Ocean Data Product Integration Through Innovation-The Next Level of Data Interoperability

Ocean Data Product Integration Through Innovation-The Next Level of Data Interoperability

In the next decade the pressures on ocean systems and the communities that rely on them will increase along with impacts from the multiple stressors of climate change and human activities. Our ability to manage and sustain our oceans will depend on the data we collect and the information and knowled...

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Main Authors: Justin J. H. Buck, Scott J. Bainbridge, Eugene F. Burger, Alexandra C. Kraberg, Matthew Casari, Kenneth S. Casey, Louise Darroch, Joaquin Del Rio, Katja Metfies, Eric Delory, Philipp F. Fischer, Thomas Gardner, Ryan Heffernan, Simon Jirka, Alexandra Kokkinaki, Martina Loebl, Pier Luigi Buttigieg, Jay S. Pearlman, Ingo Schewe
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-02-01
Series:Frontiers in Marine Science
Subjects:
data standards
data democratization
end user engagement
data innovation
data integrity
Online Access:https://www.frontiersin.org/article/10.3389/fmars.2019.00032/full
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author Justin J. H. Buck
Scott J. Bainbridge
Eugene F. Burger
Alexandra C. Kraberg
Matthew Casari
Kenneth S. Casey
Louise Darroch
Joaquin Del Rio
Katja Metfies
Eric Delory
Philipp F. Fischer
Thomas Gardner
Ryan Heffernan
Simon Jirka
Alexandra Kokkinaki
Martina Loebl
Pier Luigi Buttigieg
Jay S. Pearlman
Ingo Schewe
spellingShingle Justin J. H. Buck
Scott J. Bainbridge
Eugene F. Burger
Alexandra C. Kraberg
Matthew Casari
Kenneth S. Casey
Louise Darroch
Joaquin Del Rio
Katja Metfies
Eric Delory
Philipp F. Fischer
Thomas Gardner
Ryan Heffernan
Simon Jirka
Alexandra Kokkinaki
Martina Loebl
Pier Luigi Buttigieg
Jay S. Pearlman
Ingo Schewe
Ocean Data Product Integration Through Innovation-The Next Level of Data Interoperability
Frontiers in Marine Science
data standards
data democratization
end user engagement
data innovation
data integrity
author_facet Justin J. H. Buck
Scott J. Bainbridge
Eugene F. Burger
Alexandra C. Kraberg
Matthew Casari
Kenneth S. Casey
Louise Darroch
Joaquin Del Rio
Katja Metfies
Eric Delory
Philipp F. Fischer
Thomas Gardner
Ryan Heffernan
Simon Jirka
Alexandra Kokkinaki
Martina Loebl
Pier Luigi Buttigieg
Jay S. Pearlman
Ingo Schewe
author_sort Justin J. H. Buck
title Ocean Data Product Integration Through Innovation-The Next Level of Data Interoperability
title_short Ocean Data Product Integration Through Innovation-The Next Level of Data Interoperability
title_full Ocean Data Product Integration Through Innovation-The Next Level of Data Interoperability
title_fullStr Ocean Data Product Integration Through Innovation-The Next Level of Data Interoperability
title_full_unstemmed Ocean Data Product Integration Through Innovation-The Next Level of Data Interoperability
title_sort ocean data product integration through innovation-the next level of data interoperability
publisher Frontiers Media S.A.
series Frontiers in Marine Science
issn 2296-7745
publishDate 2019-02-01
description In the next decade the pressures on ocean systems and the communities that rely on them will increase along with impacts from the multiple stressors of climate change and human activities. Our ability to manage and sustain our oceans will depend on the data we collect and the information and knowledge derived from it. Much of the uptake of this knowledge will be outside the ocean domain, for example by policy makers, local Governments, custodians, and other organizations, so it is imperative that we democratize or open the access and use of ocean data. This paper looks at how technologies, scoped by standards, best practice and communities of practice, can be deployed to change the way that ocean data is accessed, utilized, augmented and transformed into information and knowledge. The current portal-download model which requires the user to know what data exists, where it is stored, in what format and with what processing, limits the uptake and use of ocean data. Using examples from a range of disciplines, a web services model of data and information flows is presented. A framework is described, including the systems, processes and human components, which delivers a radical rethink about the delivery of knowledge from ocean data. A series of statements describe parts of the future vision along with recommendations about how this may be achieved. The paper recommends the development of virtual test-beds for end-to-end development of new data workflows and knowledge pathways. This supports the continued development, rationalization and uptake of standards, creates a platform around which a community of practice can be developed, promotes cross discipline engagement from ocean science through to ocean policy, allows for the commercial sector, including the informatics sector, to partner in delivering outcomes and provides a focus to leverage long term sustained funding. The next 10 years will be “make or break” for many ocean systems. The decadal challenge is to develop the governance and co-operative mechanisms to harness emerging information technology to deliver on the goal of generating the information and knowledge required to sustain oceans into the future.
