Abstract

The resource budget of Earth is limited. Rare-earth elements (REEs) are used across the world by society on a daily basis yet several of these elements have <2500 years of reserves left, based on current demand, mining operations, and technologies. With an increasing population, exploration of potential extraterrestrial REE resources is inevitable, with the Earth’s Moon being a logical first target. Following lunar differentiation at ~4.50–4.45 Ga, a late-stage (after ~99% solidification) residual liquid enriched in Potassium (K), Rare-earth elements (REE), and Phosphorus (P), (or “KREEP”) formed. Today, the KREEP-rich region underlies the Oceanus Procellarum and Imbrium Basin region on the lunar near-side (the Procellarum KREEP Terrain, PKT) and has been tentatively estimated at preserving 2.2 × 108 km3 of KREEP-rich lithologies. The majority of lunar samples (Apollo, Luna, or meteoritic samples) contain REE-bearing minerals as trace phases, e.g., apatite and/or merrillite, with merrillite potentially contributing up to 3% of the PKT. Other lunar REE-bearing lunar phases include monazite, yittrobetafite (up to 94,500 ppm yttrium), and tranquillityite (up to 4.6 wt % yttrium, up to 0.25 wt % neodymium), however, lunar sample REE abundances are low compared to terrestrial ores. At present, there is no geological, mineralogical, or chemical evidence to support REEs being present on the Moon in concentrations that would permit their classification as ores. However, the PKT region has not yet been mapped at high resolution, and certainly has the potential to yield higher REE concentrations at local scales (<10s of kms). Future lunar exploration and mapping efforts may therefore reveal new REE deposits. Beyond the Moon, Mars and other extraterrestrial materials are host to REEs in apatite, chevkinite-perrierite, merrillite, whitlockite, and xenotime. These phases are relatively minor components of the meteorites studied to date, constituting <0.6% of the total sample. Nonetheless, they dominate a samples REE budget with their abundances typically 1–2 orders of magnitude enriched relative to their host rock. As with the Moon, though phases which host REEs have been identified, no extraterrestrial REE resource, or ore, has been identified yet. At present extraterrestrial materials are therefore not suitable REE-mining targets. However, they are host to other resources that will likely be fundamental to the future of space exploration and support the development of in situ resource utilization, for example: metals (Fe, Al, Mg, PGEs) and water.

Highlights

  • The resource budget of Earth is limited

  • Component has been suggested to have been derived from the Martian crust (e.g., [182]) or a KREEP-like component associated with late-stage martian magma ocean crystallization and similar to that which has been identified in lunar samples

  • A projected 8.5 billion by 2020, it is natural to consider exploration and characterization of extraterrestrial Rare-earth elements (REEs) sources in order to sustain our reliance on raw materials and energy reserves

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Summary

Introduction

“Space may be vast, but many of the most valuable resources—especially those convenient to. (Tm) and lead, lutetium [3].inInEarth’s addition, the occurrence often associated withand They are dispersed throughout the rock record and only exist in concentrated, economically mineralization, where uranium ore deposits often contain a significant concentration of REEs [4]. ComponentsThe of REEs smart phones, computer monitors, flash drives, lightbulbs, camera lenses, are widely used on Earth by humankind on a daily basis They are integral catalysts, and magnets, are computer fundamental to many military-based technologies. Most critical are the reserves of Europium (Eu), the only rare earth metal to have

The Criticality of REEs in Our Society
Earth’s Moon
Lunar Mineralogy
The KREEP Source
Lunar REE-Bearing Minerals
Other Potential Lunar Resources
Helium-3
Oxygen
Aluminum
Magnesium
Basaltic Glass
Vacuum
Lunar Regolith
REEs beyond the Moon
Summaryofofthe theREE
Missions beyond the Moon
Conclusions

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