Methane under-saturated fluids in deep-sea sediments: Implications for gas hydrate stability and rates of dissolution

Earth and Planetary Science Letters

Volumn 298, Issue 3-4, 2010, Pages 275-285

  Lapham, Laura L ^a   Chanton, Jeffrey P ^b   Chapman, Ross ^c   Martens, Christopher S ^a  

^a University of North Carolina at Chapel Hill   (United States)

^b FLORIDA STATE UNIVERSITY   (United States)

^c UNIVERSITY OF VICTORIA   (Canada)

Author keywords

Hydrate stability; Methane concentrations; Stable carbon isotopes; Thermodynamics

Indexed keywords

DEEP SEA SEDIMENT; DIFFUSION KINETICS; DIRECT CONTACT; DISSOLUTION RATES; EXPECTED VALUES; FUTURE CLIMATE; GAS SATURATIONS; HIGH PRESSURE; HYDRATE STABILITIES; HYDRATE SURFACES; IN-SITU; LOW TEMPERATURES; METHANE CONCENTRATIONS; METHANE GAS; OCEAN SEDIMENTS; OIL COATINGS; PHYSICAL PROCESS; PORE FLUIDS; PORE WATERS; PRESSURE AND TEMPERATURE; SATURATED FLUID; SATURATED GAS; SEA FLOOR; STABLE CARBON ISOTOPES;

CLIMATE CHANGE; CONCENTRATION (PROCESS); DEPOSITS; DIFFUSION COATINGS; DISSOLUTION; GASES; HYDRATION; ISOTOPES; METHANATION; METHANE; SEDIMENTOLOGY; SEDIMENTS; STABILITY; SURFACE ACTIVE AGENTS; THERMODYNAMICS;

GAS HYDRATES;

CARBON ISOTOPE; DEEP-SEA SEDIMENT; DISSOLUTION; GAS HYDRATE; HYDROCARBON RESERVOIR; METHANE; SEAFLOOR; STABLE ISOTOPE; THERMODYNAMICS;

EID: 77957311589     PISSN: 0012821X     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.epsl.2010.07.016     Document Type: Article

References (70)

