Condensation of Methane, Ammonia, and Water and the Inhibition of Convection in Giant Planets
- 22 September 1995
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 269 (5231) , 1697-1699
- https://doi.org/10.1126/science.7569896
Abstract
The condensation of chemical species of high molecular mass such as methane, ammonia, and water can inhibit convection in the hydrogen-helium atmospheres of the giant planets. Convection is inhibited in Uranus and Neptune when methane reaches an abundance of about 15 times the solar value and in Jupiter and Saturn if the abundance of water is more than about five times the solar value. The temperature gradient consequently becomes superadiabatic, which is observed in temperature profiles inferred from radio-occultation measurements. The planetary heat flux is then likely to be transported by another mechanism, possibly radiation in Uranus, or diffusive convection.Keywords
This publication has 35 references indexed in Scilit:
- Waves from the collisions of comet Shoemaker–Levy 9 with JupiterNature, 1995
- Nonadiabatic Models of Jupiter and SaturnIcarus, 1994
- Water—cumulus in Jupiter's atmosphere: Numerical experiments with an axisymmetric cloud modelIcarus, 1992
- The abundance and distribution of water vapor in the Jovian troposphere as inferred from Voyager IRIS observationsThe Astrophysical Journal, 1992
- Moist convection and the vertical structure and water abundance of Jupiter's atmosphereIcarus, 1990
- Moist convection and the abundance of water in the troposphere of JupiterIcarus, 1987
- Moist convection: A mechanism for producing the vertical structure of the Jovian Equatorial PlumesIcarus, 1986
- The gas composition of jupiter derived from 5-μm airborne spectroscopic observationsIcarus, 1986
- Cloud microphysics: Analysis of the clouds of Earth, Venus, Mars and JupiterIcarus, 1978
- Thermal Stratification in the Arctic OceanScience, 1969