The University of Southampton
University of Southampton Institutional Repository

Understanding the global scientific value of industry ROV data, to quantify marine ecology and guide offshore decommissioning strategies

Understanding the global scientific value of industry ROV data, to quantify marine ecology and guide offshore decommissioning strategies
Understanding the global scientific value of industry ROV data, to quantify marine ecology and guide offshore decommissioning strategies
This paper describes the potential global scientific value of video and other data collected by Remotely Operated Vehicles (ROVs). ROVs are used worldwide, primarily by the offshore oil and gas industry, to monitor the integrity of subsea infrastructure and, in doing so, collect terabytes of video and in situ physical data from inaccessible regions and poorly understood marine environments. The paper begins by describing how recent ROV surveys for projects in Australia have gained a new dimension by involving marine scientists in their interpretation. A previously unrecognised influence of marine life on oil and gas pipelines was uncovered, triggering new collaborations between industry and marine science.

This new collaboration prompted a team of international engineers and marine scientists to gather together with West Australian based members of the oil and gas sector and ROV operators, to examine the global scientific value of ROV-collected data. If made available for research, these data have immense value for science to quantify the marine ecology and assist good stewardship of this environment by industry. It was found that most ROV operations are conducted by industry in a way that fulfils immediate industry requirements but which can confound scientific interpretation of the data. For example, there is variation in video resolution, ROV speed, distance above substrate and time (e.g. both seasonal and time of day), and these variations can limit the quantitative conclusions that can be drawn about marine ecology. We examined potential cost-effective, simple enhancements to standard ROV hardware and operational procedures that will increase the value of future industrial ROV operational data, without disrupting the primary focus of these operations.

The ecological value of existing ROV data represents an immense and under-utilized resource with worldwide coverage. We describe how ROVs can unravel the mysteries of our oceans, yield scientific discoveries, and provide examples of how these data can allow quantification of the ecological value of subsea infrastructure. By using these data, we can greatly improve our knowledge of marine biodiversity on and around offshore infrastructure and their environmental impact on marine ecosystems, both of which are particularly important in the consideration and selection of decommissioning strategies. Predicting the environmental consequences of removing or retaining subsea structures after decommissioning relies on an understanding of the ecological communities that have developed in association with these structures during their operational lives. Making industrial ROV data available for scientific research, and collating it in the future using modified protocols, would provide a very positive contribution to both science and industry, allowing the environmental impacts of subsea infrastructure to be quantified. It will also allow industry to contribute to a broader scientific understanding of our oceans, given the location of ROVs in areas that can rarely be accessed by independent researchers. This would provide novel and valuable information about under-researched and little known regions of the world's oceans.
OnePetro/Society of Petroleum Engineers
McLean, D.L.
66e89e9a-1259-4388-bd2c-bb02e810aec1
Macreadie, P.I.
e412d264-e1f2-4f2e-b090-a333abebf3f6
White, D.J.
a986033d-d26d-4419-a3f3-20dc54efce93
Thomson, P.G.
36037be0-6647-4d89-a117-245ad169eb2c
Fowler, A.
776773fe-8aa7-471d-9010-90be114cb134
Gates, A.R.
327a3cc6-2e53-4090-9f96-219461087be9
Benfield, M.
e68014e6-d5f9-4d9c-9c79-78bbb9d66e64
Horton, T.
c4b41665-f0bc-4f0f-a7af-b2b9afc02e34
Skropeta, D.
07cd770e-8b08-49c7-a88a-1df2b72aa8e7
Bond, T.
038b4809-5d3b-451d-9a90-518e9e010e4d
Booth, D.J.
c2621a8d-bb54-48cc-949a-ae718c099c63
Techera, E.
09ac2374-5363-4e33-a9f0-c6f2ff20d2fc
Pattiaratchi, C.
270222fc-4e18-4365-8128-6b554d183347
Collin, S.P.
108d327c-d791-4608-817a-8f7a5593f24b
Jones, D.O.
44fc07b3-5fb7-4bf5-9cec-78c78022613a
Smith, L.
bbd59295-9e33-4b9f-a050-d5b651cc740a
Partridge, J.C.
37cd6a12-0085-479e-a111-8fcddb7cab53
McLean, D.L.
66e89e9a-1259-4388-bd2c-bb02e810aec1
Macreadie, P.I.
e412d264-e1f2-4f2e-b090-a333abebf3f6
White, D.J.
a986033d-d26d-4419-a3f3-20dc54efce93
Thomson, P.G.
36037be0-6647-4d89-a117-245ad169eb2c
Fowler, A.
776773fe-8aa7-471d-9010-90be114cb134
Gates, A.R.
327a3cc6-2e53-4090-9f96-219461087be9
Benfield, M.
e68014e6-d5f9-4d9c-9c79-78bbb9d66e64
Horton, T.
c4b41665-f0bc-4f0f-a7af-b2b9afc02e34
Skropeta, D.
07cd770e-8b08-49c7-a88a-1df2b72aa8e7
Bond, T.
038b4809-5d3b-451d-9a90-518e9e010e4d
Booth, D.J.
c2621a8d-bb54-48cc-949a-ae718c099c63
Techera, E.
09ac2374-5363-4e33-a9f0-c6f2ff20d2fc
Pattiaratchi, C.
270222fc-4e18-4365-8128-6b554d183347
Collin, S.P.
108d327c-d791-4608-817a-8f7a5593f24b
Jones, D.O.
44fc07b3-5fb7-4bf5-9cec-78c78022613a
Smith, L.
bbd59295-9e33-4b9f-a050-d5b651cc740a
Partridge, J.C.
37cd6a12-0085-479e-a111-8fcddb7cab53

