Influence of offshore oil and gas structures on seascape ecological connectivity
Offshore platforms, subsea pipelines, wells and related fixed structures supporting the oil and gas (O&G) industry are prevalent in oceans across the globe, with many approaching the end of their operational life and requiring decommissioning. Although structures can possess high ecological dive...
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| Published in | Global change biology Vol. 28; no. 11; pp. 3515 - 3536 |
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| Main Authors | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Blackwell Publishing Ltd
01.06.2022
John Wiley and Sons Inc |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Offshore platforms, subsea pipelines, wells and related fixed structures supporting the oil and gas (O&G) industry are prevalent in oceans across the globe, with many approaching the end of their operational life and requiring decommissioning. Although structures can possess high ecological diversity and productivity, information on how they interact with broader ecological processes remains unclear. Here, we review the current state of knowledge on the role of O&G infrastructure in maintaining, altering or enhancing ecological connectivity with natural marine habitats. There is a paucity of studies on the subject with only 33 papers specifically targeting connectivity and O&G structures, although other studies provide important related information. Evidence for O&G structures facilitating vertical and horizontal seascape connectivity exists for larvae and mobile adult invertebrates, fish and megafauna; including threatened and commercially important species. The degree to which these structures represent a beneficial or detrimental net impact remains unclear, is complex and ultimately needs more research to determine the extent to which natural connectivity networks are conserved, enhanced or disrupted. We discuss the potential impacts of different decommissioning approaches on seascape connectivity and identify, through expert elicitation, critical knowledge gaps that, if addressed, may further inform decision making for the life cycle of O&G infrastructure, with relevance for other industries (e.g. renewables). The most highly ranked critical knowledge gap was a need to understand how O&G structures modify and influence the movement patterns of mobile species and dispersal stages of sessile marine species. Understanding how different decommissioning options affect species survival and movement was also highly ranked, as was understanding the extent to which O&G structures contribute to extending species distributions by providing rest stops, foraging habitat, and stepping stones. These questions could be addressed with further dedicated studies of animal movement in relation to structures using telemetry, molecular techniques and movement models. Our review and these priority questions provide a roadmap for advancing research needed to support evidence‐based decision making for decommissioning O&G infrastructure.
Offshore platforms and related fixed structures supporting the oil and gas (O&G) industry are prevalent in all oceans. We review current knowledge on the role of O&G infrastructure in maintaining, altering or enhancing ecological seascape connectivity. There is a paucity of studies assessing connectivity and O&G structures. We discuss existing knowledge and identify critical knowledge gaps for decision‐making, such as the need to understand how O&G structures modify and influence movement patterns of mobile species and dispersal. Our review and priority questions provide a roadmap for advancing research needed to support evidence‐based decision‐making for decommissioning O&G infrastructure. |
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| AbstractList | Offshore platforms, subsea pipelines, wells and related fixed structures supporting the oil and gas (O&G) industry are prevalent in oceans across the globe, with many approaching the end of their operational life and requiring decommissioning. Although structures can possess high ecological diversity and productivity, information on how they interact with broader ecological processes remains unclear. Here, we review the current state of knowledge on the role of O&G infrastructure in maintaining, altering or enhancing ecological connectivity with natural marine habitats. There is a paucity of studies on the subject with only 33 papers specifically targeting connectivity and O&G structures, although other studies provide important related information. Evidence for O&G structures facilitating vertical and horizontal seascape connectivity exists for larvae and mobile adult invertebrates, fish and megafauna; including threatened and commercially important species. The degree to which these structures represent a beneficial or detrimental net impact remains unclear, is complex and ultimately needs more research to determine the extent to which natural connectivity networks are conserved, enhanced or disrupted. We discuss the potential impacts of different decommissioning approaches on seascape connectivity and identify, through expert elicitation, critical knowledge gaps that, if addressed, may further inform decision making for the life cycle of O&G infrastructure, with relevance for other industries (e.g. renewables). The most highly ranked critical knowledge gap was a need to understand how O&G structures modify and influence the movement patterns of mobile species and dispersal stages of sessile marine species. Understanding how different decommissioning options affect species survival and movement was also highly ranked, as was understanding the extent to which O&G structures contribute to extending species distributions by providing rest stops, foraging habitat, and stepping stones. These questions could be addressed with further dedicated studies of animal movement in relation to structures using telemetry, molecular techniques and movement models. Our review and these priority questions provide a roadmap for advancing research needed to support evidence‐based decision making for decommissioning O&G infrastructure.
