Miocene ice sheet dynamics and sediment deposition in the central Ross Sea, Antarctica

Robert McKay; Jay Cockrell; Amelia E. Shevenell; Jan Sverre Laberg; Julianne Burns; Molly Patterson; Sunghan Kim; Tim Naish; David Harwood; Richard Levy; James Marschalek; Tina van de Flierdt; Saki Ishino; Benjamin Keisling; Isabel Moreno Cordeiro de Sousa; Giuseppe Cortese; Francesca Sangiorgi; R. Mark Leckie; Justin Dodd; Bella Duncan; Lara F. Pérez; Brian W. Romans; Sookwan Kim; Samantha Bombard; Imogen Browne; Tim van Peer; Osamu Seki; Florence Colleoni; Denise Kulhanek; Laura De Santis; IODP Expedition 374 Science Team

doi:10.1130/B37613.1

Miocene ice sheet dynamics and sediment deposition in the central Ross Sea, Antarctica

Robert McKay, Jay Cockrell, Amelia E. Shevenell, Jan Sverre Laberg, Julianne Burns, Molly Patterson, Sunghan Kim, Tim Naish, David Harwood, Richard Levy, James Marschalek, Tina van de Flierdt, Saki Ishino, Benjamin Keisling, Isabel Moreno Cordeiro de Sousa, Giuseppe Cortese, Francesca Sangiorgi, R. Mark Leckie, Justin Dodd, Bella DuncanLara F. Pérez, Brian W. Romans, Sookwan Kim, Samantha Bombard, Imogen Browne, Tim van Peer, Osamu Seki, Florence Colleoni, Denise Kulhanek, Laura De Santis, IODP Expedition 374 Science Team

Overfladenær Land- og Maringeologi

Publikation: Bidrag til tidsskrift › Artikel › Forskning › peer review

2 Citationer (Scopus)

Resumé

Drill cores from the Antarctic continental shelf are essential for directly constraining changes in past Antarctic Ice Sheet extent. Here, we provide a sedimentary facies analysis of drill cores from International Ocean Discovery Program (IODP) Site U1521 in the Ross Sea, which reveals a unique, detailed snapshot of Antarctic Ice Sheet evolution between ca. 18 Ma and 13 Ma. We identify distinct depositional packages, each of which contains facies successions that are reflective of past baseline shifts in the presence or absence of marine-terminating ice sheets on the outermost Ross Sea continental shelf. The oldest depositional package (>18 Ma) contains massive diamictites stacked through aggradation and deposited in a deep, actively subsiding basin that restricted marine ice sheet expansion on the outer continental shelf. A slowdown in tectonic subsidence after 17.8 Ma led to the deposition of progradational massive diamictites with thin mudstone beds/laminae, as several large marine-based ice sheet advances expanded onto the mid- to outer continental shelf between 17.8 Ma and 17.4 Ma. Between 17.2 Ma and 15.95 Ma, packages of interbedded diamictite and diatom-rich mudstone were deposited during a phase of highly variable Antarctic Ice Sheet extent and volume. This included periods of Antarctic Ice Sheet advance near the outer shelf during the early Miocene Climate Optimum (MCO)—despite this being a well-known period of peak global warmth between ca. 17.0 Ma and 14.6 Ma. Conversely, there were periods of peak warmth within the MCO during which diatom-rich mudstones with little to no ice-rafted debris were deposited, which indicates that the Antarctic Ice Sheet was greatly reduced in extent and had retreated to a smaller terrestrial-terminating ice sheet, most notably between 16.3 Ma and 15.95 Ma. Post-14.2

Originalsprog	Engelsk
Sider (fra-til)	1267-1291
Antal sider	25
Tidsskrift	Bulletin of the Geological Society of America
Vol/bind	137
Udgave nummer	3-4
DOI	https://doi.org/10.1130/B37613.1
Status	Udgivet - 2025

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Programområde 5: Natur og klima

FN’s Verdensmål

Dette resultat bidrager til følgende verdensmål

Adgang til dokumentet

10.1130/B37613.1Licens: CC BY

Citationsformater

McKay, R., Cockrell, J., Shevenell, A. E., Laberg, J. S., Burns, J., Patterson, M., Kim, S., Naish, T., Harwood, D., Levy, R., Marschalek, J., van de Flierdt, T., Ishino, S., Keisling, B., de Sousa, I. M. C., Cortese, G., Sangiorgi, F., Leckie, R. M., Dodd, J., ... IODP Expedition 374 Science Team (2025). Miocene ice sheet dynamics and sediment deposition in the central Ross Sea, Antarctica. Bulletin of the Geological Society of America, 137(3-4), 1267-1291. https://doi.org/10.1130/B37613.1

