RT @PlanetTreky: Abundance of highly siderophile elements in lunar basalts controlled by iron sulfide melt #AstroLit https://t.co/EpVnqj9Y…
RT @PlanetTreky: Abundance of highly siderophile elements in lunar basalts controlled by iron sulfide melt #AstroLit https://t.co/EpVnqj9Y…
RT @PlanetTreky: New research considers what lies below the moon's surface https://t.co/YjOIhDyEqP https://t.co/RZYPewti5I
RT @PlanetTreky: New research considers what lies below the moon's surface https://t.co/YjOIhDyEqP https://t.co/RZYPewti5I
RT @PlanetTreky: New research considers what lies below the moon's surface https://t.co/YjOIhDyEqP https://t.co/RZYPewti5I
RT @PlanetTreky: New research considers what lies below the moon's surface https://t.co/YjOIhDyEqP https://t.co/RZYPewti5I
RT @PlanetTreky: Abundance of highly siderophile elements in lunar basalts controlled by iron sulfide melt #AstroLit https://t.co/EpVnqj9Y…
New research considers what lies below the moon's surface https://t.co/YjOIhDyEqP
Abundance of highly siderophile elements in lunar basalts controlled by iron sulfide melt #AstroLit https://t.co/EpVnqj9YZJ
Abundance of highly siderophile elements in lunar basalts controlled by iron sulfide melt https://t.co/5TNb7cuiVX
Jim Mungall article published: Nature Geoscience https://t.co/bVBKyqKGMD
RT @NatureGeosci: NGeo: Highly siderophile element abundances in lunar basalts cannot quantify late accretion onto the Moon @DalEarthSci @…
RT @NatureGeosci: NGeo: Highly siderophile element abundances in lunar basalts cannot quantify late accretion onto the Moon @DalEarthSci @…
NGeo: Highly siderophile element abundances in lunar basalts cannot quantify late accretion onto the Moon @DalEarthSci @ErthSciCarleton @CarnegieGeoPhys https://t.co/43Z6kmZucz https://t.co/yzeimocW6d
RT @emulenews: The Earth–Moon late-accretion conundrum https://t.co/2A4G7xKDW9 Early Moon formation inferred from hafnium–tungsten systemat…
RT @emulenews: The Earth–Moon late-accretion conundrum https://t.co/2A4G7xKDW9 Early Moon formation inferred from hafnium–tungsten systemat…
RT @emulenews: The Earth–Moon late-accretion conundrum https://t.co/2A4G7xKDW9 Early Moon formation inferred from hafnium–tungsten systemat…
RT @emulenews: The Earth–Moon late-accretion conundrum https://t.co/2A4G7xKDW9 Early Moon formation inferred from hafnium–tungsten systemat…
The Earth–Moon late-accretion conundrum https://t.co/2A4G7xKDW9 Early Moon formation inferred from hafnium–tungsten systematics https://t.co/ppxktAyWaq Abundance of highly siderophile elements in lunar basalts controlled by iron sulfide melt https://t.co/G