Parts of
Venus’s surface are made up of huge blocks that move like pieces of continent
on Earth. Some of them may still be moving, and they could help us understand
ancient Earth.
Paul Byrne
at North Carolina State University and his colleagues used data from the
Magellan spacecraft, which orbited Venus from 1990 to 1994, to build a map of
surface structures which they have named campi.
They
included 58 campi, but Byrne says there are probably more that aren’t quite as
obvious. These structures are huge blocks of planetary crust, some just 100 kilometers
across and others more than 1000 km, each bounded by belts of ridges and
grooves.
The
researchers then used computer models of Venus’s internal activity to figure
out how these campi formed, and found that it was probably because of molten
rock churning under the planet’s surface, generating strain and cracks in the
crust.
The way
these blocks appear to have moved since their formation is similar to how
pieces of the continental crust jostle and smash together on Earth.
NC State University, based upon original NASA/JPL imagery
“It is stuff moving on the surface because of stuff moving in the interior, and we pretty much don’t see that anywhere else in the solar system except for Earth,” says Byrne. “Add this to the pile of circumstantial reasons why we think Venus is currently geologically active.”
Because the
flow of heat inside Venus is similar to how it may have been on Earth during
the Archaean era – the period from about 2.5 billion to 4 billion years ago
when life began – this phenomenon on Venus could be used as a proxy for
studying the geology of ancient Earth.
“If you can understand what Venus is like now, that might give us some insight into what Earth used to look like,” Byrne says.
Two of the
three missions due to visit Venus in the coming decades will carry radar
instruments that will help build detailed maps of the surface. These will revolutionize
our understanding of Venus and its geology, including campi.
Comparing
those new maps with the ones from Magellan may also reveal whether campi formed
long ago or if they are still moving and evolving.
Journal
reference: PNAS, DOI: 10.1073/pnas.2025919118