Air Pollution
Air pollution is the release of contaminants in the air that are harmful to human health and the whole world. The Clean Air Act permits the U.S. to protect public health by controlling the emissions of these toxic air pollutants, the Environmental Protection Agency (EPA). Since it was set up in 1970, the NRDC has been a leading authority on this rule.
Burning fossil fuels emits gases and chemicals into the air. Air pollution not only leads to climate change in a highly harmful feedback loop, but is also compounded by an increase in the temperature of the earth. The increased heat then worsens another type of air pollution, when the weather is warmer and there is more ultraviolet radiation, smog forms. The production of allergenic air contaminants, including mould and pollen, is also increased by climate change (due to a elongated pollen season and more pollen production).
Air Pollutant
The material in the environment that can have harmful effects on humans and the ecosystem is an air pollutant. Strong particles, liquid droplets, or gases may be the material. A pollutant can be of natural or man-made origin. Pollutants are categorised as secondary or primary.
Processes such as ash from a volcanic eruption typically create primary contaminants. carbon-monoxide'>Carbon monoxide gas from motor vehicle exhausts or sulfur dioxide emitted from factories is another example. Primary contaminants are not explicitly emitted. Instead, as primary contaminants react or communicate, they form in the air. A common example of a secondary pollutant is ground-level ozone. Some contaminants can be both primary and secondary, both directly emitted from other primary pollutants and produced from them.
Carbon Dioxide:
It has been described as the' leading pollutant' and' the worst climate pollutant' because of its position as a greenhouse gas. Carbon dioxide, essential for plant life and emitted by the human respiratory system, is a natural component of the atmosphere. This topic of terminology has practical implications, such as whether the U.S. The Clean Air Act is known to control carbon dioxide.
Sulfur Oxides:
It is generated in various industrial processes and by volcanoes. coal-and-petroleum'>Coal and petroleum also contain sulfur compounds and sulfur dioxide is produced by their combustion. Further oxidation of sulfur oxides, typically in the presence of a catalyst such as oxides of nitrogen, forms sulfuric acid and thus forms acid rain. This is one of the reasons for concern about the effect of the use of these fuels as power sources on the environment.
Nitrogen Oxide:
Nitrogen oxides are expelled from high-temperature combustion, particularly nitrogen dioxide, and are also created by electrical discharge during thunderstorms. They can be seen above or a plume downwind of towns as a brown haze dome. It is one of the oxides of nitrogen. This reddish-brown toxic gas, one of the most popular air contaminants, has a distinctive sharp, biting odour.
Carbon Monoxide:
It is a poisonous, odourless, and colourless gas. It is a fuel-burning oil, such as natural gas, coal or wood. The bulk of carbon monoxide allowed into our atmosphere refers to vehicular exhaust. It causes the creation of a smog type in the air that has been connected to many lung diseases and natural environment and animal disturbances.
Greenhouse Gases
Greenhouse gas, any gas released from the Earth's surface that has the property of absorbing infrared radiation (heat energy) and reradiating it back to the surface of the Earth, thereby contributing to the greenhouse effect. The most significant greenhouse gases are carbon dioxide, methane, and water vapour (Surface-level ozone, nitrous oxides, and fluorinated gases also trap infrared radiation to a lesser extent).
While making up just a fraction of all atmospheric gases, greenhouse gasses have a profound influence on the Earth system's energy budget. During Earth's history, greenhouse gas concentrations have varied greatly, and these fluctuations have driven dramatic climate changes at a wide range of timescales. In general, greenhouse gas concentrations during warm periods were especially high and during cold periods were low.
Important Greenhouse Gases:
Water Vapour-
The most potent greenhouse gas in the Earth's atmosphere is water vapour, but its behaviour varies fundamentally from that of other greenhouse gases. Water vapour’s primary function is not as a direct radiative forcing agent, but rather as a climate feedback, i.e. as a reaction within the climate system that affects the continuing operation of the system.
Carbon Dioxide-
The most significant greenhouse gas is carbon dioxide. Natural sources of atmospheric carbon dioxide include volcano outgassing, organic matter combustion and natural decline, and aerobic (oxygen-using) organisms breathing. On average, these sources are balanced by a collection of physical, chemical, or biological processes called "sinks," which appear to be separated from the atmosphere.
