Page 10 - i1052-5173-27-1
P. 10

Backman, J., and Moran, K., 2009, Expanding the           London, Special Publication 431, p. 63–94, doi:           accumulation, and solar-forcing cyclicity in
   Cenozoic paleoceanographic record in the               10.1144/SP431.8.                                          Smackover Formation lime mudstones, northern
   Central Arctic Ocean: IODP Expedition 302           Døssing, A., Jackson, R.H., Matzka, J., Einarsson,           Gulf Coast: AAPG Bulletin, v. 81, p. 760–774.
   Synthesis: Central European Journal of                 I., Rasmussen, T.M., Olesen, A.V., and Brozena,        Holbrook, S.W., Purdy, G.M., Sheridan, R.E.,
   Geosciences, v. 1, p. 157–175, doi: 10.2478/           J.M., 2013, On the origin of the Amerasia Basin           Glover, L., III, Talwani, M., Ewing, J., and
   v10085-009-0015-6.                                     and the High Arctic Large Igneous Province—               Hutchinson, D., 1994, Seismic structure of the
                                                          Results of new aeromagnetic data: Earth and               US Mid-Atlantic continental margin: Journal of
Bird, K.J., and Houseknecht, D.W., 2011, Geology          Planetary Science Letters, v. 363, p. 219–230,            Geophysical Research, v. 99, p. 17,871–17,891,
   and petroleum potential of the Arctic petroleum        doi: 10.1016/j.epsl.2012.12.013.                          doi: 10.1029/94JB00729.
   province, in Spencer, A.M., Embry, A.F., Gautier,   Eddy, D.R., Van Avendonk, H.J.A., Christesen,             Holguín-Quiñones, Brooks, J.M., Román-Ramos,
   D., Stoupakova, A.V., and Sørenson, K., eds.,          G.L., Norton, I.O., Karner, G.D., Johnson, C.A.,          J.R., Bernards, B.B., Lara-Rodrigues, J.,
   Arctic Petroleum Geology: Geological Society,          and Snedden, J.W., 2014, Deep crustal structure           Zumberge, J.E., Medrano-Morales, L., Rosenfeld,
   London, Memoir 35, p. 485–499.                         of the northeastern Gulf of Mexico: Implications          J., De Fargó Botella, M., Maldanado-Villalón,
                                                          for rift evolution and seafloor spreading: Journal        R., and Martínez-Pontvianne, 2005, Estudio
Brooks, P.W., 1986, Unusual biological marker             of Geophysical Research, v. 119, p. 6802–6822,            regional de manifestaciones superficilaes de
   geochemistry of oils and possible source rocks,        doi: 10.1002/2014JB011311.                                acete y gas en el Sur del Golfo de México, su
   offshore Beaufort-Mackenzie Delta, Canada:          Evangelatos, J., and Mosher, D.C., 2016, Seismic             origen e implicaciones exploratorias: Boletín de
   Organic Geochemistry, v. 10, p. 401–406, doi:          stratigraphy, structure and morphology of                 la Asociación Mexicana de Geólogos Petroleros,
   10.1016/0146-6380(86)90039-2.                          Makarov Basin and surrounding regions:                    v. 52, p. 20–41.
                                                          Tectonic implications: Marine Geology, v. 374,         Horbury, A.D., Hall, S., González,-P., F.,
Bujak, J.P., 2007, The Azolla Story: Climate change       p. 1–13, doi: 10.1016/j.margeo.2016.01.013.               Rodríguez-F., D., Reyes-F., A., Ortiz-G., P.,
   and Arctic hydrocarbons: GeoExpro Magazine,         Faccenna, C., Davy, P., Brun, J.-P., Funiciello, R.,         Martínez-M., M., and Quintanilla-R., G., 2003,
   v. 4, p. 66–72.                                        Giardini, D., Mattei, M., and Nalpas, T., 1996,           Tectonic sequence stratigraphy of the western
                                                          The dynamics of back-arc extension: An                    margin of the Gulf of Mexico in the late
Bujak, J.P., and Bujak, A., 2014, The Arctic Azolla       experimental approach to the opening of the               Mesozoic and Cenozoic: Less passive than
   Event: Geoscientist, v. 24, no. 5, p. 10–15.           Tyrrhenian Sea: Geophysical Journal International,        previously imagined, in Bartolini, C., Buffler,
                                                          v. 126, p. 781–795, doi: 10.1111/j.1365-246X              R.T., and Blickwde, J., eds., The Circum-Gulf
Chian, D., Jackson, H.R., Hutchinson, D.R.,               .1996.tb04702.x.                                          of Mexico and the Caribbean: Hydrocarbon
   Shimeld, J.W., Oakey, G.N., Lebedeva-Ivanova,       Gaina, C., Werner, S.C., Saltus, R., and Maus, S.,           Habitats, Basin Formation, and Plate Tectonics:
   N., Li, Q., Saltus, R.W., and Mosher, D.C., 2016,      the CAMP-GMGROUP, 2011, Chapter 3                         AAPG Memoir 79, p. 184–245.
