J
James E. Hunt
Researcher at National Oceanography Centre, Southampton
Publications - 50
Citations - 2000
James E. Hunt is an academic researcher from National Oceanography Centre, Southampton. The author has contributed to research in topics: Submarine landslide & Turbidity current. The author has an hindex of 20, co-authored 45 publications receiving 1474 citations. Previous affiliations of James E. Hunt include National Oceanography Centre & University of Southampton.
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Journal ArticleDOI
Autonomous Underwater Vehicles (AUVs): Their past, present and future contributions to the advancement of marine geoscience
Russell B. Wynn,Veerle A.I. Huvenne,Tim Le Bas,Bramley J. Murton,Douglas P. Connelly,Brian J. Bett,Henry A. Ruhl,Kirsty J. Morris,Jeff Peakall,Daniel R. Parsons,Esther J. Sumner,Stephen E. Darby,Robert M. Dorrell,James E. Hunt +13 more
TL;DR: Autonomous Underwater Vehicles (AUVs) have a wide range of applications in marine geoscience, and are increasingly being used in the scientific, military, commercial, and policy sectors as mentioned in this paper.
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Large Submarine Landslides on Continental Slopes: Geohazards, Methane Release, and Climate Change
TL;DR: However, the available evidence indicates that landslide occurrence is either weakly (or not) linked to changes in sea level or atmospheric methane abundance, or the available dates for open continental slope landslides are too imprecise to tell as discussed by the authors.
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Sedimentological and geochemical evidence for multistage failure of volcanic island landslides: A case study from Icod landslide on north Tenerife, Canary Islands
James E. Hunt,James E. Hunt,Russell B. Wynn,Douglas G. Masson,Peter J. Talling,Damon A. H. Teagle +5 more
TL;DR: In this article, the Icod turbidite architecture displays a stacked sequence of seven normally graded sand and mud intervals (named subunits SBU1-7), and the presence of thin, non-bioturbated, mud intervals between subunit sands suggests a likely time interval between each stage of failure.
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The flows that left no trace: Very large-volume turbidity currents that bypassed sediment through submarine channels without eroding the sea floor
Christopher J. Stevenson,Peter J. Talling,Russell B. Wynn,Douglas G. Masson,James E. Hunt,Michael Frenz,Andrey Akhmetzhanhov,Bryan T. Cronin +7 more
TL;DR: A detailed examination of the Madeira Channel System, offshore northwest Africa, using shallow seismic profiles, swath bathymetric data and a suite of sediment cores is presented in this article.
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How to recognize crescentic bedforms formed by supercritical turbidity currents in the geologic record: insights from active submarine channels
Sophie Hage,Sophie Hage,Matthieu J.B. Cartigny,Michael A. Clare,Esther J. Sumner,Daniela Vendettuoli,Daniela Vendettuoli,John E. Hughes Clarke,Stephen M. Hubbard,Peter J. Talling,D. Gwyn Lintern,Cooper Stacey,Rebecca G. Englert,Mark E. Vardy,James E. Hunt,Miwa Yokokawa,Daniel R. Parsons,J. L. Hizzett,J. L. Hizzett,Maria Azpiroz-Zabala,Maria Azpiroz-Zabala,Age Vellinga,Age Vellinga +22 more
TL;DR: In this paper, the authors presented the most detailed study yet that combines direct flow observations, time-lapse seabed mapping, and sediment cores, thus providing the link from flow process to depositional product.