1. Alperin M.J., Reeburgh W.S., Whiticar M.J. Carbon and hydrogen isotope fractionation resulting from anaerobic methane oxidation. Global Biogeochemical Cycles 1988, 2(3):279-288.
2. Anderson B., Jordon K. The role of molecular level modeling in gas hydrate studies. Fire in the Ice Spring 2009, 2009:7-10.
3. Archer D. Methane hydrate stability and anthropogenic climate change. Biogeosciences 2007, 4:521-544.
4. Barker J.F., Fritz P. Carbon isotope fractionation during microbial methane oxidation. Nature 1981, 293:289-291.
5. Bell R.J., Short R.T., van Amerom F.H.W., Byrne R.H. Calibration of an in situ membrane inlet mass spectrometer for measurements of dissolved gases and volative organics in seawater. Environmental Science and Technology 2007, 41(23):8123-8128.
6. 4 and CO sampled across Russia using the Trans-Siberian railroad. Journal of Geophysical Research-Atmospheres 1998, 103(D7):8227-8235.
7. Bigalke N.K., Rehder G., Gust G. Methane hydrate dissolution rates in undersaturated seawater under controlled hydrodynamic forcing. Marine Chemistry 2009, 115:226-234.
8. Boetius A., Ravenschlag K., Schubert C.J., Rickert D., Widdel F., Gieseke A., Amann R., Jorgensen B.B., Witte U., Pfannkuche O. A marine microbial consortium apparently mediating anaerobic oxidation of methane. Nature 2000, 407:623-626.
9. Bohrmann G., Kuhs W.F., Klapp S.A., Techmer K.S., Klein H., Murshed M.M., Abegg F. Appearance and preservation of natural gas hydrate from Hydrate Ridge sampled during ODP Leg 204 drilling. Marine Geology 2007, 244:1-14.
10. Brewer P.G., Paull C.K., Peltzer E.T., Ussler W., Rehder G., Friederich G. Measurements of the fate of gas hydrates during transit through the ocean water column. Geophysical Research Letters 2002, 29(22):38-1-38-4.
11. Brooks J.M., Bright T.J., Bernard B.B., Schwab C.R. Chemical aspects of a brine pool at the East Flower Garden Bank, Northwestern Gulf of Mexico. Limnology and Oceanography 1979, 24(4):735-745.
12. Camilli R., Hemond H.F. NEREUS/Kemonaut, a mobile autonomous underwater mass spectrometer. Trends in Analytical Chemistry 2004, 23(4):307-313.
13. Chanton J.P., Liptay K. Seasonal variation in methane oxidation in a landfill cover soil as determined by an in situ stable isotope technique. Global Biogeochemical Cycles 2000, 14(1):51-60.
14. Chapman N.R., Pohlman J., Coffin R., Chanton J.P., Lapham L.L. Thermogenic gas hydrates in the northern Cascadia Margin. EOS, Transactions 2004, 85:361. American Geophysical Union, (38).
15. Clarke M., Bishnoi P.R. Determination of the intrinsic rate of ethane gas hydrate decomposition. Chemical Engineering Science 2000, 55:4869-4883.
16. Coffin R., Pohlman J., Gardner J., Downer R., Wood W., Hamdan L., Walker S., Plummer R., Gettrust J., Diaz J. Methane hydrate exploration on the mid Chilean coast: a geochemical and geophysical survey. Journal of Petroleum Science and Engineering 2007, 56(1-3):32-41.
17. Coleman D.D., Risatti J.B., Schoell M. Fractionation of carbon and hydrogen isotopes by methane-oxidizing bacteria. Geochimica et Cosmochimica Acta 1981, 45:1033-1037.
18. Collett T.S., Riedel M., Malone M.J., Team E.P. Cascadia margin hydrates. IODP Scientific Prospectus 2005, 311.
19. Crill P.M., Martens C.S. Spatial and temporal fluctuations of methane production in anoxic coastal marine sediments. Limnology and Oceanography 1983, 28(6):1117-1130.
20. Dickens G.R., Paull C.K., Wallace P., Party O.L.S. Direct measurement of in situ methane quantities in a large gas-hydrate reservoir. Nature 1997, 385:426-428.
21. Duan Z., Mao S. A thermodynamic model for calculating methane solubility, density, and gas phase composition of methane-bearing aqueous fluids from 273 to 523K and from 1 to 2000bar. Geochimica et Cosmochimica Acta 2006, 70:3369-3386.
22. Egorov A.V., Crane K., Vogt P.R., Rozhkov A.N. Gas hydrates that outcrop on the sea floor: stability models. Geo-Marine Letters 1999, 19:68-75.
23. Grant N.J., Whiticar M.J. Stable carbon isotopic evidence for methane oxidation in plumes above Hydrate Ridge, Cascadia Oregon Margin. Global Biogeochemical Cycles 2002, 16(4):1124. 10.1029/2001GB001851.
24. Heeschen K.U., Hohnberg H.J., Haeckel M., Abegg F., Drews M., Bohrmann G. In situ hydrocarbon concentrations from pressurized cores in surface sediments, Northern Gulf of Mexico. Marine Chemistry 2007, 107:498-515.
25. Hensen C., Zabel M., Pfeifer K., Schwenk T., Kasten S., Riedinger N., Schulz H.D., Boetius A. Control of sulfate pore-water profiles by sedimentary events and the significance of anaerobic oxidation of methane for the burial of sulfur in marine sediments. Geochimica et Cosmochimica Acta 2003, 67(14):2631-2647.
