The distribution of the compositions and shapes of detrital zircons and that of the compositions and colors of detrital garnets in the Oligocene Renova Formation (RE), Miocene Six Mile Creek Formation (SX), and Holocene sands (HO) in southwestern Montana have been analyzed statistically to understand the evolution of their diversity through lime. Field, stratigraphic, and provenance relations indicate that the cumulative maturity of the sediments increase in the order HO-RE-SX although Renova rocks had been buried most deeply. A multivariate analysis of chemical and petrographic data on detrital zircons and garnets from these sediments, all fluvial in origin, shows that the diversity of zircon properties decreases in the arder HO-RE-SX bui that of garnets does not show any systematic patter. In general, however, diversity of garnet properties seems to be least in the Renova. We conclude that in these sediments: 1) the inherited diversity of physical and chemical properties of detrital zircons decreases with increasing maturity of sediments: 2) not all zircons are as durable as commonly believed; and 3) the inherited diversity of physical and chemical properties of detrital garnets is affected more by diagenesis than other sediment-maturing processes.

Does the diversity of physical and chemical properties of detrital zircons and garnets decrease with increasing maturity of sediments?

MOLINAROLI, Emanuela
1998-01-01

Abstract

The distribution of the compositions and shapes of detrital zircons and that of the compositions and colors of detrital garnets in the Oligocene Renova Formation (RE), Miocene Six Mile Creek Formation (SX), and Holocene sands (HO) in southwestern Montana have been analyzed statistically to understand the evolution of their diversity through lime. Field, stratigraphic, and provenance relations indicate that the cumulative maturity of the sediments increase in the order HO-RE-SX although Renova rocks had been buried most deeply. A multivariate analysis of chemical and petrographic data on detrital zircons and garnets from these sediments, all fluvial in origin, shows that the diversity of zircon properties decreases in the arder HO-RE-SX bui that of garnets does not show any systematic patter. In general, however, diversity of garnet properties seems to be least in the Renova. We conclude that in these sediments: 1) the inherited diversity of physical and chemical properties of detrital zircons decreases with increasing maturity of sediments: 2) not all zircons are as durable as commonly believed; and 3) the inherited diversity of physical and chemical properties of detrital garnets is affected more by diagenesis than other sediment-maturing processes.
1998
35
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10278/23130
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