mesosphere

Dictionary: mes·o·sphere (mĕz'ə-sfîr', mĕs'-) pronunciation

n.
The portion of the atmosphere from about 30 to 80 kilometers (20 to 50 miles) above the earth's surface, characterized by temperatures that decrease from 10°C to −90°C (50°F to −130°F) with increasing altitude.

mesospheric mes'o·spher'ic (-sfîr'ĭk, -sfĕr'-) adj.

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Sci-Tech Encyclopedia: Mesosphere

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A layer within the Earth's atmosphere that extends from about 50 to 85 km (31 to 53 mi) above the surface. The mesosphere is predominantly characterized by its thermal structure. On average, mesospheric temperature decreases with increasing height.

Temperatures range from as high as 12°C (53°F) at the bottom of the mesosphere to as low as −133°C (−208°F) at its top. The top of the mesosphere, called the mesopause, is the coldest area of the Earth's atmosphere. Temperature increases with increasing altitude above the mesopause in the layer known as the thermosphere, which absorbs the Sun's extreme ultraviolet radiation. In the stratosphere, the atmospheric layer immediately below the mesosphere, the temperature also increases with height. The stratosphere is where ozone, which also absorbs ultraviolet radiation from the Sun, is most abundant. The transition zone between the mesosphere and the stratosphere is called the stratopause. Mesospheric temperatures are comparatively cold because very little solar radiation is absorbed in this layer. Meteorologists who predict weather conditions or study the lowest level of the Earth's atmosphere, the troposphere, often refer to the stratosphere, mesosphere, and thermosphere collectively as the upper atmosphere. However, scientists who study these layers distinguish between them; they also refer to the stratosphere and mesosphere as the middle atmosphere. See also Atmosphere; Meteorology; Stratosphere; Thermosphere; Troposphere.

In the lower part of the mesosphere, the difference between the temperature at the summer and winter poles is of order 35°C (63°F). This large temperature gradient produces the north-south or meridional winds that blow from summer to winter. Temperatures in the upper mesosphere are colder in summer and warmer in winter, resulting in return meridional flow from the summer to the winter hemisphere. Although the temperature gradient in the upper part of the mesosphere remains large, additional complications result in wind speeds that are much slower than they are in the lower part of the mesosphere. Winds in the east-west or zonal direction are greatest at mesospheric middle latitudes. Zonal winds blow toward the west in summer and toward the east in winter. Like their meridional counterparts, zonal winds are comparatively strong near the bottom of the mesosphere and comparatively weak near the top. Thus, on average both temperature and wind speed decrease with increasing height in the mesosphere. See also Atmospheric general circulation.

Meteors which enter the Earth's atmosphere vaporize in the upper mesosphere. These meteors contain significant amounts of metallic atoms and molecules which may ionize. Metallic ions combined with ionized water clusters make up a large part of the D-region ionosphere that is embedded in the upper mesosphere. See also Ionosphere.

The upper mesosphere is also where iridescent blue clouds can be seen with the naked eye and photographed in twilight at high summer latitudes when the Sun lights them up in the otherwise darkening sky. These clouds are called noctilucent clouds (NLC). Noctilucent clouds are believed to be tiny ice crystals that grow on bits of meteoric dust.

Large-scale atmospheric circulation patterns transport tropospheric air containing methane and carbon dioxide from the lower atmosphere into the middle atmosphere. While carbon dioxide warms the lower atmosphere, it cools the middle and upper atmosphere by releasing heat to space. Methane breaks down and contributes to water formation when it reaches the middle atmosphere. If the air is sufficiently cold, the water can freeze and form noctilucent clouds. Temperatures must be below −129°C (−200°F) for noctilucent clouds to form. These conditions are common in the cold summer mesopause region at high latitudes.

WordNet: mesosphere

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Note: click on a word meaning below to see its connections and related words.

The noun has one meaning:

Meaning #1: the atmospheric layer between the stratosphere and the thermosphere

Wikipedia: Mesosphere

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Earth atmosphere diagram showing the exosphere and other layers. The layers are to scale. From Earth's surface to the top of the stratosphere (50km) is just under 1% of Earth's radius.

This article is about the atmospheric mesosphere, for the Earth's mantle see Mesosphere (mantle).

The mesosphere (from the Greek words mesos = middle and sphaira = ball) is the layer of the Earth's atmosphere that is directly above the stratosphere and directly below the thermosphere. The mesosphere is located about 50 to 85 kilometers (30 to 50 miles) above the Earth's surface.^[1]

The stratosphere and mesosphere are referred to as the middle atmosphere. The mesopause, at an altitude of 80–90 km, separates the mesosphere from the thermosphere—the second-outermost layer of the Earth's atmosphere. This is also around the same altitude as the turbopause, below which different chemical species are well mixed due to turbulent eddies. Above this level the atmosphere becomes non-uniform; the scale heights of different chemical species differ by their molecular masses.

