Freie Universitaet Berlin: Bombardment of Planets in the Early Solar System

The largest asteroid in our Solar System – Vesta – was exposed to an extensive series of impacts by large rocky bodies much earlier than previously assumed. Researchers of an international collaboration, including earth scientists from Heidelberg University and Freie Universität Berlin, reached this conclusion based on analyses of Vesta meteorites, numerical simulations, and observations carried out with the space probe Dawn in 2011 and 2012. This novel finding opens up an entirely new picture of the chronology of the collision history in the early Solar System. The early bombardment affected all Earth-like planets, and thus provides important insights into the early phase of our Earth.

The Earth-like planets in the early Solar System first grew by accumulation of dust grains; in the final stage they were fed by impacts from increasingly larger rocky bodies. This is also true for the asteroid Vesta. Early in its formation, Vesta became hotter and hotter, producing a magma ocean near the surface as well as a liquid metallic core. Over time, other objects bombarded its crust, ejecting its material that was transported to the Earth as meteorites. Chemical analyses of these meteorites have shown that further cosmic impacts changed the composition of Vesta’s mantle and crust significantly, even after core formation. The mass that accumulated right after Vesta’s core formed was considerably larger than later additions, as Freie Universität Berlin geoscientist Prof. Dr. Harry Becker explains.

Through computer modelling of Vesta’s thermal evolution, which were conducted by Dr. Wladimir Neumann at the Institute of Earth Sciences of Heidelberg University, the time frame of the early impacts can now be narrowed down more precisely. “For the material of the impactor to mix with the mantle fairly homogeneously in the first place, the mantle has to be hot enough and undergo convective motions,” explains Dr. Neumann. “Our models have shown that this was true only for impacts within the short time span between 4.56 and approximately 4.50 billion years ago.” Until now, scientists assumed that the main phase of this bombardment occurred many hundreds of millions of years later, at a time when several of the large impact craters were forming on the Moon.

Apparently, the impactors do not originate from today’s asteroid belt, as previously thought, but from the inner Solar System where the terrestrial planets formed. “For our Earth, this again emphasizes the significance of an early hot phase with a magma ocean that was continually renewed through major impacts. During this time, the atmosphere was blazing hot for millions of years. Only much later could the water oceans form when the hot steam cooled and fell as rain,” explains Prof. Dr. Kai Wünnemann from the Natural History Museum Berlin and Freie Universität Berlin.

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