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The Gulf of Mexico and Canada Basin: Genetic Siblings
on Either Side of North America
E.R. Lundin, Statoil ASA, Research Center, Arkitekt Ebbels vei 10, 7053 Trondheim, Norway, erlun@statoil.com; and A.G. Doré,
Statoil (UK) Ltd., One Kingdom Street, London W2 6BD, UK, agdo@statoil.com
ABSTRACT geometry of the descending subduction uplifted Colorado Plateau (e.g., Galloway
slab. Mechanisms whereby extensional et al., 2000; Dixon et al., 2008).
The Gulf of Mexico and Canada Basin forces are communicated to the overrid-
are small oceans located in back-arc set- ing plate are still under discussion (e.g., Differences also exist—in particular
tings of the Paleo-Pacific Ocean, at the Heuret and Lallemand, 2005; Stern and their paleo-latitudes during opening.
northern and southern tip of the North Dickinson, 2010) and include relative The Gulf of Mexico opened between the
American craton. Both are pronounced backward motion of the upper plate ver- Middle Jurassic and earliest Cretaceous
rotational, pie-shaped basins, with their sus the subducting slab, pull (rollback) and was located at a subtropical latitude,
distal ends bounded by major transforms, driven by the negative buoyancy of the whereas the Canada Basin opened between
and both opened by ~70° counter-clock- subducting lithosphere, and dynamic Early and Late Cretaceous and was located
wise rotation of micro-continents away mantle flow. close to 75° N. This difference is reflected
from the craton. While they formed syn- by the presence of evaporites and carbon-
chronously with elements of the Central While it is usually implicit in such mod- ates in the Gulf of Mexico area, in con-
and North Atlantic, their oceanic crust els that the basin axes run parallel to the trast to siliciclastics in the Canada Basin
never connected with that of the Atlantic. subduction boundary, it is becoming evi- (e.g., Shimeld et al., 2016). Another differ-
Both oceans were periodically confined, dent from recent studies (e.g., Stern and ence is the orientation of these oceans,
with important implications for the paleo- Dickinson, 2010) that basins in back-arc with the Gulf of Mexico’s rift tip located
environment and petroleum system. Their settings can also open orthogonally or at a toward the Atlantic and the Canada Basin’s
North American affinity resulted in a high angle to subduction zones. We argue toward the Pacific.
number of intriguing similarities, such as that this geometry constitutes a new class
timing and magnitude of main sediment of basin that forms at the intersection of In all aspects, the Gulf of Mexico is the
influx. We argue for a genetic relation- major continental masses along subduction far better understood of the two basins,
ship between the geometry and kinemat- margins, and that the Gulf of Mexico and due to greater ease of access for data
ics of these pie-shaped oceans, their Canada Basin are important examples acquisition and its long and intensive his-
proneness to confinement, and their back- bordering the North American continent. tory of petroleum exploration.
arc setting. In contrast to common back- We also show that these confined basins
arc basins, the Gulf of Mexico and form major sediment sinks that have GULF OF MEXICO OPENING
Canada Basin had spreading ridges ori- resulted in large hydrocarbon resources
ented nearly orthogonally to the Paleo- and may have significantly affected global Gulf of Mexico rifting started approxi-
Pacific subduction direction. This distinc- paleoclimate. mately in the Norian (228.4–209.5 Ma),
tive high-angle back-arc development marked by poorly dated red beds and vol-
may be due to “Wilson Cycle” reactiva- The Gulf of Mexico and Canada Basin canics of the Eagle Mills Formation (Moy
tion of orogenic belts intersecting the (Fig. 1) are bordered by rift shoulders and and Traverse, 1986), approximately syn-
Paleo-Pacific margin, and/or to interac- underlain by oceanic crust and/or exhumed chronous with rifting along the Central
tion between descending slabs beneath mantle, and contain substantial sedimen- Atlantic margin along the U.S. East Coast
adjacent cratonic masses, and may apply tary fill, predominantly Cenozoic in age. (Olsen et al., 1996).
to other examples worldwide, such as the Neither ocean has well-defined magnetic
South China Sea. isochrons, but their ages can be deduced Modern interpretations of the continent-
from other geologic constraints. Both ocean boundary (COB) in the Gulf of
INTRODUCTION oceans re-opened Late Paleozoic orogens, Mexico range between two end-members.
the Carboniferous-Permian Ouachita- A “wide ocean” interpretation places
Back-arc extension occurs adjacent to Marathon orogen and the Carboniferous COBs along the major (~200–300 nT)
subduction boundaries and is manifested Innuitian orogen, respectively. Both oceans Houston, Florida, and Campeche mag-
as small, contained areas of seafloor spread- also opened by high-angle rotation during netic anomalies (Imbert and Philippe,
ing. Back-arc basins are particularly com- the Mesozoic. Both oceans hosted major 2005), assumed by analogy with the
mon around the Pacific Rim but are by no Cenozoic river deltas, with a fill strongly Central Atlantic East Coast Magnetic
means unique to that area. Their formation influenced by erosion of the Paleogene Anomaly (ECMA) to represent a magma-
is thought to relate to the motion and Laramide orogen and subsequently of the rich margin (Holbrook et al., 1994; Imbert
and Philippe, 2005) (Fig. 2). The alterna-
tive “narrower ocean” interpretation places
GSA Today, v. 27, no. 1, doi: 10.1130/GSATG274A.1
4 GSA Today | January 2017
