Occurrence of ice-rafted erratics and the petrology of the KR1 seamount trail from the Australian–Antarctic Ridge

A multi-disciplinary study of the KR1 segment of the Australian–Antarctic Ridge has been conducted since 2011. We present geochemical and age dating results for samples dredged from three sites on the KR1 seamount trail. The majority of the samples are alkaline ocean island basalts with subdominant...

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Bibliographic Details
Main Authors: Sang-Bong Yi, Lee, Mi Jung, Park, Sung-Hyun, Seunghee Han, Yang, Yun Seok, Hakkyum Choi
Format: Dataset
Language:unknown
Published: Taylor & Francis 2018
Subjects:
Genetics
FOS Biological sciences
Molecular Biology
59999 Environmental Sciences not elsewhere classified
FOS Earth and related environmental sciences
39999 Chemical Sciences not elsewhere classified
FOS Chemical sciences
Ecology
69999 Biological Sciences not elsewhere classified
Marine Biology
Inorganic Chemistry
Antarctic
Australian Antarctic Ridge
Ross Sea
West Antarctica
Antarc*
Antarctica
Ocean Island
Online Access:https://dx.doi.org/10.6084/m9.figshare.7072871
https://tandf.figshare.com/articles/Occurrence_of_ice-rafted_erratics_and_the_petrology_of_the_KR1_seamount_trail_from_the_Australian_Antarctic_Ridge/7072871
Description
Summary:A multi-disciplinary study of the KR1 segment of the Australian–Antarctic Ridge has been conducted since 2011. We present geochemical and age dating results for samples dredged from three sites on the KR1 seamount trail. The majority of the samples are alkaline ocean island basalts with subdominant enriched tholeiites. The samples from the DG05 bathymetric depression include ice-rafted erratics from Antarctica, which consist of gabbro, diabase, various granitoids, volcanic rocks such as trachyte and rhyolite and deformed or undeformed sedimentary rocks. The main provenance of glacial erratics is considered to be the Ross Sea region. However, Carboniferous to Cretaceous ages of erratics indicate that some of these may originate from the western regions of West Antarctica. Based on the size and topography of the volcanic features and geochemical characteristics of the alkaline ocean island basalts (La/Sm N = 2.62–3.88; Tb/Yb N = 1.54–2.67) and the enriched tholeiites, the KR1 seamount trail is interpreted to be a submarine hotspot chain that is the product of alkaline volcanic eruption and seafloor spreading.

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