Surprisingly little water has escaped to space from Venus, study finds

Credit: Moa Persson

On 13 November Moa Persson, Swedish Institute of Space Physics (IRF) and Umeå University, will defend her doctoral thesis. Her thesis shows that only a small part of the historical water content on Venus has been lost to space over the past 4 billion years. This is much less than researchers previously thought.

The thesis is built on analyses of how the , a stream of charged particles from the Sun, affects the Venusian atmosphere and causes atmospheric particles to escape to space. Moa Persson has analyzed data from IRF’s space instrument ASPERA-4, on board the European Space Agency’s space mission Venus Express.

“The surface of Venus today is comparable to hell. It is extremely dry and has a temperature of 460 degrees but historically the surface was more hospitable with a wealth of water that could reach a depth of several hundreds of meters if spread equally over the surface. This water has disappeared from Venus. My thesis shows that only a few decimetres of this water has escaped to space,” says Moa Persson.

The studies are based on measurements of ions (charged particles) in the vicinity of Venus. On average two protons escape from the atmosphere for every one oxygen ion. This indicates a loss of water. Variations in the solar  and the solar radiation affect how many ions escape.

Moa Persson’s thesis show that the number of escaping protons varies over the . More protons escape during solar minimum than during solar maximum because many protons return to Venus during solar maximum. The number of escaping oxygen ions is mostly affected by variations in the solar wind.

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