Brinkhuis, Henk et al. (2010): Expedition 318 summary

Leg/Site/Hole:
IODP 318
Identifier:
2011-066796
georefid

10.2204/iodp.proc.318.101.2011
doi

Creator:
Brinkhuis, Henk
Utrecht University, Institute of Environmental Biology, Utrecht, Netherlands
author

Escutia, Carlota
CSIC, Instituto Andaluz de Ciencias de la Tierra, Spain
author

Klaus, Adam
Integrated Ocean Drilling Program, United States
author

Fehr, Annick
RWTH Aachen University, Germany
author

Williams, Trevor
Lamont-Doherty Earth Observatory, United States
author

Bendle, James A. P.
University of Glasgow, United Kingdom
author

Bijl, Peter K.
University of Southampton, United Kingdom
author

Bohaty, Steven M.
Colorado School of Mines, United States
author

Carr, Stephanie A.
Stanford University, United States
author

Dunbar, Robert B.
Universidad de Salamanca, Spain
author

Flores, Jose-Abel
Western Michigan University, United States
author

Gonzalez, Jhon J.
Kochi University, Japan
author

Hayden, Travis G.
Japan Agency for Marine-Earth Science and Technology, Japan
author

Iwai, Masao
Korea Institute of Geoscience and Mineral Resources, South Korea
author

Jimenez-Espejo, Francisco J.
Victoria University of Wellington, New Zealand
author

Katsuki, Kota
Daito Bunka University, Japan
author

Kong, Gee Soo
University of South Florida-Tampa, United States
author

McKay, Robert M.
Montclair State University, United States
author

Nakai, Mutsumi
CUNY, Queens College, United States
author

Olney, Matthew P.
University of Frankfurt, Germany
author

Passchier, Sandra
University of Bremen, Germany
author

Pekar, Stephen F.
Utsunomiya University, Japan
author

Pross, Joerg
Northumbria University, United Kingdom
author

Riesselman, Christina R.
Geological Survey of India, India
author

Roehl, Ursula
University of Tromso, Norway
author

Sakai, Toyosaburo
Graduate University of Advanced Study, Japan
author

Salzmann, Ulrich
Scripps Institution of Oceanography, United States
author

Shrivastava, Prakash Kumar
Tongji University, China
author

Stickley, Catherine E.
Imperial College London, United Kingdom
author

Sugisaki, Saiko
University of Queensland, Australia
author

Tauxe, Lisa
University of Tokyo, Japan
author

Tuo Shouting
CSIC, Instituto Andaluz de Ciencias de la Tierra, Spain
author

van de Flierdt, Tina
Integrated Ocean Drilling Program, United States
author

Welsh, Kevin
RWTH Aachen University, Germany
author

Yamane, Masako
author

Identification:
Expedition 318 summary
2010
In: Brinkhuis, Henk, Escutia, Carlota, Klaus, Adam, Fehr, Annick, Williams, Trevor, Bendle, James A. P., Bijl, Peter K., Bohaty, Steven M., Carr, Stephanie A., Dunbar, Robert B., Flores, Jose-Abel, Gonzalez, Jhon J., Hayden, Travis G., Iwai, Masao, Jimenez-Espejo, Francisco J., Katsuki, Kota, Kong, Gee Soo, McKay, Robert M., Nakai, Mutsumi, Olney, Matthew P., Passchier, Sandra, Pekar, Stephen F., Pross, Joerg, Riesselman, Christina R., Roehl, Ursula, Sakai, Toyosaburo, Salzmann, Ulrich, Shrivastava, Prakash Kumar, Stickley, Catherine E., Sugisaki, Saiko, Tauxe, Lisa, Tuo Shouting, van de Flierdt, Tina, Welsh, Kevin, Yamane, Masako, Proceedings of the Integrated Ocean Drilling Program; Wilkes Land glacial history; Expedition 318 of the riserless drilling platform; Wellington, New Zealand, to Hobart, Australia; sites U1355-U1361, 3 January-8 March 2010
IODP Management International, Washington, DC, United States
318
Understanding the evolution and dynamics of the Antarctic cryosphere, from its inception during the Eocene-Oligocene transition ( approximately 34 Ma) through the significant subsequent periods of likely coupled climate and atmospheric greenhouse gas changes, is not only of major scientific interest but also is of great importance for society. Drilling the Antarctic Wilkes Land margin along an inshore to offshore transect was designed to provide a long-term record of the sedimentary archives of Cenozoic Antarctic glaciation and its intimate relationships with global climatic and oceanographic change. The principal goals were 1. To establish the timing and nature of the first arrival of ice at the Wilkes Land margin inferred to have occurred during the earliest Oligocene (reflecting Oligocene isotope Event 1 around approximately 34 Ma), 2. To reconstruct the nature and age of the changes in the geometry of the progradational wedge interpreted to correspond with large fluctuations in the extent of the East Antarctic Ice Sheet and possibly coinciding with the transition from a wetbased to a cold-based glacial regime, 3. To obtain a high-resolution record of Antarctic climate variability during the late Neogene and Quaternary, and 4. To obtain an unprecedented ultrahigh resolution (i.e., annual to decadal) Holocene record of climate variability. The Wilkes Land drilling program was developed to constrain the age, nature, and paleoenvironment of deposition of the previously only seismically inferred glacial sequences. Drilling the Wilkes Land margin has a unique advantage in that seismic unconformity WL-U3, inferred to separate preglacial strata below from glacial strata above in the continental shelf, can be traced to the continental rise deposits, allowing sequences to be linked from shelf to rise. Integrated Ocean Drilling Program Expedition 318, carried out in January-March 2010 (Wellington, New Zealand, to Hobart, Australia), recovered approximately 2000 m of high-quality middle Eocene-Holocene sediments from Sites U1355, U1356, U1359, and U1361 on the Wilkes Land rise and Sites U1357, U1358, and U1360 on the Wilkes Land shelf at water depths between approximately 400 and 4000 meters below sea level. Together, the cores represent approximately 53 m.y. of Antarctic history. Recovered cores successfully date the inferred glacial seismic units (WL-S4-WL-S9). The cores reveal the history of the Wilkes Land Antarctic margin from an ice-free "greenhouse Antarctica", to the first cooling, to the onset and erosional consequences of the first glaciation and the subsequent dynamics of the waxing and waning ice sheets, all the way to thick, unprecedented "tree ring style" records with seasonal resolution of the last deglaciation that began approximately 10,000 y ago.
Coverage:Geographic coordinates:
North:-63.1500
West:135.4500East: 144.0000
South:-66.3000

Stratigraphy; algae; Antarctic ice sheet; Antarctica; biostratigraphy; Cenozoic; chemostratigraphy; climate change; continental margin; cores; deglaciation; diatoms; Dinoflagellata; East Antarctic ice sheet; East Antarctica; Expedition 318; Foraminifera; geophysical methods; geophysical profiles; geophysical surveys; glaciation; Integrated Ocean Drilling Program; Invertebrata; lithofacies; magnetostratigraphy; microfossils; nannofossils; paleoclimatology; paleoenvironment; paleomagnetism; palynomorphs; Plantae; Protista; Quaternary; Radiolaria; reconstruction; sea-level changes; sedimentary rocks; seismic methods; seismic profiles; seismic stratigraphy; Southern Ocean; stratigraphic units; surveys; Tertiary; unconformities; Wilkes Land;

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