ISSN:
1432-0967
Source:
Springer Online Journal Archives 1860-2000
Topics:
Geosciences
Notes:
Abstract Glauconite-bearing formations of Cretaceous and Tertiary age in the Helvetic zone of the Glarus Alps have been investigated by microscopic, X-ray, wet chemical, electron microprobe, Mössbauer spectroscopic, and K-Ar dating methods. 3 different metamorphic zones with increasing grade can be distinguished (Fig. 3). Original, unmetamorphosed sediments containing glauconite-calcite-quartz±chlorite comprise zone I. The glauconite is very rich in potassium (8–9 wt.%) and the chlorite is Fe-rich. In zone II green stilpnomelane forms by the reaction: glauconite±chlorite + quartz = stilpnomelane + k-feldspar + H2O + O2. The green stilpnomelane contains as much as ten times the amount of K found in brown stilpnomelane, which is believed to be a weathering feature. In zone III biotite appears by the reaction: chlorite + k-feldspar = biotite + stilpnomelane + quartz + H2O. Riebeckite is a possible additional phase in all three zones. Generally, zones I–III are arranged nearly parallel to the Alpine border with metamorphic grade increasing to the south. In the Glarnisch Massif, however, the transition from zone I to zone II is clearly controlled by the overburden of the nappe pile (Fig. 6). The beginning of zone II also seems to coincide with the middle of the anchizone, as defined by illite-crystallinity measurements in adjoining marly shales and slates; this corresponds approximately to the transition from the zeolite facies to the prehnitepumpellyite facies. K-Ar-ages on glauconites regularly decrease when approaching the zone I/II-transition. Field evidence and combined K-Ar age determinations on glauconites, stilpnomelanes and riebeckites point to a peak of the metamorphism during Lower to Middle Oligocene, shortly after the main orogenic phase in this part of the Helvetic Alps.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00383103
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