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| Titel |
Detailed thermal fingerprinting of obduction-related processes: insights from Northern New Caledonia |
| VerfasserIn |
A. Vitale Brovarone, P. Agard, P. Monié, A. Chauvet |
| Konferenz |
EGU General Assembly 2012
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| Medientyp |
Artikel
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| Sprache |
Englisch
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| Digitales Dokument |
PDF |
| Erschienen |
In: GRA - Volume 14 (2012) |
| Datensatznummer |
250067294
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| Zusammenfassung |
| Northern New Caledonia comprises large and continuous units of high-pressure metamorphic rocks formed in response to the Eocene subduction of a continental margin, classically viewed as a northern extension of the Norfolk ridge, below an oceanic island–arc system (well-exposed in southern New Caledonia) [1, 2]. Metamorphic conditions increase gradually towards the east, providing a continuous window on prograde metamorphism from low-grade, lawsonite-bearing assemblages to epidote-bearing eclogite [3, 4, 5]. Unfortunately, available P-T constraints are mostly restricted to metamafics, but are almost completely lacking in metasediments, which represent the dominant lithology in these mainly continental-derived units. This is due both to the lack of diagnostic mineral assemblages in the metasedimentary lower grade units and to the intense late retrogression affecting the higher-grade metasediments.
We herein present an extensive thermometric dataset (encompassing the area from Hienghene to the south and from Koumac to Pouébo) obtained via Raman Spectroscopy of Carbonaceous Material (RSCM), which provides quantitative estimates of the peak metamorphic temperature of CM-bearing metasediments in the range ~200-650°C [6, 7]. Metamorphic conditions vary from about 200 °C in the lower-grade units and progressively increase toward the east to about 550 °C in the eclogite facies unit. Sharp metamorphic gaps are nevertheless found across some major tectonic boundaries (such as the Gendarmerie fault zone). Importantly, the main metamorphic units defined by means of our dataset do not always match with previous studies. This dataset also provides useful insights on the architecture of the high-pressure belt in Northern New Caledonia, where structures are poorly exposed due to thick vegetation.
[1] Cluzel, D., Aitchison, J.C., Picard, C., 2001. Tectonic accretion and underplating of mafic terranes in the Late Eocene intraoceanic forearc of New Caledonia (Southwest Pacific): geodynamic implications. Tectonophysics 340 (1–2), 23–59.
[2] Ulrich, M., Picard C., Guillot S., Chauvel C., Cluzel D., Meffre S. (2010) The New Caledonia Ophiolite : multiple Stage of melting and refertilisation process as indicators of ridge to subduction formation. Lithos. doi 10.1016/j.lithos.2009.12.011.
[3] Brothers, R. N. & Blake, M. C., 1972. Tertiary plate tectonics and high-pressure metamorphism in New Caledonia. Tectonophysics, 17, 359–391.
[4] Fitzherbert, J. A., Clarke, G. L. & Powell, R., 2003. Lawsonite– omphacite bearing metabasites of the Pam Peninsula, NE New Caledonia: Evidence for disrupted blueschist to eclogite facies conditions. Journal of Petrology, 44, 1805–1831.
[5] Spandler, C., & Hermann, J., 2006. High-pressure veins in eclogite from New Caledonia and their significance for fluid migration in subduction zones. Lithos, 89 (1-2). pp. 135-153. ISSN 1872-6143
[6] Beyssac, O., Goffé, B., Chopin, C. & Rouzaud, J.N., 2002. Raman spectra of carbonaceous material in metasediments: a new geothermometer. J. Metamorph. Geol., 20, 859–871.
[7] Lahfid, A., Beyssac, O., Deville, E., Negro, F., Chopin, C. & Goffé, B., 2010. Evolution of the Raman spectrum of carbonaceous material in low-grade metasediments of the Glarus Alps (Switzerland). Terra Nova, 22: 354–360. doi: 10.1111/j.1365-3121.2010.00956.x |
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