@article{15f61caba04442cc8135564652c42fc1,

title = "Miocene ice sheet dynamics and sediment deposition in the central Ross Sea, Antarctica",

abstract = "Drill cores from the Antarctic continental shelf are essential for directly constraining changes in past Antarctic Ice Sheet extent. Here, we provide a sedimentary facies analysis of drill cores from International Ocean Discovery Program (IODP) Site U1521 in the Ross Sea, which reveals a unique, detailed snapshot of Antarctic Ice Sheet evolution between ca. 18 Ma and 13 Ma. We identify distinct depositional packages, each of which contains facies successions that are reflective of past baseline shifts in the presence or absence of marine-terminating ice sheets on the outermost Ross Sea continental shelf. The oldest depositional package (>18 Ma) contains massive diamictites stacked through aggradation and deposited in a deep, actively subsiding basin that restricted marine ice sheet expansion on the outer continental shelf. A slowdown in tectonic subsidence after 17.8 Ma led to the deposition of progradational massive diamictites with thin mudstone beds/laminae, as several large marine-based ice sheet advances expanded onto the mid- to outer continental shelf between 17.8 Ma and 17.4 Ma. Between 17.2 Ma and 15.95 Ma, packages of interbedded diamictite and diatom-rich mudstone were deposited during a phase of highly variable Antarctic Ice Sheet extent and volume. This included periods of Antarctic Ice Sheet advance near the outer shelf during the early Miocene Climate Optimum (MCO)—despite this being a well-known period of peak global warmth between ca. 17.0 Ma and 14.6 Ma. Conversely, there were periods of peak warmth within the MCO during which diatom-rich mudstones with little to no ice-rafted debris were deposited, which indicates that the Antarctic Ice Sheet was greatly reduced in extent and had retreated to a smaller terrestrial-terminating ice sheet, most notably between 16.3 Ma and 15.95 Ma. Post-14.2",

author = "Robert McKay and Jay Cockrell and Shevenell, {Amelia E.} and Laberg, {Jan Sverre} and Julianne Burns and Molly Patterson and Sunghan Kim and Tim Naish and David Harwood and Richard Levy and James Marschalek and {van de Flierdt}, Tina and Saki Ishino and Benjamin Keisling and {de Sousa}, {Isabel Moreno Cordeiro} and Giuseppe Cortese and Francesca Sangiorgi and Leckie, {R. Mark} and Justin Dodd and Bella Duncan and P{\'e}rez, {Lara F.} and Romans, {Brian W.} and Sookwan Kim and Samantha Bombard and Imogen Browne and {van Peer}, Tim and Osamu Seki and Florence Colleoni and Denise Kulhanek and {De Santis}, Laura and {IODP Expedition 374 Science Team}",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors.",

year = "2025",

doi = "10.1130/B37613.1",

language = "English",

volume = "137",

pages = "1267--1291",

journal = "Bulletin of the Geological Society of America",

issn = "0016-7606",

publisher = "Geological Society of America",

number = "3-4",

}

McKay, R, Cockrell, J, Shevenell, AE, Laberg, JS, Burns, J, Patterson, M, Kim, S, Naish, T, Harwood, D, Levy, R, Marschalek, J, van de Flierdt, T, Ishino, S, Keisling, B, de Sousa, IMC, Cortese, G, Sangiorgi, F, Leckie, RM, Dodd, J, Duncan, B, Pérez, LF, Romans, BW, Kim, S, Bombard, S, Browne, I, van Peer, T, Seki, O, Colleoni, F, Kulhanek, D, De Santis, L & IODP Expedition 374 Science Team 2025, 'Miocene ice sheet dynamics and sediment deposition in the central Ross Sea, Antarctica', Bulletin of the Geological Society of America, bind 137, nr. 3-4, s. 1267-1291. https://doi.org/10.1130/B37613.1

TY - JOUR

T1 - Miocene ice sheet dynamics and sediment deposition in the central Ross Sea, Antarctica

AU - McKay, Robert

AU - Cockrell, Jay

AU - Shevenell, Amelia E.