Offshore platforms and related fixed structures supporting the oil and gas (O&G) industry are prevalent in all oceans. We review current knowledge on the role of O&G infrastructure in maintaining, altering or enhancing ecological seascape connectivity. There is a paucity of studies assessing connectivity and O&G structures. We discuss existing knowledge and identify critical knowledge gaps for decision‐making, such as the need to understand how O&G structures modify and influence movement patterns of mobile species and dispersal. Our review and priority questions provide a roadmap for advancing research needed to support evidence‐based decision‐making for decommissioning O&G infrastructure. Offshore platforms, subsea pipelines, wells and related fixed structures supporting the oil and gas (O&G) industry are prevalent in oceans across the globe, with many approaching the end of their operational life and requiring decommissioning. Although structures can possess high ecological diversity and productivity, information on how they interact with broader ecological processes remains unclear. Here, we review the current state of knowledge on the role of O&G infrastructure in maintaining, altering or enhancing ecological connectivity with natural marine habitats. There is a paucity of studies on the subject with only 33 papers specifically targeting connectivity and O&G structures, although other studies provide important related information. Evidence for O&G structures facilitating vertical and horizontal seascape connectivity exists for larvae and mobile adult invertebrates, fish and megafauna; including threatened and commercially important species. The degree to which these structures represent a beneficial or detrimental net impact remains unclear, is complex and ultimately needs more research to determine the extent to which natural connectivity networks are conserved, enhanced or disrupted. We discuss the potential impacts of different decommissioning approaches on seascape connectivity and identify, through expert elicitation, critical knowledge gaps that, if addressed, may further inform decision making for the life cycle of O&G infrastructure, with relevance for other industries (e.g. renewables). The most highly ranked critical knowledge gap was a need to understand how O&G structures modify and influence the movement patterns of mobile species and dispersal stages of sessile marine species. Understanding how different decommissioning options affect species survival and movement was also highly ranked, as was understanding the extent to which O&G structures contribute to extending species distributions by providing rest stops, foraging habitat, and stepping stones. These questions could be addressed with further dedicated studies of animal movement in relation to structures using telemetry, molecular techniques and movement models. Our review and these priority questions provide a roadmap for advancing research needed to support evidence-based decision making for decommissioning O&G infrastructure. Offshore platforms, subsea pipelines, wells and related fixed structures supporting the oil and gas (O&G) industry are prevalent in oceans across the globe, with many approaching the end of their operational life and requiring decommissioning. Although structures can possess high ecological diversity and productivity, information on how they interact with broader ecological processes remains unclear. Here, we review the current state of knowledge on the role of O&G infrastructure in maintaining, altering or enhancing ecological connectivity with natural marine habitats. There is a paucity of studies on the subject with only 33 papers specifically targeting connectivity and O&G structures, although other studies provide important related information. Evidence for O&G structures facilitating vertical and horizontal seascape connectivity exists for larvae and mobile adult invertebrates, fish and megafauna; including threatened and commercially important species. The degree to which these structures represent a beneficial or detrimental net impact remains unclear, is complex and ultimately needs more research to determine the extent to which natural connectivity networks are conserved, enhanced or disrupted. We discuss the potential impacts of different decommissioning approaches on seascape connectivity and identify, through expert elicitation, critical knowledge gaps that, if addressed, may further inform decision making for the life cycle