topic data standards
data democratization
end user engagement
data innovation
data integrity
url https://www.frontiersin.org/article/10.3389/fmars.2019.00032/full
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spelling doaj-e832713699524909b476a4f6fb2d841a2020-11-24T21:55:25ZengFrontiers Media S.A.Frontiers in Marine Science2296-77452019-02-01610.3389/fmars.2019.00032433958Ocean Data Product Integration Through Innovation-The Next Level of Data InteroperabilityJustin J. H. Buck0Scott J. Bainbridge1Eugene F. Burger2Alexandra C. Kraberg3Matthew Casari4Kenneth S. Casey5Louise Darroch6Joaquin Del Rio7Katja Metfies8Eric Delory9Philipp F. Fischer10Thomas Gardner11Ryan Heffernan12Simon Jirka13Alexandra Kokkinaki14Martina Loebl15Pier Luigi Buttigieg16Jay S. Pearlman17Ingo Schewe18National Oceanography Centre, Liverpool, United KingdomAustralian Institute of Marine Science, Townsville, QLD, AustraliaPacific Marine Environmental Laboratory, Office of Oceanic and Atmospheric Research, National Oceanic and Atmospheric Administration, Seattle, WA, United StatesAlfred-Wegener-Institut, Helmholtz-Zentrum für Polar- und Meeresforschung, Bremerhaven, GermanyPacific Marine Environmental Laboratory, Office of Oceanic and Atmospheric Research, National Oceanic and Atmospheric Administration, Seattle, WA, United StatesNational Environmental Satellite Data and Information Service, National Centers for Environmental Information, National Oceanic and Atmospheric Administration, Silver Spring, MD, United StatesNational Oceanography Centre, Liverpool, United KingdomUniversitat Politècnica de Catalunya, Barcelona, SpainAlfred-Wegener-Institut, Helmholtz-Zentrum für Polar- und Meeresforschung, Bremerhaven, GermanyOceanic Platform of the Canary Islands, Telde, SpainAlfred-Wegener-Institute Helmholtz Centre for Polar and Marine Research, Shelf Sea System Ecology, Helgoland, GermanyNational Oceanography Centre, Liverpool, United KingdomMicrosoft Corporation, Seattle, WA, United States052°North Initiative for Geospatial Open Source Software GmbH, Muenster, GermanyNational Oceanography Centre, Liverpool, United Kingdom1Alfred-Wegener-Institute Helmholtz Centre for Polar and Marine Research, Operations and Research Platforms, Bremerhaven, Germany2Institute of Electrical and Electronics Engineers, Paris, France3Alfred-Wegener-Institute Helmholtz Centre for Polar and Marine Research, Tiefseeökologie und –technologie, Bremerhaven, Germany2Institute of Electrical and Electronics Engineers, Paris, FranceIn the next decade the pressures on ocean systems and the communities that rely on them will increase along with impacts from the multiple stressors of climate change and human activities. Our ability to manage and sustain our oceans will depend on the data we collect and the information and knowledge derived from it. Much of the uptake of this knowledge will be outside the ocean domain, for example by policy makers, local Governments, custodians, and other organizations, so it is imperative that we democratize or open the access and use of ocean data. This paper looks at how technologies, scoped by standards, best practice and communities of practice, can be deployed to change the way that ocean data is accessed, utilized, augmented and transformed into information and knowledge. The current portal-download model which requires the user to know what data exists, where it is stored, in what format and with what processing, limits the uptake and use of ocean data. Using examples from a range of disciplines, a web services model of data and information flows is presented. A framework is described, including the systems, processes and human components, which delivers a radical rethink about the delivery of knowledge from ocean data. A series of statements describe parts of the future vision along with recommendations about how this may be achieved. The paper recommends the development of virtual test-beds for end-to-end development of new data workflows and knowledge pathways. This supports the continued development, rationalization and uptake of standards, creates a platform around which a community of practice can be developed, promotes cross discipline engagement from ocean science through to ocean policy, allows for the commercial sector, including the informatics sector, to partner in delivering outcomes and provides a focus to leverage long term sustained funding. The next 10 years will be “make or break” for many ocean systems. The decadal challenge is to develop the governance and co-operative mechanisms to harness emerging information technology to deliver on the goal of generating the information and knowledge required to sustain oceans into the future.https://www.frontiersin.org/article/10.3389/fmars.2019.00032/fulldata standardsdata democratizationend user engagementdata innovationdata integrity

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