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Seafloor mapping: The challenge of a truly global ocean bathymetry

Seafloor mapping: The challenge of a truly global ocean bathymetry
Seafloor mapping: The challenge of a truly global ocean bathymetry
Detailed knowledge of the shape of the seafloor is crucial to humankind. Bathymetry data is critical for safety of navigation and is used for many other applications. In an era of ongoing environmental degradation worldwide, bathymetry data (and the knowledge derived from it) play a pivotal role in using and managing the world’s oceans in a way that is in accordance with the United Nations Sustainable Development Goal 14 – conserve and sustainably use the oceans, seas and marine resources for sustainable development. However, the vast majority of our oceans is still virtually unmapped, unobserved, and unexplored. Only a small fraction of the seafloor has been systematically mapped by direct measurement. The remaining bathymetry is predicted from satellite altimeter data, providing only an approximate estimation of the shape of the seafloor. Several global and regional initiatives are underway to change this situation. This paper presents a selection of these initiatives as best practice examples for bathymetry data collection, compilation and open data sharing as well as the Nippon Foundation-GEBCO (The General Bathymetric Chart of the Oceans) Seabed 2030 Project that complements and leverages these initiatives and promotes international collaboration and partnership. Several non-traditional data collection opportunities are looked at that are currently gaining momentum as well as new and innovative technologies that can increase the efficiency of collecting bathymetric data. Finally, recommendations are given toward a possible way forward into the future of seafloor mapping and toward achieving the goal of a truly global ocean bathymetry.
2296-7745
Wölfl, Anne-cathrin
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Snaith, Helen
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Amirebrahimi, Sam
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Devey, Colin W.
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Dorschel, Boris
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Ferrini, Vicki
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Huvenne, Veerle A. I.
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Jakobsson, Martin
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Jencks, Jennifer
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Johnston, Gordon
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Lamarche, Geoffroy
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Mayer, Larry
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Millar, David
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Pedersen, Terje Haga
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Picard, Kim
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Reitz, Anja
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Schmitt, Thierry
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Visbeck, Martin
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Weatherall, Pauline
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Wigley, Rochelle
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Wölfl, Anne-cathrin
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Snaith, Helen
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Amirebrahimi, Sam
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Devey, Colin W.
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Dorschel, Boris
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Ferrini, Vicki
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Huvenne, Veerle A. I.
f22be3e2-708c-491b-b985-a438470fa053
Jakobsson, Martin
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Jencks, Jennifer
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Johnston, Gordon
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Lamarche, Geoffroy
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Mayer, Larry
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Millar, David
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Pedersen, Terje Haga
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Picard, Kim
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Reitz, Anja
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Schmitt, Thierry
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Visbeck, Martin
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Weatherall, Pauline
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Wigley, Rochelle
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Wölfl, Anne-cathrin, Snaith, Helen, Amirebrahimi, Sam, Devey, Colin W., Dorschel, Boris, Ferrini, Vicki, Huvenne, Veerle A. I., Jakobsson, Martin, Jencks, Jennifer, Johnston, Gordon, Lamarche, Geoffroy, Mayer, Larry, Millar, David, Pedersen, Terje Haga, Picard, Kim, Reitz, Anja, Schmitt, Thierry, Visbeck, Martin, Weatherall, Pauline and Wigley, Rochelle (2019) Seafloor mapping: The challenge of a truly global ocean bathymetry. Frontiers in Marine Science, 6. (doi:10.3389/fmars.2019.00283).

Record type: Article

Abstract

Detailed knowledge of the shape of the seafloor is crucial to humankind. Bathymetry data is critical for safety of navigation and is used for many other applications. In an era of ongoing environmental degradation worldwide, bathymetry data (and the knowledge derived from it) play a pivotal role in using and managing the world’s oceans in a way that is in accordance with the United Nations Sustainable Development Goal 14 – conserve and sustainably use the oceans, seas and marine resources for sustainable development. However, the vast majority of our oceans is still virtually unmapped, unobserved, and unexplored. Only a small fraction of the seafloor has been systematically mapped by direct measurement. The remaining bathymetry is predicted from satellite altimeter data, providing only an approximate estimation of the shape of the seafloor. Several global and regional initiatives are underway to change this situation. This paper presents a selection of these initiatives as best practice examples for bathymetry data collection, compilation and open data sharing as well as the Nippon Foundation-GEBCO (The General Bathymetric Chart of the Oceans) Seabed 2030 Project that complements and leverages these initiatives and promotes international collaboration and partnership. Several non-traditional data collection opportunities are looked at that are currently gaining momentum as well as new and innovative technologies that can increase the efficiency of collecting bathymetric data. Finally, recommendations are given toward a possible way forward into the future of seafloor mapping and toward achieving the goal of a truly global ocean bathymetry.

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fmars-06-00283 (1) - Version of Record
Available under License Creative Commons Attribution.
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Accepted/In Press date: 15 May 2019
Published date: 5 June 2019
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Identifiers

Local EPrints ID: 433210
URI: http://eprints.soton.ac.uk/id/eprint/433210
DOI: doi:10.3389/fmars.2019.00283
ISSN: 2296-7745
PURE UUID: 6b754c3a-9190-421e-be23-faa77f303363
ORCID for Veerle A. I. Huvenne: ORCID iD orcid.org/0000-0001-7135-6360

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Date deposited: 12 Aug 2019 16:30
Last modified: 16 Mar 2024 03:38

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Contributors

Author: Anne-cathrin Wölfl
Author: Helen Snaith
Author: Sam Amirebrahimi
Author: Colin W. Devey
Author: Boris Dorschel
Author: Vicki Ferrini
Author: Veerle A. I. Huvenne ORCID iD
Author: Martin Jakobsson
Author: Jennifer Jencks
Author: Gordon Johnston
Author: Geoffroy Lamarche
Author: Larry Mayer
Author: David Millar
Author: Terje Haga Pedersen
Author: Kim Picard
Author: Anja Reitz
Author: Thierry Schmitt
Author: Martin Visbeck
Author: Pauline Weatherall
Author: Rochelle Wigley

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