Physics:Atmospheric temperature

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Atmospheric temperature is a measure of temperature at different levels of the Earth's atmosphere. It is governed by many factors, including incoming solar radiation, humidity and altitude. When discussing surface air temperature, the annual atmospheric temperature range at any geographical location depends largely upon the type of biome, as measured by the Köppen climate classification [1]

Temperature versus altitude

These images show temperature trends in two thick layers of the atmosphere as measured by a series of satellite-based instruments between January 1979 and December 2005. The measurements were taken by Microwave Sounding Units and Advanced Microwave Sounding Units flying on a series of National Oceanic and Atmospheric Administration (NOAA) weather satellites. The instruments record microwave energy emitted from oxygen molecules in the atmosphere. Source: [1]
Image shows the vertical structure of the atmosphere according to temperature differences.
Main page: Lapse rate

Temperature varies greatly at different heights relative to the Earth's surface and this variation in temperature characterizes the four layers that exist in the atmosphere. These layers include: the Troposphere, Stratosphere, Mesosphere, and Thermosphere.

The troposphere is the lowest of the four layers, extending from the surface of the Earth to about 11 km (7 mi) into the atmosphere where the tropopause (the boundary between the troposphere stratosphere) is located. The width of the troposphere can vary depending on latitude, for example, the troposphere is thicker in the tropics (about 16 km or 10 mi) because the tropics are generally warmer, and thinner at the poles (about 8 km or 5 mi) because the poles are colder. Temperatures in the atmosphere decrease with height at an average rate of 6.5°C/km. Because the troposphere experiences its warmest temperatures closer to Earth's surface, there is great vertical movement of heat and water vapour, causing turbulence. This turbulence, in conjunction with the presence of water vapour, is the reason that weather occurs within the troposphere.[2][3]

Following the tropopause is the stratosphere. This layer extends from the tropopause to the stratopause which is located at an altitude of about 50 km (31 mi). Temperatures remain constant with height from the tropopause to an altitude of 20 km (12.5 mi), after which they start to increase with height. This happening is referred to as an inversion and It is because of this inversion that the stratosphere is not characterised as turbulent. The stratosphere receives its warmth from the sun and the ozone layer which absorbs ultraviolet radiation.

The next layer is called the mesosphere which extends from the stratopause to the mesopause, located at an altitude of 85 km (53 mi). Temperatures in the mesospere decrease with altitude and are in fact the coldest in the Earth's atmosphere[4] This decrease in temperature can be attributed to the diminishing radiation received from the Sun, after most of it has already been absorbed by the thermosphere.[2]

The fourth layer of the atmosphere is known as the thermosphere which extends from the mesopause to the 'top' of the collisional atmosphere. Some of the warmest temperatures can be found in the thermosphere, due to its reception of strong ionizing radiation at the level of the Van Allen radiation belt.

Temperature range

The variation in temperature that occurs from the highs of the day to the cool of nights is called diurnal temperature variation. Temperature ranges can also be based on periods of a month, or a year.

The size of ground-level atmospheric temperature ranges depends on several factors, such as:

  • The average temperature
  • The average humidity
  • The regime of winds (intensity, duration, variation, temperature, etc.)
  • The proximity to large bodies of water, such as the sea
Average maximum, minimum and range of monthly air temperatures recorded in Campinas, Brazil , between January 2001 and July 2006
Average maximum, minimum and range of monthly air temperatures recorded in Aracaju, state of Sergipe, Brazil , between January 2001 and July 2006

The figure at below-left shows an example of monthly temperatures recorded at one of such locations, the city of Campinas, state of São Paulo, Brazil , which lies approximately 60 km north of the Capricorn line (latitude of 22 degrees). Average yearly temperature is 22.4 degrees Celsius, ranging from an average minimum of 12.2 degrees to a maximum of 29.9 degrees. The average temperature range is 11.4 degrees.[5] Variability along the year is small (standard deviation of 2.31 for the maximum monthly average and 4.11 for the minimum). It is easy to see in the graph another typical phenomenon of temperature ranges, which is its increase during winter (lower average air temperature).

