fixation is the process of converting atmospheric nitrogen into ammonium ions. Nitrification is the process of converting ammonium ions into nitrite or nitrate ions.

Precipitation and ice-melt.

False.

True.

The main source of phosphorus is weathering, the process in which breaking down of rocks occurs. Phosphorus is absorbed by organisms including plants and animals. Phosphorus is released back into the atmosphere by decomposition. The cycle can then be repeated.

Phosphate ions (PO4^3-).

Plants would become more susceptible to droughts, and less nutrients would be available for the plants to take up.

When lightning strikes, the energy separates gaseous nitrogen and releases free nitrogen atoms. These have an opportunity to bind with oxygen molecules and form nitrates.

Breathing and respiration, and photosynthesis. They are complementary to each other.

Water cycle.

Burning of fossil fuels, which releases carbon into the atmosphere as carbon dioxide.

Production of proteins, amino acids, and nucleic acids.

Prokaryotes and eukaryotes.

Rhizobium, a nitrogen-fixing bacteria, colonise the legume plant’s root cells, where they fix nitrogen. They will receive sugars in return.

The nitrogen cycle is a biogeochemical cycle during which organic and inorganic nitrogen in different chemical forms will circle through the atmosphere, terrestrial and marine environments. Nitrogen cycle is important because nitrogen is an important building block in all living organisms. Nitrogen is used to make amino acids, proteins and DNA.

Nitrification refers to the oxidation of nitrogen compounds. Denitrification is  the reduction of oxidised nitrogen compounds.

Nitrogen gas is only available to nitrogen-fixing microorganisms.

Phytoplankton.

Nitrogen atoms in the atmospheric nitrogen molecule are held by covalent bonds. This means that the atoms share three pairs of electrons. These bonds can be broken by lightning which carries enough energy to split the atoms. When the nitrogen molecule splits, it bonds to the oxygen atoms, forming nitrogen oxides (NOx).

The Haber-Bosch process is an artificial way to produce ammonia. During the process, nitrogen gas is combined with hydrogen gas at a high temperature and a high-pressure environment.

True.

False.

Denitrification refers to the removal of oxygen from the nitrate ions to nitrogen gas by anaerobic bacteria. Denitrification happens in anoxic/anaerobic conditions. Environments such as wetlands are waterlogged, they are important in reducing excess nitrogen levels.

Microbes respiring anaerobically will use organic nitrate as electron acceptors. This is the DNRA (nitrate/nitrite ammonification) process.

False.

Leaching, eutrophication and reduced species diversity.

In agriculture, nutrient levels need to be monitored to maximise soil productivity. It is also important to monitor excess ammonia and nitrites in the soil, as these in excess amounts are toxic. Monitoring can also prevent nutrient runoff into the water bodies. This will prevent eutrophication.

A large amount of crop feed is used to feed cattle. The crop feed will require large amounts of fertiliser to grow which could lead to soil imbalances and have other negative effects on the environment. 

Disruption of the nitrogen cycle leads to the imbalances within the ecosystem. Soil containing excess nitrogen will have a lower pH compared to the soil that has a normal concentration of nitrogen. Too much nitrogen in the oceans will lead to eutrophication. Leaching is one of the main causes of nutrient runoff into the water bodies.

Natural and artificial.

Plants use inorganic nutrients for growth. Fertilisers will add essential nutrients back into the soil. Artificial fertilisers will be quickly released as they only need to dissolve in water.

Plant-based, animal-based and mineral-based.

Egg shells contain calcium. Calcium is essential in the structural growth of the cells. This includes the growth of the cell wall and the membrane.

False.

Manure is extremely rich in nutrients. Adding only manure can cause nutrient burns on a plant from over-fertilisation.

Natural fertilisers consist of organic matter from living organisms, while artificial fertilisers are a petroleum industry by-product. Natural fertilisers contain a lower concentration of nutrients than synthetic fertilisers. Natural fertilisers are slow-release, while synthetic compounds need only to dissolve in water to be accessed by plants. Artificial fertilisers are likely to cause leaching, nutrient runoff and nutrient burns. Organic fertiliser also improves the soil structure.

Soil conditioning is the improvement of soil’s physical qualities. Plant-based fertilisers will add natural humus to the soil which helps to improve soil’s porosity and improves moisture retention.

Urine contains urea which contains a high concentration of nitrogen. Too much nitrogen can cause nitrogen burns on the plant leaves.

Fertilisation refers to the action of applying fertilisers to the soil or land.

Natural fertilisation, synthetic fertilisers, soil’s self-renewal.

Humus is a dark organic matter that forms in the soil when the plant and animal decomposes. It is broken down and stable. Humus will be broken down by microorganisms. Humus is important in soil porosity maintenance and prevents nutrient runoff. Humus can act as a sponge to retain nutrients that can be accessed by the plants.