Has there ever been a big bonfire near your home? If so, the air probably smelt smoky and may have even looked a little grey. That's because the bonfire has released particulate matter into the air. Particulate matter is a form of air pollution.
We discuss the definition of air pollutants, their causes and sources, the different types that exist, the difference between primary and secondary pollutants, and some examples. Take a deep breath and get ready to learn about air pollutants!
The Definition of Air Pollutants
What exactly is the definition of air pollutants? Air pollutants can either be natural or artificial substances introduced into the environment in a concentration sufficient to have some sort of measurable effect on living things and the planet as a whole.
Air pollutants are particles or chemicals in the air that are harmful to human health and the environment.
Air pollutants can be solids, liquids, or gases. They can come from natural sources or originate from human activities like burning fossil fuels.
Sources of Air Pollutants
Among the criteria for classifying air pollutants is the nature of their source. Sources of air pollutants are either natural or anthropogenic (human).
Natural sources of air pollutants include:
Volcanic eruptions
Wildfires
Dust storms
Sea salt spray
Plants
Human Causes of Air Pollutants
One of the main causes of air pollutants is human activity. A major source of atmospheric pollutants is the combustion of fossil fuels.
Fossil fuels are mixtures made of fossilised animal and plant remains from millions of years ago. The three main types of fossil fuels are coal, oil, and natural gas.
Fossil fuels are burned to release energy. However, they also release carbon dioxide (a greenhouse gas) and harmful atmospheric pollutants.
Human sources of air pollutants can be either:
Figure 1: Car engines are a major source of air pollutants. Source: unsplash.com
Types of Air Pollutants
Now, we're going to look at four common types of air pollutants in detail: carbon monoxide, sulphur dioxide, oxides of nitrogen, and particulates.
Carbon Monoxide
Carbon monoxide (CO) is a toxic gas produced by the incomplete combustion of hydrocarbon fuels.
The carbon monoxide molecule contains a strong triple bond.
Sources of Carbon Monoxide
When hydrocarbon fuels are burned in the air, they produce carbon dioxide and water. For example, let's look at the combustion of propane:
C3H8 + 5O2 → 3CO2 + 4H2O
However, incomplete combustion occurs when the supply of oxygen is poor. Carbon monoxide is produced alongside carbon dioxide:
C3H8 + 4O2 → CO2 + 2CO + 4H2O
Incomplete combustion is common in vehicle engines, which can be poorly ventilated.
In fact, vehicles are the source of 75% of carbon monoxide pollution in the US!
Effects of Carbon Monoxide
Red blood cells contain a protein called haemoglobin – a red protein responsible for transporting oxygen around the bloodstream. If carbon monoxide is inhaled, it bonds with haemoglobin molecules in place of oxygen, reducing the capacity of the blood to transport oxygen.
Symptoms of carbon monoxide poisoning include nausea, headaches, dizziness, and loss of consciousness. High doses can lead to oxygen starvation and even death.
Sulphur Dioxide
Sulphur dioxide (SO2) is a toxic gas produced by the combustion of sulphur.
Sources of Sulphur Dioxide
Burning fuels containing sulphur produces sulphur dioxide: S + O2 → SO2
Coal burned in power stations and diesel burned in ships often contain sulphur.
Effects of Sulphur Dioxide
In moist air, sulphur dioxide reacts with water vapour to form sulphuric acid (H2SO4), producing acid rain. Consequences of acid rain include:
Soil erosion, affecting nutrient availability
Plant death
Acidification of aquatic environments, harming living organisms
Damage to buildings and infrastructure
Figure 2: A forest on the German-Czech border devastated by acid rain. Source: Wikimedia Commons
The health effects of sulphur dioxide include respiratory complaints. Inhalation irritates the nose and throat. Exposure to higher concentrations leads to stomach pain and vomiting.
Oxides of Nitrogen
Oxides of nitrogen (NOx) are a group of highly reactive gases made of nitrogen and oxygen.
Sources of Oxides of Nitrogen
Oxides of nitrogen are indirectly produced by burning hydrocarbons. Vehicle engines typically burn hydrocarbons between 75 and 105ºC. In these hot conditions, nitrogen and oxygen molecules combine to form nitrogen monoxide.
N2 + O2 → 2NO
When nitrogen monoxide is released from vehicle exhausts, it reacts with oxygen in the air to form nitrogen dioxide.
