Contributions to Mineralogy and Petrology

, Volume 98, Issue 1, pp 1–12 | Cite as

Contrasting mechanisms of fluid flow through adjacent stratigraphic units during regional metamorphism, south-central Maine, USA

  • John M. Ferry
Article
Received:
Accepted:

Abstract

The flow pattern of reactive metamorphic fluid through six outcrops of micaceous, carbonate-bearing sandstones from the Vassalboro Formation was determined by calculating and mapping fluid-rock ratios for numerous samples within each outcrop. The ratio of maximum to minimum measured fluid/rock varied by factors of only 1.3-22.9 in each outcrop. Fluid flow was pervasive at metamorphic grades ranging from the biotite through the sillimanite zones. Average fluid-rock ratio for the outcrops increases with increasing grade of metamorphism from ∼0.4 in the biotite zone to ∼ 1.4 in the sillimanite zone.

The flow pattern of reactive fluid through impure sandstones of the Vassalboro Formation was different at low and medium grades from fluid flow through the limestone member of the adjacent Waterville Formation. In the biotite and garnet zones, fluid flow through the Waterville Formation was channelized with channelways corresponding to individual lithologic layers that acted as metamorphic aquifers. Fluid-rock ratios recorded by the aquifers are greater than those recorded by the intervening beds by factors of up to 50–60. At the highest grades of metamorphism (sillimanite zone), however, flow through the Waterville Formation was as pervasive as through the Vassalboro Formation.

The Waterville and Vassalboro Formations experienced the same metamorphic event. The difference in pattern of fluid flow through the two formations therefore reflects the important control that lithology exerts on the permeability of rocks during metamorphism. Micaceous, carbonate-bearing sandstones evidently were more permeable than argillaceous carbonate rocks. The greater permeability of the sandstones may result from a greater concentration of grain boundaries between unlike minerals in the rocks.

Keywords

Sandstone Fluid Flow Reactive Fluid Sillimanite Stratigraphic Unit 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
This is a preview of subscription content, log in to check access.

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

References

  1. Brace WF (1980) Permeability of crystalline rocks. Int J Rock Mech Min Sci 17:241–251Google Scholar
  2. Burnham CW, Holloway JR, Davis NF (1969) Thermodynamic properties of water to 1000° C and 10,000 bars. Geol Soc Am Spec Pap 132Google Scholar
  3. Dallmeyer RD, Van Breeman O (1981) Rb-Sr whole-rock and 40K/39Ar mineral ages of the Togus and Hallowell quartz monzonite and Three Mile Pond granodiorite plutons, south-central Maine: their bearing on post-Acadian cooling history. Contrib Mineral Petrol 78:61–73Google Scholar
  4. Etheridge MA, Wall VJ, Vernon RF (1983) The role of the fluid phase during regional metamorphism and deformation. J Metamorph Geol 1:205–226Google Scholar
  5. Ferry JM (1976) P, T, \({\text{f}}_{{\text{CO}}_{\text{2}} } \) and \({\text{f}}_{{\text{H}}_{\text{2}} {\text{O}}} \) during metamorphism of calcareous sediments in the Waterville-Vassalboro area, south-central Maine. Contrib Mineral Petrol 57:119–143Google Scholar
  6. Ferry JM (1979) A map of chemical potential differences within an outcrop. Am Mineral 64:966–985Google Scholar
  7. Ferry JM (1980a) A case study of the amount and distribution of heat and fluid during metamorphism. Contrib Mineral Petrol 71:373–385Google Scholar
  8. Ferry JM (1980b) A comparative study of geothermometers and geobarometers in pelitic schists from south-central Maine. 65:720–732Google Scholar
  9. Ferry JM (1983a) Mineral reactions and element migration during metamorphism of calcareous sediments from the Vassalboro Formation, south-central Maine. Am Mineral 68:334–354Google Scholar
  10. Ferry JM (1983b) Regional metamorphism of the Vassalboro Formation, south-central Maine, USA: a case study of the role of fluid in metamorphic petrogenesis. J Geol Soc London 140:551–576Google Scholar
  11. Ferry JM (1986a) Reaction progress: a monitor of fluid-rock interaction during metamorphic and hydrothermal events. In: Walther JV, Wood BJ (eds) Fluid-rock interactions during metamorphism. Springer, Berlin Heidelberg New York Tokyo, pp 60–88Google Scholar
  12. Ferry JM (1986b) Infiltration of aqueous fluid and high fluid: rock ratios during greenschist facies metamorphism: a reply. J Petrol 27:695–714Google Scholar
  13. Ferry JM (1987) Metamorphic hydrology at 13 km depth and 400°–550° C. Am Mineral 72:39–58Google Scholar
  14. Ferry JM, Burt DM (1982) Characterization of metamorphic fluid composition through mineral equilibria. In: Ferry JM (ed) Characterization of metamorphism through mineral equilibria. Mineral Soc Am, Washington, DC, pp 207–262Google Scholar
  15. Grove TL, Ferry JM, Spear FS (1983) Phase transitions and decomposition relations in calcic plagioclase. Am Mineral 68:41–59Google Scholar
  16. Hewitt DA, Wones DR (1975) Physical properties of some synthetic Fe-Mg-Al trioctahedral biotites. Am Mineral 60:854–862Google Scholar
  17. Holdaway MJ, Guidotti CV, Novak JM, Henry WE (1982) Polymetamorphism in medium- to high-grade pelitic metamorphic rocks, west-central Maine. Bull Geol Soc Am 93:572–584Google Scholar
  18. Leake BE (1978) Nomenclature of amphiboles. Am Mineral 63:1023–1052Google Scholar
  19. McOnie AW, Fawcett JJ, James RS (1975) The stability of chlorites in the clinochlore-daphnite series at 2 kbar \({\text{P}}_{{\text{H}}_{\text{2}} {\text{O}}} \). Am Mineral 60:1047–1062Google Scholar
  20. Novak JM, Holdaway MJ (1981) Metamorphic petrology, mineral equilibria, and polymetamorphism in the Augusta Quadrangle, south-central Maine. Am Mineral 66:51–69Google Scholar
  21. Osberg PH (1968) Stratigraphy, structural geology, and metamorphism of the Waterville-Vassalboro area, Maine. Maine Geol Surv Bull 20Google Scholar
  22. Osberg PH (1979) Buchan-type metamorphism of the Waterville pelite, south-central Maine. In: Osberg PH (ed) Geology of eastcentral and north-central Maine. University of Maine, Orono, pp 210–222Google Scholar
  23. Robie RA, Bethke PM, Beardsley KM (1967) Selected X-ray crystallographic data, molar volumes, and densities of minerals and related substances. US Geol Surv Bull 1248Google Scholar
  24. Rumble D, Ferry JM, Hoering TC (1986) Oxygen isotope geochemistry of hydrothermally-altered synmetamorphic granitic rocks from south-central Maine, USA. Contrib Mineral Petrol 93:420–428Google Scholar
  25. Walther JV, Orville PM (1982) Volatile production and transport in regional metamorphism. Contrib Mineral Petrol 79:252–257Google Scholar
  26. Walther JV, Wood BJ (eds) (1986) Fluid-rock interactions during metamorphism. Springer, Berlin Heidelberg New York TokyoGoogle Scholar

Copyright information

© Springer-Verlag 1988

Authors and Affiliations

  • John M. Ferry
    • 1
  1. 1.Department of Earth and Planetary SciencesThe Johns Hopkins UniversityBaltimoreUSA

Personalised recommendations