Fletcher, John M. et al. (2007): Ridge-trench interactions and the Neogene tectonic evolution of the Magdalena Shelf and southern Gulf of California; insights from detrital zircon U-Pb ages from the Magdalena Fan and adjacent areas

Leg/Site/Hole:
DSDP 54
DSDP 54 421
Identifier:
2007-128478
georefid

10.1130/B26067.1
doi

Creator:
Fletcher, John M.
Centro de Investigacion Cientifica y de Educacion Superior de Ensenada, Departamento de Geologia, Ensenada, Mexico
author

Grove, Marty
University of California, Los Angeles, United States
author

Kimbrough, David
San Diego State University, United States
author

Lovera, Oscar
University of Arizona, United States
author

Gehrels, George E.
author

Identification:
Ridge-trench interactions and the Neogene tectonic evolution of the Magdalena Shelf and southern Gulf of California; insights from detrital zircon U-Pb ages from the Magdalena Fan and adjacent areas
2007
Geological Society of America Bulletin
Geological Society of America (GSA), Boulder, CO, United States
119
11-12
1313-1336
The Magdalena fan is an apparently beheaded submarine depocenter that has figured prominently in reconstructions of middle to late Miocene Pacific-North American plate interactions. The deposit accumulated rapidly at the base of the continental slope on top of newly formed oceanic crust of the Magdalena microplate from 14.5 to 13 Ma. Subduction of this crust ceased as the Pacific-Magdalena spreading center encountered the trench. The widely accepted two-phase kinematic model for the formation of the Gulf of California holds that approximately 300 km of dextral shear between the Pacific and North American plates occurred along faults west of Baja California prior to the onset of dextral-transtensional shearing in the gulf ca. 6 Ma. We measured 1796 detrital zircon U-Pb ages from 65 samples in an effort to characterize the provenance of the fan, determine its source region, and define the cumulative dextral slip along faults offshore of southwestern Baja California. Zircons from the fan are dominantly 120-65 Ma with subordinate 15-35 Ma grains. Excellent matches to the fan can be obtained by mixing Magdalena shelf strata and/or adding detritus from the west-draining portion of the Los Cabos block. The same cannot be accomplished with zircons from the east-draining portion of the Los Cabos block and mainland Mexico. Our results favor a western Baja source region for the fan and suggest that cumulative dextral slip along faults west of Baja was <150 km, much less than previously believed. We propose that the fan was fed by erosional denudation of the Magdalena shelf produced by increased mantle buoyancy due to the ridge-trench juxtaposition. The fan's source was cut off when faults west of Baja California began to accommodate transtensional shearing and form rift basins that captured detritus that previously reached the trench.
English
Serial
Coverage:Geographic coordinates:
North:26.3000
West:-114.0000East: -104.0000
South:20.0000

Solid-earth geophysics; Geochronology; absolute age; Baja California Sur Mexico; Cenozoic; clastic rocks; clastic sediments; Comondu Formation; continental shelf; dates; Deep Sea Drilling Project; denudation; detritus; DSDP Site 421; East Pacific; erosion; faults; Gulf of California; Integrated Ocean Drilling Program; IPOD; kinematics; Leg 54; Magdalena Fan; marine sediments; Mexico; Miocene; Neogene; nesosilicates; North American Plate; North Pacific; Northeast Pacific; ocean floors; orthosilicates; Pacific Ocean; Pacific Plate; PESCADERO; plate tectonics; programs; provenance; San Gregorio Formation; sand; sandstone; sea-floor spreading; sedimentary rocks; sediments; shear; silicates; spreading centers; submarine fans; Tepetate Formation; Tertiary; transtension; trenches; U/Pb; upper Miocene; zircon; zircon group;

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