MASS OF RIEBECKITE FROM MOUNT ROSA GRANITE. NOTE INDIVIDUAL COLUMNAR CRYSTALS. WIDTH OF SPECIMEN IS ~4 CM. |
For decades I explained to students and laypersons
that the common rock termed “granite” had an easy mineral identification: about 20% or more quartz, 60% to 80% feldspar
(both alkali types such as orthoclase, and plagioclase), and a dark mineral
such as biotite and/or hornblende. There
are numerous varieties of granite but all contain either hornblende or
biotite. Wrong! I just needed to move to Colorado and
discover the Precambrian Pikes Peak batholith.
In addition to the biotite-hornblende myth, I thought that the Pikes
Peak Granite was just a “big ole pluton” with a fairly homogeneous mineral
composition and generally pink in color; the pegmatites present contained
larger crystals. Wrong again!
Smith and others (1999) pointed out that the Pikes
Peak Batholith is a composite system (~1.08 Ga) composed of at least two
different granite types. The first is a “potassic”
series (~64%-78% by weight of SiO2 with biotite and or hornblende),
mainly the “real” Pikes Peak Granite, and a “sodic” series (44%-78% SiO2). Rocks of the latter series were emplaced via
at least seven different smaller plutons, among them the Mount Rosa Granite. Both of the “series” were emplaced close
together in time and space although the Mount Rosa Granite has been intruded
into the Pikes Peak Granite (Gross and Heinrich, 1965).
Near St. Peter’s Dome on the flanks of the Pikes Peak
Massif, the Mount Rosa Granite crops out, and its major minerals include
microcline feldspar, quartz and riebeckite.
So here, the major dark-colored silicate mineral in the granite is the
somewhat rare amphibole, riebeckite (Gross and Heinrich, 1965). Although most of the Mount Rosa Granite is
fine grained, some pegmatites are present (see specimen photo).
Riebeckite is an iron-sodium silicate [Na2][Fe2+3Fe3+2]Si8O2(OH)2
that is unique in that both ferrous and ferric iron are present. The mineral, with a hardness of 5-6, is
usually dark blue to black in color and the crystals are columnar aggregates. The ends of the individual columns are
usually broken and rarely terminated. My
specimen is actually pegmatitic in nature.
One interesting aspect of the riebeckite-bearing Mount
Rosa Granite is the level of radioactivity present, mostly due to the presence
of thorium. Exploration pits have been constructed
and 500 tons of ore were processed for their radioactive content; however,
commercial processing seems unfeasible (I think) (Gross and Heinrich, 1966).
And finally, a variety of riebeckite termed
crocidolite is an “asbestos” mineral with a fibrous habit and dangerous if
ingested.
REFERENCES
CITED
Gross, E. B. and E. W. Heinrich, 1965, Petrology and
Mineralogy of the Mount Rosa Area, El Paso and Teller Counties, Colorado: I The
Granites: The American Mineralogist, v.
50.
Gross, E. B. and E. W. Heinrich, 1966, Petrology and
Mineralogy of the Mount Rosa Area, El Paso and Teller Counties, Colorado: III Lamprophyres
and Mineral Deposits: The American
Mineralogist, v. 51.
Smith, D. R. and J. Noblett, R. A. Wobus, D. Unruh,
K. R. Chamberlain, 1999, A review of the Pikes peak Batholith, Front Range,
Central Colorado: A “Type Example” of A-type Granitic Magmatism: Rocky Mountain
geology, v. 34, no. 2.
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