n.
The boundary between the troposphere and the stratosphere varying in altitude from approximately 8 kilometers (5 miles) at the poles to approximately 18 kilometers (11 miles) at the equator.
tropopause
Dictionary:
tro·po·pause (trō'pə-pôz', trŏp'ə-)  |
| 5min Related Video: tropopause |
| Sci-Tech Encyclopedia: Tropopause |
The boundary between the troposphere and the stratosphere in the atmosphere. The tropopause is broadly defined as the lowest level above which the lapse rate (decrease) of temperature with height becomes less than 5.8°F mi−1 (2°C km−1). In low latitudes the tropical tropopause is at a height of 9.3–11 mi at about −135°F (15–17 km at about 180 K), and the polar tropopause between tropics and poles is at about 6.2 mi at about −63°F (10 km at about 220 K). There is a well-marked “tropopause gap” or break where the tropical and polar tropopauses overlap at 30–40° latitude. The break is in the region of the subtropical jet stream and is of major importance for the transfer of air and tracers (humidity, ozone, radioactivity) between stratosphere and troposphere. The height of the tropopause varies seasonally and also daily with the weather systems, being higher and colder over anticyclones than over depressions. See also Air temperature; Atmosphere; Stratosphere; Troposphere.
| US Military Dictionary: tropopause |
[ܒträpǝܖpôz; ܒtrō-]
See the Introduction, Abbreviations and Pronunciation for further details.
| Geography Dictionary: tropopause |
The upper limit of the troposphere, above which very few clouds, except for the nacreous and noctilucent, form.
| Military Dictionary: tropopause |
(DOD, NATO) The transition zone between the stratosphere and the troposphere. The tropopause normally occurs at an altitude of about 25,000 to 45,000 feet (8 to 15 kilometers) in polar and temperate zones, and at 55,000 feet (20 kilometers) in the tropics.
| Wikipedia: Tropopause |
 |
This article does not cite any references or sources. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed. (June 2009) |
 |
This article should be divided into sections by topic, to make it more accessible. Please help by adding section headings in accordance with Wikipedia's style guidelines. (October 2009) |
The tropopause is the atmospheric boundary between the troposphere and the stratosphere. Going upward from the surface, it is the point where air ceases to cool with height, and becomes almost completely dry. More formally, it is the region of the atmosphere where the lapse rate changes from positive (in the troposphere) to negative (in the stratosphere). This occurs at the equilibrium level (EL), a value important in atmospheric thermodynamics. The exact definition used by the World Meteorological Organization is:
- the lowest level at which the lapse rate decreases to 2 °C/km or less, provided that the average lapse rate between this level and all higher levels within 2 km does not exceed 2 °C/km.
The troposphere is the lowest of the Earth's atmospheric layers and is the layer in which most weather occurs. The troposphere begins at ground level and ranges in height from an average of 11 km (6.8 miles/36,080 feet at the International Standard Atmosphere) at the poles to 17 km (11 miles/58,080 feet) at the equator. It is at its highest level over the equator and the lowest over the geographical north pole and south pole. On account of this, the coolest layer in the atmosphere lies at about 17 km over the equator. Due to the variation in starting height, the tropopause extremes are referred to as the equatorial tropopause and the polar tropopause.
Measuring the lapse rate through the troposphere and the stratosphere identifies the location of the tropopause. In the troposphere, the lapse rate is, on average, 6.5 °C per kilometre in the absence of inversions. In the stratosphere, however, the temperature increases with altitude. Alternatively, a dynamic definition of the tropopause is used with potential vorticity instead of vertical temperature gradient as the defining variable. There is no universally used threshold: the most common ones are: the tropopause lies at the 2 PVU or 1.5 PVU surface. PVU stands for potential vorticity unit. This threshold will be taken as a positive or negative value (e.g. 2 and -2 PVU), giving surfaces located in the northern and southern hemisphere respectively. To define a global tropopause in this way, the two surfaces arising from the positive and negative thresholds need to be joined near the equator using another type of surface such as a constant potential temperature surface.
It is also possible to define the tropopause in terms of chemical composition. For example, the lower stratosphere has much higher ozone concentrations than the upper troposphere, but much lower water vapor concentrations, so appropriate cutoffs can be used.
The tropopause is not a "hard" boundary. Vigorous thunderstorms, for example, particularly those of tropical origin, will overshoot into the lower stratosphere and undergo a brief (hour-order) low-frequency vertical oscillation.[citation needed] Such oscillation sets up a low-frequency atmospheric gravity wave capable of affecting both atmospheric and oceanic currents in the region.[clarification needed]
Most commercial aircraft are flown below the tropopause or "trop" if at all possible to take advantage of the troposphere's temperature lapse rate. Jet engines are more efficient at lower temperatures.
See also
- Four-engined jet service ceiling
- Jet stream
- Maximum parcel level
- Table of Global Climate System Components
- Trijets service ceiling
External links
|
|||||||||||
This entry is from Wikipedia, the leading user-contributed encyclopedia. It may not have been reviewed by professional editors (see full disclaimer)
Learn More
 | tropopause chart (meteorology) |
| stratospheric steering (meteorology) |
| isothermal layer |
Help us answer these
 | Where is the tropopause the highest? |
| What is the Appropriate height and temperature of the tropopause? |
| What are the strong winds of the tropopause called? |
Post a question - any question - to the WikiAnswers community:
Copyrights:
 |
 | 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 |
 |
| US Military Dictionary. The Oxford Essential Dictionary of the U.S. Military. Copyright © 2001, 2002 by Oxford University Press, Inc. All rights reserved. Read more |
|
| Geography Dictionary. A Dictionary of Geography. Copyright © Susan Mayhew 1992, 1997, 2004. All rights reserved. Read more |
 |
| Military Dictionary. US Department of Defense Dictionary of Military and Associated Words, 2003. Read more |
 |
| Wikipedia. This article is licensed under the Creative Commons Attribution/Share-Alike License. It uses material from the Wikipedia article "Tropopause". Read more |
Related answers
- The tropopause is?
- What does tropopause mean?
- The is located immediately below the tropopause?
- What is immediately above the tropopause?
ADVERTISEMENT
Answer these
- What is the tropopause?
- Temperature of the tropopause?
- What is the temperature of the tropopause?
- What is the altitude of tropopause?
Mentioned in
- tropopause chart (meteorology)
- stratospheric steering (meteorology)
- isothermal layer
- tropopause inversion (meteorology)
- troposphere (meteorology)
- hot towers
- multiple tropopause (geophysics)
- stratosphere (meteorology)
- Krakatao winds (meteorology)
- Aeronomy (meteorology and climatology)
- Jet stream (meteorology and climatology)
- Temperature inversion (meteorology and climatology)
- Stratospheric ozone (geochemistry)
- Atmosphere
