Particles and visibility

Atmospheric pollution often affects visibility.  Visibility is defined as the greatest distance at which an observer can see a large black object against the sky on the horizon.  Several factors determine how far we can see through the atmosphere.  These include the characteristics of the atmosphere, the brightness of the sky, how good our eyes are and our perception.  We focus here on how atmospheric constituents affect visibility.

Light in the atmosphere

Light is a kind of energy that travels in waves. The wavelength of the light is the distance between the tops of the waves (shown by the arrow in Figure 1).  Light from the sun looks white, but is actually composed of several colours (those you see in a rainbow or using a prism).  The colours have different wavelengths, frequencies and energies.  Violet has the shortest wavelength in the visible spectrum, whereas red has the longest wavelength.

light - electromagnetic wave

1. Light is an electromagnetic wave.
Author: J. Gourdeau

Light travels in a straight line as long as nothing disturbs it. In outer space, light from a torch would only be seen by someone directly in the light’s path.   It's different in our atmosphere.  Light travels in a straight line until it bumps into a particle or a gas molecule.  What happens then depends on the wavelength (energy) of the light and the size of the thing the light hits.

Gas molecules and atmospheric particles are smaller than the wavelengths of visible light. When light hits a gas molecule, the molecule absorbs and scatters the light in a different directions. This is why at night we can see the beam of a torch even if we are not in the light’s path.  The different colours of light are scattered differently after collision.  The scattering is called Rayleigh Scattering.  It is more effective at short wavelengths (the blue component of visible light) and this is why the sky looks blue.

light scattering

2. The light is scattered by a particle or a molecule.
Author: J. Gourdeau.

Scattering of light by particles

Visibility is reduced when atmospheric particles between the observer and the object absorb or scatter light from the sun. Light scattering by particles is the most important phenomenon responsible for impairment of visibility.  Light can also be absorbed by atmospheric constituents: for example, elemental carbon (soot) and NO2 are particularly effective at absorbing light.

high visibility

3. When particle concentrations are very low, visibility is high, here it's around 250 km!
Source: National Glacier Park.

reduce visibility

4. Pollution episodes increase the particle concentration in the air and dramatically reduce visibility. Here the visibility is reduced to 70 km.
Source: National Glacier Park.

In an atmosphere totally devoid of particles, the theoretical visibility would be almost 300 km at sea level rising to around 500 km at the summit of Mont Blanc!

The size, concentration and chemical characteristics of the particles affect atmospheric visibility. The finest particles (particularly those between 0.1 and 1 µm) are most efficient at reducing visibility. These small particles are mostly of human origin. In Los Angeles during pollution events, visibility can be around 8 km, instead of almost 90 km during a clear day.

Humidity can significantly increase the effect of pollution on visibility.  Water soluble components of the fine aerosol population can grow to up to seven times their dry radius when the air is moist.  These particles scatter light efficiently causing visibility to decrease.

People's perception

Increases in the amount of fine particles in the atmosphere are associated with reductions in visibility, and this is considered to be an indicator of overall air quality.  How people perceive reductions in visibility depends on the environment.  People are less likely to accept a reduction in visibility in a wilderness area than in an urban environment.  In a public perception study in a town, the acceptable visibility was about 50 km.

poor visibility - inustrial area

5. Poor visibility in an industrial area.

About this page:
author: Justine Gourdeau - LaMP, Clermont-Ferrand, France.
scientific reviewer: Dr. Paolo Laj - LaMP, Clermont-Ferrand, France
last published: 2004-05-13

Sist endret: fredag, 17. januar 2020, 13:03