Wood, Warren T. and Ruppel, Carolyn D. (2000): Seismic and thermal investigations of the Blake Ridge gas hydrate area; a synthesis

Leg/Site/Hole:
ODP 164
ODP 164 994
ODP 164 995
ODP 164 997
Identifier:
2001-025821
georefid

10.2973/odp.proc.sr.164.203.2000
doi

Creator:
Wood, Warren T.
Naval Research Laboratory, Stennis Space Center, MS, United States
author

Ruppel, Carolyn D.
University of Tokyo, Japan
author

Identification:
Seismic and thermal investigations of the Blake Ridge gas hydrate area; a synthesis
2000
In: Paull, Charles K., Matsumoto, Ryo, Wallace, Paul J., Black, Nancy R., Borowski, Walter S., Collett, Timothy S., Damuth, John E., Dickens, Gerald R., Egeberg, Per Kristian, Goodman, Kim, Hesse, Reinhard F., Hiroki, Yoshihisa, Holbrook, W. Steven, Hoskins, Hartley, Ladd, John, Lodolo, Emanuele, Lorenson, Thomas D., Musgrave, Robert J., Naehr, Thomas H., Okada, Hisatake, Pierre, Catherine, Ruppel, Carolyn D., Satoh, Mikio, Thiery, Regis, Watanabe, Yoshio, Wehner, Hermann, Winters, William J., Wood, Warren T., Miller, Christine M. (editor), Reigel, Ruth (editor), Proceedings of the Ocean Drilling Program; volume 164; scientific results; gas hydrate sampling on the Blake Ridge and Carolina Rise; covering Leg 164 of the cruises of the drilling vessel JOIDES Resolution, Halifax, Nova Scotia, to Miami, Florida, sites 991-997, 31 October-19 December 1995
Texas A & M University, Ocean Drilling Program, College Station, TX, United States
164
253-264
Analysis of seismic and thermal data acquired on Leg 164 has led to significant advances in our understanding of the distribution of free gas and gas hydrate on the Blake Ridge and of the geological processes responsible for this distribution. Zero-offset and walk-away vertical seismic profiling and in situ temperature measurements to hundreds of meters below the seafloor have provided constraints on physical parameters at a resolution not usually available in deep-water gas hydrate provinces. The most significant observations to emerge from the Leg 164 geophysical program are as follows. (1) A thick zone of gas-charged sediments characterized by high reflectivity and low velocity lies directly below the gas hydrate zone and the bottom-simulating reflector (BSR) at Sites 995 and 997. At Site 994, a BSR continuous with that at Sites 995 and 997 is not observed, and the top of the free-gas zone, which lies somewhat deeper ( approximately 550 mbsf), is not coincident with the base of gas hydrate occurrence. This result may be explained by low methane supply rates. (2) The quantities of gas hydrate present on the Blake Ridge crest (2%-3% of total volume) do not affect the P-wave velocity or attenuation enough to be resolved with seismic techniques on the scale of tens to hundreds of meters. The P-wave velocity (1700-1800 m/s) and attenuation (Q = 100-400) are consistent with values found in similar fine-grained sediments that do not contain gas hydrate. (3) The temperature at the BSR at Sites 995 and 997 may be as much as 0.5 degrees -2.9 degrees C lower than the accepted phase equilibria curves that constrain the temperature of gas hydrate dissociation at the appropriate in situ pressures. Effects of chemical impurities or capillary forces may contribute to the inhibition of gas hydrate in this setting, but uncertainty in the stability curves for the methane hydrate system at these pressures renders a precise interpretation of the temperature disparity impossible. (4) The only massive gas hydrate found on the ridge crest appears to be associated with a high-angle fault that acts as a conduit for fluid advection, and the pervasive nature of fine-scale, high-angle normal faulting within the sedimentary section leads to the inference that much of the gas hydrate on the Blake Ridge may be concentrated within fault zones. Theoretical studies have recently confirmed the role of vigorous advection in producing significant concentrations of gas hydrate over short time periods in natural systems.
English
Serial
Coverage:Geographic coordinates:
North:31.5035
West:-75.3245East: -75.2807
South:31.4708

Economic geology, geology of energy sources; Applied geophysics; Atlantic Ocean; attenuation; Blake-Bahama Outer Ridge; body waves; bottom-simulating reflectors; elastic waves; faults; geophysical methods; geophysical profiles; geophysical surveys; Leg 164; natural gas; normal faults; North Atlantic; Ocean Drilling Program; ODP Site 994; ODP Site 995; ODP Site 997; P-waves; petroleum; reflection methods; seismic methods; seismic profiles; seismic waves; surveys; temperature;

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