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Research sheds new light on moon rock formation solving major puzzle in lunar geology

  • Nishadil
  • January 15, 2024
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Research sheds new light on moon rock formation solving major puzzle in lunar geology

January 15, 2024 This article has been reviewed according to Science X's editorial process and policies . Editors have highlighted the following attributes while ensuring the content's credibility: fact checked peer reviewed publication trusted source proofread by University of Bristol New research has cracked a vital process in the creation of a unique rock type from the moon.

The discovery explains its signature composition and very presence on the lunar surface at all, unraveling a mystery that has long eluded scientists. The study, published today in Nature Geoscience , reveals a key step in the genesis of these distinctive magmas. A combination of high temperature laboratory experiments using molten rocks and sophisticated isotopic analyses of lunar samples identify a critical reaction that controls their composition.

This reaction took place in the deep lunar interior some three and a half billion years ago, involving the exchange of the element iron (Fe) in the magma with the element magnesium (Mg) in the surrounding rocks, modifying the chemical and physical properties of the melt. Co lead author Tim Elliott, Professor of Earth Sciences at the University of Bristol, said, "The origin of volcanic lunar rocks is a fascinating tale involving an 'avalanche' of an unstable, planetary scale crystal pile created by the cooling of a primordial magma ocean." "Central to constraining this epic history is the presence of a magma type unique to the moon, but explaining how such magmas could even have got to the surface, to be sampled by Space missions, has been a troublesome problem.

It is great to have resolved this dilemma." Surprisingly high concentrations of the element titanium (Ti) in parts of the lunar surface have been known since the NASA Apollo missions, back in the 1960s and 1970s, which successfully returned solidified, ancient lava samples from the moon's crust.

More recent mapping by orbiting satellites shows these magmas, known as 'high Ti basalts,' to be widespread on the moon. "Until now, models have been unable to recreate magma compositions that match essential chemical and physical characteristics of the high Ti basalts. It has proven particularly hard to explain their low density , which allowed them to erupt some three and a half billion years ago," added co lead author Dr.

Martijn Klaver, Research Fellow at the University of Münster Institute of Mineralogy. The international team of scientists, led by the Universities of Bristol in the UK and Münster in Germany managed to mimic the high Ti basalts in the process in the lab using high temperature experiments. Measurements of the high Ti basalts also revealed a distinctive isotopic composition that provides a fingerprint of the reactions reproduced by the experiments.

Both results clearly demonstrate how the melt solid reaction is integral in understanding the formation of these unique magmas. More information: Titanium rich basaltic melts on the Moon modulated by reactive flow processes, Nature Geoscience (2024). Journal information: Nature Geoscience Provided by University of Bristol.