Coarse-grained submarine channels: from confined to unconfined flows in the Colombian Caribbean (late Eocene)
Metadatos
Mostrar el registro completo del ítemAutor
Celis, Sergio A.; García García, Fernando; Rodríguez Tovar, Francisco J.; Giraldo Villegas, Carlos A.; Pardo Trujillo, AndrésEditorial
Elsevier
Materia
High-density turbidites Submarine channel-mouth bar Supercritical flow
Fecha
2023Referencia bibliográfica
Sedimentary Geology 459 (2024) 106550 [10.1016/j.sedgeo.2023.106550]
Patrocinador
National Programfor Doctoral Formation (Minciencias Colombia grants 885-2020, 906-2021); Project PID2019-104625RB-100 (funded by MCIN/AEI/10.13039/501100011033); Project P18-RT-4074 (funded by FEDER/Junta de Andalucía-Consejería de Economía y Conocimiento); Projects B-RNM-072-UGR18 and A-RNM-368-UGR20 (funded by FEDER Andalucía); Funding for open access charge: Universidad de Granada / CBUAResumen
Submarine channel mouth settings are hardly preserved in the stratigraphic record. Although they are still poorly
known with respect to other segments of turbidite systems, conceptual models are being refined in the light of
newdiscoveries inmodern and ancient examples. Still, some questions such as the transition between expansion
zones and the traditional Channel-Lobe Transition Zone (CLTZ) remains open in ancient systems. Upper Eocene
deposits of the Colombian Caribbean (San Jacinto Fold Belt) are interpreted here as a fan-delta-fed, submarine,
coarse-grained channel-lobe system. It displays a well-preserved channel inception stage in the shelf break represented
by sigmoidal to lens-shaped gravels, and planar cross-stratified pebbly sandstones (foreset and backset)
interpreted as cyclic steps in an expansion zone. In a later stage, a classical channel-levee complex was developed,
represented by channel fill elements showing sharp- and erosional-based, fining-upward sequences that aremeters
thick, having basal massive matrix-supported pebble conglomerates (hard—extrabasinal—clasts, rip-up
clasts, coastal bioclasts), vertically evolving to liquefied massive to planar-laminated coarse-grained sandstones
with phytodetrital carbonaceous laminae. They are interpreted as concentrated flow deposits (high-density turbidites)
coming from continental areas or from coastal systems (i.e., delta reworking). Undifferentiated channel
belt thin-bedded turbidites associated with levees and terraces deposits are related to these confined systems.
The channel-lobe transition zone is characterized by debrites from cohesionless debris flow in a channelmouth
bar setting, representing bypass processes that developed distally into low-angle, planar cross- and sigmoidally-
stratified (upstream antidune) pebble-size to coarse-grained sandstones that fill low-angle scours
(cut-and-fill structures) in an antidune field settingwith supercritical conditions.When the currents lose channel
confinement, the setting is characterized by changes fromFroude supercritical to subcritical flowconditions in an
inner lobe to lobe off-axis environment. Large seasonal fluctuations in precipitation favor high sediment concentrations,
promoting the formation of volumetrically significant fan deltas and coarse-grained submarine channels
with high erosive capacity; therefore, their record helps refine interpretations of depositional processes, providing
criteria for recognizing areas of the turbiditic systems that are hardly preserved. The particular aggradational
conditions for the preservation and stratigraphic characterization of the rare exhumed submarine channelmouth
systems make it possible to decipher sediment dispersal patterns and thus connect the models proposed here,
from supercritical systems to the traditional models of turbiditic systems.