of O&G infrastructure, with relevance for other industries (e.g. renewables). The most highly ranked critical knowledge gap was a need to understand how O&G structures modify and influence the movement patterns of mobile species and dispersal stages of sessile marine species. Understanding how different decommissioning options affect species survival and movement was also highly ranked, as was understanding the extent to which O&G structures contribute to extending species distributions by providing rest stops, foraging habitat, and stepping stones. These questions could be addressed with further dedicated studies of animal movement in relation to structures using telemetry, molecular techniques and movement models. Our review and these priority questions provide a roadmap for advancing research needed to support evidence-based decision making for decommissioning O&G infrastructure.Offshore platforms, subsea pipelines, wells and related fixed structures supporting the oil and gas (O&G) industry are prevalent in oceans across the globe, with many approaching the end of their operational life and requiring decommissioning. Although structures can possess high ecological diversity and productivity, information on how they interact with broader ecological processes remains unclear. Here, we review the current state of knowledge on the role of O&G infrastructure in maintaining, altering or enhancing ecological connectivity with natural marine habitats. There is a paucity of studies on the subject with only 33 papers specifically targeting connectivity and O&G structures, although other studies provide important related information. Evidence for O&G structures facilitating vertical and horizontal seascape connectivity exists for larvae and mobile adult invertebrates, fish and megafauna; including threatened and commercially important species. The degree to which these structures represent a beneficial or detrimental net impact remains unclear, is complex and ultimately needs more research to determine the extent to which natural connectivity networks are conserved, enhanced or disrupted. We discuss the potential impacts of different decommissioning approaches on seascape connectivity and identify, through expert elicitation, critical knowledge gaps that, if addressed, may further inform decision making for the life cycle of O&G infrastructure, with relevance for other industries (e.g. renewables). The most highly ranked critical knowledge gap was a need to understand how O&G structures modify and influence the movement patterns of mobile species and dispersal stages of sessile marine species. Understanding how different decommissioning options affect species survival and movement was also highly ranked, as was understanding the extent to which O&G structures contribute to extending species distributions by providing rest stops, foraging habitat, and stepping stones. These questions could be addressed with further dedicated studies of animal movement in relation to structures using telemetry, molecular techniques and movement models. Our review and these priority questions provide a roadmap for advancing research needed to support evidence-based decision making for decommissioning O&G infrastructure. |
| Author | Hart, Kristen M. Boschetti, Fabio Hicks, Natalie Riginos, Cynthia Pecl, Gretta T. Birchenough, Silvana N. R. Treml, Eric A. Fortune, Irene S. Nishimoto, Mary M. Thums, Michele Ajemian, Matthew J. Hyder, Kieran Miller, Karen J. Montevecchi, William A. Elliott, Michael Henry, Lea‐Anne Reeves, David B. Williamson, David H. Porter, Joanne S. Coolen, Joop W. P. Hewitt, Chad L. Consoli, Pierpaolo Todd, Victoria L. G. Teilmann, Jonas Pattiaratchi, Charitha B. Russell, Debbie J. F. Hock, Karlo Gillanders, Bronwyn M. Macreadie, Peter I. Schläppy, Marie‐Lise Berry, Oliver Benthuysen, Jessica A. Rouse, Sally Paterson, David M. Sherman, Craig D. H. Bull, Ann S. Love, Milton Ferreira, Luciana C. Fowler, Ashley M. Harrison, Hugo B. Miller, Robert J. Bond, Todd Claisse, Jeremy T. McLean, Dianne L. Condie, Scott A. Page, Henry M. |
