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The APPEA Journal The APPEA Journal Society
Journal of Australian Energy Producers
RESEARCH ARTICLE (Non peer reviewed)

Fish associated with subsea pipelines and their rock berms

Sean van Elden A * , Thomas Tothill A and Jessica J. Meeuwig A
+ Author Affiliations
- Author Affiliations

A Marine Futures Lab, School of Biological Sciences, University of Western Australia, 35 Stirling Highway, Crawley, WA 6009, Australia.

The APPEA Journal 62 S362-S367 https://doi.org/10.1071/AJ21181
Accepted: 15 March 2022   Published: 13 May 2022

© 2022 The Author(s) (or their employer(s)). Published by CSIRO Publishing on behalf of APPEA.

Abstract

The ecological role of subsea pipelines is an important factor in the consideration of decommissioning options. Several studies have assessed the marine communities associated with subsea pipelines on Australia’s North West Shelf (NWS), considering the influence of factors such as water depth, substrate type, pipeline diameter and pipeline position on fish assemblages. Less is known about the artificial rock berms used to stabilise pipelines. The Wandoo field on the NWS consists of an unmanned monopod and a concrete gravity structure, with three pipelines connecting these structures: a 4″ Gas Flowline, an 8″ Test Flowline and a 12″ Production Flowline. These pipelines are buried, exposed or span the seabed and are supported by rock berms at regular intervals. We present a novel frame-based, timed-count method to assess the fish communities associated with subsea pipelines utilising archival remotely operated vehicle footage that lacks geospatial data. We apply this approach to a pipeline in the Wandoo field to document variation in the fish assemblage with pipeline position (buried, exposed, span or covered by rock berm). Overall, diversity and abundance were higher on pipeline covered by rock berms than on the other pipeline positions. We hypothesise that rock berms are effectively artificial reefs, providing complex habitat structure and facilitating growth of macrobenthos communities that are associated with higher fish diversity. We demonstrate that rock berms can increase the ecological value of subsea pipelines and should therefore be a priority area for future ecological surveys.

Keywords: decommissioning, fish assemblages, North West Shelf, offshore infrastructure, platform ecology, remotely operated vehicles, rock berms, subsea pipelines.

Sean van Elden studied in South Africa where he received his Bachelor of Science (Marine Biology) at the University of KwaZulu-Natal in 2013, and his Bachelor of Science Honours at Nelson Mandela University in 2014. After working at Nelson Mandela University, Sean moved to Australia and joined the Marine Futures lab at the University of Western Australia in 2016 as an image analyst. Sean completed his PhD in 2021, investigating the community structure of both benthic and pelagic species associated with offshore platforms, as a basis for future decommissioning decisions. Sean is currently continuing his research into the ecology of offshore infrastructure as a research fellow at the University of Western Australia.

Thomas Tothill is a PhD Candidate at the University of Western Australia. As part of his Masters degree, Thomas undertook a research project analysing the vertical distribution of fish populations on two offshore oil platforms on Australia’s North West Shelf, as part of a collaboration between the University of Western Australia and Vermilion Oil and Gas Australia. Thomas’ area of interest lies in understanding the impacts of various decommissioning scenarios on demersal and pelagic fish population dynamics.

Jessica Meeuwig is Director of the Marine Futures Lab at the University of Western Australia and is a Marine Ecologist focused on understanding the ecology of reef and open-ocean shark and fish assemblages and the way in which their status reflects anthropogenic impacts and management responses. She has expertise in a diverse repertoire of field and analysis techniques, from BRUVS (and pioneered the development of midwater systems), to acoustic and satellite tagging, trophic analyses, behavioural studies and predictive modelling. She has previously conducted research with Woodside and Chevron on the North West Shelf.


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