The Ross Ice Shelf dynamics during the Late Pliocene and the Early Pleistocene climate conditions warmer than today?

In Antarctica, the largest inland ice masses on Earth are stored. The growth and the retreat of ice sheets play a major role in the global ocean current system and climate. The melting and collapse of large ice shelves may cause a significant sea level rise, because of accelerated inland ice glacier...

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Main Authors: Helling, D., Kuhn, Gerhard, von Eynatten, H.
Format: Conference Object
Language:unknown
Published: 2008
Subjects:
Antarc*
Antarctic
Antarctica
ice core
Ice Shelf
Ice Shelves
McMurdo Sound
Polarforschung
Ross Ice Shelf
Online Access:https://epic.awi.de/id/eprint/18860/
https://hdl.handle.net/10013/epic.30538
id ftawi:oai:epic.awi.de:18860
record_format openpolar
spelling ftawi:oai:epic.awi.de:18860 2024-09-15T17:45:48+00:00 The Ross Ice Shelf dynamics during the Late Pliocene and the Early Pleistocene climate conditions warmer than today? Helling, D. Kuhn, Gerhard von Eynatten, H. 2008 https://epic.awi.de/id/eprint/18860/ https://hdl.handle.net/10013/epic.30538 unknown Helling, D. , Kuhn, G. orcid:0000-0001-6069-7485 and von Eynatten, H. (2008) The Ross Ice Shelf dynamics during the Late Pliocene and the Early Pleistocene climate conditions warmer than today? , 23. internationale Polartagung der Dt. Gesellschaft für Polarforschung, 10.-14.März 2008, Münster. . hdl:10013/epic.30538 EPIC323. internationale Polartagung der Dt. Gesellschaft für Polarforschung, 10.-14.März 2008, Münster. Conference notRev 2008 ftawi 2024-06-24T04:00:42Z In Antarctica, the largest inland ice masses on Earth are stored. The growth and the retreat of ice sheets play a major role in the global ocean current system and climate. The melting and collapse of large ice shelves may cause a significant sea level rise, because of accelerated inland ice glacier surges into the ocean.The ANDRILL (Antarctic Geological Drilling) MIS deep drilling project (McMurdo Sound, NE Ross Ice Shelf, core AND-1B drilled during austral summer 2006/2007) is located in a flexural moat basin filled with glaciomarine, terrigenous, volcanic, and biogenic sediments. This basin contains a well-preserved, outstanding record of approximately 14 million years of paleoclimate history. For the first time, sediments beneath an ice shelf were drilled, which provides a unique opportunity to investigate the variability of the Ross Ice Shelf. The sediment core covers a time period much longer than any Antarctic ice core record.During the drilling phase, some major and minor chemical elements were measured directly on split cores using a non-destructive X-Ray Fluorescence Core Scanner method (XRF-CS). In addition, colour data were collected using an integrated Line Scan camera in the XRF-CS system and a Minolta 2002 handheld spectrophotometer. Furthermore wet chemical analysis like the investigation of TOC, biogenic opal, major and minor elements with ICP-MS and conventional XRF were done on core samples to contribute to the better understanding of geochemical sediment properties. Colour data will be correlated to the XRF-CS data to received more and higher resolved information about the sediment composition.The interpretation of rapid paleoclimatic changes in the Antarctic realm, especially to understand the behaviour of the Ross Ice Shelf during the past million years, is one target of our study. The high-resolution data set of non-destructive XRF-core and colour scans make it possible to estimate environmental changes on small time scales that will be linked to climate changes. From the Late Pliocene a ... Conference Object Antarc* Antarctic Antarctica ice core Ice Shelf Ice Shelves McMurdo Sound Polarforschung Ross Ice Shelf Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
institution Open Polar
collection Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
op_collection_id ftawi
language unknown
description In Antarctica, the largest inland ice masses on Earth are stored. The growth and the retreat of ice sheets play a major role in the global ocean current system and climate. The melting and collapse of large ice shelves may cause a significant sea level rise, because of accelerated inland ice glacier surges into the ocean.The ANDRILL (Antarctic Geological Drilling) MIS deep drilling project (McMurdo Sound, NE Ross Ice Shelf, core AND-1B drilled during austral summer 2006/2007) is located in a flexural moat basin filled with glaciomarine, terrigenous, volcanic, and biogenic sediments. This basin contains a well-preserved, outstanding record of approximately 14 million years of paleoclimate history. For the first time, sediments beneath an ice shelf were drilled, which provides a unique opportunity to investigate the variability of the Ross Ice Shelf. The sediment core covers a time period much longer than any Antarctic ice core record.During the drilling phase, some major and minor chemical elements were measured directly on split cores using a non-destructive X-Ray Fluorescence Core Scanner method (XRF-CS). In addition, colour data were collected using an integrated Line Scan camera in the XRF-CS system and a Minolta 2002 handheld spectrophotometer. Furthermore wet chemical analysis like the investigation of TOC, biogenic opal, major and minor elements with ICP-MS and conventional XRF were done on core samples to contribute to the better understanding of geochemical sediment properties. Colour data will be correlated to the XRF-CS data to received more and higher resolved information about the sediment composition.The interpretation of rapid paleoclimatic changes in the Antarctic realm, especially to understand the behaviour of the Ross Ice Shelf during the past million years, is one target of our study. The high-resolution data set of non-destructive XRF-core and colour scans make it possible to estimate environmental changes on small time scales that will be linked to climate changes. From the Late Pliocene a ...
format Conference Object
author Helling, D.
Kuhn, Gerhard
von Eynatten, H.
spellingShingle Helling, D.
Kuhn, Gerhard
von Eynatten, H.
The Ross Ice Shelf dynamics during the Late Pliocene and the Early Pleistocene climate conditions warmer than today?
author_facet Helling, D.
Kuhn, Gerhard
von Eynatten, H.
author_sort Helling, D.
title The Ross Ice Shelf dynamics during the Late Pliocene and the Early Pleistocene climate conditions warmer than today?
title_short The Ross Ice Shelf dynamics during the Late Pliocene and the Early Pleistocene climate conditions warmer than today?
title_full The Ross Ice Shelf dynamics during the Late Pliocene and the Early Pleistocene climate conditions warmer than today?
title_fullStr The Ross Ice Shelf dynamics during the Late Pliocene and the Early Pleistocene climate conditions warmer than today?
title_full_unstemmed The Ross Ice Shelf dynamics during the Late Pliocene and the Early Pleistocene climate conditions warmer than today?
title_sort ross ice shelf dynamics during the late pliocene and the early pleistocene climate conditions warmer than today?
publishDate 2008
url https://epic.awi.de/id/eprint/18860/
https://hdl.handle.net/10013/epic.30538
genre Antarc*
Antarctic
Antarctica
ice core
Ice Shelf
Ice Shelves
McMurdo Sound
Polarforschung
Ross Ice Shelf
genre_facet Antarc*
Antarctic
Antarctica
ice core
Ice Shelf
Ice Shelves
McMurdo Sound
Polarforschung
Ross Ice Shelf
op_source EPIC323. internationale Polartagung der Dt. Gesellschaft für Polarforschung, 10.-14.März 2008, Münster.
op_relation Helling, D. , Kuhn, G. orcid:0000-0001-6069-7485 and von Eynatten, H. (2008) The Ross Ice Shelf dynamics during the Late Pliocene and the Early Pleistocene climate conditions warmer than today? , 23. internationale Polartagung der Dt. Gesellschaft für Polarforschung, 10.-14.März 2008, Münster. . hdl:10013/epic.30538
_version_ 1810493710798946304

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