Polar stratospheric cloud

Polar Stratospheric Cloud
Antarctic stratospheric cloud (nacreous clouds)
Abbreviation	PSC
Altitude	15,000–25,000 m (49,000–82,000 ft)
Classification	Other
Appearance	Glowing brightly with vivid iridescent colors
Precipitation cloud?	no

Polar stratospheric clouds or PSCs, also known as nacreous clouds (/ˈneɪkriː.əs/, from nacre, or mother of pearl, due to its iridescence), are clouds in the winter polar stratosphere at altitudes of 15,000–25,000 meters (49,000–82,000 ft). They are best observed during civil twilight when the sun is between 1 and 6 degrees below the horizon as well as in winter and in more northerly latitudes.^[1] They are implicated in the formation of ozone holes.^[2] The effects on ozone depletion arise because they support chemical reactions that produce active chlorine which catalyzes ozone destruction, and also because they remove gaseous nitric acid, perturbing nitrogen and chlorine cycles in a way which increases ozone destruction.^[3]

Formation

The stratosphere is very dry; unlike the troposphere, it rarely allows clouds to form. In the extreme cold of the polar winter, however, stratospheric clouds of different types may form, which are classified according to their physical state and chemical composition.

Due to their high altitude and the curvature of the surface of the Earth, these clouds will receive sunlight from below the horizon and reflect it to the ground, shining brightly well before dawn or after dusk.

PSCs form at very low temperatures, below −78 °C (−108 °F). These temperatures can occur in the lower stratosphere in polar winter. In the Antarctic, temperatures below −88 °C (−126 °F) frequently cause type II PSCs. Such low temperatures are rarer in the Arctic. In the Northern hemisphere, the generation of lee waves by mountains may locally cool the lower stratosphere and lead to the formation of PSCs.

Forward-scattering of sunlight within the clouds produces a pearly-white appearance. Particles within the optically thin clouds cause colored Interference fringes by diffraction. The visibility of the colors may be enhanced with a polarising filter.^[1]^[4]

Types

A type II (water) PSC showing iridescence

PSCs are classified into three types Ia, Ib and II according to their chemical composition which can be measured using LIDAR. The technique also determines the height and ambient temperature of the cloud.^[4]

Type I clouds contain water, nitric acid and/or sulfuric acid and they are a source of polar ozone depletion.^[5]
- Type Ia clouds consist of large, aspherical particles, consisting of nitric acid trihydrate (NAT).^[4]
- Type Ib clouds contain small, spherical particles (non-depolarising), of a liquid supercooled ternary solution (STS) of sulfuric acid, nitric acid and water.^[4]
- Type Ic clouds consist of metastable water-rich nitric acid in a solid phase.^[6]
Type II clouds, which are very rarely observed in the Arctic, consist of water ice only.^[4]

Only Type II clouds are necessarily nacreous^[1] whereas Type I clouds can be iridescent under certain conditions, just as any other cloud.

A type I PSC (white cloud above the orange tropospheric clouds), showing fine horizontal structures in the veil.

References

1 2 3 "Polar stratospheric clouds / Observations". Australian Antarctic Division.
↑ "Why is the ozone hole over Antarctica?". United States Environmental Protection Agency. Archived from the original on 2006-09-30.
↑ World Meteorological Organization Scientific Assessment of Ozone Depletion (2002), particularly section 3.2.2 (pages 3.21, i.e. 195 of the PDF file, and following).
1 2 3 4 5 Maturilli, Maturilli. "Polar Stratospheric Clouds Above Spitsbergen". Alfred Wegener Institute for Polar and Marine Research.
↑ "Nacreous and Polar Stratospheric Clouds". atoptics.co.uk.
↑ "The presence of metastable HNO₃/H₂O solid phases in the stratosphere inferred from ER 2 data" (PDF). Journal of Geophysical Research.

External links

Wikimedia Commons has media related to Polar stratospheric cloud.

Research

Nacreous Clouds at atoptics.co.uk
Polar Stratospheric Clouds Above Spitsbergen at Alfred Wegener Institute

News reports

"Rare cloud spotted". Sydney Morning Herald. AAP. August 1, 2006.
http://news.yahoo.com/s/ap/20060801/ap_on_sc/antarctica_clouds_4
http://www.cnn.com/2006/TECH/science/08/01/antarctica.clouds.ap/index.html

Cloud genera and selected species, supplementary features, and other airborne hydrometeors - WMO Latin terminology except where indicated

Extreme-level	Polar mesospheric cirriform type Noctilucent

Very high-level	Polar stratospheric cirriform type Nacreous

High-level	Tropospheric cirriform, stratiform, and stratocumuliform genera Cirrus (Ci) Cirrostratus (Cs) Cirrocumulus (Cc) General type (non-WMO terminology) Aviaticus cloud (Contrail)

Medium-level	Tropospheric stratiform and stratocumuliform genera Altostratus (As) Altocumulus (Ac) Stratocumuliform species Altocumulus castellanus (Ac cas)

Low-level	Tropospheric stratiform, stratocumuliform and cumuliform genera Stratus (St) Stratocumulus (Sc) Cumulus (Cu) Stratiform and cumuliform species Fractus Cumulus humilis (Cu hum) Stratocumulus variants (non-WMO terminology) Actinoform cloud Asperitas

Moderate vertical	Tropospheric stratiform and cumuliform genera Nimbostratus (Ns) Cumulus (Cu) Cumuliform species Cumulus mediocris (Cu med) Cumuliform supplementary features Cumulus Pileus Cumulus Arcus (Roll)

Towering vertical	Tropospheric cumulonimbiform genus Cumulonimbus (Cb) Cumuliform species Cumulus congestus (ICAO term Towering cumulus [Tcu]) Cumuliform and cumulonimbiform supplementary features mamma Tuba (Funnel cloud) Pileus Arcus (Shelf) Cumuliform and cumulonimbiform variants (non-WMO terminology) Wall cloud Pyrocumulus Pyrocumulonimbus Cumulonimbuus Overshooting top Hot tower

Surface based	General type Fog

Non-height specific	General types Accessory cloud Kelvin–Helmholtz cloud

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