1 Temperature
2 Dynamical features
3 Uncertainties
4 Meteors
5 See also
6 References
7 External links

Temperature

Within the mesosphere, temperature decreases with increasing altitude. This is due to decreasing solar heating and increasing cooling by CO₂ radiative emission. The top of the mesosphere, called the mesopause, is the coldest place on Earth.^[1] Temperatures in the upper mesosphere fall as low as −100 °C (170 K; −150 °F),^[2] varying according to latitude and season.

Dynamical features

The main dynamical features in this region are atmospheric tides, internal atmospheric gravity waves (commonly called "gravity waves") and planetary waves. Most of these tides and waves are excited in the troposphere and lower stratosphere, and propagate upward to the mesosphere. In the mesosphere, gravity-wave amplitudes can become so large that the waves become unstable and dissipate. This dissipation deposits momentum into the mesosphere and largely drives global circulation.

Noctilucent clouds are located in the mesosphere. The mesosphere is also the region of the ionosphere known as the D layer. The D layer is only present during the day, when some ionization occurs with nitric oxide being ionized by Lyman series-alpha hydrogen radiation. The ionization is so weak that when night falls, and the source of ionization is removed, the free electron and ion form back into a neutral molecule.

Uncertainties

The mesosphere lies above the maximum altitude for aircraft and below the minimum altitude for orbital spacecraft. It has only been accessed through the use of sounding rockets. As a result, it is the most poorly understood part of the atmosphere. The presence of red sprites and blue jets (electrical discharges or lightning within the lower mesosphere), noctilucent clouds and density shears within the poorly understood layer may have contributed to the Space Shuttle Columbia disaster.^[3]

Meteors

Millions of meteors enter the atmosphere, an average of 40 tons per day.^[4] Within the mesosphere most melt or vaporize as a result of collisions with the gas particles contained there. This results in a higher concentration of iron and other refractory materials reaching the surface.^{[citation needed]}

References

^ ^a ^b International Union of Pure and Applied Chemistry. "mesosphere". Compendium of Chemical Terminology Internet edition.
^ Mesosphere, Atmosphere, Climate & Environment Information ProgGFKDamme (UK Department for Environment, Food and Rural Affairs), http://www.ace.mmu.ac.uk/eae/Atmosphere/Older/Mesosphere.html, retrieved 2009-07-07
^ Vergano, Dan; Friend, Tim (February 6, 2003), "Upper atmosphere may hold clues in Columbia mystery", USA Today, http://www.usatoday.com/news/nation/2003-02-06-atmosphere_x.htm
^ Leinert C.; Gruen E. (1990). "Interplanetary Dust". Physics and Chemistry in Space (R. Schwenn and E. Marsch eds.). Springer-Verlag. pp. 204--275

External links

Description with links to other atmospheric topics

v • d • e Earth's atmosphere

Troposphere • Stratosphere • Mesosphere • Thermosphere • Exosphere

Tropopause • Stratopause • Mesopause • Thermopause / Exobase

Ozone layer • Turbopause • Ionosphere

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Translations: Mesosphere

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Dansk (Danish)
n. - mesosfære

Nederlands (Dutch)
mesosfeer (deel van de atmosfeer)

Français (French)
n. - mésosphère

Deutsch (German)
n. - Mesosphäre

Ελληνική (Greek)
n. - μεσόσφαιρα

Italiano (Italian)
mesosfera

Português (Portuguese)
n. - mesosfera (f) (Geof.)

Русский (Russian)
мезосфера

Español (Spanish)
n. - mesosfera

Svenska (Swedish)
n. - mesosfär

中文（简体）(Chinese (Simplified))
中间层, 中气层

中文（繁體）(Chinese (Traditional))
n. - 中間層, 中氣層

한국어 (Korean)
n. - (지구 대기권의) 중간권

日本語 (Japanese)
n. - 中間圏

العربيه (Arabic)
‏(الاسم) طبقه جويه عليا‏

עברית (Hebrew)
n. - ‮מבחינת התכונות הכימיות - שכבת האטמוספרה הנמצאת במרחק 004-0501 ק"מ מפני הארץ, מבחינת מאפייני החום - שכבת האטמוספרה הנמצאת במרחק 23-08 ק"מ מפני הארץ‬

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		Dictionary. The American Heritage® Dictionary of the English Language, Fourth Edition Copyright © 2007, 2000 by Houghton Mifflin Company. Updated in 2009. Published by Houghton Mifflin Company. All rights reserved. Read more
		Sci-Tech Encyclopedia. McGraw-Hill Encyclopedia of Science and Technology. Copyright © 2005 by The McGraw-Hill Companies, Inc. All rights reserved. Read more
		WordNet. WordNet 1.7.1 Copyright © 2001 by Princeton University. All rights reserved. Read more
		Wikipedia. This article is licensed under the Creative Commons Attribution/Share-Alike License. It uses material from the Wikipedia article "Mesosphere". Read more
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