• Title of article

    Precambrian greenstone sequences represent different ophiolite types

  • Author/Authors

    Furnes، نويسنده , , H. and Dilek، نويسنده , , Y. and de Wit، نويسنده , , M.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2015
  • Pages
    37
  • From page
    649
  • To page
    685
  • Abstract
    We present here a global geochemical dataset from one hundred-and-five greenstone sequences, ranging in age from the Eoarchean through the Archean and Proterozoic Eons that we have examined to identify different ophiolite types (c.f. Dilek and Furnes, 2011) with distinct tectonic origins in the Precambrian rock record. We apply well-established discrimination systematics (built on immobile elements) of basaltic components of the greenstone sequences as our geochemical proxies. The basaltic rocks are classified under two major groups, subduction-related and subduction-unrelated. This analysis suggests that ca. 85% of the greenstone sequences can be classified as subduction-related ophiolites, generated in backarc to forearc tectonic environments. The chemical imprint of subduction processes on the various greenstone sequences is highly variable, but particularly strong for the Archean occurrences, such as the 3.8 Ga Isua (Greenland) and the 3.8–4.3 Ga Nuvvuagittuq (Canada) greenstone belts. Subduction-unrelated greenstone sequences appear to have developed in all phases of ocean basin evolution, through continental rifting, rift–drift tectonics, seafloor spreading, and/or plume magmatism. For the time interval of ca. 3500 million years in the record of Precambrian greenstone evolution, a secular geochemical signature emerges from the oldest to the youngest, in which there is a gradual increase and decrease in the concentrations of incompatible (e.g. Zr) and compatible (e.g. Ni) elements, respectively. The compiled Precambrian greenstone data and our interpretations are consistent with the existence of interactive mantle-lithosphere dynamics, and plate-tectonic-like processes extending back to the Hadean-Archean transition.
  • Keywords
    Precambrian greenstone belts , Ophiolite classification , Subduction-related ophiolites , Subduction-unrelated ophiolites , Precambrian plate tectonics
  • Journal title
    Gondwana Research
  • Serial Year
    2015
  • Journal title
    Gondwana Research
  • Record number

    2364979