Earth ScienceGeology & MeteorologyMedium

Stratosphere

Also known as:upper atmosphere (informal)middle atmosphere (partial)

The stratosphere is the second major layer of Earth's atmosphere, extending from the tropopause (approximately 12 km at mid-latitudes) to the stratopause at about 50 km altitude. Unlike the troposphere, temperature in the stratosphere increases with altitude — from about −56°C at the tropopause to approximately 0°C at the stratopause — due to the absorption of ultraviolet radiation by the ozone layer concentrated within it. This temperature inversion creates very stable conditions that suppress vertical mixing, making the stratosphere nearly cloud-free and home to the polar vortex and stratospheric jet streams; it is also the layer traversed by high-altitude commercial aircraft.

Stratosphere Properties and Comparison with Troposphere

PropertyTroposphereStratosphereUnitsNotes
Altitude range0–1212–50kmMid-latitude values
Temperature at base15−56°CStandard atmosphere
Temperature at top−560°CWarming due to ozone
Lapse ratePositive (−6.5/km)Negative (inverted)°C/kmInversion in stratosphere
Water vaporHigh (variable)Very low (<5 ppm)VariousDry, stable layer
Ozone concentrationLowPeak ~25–30 kmDobson unitsOzone layer location

Interactive Tools

NASA Ozone Watch

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Khan Academy: Stratosphere and Ozone

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Wolfram Alpha: Stratosphere

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Diagram of atmospheric layers highlighting the stratosphere between 12 and 50 km altitude

Wikimedia Commons, CC BY-SA

Related Terms

Earth Science

Troposphere

The troposphere is the lowest layer of Earth's atmosphere, extending from the surface to approximately 8–9 km at the poles and 16–18 km at the equator, and containing about 80% of the atmosphere's total mass and virtually all of its water vapor and weather. Temperature generally decreases with altitude at the environmental lapse rate of approximately 6.5°C per 1,000 m (the standard atmosphere value), until reaching the tropopause, a temperature inversion that caps the troposphere. All significant weather phenomena — clouds, precipitation, thunderstorms, cyclones, and jet streams — occur within the troposphere, making it the most meteorologically active layer.

Earth Science

Ozone Layer

The ozone layer is a region of Earth's stratosphere, concentrated approximately 15–35 km above the surface, where ozone (O₃) molecules are present at relatively high concentrations (2–8 ppm), absorbing 97–99% of the Sun's medium-frequency ultraviolet radiation. Ozone is continuously formed when UV radiation (wavelength < 240 nm) splits O₂ molecules into oxygen atoms that then react with other O₂ molecules, and destroyed by catalytic cycles involving chlorine, bromine, nitrogen, and hydrogen radicals. Depletion of the ozone layer by synthetic chlorofluorocarbons (CFCs) — culminating in the discovery of the Antarctic ozone hole in 1985 — led to the Montreal Protocol (1987), which has successfully reduced stratospheric chlorine loading and begun the layer's recovery.

Earth Science

Atmosphere (Earth)

The Earth's atmosphere is the layer of gases retained by Earth's gravity surrounding the planet, extending from the surface to approximately 10,000 km altitude where it gradually merges with the interplanetary medium. It consists primarily of nitrogen (78.09%), oxygen (20.95%), argon (0.93%), and carbon dioxide (0.04%), plus trace gases and variable amounts of water vapor. The atmosphere performs critical functions including regulating surface temperature through the greenhouse effect, protecting life from harmful ultraviolet radiation via the ozone layer, enabling weather and climate systems, and providing the oxygen and carbon dioxide essential for respiration and photosynthesis.

From Latin "stratum" (a layer, something spread out) and Greek "sphaira" (sphere). The term was introduced by Léon Philippe Teisserenc de Bort around 1902 when he identified a higher atmospheric layer above the troposphere characterized by nearly constant or increasing temperature — a "stratified" or layered structure as opposed to the turbulent troposphere. The term was adopted internationally in early 20th-century meteorology.

stratosphereatmosphereozonemeteorologytemperature-inversion