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Influence Of Depositional Environment On Devil's Hole Calcite Morphology And Petrology

  • Peter T. Kolesar
  • Alan C. Riggs

Devils Hole, a steeply dipping (~ 80°) tectonically formed planar fissure >165 m deep (Riggs et al., 1994), has been accumulating calcite speleothems that contain at least two different paleoclimate records. Below water table deposits contain a 560,000 year paleoclimate isotopic record (Winograd et al., 1992), while above water table deposists record 120,000 years of changing water tabl elevation (Szabo et al., 1994).

Keywords

Water Table Fluid Inclusion Calcite Crystal Columnar Crystal Irregular Crystal 
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.

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6. References

  1. Carr, W. J., 1974, Summary of tectonic and structural evidence for stress orientation at the Nevada Test Site, US, Geol. Survey Open-File Report 74-176.Google Scholar
  2. Carr, W. J., 1984, Regional structural setting of Yucca Mountain, southwesternNevada, and Late Cenozoic rates oftectonic activity in part of the southwestern Great Basin, Nevada and California, U. S. Geol. Survey Open-File Report 84-854.Google Scholar
  3. Carr, W. J., 1988, Geology of the Devils Hole area, Nevada, US. GeoL Survey Open-File Report 87-560, 32 p.Google Scholar
  4. Coplen, T. B., Winograd, I. J., Ludwig, K R., Szabo, B. J., Landwehr, J. M., Kolesar, P.T., and Hoffman, R. J., 1990, Continuous 500,000-year climatic record from Great Basin vein calcite: 2. the VC time series, Geol. Soc. Amer. Abs. with Prog., 22(7):A209.Google Scholar
  5. Coplen, T. B., Winograd, I. J., Landwehr, J. M., and Riggs, A.C., 1994, 500.000 year stable carbon isotopic record from Devils Hole, Nevada, Science, 263:361-365.Google Scholar
  6. Daoxian, Yuan,2001, IGCP in1993: report to IGCP,(March25,2001) http://www.glnet.edu.cn/KDLAGCPIIGCP299/1994/parti.htm
  7. Dublyansky, Y. V., and Pashenko, S. E., 1997, Cave popcorn; an aerosol speleothem?, in: Proceedings of the 12th international congress of Speleology; Symposium 7, Physical speleology; Symposium 8, Karst geomorphology, P. Y. Jeannin, ed., Proceedings of the International Congress of Speleology 12, 1:271-274.Google Scholar
  8. Folk, R. L., and Assereto, it, 1976, Comparative fabrics of length-slow and length-fast calcite and calcitized aragonite in a Holocene speleothem, Carlsbad Caverns, New Mexico, Jour. Sed Pet , 46:486-496.Google Scholar
  9. Hill, C.A., and Forti, P., 1997, Cave Minerals of the World, 2°4 ed., National Speleological Society, Huntsville, AL, 463 p.Google Scholar
  10. Hoffman, It J., 1988, Chronology of diving activities and underground surveys in Devils Hole and Devils Hole Cave, Nye County, Nevada, 1950-1986, U.S . Geol. Survey Open-File Report 88-93,12 p.Google Scholar
  11. Johnson, K. it, Ingram, B. L, Roark, E. B., and Lamble, G., 2001, Major and minor element variations in speleothems as a high resolution paleoclimatic record (March 25, 2001); http://alspubs.lbl.gov/AbstractManager/uploadsrohnson.pdf
  12. Jones, B., 1989, Calcite rafts, peloids, and micrite in cave deposits from Cayman Brac, British West Indies, Can. Jour. Earth ScL, 26:654-664.CrossRefGoogle Scholar
  13. Kendall, A. C., and Broughton, P. L., 1978, Origin of fabrics in speleothems composed of columnar calcite crystals, Jour. Sed Pet., 48:519-538.Google Scholar