Methane-
The second most powerful greenhouse gas is methane. Since the radiative force produced per molecule is greater, methane is more potent than carbon dioxide. Moreover, in the range of wavelengths of radiation absorbed by methane, the infrared window is less saturated, so more molecules can fill the area. Methane, however, occurs at much lower concentrations than ambient carbon dioxide, and its atmospheric volume concentrations are usually measured in parts per billion (ppb) instead of ppm. Methane also has a slightly shorter residence time than carbon dioxide in the atmosphere.
What is the Difference Between Air Pollution and Greenhouse Gases?
FAQs on Difference Between Air Pollution and Greenhouse Gases
1. What is the main difference between air pollution and greenhouse gases?
The main difference lies in their primary effect on the environment. Air pollution refers to the presence of harmful substances (pollutants) in the atmosphere that can cause direct harm to human health, animals, and plants. Greenhouse gases are gases that trap heat in the atmosphere, leading to a gradual increase in the Earth's temperature, known as the greenhouse effect and global warming. While some greenhouse gases are also air pollutants, their defining characteristic is heat-trapping, not direct toxicity.
2. What are the primary sources of air pollutants versus greenhouse gases?
While there is significant overlap, their sources can be distinguished:
- Sources of Air Pollutants: Primarily from activities that release a wide range of harmful substances. This includes vehicle exhaust (releasing nitrogen oxides, carbon monoxide), industrial emissions (releasing sulfur dioxide, particulate matter), burning of waste, and natural events like volcanic eruptions.
- Sources of Greenhouse Gases: Primarily from activities that increase the concentration of heat-trapping gases. Key sources include burning fossil fuels (coal, oil, and natural gas for electricity and transport, releasing CO2), deforestation (which reduces the absorption of CO2), agriculture (releasing methane), and various industrial processes.
3. What are the major health effects of air pollution on humans?
Air pollution can cause both acute (short-term) and chronic (long-term) health problems. The most dangerous pollutants are fine particulate matter (PM2.5), which can penetrate deep into the lungs and enter the bloodstream. This can lead to:
- Respiratory issues like asthma, bronchitis, and chronic obstructive pulmonary disease (COPD).
- Cardiovascular problems such as an increased risk of heart attack, stroke, and ischaemic heart disease.
- Damage to other organs, including the brain, and an increased risk of certain types of cancer.
4. Can a substance be both an air pollutant and a greenhouse gas?
Yes, absolutely. Many substances function as both. The distinction is based on their primary impact. For example:
- Carbon Dioxide (CO2): It is the most significant greenhouse gas due to its heat-trapping ability. While not directly toxic in the way other pollutants are, at very high concentrations it can be harmful and is thus also considered a pollutant.
- Methane (CH4): A potent greenhouse gas and also a component of smog, making it an air pollutant.
- Ground-level Ozone (O3): A harmful air pollutant that damages the respiratory system and is also a significant greenhouse gas.
5. What is the difference between an air pollutant and air pollution?
This is a key distinction between a substance and a condition. An air pollutant is the specific harmful substance itself, such as sulfur dioxide gas or a particle of soot. Air pollution is the overall state or condition where the concentration of one or more of these pollutants in the air is high enough to be harmful to living organisms and the environment.
6. Is the greenhouse effect always a bad thing?
No, the natural greenhouse effect is essential for life on Earth. Naturally occurring greenhouse gases, like water vapour and carbon dioxide, trap some of the sun's heat, keeping our planet's average temperature stable and warm enough to support life. The problem is the enhanced greenhouse effect, which is caused by excess greenhouse gases from human activities. This enhancement traps too much heat, leading to global warming and climate change.
7. If all greenhouse gases were removed from the atmosphere, what would happen to Earth?
If all greenhouse gases were to disappear, the Earth would become a frozen and uninhabitable planet. Without the natural greenhouse effect to trap solar heat, the planet's average surface temperature would drop to approximately -18°C. This demonstrates the critical role that a balanced concentration of greenhouse gases plays in maintaining a climate suitable for life as we know it.
