Register      Login
Marine and Freshwater Research Marine and Freshwater Research Society
Advances in the aquatic sciences
Shopping Cart: ( empty )
You are here: Home > Journals > MF > MF04233
RESEARCH ARTICLE
Contents Vol 56(1)

Local-scale mapping of benthic habitats to assess representation in a marine protected area

Tim Stevens A C and Rod M. Connolly A B
+ Author Affiliations
- Author Affiliations

A Centre for Aquatic Processes and Pollution, and School of Environmental and Applied Sciences, Griffith University. PMB 50 Gold Coast Mail Centre, Qld 9726, Australia.

B Cooperative Research Centre for Coastal Zone, Estuary and Waterway Management.

C Corresponding author. Email: t.stevens@griffith.edu.au

Marine and Freshwater Research 56(1) 111-123 https://doi.org/10.1071/MF04233
Submitted: 30 August 2004  Accepted: 26 November 2004   Published: 4 February 2005

Abstract

Macrobenthic habitat types were classified and mapped using a compact video array at 78 sites spaced 5 km apart in Moreton Bay, Australia. The area mapped was about 2400 km2 and extended from estuarine shallow subtidal waters to offshore areas to the 50-m isobath. Nine habitat types were recognised, with only one on hard substrate, and their representation within an existing marine protected area was assessed. Only two habitat types were represented in highly protected (no-take) zones, with less than 3% of the total area of each habitat type included. The habitat mapping characterised several habitat types not previously described in the area and located deep-water algal and soft coral reefs not previously reported. Seagrass beds were encountered in several locations where their occurrence was either unknown or had not previously been quantified. The study represents the most spatially comprehensive survey of epibenthos undertaken in Moreton Bay, with over 40 000 m2 sampled. Derived habitat maps provide a robust basis for inclusion of representative examples of all habitat types in marine protected area planning in, and adjacent to, Moreton Bay. The utility of video data to conduct a low-cost habitat survey over a comparatively large area was also demonstrated. The method used has potentially wide application for the survey and design of marine protected areas.

Extra keywords: benthic habitat classification, Moreton Bay, video survey.


Acknowledgments

The authors thank colleagues in our school for productive discussions, especially Joe Lee, Kylie Pitt and Michael Arthur; David Brewer for comments on the draft manuscript; Qld Museum staff for assistance with taxon identifications; Steve Jones (Qld EPA) for access to the Moreton Bay Marine Park digital zoning plan; and Gemma Lawson for assistance with field work. The study was funded in part by the Australian Geographical Society, whose assistance is gratefully acknowledged.


References

Agardy T. (1995). ‘The Science of Conservation in the Coastal Zone.’ (IUCN: Gland, Switzerland.)

Agardy, T. (2000). Information needs for Marine Protected Areas: scientific and societal. Bulletin of Marine Science 66, 875–888.
Anon (1997). Marine Park (Moreton Bay) Zoning Plan. Office of the Queensland Parliamentary Counsel, Queensland Government Press, Brisbane.

Armonies, W. (2000). On the spatial scale needed for benthos community monitoring in the coastal North Sea. Journal of Sea Research 43, 121–133.
Crossref | GoogleScholarGoogle Scholar | Brisbane River Management Group (1996). State of the Brisbane River, Moreton Bay and Waterways. Department of Environment, Brisbane.

Brown, C. J. , Cooper, K. M. , Meadows, W. J. , Limpenny, D. S. , and Rees, H. L. (2002). Small-scale mapping of sea-bed assemblages in the eastern English Channel using sidescan sonar and remote sampling techniques. Estuarine, Coastal and Shelf Science 54, 263–278.
Crossref | GoogleScholarGoogle Scholar | Christie C. A., Bass D. K., Neale S. J., Osbourne K., and Oxley W. G. (1996). Surveys of sessile benthic communities using the video technique. Standard operating procedure No. 2. Australian Institute of Marine Science, Townsville.

Clarke K. R., and Warwick R. M. (1994). Change in marine communities: an approach to statistical analysis and interpretation. Natural Environment Research Council, Swindon, UK.

