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Ankerite grains with dolomite cores: A diffusion chronometer for low- to medium-grade regionally metamorphosed clastic sediments

  • John M. Ferry EMAIL logo , Joanne E. Stubbs , Huifang Xu , Yunbin Guan and John M. Eiler
Published/Copyright: November 24, 2015
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American Mineralogist
From the journal American Mineralogist Volume 100 Issue 11-12

Abstract

Ankerite grains with dolomite cores occur in marls, pelites, and psammites from a Buchan terrain in Maine and a Barrovian terrain in Vermont (U.S.A.). Dolomite cores are typically ≤20 μm in diameter, have sharp but irregular contacts with ankerite, and have the same crystallographic orientation as ankerite rims. Ankerite grains with dolomite cores are common in the chlorite zone, less abundant in the biotite and garnet zones, and rare (Vermont) or absent (Maine) at higher grades. The texture and crystallographic orientation of dolomite and ankerite and the sharpness of the dolomite-ankerite contact are consistent with partial replacement of detrital dolomite by ankerite by solution-reprecipitation. Metamorphic biotite is in Fe-Mg exchange equilibrium with ankerite rims but not with dolomite cores, implying that ankerite did not form long after biotite (biotite has no phlogopite cores). Possible sources of iron for the formation of ankerite are reduction of ferric iron hydroxide or the smectite-to-illite reaction during diagenesis.

The sharpness of the dolomite-ankerite contact is a diffusion chronometer that constrains timescales of metamorphic process. Relatively low spatial resolution analyses of Fe/Mg across the contact with a NanoSIMS instrument and a FEG TEM give upper bounds on the thickness of the transition from ankerite to dolomite of ~2 and ~0.5 μm, respectively. Higher resolution analysis of BSE grayscale contrast with a FEG SEM gives a thickness ~100 nm. Fit of the grayscale profile to a model of one-dimensional diffusion across an infinite plane gives Dt = 10-15 m2 (± a factor of 5), where D is the effective Fe-Mg interdiffusion coefficient and t is the duration of diffusion. Using the published experimental determination of D, upper bounds on the residence time of ankerite grains with dolomite cores at peak T = 400-500 °C, on the duration of linear cooling from peak T to 100 °C, and on the duration of linear heating from 100 °C to peak T followed by linear cooling to 100 °C are all <1 yr. For linear heating and cooling lasting 106 years, peak T could not have been >100 °C.

The question is what explains the occurrence of ultrasteep composition gradients between dolomite and ankerite. Regional metamorphism on a timescale of a year or less is unrealistic. No barrier to diffusion at the dolomite-ankerite contact was observed in TEM images. Post-metamorphic formation of ankerite at very low temperature is ruled out by Fe-Mg exchange equilibrium between biotite and ankerite but not dolomite. It is unlikely that the steep composition gradients were preserved by intracrystalline pressure gradients.

Alternatively, the steep composition gradients would be consistent with timescales of metamorphic process ~106 years or longer if D values during metamorphism were approximately six orders of magnitude or more smaller than those measured in the laboratory. The error of measurement is much less, approximately ± a factor of 2. A correction to D for the difference in P between measurements (0.1 MPa) and metamorphism (350-800 MPa) is likely an order of magnitude or less. Oxygen activity (aO₂), however, was 17-20 orders of magnitude larger during the laboratory measurements than during metamorphism. A correction to measured D for the difference in aO₂ between experiment and metamorphism appears to be the likeliest way to reconcile the steep composition gradients with realistic timescales of metamorphism. Before ankerite grains with dolomite cores are fully realized as a useful diffusion chronometer for low- and medium-grade metamorphic rocks, the rates of Fe-Mg interdiffusion in ankerite and dolomite need to be calibrated as a function of aO₂.

Keywords: Regional metamorphism; chemical diffusion; timescales of metamorphism; diffusion chronometry; transmission electron microscopy; NanoSIMS analysis
Received: 2014-10-3
Accepted: 2015-5-19
Published Online: 2015-11-24
Published in Print: 2015-11-1

© 2015 by Walter de Gruyter Berlin/Boston

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  2. Stable and metastable silicate liquid immiscibility in ferrobasalts
  3. When was the Earth’s conveyor belt set in motion?
  4. Trace element partitioning into sulfide: How lithophile elements become chalcophile and vice versa
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  9. Experimental constraints on bubble formation and growth during magma ascent: A review
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  36. Shock-induced mobilization of metal and sulfide in planetesimals: Evidence from the Buck Mountains 005 (L6 S4) dike-bearing chondrite
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https://doi.org/10.2138/am-2015-5209
Keywords for this article
Regional metamorphism; chemical diffusion; timescales of metamorphism; diffusion chronometry; transmission electron microscopy; NanoSIMS analysis

