Climate-controlled submarine landslides on the Antarctic continental margin

Antarctica’s continental margins pose an unknown submarine landslide-generated tsunami risk to Southern Hemisphere populations and infrastructure. Understanding the factors driving slope failure is essential to assessing future geohazards. Here, we present a multidisciplinary study of a major submar...

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Main Authors:	Gales, Jenny A., McKay, Robert M., De Santis, Laura, Rebesco, Michele, Laberg, Jan Sverre, Shevenell, Amelia E., Harwood, David M., Leckie, R. Mark, Kulhanek, Denise K., King, Maxine, Patterson, Molly, Lucchi, Renata G., Kim, Sookwan, Kim, Sunghan, Dodd, Justin, Seidenstein, Julia, Prunella, Catherine, Ferrante, Giulia M., IODP Expedition 374 Scientists
Other Authors:	Marine palynology and palaeoceanography, Marine Palynology
Format:	Article in Journal/Newspaper
Language:	English
Published:	2023
Subjects:	Ice-sheet sensitivity Debris flow deposits Ross sea Slope stability Pliocene Tsunami West Contourites Peninsula Level Physics and Astronomy(all) Chemistry(all) Biochemistry Genetics and Molecular Biology(all) Antarctic Ross Sea The Antarctic Antarc* Antarctica Ice Sheet
Online Access:	https://dspace.library.uu.nl/handle/1874/428872

