Pressure-temperature estimates on blueschists from the Vestgötabreen complex (Western Svalbard)

• Autorzy: Kośmińska K. , Majka J. , Manecki M. , Kozub G. A.
• Konferencja: XVth International Conference of Young Geologists Her'lany 2014 : Międzybrodzie Żywieckie, Poland, May, 8th-10th 2014
• Języki publikacji: EN

Abstrakty

EN

In Oscar II Land (Motalafjella area, western Svalbard), an exotic high-pressure (HP) metamorphic unit, namely the Vestgötabreen Complex (Kanat & Morris 1988) occurs. It is thrust over low-grade metasediments (e.g. Labrousse et al. 2008) of inferred Neoproterozoic age. This complex is subdivided into the Lower (LU) and Upper Unit (UU) differing from each other in terms of lithologies and pressure-temperature (P-T) conditions. The LU is composed of high pressure-low temperature (HP-LT) metasediments with minor intercalations of blueschists, whereas the UU comprises metasediments, more voluminous blueschists and scattered lenses of eclogites. Radiometrie dating yield the age of c. 470 Ma for the HP metamorphism in the Motalafjella region (Horsfield 1972, Dallmeyer et al. 1990, Bernard-Griffiths et al. 1993). The P-T conditions for carpholite-bearing schists from the LU yield the pressures up to c. 16 kbar and temperatures in the range of 330-450°C (Agard et al. 2005), whereas eclogites from the UU were subjected to 18-24 kbar pressure and temperatures of 580-640°C (Hirajima et al. 1988). The aim of this study is to decipher meta-morphic evolution of blueschists using thermodynamic phase equilibrium modeling. Samples have been collected from the UU, cropping out at the Skipperryggen ridge. They contain mostly garnet, glaucophane, phengite, rutile and chlorite. Additionally lawsonite, ilmenite and epidote can be found in minor amounts. Garnet typically forms euhedral to subhedral porphyroblasts. It contains voluminous inclusions of white mica, epidote, rutile and amphibole. Garnet shows chemical compositional variation from Alm63Prp19Grs22Sps2 in the cores to Alm60Prp19Grs20Sps1 in the rims. The pyrope zoning is bowl-shaped, whereas grossular and spessartine profiles show bell-shaped trends. The almandine content is generally constant through the grain. The P-T conditions were estimated using the phase equilibrium modeling in the NCKFMASHTO system using the Perple_X software (Connolly 2005). Modeling was based on bulk-rock chemistry as well as garnet and phengite compositional isopleths. P-T estimates indicate peak conditions of ca. 20 kbar and 520°C. These estimates for studied blueschists from Skipperryggen are in agreement with previous studies on the Vestgötabreen Complex. Also, recent studies in Nordenskiöld Land (south of Oscar II Land) revealed the occurrence of blueschist facies rocks. These blueschists yielded similar P-T conditions to blueschists from the Vestgötabreen Complex (18 kbar, 470°C; Kośmińska et al., in press). More regionally, all aforementioned HP-LT lithologies may be correlated with the ophiolitic sequence occurring within the Pearya Terrane of northern Ellesmere Island (e.g. Labrousse et al. 2008, Kośmińska et al., in press). Detailed tectonic, petrological and geochronological studies are in progress.

Słowa kluczowe

EN

Neoproterozoic age; Lower Unit; LU; Upper Unit; UU

• Wydawca: Wydawnictwa AGH
• Czasopismo: Geology, Geophysics and Environment
• Rocznik: 2014
• Tom: Vol. 40, no. 1
• Strony: 94--95
• Opis fizyczny: Bibliogr. 9 poz.

Twórcy

autor

Kośmińska K.

• AGH University of Science and Technology, Faculty of Geology, Geophysics and Environmental Protection; al. Mickiewicza 30, 30-059 Krakow, Poland

autor

Majka J.

• Uppsala University, Department of Earth Sciences, Villavagen 16, SE-752 36 Uppsala, Swede

autor

Manecki M.

• AGH University of Science and Technology, Faculty of Geology, Geophysics and Environmental Protection; al. Mickiewicza 30, 30-059 Krakow, Poland

autor

Kozub G. A.

• AGH University of Science and Technology, Faculty of Geology, Geophysics and Environmental Protection; al. Mickiewicza 30, 30-059 Krakow, Poland

Bibliografia

• 1. Agard P., Labrousse L., Elvevold S. & Lepvrier C., 2005. Discovery of Paleozoic Fe-Mg carpholite in Motalafjella, Svalbard Caledonides: A milestone for subduction-zone gradients. Geology, 33, 761-764.
• 2. Bernard-GriffithsJ., Peucat J.J. & Ohta Y., 1993. Age and nature of protoliths in the Caledonian blueschist-eclogite complex of western Spitsbergen: a combined approach using U-Pb, Sm-Nd and REE whole-rock systems. Lithos, 30, 81-90.
• 3. Connolly J.A.D., 2005. Computation of phase-equilibria by linear programming: a tool for geodynamic modeling and its application to subduction zone decarbonation. Earth and Planetary Science Letters, 236, 524-541.
• 4. Dallmeyer R.D., Peucat J.J., Hirajima T. & Ohta Y., 1989. Tectonothermal chronology within a blueschist-eclogite complex, west-central Spitsbergen, Svalbard: evidence from 40Ar/39Ar and Rb/Sr mineral ages. Lithos, 24,291-304.
• 5. Hirajima T., Banno S., Hiroi T. & Ohta Y., 1988. Phase petrology of eclogites and related rocks from the Motalafjella high - pressure metamorphic complex in Spitsbergen (Arctic Ocean) and its significance. Lithos, 22, 75-97.
• 6. Horsfield W.T., 1972. Glaucophane schists of Caledonian age from Spitsbergen. Geological Magazine, 109, 29-36.
• 7. Kanat L. & Morris A., 1988. A working stratigraphy for central western Oscar II Land, Spitsbergen. Norsk Polarinstitutt Skrifter, 190, 1-25.
• 8. Kośmińska K., Majka J., Mazur S., Krumbholz M., Klonowska I., Manecki M., Czerny J., Dwornik M. (in press). Evidence for blueschist facies metamorphism in Nordenskiold Land of west-central Svalbard. Terra Nova.
• 9. Labrousse L., Elvevold S., Lepvrier C. & Agard P., 2008. Structural analysis of high-pressure metamorphic rocks of Svalbard: Reconstructing the early stages of the Caledonian orogeny. Tectonics, 27.