Gas hydrates (clathrates) causing pore-water freshening and oxygen isotope fractionation in deep-water sedimentary sections of terrigenous continental margins

The occurrence of gas hydrates in deep-water sections of the continental margins predicted from anomalous acoustic reflectors on seismic profiles has been confirmed by recent deep-sea drilling results. On the Pacific continental slope off Guatemala gas hydrates were brought up for the first time from two holes (497, 498A) drilled during Leg 67 of the DSDP in water depths of 2360 and 5500 m, respectively. The hydrates occur in organic matter-rich Pleistocene to Miocene terrigenous sediments. In the hydrate-bearing zone a marked decrease in interstitial water chlorinities was observed starting at about 10–20 m subbottom depth. Pore waters at the bottom of the holes (near 400 m subbottom) have as little as half the chlorinity of seawater (i.e. 9‰). Similar, but less pronounced, trends were observed during previous legs of the DSDP in other hydrate-prone segments of the continental margins where recharge of fresh water from the continent can be excluded (e.g. Leg 11). The crystallization of hydrates, like ice, excludes salt ions from the crystal structure. During burial the dissolved salts are separated from the solids. Subsidence results in a downward motion of the solids (including hydrates) relative to the pore fluids. Thawing of hydrates during recovery releases fresh water which is remixed with the pore fluid not involved in hydrate formation. The volume of the latter decreases downhole thus causing downward decreasing salinity (chlorinity). Hydrate formation is responsible for oxygen isotope fractionation with18O-enrichment in the hydrate explaining increasingly more positive δ18O values in the pore fluids recovered (after hydrate dissociation) with depth.

[1]  George E. Claypool,et al.  The Origin and Distribution of Methane in Marine Sediments , 1974 .

[2]  R. McIver Hydrocarbon Gas (Methane) in Canned Deep Sea Drilling Project Core Samples , 1974 .

[3]  R. Stoll Effects of Gas Hydrates in Sediments , 1974 .

[4]  D. Katz,et al.  Review of Gas Hydrates with Implication for Ocean Sediments , 1974 .

[5]  D. Katz Handbook of Natural Gas Engineering , 1959 .

[6]  P. E. Baker Experiments on Hydrocarbon Gas Hydrates in Unconsolidated Sand , 1974 .

[7]  J. Gieskes Chemistry of Interstitial Waters of Marine Sediments , 1975 .

[8]  E. Whalley Speed of longitudinal sound in clathrate hydrates , 1980 .

[9]  R. White Gas hydrate layers trapping free gas in the Gulf of Oman , 1979 .

[10]  J. R. O'neil,et al.  HYDROGEN AND OXYGEN ISOTOPE FRACTIONATION BETWEEN ICE AND WATER. , 1968 .

[11]  D. J. Milton METHANE HYDRATE IN THE SEA FLOOR--A SIGNIFICANT RESOURCE? , 1977 .

[12]  G. Bryan,et al.  Gas-Hydrate Horizons Detected in Seismic-Profiler Data from the Western North Atlantic , 1977 .

[13]  Thomas H. Shipley,et al.  Seismic Evidence for Widespread Possible Gas Hydrate Horizons on Continental Slopes and Rises , 1979 .

[14]  J. Curiale,et al.  Leg 67: The Deep Sea Drilling Project Mid-America Trench transect off Guatemala , 1980 .

[15]  F. Sayles,et al.  Interstitial water studies on small core samples, Leg 22 , 1972 .

[16]  J. Gieskes,et al.  Interstitial Water Studies, Leg 38 , 1978 .

[17]  Robert D. Stoll,et al.  Physical properties of sediments containing gas hydrates , 1979 .

[18]  F. Sayles,et al.  Composition and origin of interstitial waters of marine sediments, based on deep sea drill cores , 1974 .

[19]  J. Kennett Cenozoic evolution of Antarctic glaciation the Circum-Antarctic Ocean and their impact on global paleoceanography , 1977 .

[20]  Robert D. Stoll,et al.  Anomalous wave velocities in sediments containing gas hydrates , 1971 .

[21]  R. E. McDuff,et al.  Calcium and magnesium profiles in DSDP interstitial waters: Diffusion or reaction? , 1976 .

[22]  G. Bryan In Situ Indications of Gas Hydrate , 1974 .

[23]  J. W. Dick,et al.  Naturally Occurring Gas Hydrates in the Mackenzie Delta, N.W.T. , 1974 .

[24]  R. Huene,et al.  Initial reports of the deep sea drilling project: National Science Foundation, Washington, D.C., 1969, 672 pp., U.S. $ 10.25 , 1971 .

[25]  G. Einsele Range, velocity, and material flux of compaction flow in growing sedimentary sequences , 1977 .

[26]  S. Miller The Nature and Occurrence of Clathrate Hydrates , 1974 .

[27]  F. Sayles,et al.  Interstitial water studies on small core samples, Leg 15 , 1973 .

[28]  J. Gieskes,et al.  Mg, Ca and O18O16 exchange in the sediment-pore water system, hole 149, DSDP , 1976 .

[29]  J. Gieskes Interstitial Water Studies, Leg 15, Alkalinity, pH, Mg, Ca, Si, PO4, and NH4 , 1973 .