 | | Book |
| derives its name from the saltmining district of Hallstatt in Upper Austria, where many prehistoric finds have...ditetragonal prism e, also shown at D (only the upper part of the whole crystal is shown). identification...the fifteen most abundant elements present in the upper ten miles or so of the crust, which account for...characteristics 3 The 15 most abundant elements in the upper 10 miles of the Earth's crust given as weight percentages...by geological disturbances penetrates into the upper regions of the Earth's crust and there begins to |
 | | Journal (article/letter/editorial) |
| atmosphere, hydrosphere and lithosphere (crust and the upper mantle). There are physical barriers hampering our...Lautarite Lawsonite Lazulite Lazurite Leonite Lepidocrocite Lepidolite Leucite Libethenite Linneite Lithiophilite...(sand, gravel, limestones). With about 75% of the upper earth's crust, down to a depth of 1.5 km, made up...mineralizations in serpentinites (e.g. Rottenmanner Tauern, Austria). The complex Ni–Co–Fe sulfide bravoite is of diagnostic...magma differentiation produced by melting of the upper mantle at depth. variegated mineral assemblage |
| | Journal (article/letter/editorial) |
| atmosphere, hydrosphere and lithosphere (crust and the upper mantle). There are physical barriers hampering our...Lautarite Lawsonite Lazulite Lazurite Leonite Lepidocrocite Lepidolite Leucite Libethenite Linneite Lithiophilite...(sand, gravel, limestones). With about 75% of the upper earth's crust, down to a depth of 1.5 km, made up...mineralizations in serpentinites (e.g. Rottenmanner Tauern, Austria). The complex Ni–Co–Fe sulfide bravoite is of diagnostic...magma differentiation produced by melting of the upper mantle at depth. variegated mineral assemblage |
