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Sedimentology of lower Pliocene to Upper Pleistocene diamictons from IODP Site U1358, Wilkes Land margin, and implications for East Antarctic Ice Sheet dynamics (2013)

Orejola, Nadine ; Passchier, Sandra ; ,

Cambridge University Press

In: Antarctic Science. 2013; 26(2): 183-192. Published 2013 Aug 13. doi: 10.1017/s0954102013000527.

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Publication Date: 2013-08-13

Description: During the early Pliocene a dynamic marine-based ice sheet retreated from the Wilkes Land margin with periodic ice advances beyond Last Glacial Maximum position. A change in sand provenance is indicative of a more stable Mertz Glacier system during the Late Pleistocene. East Antarctic Ice Sheet (EAIS) dynamics were evaluated through the analysis of marine diamictons from Integrated Ocean Drilling Program (IODP) site U1358 on the Adélie Land continental shelf. The warmer than present conditions of the early Pliocene coupled with the site's proximity to the landward sloping Wilkes Subglacial Basin provided the rationale for the investigations at this site. Based on visual core descriptions, particle size distributions, and major and trace element ratios, we interpret the origin of lower Pliocene strata by intermittent glaciomarine sedimentation with open-marine conditions and extensive glacial advances to the outer shelf. Heavy mineral analyses show that sand-sized detritus in the lower Pliocene strata was sourced from local intermediate to high-grade metamorphic rocks near Mertz Glacier. In contrast, Pleistocene diamictons exhibit a larger contribution from a prehnite-pumpellyite greenschist facies suggesting supply via iceberg rafting from northern Victoria Land. From this sedimentological evidence, we postulate a shift from a dynamic EAIS margin in the early Pliocene to possible stabilization in the Pleistocene.

Print ISSN: 0954-1020

Electronic ISSN: 1365-2079

Topics: Biology , Geography , Geosciences

Published by Cambridge University Press

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Recent advances in understanding Antarctic climate evolution (2008)

Siegert, Martin J. ; Barrett, Peter ; DeConto, Robert ; [et al.]

Cambridge University Press

In: Antarctic Science. 2008; 20(4): 313-325. Published 2008 Jan 23. doi: 10.1017/s0954102008000941.

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Publication Date: 2008-01-23

Description: Geological evidence shows that the ice sheet and climate in Antarctica has changed considerably since the onset of glaciation around 34 million years ago. By analysing this evidence, important information concerning processes responsible for ice sheet growth and decay can be determined, which is vital for appreciating future changes in Antarctica. Geological records are diverse and their analyses require a variety of techniques. They are, however, essential for the establishment of hypotheses regarding past Antarctic changes. Numerical models of ice and climate are useful for testing such hypotheses, and in recent years there have been several advances in our knowledge relating to ice sheet history gained from these tests. This paper documents five case studies, employing a full range of techniques, to exemplify recent insights into Antarctic climate evolution from modelling ice sheet inception in the earliest Oligocene to quantifying Neogene ice sheet fluctuations and process-led investigations of recent (last glacial) changes.

Print ISSN: 0954-1020

Electronic ISSN: 1365-2079

Topics: Biology , Geography , Geosciences

Published by Cambridge University Press

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Introduction (2005)

Passchier, Sandra ; Rijsdijk, Kenneth ; Laban, Cees

Cambridge University Press

In: Netherlands Journal of Geosciences. 2005; 84(2): 59-59. Published 2005 Jul 01. doi: 10.1017/s0016774600022952.

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Publication Date: 2005-07-01

Description: Coastal low-lands are densely populated areas characterized by large economic activity. The shallow subsurface plays an important role because of geotechnical requirements for the foundation of structures and its potential for natural resources, such as sand, gravel, and groundwater. The application of geo-scientific data requires that the subsurface is represented as 2D and 3D models displaying the stratigraphie relations of sedimentary rock units, both on-and off-shore.

Print ISSN: 0016-7746

Electronic ISSN: 1573-9708

Topics: Geosciences

Published by Cambridge University Press

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Provenance, geochemistry and grain-sizes of glacigene sediments, including the Sirius Group, and Late Genozoic Glaciol history of the southern Prince Albert Mountains, Victoria Land, Antarctica (1998)

Passchier, Sandra ; Verbers, Anja L.L.M. ; Van Der Wateren, Frederik M. ; [et al.]