id	ftunivutrecht:oai:dspace.library.uu.nl:1874/428872
record_format	openpolar
spelling	ftunivutrecht:oai:dspace.library.uu.nl:1874/428872 2023-11-12T04:03:22+01:00 Climate-controlled submarine landslides on the Antarctic continental margin Gales, Jenny A. McKay, Robert M. De Santis, Laura Rebesco, Michele Laberg, Jan Sverre Shevenell, Amelia E. Harwood, David M. Leckie, R. Mark Kulhanek, Denise K. King, Maxine Patterson, Molly Lucchi, Renata G. Kim, Sookwan Kim, Sunghan Dodd, Justin Seidenstein, Julia Prunella, Catherine Ferrante, Giulia M. IODP Expedition 374 Scientists Marine palynology and palaeoceanography Marine Palynology 2023-05-18 application/pdf https://dspace.library.uu.nl/handle/1874/428872 en eng 2041-1723 https://dspace.library.uu.nl/handle/1874/428872 info:eu-repo/semantics/OpenAccess Ice-sheet sensitivity Debris flow deposits Ross sea Slope stability Pliocene Tsunami West Contourites Peninsula Level Physics and Astronomy(all) Chemistry(all) Biochemistry Genetics and Molecular Biology(all) Article 2023 ftunivutrecht 2023-11-01T23:30:33Z Antarctica’s continental margins pose an unknown submarine landslide-generated tsunami risk to Southern Hemisphere populations and infrastructure. Understanding the factors driving slope failure is essential to assessing future geohazards. Here, we present a multidisciplinary study of a major submarine landslide complex along the eastern Ross Sea continental slope (Antarctica) that identifies preconditioning factors and failure mechanisms. Weak layers, identified beneath three submarine landslides, consist of distinct packages of interbedded Miocene- to Pliocene-age diatom oozes and glaciomarine diamicts. The observed lithological differences, which arise from glacial to interglacial variations in biological productivity, ice proximity, and ocean circulation, caused changes in sediment deposition that inherently preconditioned slope failure. These recurrent Antarctic submarine landslides were likely triggered by seismicity associated with glacioisostatic readjustment, leading to failure within the preconditioned weak layers. Ongoing climate warming and ice retreat may increase regional glacioisostatic seismicity, triggering Antarctic submarine landslides. Article in Journal/Newspaper Antarc* Antarctic Antarctica Ice Sheet Ross Sea Utrecht University Repository Antarctic Ross Sea The Antarctic
institution	Open Polar
collection	Utrecht University Repository
op_collection_id	ftunivutrecht
language	English
topic	Ice-sheet sensitivity Debris flow deposits Ross sea Slope stability Pliocene Tsunami West Contourites Peninsula Level Physics and Astronomy(all) Chemistry(all) Biochemistry Genetics and Molecular Biology(all)
spellingShingle	Ice-sheet sensitivity Debris flow deposits Ross sea Slope stability Pliocene Tsunami West Contourites Peninsula Level Physics and Astronomy(all) Chemistry(all) Biochemistry Genetics and Molecular Biology(all) Gales, Jenny A. McKay, Robert M. De Santis, Laura Rebesco, Michele Laberg, Jan Sverre Shevenell, Amelia E. Harwood, David M. Leckie, R. Mark Kulhanek, Denise K. King, Maxine Patterson, Molly Lucchi, Renata G. Kim, Sookwan Kim, Sunghan Dodd, Justin Seidenstein, Julia Prunella, Catherine Ferrante, Giulia M. IODP Expedition 374 Scientists Climate-controlled submarine landslides on the Antarctic continental margin
topic_facet	Ice-sheet sensitivity Debris flow deposits Ross sea Slope stability Pliocene Tsunami West Contourites Peninsula Level Physics and Astronomy(all) Chemistry(all) Biochemistry Genetics and Molecular Biology(all)
description	Antarctica’s continental margins pose an unknown submarine landslide-generated tsunami risk to Southern Hemisphere populations and infrastructure. Understanding the factors driving slope failure is essential to assessing future geohazards. Here, we present a multidisciplinary study of a major submarine landslide complex along the eastern Ross Sea continental slope (Antarctica) that identifies preconditioning factors and failure mechanisms. Weak layers, identified beneath three submarine landslides, consist of distinct packages of interbedded Miocene- to Pliocene-age diatom oozes and glaciomarine diamicts. The observed lithological differences, which arise from glacial to interglacial variations in biological productivity, ice proximity, and ocean circulation, caused changes in sediment deposition that inherently preconditioned slope failure. These recurrent Antarctic submarine landslides were likely triggered by seismicity associated with glacioisostatic readjustment, leading to failure within the preconditioned weak layers. Ongoing climate warming and ice retreat may increase regional glacioisostatic seismicity, triggering Antarctic submarine landslides.
author2	Marine palynology and palaeoceanography Marine Palynology
format	Article in Journal/Newspaper
author	Gales, Jenny A. McKay, Robert M. De Santis, Laura Rebesco, Michele Laberg, Jan Sverre Shevenell, Amelia E. Harwood, David M. Leckie, R. Mark Kulhanek, Denise K. King, Maxine Patterson, Molly Lucchi, Renata G. Kim, Sookwan Kim, Sunghan Dodd, Justin Seidenstein, Julia Prunella, Catherine Ferrante, Giulia M. IODP Expedition 374 Scientists
author_facet	Gales, Jenny A. McKay, Robert M. De Santis, Laura Rebesco, Michele Laberg, Jan Sverre Shevenell, Amelia E. Harwood, David M. Leckie, R. Mark Kulhanek, Denise K. King, Maxine Patterson, Molly Lucchi, Renata G. Kim, Sookwan Kim, Sunghan Dodd, Justin Seidenstein, Julia Prunella, Catherine Ferrante, Giulia M. IODP Expedition 374 Scientists
author_sort	Gales, Jenny A.
title	Climate-controlled submarine landslides on the Antarctic continental margin
title_short	Climate-controlled submarine landslides on the Antarctic continental margin
title_full	Climate-controlled submarine landslides on the Antarctic continental margin
title_fullStr	Climate-controlled submarine landslides on the Antarctic continental margin
title_full_unstemmed	Climate-controlled submarine landslides on the Antarctic continental margin
title_sort	climate-controlled submarine landslides on the antarctic continental margin
publishDate	2023
url	https://dspace.library.uu.nl/handle/1874/428872
geographic	Antarctic Ross Sea The Antarctic
geographic_facet	Antarctic Ross Sea The Antarctic
genre	Antarc* Antarctic Antarctica Ice Sheet Ross Sea
genre_facet	Antarc* Antarctic Antarctica Ice Sheet Ross Sea
op_relation	2041-1723 https://dspace.library.uu.nl/handle/1874/428872
op_rights	info:eu-repo/semantics/OpenAccess
_version_	1782337063003095040

Climate-controlled submarine landslides on the Antarctic continental margin

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