Datensatz

Zusammenfassung

While the concentration of landmasses and atmospheric aerosols on the NorthernHemisphere suggests that the Northern Hemisphere is brighter than the Southern Hemisphere, satellite measurements of top-of-atmosphere irradiances found that both hemispheres reflect nearly the same amount of shortwave irradiance.Here, the authors document that the most precise and accurate observation, the energy balanced and filled dataset of the Clouds and the Earth’sRadiant Energy System covering the period 2000–10,measures an absolute hemispheric difference in reflected shortwave irradiance of 0.1 W m22. In contrast, the longwave irradiance of the two hemispheres differs by more than 1 W m22, indicating that the observed climate system exhibits hemispheric symmetry in reflected shortwave irradiance but not in longwave irradiance. The authors devise a variety of methods to estimate the spatial degrees of freedom of the time-mean reflected shortwave irradiance. These are used to show that the hemispheric symmetry in reflected shortwave irradiance is a nontrivial property of the Earth system in the sense that most partitionings of Earth into two random halves do not exhibit hemispheric symmetry in reflected shortwave irradiance. Climate models generally do not reproduce the observed hemispheric symmetry, which the authors interpret as further evidence that the symmetry is nontrivial. While the authors cannot rule out that the observed hemispheric symmetry in reflected shortwave irradiance is accidental, their results motivate a search for mechanisms that minimize hemispheric differences in reflected shortwave irradiance and planetary albedo