Brancolini, Giuliano; Harris, Peter; Armand, Leanne; Brown, Belinda; Busetti, Martina; Childs, Jonathan R.; Deen, Tara; Giorgetti, Giovanna; Hislop, Andrew; Hill, Andrew; King, Alix; Miller, Kevin; Pelos, Claudio; Presti, Massimo; Robertson, Lisette; Rosenberg, Mark; Sormani, Lorenzo; Sullivan, Peter; Trincardi, Fabio; Vidmar, Roberto; Weber, Peter; Wilcox, Steve; Woon, Suenor (2000): Post cruise report AGSO survey 217; Joint Italian/Australian marine geoscience expedition aboard the R.V. Tangaroa to the George Vth Land region of East Antarctica during February-March, 2000; Australian National Antarctic Research Expeditions Project No. 1044, Wilkes Land glacial history (WEGA). AGSO - Australian Geological Survey Organisation, Canberra, A.C.T., Australia, Record - Australian Geological Survey Organisation, 2000/38, 181 pp., georefid:2001-032460

A collaborative Italian/Australian marine geoscience research voyage to the George Vth Land sector of the East Antarctic continental margin was carried out between 11th February and 20th March, 2000, on board the of the RV Tangaroa. The cost of the expedition was shared jointly by the Italian and Australian National Antarctic Research Programs. Twenty four scientific personnel from 13 institutions participated in the expedition. The geophysical data collected includes a total of 1827 km of multi-channel seismic data and 562 km of Chirper sonar data. A total of 11 gravity cores, 28 piston cores, 18 surface grabs and 11 short trigger cores were collected on the voyage. Water profile (CTD) measurements and water samples were collected at nine stations and seabed bottom photographs were made at 11 stations. The expedition discovered and mapped a shelf sediment drift deposit covering about 400 km (super 2) lying in an >800 m deep section of the George Vth basin west of the Mertz Glacier. It is a true "drift" deposit, since these sediments exhibit a patchy distribution, large-scale bedforms, contain foreset bedding and display a depositional architecture indicative of contour-parallel sediment transport. A significant observation is that the drift thins to the north into an acoustically-transparent veneer; this observation implies that the drift is sourced from the outer continental shelf, with sediment being transported landwards, across the shelf and into an 850 m deep inner shelf basin. The "Mertz Drift" is over 35 m thick and core samples demonstrate that it is composed of laminated, anoxic, gelatinous olive green, siliceous mud and diatom ooze (SMO). Preliminary shipboard counts of the laminae suggest a thickness of from 4 to 20 mm, with a mean of about 7 mm. While the lower sediments are laminated, there is a 20 to 50 cm thick sandy drape at the surface over the whole of the drift. This suggests that a recent (late Holocene) change in the depositional environment has occurred, possibly related to changes in the extent of the nearby Mertz Glacier tongue, current regime and/or to the persistence of sea ice over the shelf area. Multi-channel seismic data show the occurrence of foreset beds at the shelf break, interpreted as having been deposited by ice streams that grounded on the outer shelf during glacial maxima. On the shelf, the seismic character of the seafloor exhibits highly reflective, parabolic reflectors suggestive of crystalline basement, cropping out at the seafloor. Northwards of these basement outcrops, the water depth increases to over 1,100 m which is the George Vth Basin. The basin coincides with an abrupt transition in seismic character from acoustic basement in the south to seaward (northeasterly) dipping reflectors. On the continental rise, seismic sections were taken across a contourite drift deposit and submarine canyon system in 2500 to 3500 m water depth. Piston cores were collected along the profile of one drift deposit which gave a preliminary Mid-Pliocene age to truncated strata that crop out on the drift's steeper lee side. These data will provide useful site-survey information in support of a proposal sent to the Ocean Drilling Program under the auspices of the SCAR-ANTOSTRAT project for drilling key sites along the Antarctic margin.
West: 150.0000 East: 150.0000 North: -68.0000 South: -68.0000
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