26. Hesslein R.H. An in situ sampler for close interval pore water studies. Limnology and Oceanography 1976, 21:912-914.
27. Hester K.C., Peltzer E.T., Walz P.M., Dunk R.M., Sloan E.D., Brewer P.G. A natural hydrate dissolution experiment on complex multi-component hydrates on the sea floor. Geochimica et Cosmochimic Acta 2009, 73(22):6747-6756.
28. Hyndman R.D., Spence G.D., Chapman N.R., Riedel M., Edwards R.N. Geophysical studies of marine gas hydrate in Northern Cascadia. Natural Gas Hydrates: Occurrence, Distribution, and Detection 2001, C.K. Paull and W.P. Dillion. American Geophysical Union, Washington, D.C.
29. Joye S.B., Boetius A., Orcutt B.N., Montoya J.P., Schulz H.N., Erickson M.J., Lugo S.K. The anaerobic oxidation of methane and sulfate reduction in sediments from Gulf of Mexico cold seeps. Chemical Geology 2004, 205:219-238.
30. Kennett J.P., Cannariato K.G., Hendy I.L., Behl R.J. Methane Hydrates in Quaternary Climate Change: The Clathrate Gun Hypothesis 2003, American Geophysical Union, Washington, DC.
31. Lanoil B.D., Sassen R., LaDuc M.T., Sweet S.T., Nealson K.H. Bacteria and Archaea physically associated with Gulf of Mexico gas hydrates. Applied and Environmental Microbiology 2001, 67(11):5143-5153.
32. Leifer I., MacDonald I.R. Dynamics of the gas flux from shallow gas hydrate deposits: interaction between oily hydrate bubbles and the oceanic environment. Earth and Planetary Science Letters 2003, 6638:1-14.
33. Lelieveld J., Crutzen P.J., Dentener F.J. Changing concentration, lifetime and climate forcing of atmospheric methane. Tellus 1998, 50B:128-150.
34. Lovley D.R., Klug M.J. Sulfate reducers can outcompete methanogens at freshwater sulfate concentrations. Applied and Environmental Microbiology 1983, 45(1):187-192.
35. Lu H., Seo Y.-t., Lee J.-w., Moudrakovski I., Ripmeester J.A., Chapman N.R., Coffin R.B., Gardner G., Pohlman J. Complex gas hydrate from the Cascadia margin. Nature 2007, 445:303-306.
36. MacDonald I.R., Reilly J.F., Guinasso N.L., Brooks J.M., Carney R.S., Bryant W.A., Bright T.J. Chemosynthetic mussels at a brine-filled pockmark in the northern Gulf of Mexico. Science 1990, 248:1096-1099.
37. MacDonald I.R., Guinasso N.L., Sassen R., Brooks J.M., Lee L., Scott K.T. Gas hydrate that breaches the sea floor on the continental slope of the Gulf of Mexico. Geology 1994, 22:699-702.
38. MacDonald I.R., Bender L.C., Vardaro M., Bernard B., Brooks J.M. Thermal and visual time-series at a seafloor gas hydrate deposit on the Gulf of Mexico slope. Earth and Planetary Science Letters 2005, 233:45-59.
39. Martens C.S., Berner R.A. Methane production in the interstitial waters of sulfate-depleted marine sediments. Science 1974, 185(4157):1167-1169.
40. Martens C.S., Klump J.V. Biogeochemical cycling in an organic-rich coastal marine basin-I. Methane Sediment-Water Exchange Processes. Geochim. Cosmochim. Acta 1980, 44:471-490.
41. Mayer L. Chemical water sampling in lakes and sediments with dialysis bags. Limnology and Oceanography 1976, 21(6):909-912.
42. McGee T., Macelloni L., Lutken C.B., Bosman A., Brunner C.A., Rogers R.E., Dearman J., Sleeper K., Woolsey J.R. Hydrocarbon Gas Hydrates in Sediments of the Mississippi Canyon Area, Northern Gulf of Mexico 2009, The Geological Society of London, London.
43. Mori Y.H., Mochizuki T. Dissolution of liquid CO2 into water at high pressures: a search for the mechanism of dissolution being retarted through hydrate-film formation. Energy Conversion and Management 1998, 39(7):567-578.
44. Niewöhner C., Hensen C., Kasten S., Zabel M., Schultz H.D. Deep sulfate reduction completely mediated by anaerobic methane oxidation in sediments of the upwelling area off Namibia. Geochimica et Cosmochimica Acta 1998, 62(3):455-464.
45. Nihous G.C., Masutani S.M. Notes on the dissolution rate of gas hydrates in undersaturated water. Chemical Engineering Science 2006, 61:7827-7830.
46. Orcutt B.N., Boetius A., Lugo S.K., MacDonald I.R., Samarkin V.A., Joye S.B. Life at the edge of methane ice: microbial cycling of carbon and sulfur in Gulf of Mexico gas hydrates. Chemical Geology 2004, 205:239-251.
47. Orcutt B.N., Boetius A., Elvert M., Samarkin V.A., Joye S.B. Molecular biogeochemistry of sulfate reduction, methanogenesis, and the anaerobic oxidation of methane at Gulf of Mexico cold seeps. Geochimica et Cosmochimica Acta 2005, 69(17):4267-4281.