2NO + O2 → 2NO2
Oxides of Nitrogen Effects
Like sulphur dioxide, oxides of nitrogen can contribute to acid rain. When NOx react with water and air, they produce nitric acid (HNO3).
Oxides of nitrogen also lead to photochemical smogs – brown hazes affecting visibility.
Exposure to oxides of nitrogen results in irritation of the eyes and nose, headaches, and abdominal pain. Chronic exposure can cause respiratory conditions, such as asthma.
Particulates
Particulates are tiny solid particles, typically measuring less than 10 μm (micrometres) in diameter.
Pollen contributes to particulate pollution.
Sources of Particulates
The predominant source of particulate pollution is the incomplete combustion of hydrocarbon fuels in diesel engines producing carbon (soot).
For example, look at this incomplete combustion of hexane:
C6H14 + 5O2 → 3CO + 3C + 7H2O
Other sources include: Effects of Particulates
Inhaling particulate pollution is associated with respiratory diseases. Small particles can penetrate deep into people's lungs, leading to heart disease and lung cancer.
High levels of particulates can worsen smogs and modify albedo.
Figure 3: Nelson's Column during the Great Smog of London, 1952. High levels of particulate pollution during a temperature inversion led to this unusual weather event. Approximately 12,000 people died as a result. Source: Wikimedia Commons
Albedo is a measure of the reflectivity of a surface.
Albedo is measured on a scale from 0 to 1. The higher the albedo, the more reflective a surface.
Particulate matter with a high albedo reflects solar energy away from Earth, causing a decline in temperature and light availability.
Alternatively, some particulate matter has a low albedo and thus absorbs solar energy. If this particulate matter lands on ice or snow, it enhances melting and increases sea level.
Volcanic eruptions are a natural source of particulate pollution. Major eruptions can release vast quantities of ash and dust into the atmosphere, reflecting solar energy away from Earth and triggering a volcanic winter. Temperatures drop, and plants struggle to photosynthesise effectively, leading to famines.
Secondary Air Pollutants
What's the difference between primary pollutants and secondary air pollutants? Well, primary pollutants are emitted directly from a source. In contrast, secondary pollutants are formed in the atmosphere. Secondary pollutants are much harder to control, as they can be synthesised in many ways.
Ozone (O3) plays an important role as a protective shield in the stratosphere. But on the surface, it can cause problems for humans and the environment. Inhalation of ozone causes irritation of the respiratory system and can trigger asthma attacks.
Surprisingly, bakeries are a significant source of ground-level ozone pollution. When yeast is baked, it releases a sweet, ethanol-based aroma. When exposed to sunlight, the ethanol decomposes into ozone molecules.
Air pollutants are particles or chemicals in the air that are harmful to human health and the environment. Some pollutants have natural causes, but many originate from the combustion of fossil fuels. Major air pollutants include carbon monoxide, sulphur dioxide, nitrogen oxides, and particulates.
Air Pollutants - Key takeaways
- Air pollutants are particles or chemicals in the air that threaten human health and the environment. They can come from natural sources, but many originate from the combustion of fossil fuels.
- Carbon monoxide is a toxic gas produced by the incomplete combustion of hydrocarbon fuels. It affects oxygen transport in the body.
- Sulphur dioxide is a toxic gas produced by the combustion of sulphur. It leads to acid rain and respiratory complaints.
- Oxides of nitrogen are formed at high temperatures. They cause acid rain, smog, and respiratory complaints.
- Particulates are tiny solid particles produced by incomplete combustion. They cause respiratory complaints, and they impact smogs and albedo.
- Primary pollutants are emitted directly from a source; secondary pollutants are formed in the atmosphere.
1. Alessandra Potenza, In 1952 London, 12,000 people died from smog — here's why that matters now, The Verge, 2017
2. AutoDoc, Causes of overheating, 2022
3. Linda C. Brinson, How Much Air Pollution Comes From Cars?, HowStuffWorks, 2021
References
- Fig. 1: image (https://unsplash.com/photos/I74mkR_3OP0) by Matt Boitor, free to use under the Unsplash License.
- Fig. 2: Waldschaeden Erzgebirge 2 (File:Waldschaeden Erzgebirge 2.jpg - Wikimedia Commons ) by bdk, CC BY-SA 3.0
- Fig. 3: Nelson’s Column during the Great Smog of 1952 (https://upload.wikimedia.org/wikipedia/commons/0/02/Nelson%27s_Column_during_the_Great_Smog_of_1952.jpg) by N T Stobbs, CC BY-SA 2.0
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