AU - Laberg, Jan Sverre

AU - Burns, Julianne

AU - Patterson, Molly

AU - Kim, Sunghan

AU - Naish, Tim

AU - Harwood, David

AU - Levy, Richard

AU - Marschalek, James

AU - van de Flierdt, Tina

AU - Ishino, Saki

AU - Keisling, Benjamin

AU - de Sousa, Isabel Moreno Cordeiro

AU - Cortese, Giuseppe

AU - Sangiorgi, Francesca

AU - Leckie, R. Mark

AU - Dodd, Justin

AU - Duncan, Bella

AU - Pérez, Lara F.

AU - Romans, Brian W.

AU - Kim, Sookwan

AU - Bombard, Samantha

AU - Browne, Imogen

AU - van Peer, Tim

AU - Seki, Osamu

AU - Colleoni, Florence

AU - Kulhanek, Denise

AU - De Santis, Laura

AU - IODP Expedition 374 Science Team

PY - 2025

Y1 - 2025

N2 - Drill cores from the Antarctic continental shelf are essential for directly constraining changes in past Antarctic Ice Sheet extent. Here, we provide a sedimentary facies analysis of drill cores from International Ocean Discovery Program (IODP) Site U1521 in the Ross Sea, which reveals a unique, detailed snapshot of Antarctic Ice Sheet evolution between ca. 18 Ma and 13 Ma. We identify distinct depositional packages, each of which contains facies successions that are reflective of past baseline shifts in the presence or absence of marine-terminating ice sheets on the outermost Ross Sea continental shelf. The oldest depositional package (>18 Ma) contains massive diamictites stacked through aggradation and deposited in a deep, actively subsiding basin that restricted marine ice sheet expansion on the outer continental shelf. A slowdown in tectonic subsidence after 17.8 Ma led to the deposition of progradational massive diamictites with thin mudstone beds/laminae, as several large marine-based ice sheet advances expanded onto the mid- to outer continental shelf between 17.8 Ma and 17.4 Ma. Between 17.2 Ma and 15.95 Ma, packages of interbedded diamictite and diatom-rich mudstone were deposited during a phase of highly variable Antarctic Ice Sheet extent and volume. This included periods of Antarctic Ice Sheet advance near the outer shelf during the early Miocene Climate Optimum (MCO)—despite this being a well-known period of peak global warmth between ca. 17.0 Ma and 14.6 Ma. Conversely, there were periods of peak warmth within the MCO during which diatom-rich mudstones with little to no ice-rafted debris were deposited, which indicates that the Antarctic Ice Sheet was greatly reduced in extent and had retreated to a smaller terrestrial-terminating ice sheet, most notably between 16.3 Ma and 15.95 Ma. Post-14.2

AB - Drill cores from the Antarctic continental shelf are essential for directly constraining changes in past Antarctic Ice Sheet extent. Here, we provide a sedimentary facies analysis of drill cores from International Ocean Discovery Program (IODP) Site U1521 in the Ross Sea, which reveals a unique, detailed snapshot of Antarctic Ice Sheet evolution between ca. 18 Ma and 13 Ma. We identify distinct depositional packages, each of which contains facies successions that are reflective of past baseline shifts in the presence or absence of marine-terminating ice sheets on the outermost Ross Sea continental shelf. The oldest depositional package (>18 Ma) contains massive diamictites stacked through aggradation and deposited in a deep, actively subsiding basin that restricted marine ice sheet expansion on the outer continental shelf. A slowdown in tectonic subsidence after 17.8 Ma led to the deposition of progradational massive diamictites with thin mudstone beds/laminae, as several large marine-based ice sheet advances expanded onto the mid- to outer continental shelf between 17.8 Ma and 17.4 Ma. Between 17.2 Ma and 15.95 Ma, packages of interbedded diamictite and diatom-rich mudstone were deposited during a phase of highly variable Antarctic Ice Sheet extent and volume. This included periods of Antarctic Ice Sheet advance near the outer shelf during the early Miocene Climate Optimum (MCO)—despite this being a well-known period of peak global warmth between ca. 17.0 Ma and 14.6 Ma. Conversely, there were periods of peak warmth within the MCO during which diatom-rich mudstones with little to no ice-rafted debris were deposited, which indicates that the Antarctic Ice Sheet was greatly reduced in extent and had retreated to a smaller terrestrial-terminating ice sheet, most notably between 16.3 Ma and 15.95 Ma. Post-14.2

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U2 - 10.1130/B37613.1

DO - 10.1130/B37613.1

M3 - Article

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SN - 0016-7606

VL - 137

SP - 1267

EP - 1291

JO - Bulletin of the Geological Society of America

JF - Bulletin of the Geological Society of America

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ER -

Miocene ice sheet dynamics and sediment deposition in the central Ross Sea, Antarctica

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