2016
DOI: 10.1016/j.margeo.2015.11.005
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Different frequencies and triggers of canyon filling and flushing events in Nazaré Canyon, offshore Portugal

Abstract: 8Submarine canyons are one of the most important pathways for sediment transport into ocean 9 basins. For this reason, understanding canyon architecture and sedimentary processes has 10 importance for sediment budgets, carbon cycling, and geohazard assessment. Despite increasing 11 knowledge of turbidity current triggers, the down-canyon variability in turbidity current frequency 12 within most canyon systems is not well constrained. New AMS radiocarbon chronologies from 13 canyon sediment cores illustrate sig… Show more

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Cited by 41 publications
(50 citation statements)
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“…Turbidity currents that fill, or recharge, Nazaré Canyon have previously been analyzed using sediment cores obtained from the canyon levees. These filling turbidity currents are predominantly active during sea-level lowstand, and their recurrences conform to a normal distribution (Allin et al, 2016). Larger turbidity currents that flush Nazaré Canyon periodically have been inferred from thick (>20 cm) turbidites in the central Iberian Abyssal Plain, 140 km from the mouth of the canyon.…”
Section: Flushing Of Submarine Canyonsmentioning
confidence: 87%
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“…Turbidity currents that fill, or recharge, Nazaré Canyon have previously been analyzed using sediment cores obtained from the canyon levees. These filling turbidity currents are predominantly active during sea-level lowstand, and their recurrences conform to a normal distribution (Allin et al, 2016). Larger turbidity currents that flush Nazaré Canyon periodically have been inferred from thick (>20 cm) turbidites in the central Iberian Abyssal Plain, 140 km from the mouth of the canyon.…”
Section: Flushing Of Submarine Canyonsmentioning
confidence: 87%
“…Turbidity currents in submarine canyons are proposed to be one of two broad end-member types: those that are restricted to, and fill or recharge the canyon with sediment, and those that flush sediment from the canyon and continue into deeper water (Parker, 1982;Piper and Savoye, 1993;Canals et al, 2006;Piper and Normark, 2009;Talling et al, 2012;Allin et al, 2016). "Filling" turbidity currents triggered by localized failures, hyperpycnal river discharge, or storms accumulate sediment within canyons over hundreds or even thousands of years (Paull et al, 2005;Canals et al, 2006;Arzola et al, 2008;Khripounoff et al, 2009;Masson et al, 2011;Talling et al, 2012;Talling, 2014).…”
Section: Flushing Of Submarine Canyonsmentioning
confidence: 99%
See 1 more Smart Citation
“…Changes in flow frequency are also key for understanding fundamental flow behaviour; such as how often flows erode and accelerate (ignite; Parker, 1982), or deposit sediment and dissipate, and the length scales over which such changes occur. It has also been proposed that turbidity currents in larger submarine canyon fed systems are strongly bimodal, such that most events are canyon filling, whilst only a few much larger flows flush sediment out of canyons (Arzola et al, 2008;Allin et al, 2016). More generally, flow frequency has important implications for the tempo of organic carbon and nutrient transport into deeper water (Galy et al, 2007) and the physical disturbance of benthic ecosystems (Paull et al, 2010).…”
Section: Introductionmentioning
confidence: 99%
“…Event recurrence is better constrained, with Quaternary core-based studies providing recurrence interval data from multiple basins (Clare et al, 2014;Clare et al, 2016;Paull et al, 2014). Studies have also focused on the distribution of event recurrence and how allogenic forcing and position along the sediment-routing system can affect the recurrence distribution (Allin et al, 2017;Allin et al, 2016;Clare et al, 2015).…”
Section: Introductionmentioning
confidence: 99%