Page 11 - i1052-5173-27-1
P. 11

Labails, C., Olivet, J.-L., Aslanian, D., and Roest,     frame: an update: Geological Society, London,           Geophysical Journal International, v. 204, p. 1–20,
   W.R., 2010, An alternative early opening              Special Publication 328, p. 1–55, doi: 10.1144/         doi: 10.1093/gji/ggv416.
   scenario for the Central Atlantic Ocean: Earth        SP328.1.                                             Stein, R., 2007, Upper Cretaceous/lower Tertiary
   and Planetary Science Letters, v. 297, p. 355–     Polteau, S., Hendriks, B.W.H., Planke, S., Ganerød,        black shales near the North Pole: Organic-carbon
   368, doi: 10.1016/j.epsl.2010.06.024.                 M., Corfu, F., Faleide, J.I., Midtkandal, I.,           origin and source-rock potential: Marine
                                                         Svensen, H.S., and Myklebust, R., 2015, The             and Petroleum Geology, v. 24, p. 67–73, doi:
Lawver, L.A., and Scotese, C.R., 1990, A review of       Early Cretaceous Barents Sea Sill Complex:              10.1016/j.marpetgeo.2006.10.002.
   tectonic models for the evolution of the Canada       Distribution, 40Ar/39Ar geochronology, and           Steltenpohl, M.G., Horton, J.W., Jr., Hatcher, R.D.,
   Basin, in Grantz, A., Johnson, G.L., and Sweeney,     implications for carbon gas formation: Palaeo-          Jr., Zietz, I., Daniels, D.L., and Higgins, M.W.,
   J.F., eds., The Arctic Ocean region: Boulder,         geography, Palaeoclimatology, Palaeoecology, doi:       2013, Upper crustal structure of Alabama from
   Colorado, Geological Society of America,              10.1016/j.palaeo.2015.07.007.                           regional magnetic and gravity data: Using
   Geology of North America, v. L, p. 593–618.        Puchkov, V.N., 2013, Structural stages and evolution       geology to interpret geophysics, and vice versa:
                                                         of the Urals: Mineralogy and Petrology, v. 107,         Geosphere, v. 9, p. 1044–1064, doi: 10.1130/
Marton, G., and Buffler, R.T., 1994, Jurassic            p. 3–37, doi: 10.1007/s00710-012-0263-1.                GES00703.1.
   reconstruction of the Gulf of Mexico Basin:        Román Ramos, J.R., Cruz Mercado, M.A., Salomón          Stern, R.J., and Dickinson, W.R., 2010, The Gulf of
   International Geology Review, v. 36, p. 545–586,      Mora, L.E., and Lara, C.R., 2009. Structure in a        Mexico is a Jurassic backarc basin: Geosphere,
   doi: 10.1080/00206819409465475.                       Shear Margin: Western Main Transform, Offshore          v. 6, p. 739–754, doi: 10.1130/GES00585.1.
                                                         Veracruz, Southern Gulf of Mexico, in Bartolini,     Tapponnier, P., Peltzer, G., and Armijo, R., 1986,
McKenzie, D.P., 1978, Some remarks on the                C., and Román Ramos, J.R., eds., Petroleum              Continent-continent collision: Himalayan-Alpine
   development of sedimentary basins: Earth and          Systems in the Southern Gulf of Mexico: AAPG            Belt, in Coward, M.P., and Ries, A.C., eds.,
   Planetary Science Letters, v. 40, p. 25–32, doi:      Memoir 90, p. 409–420.                                  Collision Tectonics: Geological Society London
   10.1016/0012-821X(78)90071-7.                      Rosenfeld, J., and Pindell, J., 2002, Latest               Special Publication 19, p. 115–157.
                                                         Paleocene–Early Eocene isolation of the Gulf of      Thomas, W.A., 2006, Tectonic inheritance at a
Mohn, G., Karner, G., Manatchal, G., and                 Mexico from world oceans due to Cuba blocking           continental margin: GSA Today, v. 16, p. 4–11,
   Johnson, C.A., 2015, Structural and stratigraphic     the Florida Strait: A hypothesis to explain large-      doi: 10.1130/1052-5173(2006)016[4:TIAACM]
   evolution of the Iberia-Newfoundland hyper-           magnitude base level fall and resultant incision:       2.0.CO;2.
   extended rifted margin: A quantitative modelling      Offshore Magazine, v. 62, pages 26, 28, 76.          Whittaker, R.C., and Ady, B.E., 2015, Implications
   approach, in Gibson, G.M., Roure, F., and          Rosenfeld, J., and Blickwede, J.F., 2006, Extreme          for the timing, amount and direction of crustal
   Manatschal, G., eds., Sedimentary Basins and          evaporative drawdown of the Gulf of Mexico at           extension in the eastern part of the Amerasia
   Crustal Processes at Continental Margins: From        the Paleocene-Eocene boundary: AAPG Annual              Basin from deformable plate reconstructions of
   Modern Hyper-Extended Margins to Deformed             Convention, Houston, Texas, April 9–12; AAPG            the Labrador Sea–Baffin Bay and Northeast
   Ancient Analogues: Geological Society, London,        Search and Discovery Article #30042(2006).              Atlantic: AAPG Arctic 3P Conference, Stavanger,
