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Urban Effect on Climate

Both land surface and air are altered by urbanization. Buildings change the geometric arrangement of the land surface, creating a rigid, rough system of blocks and street "canyons," especially in the centre of cities.
Yellowknife in Winter
The climate severity index of Yellowknife, at 57, is extreme compared with most cities (photo by L. Smith/courtesy Govt of NWT).

Urban Effect on Climate

 Urban effect on climate is one of the best examples of unintentional modification of the atmosphere by humans (see CLIMATOLOGY). The construction of every building, road and parking lot creates a new, local microclimate. Taken together with the AIR POLLUTION resulting from human activities, these changes constitute the local effect of a settlement upon its CLIMATE. In Canada such effects have been observed in villages with as few as a thousand inhabitants, as well as in metropolitan areas, and in all climatic regions.

Both land surface and air are altered by urbanization. Buildings change the geometric arrangement of the land surface, creating a rigid, rough system of blocks and street "canyons," especially in the centre of cities. This changes the airflow over the city and creates traps for incoming and outgoing radiant energy. Construction materials alter the rate of uptake or loss of either heat or water by the surface. Changes in the composition of the air are produced by the release of heat, water vapour and pollutants from combustion of fuels and other activities. Pollutants may alter both the transfer of radiation and the growth of CLOUD droplets.

All of the climatic elements (sunshine, temperature, humidity, wind, etc) are affected by the presence of the city. The impact is discernible on an annual basis and over a period of years as a city grows, but it is usually best displayed on individual days during fine weather (clear skies and light winds). For example, pollution decreases the amount of solar energy in Montréal by about 9% annually, but on individual days the decrease may be as great as 25%. A "heat island" often exists in a city centre because it is warmer than the surrounding countryside. In most large cities in Canada the annual heat-island effect is 1-2°C, but on occasion it is much larger. On clear, calm summer evenings the heat island can be as large as 5-6°C in Brandon, 6-7°C in St-Hyacinthe, 9-10°C in Hamilton, 10-11°C in Vancouver and 11-12°C in Winnipeg, Edmonton and Montréal. The latter values are some of the largest in the world. Even during arctic nights, towns such as Inuvik have a heat island.

The relative humidity is almost always lower in a city (because of the warmth), but the actual amount of moisture is often greater, especially at night and in winter. In Prairie centres such as Edmonton, the winter release of water vapour from the combustion of natural gas used for heating gives greater humidity and the possibility of ice FOG at temperatures below about -30°C. Ice fog is also an unpleasant feature of high-latitude settlements such as Inuvik.

Winds are generally reduced in the city except around tall buildings, where "jetting" may be a problem. Cities also induce their own breeze circulations. Little is known about the effects of Canadian cities on precipitation. Foreign research would suggest that cities enhance summer precipitation, but the heat island may melt some of the snowfall before it is registered.