Advantages of fertilizers in agriculture field, is too much fertilizer a problem?

ABSTRACT

Fertilizers are added to crops in order to produce enough food to feed the human population. Fertilizers provide crops with nutrients like potassium, phosphorus, and nitrogen, which allow crops to grow bigger, faster, and to produce more food. Nitrogen in particular is an essential nutrient for the growth of every organism on Earth. Nitrogen is all around us and makes up about 78% of the air you breathe. However, plants and animals cannot use the nitrogen gas in the air. To grow, plants require nitrogen compounds from the soil, which can be produced naturally or be provided by fertilizers. However, applying excessive amounts of fertilizer leads to the release of harmful greenhouse gases into the atmosphere and the eutrophication of our waterways. Scientists are currently trying to find solutions to reduce the environmentally harmful effects of fertilizers, without reducing the amount of food we can produce when using them.

WHAT IS FERTILIZER?

Fertilizer is any substance or material added to soil that promotes plant growth. There are many fertilizer varieties, and most contain nitrogen (N), phosphorus (P), and potassium (K). In fact, fertilizers sold in stores have an N-P-K ratio on their packaging. Fertilizers are applied all around the world to keep lawns green and to produce more crops in agricultural fields. Fertilizers can be divided into three groups:

• Mineral fertilizers (phosphorus and potash) are mined from the environment and crushed or chemically treated before being applied.
• Organic fertilizers (manure and compost) are made from animal feces, and plant or animal decomposed matter.
• Industrial fertilizers (ammonium phosphate, urea, ammonium nitrate) are produced industrially by humans through chemical reactions.

While organic and mineral fertilizers have been used to increase crop yields in agriculture for a long time, industrial fertilizers are a relatively new development. Even so, industrial fertilizers are the most widely used fertilizers today.

WHY DO WE NEED NITROGEN-CONTAINING FERTILIZERS?

Nitrogen is one of the elements, or nutrients, that all living things (microorganisms, plants, and animals) need to grow. Although, there is a lot of nitrogen all around us (~78% of the air we breathe), most of the nitrogen on Earth is present as a colorless and odorless gas, called nitrogen gas (N2). Unfortunately, plants and animals cannot directly use nitrogen gas. As humans, we get our nitrogen from the food we eat. High protein foods like meat, fish, nuts, or beans are high in nitrogen. Plants get their nitrogen from the soil and nitrogen is the most common nutrient to limit plant growth. There are two ways nitrogen gas is naturally transformed or “fixed” into nitrogen-containing compounds that can end up in soil, without human intervention:

Lightning: Lightning strikes generate enough energy to split nitrogen gas in the atmosphere creating nitrogen-containing compounds, which end up in soil.

Biological nitrogen fixation: Some microorganisms can use nitrogen gas directly as a nutrient. These specialized microorganisms convert nitrogen gas to ammonium (NH4+) and are called “nitrogen fixers.” Some nitrogen-fixing microorganisms live in soil, and some can form a close relationship with the roots of certain plants, like beans or clover.

HOW ARE NITROGEN-CONTAINING INDUSTRIAL FERTILIZERS PRODUCED?

As mentioned, most nitrogen on Earth is present as nitrogen gas, which is unusable for plants and animals. In the early 1900’s, scientists discovered how to transform nitrogen gas from the atmosphere into nitrogen-containing compounds that could be used to fertilize soils (Figure 1). This industrial fixation is called the Haber-Bosch processAn industrial nitrogen fixation process that can be performed in a laboratory to produce fertilizer components. It was discovered by and is named for the scientists Fritz Haber and Carl Bosch.. Almost all the nitrogen in industrial fertilizers is fixed through the Haber-Bosch process.

This industrial fixation of nitrogen is performed in chemical laboratories and large factories all over the world. The Haber-Bosch process requires that nitrogen gas be mixed with hydrogen gas (H2) and put under enormous pressure (200 times atmospheric pressure). This is the pressure you would feel if you dove 2,000 meters (~6,500 feet) underneath the sea, which is a longer distance than 6 Eiffel Towers stacked on top of one another! This pressurized gas mixture is then heated to very high temperatures (450°C/842°F). Sustaining these high pressures and temperatures requires a huge amount of energy. The Haber-Bosch process is estimated to consume 1–2% of the world’s energy supply each year [2].

WHY DO WE USE SO MUCH NITROGEN-CONTAINING INDUSTRIAL FERTILIZER?

The short answer is that nitrogen-containing fertilizers help crop plants grow faster and helps to produce more crops. This allows agricultural land to be used more efficiently because fertilized land produces more food. In fact, the invention of industrial fertilizers is one of the main reasons the Earth’s population has grown so quickly in the last 60–70 years. Before the widespread use of industrial fertilizers in the 1960’s, it took ~123 years for the Earth’s population to double from 1 to 2 billion (1804–1927). However, it only took ~45 years (1974–2019) for the Earth’s population to double from 4 to 8 billion. Now, we are so dependent on nitrogen fertilization that we would only be able to produce enough food to feed ~50% of the world’s population without it [1, 2].

WHERE DOES THE NITROGEN FROM NITROGEN-CONTAINING FERTILIZER END UP?

The crops take it up of course! Unfortunately, that is not the end of the story. For a more detailed look at all the reactions in the nitrogen cycle, you should read this Young Minds Article: “What is the Nitrogen Cycle and Why is it Key to Life” [3]. In an average agricultural field, only ~50% of the nitrogen from fertilizers is used by crops [4]. So, while fertilizers make crops grow better and faster, half of the fixed nitrogen we add is lost. Imagine that—we lose the equivalent of 12 million nitrogen elephants (~165 billion pounds) every year! The lost nitrogen can end up in the atmosphere or it can be washed out of the soil and end up in waterways, such as groundwater, streams, lakes, rivers, and oceans.

WHAT ENVIRONMENTAL PROBLEMS DO NITROGEN-CONTAINING FERTILIZERS CAUSE?

Some soil microorganisms can transform nitrogen provided in fertilizers into nitrogen-containing gases, which get released into the atmosphere like the greenhouse gas nitrous oxide (N2O). Greenhouse gasesGases that trap heat in the atmosphere much like the roof of a greenhouse traps heat to protect the plants growing in it from cold weather and frost. are one of the main factors accelerating global warming. Nitrous oxide has a warming potential ~300 times greater than the most commonly mentioned greenhouse gas, carbon dioxide (CO2).

In waterways, the addition of external nutrients (like excess nitrogen) is called eutrophicationA change in an environment’s nutrient status caused by high levels of nutrients (nitrogen or phosphorus) entering waterways (lakes, rivers, or oceans). One major consequence is harmful algal blooms and the loss of aquatic life.. Eutrophication is an unwanted fertilization of a waterway and it promotes the growth of microorganisms, algae, and plants, just like the fertilization of soil. However, the fast growth of microorganisms and plants can use up all the oxygen in these waterways and turn them into so-called dead zones, because aquatic animals cannot live without oxygen. Eutrophication can also lead to the growth of algal species that produce toxic chemicals, called harmful algal bloomsWhen cyanobacteria and algae grow very fast because of large amounts of nutrients (nitrogen or phosphorus) present in the waters they live in. These cyanobacteria and algae release harmful chemicals—toxins—into the waterway.

SUMMARY

Fertilizers provide crops with essential nutrients like nitrogen, so that the crops grow bigger, faster, and produce more food. However, applying too much fertilizer can be a problem because it leads to the release of greenhouse gases and eutrophication. Scientists are currently trying to find solutions to reduce the amount of fertilizers needed, without reducing the amount of food produced.

Courtesy: best fertilizer company in united states