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REFERENCES 181
land, and S. J. Mazzullo, eds., Geologic Framework of HINE,A. C., LOCKER,S. D., TEDESCO,L. P., MULLINS,
the Capitan Reef.: SEPM Special Publications, v. 65, p. H. T., HALLOCK,P., BELKNAP,D. F., GONZALES,
37-49. J. L., NEUMANN,A. C., AND SNYDER, S. W., 1992,
HARRIS,P. T., HEAP,A. D., WASSENBERG,T., AND PASS- Megabreccia shedding from modern low-relief carbon-
LOW, V., 2004, Submerged coral reefs in the Gulf of Car- ate platforms, Nicaraguan Rise: Geological Society of
pentaria, Australia: Marine Geology, v. 207, p. 185-191. America Bulletin, v. 104, p. 928-943.
HARRISON, C. G. A., 1990, Long-term eustasy and HINE,A. C., AND MULLINS, H. T., 1983, Modern carbon-
epeirogeny in continents, in R. R. Revelle, ed., Sea-Level ateshelf-slope breaks,in D. J.Stanley,and G. T. Moore,
Change: Washington, D.C., National Academy Press, p. eds., The Shelfbreak: Critical Interface on Continental
141-158. Margins: SEPM Special Publications, v. 33, p. 169-188.
HARRISON, C. G. A., 2002, Power spectrum of sea level HINE,A. C., AND NEUMANN, A. C., 1977, Shallow
change over 15 decades of frequency: Geochemistry carbonate-bank margin growth and structure, Little Ba-
Geophysics Geosystems, v. 3/8, p. 1-17. hama Bank, Bahamas: American Association of Petro-
HARWOOD,J. M., AND TOWERS, P. A., 1988, Seismic sed- leum Geologists Bulletin, v. 61, p. 376-406.
imentologic interpretation of a carbonate slope, north HINNOV, L. A., 2000, New perspectives on orbitally forced
margin of Little Bahama Bank, in J. A. Austin, Jr., stratigraphy: Annual Reviews of Earth and Planetary
W. Schlager, and A. Palmer, eds., Proceedings Ocean Sciences, v. 28, p. 419-475.
Drilling Program, Initial Reports: College Station, HOFFMAN, P., 1974, Shallow and deepwater stromato-
Ocean Drilling Program, v. 101, p. 263-277. lites in Lower Proterozoic platform-basin facies change,
HAY, W. W., 1985, Potential errors in estimates of carbon- Great Slave Lake, Canada: American Association of Pe-
ate rock accumulating through geologic time, in E. T. troleum Geologists Bulletin, v. 58, p. 856-867.
Sundquist, and W. S. Broecker, eds., The Carbon Cycle HOMEWOOD, P. W., 1996, The carbonate feedback system:
and Atmospheric CO2: Natural Variations, Archaean interaction between stratigraphic accommodation, eco-
to Present: American Geophysical Union Geophysical logical succession and the carbonate factory: Bulletin de
Monographs, v. 32, p. 573-583. la Societe geologique de France, v. 167, p. 701-715.
HAY, W. W., 1988, Paleoceanography: A review for the HOMEWOOD,P. W., AND EBERLI,G. P., EDS. 2000, Ge-
GSA Centennial: Geological Society of America Bul- netic stratigraphy on the exploration and production
letin, v. 100, p. 1934-1956. scales, Case studies from the Upper Devonian of Al-
HAY,W. W., FLÖGEL,S., AND SÖDING, E., 2004, Is the berta and the Pennsylvanian of the Paradox Basin: Elf
initiation of glaciation on Antarctica related to a change Exploration Production Editions Memoirs, v. 24, 290 p.
in the structure of the ocean? : Global and Planetary HOTTINGER, L., 1989, Conditions for generating carbonate
Change, p. doi:10.1016/j.gloplacha.2004.09.005. platforms: Memorie della Società Geologica Italiana, v.
HEEZEN,B. C., THARP,M., AND EWING, M., 1959, The 40, p. 265-271.
Floors of the Ocean. 1. The North Atlantic: Geological HOUSE, M. R., 1985, A new approach to an absolute time
Society of America Special Paper, v. 65, 122 p. scale from measurements of orbital cycles and sedimen-
HEIM, A., 1934, Stratigraphische Kondensation: Eclogae tary microrhythms: Nature, v. 316, p. 721-725.
Geologicae Helvetiae, v. 27, p. 372-383. HSUI,A. T., RUST,K. A., AND KLEIN, G. D., 1993, A
HELLAND-HANSEN,W., HELLE,H. B., AND SUNDE, fractal analysis of Quaternary, Cenozoic-Mesozoic, and
K., 1994, Seismic modelling of Tertiary sandstone Late Pennsylvanian sea-level changes: Journal of Geo-
clinothems, Spitsbergen: Basin Research, v. 6, p. 181- physical Research, v. 98, p. 21963-21967.
191. HUNT,D., AND TUCKER, M. E., 1992, Stranded parase-
HENRICH,R., FREIWALD,A., BICKERT,T., AND SCHÄFER, quences and the forced regressive wedge systems tract:
P., 1997, Evolution of an Arctic open-shelf carbonate deposition during base-level fall: Sedimentary Geology,
platform,Spitsbergen Bank,in N. P. James,and J. A. v. 81, p. 1-9.
D. Clarke, eds., Cool-water Carbonates: SEPM Special HUNT,D., AND TUCKER, M. E., 1993, Sequence stratig-
Publications, v. 56, p. 163-184. raphy of carbonate shelves with an example from the
HERGARTEN, S., 2002, Self-Organized Criticality in Earth mid-Cretaceous (Urgonian) of southeast France, in H.
Systems: Berlin, Springer, 272 p. W. Posamentier, C. P. Summerhayes, B. U. Haq, and G.
HILLGÄRTNER, H., 1999, The Evolution of the French P. Allen, eds., Sequence Stratigraphy and Facies Asso-
Jura Platform During the Late Berriasian to Early ciations: International Association of Sedimentologists
Valanginian: Controlling Factors and Timing: Geofo- Special Publication, Blackwell, v. 18, p. 307-341.
cus: Fribourg, University of Fribourg, v. 1, 201 p. IMBRIE,J., AND IMBRIE, K. P., 1979, Ice Ages: Solving the
HILLGÄRTNER,H., AND STRASSER, A., 2003, Quantifica- Mystery: New York, Macmillan, 224 p.
tion of high-frequency sea-level fluctuations in shallow- IMMENHAUSER,A., CREUSEN,A., ESTEBAN,M., AND
water carbonates: an example from the Berriasian - VONHOF, H. B., 2000, Recognition and interpretation
Valanginian (French Jura): Palaeogeography, Palaeocli- of polygenic discontinuity surfaces in the Middle Cre-
matology, Palaeoecology, v. 200, p. 43-63.