Cambridge University Press

In: Annals of Glaciology. 1998; 27: 290-296. Published 1998 Jan 01. doi: 10.3189/1998aog27-1-290-296.

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Publication Date: 1998-01-01

Description: The southern Prince Albert Mountains, between David and Mawson Glaciers (75°30' to 76°S) in Victoria Land, Antarctica, comprise a series of nunataks with elevations ranging from 800m near the coast to 2300 m ~130 km inland. Geochemical and grain-size analyses of tills from these nunataks reveal three major groups of deposits: (1) coarse to medium sandy tills, found on Glaciolly streamlined summit plateaus of Kirk-pat rick Basalt above 2000 ma.s.l.., with geochemical compositions very similar to those of the underlying jurassic Kirkpatrick Basalt; (2) bimodal silty and sanely tills of the Sirius Group with Ferrar/Beacon-dominated geochemical compositions, at elevations of 1300-1600 m a.s.l. on striated summit plateaus and high-elevation terraces; (3) fine-grained tills with high SiO2 contents from ice-cored moraines at the lee sides of large nunataks. The geochemical composition of sandy tills from the highest summit plateaus suggests that valleys had not yet cut through the Kirkpatrick Basalt and into Beacon and Ferrar rocks at the time of deposition. These tills represent a phase of temperate glaciation prior to deposition of diatom-bearing Sirius Group tills. The latter were deposited after a first phase of landscape dissection as inferred from geochemical data. The fine-grained ice-cored moraines are late-Pleistocene basal tills. The presence of pre-Pliocene Glacial deposits on high mountain summits in the Prince Albert Mountains has implications for the interpretation of high-elevation Sirius Group sediments in other areas of the Transantarctic Mountains. It is possible that the “Sirius debate” has its origin in interpretations of both thin, barren pre-Pliocene deposits on high mountain summits and thick sequences of diatom-bearing deposits in valleys elsewhere in the Transantarctic Mountains. Both types of deposits are associated with the Sirius Group, but they belong to separate Glacial episodes.

Print ISSN: 0260-3055

Electronic ISSN: 1727-5644

Topics: Geography , Geosciences

Published by Cambridge University Press on behalf of International Glaciological Society.

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Microfeatures of modern sea-ice-rafted sediment and implications for paleo-sea-ice reconstructions (2015)

St John, Kristen ; Passchier, Sandra ; TantillO, Brooke ; [et al.]

Cambridge University Press

In: Annals of Glaciology. 2015; 56(69): 83-93. Published 2015 Jan 01. doi: 10.3189/2015aog69a586.

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Publication Date: 2015-01-01

Description: Distinguishing sea-ice-rafted debris (SIRD) from iceberg-rafted debris is crucial to an interpretation of ice-rafting history; however, there are few paleo-sea-ice proxies. This study characterizes quartz grain microfeatures of modern SIRD from the Arctic Ocean, and compares these results with microfeatures from representative glacial deposits to potentially differentiate SIRD from ice-rafted sediments which have been recently subjected to glacial processes. This allows us to evaluate the use of grain microfeatures as a paleo-sea-ice proxy. SIRD grains were largely subrounded, with medium relief, pervasive silica dissolution and a high abundance of breakage blocks and microlayering. The glacial grains were more angular, with lower relief and higher abundances of fractures and striations/gouges. Discriminate analysis shows a distinct difference between SIRD and glacial grains, with ˂7% of the SIRD grains containing typical glacial microtextures, suggesting this method is a useful means of inferring paleo-sea-ice presence in the marine record. We propose that differences in microfeatures of SIRD and glacial ice-rafted debris reflect differences in sediment transport and weathering histories. Sediment transported to a coastal setting and later rafted by sea ice would be subject to increased chemical weathering, whereas glaciers that calve icebergs would bypass the coastal marine environment, thus preserving their glacial signature.

Print ISSN: 0260-3055

Electronic ISSN: 1727-5644

Topics: Geography , Geosciences

Published by Cambridge University Press on behalf of International Glaciological Society.

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