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RESEARCH ARTICLE (Non peer reviewed)
Contents Vol 51 (Conference Proceedings)

Will the deep sea benefit from the addition of artificial habitat through the rigs-to-reef program?*

D. Booth A , P. Macreadie B and A. Fowler B
+ Author Affiliations
- Author Affiliations

A University of Technology, Sydney and SEA-SERPENT program.

B University of Technology, Sydney.

The APPEA Journal 51(2) 676-676 https://doi.org/10.1071/AJ10056
Published: 2011

Abstract

As we approach a global peak in the number of offshore oil rigs requiring de-commissioning, there is growing pressure for a rigs-to-reefs program in the deep sea whereby obsolete rigs are converted into artificial reefs. From a scientific perspective, the key question is: will the deep sea benefit from the addition of artificial reefs? Rigs have the potential to provide spawning aggregation sites, improve ecological connectivity, and facilitate conservation/rehabilitation of deep sea benthos (e.g. cold-water corals) by restricting fishing trawl access. Recent research on shallower-water rigs provides preliminary evidence that rigs can also help rebuild declining fish stocks. Direct negative impacts (e.g. physical damage in drop zone) appear minor; however, further work is needed to determine:

  1. the likelihood of undesired changes in food webs;

  2. the risk of spreading invasives; and,

  3. possible release of contaminants as rigs corrode.

Overall, a rigs-to-reefs program may be a valid option for deep sea benthic conservation.

David Booth is a professor and fish ecologist with wide experience in understanding fish responses to habitat state, including seagrass health and ambient water temperature. He has a strong international publication record in marine ecology and is part of the SEA-SERPENT deep sea research program.

Peter Macreadie is a marine ecologist and Chancellors Postdoctoral Fellow at UTS, specialising in experimental approaches to understanding how biophysical factors mediate resilience in marine habitats. Peter leads programs in Victoria and NSW that investigate the capacity of seagrasses to resist and recover from environmental disturbances. He is highly regarded for his research into fish and invertebrate responses to habitat fragmentation.

Ashley Fowler is a doctoral student focusing on the value of artificial reefs to fish production in deep water, coastal seas and tropical reefs.

References

Breuer, E., Stevenson, A.G., Howe, J.A., Carroll, J., and Shimmield, G.B. (2004). Drill cutting accumulations in the Northern and Central North Sea: a review of environmental interactions and chemical fate. Marine Pollution Bulletin 48, 12–25.

Bull A.S. Kendall J.J. 1994 An indication of the process: offshore platforms as artificial reefs in the Gulf of Mexico. Bulletin of Marine Science 55 2–3 1086 98

Ferreira D.F. Suslick S.B. 2001 Identifying potential impacts of bonding instruments on offshore oil projects. Resources Policy 27 1 43 52

Glover A.G. Smith C.R. 2003 The deep-sea floor ecosystem: current status and prospects of anthropogenic change by the year 2025. Environmental Conservation 30 219 41

Hall S.J. 2001 Is offshore oil exploration good for benthic conservation? Trends in Ecology and Evolution 16 1 58 .

Hallock J.L. Tharakan P.J. Hall C.A.S. S Jefferson M. Wu W. 2004 Forecasting the limits to the availability and diversity of global conventional oil supply. Energy 29 11 1673 96

Jones D.O.B. Wigham B.D. Hudson I.R. Bett B.J. 2007 Anthropogenic disturbance of deep-sea megabenthic assemblages: a study with remotely operated vehicles in the Faroe-Shetland Channel, NE Atlantic. Marine Biology 151 5 1731 41

Lakhal S.Y. Khan M.L. Islam M.R. 2009 An “Olympic” framework for a green decommissioning of an offshore oil platform. Ocean and Coastal Management 52 2 113 23

Lindquist D.C. Shaw R.F. Hernandez F.J. 2005 Distribution patterns of larval and juvenile fishes at offshore petroleum platforms in the north-central Gulf of Mexico. Estuarine, Coastal and Shelf Science 62 4 655 65

Love M.S. York A. 2005 A comparison of the fish assemblages associated with an oil/gas pipeline and adjacent seafloor in the Santa Barbara Channel, Southern California Bight. Bulletin of Marine Science 77 1 101 18

Macreadie, P.I., Fowler, A., and Booth, D.J., In press—Will the deep sea benefit from the addition of artificial habitat through the rigs-to-reef program? Frontiers of Ecology, https://doi.org/ 10.1890/100112.

Parente V. Ferreira D. Dos Santos E.M. Luczynskic E. 2006 Offshore decommissioning issues: deductibility and transferability. Energy Policy 34 15 1992 2001

Schroeder D.M. Love M.S. 2004 Ecological and political issues surrounding decommissioning of offshore oil facilities in the Southern California Bight. Ocean and Coastal Management 47 1–2 21 48

Smith J.E. Macreadie P.I. Swearer S.E. 2010 An osmotic induction method for externally marking a saltwater fishes, Stigmatopora argus and Stigmatopora nigra, with calcein. Journal of Fish Biology 76 4 1 055 60

Viada S.T. Hammer R.A. Racca R. Hannay D. Thompson M.J. Balcom B.J. Phillips N.W. 2008 Review of potential impacts to sea turtles from underwater explosive removal of offshore structures. Environmental Impact Assessment Review 28 4–5 267 85