Urban climate: Difference between revisions

The climate in urban areas differs from that in neighboring rural areas, as a result of urban development. Urbanization greatly changes the form of the landscape, and also produces changes in an area's air.

In 1950 Åke Sundborg published one of the first theories on the climate of cities.^[1][2]

Temperature

Temperatures are higher in cities than the surrounding rural areas—this area is called the urban heat island. With rapid growth of megacities in the world, more sensible heat fluxes go to the atmosphere and thus making higher air temperature around urban area and its surrounding rural area.^[3] There are a number of causes of the urban heat island:

• Building materials have a lower specific heat capacity (the amount of energy that will heat a kilogram of a material by 1 °C) than grass and trees—the specific heat capacity of concrete is 800 Joules/kg whereas for soil it can be 2000 Joules/kg, so concrete heats up more quickly in the day, warming the air around it.
• Buildings are heated while the vehicles and air conditioning systems generate heat.
• Buildings act as a barrier to winds which would otherwise distribute heat and cool the city.
• Buildings and roads with dark surfaces have a lower albedo (reflectivity) and absorb more sunlight, becoming hotter. Sunlight not absorbed by buildings is mostly reflected into other buildings.
• Natural sources of water and humidity that can exert a positive cooling oasis effect are rare (subterranean, canalized urban streams)

The urban heat island effect tends to be stronger in winter because the colder air above the city is less able to rise by convection to allow the hot air inside the city to escape into the atmosphere. The effect is greater at night ^{[citation needed]}.

Precipitation

Because cities are warmer, the hot air is more likely to rise, and if the humidity is high it will cause convectional rainfall – short intense bursts of rain and thunderstorms. Urban areas produce particles of dust (notably soot) and these act as hygroscopic nuclei which encourages rain production. Because of the warmer temperatures there is less snow in the city than surrounding areas.

Winds

Wind speeds are often lower in cities than the countryside because the buildings act as barriers (wind breaks). On the other hand, long streets with tall buildings can act as wind tunnels – winds funnelled down the street – and can be gusty as winds are channelled round buildings (eddying).

Humidity

Cities usually have a lower relative humidity than the surrounding air because cities are hotter, and rainwater in cities is unable to be absorbed into the ground to be released into the air by evaporation, and transpiration does not occur because cities have little vegetation. Surface runoff is usually taken up directly into the subterranean sewage water system and thus vanishes from the surface immediately. Better understanding of urban temperature and water vapor contributions and/ or loss will reveal the reasons for lower relative humidity within cities, especially since relative humidity is dependent on temperature changes.^[4]

See also

• Air pollution
• Urban climatology
• Urban studies

References

1. "Kungl. Vetenskapsakademiens årsberättelse 2007" (PDF) (in Swedish). No. 81. Stockholm. 2008. pp. 30–31. {{cite magazine}}: Cite magazine requires |magazine= (help)
2. Hoppe, Gunnar (1986). "Åke Sundborg". Geografiska Annaler. 69 (1): 1–3. doi:10.1080/04353676.1987.11880191.
3. Hong, Je-Woo; Hong, Jinkyu (2016-02-24). "Changes in the Seoul Metropolitan Area Urban Heat Environment with Residential Redevelopment". Journal of Applied Meteorology and Climatology. 55 (5): 1091–1106. doi:10.1175/JAMC-D-15-0321.1. ISSN 1558-8424.
4. Ackerman, Bernice. "Climatology of Chicago Area Urban-Rural Differences in Humidity". journals.ametsoc.org. doi:10.1175/1520-0450(1987)026%3C0427:cocaur%3E2.0.co;2. Retrieved 2019-02-10. {{cite web}}: Cite has empty unknown parameter: |dead-url= (help)