   Distribution of crustal types in Canada Basin,         Circum-Arctic mapping project: New magnetic            Houseknecht, D.W., and Bird, K.J., 2011, Geology
   Arctic Ocean: Tectonophysics, p. 8–30, doi:            and gravity anomaly maps of the Arctic, in                and petroleum potential of the rifted margins
   10.1016/j.tecto.2016.01.038.                           Spencer, A.M., Embry, A.F., Gautier, D.L.,                of the Canada Basin, in Spencer, A.M., Embry,
                                                          Stoupakova, A.V., and Sørensen, K., eds., Arctic          A.F., Gautier, D.L., Stoupakova, A.V., and
Cole, G.A., Yu, A., Peel, F., Requejo, R., DeVay, J.,     Petroleum Geology: Geological Society, London,            Sørensen, K., eds., Arctic Petroleum Geology:
   Brooks, J., Bernard, B., Zumberge, J., and Brown,      Memoir 35, p. 39–48, doi: 10.1144/M35.3.                  Geological Society, London, Memoir 35,
   S., 2001, Constraining source and charge risk in    Galloway, W.E., Caney-Curry, P.E., Li, X., and               p. 509–526, doi: 10.1144/M35.34.
   deepwater areas: WorldOil.com online magazine,         Buffler, R.T., 2000, Cenozoic depositional             Hueret, A., and Lallemand, S., 2005, Plate motions,
   v. 222, p. 1–15.                                       history of the Gulf of Mexico basin: AAPG                 slab dynamics and back-arc deformation: Physics
                                                          Bulletin, v. 84, p. 1743–1774.                            of the Earth and Planetary Interiors, v. 149,
Corfu, F., Polteau, S., Planke, S., Faleide, J.I.,     Gottlieb, E.S., Meisling, K.E., Miller, E.L., and            p. 31–51, doi: 10.1016/j.pepi.2004.08.022.
   Svensen, H., Zayoncheck, A., and Stolbov, N.,          Mull, C.G., 2014, Closing the Canada Basin:            Imbert, P., and Philippe, Y., 2005, The Mesozoic
   2013, U-Pb geochronology of Cretaceous                 Detrital zircon geochronology relationships               opening of the Gulf of Mexico: Part 2. Integrating
   magmatism on Svalbard and Franz Josef Land,            between the North Slope of Arctic Alaska and              seismic and magnetic data into a general opening
   Barents Sea Large Igneous Province: Geological         the Franklinian mobile belt of Arctic Canada:             model, in Post, P.J., Rosen, N.C., Olson, D.L.,
   Magazine, v. 150, p. 1127–1135, doi: 10.1017/          Geosphere, v. 10, p. 1366–1384, doi: 10.1130/             Palmes, S.L., Lyons, K.T., and Newton, G.B.,
   S0016756813000162.                                     GES01027.1.                                               eds., Transactions of the 25th Annual GCSSEPM
                                                       Grantz, A., Eittreim, S., and Dinter, D.A., 1979,            Research Conference: Petroleum Systems of
Cossey, S.P.J., van Nieuwenhuise, D., Davis, J.,          Geology and tectonic development of the                   Divergent Continental Margins, p. 1151–1189.
