Offshore oil and gas infrastructure plays a minor role in marine metapopulation dynamics

Offshore oil and gas infrastructure plays a minor role in marine metapopulation dynamics

Decommissioning consequences of offshore oil and gas infrastructure removal on marine population dynamics, including connectivity, are not well understood. We modelled the connectivity and metapopulation dynamics of three fish and two benthic invertebrate species inhabiting the natural rocky reefs a...

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Bibliographic Details
Published in:The Science of the total environment Vol. 934; p. 172981
Main Authors: Galaiduk, Ronen, McLean, Dianne L., Speed, Conrad W., Greer, Dougal, McIntosh, Rhys, Treml, Eric A.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 15-07-2024
Subjects:
Biophysical modelling
Decommissioning
Great Southern Reef
Larval dispersal
Offshore infrastructure
Biophysical modelling
Larval dispersal
Great Southern Reef
Decommissioning
Offshore infrastructure
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Summary:Decommissioning consequences of offshore oil and gas infrastructure removal on marine population dynamics, including connectivity, are not well understood. We modelled the connectivity and metapopulation dynamics of three fish and two benthic invertebrate species inhabiting the natural rocky reefs and offshore oil and gas infrastructure located in the Bass Strait, south-east Australia. Using a network approach, we found that platforms are not major sources, destinations, or stepping-stones for most species, yet act as modest sources for connectivity of Corynactis australis (jewel anemone). In contrast, sections of subsea pipelines appear to act as stepping-stones, source and destination habitats of varying strengths for all study species, except for Centrostephanus rodgersii (long-spined sea urchin). Natural reefs were the main stepping-stones, local source, and destination habitats for all study species. These reefs were largely responsible for the overall metapopulation growth of all study species (average of 96 % contribution across all species), with infrastructure acting as a minor contributor (<2 % average contribution). Full or partial decommissioning of platforms should have a very low or negligible impact on the overall metapopulation dynamics of the species explored, except C. australis, while full removal of pipelines could have a low impact on the metapopulation dynamics of benthic invertebrate species and a moderate impact on fish species (up to 34.1 % reduction in the metapopulation growth). We recommend that the decision to remove offshore infrastructure, either in full or in-part, be made on a platform-by-platform basis and consider contributions of pipelines to connectivity and metapopulation dynamics. [Display omitted] •Offshore oil and gas structures may facilitate connectivity across the seascape.•For the species modelled, platforms play a minor role in the metapopulation dynamics.•Pipelines often served as important local stepping-stones.•Decommissioning decisions should assess the contribution of individual structures.•This is critical information to reduce domain-wide impacts from decommissioning.
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ISSN:0048-9697
1879-1026
1879-1026
DOI:10.1016/j.scitotenv.2024.172981