The Enya mounds: a lost mound-drift competition

Rooij, David Van; Huvenne, Veerle A.I.; Blamart, Dominique; Henriet, Jean‐Pierre; Wheeler, A.; Haas, H. de

doi:10.1007/s00531-007-0293-9

Cited by 26 publications

(26 citation statements)

References 61 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…A). The linear troughs flanking the seamount (SM) are directly comparable in dimension, cross‐section and planform with erosional/depositional features or ‘moats’ that are commonly documented in bottom current regimes where there is an influence of topography, along topographic highs, such as ridges, banks and islands worldwide (e.g. Faugères et al ., ; Knutz & Cartwright, ; Laberg et al ., ; Surlyk & Lykke‐Andersen, ; Hernández‐Molina et al ., ; Van Rooij et al ., ; Faugères & Mulder, ). Similar erosional troughs formed by bottom currents are also documented in many present and ancient continental margins, such as in the Gulf of Cadiz (Hernández‐Molina et al ., ), the Faeroe‐Shetland gateway (Knutz & Cartwright, ), the Northwest Sub‐Basin of the South China Sea (SCS) (Chen et al ., ) and the Pearl River Mouth Basin of the northern SCS (Sun et al ., ). The elliptical and crescentic mega‐pockmarks in the adjacent area also indicate that strong bottom currents occur in the study area (Sun et al ., ) by analogy with similar structures, such as in the Inner Oslofjord, Norway (Hammer et al ., ), and Adriatic Margin (Verdicchio & Trincardi, ).…”

Section: Discussionmentioning

confidence: 99%

Three‐dimensional seismic characterization of a complex sediment drift in the South China Sea: Evidence for unsteady flow regime

et al. 2016

View full text Add to dashboard Cite

This study describes a previously unobserved reflection seismic configuration comprising a honeycomb planform and a repeated erosion/infill cross‐section, based on high‐resolution three‐dimensional/two‐dimensional seismic data and bathymetric data. The honeycomb structures cover an area of more than 5000 km2 and are developed within the Late Miocene to recent deep‐water sediments of the north‐western South China Sea. Linear erosional troughs up to 10 km long and 1 km wide are widely developed in this area, are intimately related to the particular seismic configuration and interpreted to represent a new type of sediment drift that is caused by unsteady bottom current regimes operating since the Late Miocene. The unsteady bottom current regimes are suggested to be triggered by irregular seabed morphologies. Considerable sea‐floor topography was generated as a direct result of tectonic movements in the area since the Late Miocene, and this topography then influenced the pathways of strong bottom currents. This study highlights that: (i) an unsteady bottom current regime can be laterally extensive and persist for millions of years; (ii) structurally controlled sea‐floor relief plays an important role in controlling the depositional pattern; and (iii) the bottom currents were active since the Late Miocene, flowing from the south‐east through the Xisha–Guangle Gateway and crossing the honeycomb structure zone. This study documents a new style of drift and will help to improve current knowledge of palaeoceanography and understanding of the South China Sea deep‐water circulation which is at present still poorly understood.

show abstract

Section: Discussionmentioning

confidence: 99%

Three‐dimensional seismic characterization of a complex sediment drift in the South China Sea: Evidence for unsteady flow regime

et al. 2016

View full text Add to dashboard Cite

show abstract

“…Within the Porcupine Seabight numerous mound provinces exist, in which mounds vary in size up to giant mounds of up to 160 m high and up to 5 km in length: Hovland mounds, Magellan mounds and the Belgica mounds ( De Mol et al, 2002, Hovland et al, 1994, Huvenne et al, 2009a, Van Rooij et al, 2009and Wheeler et al, 2007. The process of accretion of these large mounds is not well understood although coring through the Challenger Mound by IODP Expedition 307 revealed gradual reef stacking over the course of 2.6 Ma.…”

Section: Introductionmentioning

confidence: 99%

The Dangeard and Explorer canyons, South Western Approaches UK: Geology, sedimentology and newly discovered cold-water coral mini-mounds

Stewart

Davies

Guinan

et al. 2014

Deep Sea Research Part II: Topical Studies in Oceanography

View full text Add to dashboard Cite

The Celtic Margin is a complex area in terms of sedimentary dynamics and evolution, with a number of submarine canyons dissecting the continental slope and outer continental shelf. The complex terrain and diverse range of sea-bed sediments play a part in submarine canyons being described as areas of high habitat heterogeneity. This study has concentrated on the heads of two canyons: Dangeard (also known as Dangaard) and Explorer (first named here) located in UK territorial waters, in water depths between 138 and 1165 m. Multibeam echosounder, 2D reflection seismic and photographic ground-truthing data have been combined to map the sea-bed geomorphology, sedimentary features and canyon megafauna of these canyons. In addition, two previously unknown provinces of cold-water coral (CWC) mini-mounds were discovered on the interfluves of the Dangeard and Explorer canyons.The study area comprises a dendritic network of gullies feeding into the canyon thalwegs. Amphitheatre rims, where slope angles are commonly in excess of 20°, occur along the margins and heads of both canyons and are interpreted as drainage basins indicative of retrogressive mass-wasting in a shelfward direction.The CWC mini-mounds occur in water depths between 250 m and 410 m, with more than 400 mounds identified. They are up to 3 m in height and 50-150 m in diameter with no sub-surface expression, suggesting these mounds are, in geological terms, relatively young and possibly Holocene in age. Biological analyses revealed that the mounds form a habitat for ophiuroids and Munida associated with Lophelia pertusa coral rubble, suggesting these mini-mounds are not present-day living features.

show abstract

“…The complex palaeotopography of the Porcupine Seabight slope (Van Rooij et al, 2007) may have contributed to enhance the tidally modulated bottom currents, driving the formation of a complex CDS in close association with the CWC mounds. However, the existence of a large erosional unconformity RD1, acting as the base of the Belgica CWC mounds, regionally represents large hiatuses (from 6.6 to 8.2 Myr) and was possibly created by several incision phases (Kano et al, 2007;Louwye et al, 2008;Van Rooij et al, 2009). The sedimentation first resumed in the form of CWC mound accretion at~2.7 Ma and lagged in off-mound setting, from about 1.24 Ma at site U1318 to about 0.5 Ma depending on the local morphology (Kano et al, 2007;Huvenne et al, 2009).…”

Section: Introductionmentioning

confidence: 98%

“…During the present day, it has been shown that the strong bottom currents in the eastern Porcupine Seabight are due to internal waves of tidal period (i.e. internal tides) at the upper interface between the MOW and the Eastern North Atlantic Water (White, 2007;Van Rooij et al, 2009). The complex palaeotopography of the Porcupine Seabight slope (Van Rooij et al, 2007) may have contributed to enhance the tidally modulated bottom currents, driving the formation of a complex CDS in close association with the CWC mounds.…”

Section: Introductionmentioning

confidence: 99%

Seismic geomorphological reconstructions of Plio-Pleistocene bottom current variability at Goban Spur

et al. 2016

View full text Add to dashboard Cite

The Enya mounds: a lost mound-drift competition

Cited by 26 publications

References 61 publications

Three‐dimensional seismic characterization of a complex sediment drift in the South China Sea: Evidence for unsteady flow regime

Three‐dimensional seismic characterization of a complex sediment drift in the South China Sea: Evidence for unsteady flow regime

The Dangeard and Explorer canyons, South Western Approaches UK: Geology, sedimentology and newly discovered cold-water coral mini-mounds

Seismic geomorphological reconstructions of Plio-Pleistocene bottom current variability at Goban Spur

Contact Info

Product

Resources

About