| AuthorAffiliation | 12 113124 CSIRO Oceans and Atmosphere Hobart Tasmania Australia 29 School of Biological Sciences The University of Queensland St. Lucia Queensland Australia 39 Marine Scotland Science Aberdeen UK 33 Psychology Department Memorial University St. John’s Newfoundland Canada 40 Sea Mammal Research Unit Scottish Oceans Institute University of St Andrews St Andrews UK 10 Department of Biological Sciences California State Polytechnic University Pomona California USA 25 United States Geological Survey, Wetland and Aquatic Research Center Davie Florida USA 27 Harry Butler Institute Murdoch University Murdoch Western Australia Australia 44 Great Barrier Reef Marine Park Authority Townsville Queensland Australia 6 The Centre for Environment Fisheries and Aquaculture Science (Cefas) Lowestoft Suffolk UK 9 University of California Santa Barbara Marine Science Institute Santa Barbara California USA 21 School of Life Sciences University of Technology Sydney Sydney New South Wales Australia 24 8002 Australian Ins |
| AuthorAffiliation_xml | – name: 7 2720 School of Biological Sciences The University of Western Australia Perth Western Australia Australia – name: 15 4508 Wageningen Marine Research Den Helder The Netherlands – name: 33 Psychology Department Memorial University St. John’s Newfoundland Canada – name: 35 Institute for Marine and Antarctic Studies University of Tasmania Hobart Tasmania Australia – name: 41 School of Life and Environmental Sciences Queenscliff Marine Research Facility Deakin University Victoria Australia – name: 10 Department of Biological Sciences California State Polytechnic University Pomona California USA – name: 19 Scottish Oceans Institute School of Biology University of St Andrews St Andrews UK – name: 9 University of California Santa Barbara Marine Science Institute Santa Barbara California USA – name: 29 School of Biological Sciences The University of Queensland St. Lucia Queensland Australia – name: 40 Sea Mammal Research Unit Scottish Oceans Institute University of St Andrews St Andrews UK – name: 44 Great Barrier Reef Marine Park Authority Townsville Queensland Australia – name: 28 School of Life Sciences University of Essex Colchester UK – name: 12 113124 CSIRO Oceans and Atmosphere Hobart Tasmania Australia – name: 24 8002 Australian Institute of Marine Science Townsville Queensland Australia – name: 31 School of Life and Environmental Sciences Centre for Integrative Ecology Deakin University Melbourne Victoria Australia – name: 3 2720 Oceans Graduate School The University of Western Australia Perth Western Australia Australia – name: 20 New South Wales Department of Primary Industries Sydney Institute of Marine Science Mosman New South Wales Australia – name: 21 School of Life Sciences University of Technology Sydney Sydney New South Wales Australia – name: 2 Oceans Institute The University of Western Australia Perth Western Australia Australia – name: 25 United States Geological Survey, Wetland and Aquatic Research Center Davie Florida USA – name: 11 5121 Vantuna Research Group Occidental College Los Angeles California USA – name: 5 CSIRO Environomics Future Science Platform Crawley Western Australia Australia – name: 8 113124 CSIRO Oceans and Atmosphere Crawley Western Australia Australia – name: 18 International Estuarine & Coastal Specialists (IECS) Leven UK – name: 26 School of GeoSciences Grant Institute University of Edinburgh Edinburgh UK – name: 6 The Centre for Environment Fisheries and Aquaculture Science (Cefas) Lowestoft Suffolk UK – name: 16 Aquatic Ecology and Water Quality Management Wageningen University Wageningen The Netherlands – name: 14 Stazione Zoologica Anton Dohrn ‐ SZN National Institute of Biology, Ecology and Marine Biotechnology Messina Italy – name: 4 Harbor Branch Oceanographic Institute Florida Atlantic University Fort Pierce Florida USA – name: 23 ARC Centre of Excellence for Coral Reef Studies James Cook University Townsville Queensland Australia – name: 37 Department of Life Sciences Natural History Museum London London UK – name: 27 Harry Butler Institute Murdoch University Murdoch Western Australia Australia – name: 38 National Fish and Wildlife Foundation Baton Rouge Louisina USA – name: 39 Marine Scotland Science Aberdeen UK – name: 13 Centre for Marine Socioecology University of Tasmania Hobart Tasmania Australia – name: 22 School of Biological Sciences, and Environment Institute University of Adelaide Adelaide South Australia Australia – name: 34 2720 Oceans Graduate School and the UWA Oceans Institute The University of Western Australia Perth Western Australia Australia – name: 42 Marine Mammal Research Department of Ecoscience Aarhus University Roskilde Denmark – name: 30 Collaborative Centre for Sustainable Use of the Seas (CCSUS) School of Environmental Sciences University of East Anglia Norfolk UK – name: 43 Ocean Science Consulting Ltd Dunbar UK – name: 36 International Centre for Island Technology Heriot Watt University Orkney Campus Orkney UK – name: 32 Blue Carbon Lab Centre for Integrative Ecology Deakin University Burwood Campus Burwood Victoria Australia – name: 1 Australian Institute of Marine Science Indian Ocean Marine Research Centre University of Western Australia Perth Western Australia Australia – name: 17 Department of Biological & Marine Sciences University of Hull Hull UK |