Articles in the same Issue

  1. On understanding the structure and composition of crystals
  2. Stable and metastable silicate liquid immiscibility in ferrobasalts
  3. When was the Earth’s conveyor belt set in motion?
  4. Trace element partitioning into sulfide: How lithophile elements become chalcophile and vice versa
  5. Petrology on Mars
  6. Hf and Nd isotope systematics of early Archean komatiites from surface sampling and ICDP drilling in the Barberton Greenstone Belt, South Africa
  7. Quasicrystals at extreme conditions: The role of pressure in stabilizing icosahedral Al63Cu24Fe13 at high temperature
  8. Tracking the thermal decomposition of plasma-sprayed hydroxylapatite
  9. Experimental constraints on bubble formation and growth during magma ascent: A review
  10. Ankerite grains with dolomite cores: A diffusion chronometer for low- to medium-grade regionally metamorphosed clastic sediments
  11. Crystal structure, high-pressure, and high-temperature behavior of carbonates in the K2Mg(CO3)2–Na2Mg(CO3)2 join
  12. Temperature micro-mapping in oscillatory-zoned chlorite: Application to study of a green-schist facies fault zone in the Pyrenean Axial Zone (Spain)
  13. Micro- and nano-characterization of Zn-clays in nonsulfide supergene ores of southern Peru
  14. Mineralogical characterization of individual growth structures of Mn-nodules with different Ni+Cu content from the central Pacific Ocean
  15. The magma plumbing system of the Emeishan large igneous province and its role in basaltic magma differentiation in a continental setting
  16. Weathering of the Ethiopian volcanic province: A new weathering index to characterize and compare soils
  17. Recommended mineral-melt partition coefficients for FRTEs (Cu), Ga, and Ge during mantle melting
  18. Tetrahedral plot diagram: A geometrical solution for quaternary systems
  19. Investigations on alunogen under Mars-relevant temperature conditions: An example for a single-crystal-to-single-crystal phase transition
  20. Crystallization of calcium oxalate hydrates by interaction of calcite marble with fungus Aspergillus niger
  21. Direct and indirect evidence for free oxygen (O2–) in MO-silicate glasses and melts (M = Mg, Ca, Pb)
  22. Effect of fluid composition on growth rate of monazite in quartzite at 1.0 GPa and 1000 °C
  23. Determination of the full elastic tensor of single crystals using shear wave velocities by Brillouin spectroscopy
  24. Temperature dependence of the velocity-density relation for liquid metals under high pressure: Implications for the Earth’s outer core
  25. Thermal, compositional, and compressional demagnetization of cementite
  26. The MnCO3-II high-pressure polymorph of rhodocrosite
  27. Lanthanide tetrads in normalized rare element patterns of zircon from the Koktokay No. 3 granitic pegmatite, Altay, NW China
  28. Hydrogrossular, Ca3Al2(SiO4)3–x(H4O4)x: An ab initio investigation of its structural and energetic properties
  29. High-pressure synthesis of skiagite-majorite garnet and investigation of its crystal structure
  30. Mineralogical evolution of Fe–Si-rich layers at the olivine-water interface during carbonation reactions
  31. High-pressure spectroscopic study of siderite (FeCO3) with a focus on spin crossover
  32. Exploring the potential of Raman spectroscopy for crystallochemical analyses of complex hydrous silicates: I. Amphiboles
  33. Apexite, NaMg(PO4)·9H2O, a new struvite-type phase with a heteropolyhedral cluster
  34. The mechanism of infiltration of metamorphic fluids recorded by hydration and carbonation of epidote-amphibolite facies metabasaltic sills in the SW Scottish Highlands
  35. The axial ratio of hcp Fe and Fe–Ni–Si alloys to the conditions of Earth’s inner core
  36. Shock-induced mobilization of metal and sulfide in planetesimals: Evidence from the Buck Mountains 005 (L6 S4) dike-bearing chondrite
  37. The accretion and differentiation of Earth under oxidizing conditions
  38. Dislocation microstructures in simple-shear-deformed wadsleyite at transition-zone conditions: Weak-beam dark-field TEM characterization of dislocations on the (010) plane
  39. Chemical composition and crystal structure of merrillite from the Suizhou meteorite
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