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K-Ar ages of the metamorphic sole of the Semail Ophiolite: implications for ophiolite cooling history

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Abstract

K−Ar ages have been determined on micas and hornblendes in the basal metamorphic sequence and in metamorphic rocks squeezed into the mantle sequence of the Semail Ophiolite. The hornblende ages of 99±0.5 and 102±0.8 Ma and the 90 Ma ages of coexisting micas from the high-grade metamorphic portion of the sequence are interpreted as cooling stages following the peak of metamorphism (T 800–850° C, P 6.5–9 kbar). The new pressure estimates are based on findings of kyanite in garnet-amphibolite and cordierite in quartzitic rocks. These data indicate a cooling rate of 10–30° C/Ma. The oldest mica ages of 95±1 Ma are observed in the lowest-grade greenschists. These also largely represent cooling ages, but might in part also include formation ages. The pattern of the muscovite ages across the metamorphic sole indicates that the cooling front moved from the low-grade metamorphic zone, through the high-grade rocks and into the base of the overlying ophiolite. Radiometric ages of hornblendes (92.3±0.5 and 94.8±0.6 Ma) indicate that the crustal gabbro sequence cooled below 500° C later than the base of the ophiolite sequence. Metamorphism of the sole rocks occurred during subduction of oceanic sediments and volcanic or gabbroic rocks as they progressively came into contact with hotter zones at the base of the overriding plate. The peak of metamorphism must have been contemporaneous with the main magmatism in the Semail Ophiolite. One of the dated muscovites yields an age of 81.3±0.8 Ma, but this is related to discrete deformation zones that were active during late-stage emplacement of the ophiolite.

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References

  • Allemann F, Peters T (1972) The ophiolite-radiolarite belt of the North-Oman Mountains. Eclogae Geol Helv 65:657–697

    Google Scholar 

  • Béchennec F (1987) Géologie des nappes Hawasina dans les parties orientale et centrale des Montagnes d'Oman. Thèse Doct d'État, Université P et M Curie Paris, VI, F, Document du BRGM

  • Boudier F, Bouchez JL, Nicolas A, Cannat M, Ceulencer G, Miseri M, Montigny R (1985) Kinematics of oceanic thrusting in the Oman ophiolites: model of plate convergence. Earth Planet Sci Lett 75:215–222

    Google Scholar 

  • Bucher M, Kurz D (1991) The metamorphic series associated with the Semail Ophiolite nappe of the Oman Mountains in the United Arab Emirates. MS thesis, University of Berne, Switzerland

  • Ceuleneer G, Nicolas A and Boudier F (1988) Mantle flow patterns at an oceanic spreading centre: the Oman peridotites record. Tectonophysics 151:1–26

    Google Scholar 

  • Church WR, Stevens RK (1971) Early Paleozoic ophiolite complexes of the Newfoundland Appalachians as mantle-ocean crust sequences. J Geophys Res 76:1466

    Google Scholar 

  • Coleman RG (1981) Tectonic setting for ophiolite obduction in Oman. J Geophys Res 86:2497–2508

    Google Scholar 

  • Dodson MG, McClelland-Brown E (1985) Isotopic and paleomagnetic evidence for rates of cooling, uplift and erosion. In: Snelling NT (eds). The chronology of the geological record, vol 10. Geol Soc London Memoir, Blackwell Scientific, Oxford/London, pp 315–325

    Google Scholar 

  • Flisch M (1986) K-Ar dating of quaternary samples. In: Hurford AJ, Jäger E, Ten Cate J (eds) Dating young sediments 16. CCOP-Unesco Technical Publication, Bankok, pp 299–323

    Google Scholar 

  • Ghent ED, Stout MZ (1981) Metamorphism at the base of the Semail ophiolite southeastern Oman mountains. J Geophys Res 86:2557–2571

    Google Scholar 

  • Glennie KW, Boeuf MGA, Hughes-Clarke MW, Moody-Stuart M, Pilaar WFH, Reinhardt BM (1973) Late Cretaceous nappes in Oman Mountains and their geologic evolution. Bull Am Assoc Pet Geol 57/1:5–27

    Google Scholar 

  • Glennie KW, Boeuf MGA, Hughes-Clarke MW, Moody-Stuart M, Pilaar WFH, Reinhardt BM (1974) Geology of the Oman Mountains. Verh K Ned Geol Mijnbouwk Genoot Geol Ser 31:1–423

    Google Scholar 

  • Glennie KW, Hughes-Clarke MW, Boeuf MGA, Moody-Stuart M, Pilaar WFH, Reinhardt BM (1990) Inter-relationship of the Makran-Oman Mountains belts of convergence. In: Robertson AHF, Searle MP, Ries AC (eds) The geology and tectonics of the Oman region. Geol Soc London Spec Publ 49:773–787

