The huge "Y" in the atmosphere of Venus due to a wave distorted by the wind
When first discovered, astronomers thought the "Y" was simply a group of clouds blown by the wind, but data from mission Mariner 10 (NASA) in 1973 revealed that the structure not only spread like a single entity but also moved at a speed different from its environment. "The conclusion was that it could only be a wave or a periodic alteration of atmospheric variables, but we didn't know which one," says Javier Peralta, IAA-CSIC researcher in charge of this study which has made the cover in the journal Geophysical Research Letters and has been highlighted in Science magazine.
These dark structures revealed the massive presence of a still unknown compound that absorbs ultraviolet radiation and obscures the region where they get concentrated. Tracking them allowed to discover the "super-rotating" nature of Venus' atmosphere: while the planet takes 243 days to rotate around its axis, the atmosphere spins around the planet in only four days. "A wave with the size of the Y must play a key role in explaining why the atmosphere rotates sixty times faster than the surface, so it was crucial to understand it," says Peralta (IAA-CSIC).
The study by Peralta et al has invalidated the hypothesis – accepted for decades - which assumed that this wave should be one of the types of equatorial waves present on planet Earth. The researchers have deduced a new type of atmospheric wave compatible with Venus' extremely slow rotation which explains with striking simplicity the numerous enigmas posed by the "Y". Its dark color, for example, is due to the fact that the wave pushes upward and concentrates the mysterious ultraviolet absorber.
The wave is confined not only to the equatorial zone but also to the altitudes where the winds reach their highest intensity, what also explains why the "Y" can only be seen on the narrow altitude region of Venus clouds' tops.
However, the most noticeable achievement of this study has been to prove that the Y shape is due to the distortion that the winds cause on the wave. "The strong wind that blows westward in Venus is more or less constant from the equator up to the middle latitudes. Since at high altitudes the radius of the circumference is smaller, the winds go round more quickly than on the equator, what gradually distorts the wave," Javier Peralta explains. "It was fascinating to see how this new wave of planetary dimensions takes the shape of a Y as the winds of Venus distort it."