TY - JOUR
T1 - Multibeam bathymetric survey of the Ipala Submarine Canyon, Jalisco, Mexico (20°N)
T2 - The southern boundary of the Banderas Forearc Block?
AU - Urías Espinosa, J.
AU - Bandy, W. L.
AU - Mortera Gutiérrez, C. A.
AU - Núñez Cornú, Fco J.
AU - Mitchell, N. C.
N1 - Funding Information:
We thank the captain and crew of the B.O. EL PUMA and the shipboard scientific party (Francisco Ponce Nuñez, Daniel Armando Pérez Calderón , Glicina Ortiz Zamora, Nely Ramírez Miguel, Sandra Valle Hernández, Francisco Reyes Hernández, Victor Jesús Tapia Cruz, Jorge Escobedo Molina, Iván Ariel Rufino Contreras, José Juan Pliego Silva, Elizabeth Andrómeda Pérez González, Francisco Mendoza Torres, Jonatán Arreola Manzano and Roberto Galindo Dominguez) for their help during the MORTIC08 campaign. The first author also thanks Carmen Millan, Mariana Castillo and Ana Lucia Ramos Barreto for their help with the processing software. We also thank François Michaud and Rafael Bartolomé for their constructive reviews of the manuscript. Financial support was provided by CONACyT grant # 50235F and DGAPA grant #s IN104707 , IN108110 , IN115513 , IN102507 , IN114410 , and IN115613 . Financial support for the ship time was provided by UNAM (CABO).
Publisher Copyright:
© 2016 Elsevier B.V.
PY - 2016/3/7
Y1 - 2016/3/7
N2 - The Middle America Trench bends sharply northward at 20°N. This, along with the close proximity of the Rivera-North America Euler pole to the northern end of this trench, sharply increases the obliquity of subduction at 20°N. By analogy with other subduction zones with similar sharply changing obliquity, significant trench parallel extension is expected to exist in the forearc region near the bend. To evaluate this possibility, multibeam bathymetric, seafloor backscatter and sub-bottom seismic reflection data were collected in this area during the MORTIC08 campaign of the B.O. El Puma. These data image in detail a large submarine canyon (the Ipala Canyon) extending from the coast at 20°05'N to the Middle America Trench at 19°50'N. This canyon is 114 km long and is fed by sediments originating from two, possibly three, small rivers: the Ipala, Tecolotlán and Maria Garza. This canyon deeply incises (up to 600 m) the entire continental slope and at least the outer part of the shelf. Within the canyon, we observe meanders and narrow channels produced by turbidity flows indicating that the canyon is active. In the marginal areas of the canyon slumps, rills, and uplifts suggest that mass movements and fluid flow have had a major impact on the seafloor morphology. The seafloor bathymetry, backscatter images and sub-bottom reflection profiles evidence the tectonic processes occurring in this area. Of particular interest, the canyon is deflected by almost 90° at three locations, the deflections all having a similar azimuth of between 125° and 130°. Given the prominence and geometry of this canyon, along with its tectonic setting, we propose that the presence of the canyon is related to extension produced by the sharp change in the plate convergence. If so, the canyon may lie along the southeast boundary of a major forearc block (the Banderas Forearc Block).
AB - The Middle America Trench bends sharply northward at 20°N. This, along with the close proximity of the Rivera-North America Euler pole to the northern end of this trench, sharply increases the obliquity of subduction at 20°N. By analogy with other subduction zones with similar sharply changing obliquity, significant trench parallel extension is expected to exist in the forearc region near the bend. To evaluate this possibility, multibeam bathymetric, seafloor backscatter and sub-bottom seismic reflection data were collected in this area during the MORTIC08 campaign of the B.O. El Puma. These data image in detail a large submarine canyon (the Ipala Canyon) extending from the coast at 20°05'N to the Middle America Trench at 19°50'N. This canyon is 114 km long and is fed by sediments originating from two, possibly three, small rivers: the Ipala, Tecolotlán and Maria Garza. This canyon deeply incises (up to 600 m) the entire continental slope and at least the outer part of the shelf. Within the canyon, we observe meanders and narrow channels produced by turbidity flows indicating that the canyon is active. In the marginal areas of the canyon slumps, rills, and uplifts suggest that mass movements and fluid flow have had a major impact on the seafloor morphology. The seafloor bathymetry, backscatter images and sub-bottom reflection profiles evidence the tectonic processes occurring in this area. Of particular interest, the canyon is deflected by almost 90° at three locations, the deflections all having a similar azimuth of between 125° and 130°. Given the prominence and geometry of this canyon, along with its tectonic setting, we propose that the presence of the canyon is related to extension produced by the sharp change in the plate convergence. If so, the canyon may lie along the southeast boundary of a major forearc block (the Banderas Forearc Block).
KW - Forearc structure
KW - Oblique convergence
KW - Plate motions
KW - Subduction zones
KW - Submarine canyons
UR - http://www.scopus.com/inward/record.url?scp=84960364108&partnerID=8YFLogxK
U2 - 10.1016/j.tecto.2015.12.029
DO - 10.1016/j.tecto.2015.12.029
M3 - Article
VL - 671
SP - 249
EP - 263
JO - Tectonophysics
JF - Tectonophysics
ER -