In Campinas, for example, the daily temperature range in July (the coolest month of the year) may vary between typically 10 and 24 degrees Celsius (range of 14), while in January, it may range between 20 and 30 degrees Celsius (range of 10).

The effect of latitude, tropical climate, constant gentle wind and sea-side locations show smaller average temperature ranges, smaller variations of temperature, and a higher average temperature (second graph, taken for the same period as Campinas, at Aracaju, capital of the state of Sergipe, also in Brazil, at a latitude of 10 degrees, nearer to the Equator). Average maximum yearly temperature is 28.7 degrees Celsius and average minimum is 21.9. The average temperature range is 5.7 degrees only. Temperature variation along the year in Aracaju is very damped (standard deviation of 1.93 for the maximum temperature and 2.72 for the minimum temperature).[5]

Significance

A location which combines an average temperature of 19 degrees Celsius, 60% average humidity and a temperature range of about 10 degrees Celsius around the average temperature (yearly temperature variation) is considered ideal in terms of comfort for the human species. Most of the places with these characteristics are located in the transition between temperate and tropical climates, approximately around the tropics, particularly in the Southern hemisphere (the tropic of Capricorn).[citation needed]

Lifted minimum temperature

The minimum temperature on calm, clear nights has been observed to occur not on the ground, but rather a few tens of centimeters above the ground. The lowest temperature layer is called Ramdas layer after L. A. Ramdas, who first reported this phenomenon in 1932 based on observations at different screen heights at six meteorological centers across India.[6][7] The phenomenon is attributed to the interaction of thermal radiation effects on atmospheric aerosols and convection transfer close to the ground.

Global temperature

See also: Schumann resonances#Global temperature

The concept of a global temperature is commonly used in climatology, and denotes the average temperature of the Earth based on surface,[8] near-surface or tropospheric measurements. These temperature records and measurements are typically acquired using the satellite or ground instrumental temperature measurements, then usually compiled using a database or computer model. Long-term global temperatures in paleoclimate are discerned using proxy data.

See also

References

  1. Köppen, Wladimir (2011-06-01). "The thermal zones of the Earth according to the duration of hot, moderate and cold periods and to the impact of heat on the organic world" (in en). Meteorologische Zeitschrift 20 (3): 351–360. doi:10.1127/0941-2948/2011/105. ISSN 0941-2948. Bibcode2011MetZe..20..351K. http://www.schweizerbart.de/papers/metz/detail/20/76135/The_thermal_zones_of_the_Earth_according_to_the_du?af=crossref. 
  2. 2.0 2.1 Ross, Sheila Loudon, 1958- (11 March 2013). Weather and climate: an introduction. Don Mills, Ontario, Canada. ISBN 978-0-19-544587-9. OCLC 812064583. 
  3. Thompson, Russell D.. Atmospheric Processes and Systems, Routledge, 1998. ProQuest Ebook Central, https://ebookcentral-proquest-com.
  4. "Earth's Atmosphere: A Multi-layered Cake". https://climate.nasa.gov/news/2919/earths-atmosphere-a-multi-layered-cake/. 
  5. 5.0 5.1 "Station statistics" (in pt). Agritempo. Archived from the original on October 12, 2013. https://web.archive.org/web/20131012041528/http://www.agritempo.gov.br/agroclima/sumario?uf=SP. Retrieved October 11, 2013. 
  6. Ramdas, L.A. and Atmanathan, S., 1932. The vertical distribution of air temperature near the ground at night. Beitrage zur Geophysik, v.37, pp. 116–117.
  7. Lake, JV (1955). "The nocturnal heat balance". Nature 176 (4470): 32–33. doi:10.1038/176032b0. Bibcode1955Natur.176...32L. 
  8. Hansen, James E.. "GISS Surface Temperature Analysis (GISTEMP)". National Aeronautic and Space Administration. Goddard Institute for Space Studies. http://data.giss.nasa.gov/gistemp/. Retrieved 1 September 2011.