McLean, D.L., Macreadie, P.I., White, D.J., Thomson, P.G., Fowler, A., Gates, A.R., Benfield, M., Horton, T., Skropeta, D., Bond, T., Booth, D.J., Techera, E., Pattiaratchi, C., Collin, S.P., Jones, D.O., Smith, L. and Partridge, J.C. (2018) Understanding the global scientific value of industry ROV data, to quantify marine ecology and guide offshore decommissioning strategies. In Offshore Technology Conference Asia, 20-23 March, Kuala Lumpur, Malaysia. OnePetro/Society of Petroleum Engineers.. (doi:10.4043/28312-MS).

Record type: Conference or Workshop Item (Paper)

Abstract

This paper describes the potential global scientific value of video and other data collected by Remotely Operated Vehicles (ROVs). ROVs are used worldwide, primarily by the offshore oil and gas industry, to monitor the integrity of subsea infrastructure and, in doing so, collect terabytes of video and in situ physical data from inaccessible regions and poorly understood marine environments. The paper begins by describing how recent ROV surveys for projects in Australia have gained a new dimension by involving marine scientists in their interpretation. A previously unrecognised influence of marine life on oil and gas pipelines was uncovered, triggering new collaborations between industry and marine science.

This new collaboration prompted a team of international engineers and marine scientists to gather together with West Australian based members of the oil and gas sector and ROV operators, to examine the global scientific value of ROV-collected data. If made available for research, these data have immense value for science to quantify the marine ecology and assist good stewardship of this environment by industry. It was found that most ROV operations are conducted by industry in a way that fulfils immediate industry requirements but which can confound scientific interpretation of the data. For example, there is variation in video resolution, ROV speed, distance above substrate and time (e.g. both seasonal and time of day), and these variations can limit the quantitative conclusions that can be drawn about marine ecology. We examined potential cost-effective, simple enhancements to standard ROV hardware and operational procedures that will increase the value of future industrial ROV operational data, without disrupting the primary focus of these operations.

The ecological value of existing ROV data represents an immense and under-utilized resource with worldwide coverage. We describe how ROVs can unravel the mysteries of our oceans, yield scientific discoveries, and provide examples of how these data can allow quantification of the ecological value of subsea infrastructure. By using these data, we can greatly improve our knowledge of marine biodiversity on and around offshore infrastructure and their environmental impact on marine ecosystems, both of which are particularly important in the consideration and selection of decommissioning strategies. Predicting the environmental consequences of removing or retaining subsea structures after decommissioning relies on an understanding of the ecological communities that have developed in association with these structures during their operational lives. Making industrial ROV data available for scientific research, and collating it in the future using modified protocols, would provide a very positive contribution to both science and industry, allowing the environmental impacts of subsea infrastructure to be quantified. It will also allow industry to contribute to a broader scientific understanding of our oceans, given the location of ROVs in areas that can rarely be accessed by independent researchers. This would provide novel and valuable information about under-researched and little known regions of the world's oceans.

Text
18 Maclean et al 2018 OTC-28312-MS (002)
Restricted to Repository staff only
Request a copy

More information

Accepted/In Press date: 19 February 2018
e-pub ahead of print date: 20 March 2018
Published date: 2018
Venue - Dates: 2014 Offshore Technology Conference Asia, Kuala Lumpur, Malaysia, 2014-03-25 - 2014-03-28

Identifiers

Local EPrints ID: 423040
URI: http://eprints.soton.ac.uk/id/eprint/423040
PURE UUID: 058c04ec-6557-48a4-90ba-ed17e7ec99ae
ORCID for D.J. White: ORCID iD orcid.org/0000-0002-2968-582X

Catalogue record

Date deposited: 13 Aug 2018 16:30
Last modified: 16 Mar 2024 04:32

Export record

Altmetrics

Contributors

Author: D.L. McLean
Author: P.I. Macreadie
Author: D.J. White ORCID iD
Author: P.G. Thomson
Author: A. Fowler
Author: A.R. Gates
Author: M. Benfield
Author: T. Horton
Author: D. Skropeta
Author: T. Bond
Author: D.J. Booth
Author: E. Techera
Author: C. Pattiaratchi
Author: S.P. Collin
Author: D.O. Jones
Author: L. Smith
Author: J.C. Partridge

Download statistics

Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.

View more statistics

Atom RSS 1.0 RSS 2.0

Contact ePrints Soton: eprints@soton.ac.uk

ePrints Soton supports OAI 2.0 with a base URL of http://eprints.soton.ac.uk/cgi/oai2

This repository has been built using EPrints software, developed at the University of Southampton, but available to everyone to use.

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×