Zobrazeno 1 - 3
of 3
pro vyhledávání: '"Robert Nunny"'
Autor:
Peter J. Talling, Megan L. Baker, Ed L. Pope, Sean C. Ruffell, Ricardo Silva Jacinto, Maarten S. Heijnen, Sophie Hage, Stephen M. Simmons, Martin Hasenhündl, Catharina J. Heerema, Claire McGhee, Ronan Apprioual, Anthony Ferrant, Matthieu J. B. Cartigny, Daniel R. Parsons, Michael A. Clare, Raphael M. Tshimanga, Mark A. Trigg, Costa A. Cula, Rui Faria, Arnaud Gaillot, Gode Bola, Dec Wallance, Allan Griffiths, Robert Nunny, Morelia Urlaub, Christine Peirce, Richard Burnett, Jeffrey Neasham, Robert J. Hilton
Publikováno v:
Nature Communications, Vol 13, Iss 1, Pp 1-15 (2022)
This paper analyses the longest sediment flows measured in action on Earth. These seabed flows were caused by floods and spring tides, and flushed prodigious sediment and carbon volumes into the deep sea, as they accelerated for a thousand kilometres
Externí odkaz:
https://doaj.org/article/a2c09172229a4f8493f806598d4f127a
Autor:
Peter J. Talling, Megan L. Baker, Ed L. Pope, Sean C. Ruffell, Ricardo Silva Jacinto, Maarten S. Heijnen, Sophie Hage, Stephen M. Simmons, Martin Hasenhündl, Catharina J. Heerema, Claire McGhee, Ronan Apprioual, Anthony Ferrant, Matthieu J. B. Cartigny, Daniel R. Parsons, Michael A. Clare, Raphael M. Tshimanga, Mark A. Trigg, Costa A. Cula, Rui Faria, Arnaud Gaillot, Gode Bola, Dec Wallance, Allan Griffiths, Robert Nunny, Morelia Urlaub, Christine Peirce, Richard Burnett, Jeffrey Neasham, Robert J. Hilton
Publikováno v:
Nature communications, 2022, Vol.13(1), pp.4193 [Peer Reviewed Journal]
Nature Communications (2041-1723) (Springer Science and Business Media LLC), 2022-07, Vol. 13, N. 1, P. 4193 (15p.)
Nature Communications (2041-1723) (Springer Science and Business Media LLC), 2022-07, Vol. 13, N. 1, P. 4193 (15p.)
Here we show how major rivers can efficiently connect to the deep-sea, by analysing the longest runout sediment flows (of any type) yet measured in action on Earth. These seafloor turbidity currents originated from the Congo River-mouth, with one flo
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::efc3fb6728c7cd0a13fa6d49e86926cd
https://ora.ox.ac.uk/objects/uuid:232d7991-11fc-4595-b02a-c176cb081ef5
https://ora.ox.ac.uk/objects/uuid:232d7991-11fc-4595-b02a-c176cb081ef5
Autor:
Peter J. Talling, Claire McGee, Laldemira Nambala, Mark A. Trigg, Sean Ruffell, Costa A Cula, Ed Pope, Arnaud Gaillot, Ronan Apprioual, Morelia Urlaub, Michael A. Clare, Dec Wallace, Raphael Tshimanga, S. Simmons, Daniel R. Parsons, Maarten Heijnen, Sophie Hage, Matthieu J.B. Cartigny, Martin Hasenhündl, Rick Robertson, Allan Griffiths, C. Heerema, Meg Baker, Rui Faria, G Bola, Ricardo Silva Jacinto, Robert Nunny
Publikováno v:
(Submitted) EarthArXiv .
Seabed telecommunication cables can be damaged or broken by powerful seafloor flows of sediment (called turbidity currents), which may runout for hundreds of kilometres into the deep ocean. These flows have the potential to affect multiple cables nea
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::4a23ac697978f06dfa94bf817147f068