  • Gnos E (1992) The metamorphic rocks associated with the Semail Ophiolite (Sultanate of Oman and United Arab Emirates). PhD thesis, University of Berne, Switzerland

  • Hacker BR (1991) The role of deformation in the formation of metamorphic gradients: ridge subduction beneath the Oman Ophiolite. Tectonics 10/2:455–473

    Google Scholar 

  • Harrison TM (1981) Diffusion of 40Ar in hornblende. Contrib Mineral Petrol 78:324–331

    Google Scholar 

  • Hudson RGS, Browne FGS and Chatton M (1954) The structure and stratigraphy of the Jebel Qamar area, Oman. Proc Geol Soc Lond 1513:XCIX-CIV

    Google Scholar 

  • Lanphere MA (1981) K−Ar ages of metamorphic rocks at the base of the Semail ophiolite, Oman. J Geophys Res 86:2777–2782

    Google Scholar 

  • Lippard SJ (1983) Cretaceous high-pressure metamorphism in the NE Oman and its relationship to subduction and Ophiolite nappe emplacement. J Geol Soc London 140:97–104

    Google Scholar 

  • Lippard SJ, Shelton AW, Gass IG (1986) The ophiolite of Northern Oman. Geol Soc London Memoir 11, Blackwell Scientific, Oxford London

    Google Scholar 

  • Montigny R, Le Mer O, Thuziat R, Whitechurch H (1988) K−Ar and 40Ar/39Ar study of the metamorphic rocks associated with the Oman ophiolite. Tectonophysics 151:345–362

    Google Scholar 

  • Moody JD (1974) Late cretaceous nappes in Oman and their geologic evolution: discussion. Bull Am Assoc Pet Geol 58:889–895

    Google Scholar 

  • Morton DM (1959) The geology of Oman. 5th World Petrol Cong New York Proc, Sect 1, pp 277–294

    Google Scholar 

  • Nicolas A, Ceuleneer G, Boudier F, Misseri M (1988) Structural mapping in the Oman ophiolites: mantle diapirism along an oceanic ridge. Tectonophysics 151:27–56

    Google Scholar 

  • Rabu D (1987) Géologie de l'Autochtone des Montagnes d'Oman: la fenêtre du Jabal Akhdar. Thèse Doct d'Etat, Université P et M Curie, Paris VI, F, Document du BRGM

  • Searle MP (1980) The metamorphic sheet and underlying volcanic rocks beneath the Semail Ophiolite in the Northern Oman Mountains of Arabia. PhD thesis, Department of Earth Sciences, The Open University, Milton Keynes, England

  • Searle MP, Malpas J (1980) Structure and metamorphism of rocks beneath the Semail ophiolite of Oman and their significance in ophiolite obduction. Trans R Soc Edinburgh [Earth Sci] 71:247–262

    Google Scholar 

  • Steiger RH, Jäger E (1977) Subcommission on Geochronology: convention on the use of decay constants in geo- and cosmochronology. Earth Planet Sci Lett 36:359–362

    Google Scholar 

  • Stoessel F, Ziegler U (1985) The metamorphic series associated with the Semail Ophiolite nappe of the Oman Mountains in the United Arab Emirates. MS thesis, University of Berne, Switzerland

  • Tilton GR, Hopson CA, Wright JE (1981) Uranium-lead isotopic ages of the Semail ophiolite, Oman, with application to Tethyan ocean ridge tectonics. J Geophys Res 86:2763–2775

    Google Scholar 

  • Tippit PR, Pessagno ER Jr (1981) The biostratigraphy of sediments in the volcanic unit of the Semail ophiolite. J Geophys Res 86:2756–2762

    Google Scholar 

  • Tschopp RH (1967) The general geology of Oman. 7th World Petroleum Congress, Mexico 1967, Proceedings of the 7th World Petrol Congr 2, pp 231–241

    Google Scholar 

  • Williams H, Smyth WR (1973) Metamorphic aureoles beneath ophiolite suites and Alpine peridotites: tectonic implications with west Newfoundland examples. Am J Sci 273:594–621

    Google Scholar 

  • Wilson HH (1969) Late Cretaceous eugeosynclinal sedimentations gravity tectonics and ophiolite emplacement in the Oman Mountains, southeast Arabia. Bull Am Assoc Pet Geol 53:626–671

    Google Scholar 

Download references

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  1. Mineralogisch-Petrographisches Institut, Universität Bern, Baltzerstrasse 1, CH-3012, Bern, Switzerland

    Edwin Gnos & Tjerk Peters

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  1. Edwin Gnos
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  2. Tjerk Peters
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Gnos, E., Peters, T. K-Ar ages of the metamorphic sole of the Semail Ophiolite: implications for ophiolite cooling history. Contr. Mineral. and Petrol. 113, 325–332 (1993). https://doi.org/10.1007/BF00286925

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