48. Paull C.K., Ussler W. History and significance of gas sampling during DSDP and ODP drilling associated with gas hydrates. Natural Gas Hydrates: Occurrence, Distribution, and Detection 2001, C.K. Paull and W.P. Dillon. AGU, Washington, D.C.
49. Peltzer E.T., Walz P., Brewer P.G., Dunk R., Hester K., Sloan E.D. An Experimental Determination of Natural Clathrate Hydrate Dissolution Rates in the Deep Sea 2006, American Geophysical Union Abstract, San Francisco, CA.
50. 12C and D/H) and molecular composition of hydrate and vent gas. Organic Geochemistry 2005, 36:703-716.
51. Pohlman J.W., Kaneko M., Heuer V.B., Coffin R.B., Whiticar M.J. Methane sources and production in the northern Cascadia margin gas hydrate system. Earth and Planetary Science Letters 2009, 287(3-4):504-512.
52. Reagan M.T., Moridis G.J. Oceanic gas hydrate instability and dissociation under climate change scenarios. Geophysical Research Letters 2007, 34(L22709).
53. Rehder G., Brewer P.G., Peltzer E.T., Friederich G. Enhanced lifetime of methane bubble streams within the deep ocean. Geophysical Research Letters 2002, 29(15):21-1-21-4.
54. Rehder G., Kirby S.H., Durham W.B., Stern L.A., Peltzer E.T., Pinkston J., Brewer P.G. Dissolution rates of pure methane hydrate and carbon-dioxide hydrate in undersaturated seawater at 1000-m depth. Geochimica et Cosmochimica Acta 2004, 68(2):285-292.
55. Roberts H.H., Carney R.S. Evidence of episodic fluid, gas and sediment venting on the Northern Gulf of Mexico Continental Slope. Economic Geology 1997, 92:863-879.
56. Salvador A. Late Triassic-Jurassic paleogeography and origin of Gulf of Mexico Basin. The American Association of Petroleum Geologists Bulletin 1987, 71(4):419-451.
57. Sassen R., Roberts H. Site selection and characterization of vent gas, gas hydrate, and associated sediments. DOE Technical Report 2004, 28-227.
58. Sassen R., Roberts H.H., Jung W., Lutken C.B., DeFreitas D.A., Sweet S.T., Guinasso N.L. The Mississippi Canyon 118 Gas Hydrate Site: A complex natural system. OTC Paper #18132 2006, Offshore Technology Conference, Houston, TX.
59. Sayles F.L., Mangelsdorf P.C., Wilson T.R.S., Hume D.N. A sampler for the in situ collection of marine sedimentary pore waters. Deep-Sea Research 1976, 23:259-264.
60. Shokes R.F., Trabant P.K., Presley B.J., Reid D.F. Anoxic, hypersaline basin in the Northern Gulf of Mexico. Science 1977, 196(4297):1443-1446.
61. Sloan E.D. Clathrate hydrates of natural gases, second edition, 2nd 1998, Marvel Dekker, Inc., New York.
62. Solomon E.A., Kastner M., Jannasch H., Robertson G., Weinstein Y. Dynammic fluid flow and chemical fluxes associated with a seafloor gas hydrate deposit on the northern Gulf of Mexico slope. Earth and Planetary Science Letters 2008, 270:95-105.
63. Spence G.D., Hyndman R.D., Chapman N.R., Walia R., Gettrust J., Edwards R.N. Cascadia deep sea gas hydrates. Annals of NY Academy of Sciences 2000, 912:65-75.
64. Spence G.D., Chapman N.R., Hyndman R.D., Cleary C. Fishing trawler nets massive "catch" of methane hydrates. EOS, Transactions 2001, 82. American Geophysical Union, (50).
65. Suess E., Torres M.E., Bohrmann G., Collier R.W., Greinert J., Linke P., Rehder G., Trehu A., Wallmann K., Winckler G., Zuleger E. Gas hydrate destailization: enhanced dewatering, benthic material turnover and large methane plumes at the Cascadia convergent margin. Earth and Planetary Science Letters 1999, 170:1-15.
66. Treude T., Niggemann J., Kallmeyer J., Wintersteller P., Schubert C.J., Boetius A., Jørgensen B.B. Anaerobic oxidaiton of methane and sulfate reduction along the Chilean continental margin. Geochimica et Cosmochimica Acta 2005, 69(11):2767-2779.
67. Wallace P.J., Dickens G.R., Paull C.K., Ussler W. 10. Effects of core retrieval and degassing on the carbon isotope composition of methane in gas hydrate-and free-gas bearing sediments from the Blake Ridge. Proc. ODP Sci. Results 2000, 164:101-112.
68. Xu W., Ruppel C. Predicting the occurrence, distribution, and evolution of methane gas hydrate in porous marine sediments. Journal of Geophysical Research 1999, 104:5081-5096.
69. Zhang Y., Xu Z. Kinetics of convective crystal dissolution and melting, with applications to methane hydrate dissolution and dissociation in seawater. Earth and Planetary Science Letters 2003, 213:133-148.
70. Zhang G., Rogers R.E., French W.T., Lao W. Investigation of microbial influences on seafloor gas-hydrate formations. Marine Chemistry 2006, 10.1016/j.marchem.2006.10.005.