Abstract
Finding traces of ultrahigh-pressure (UHP) metamorphism in the geological record has huge implications for unravelling Earth’s geodynamic evolution, such as the onset of deep subduction. Usually, UHP rocks are identified by specific mineral inclusions like coesite and characteristic petrographic features resulting from its (partial) transformation to the lower-pressure polymorph quartz in thin sections of crystalline rocks. This approach relies on very small sample size and is thus limited to a few points within large regions. Here we present the first findings of coesite inclusions in detrital mineral grains. The intact monomineralic inclusions were detected in garnets from a modern sand sample from the Western Gneiss Region, SW Norway. They represent the first known intact monomineralic coesite inclusions in the Western Gneiss Region, and their presence is suggested to indicate the erosion of UHP rocks in the sampled catchment area. The novel approach introduced here allows for tracing UHP metamorphic rocks and their erosional products at the catchment scale instead of being limited to outcrops of crystalline rocks. It opens new avenues for the prospective exploration of UHP metamorphism in Earth’s geological record.
Highlights
The term ultrahigh-pressure (UHP) metamorphism refers to crustal rocks which experienced pressure–temperature (P–T) conditions high enough for the formation of coesite[1,2], i.e., pressures of >2.6 GPa at 600 °C or >2.8 GPa at 900 °C3–5
The first UHP terranes were discovered in 198416,17 and to date more than 30 occurrences are known[18], indicating that UHP metamorphism is a common process in major orogenic cycles at least since the late Neoproterozoic[1,19]
Unless fluids are almost absent along the retrograde path following UHP metamorphism[21], intergranular coesite will be replaced by quartz when P–T conditions drop below the quartz/coesite equilibrium line
Summary
732 detrital garnet grains from three grain-size fractions were analysed for mineral inclusions, 249 from the 63–125 μm fraction, 239 from the 125–250 μm fraction, and 244 from the 250–500 μm fraction. 615 of the 732 analysed garnets (~84%) yield mineral inclusions ≥2 μm, which were identified by Raman spectroscopy with a focus on the presence of UHP mineral inclusions. The Raman spectra of all coesite inclusions show a shift of the main band to higher relative wavenumbers compared to the main band position of measured relictic coesite cores in bimineralic SiO2 inclusions in ruptured omphacite detected in a thin section from a known UHP eclogite occurrence (AK-N12, N61°58.710′, E5°14.063′)[25]. This UHP eclogite is located at the harbour of Flatraket ~50 km southwest of the studied sample. Three grains (number 24, 98, and 378) are assigned to granulite-facies rocks, one grain (number 209) to eclogite-facies rocks and two grains (number 142 and 452) scatter around the boundary between eclogite- and granulite-facies rocks
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