The clouds
are parting on Venus as new images reveal more about the structure of a dense
layer that enshrouds the hot planet.
The cloudy
veil allows a small amount of sunlight to reach Venus' surface but then traps in that heat
like a greenhouse, causing temperatures at the surface
of Venus to soar to about 870 degrees Fahrenheit (465 degrees Celsius).
While past
Venus missions have revealed information about the clouds, astronomers have
long wondered about a puzzling
phenomenon seen when looking at them in ultraviolet light. Certain regions
showed darker spots, which means some chemical in the clouds in those spots was
absorbing the UV light and making the area appear dark.
New images
suggest mixing between the lower and higher clouds occurs in some areas on the
planet and not others, which would explain the dark and light spots.
The study,
which relied on data collected by a camera and other instruments aboard the
Venus Express spacecraft, brings scientists closer to figuring out the
mysterious cloud chemical. While the study scientists still can't identify the
chemical, they have figured out the process that causes the changes in cloud
types across Venus.
The
results, detailed in the Dec. 4 issue of the journal Nature, could also
help scientists as they study the roaring winds on Venus, which drive cloud
movements.
The Venus
Express researchers, led by Dmitry Titov of the Max Planck Institute for Solar
System Research, found that along the equatorial or tropical regions of Venus
the cloud tops (the upper edge of the clouds) were full of that mysterious
chemical and so appeared as a dark band in the UV images. By using infrared
data, the researchers could map out the temperature in that same region. The
results showed that like boiling water, the material at the cloud tops had moved
upward from below due to convection.
"The
sun heats the atmosphere at the equator and the atmosphere starts to boil or
mix vertically," Titov told SPACE.com. "It comes from the
depths of the cloud. It's continuously brought to the top of the clouds by this
convective activity."
At the
mid-latitudes, Titov and his colleagues found a bright band of clouds in the UV
images, suggesting these clouds are full of sulfuric acid. The cloud tops in
this region were also much colder than those in the Venus tropics. Titov
explained the chilly upper layer at mid-latitudes acts like a barrier and
prevents vertical mixing that would otherwise bring material up from below.
The new
Venus Express data also showed the clouds in both the equatorial and
mid-latitude regions extend to 45 miles (72 km) above Venus' surface. The
clouds begin at about 31 miles (50 km), making for a 12-mile (20 km) thick
cloud layer.
But near
the planet's south pole, where a giant hurricane-like
vortex swirls, the cloud tops were much lower, only extending to an
altitude of 40 miles (64 km). Titov said the whirling vortex is likely
responsible for the lower clouds at the south pole.
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