What is Photochemical smog?

Nitrogen oxides (NO_x) and volatile organic compounds (VOCs) are emitted into the atmosphere from many natural and anthropogenic processes. In the atmosphere, these substances enter a complex network of  photochemical reactions induced by ultraviolet light (UV-light) from the sun. These reactions lead to the formation of ozone (O₃), peroxyacetyl nitrate (PAN) and peroxybenzoyl nitrate (PBN ) and a number of other substances in the troposphere. The compounds share the term “photochemical smog” because they are generated by photochemical reactions and constitute a major part of the smog above many cities and industrialized areas. The photochemical smog compounds are toxic to humans, animals and plants and they degrade many materials. The smog can be observed as a red brownish cast in the air above many cities. 

Which compounds contribute to photochemical smog formation?

NO_x is a common term for NO and NO₂. The substances are emitted from combustion processes, e.g. coal combustion in power plants, gasoline or diesel combustion in cars and trucks, wood and gas combustion in stoves and cookers and waste incineration.

VOCs comprise a major group of organic compounds which evaporate readily into the atmosphere under ambient temperature and pressure conditions. The group includes substances such as benzene, ethanol and trichloroethane, and mixtures such as gasoline and turpentine. VOCs are also emitted from combustion processes.

What are the possible effects of photochemical smog?

Damage to plants

Tropospheric ozone is absorbed by plants through the leafs. In the leaves, ozone degrades chlorophyll. The loss of chlorophyll  inhibits photosynthesis and hence growth of the plant. This is critical for the natural balance of plants and animals in the environment and for human beings, because reduced photosynthesis leads to reduced output from agriculture. 

Damage to humans

At low concentrations, photochemical smog can cause reduced functionality of the lungs, chest constriction and eye, nose and throat irritation. At higher concentrations, smog can cause coughing and decreased ability to concentrate.

Damage to materials and products

Ozone attacks natural rubber, cellulose, synthetic polymers (plastics) etc. and reduces the life time of textiles, car tires, windscreen wipers, electrical insulation, etc. Ozone, PAN and PBN attack dyes and causes undesired bleaching of textile colors, for example.