   Rosenfeld, J.H., and Pindell, J., 2016, Compelling     continental-margin north of Alaska:                    Jakobsson, M., Backman, J., Rudels, B., Nycander,
   evidence from eastern Mexico for a Late                Tectonophysics, v. 59, p. 263–291, doi: 10.1016/          J., Frank, M., Mayer, L., Jokat, W., Sangiorgi, F.,
   Paleocene/Early Eocene isolation, drawdown,            0040-1951(79)90050-7.                                     O’Regan, M., Brinkhuis, H., King, J., and Moran,
   and refill of the Gulf of Mexico: Interpretation    Grantz, A., Hart, P., and Childers, V.A., 2011,              K., 2007, The early Miocene onset of a ventilated
   (Tulsa), v. 4, no. 1, SC63, doi: 10.1190/INT-          Geology and tectonic development of the                   circulation regime in the Arctic Ocean: Nature,
   2015-0107.1.                                           Amerasia and Canada Basins, Arctic Ocean, in              v. 447, p. 986–990, doi: 10.1038/nature05924.
                                                          Spencer, A.M., Embry, A.F., Gautier, D.L.,             Jordan, T.E., 1981, Thrust loads and foreland basin
Cox, A., and Hart, B., 1986, Plate Tectonics: How it      Stoupakova, A.V., and Sørensen, K., eds., Arctic          evolution, Cretaceous, western United States:
   Works: Boston, Blackwell Scientific, 392 p.            Petroleum Geology: Geological Society, London,            AAPG Bulletin, v. 65, p. 2506–2520.
                                                          Memoir 35, p. 771–799, doi: 10.1144/M35.50.            Karner, G.D., Johnson, C.A., Mohn, G., and
Dickinson, W.R., and Lawton, T.F., 2001,               Halgedahl, S., and Jarrard, R., 1987,                        Manatschal, G., 2012, Depositional environments
   Carboniferous to Cretaceous assembly and               Paleomagnetism of the Kuparuk River formation             and source distribution across hyperextended
   fragmentation of Mexico: GSA Bulletin, v. 113,         from oriented drill core: Evidence for rotation of        rifted margins of the North Atlantic: Insights
   p. 1142–1160, doi:10.1130/0016-7606(2001)113           the Arctic Alaska plate, in Tailleur, I., and Weimer,     from the Iberia-Newfoundland margin: Trinity
   <1142:CTCAAF>2.0.CO;2.                                 P., eds., Alaskan North Slope Geology, Pacific            College Dublin, Third Central & North Atlantic
                                                          Section, SEPM, v. 2, p. 581–617.                          Conjugate Margin Conference, 22–24 Aug. 2012,
Dixon, J., 1982, Jurassic and Lower Cretaceous         Hamilton, W., 1970, The Uralides and the motion              p. 7–17.
   subsurface stratigraphy of the Mackenzie Delta-        of the Russian and Siberian platforms: GSA             Kneller, E.A., and Johnson, C.A., 2011, Plate
   Tuktoyaktuk Peninsulas, N.W.T.: Bulletin of the        Bulletin, v. 81, p. 2553–2576, doi:10.1130/               kinematics of the Gulf of Mexico based on
   Canadian Geological Survey, 349, 52 p.                 0016-7606(1970)81[2553:TUATMO]2.0.CO;2.                   integrated observations from the Central and South
                                                       Heydari, E., Wade, W.J., and Anderson, L.C., 1997,           Atlantic: Gulf Coast Association of Geological
Dixon, J., Dietrich, J.R., Lane, L.S., and McNeil,        Depositional environments, organic carbon                 Societies Transactions, v. 61, p. 283–299.
   D.H., 2008, Geology of the Late Cretaceous to
   Cenozoic Beaufort-Mackenzie Basin, Canada,
   Sedimentary Basins of the World, 5, Elsevier,
   p. 552–571, doi: 10.1016/S1874-5997(08)
   00016-6.

Doré, A.G., Lundin, E.R., Gibbons, A., Sømme,
   T.O., and Tørudbakken, B.O., 2016, Transform
   margins of the Arctic: A synthesis and re-
   evaluation, in Nemčok, M., Rybár, S., Sinha,
   S.T., Hermeston, S.A., and Ledvényiová, L.,
   eds., Transform Margins: Development, Controls
   and Petroleum Systems: Geological Society,

10 GSA Today | January 2017
   5   6   7   8   9   10   11   12   13   14   15