Oriented calcite concretions in Upper Miocene carbonate rocks of Menorca, Spain : evidence for fluid flow through a heterogeneous porous system

Authors

  • L. POMAR I GOMÀ
  • H. WESTPHAL
  • A. OBRADOR I TUDURÍ

DOI:

https://doi.org/10.1344/105.000001419

Keywords:

Calcite concretions, Carbonates, Fluid flow, Diagenesis, Balearic Islands, Miocene

Abstract

Elongate calcite concretions in Upper Miocene dolomitic, shallow-marine grainstones and packstones of Menorca document fluid flow through heterogeneous systems. These post-dolomitization concretions are thought to have grown with elongation axes parallel to groundwater flow direction, and to reflect the hydraulic gradient and the anisotropy of the hydraulic conductivity. Differences in shape, size and orientation of concretions, as well as the spatial and crosscutting relationships reflect two phases of calcite-cementing fluids. This is in contrast to most examples in the literature that distinguish just one phase of precipitating fluids. The first phase of cementing fluids flowed horizontally, most likely in the phreatic zone, across hydraulic high-conductivity layers that resulted from sediment-packing heterogeneities and preferential dissolution during dolomitization. These first-phase fluids were most likely injected into the host rock through fracture zones and probably originated in deeper settings. The second phase of cementing fluids was downward directed and possibly of meteoric origin. First-generation concretions, acting as permeability barriers, partly controlled the fluid pathways, precipitation patterns, and concretion type and loci.

References

Colton, G.W., 1967. Orientation of carbonate concretions in the Upper Devonian of New York. Geological Survey Professional Paper, 575-B, 57-59.

Davis, J.M., 1999. Oriented carbonate concretions in a paleoaquifer: Insights into geologic controls on fluid flow. Water Resources Research, 35, 1705-1711.

Dutton, S.P., White, C.D., Willis, B.J., Novakovic, D., 2002. Calcite cement distribution and its effect on fluid flow in a deltaic sandstone, Frontier Formation, Wyoming. American Association of Petroleum Geologists Bulletin, 86, 2007 –2021.

Fastovsky, D. E., Dott, R. H. J., 1986. Sedimentology, stratigraphy, and extinctions during the Cretaceous-Paleogene transition at Bug Creek, Montana. Geology, 14, 279-282.

Freeman, T., Rothbard, D., Obrador, A., 1983. Terrigenous dolomite in the Miocene of Menorca (Spain): Provenance and diagenesis. Journal Sedimentary Petrology, 53, 543-548.

Freeze, R.A., Cherry, J.A., 1979. Groundwater. Englewood Cliffs, New Jersey, ed. Prentice-Hall, 604 pp.

Jacob, A.F., 1973. Elongate concretions as paleochannel indicators. Geological Society of America Bulletin, 84, 2127-2132.

Johnson, M.R., 1989. Paleogeographic significance of oriented calcareous concretions in the Triassic Katberg Formation,

South Africa. Journal of Sedimentary Petrology, 59, 1008-1010.

Kupfersberger, H., Deutsch, C.V., 1999. Methodology for integrating analog geologic data in 3-D variogram modeling. American Association of Petroleum Geologists Bulletin, 83, 1262-1278.

McBride, E.F., Picard, M.D., Folk, R.L., 1994. Oriented concretions, Ionian coast, Italy: Evidence of groundwater flow direction. Journal of Sedimentary Research, 64, 535-540.

Meschter, M.N., 1958. A study of concretions as applied to the geology of uranium deposits. United States Atomic Energy

Commission Technical Memorandum Report, TM-D-1-14, 1-10.

Mozley, P.S., Davis, J.M., 1996. Relationship between oriented calcite concretions and permeability correlation structure in

an alluvial aquifer, Sierra Ladrones Formation, New Mexico. Journal of Sedimentary Research, 66, 11-16.

Obrador, A. 1972-1973. Estudio estratigráfico y sedimentológico de los materiales miocénicos de la Isla de Menorca. Revista Menorca, 64, 37-197; 65, 35-97 and 65, 125-189.

Obrador, A., Freeman, T., 1975. Erosional features and multiple generations of dolomite in the Miocene of cala St. Esteve

(Menorca, Baleares). IXe Congrès International de Sedimentologie. Nice 1975. Sedimentology, 159-162.

Obrador, A., Pomar, L., 1983. El Neógeno del sector de Maó. In: Pomar, L., Obrador, A., Fornós, J. J. and RodríguezPerea, A. (eds.). El Terciario de las Baleares (MallorcaMenorca). Institut d’Estudis Baleàrics, Universidad de Palma de Mallorca, 207-232.

Obrador, A., Pomar, L., Taberner, C., 1992. Late Miocene breccia of Menorca (Balearic Islands): a basis for the interpretation of a Neogene ramp deposit. Sedimentary Geology, 79, 203-223.

Parsons, M.W., 1980. Distribution and origin of elongate sandstone concretions, Bullion Creek and Slope Formations (Paleocene), Adams County, North Dakota. M.S. thesis. Grand Forks, University of North Dakota, 133pp.

Pirrie, D., 1987. Oriented calcareous concretions from James Ross Island, Antarctica. British Antarctic Survey Bulletin, 75, 41-50.

Pomar, L., Obrador, A., Westphal, H., 2002. Sub-wavebase cross-bedded grainstones on a distally steepened carbonate ramp, upper Miocene, Menorca, Spain. Sedimentology, 49, 139-169.

Raiswell, R., White, N.J.M., 1978. Spatial aspects of concretionary growth in the Upper Lias of northeast England. Sedimentary Geology, 20, 291-300.

Schultz, C.B., 1941. The pipy concretions of the Arikaree. University of Nebraska State Museum Bulletin, 2, 69-82.

Theakstone, W.H., 1981. Concretions in glacial sediments at Seglavatnet, Norway. Journal of Sedimentary Petrology, 51,

-196.

Todd, J.E., 1903. Concretions and their geological effects. Geological Society of America Bulletin, 14, 353-368.

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Published

2004-01-14