| Author_xml | – sequence: 1 givenname: Dianne L. surname: McLean fullname: McLean, Dianne L. organization: The University of Western Australia – sequence: 2 givenname: Luciana C. orcidid: 0000-0001-6755-2799 surname: Ferreira fullname: Ferreira, Luciana C. organization: University of Western Australia – sequence: 3 givenname: Jessica A. surname: Benthuysen fullname: Benthuysen, Jessica A. organization: University of Western Australia – sequence: 4 givenname: Karen J. surname: Miller fullname: Miller, Karen J. organization: University of Western Australia – sequence: 5 givenname: Marie‐Lise orcidid: 0000-0002-2131-8515 surname: Schläppy fullname: Schläppy, Marie‐Lise organization: The University of Western Australia – sequence: 6 givenname: Matthew J. orcidid: 0000-0002-2725-4030 surname: Ajemian fullname: Ajemian, Matthew J. organization: Florida Atlantic University – sequence: 7 givenname: Oliver surname: Berry fullname: Berry, Oliver organization: CSIRO Environomics Future Science Platform – sequence: 8 givenname: Silvana N. R. orcidid: 0000-0001-5321-8108 surname: Birchenough fullname: Birchenough, Silvana N. R. organization: Fisheries and Aquaculture Science (Cefas) – sequence: 9 givenname: Todd surname: Bond fullname: Bond, Todd organization: The University of Western Australia – sequence: 10 givenname: Fabio surname: Boschetti fullname: Boschetti, Fabio organization: CSIRO Oceans and Atmosphere – sequence: 11 givenname: Ann S. surname: Bull fullname: Bull, Ann S. organization: Marine Science Institute – sequence: 12 givenname: Jeremy T. surname: Claisse fullname: Claisse, Jeremy T. organization: Occidental College – sequence: 13 givenname: Scott A. surname: Condie fullname: Condie, Scott A. organization: University of Tasmania – sequence: 14 givenname: Pierpaolo surname: Consoli fullname: Consoli, Pierpaolo organization: National Institute of Biology, Ecology and Marine Biotechnology – sequence: 15 givenname: Joop W. P. orcidid: 0000-0002-8127-6097 surname: Coolen fullname: Coolen, Joop W. 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F. surname: Russell fullname: Russell, Debbie J. F. organization: University of St Andrews – sequence: 41 givenname: Craig D. H. surname: Sherman fullname: Sherman, Craig D. H. organization: Deakin University – sequence: 42 givenname: Jonas orcidid: 0000-0002-4376-4700 surname: Teilmann fullname: Teilmann, Jonas organization: Aarhus University – sequence: 43 givenname: Victoria L. G. surname: Todd fullname: Todd, Victoria L. G. organization: Ocean Science Consulting Ltd – sequence: 44 givenname: Eric A. surname: Treml fullname: Treml, Eric A. organization: Deakin University – sequence: 45 givenname: David H. surname: Williamson fullname: Williamson, David H. organization: Great Barrier Reef Marine Park Authority – sequence: 46 givenname: Michele surname: Thums fullname: Thums, Michele organization: University of Western Australia |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/35293658$$D View this record in MEDLINE/PubMed |
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| Publisher | Blackwell Publishing Ltd John Wiley and Sons Inc |
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| SubjectTerms | adults Animals Aquatic habitats Biodiversity birds Decision making Decommissioning Ecological effects Ecosystem ecosystem function expert opinion fauna Fish Fishes Fixed platforms Foraging Foraging habitats Gas pipelines global change habitats hydrodynamics Industry Infrastructure invasive species Invertebrates Larva Larvae larval dispersal Life cycle Life cycles marine megafauna Megafauna Molecular modelling Oceans Oceans and Seas Offshore Offshore engineering Offshore platforms Oil and gas industry oils particle tracking Petroleum pipelines Pipelines Questions Review Reviews Submarine pipelines subsea infrastructure Survival Telemetry Threatened species Underwater pipelines Underwater structures Work platforms |
| Title | Influence of offshore oil and gas structures on seascape ecological connectivity |
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