Controls on development of different mineral assemblages in gabbro and basalt during subduction metamorphism

Patricia Kang, Katherine F. Fornash, Donna L. Whitney

Research output: Contribution to journalArticlepeer-review

Abstract

Coexisting fine-grained (meta-volcanic) and coarse-grained (meta-plutonic) mafic rocks in a high-pressure (P)/low-temperature (T) complex (Sivrihisar, Turkey) preserve different prograde, peak, and retrograde mineral assemblages, providing an opportunity to evaluate controls on mineral assemblages in metabasites that experienced the same P–T conditions. Fine-grained metabasalts are garnet-bearing lawsonite blueschist and eclogite with similar assemblages that vary on a mm- to cm- scale in mode of glaucophane vs. omphacite. In contrast, metagabbro consists of a disequilibrium mineral suite of relict igneous clinopyroxene partially replaced by omphacite or hydrous phases (lawsonite + tremolite or glaucophane) in a matrix of fine-grained lawsonite, omphacite, tremolite, white mica, very rare garnet, and retrograde minerals (e.g., epidote, albite, and titanite), with later chlorite and calcite. Pseudosection modeling predicts similar peak P–T conditions (490–530 °C, 1.8–2.0 GPa) for both glaucophane-rich (blueschist) and omphacite-rich (eclogite) layers of the metabasalt and similar to slightly higher conditions (490–600 °C, 1.9–2.5 GPa) for metagabbro. The range of modelled H2O content at peak P–T conditions in metabasalt (2.0–5.4 wt%) is significantly lower than in metagabbro (6.4–8.7 wt%) due to the higher modal abundance of hydrous minerals in the latter. At the relatively similar peak P–T conditions, metagabbro experienced different reaction histories from coexisting metabasalt, thereby developing distinctive HP/LT mineral assemblages and modes (e.g., scarce garnet) owing to its more Mg-rich bulk composition (XMg = 0.58–0.84 vs. 0.50), higher H2O content, and coarser grain-size. This study is the first petrologic analysis of Sivrihisar metagabbro and the first systematic study of H2O content in metabasites from this locality, which is one of the best-preserved examples of lawsonite eclogite and blueschist in the world.

Original languageEnglish (US)
Article number113
JournalContributions to Mineralogy and Petrology
Volume175
Issue number12
DOIs
StatePublished - Dec 2020

Bibliographical note

Funding Information:
We would like to thank Anette von der Handt for her instruction during electron microprobe analyses. We also gratefully acknowledge D. Rubatto and two anonymous reviewers for their constructive reviews of a preliminary version of the manuscript. This work was funded by NSF grant EAR-1949895 and by support from the College of Science and Engineering of the University of Minnesota.

Keywords

  • Blueschist
  • Eclogite
  • Lawsonite
  • Metabasalt
  • Metagabbro
  • Subduction
  • Turkey

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