Abstract
A detailed morphological, chemical and isotopic study of zircons from a single outcrop of two mineralogically and chemically distinct units of the late Precambrian Ponaganset gneiss was undertaken to investigate the effects of mylonitization and metamorphism on U-Pb isotopic systematics. Late Paleozoic, amphibolite-grade (approx. 600°C) mylonitization of the Ponaganset gneiss at this locality is associated with movement along the Hope Valley Shear Zone. The response of zircon to metamorphism in each gneiss unit is distinct: zircons in gray augen gneiss are uncorroded and not overgrown, whereas zircons from fluorite-bearing pink granitic gneiss are variably corroded and over 50% bear opaque overgrowths. The zircon overgrowths are chemically distinct from the primary cores, and contain high conentrations of Hf, U, HREE, and Th. Mylonite derived from the gray gneiss contains only a small population of Hf-U-rich metamorphic zircon, but zircons in the pink gneiss-derived mylonite are dominated by the Hf-U-rich metamorphic component. In terms of their U-Pb isotopic systematics, overgrowth-free zircons from both units are markedly discordant (gray, 10–20%, pink, 35%), but overgrown zircons from the pink gneiss are up to 70% discordant. Zircons from the mylonites yield younger Pb−Pb and U−Pb ages than those of the protolith gneisses, and isotopic data from each gneiss + mylonite pair define a linear array on concordia plots. Upper intercept ages of the gray gneiss (621+/−27 Ma) and the pink gneiss (635+/−50 Ma) indicate that the crystallization of both units was coeval, and the lower intercept ages (gray, 270+/−92 Ma; pink, 285+/−26 Ma) fall within the range of other published age estimates for Alleghanian metamorphism in southeastern New England (e.g., Zartman et al. 1988). New growth of zircon suggests that Zr was mobile during metamorphism. The presence of fluorite in the pink gneiss, and a discontinuity in log \(\left( {{{f_{{\text{H}}_{\text{2}} {\text{O}}} } \mathord{\left/{\vphantom {{f_{{\text{H}}_{\text{2}} {\text{O}}} } {f_{{\text{HF}}} }}} \right.\kern-\nulldelimiterspace} {f_{{\text{HF}}} }}} \right)\)values obtained from biotite across the pink gneiss-gray gneiss contact indicates that dissolution and reprecipitation of zircon may be related to local variations in HF fugacity. Zircon dissolution/reprecipitation in the pink gneiss, and the lack of similar features in the contiguous gray gneiss, suggests that the degree of isotopic perturbation of zircon during metamorphism is related to bulk chemistry, fluid chemistry and/or the degree of fluid-rock interaction.
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References
Alderton DHM, Pearce JA, Potts PJ (1980) Rare earth element mobility during granite alteration: evidence from southwest England. Earth Planet Sci Lett 49:149–165
Black LP, Williams IS, Compston W (1986) Four zircon ages from one rock: the history of a 3930-Ma-old granulite from Mount Sones, Enderby Land, Antarctica. Contrib Mineral Petrol 94:427–437
Bohlen SR, Essene EJ (1978) The significance of metamorphic fluorite in the Adirondacks. Geochim Cosmochim Acta 42:1669–1678
Boullier AM (1980) A preliminary study on the behavior of brittle minerals in a ductile matrix: example of zircon and feldspars. J Struct Geol 2:211–217
Boullier AM, Bouchez J-L (1978) Le quartz en rubans dans les mylonites. Bull Soc Geol Fr 7:253–262
van Breemen O, Henderson JB, Loveridge WD, Thompson PH (1986) U-Pb zircon and monazite geochronology and zircon morphology of granulites and granite from the Thelon Tectonic Zone, Healey Lake and Artillery Lake map areas, N.W.T. In: Current research, part A. Geol Surv Can, Pap 87-1A, 783–801
Caruba R, Mano J, Dars R, Turco G (1974) Corrosions experimentales de cristaux de zircons et comparaison avec des corrosions naturelles de zircons de granites albitises. Tschermaks Mineral Petrogr Mitt 21:33–46
Chase RB, Bickford ME, Arruda CE (1983) Tectonic implications of tertiary intrusion and shearing within the Bitterroot dome, northeastern Idaho batholith. J Geol 91:462–470
Claoue-Long JC, King RW, Kerrich R (1990) Archaean hydrothermal zircon in the Abitibi greenstone belt: constraints on the timing of gold mineralization. Earth Planet Sci Lett 98:109–128
Dallmeyer RD (1982) 39Ar/40Ar ages from the Narragansett Basin and sourthern Rhode Island basement terrane: their bearing on the extent and timing of Alleghanian tectonothermal events in New England. Geol Soc Am Bull 93:1118–1130
Dallmeyer RD, Hermes OD, Gil-Ibarguchi JI (1990) 39Ar/40Ar mineral ages from the Scituate Granite, Rhode Island: implications for late Paleozoic tectonothermal acitvity in New England. J Metamorphic Geol 8:145–157