   Special Publication 413, p. 53–89, http://dx.doi   Rowan, M.G., 2014, Passive-margin salt basins:             Sept. 29–Oct. 2 2015.
   .org/10.1144/SP413.9.                                 Hyperextension, evaporate deposition, and salt       Winker, C.D., and Buffler, R.T., 1985, Paleo­
                                                         tectonics: Basin Research, v. 26, p. 154–182,           geographic evolution of the early deep-water
Molina-Garza, R.S., Van Der Voo, R., and Urrutia-        doi: 10.1111/bre.12043.                                 Gulf of Mexico and margins, Jurassic to Middle
   Fucugauchi, J., 1992, Evidence for rotation of     Ryan, W.B.F., 2008, Modelling the magnitude and            Cretaceous (Comanchean): AAPG Bulletin,
   the Maya Block and implications for the opening       timing of evaporative drawdown during the               v. 72, p. 318–346.
   of the Gulf of Mexico: GSA Bulletin, v. 104,          Messinian salinity crisis: Stratigraphy, v. 5,
   p. 1156–1168, doi:10.1130/0016-7606(1992)104          p. 227–243.                                          Manuscript received 30 Nov. 2015
   <1156:POTCMS>2.3.CO;2.                             Salomón-Mora, L.E., Aranda-García, M., and              Revised manuscript received 13 June 2016
                                                         Román-Ramos, J.R., 2009, Contractional growth        Manuscript accepted 18 June 2016
Moran, K., and 35 others, 2006, The Cenozoic             faulting in the Mexican Ridges, Gulf of Mexico,
   palaeoenvironment of the Arctic Ocean: Nature,        in Bartolini, C., and Román Ramos, J.R., eds.,
   v. 441, p. 601–605, doi: 10.1038/nature04800.         Petroleum Systems in the Southern Gulf of
                                                         Mexico: AAPG Memoir 90, p. 93–115.
Mosher, D.C., Shimeld, J., Hutchinson, D., and        Salvador, A., 1987, Late Triassic–Jurassic paleo-
   Jackson, R., 2016, Canadian UNCLOS Extended           geography and origin of Gulf of Mexico Basin:
   Continental Shelf Program seismic reflection          AAPG Bulletin, v. 71, p. 419–451.
   data holdings (2006–2011): Geological Survey       Salvador, A., 1991, Triassic-Jurassic, in Salvador,
   of Canada Open File 7938 (digital) 8 pages, doi:      A., ed., The Gulf of Mexico Basin: Boulder,
   10.4095/297590.                                       Colorado, Geological Society of America,
                                                         Geology of North America, v. J, p. 131–180.
Moy, C., and Traverse, A., 1986, Palynostratigraphy   Sandwell, D.T., Muller, D.R., Smith, W.H.F.,
   of the subsurface Eagle Mills formation               Garcia, E., and Francis, R., 2014, New global
   (Triassic) from a well in east-central Texas,         marine gravity model from CryoSat-2 and
   USA: Palynology, v. 10, p. 225–234, doi: 10.1080/     Jason-1 reveals buried tectonic structure: Science,
   01916122.1986.9989310.                                v. 346, p. 65–67, doi: 10.1126/science.1258213.
                                                      Schlager, W., Buffler, R.T., Angstadt, D., and Phair,
Nikishin, A.M., Malyshev, N.A., and Petrov, E.I.,        R., 1984, Geologic history of the southeastern
   2014, Geological Structure and History of the         Gulf of Mexico, in Buffler, R.T., and Schlager,
   Arctic Ocean: Houten, The Netherlands, EAGE           W., Initial reports of the Deep Sea Drilling
   Publications, 90 p.                                   Project 77: Washington, D.C., U.S. Government
                                                         Printing Office, p. 715–738, doi: 10.2973/dsdp
Ohta, Y., Dallmeyer, R.D., and Peucat, J.J., 1989,       .proc.77.132.1984.
   Caledonian Terranes in Svalbard: Geological        Shimeld, J., Li, Q., Chian, D., Lebedeva-Ivanova,
   Society of America Special Paper 230, p. 1–15,        N., Jackson, R., Mosher, D., and Hutchinson, D.,
   doi: 10.1130/SPE230-p1.                               2016, Seismic velocities within the sedimentary
                                                         succession of the Canada Basin and southern
Olsen, P.E., Kent, D.V., Cornet, B., Witte, W.K.,        Alpha-Mendeleev Ridge, Arctic Ocean:
   and Schlische, R.W., 1996, High-resolution            Evidence for accelerated porosity reduction?:
   stratigraphy of the Newark rift basin (early
   Mesozoic, eastern North America): GSA
   Bulletin, v. 108, p. 40–77, doi:10.1130/0016-
   7606(1996)108<0040:HRSOTN>2.3.CO;2.

Parker, E.H., Jr., 2014, Crustal magnetism, tectonic
   inheritance, and continental rifting in the
   southeastern United States: GSA Today, v. 24,
   p. 4–9, doi: 10.1130/GSAT-G192A.1.

Pindell, J.L., and Kennan, L., 2009, Tectonic
   evolution of the Gulf of Mexico, Caribbean and
   northern South America in the mantle reference

                                                      www.geosociety.org/gsatoday                                                                                     11
   6   7   8   9   10   11   12   13   14   15   16