Description
Overview – Genuine Lunar Meteorite NWA 8687 from Morocco
This listing offers a 100% genuine Lunar Meteorite (NWA 8687), a rare and scientifically significant stone originating from the Moon. Each fragment is part of a carefully authenticated Northwest Africa find, collected in Morocco, and is regarded as one of the confirmed lunar breccias linked to material ejected from the lunar surface by ancient asteroid impacts. Every specimen is guaranteed genuine and is supplied with a Certificate of Authenticity. The photographs show a representative example of the quality and appearance of the pieces available, each selected for clarity of features and strong visual interest. A 1 cm scale cube is included in the imagery for accurate size reference.
Lunar Origin and Scientific Importance
NWA 8687 is classified as a feldspathic breccia, a mixture of lunar crustal materials fused together by the extreme pressure and heat of meteorite impacts on the Moon’s surface. These breccias form within the lunar highlands, the lighter, heavily cratered regions dominated by anorthositic crust. The mineralogical composition typically includes plagioclase feldspar, pyroxenes, and impact-generated melt veins. These features reflect the Moon’s complex geological history, shaped by constant bombardment, intense heating, and rapid cooling over billions of years.
Lunar meteorites such as NWA 8687 are ejected from the Moon when major impacts liberate rock fragments with enough force to escape lunar gravity. These pieces travel through space before ultimately crossing Earth’s orbit. After landing in northwest African desert regions, they are recovered and classified by meteoriticists and institutions dedicated to planetary science. Their study provides critical insights into lunar crust formation, impact melt processes, and the evolution of the early Solar System.
Structure and Morphology
Specimens of NWA 8687 often display a brecciated internal texture, with clasts of varying sizes locked within a fine-grained or partially melted matrix. The contrasting colours and mineral inclusions inside the meteorite highlight its complex impact history. Melt pockets, shock veins, and fractured mineral grains are common, indicating repeated high-energy events on the lunar surface. The texture is unmistakably extraterrestrial, and under magnification, the structure offers an exceptional study piece for collectors, educators, and researchers alike.
Exterior surfaces may show evidence of desert weathering typical of Northwest African finds, including light polishing from windborne sand. Unlike many stony meteorites originating from asteroids, lunar specimens lack a thick fusion crust due to their specific mineralogy and atmospheric entry characteristics. Their internal brecciation remains the key diagnostic trait.
Geological Context and Rarity
Lunar meteorites are among the rarest materials on Earth, with total known lunar meteorite material weighing far less than many common gemstones. NWA 8687 was formally classified within the international meteoritical catalogue, confirming its lunar origin through oxygen isotope ratios, mineral chemistry, and petrographic analysis. Its feldspathic composition places it among the highlands-derived lunar breccias, material believed to originate from the Moon’s ancient primordial crust.
Collectors value NWA 8687 for its scientific relevance, documented origin, and highly characteristic brecciated structure. For teaching and display, it provides a tangible link to the Moon’s surface – a real piece of lunar geology that predates human history by billions of years.
Product Details
• Type: Lunar Meteorite (NWA 8687)
• Classification: Feldspathic lunar breccia
• Origin: Northwest Africa (Morocco)
• Authenticity: 100% genuine, with Certificate of Authenticity
• Photograph: Shows an example of actual specimen quality
• Scale cube: 1 cm – see photos for full sizing
This is a remarkable opportunity to own a scientifically certified lunar meteorite, beautifully representative of the Moon’s ancient crust and impact history. Perfect for collectors, enthusiasts, educators, and anyone captivated by planetary science.
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