What distinguishes primary air pollutants from secondary air pollutants?

• A. Primary pollutants are harmful upon release; secondary pollutants form in the air.
• B. Secondary pollutants are man-made, while primary pollutants occur naturally.
• C. Primary pollutants are more likely to be deadly; secondary pollutants are just irritants.
• D. Primary pollutants are larger than 10 micrometers; secondary ones are smaller.

Answer: (A)

Primary air pollutants are distinguished from secondary air pollutants primarily based on their formation and the time of their harmful effects. Primary pollutants are substances that are emitted directly into the atmosphere from sources such as vehicles, industries, and natural events like wildfires. These pollutants are harmful upon their release and can have immediate adverse impacts on health and the environment.

In contrast, secondary pollutants are not emitted directly; rather, they form in the atmosphere when primary pollutants react with other substances. For example, ground-level ozone is a secondary pollutant created when volatile organic compounds (VOCs) and nitrogen oxides (NOx), both primary pollutants, undergo chemical reactions in the presence of sunlight.

This distinction highlights the processes involved in the formation and impact of the pollutants, leading to the characterization of the first choice as the correct one. Understanding these differences is crucial for addressing air quality issues and implementing effective pollution control strategies.