  14. Kolesar, P. T., 1989, Calcite deposits in Devil's Hole, Nevada: A record of the fall and rise of the water table in the southern Great Basin, Geol. Soc. Amer. Abs. with Prog, 21(5): 103.Google Scholar
  15. Kolesar, P. T., and Riggs, A. C., 1999, Form and formation: speleothems in Devils Hole, a tectonic cave in southern Nevada, Geol. Soc. Amer. Abs. with Prog., 31(7):A-90.Google Scholar
  16. Logan, B. W., and Semeniuk, V., 1976, Dynamic metamorphism; processes and products in Devonian carbonate rocks, Canning Basin, Western Australia, Geol. Soc. Australia, Inc., Spec. Pub. No. 6,138 pp.Google Scholar
  17. Ludwig, K. It, Simmons, K. R., Szabo, B. J., Winograd, I. J., Landwehr, J. M., Riggs, A. C., and Hoffman, R. J., 1992, Mass-spectrometric 230Th - ZHU - 238U dating of the Devils Hole calcite vein, Science 258:284-287.CrossRefGoogle Scholar
  18. Plummer, L. N., Busenberg, E., and Riggs, A. C., 2000, In-situ growth of calcite at Devils Hole, Nevada: Comparison of field and laboratory rates to a 500,000 year record ofnear-equilibrium calcite growth, Aquatic Geochem., 6:257-274.CrossRefGoogle Scholar
  19. Riggs, A. C., Can, W. J., Kolesar, P. T., and Hoffman, R. J., 1994, The tectonic speleogenesis of Devils Hole, Nevada, and implications for hydrogeology and the development of long, continuous paleoenvironmental records, Quat. Res., 42:241-254.CrossRefGoogle Scholar
  20. Szabo, B. J., Kolesar, P. T., Riggs, A. C., Winograd, I. J., and Ludwig, K. R., 1994, Paleoclimatic inferences from a 120,000-yr calcite record of water-table fluctuation in Browns Room of Devils Hole, Nevada, Quat. Res , 41:59-69.CrossRefGoogle Scholar
  21. Winograd, I. J., and Pearson, F. J., Jr., 1976, Major carbon-14 anomaly in a regional carbonate aquifer--Possible evidence for mega-scale channeling, south-central Great Basin, Water Resources Res. 12:1125-1143.CrossRefGoogle Scholar
  22. Winograd, I. J., and Szabo, B. J., 1988, Water-table decline in the south-central Great Basin during the Quaternary period--implications for toxic waste disposal, in: Geologic and Hydro-logic Investigations of a Potential Nuclear Waste Disposal Site at Yucca Mountain, U.S. Geol. Surv. Bulletin 1790, pp. 147-152.Google Scholar
  23. Winograd, I. J., and Thor*rsan, W., 1975, Hydrogeologic and hydrochemical framework, south-central Great Basin, Nevada-California, with special reference to the Nevada Test Site: U.S. Geol. Surv. Prof Paper 712-C, 126 p.Google Scholar
  24. Winograd, I. J., Szabo, B. J., Coplen, T. B., Riggs, A. C., and Kolesar, P. T., 1985, Two-million-year record of deuterium depletion in Great Basin ground waters: Science 227:519-522.CrossRefGoogle Scholar
  25. Winograd, I. J., Szabo, B. J., Coplen, T. B., and Riggs, A. C., 1988, A 250,000-year climatic record from Great Basin vein calcite; implications for Milankovitch theory, Science 242:1275-1280.CrossRefGoogle Scholar
  26. Winograd, I. J., Coplen, T. B., Landwehr, J. M., Riggs, A. C., Ludwig, K. R., Szabo, B. J., Kolesar, P. T., and Revesz, K. M., 1992, Continuous 500,000-year climatic record from vein calcite in Devils Hole, Nevada, Science 258:255-260.Google Scholar
  27. www.wrcc.dri.edu, 2000b, http://www.wrcc.dri.edu/cgi-binicb`NORMtM.pl?nvbeat (January 02, 2000)

Copyright information

© Springer 2007

Authors and Affiliations

  • Peter T. Kolesar
    • 1
  • Alan C. Riggs
    • 2
  1. 1.Dept. of GeologyUtah State UniversityLoganUSA
  2. 2.U.S. Geological SurveyLakewoodUSA

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