Davis GL, Hart SR, Tilton GR (1968) Some effects of contact metamorphism on zircon ages. Earth Planet Sci Lett 5:27–34
Dickin AP (1988) Evidence for limited REE leaching from the Roffna gneiss, Switzerland—a discussion of the paper by Vocke et al. (1987; CMP 95; 145–154). Contrib Mineral Petrol 99:273–275
Dirks P, Hand M (1991) Structural and metamorphic controls on the distribution of zircon in an evolving quartzofeldspathic migmatite: an example from the Reynolds Range, central Australia. J Metamorphic Geol 9:191–202
Dostal J, Capedri S (1978) Uranium in metamorphic rocks. Contrib Mineral Petrol 66:409–414
Gehrels GE, Saleeby JB (1987) Geology of southern Prince of Wales Island, southeastern Alaska. Geol Soc Am Bull 98:123–137
Gehrels GE, Saleeby JB, Berg HC (1987) Geology of Annette, Gravina, and Duke Islands, southeastern Alaska. Can J Earth Sci 24:866–881
Gromet LP (1989) Avalonian terranes and late Paleozoic tectonism in southeastern New England: constraints and problems. Geol Soc Am Spec Pap 230:193–211
Gromet LP, Getty SR (1989) Direct dating of deformational fabrics in high-grade rocks using a microstructural-geochronological approach (abstract). Geol Soc Am Abstr Program 21:A227
Gromet LP, O'Hara KD (1985) The Hope Valley Shear Zone—a major late Paleozoic ductile shear zone in southeastern New England. In: Guidebook for field trips in Connecticut and adjacent areas of New York and Rhode Island. NEIGC 77th Annual Meeting, State Geol Nat Hist Surv Conn. Guidebook 6: 277–295
Gulson BL, Krogh TE (1975) Evidence of multiple intrusion possible resetting of U−Pb ages, and new crystallization of zircons in the post-tectonic intrusions (‘Rapakivi Granites’) and gneisses from South Greenland. Geochim Cosmochim Acta 39:65–82
Hart SR, Davis GL, Steiger RL, Tilton GR (1968) A comparison of the isotopic mineral age variations and petrologic changes induced by contact metamorphism. In: Hamilton EI, Farquhar RM (eds) Radiometric dating for geologists, Wiley-Interscience, London, pp 73–110
King RW, Kerrich R (1987) Fluorapatite fenitization and gold enrichment in sheeted trondhjemites within the Destor-Porcupine fault zone, Taylor township, Quebec. Can J Earth Sci 24:479–502
Krogh TE (1973) A low contamination method for hydrothermal decomposition of zircon and extraction of U and Pb for isotopic age determinations. Geochim Cosmochim Acta 37:485–494
Krogh TE, Davis GL (1972) The effect of regional metamorphism on U−Pb systems in zircon and a comparison with Rb−Sr systems in the same whole rock and its constituent minerals. Carnegle Inst Washington Year b 72:601–610
Lancelot JR, Boullier AM, Maluski H, Ducrot J (1983) Deformation and related radiochronology in a late Pan-African mylonite shear zone. Adrar des Iforas, Mali. Contrib Mineral Petrol 82:312–326
Lindh A, Schoberg H (1988) A tentative study of the U−Pb isotope system in zircon from the Mylonite Zone, southeast Norway. Geol Forens Stock Forh 110:15–20
Lloyd GE (1987) Atomic number and crystallographic contrast images with the SEM: a review of backscattered electron techniques. Mineral Mag 51:3–19
Ludwig KR (1980) Calculation of uncertainities of U−Pb isotope data. Earth Planet Sci Lett 46:212–220
Ludwig KR (1990a) ISOPLOT for MS-DOS: a plotting and regression program for radiogenic isotope data, for IBM-PC compatible computers, version 2.11. US Geol Surv Open-File Rep 88-557
Ludwig KR (1990b) PBDAT for MS-DOS: a computer program for IBM-PC compatibles for processing Pb−U−Th isotope data version 1.07. US Geol Surv Open-File Rep 88-542
Mora CI, Valley JW (1989) Halogen-rich scapolite and biotite: implications for metamorphic fluid-rock interaction. Am Mineral 74:721–737
Munoz JL (1984) F−OH and Cl−OH exchange in micas with applications to hydrothermal ore deposits. In: Bailey SW (ed) Micas (Reviews in Mineralogy 13) Mineral Soc Am, Washington, D.C., pp 469–494
Munoz JL, Eugster HP (1969) Experimental control of fluorine reactions in hydrothermal systems. Am Mineral 54:943–959
Munoz JL, Ludington SD (1974) Fluorine-hydroxyl exchange in biotite. Am J Sci 274:396–415
O'Hara K (1988) Fluid flow and volume loss during mylonitization: an origin for phyllonite in an overthrust setting, North Carolina, U.S.A.. Tectonophysics 156:21–36
O'Hara K, Blackburn WH (1989) Volume-loss model for trace element enrichment in mylonites. Geology 17:524–527
O'Hara K, Gromet LP (1983) Textural and Rb−Sr isotopic evidence for late Paleozoic mylonitization within the Honey Hill fault zone, southeastern Connecticut. Am J Sci 283:762–779
O'Hara K, Gromet LP (1985) Two distinct late Precambrian (Avalonian) terranes in southeastern New England and their Paleozoic juxtaposition. Am J Sci 285:673–709
O'Nions RK, Baadsgaard H (1971) A radiometric study of polymetamorphism in the Bamble Region, Norway. Contrib Mineral Petrol 34:1–21
Paterson BA, Stephens WE, Herd DA (1989) Zoning in granitoid accesory minerals as revealed by backscattered electron imagery. Mineral Mag 53:55–61
Peterman ZE, Zartman RE, Sims PK (1980) Tonalitic gneiss of early Archean age from northern Michigan. Geol Soc Am Spec Pap 182:125–134
Phair G, Stern TW, Gottfreid D (1971) Boulder Creek Batholith, Colorado part III: fingerprinting discordant zircon ages in a complex intrusion. Geol Soc Am Bull 82:1635–1656
Rubin JN, Henry CD, Price JG (1989) Hydrothermal zircon and zircon overgrowths, Sierra Blanca Peaks, Texas. Am Mineral 74:865–869
Scharer U (1978) Rock deformation and zircon-sphene U−Pb dating. in: Short papers of the Fourth International Conference, Geochronology, Cosmochronology, Isotope Geology 1978. US Geol Surv Open-File Rep 78-701: 380–382
Simpson C, Wintsch RP (1989) Evidence for deformation-induced K-feldspar replacement by myrmekite. J Metamorphic Geol 7:261–275
Sinha AK, Glover L (1978) U−Pb systematics of zircons during dynamic metamorphism. Contrib Mineral Petrol 66:305–310
Sinha AK, Hewitt DA, Wayne DM (1989) Hydrothermal stability of zircon: experimental and isotopic studies in: Zircons and fluids: an experimental investigation with applications for radioactive waste disposal. Prog Rep prepared for the US Dept of Energy, Contract No. De-FGOS-88 ER 1395-1. Virginia Polytechnic Inst State Univ, Dept of Geol Sci, Blacksburg, VA 24061:2–9
Sisson VB (1987) Halogen geochemistry as an indicator of metamorphic fluid interaction within the Ponder Pluton, Coast Plutonic Complex, British Columbia, Canada, Contrib Mineral Petrol 95:123–131
Stacy JS, Kramers JD (1975) Approximation of terrestrial lead isotope evolution by a two stage model. Earth Planet Sci Lett 26:207–221
Steiger RH, Jaeger E (1977) Subcommission on geochronology: convention on the use of decay constants in geo-and cosmochronology. Earth Planet Sci Lett 36:359–362
Stern RJ, Kroner A, Manton WI, Reichsmann T, Mansour M, Hussein IM (1989) Geochronology of the late Precambrian Hamisana shear zone, Red Sea Hills, Sudan and Egypt. J Geol Soc London 146:1017–1029
Tucker RD, Robinson P (1990) Age and setting of the Bronson Hill Magmatic Arc: a re-evaluation based on U−Pb zircon ages in southern New England. Geol Soc Am Bull 120:1404–1419
Wayne DM (1990) Petrogenesis and isotopic systematics of mylonites. Unpubl PhD dissertation, Virgina Polytechnic Inst State Univ, Blacksburg, VA, 324
Wayne DM, Sinha AK (1988) Physical and chemical response of zircons to deformation. Contrib Mineral Petrol 98:109–121
Wayne DM, Sinha AK (1989) Differential response of the zircon U−Pb system across a lithologic boundary: an example from southern New England (abstract) Geol Soc Am Abstr Program 21:A226
Winchester JA, Max MD (1984) Element mobility associated with syn-metamorphic shear zones near Scotchport, NW Mayo, Ireland. J Metamorphic Geol 2:1–11
Wintsch RP, Aleinikoff JN (1987) U−Pb isotopic and geologic evidence for late Paleozoic anatexis, deformation, and accretion of the late Proterozoic Avalon terrane, southcentral Connecticut. Am J Sci 287:107–126
Zartman RE, Hermes OD (1987) Archean inheritance in zircon from late Paleozoic granites from the Avalon zone of southeastern New England: an African connection. Earth Planet Sci Lett 82:305–315
Zartman RE, Naylor RS (1984) Structural implications of some radiometric ages of igneous rocks in southeastern New England. Geol Soc Am. Bull 95:522–539
Zartman RE, Hermes OD, Pease MH (1988) Zircon crytstallization ages and subsequent isotopic disturbance events in gneissic rocks of eastern Connecticut and western Rhode Island. Am J Sci 288:376–402
Zeitler PK, Barreiro B, Chamberlain CP, Rumble D (1990) Ionmicroprobe dating of zircon from quartz-graphite veins at the Bristol, New Hampshire, metamorphic hot spot. Geology 18:626–629
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Wayne, D.M., Sinha, A.K. & Hewitt, D.A. Differential response of zircon U−Pb isotopic systematics to metamorphism across a lithologic boundary: an example from the Hope Valley Shear Zone, southeastern Massachusetts, USA. Contr. Mineral. and Petrol. 109, 408–420 (1992). https://doi.org/10.1007/BF00283328
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DOI: https://doi.org/10.1007/BF00283328