Cohen, B. F. , Currie, D. R. , and McArthur, M. A. (2000). Epibenthic community structure in Port Phillip Bay, Victoria, Australia. Marine and Freshwater Research 51, 689–702.
Crossref | GoogleScholarGoogle Scholar | Crimp O. N. (1992). Moreton Bay in the balance: proceedings of the symposium held in Brisbane, July 1989. Australian Littoral Society Inc. and Australian Marine Science Consortium.

CSIRO (1994). Jervis Bay Baseline Studies, Final Report. Volume 2. Commonwealth of Australia, Canberra.

Davie P. (1998). ‘Wild Guide to Moreton Bay: Wildlife and Habitats of a beautiful Australian Coast – Noosa to the Tweed.’ (Queensland Museum: Brisbane.)

Dennison W. C., and Abal E. G. (1999). ‘Moreton Bay study: a scientific basis for the Healthy Waterways Campaign.’ South East Queensland Regional Water Quality Management Strategy. Brisbane, Queensland.

Department of Environment and Conservation (1989). Moreton Bay Strategic Plan: background information. Queensland Government, Brisbane.

Eyre, B. , Hossain, S. , and McKee, L. (1998). A suspended sediment budget for the modified subtropical Brisbane River estuary, Australia. Estuarine, Coastal and Shelf Science 47, 513–522.
Crossref | GoogleScholarGoogle Scholar | Great Barrier Reef Marine Park Authority (2003). Basis for zoning decisions report: consultation draft. Great Barrier Reef Marine Park Authority, Canberra.

Hailstone, T. H. (1976). Delimitation of sub-tidal macrobenthos associations at the mouth of the Brisbane River. Australian Journal of Marine and Freshwater Research 27, 217–238.
Harrison P. L., Harriott V. J., Banks S. A., and Holmes N. J. (1998). The coral communities of Flinders Reef and Myora Reef in the Moreton Bay Marine Park, Queensland, Australia. In ‘Moreton Bay and Catchment’. (Eds I. R. Tibbetts, N. J. Hall and W. C. Dennison.) pp. 525–536. (University of Queensland: Brisbane.)

Hirst, A. J. (2004). Broad-scale environmental gradients among estuarine benthic macrofaunal assemblages of south-eastern Australia: implications for monitoring estuaries. Marine and Freshwater Research 55, 79–92.
Crossref | GoogleScholarGoogle Scholar | Hyland S. J., Courtney A. J., and Butler C. T. (1989). Distribution of seagrass in the Moreton region from Coolangatta to Noosa. Information Series, Queensland Department of Primary Industries, Brisbane.

IUCN (1994). Guidelines for Protected Area Management Categories. Commission on National Parks and Protected Areas with the assistance of World Conservation Monitoring Centre. Gland, Switzerland.

Jones, P. J. S. (1994). A review and analysis of the objectives of marine nature reserves. Ocean and Coastal Management 24, 149–178.
Crossref | GoogleScholarGoogle Scholar | Kelleher G., Bleakley C., and Wells S. (1995). A global representative system of marine protected areas. Volumes I–IV. Great Barrier Reef Marine Park Authority, The World Bank and The World Conservation Union (IUCN).

Levin, S. A. (1992). The problem of pattern and scale in ecology. Ecology 73, 1943–1967.
Marine Reserves Working Group (2000). Report of Marine Reserves Working Group Meeting, September 26, 2000. Santa Barbara, CA.

Parry, D. M. , Kendall, M. A. , Pilgrim, D. A. , and Jones, M. B. (2003). Identification of patch structure within marine benthic landscapes using a remotely operated vehicle. Journal of Experimental Marine Biology and Ecology 285–286, 497–511.
Crossref | GoogleScholarGoogle Scholar | Possingham H., Ball I., and Andelman S. (2000). Mathematical methods for identifying representative reserve networks. In ‘Quantitative Methods for Conservation Biology’. (Eds S. Ferson and M. Burgman.) pp. 291–305. (Springer-Verlag: New York.)

Ray G. C., and McCormick-Ray M. G. (1995). Critical habitats and representative systems in marine environments: concepts and procedures. In ‘The Science of Conservation in the Coastal Zone’. (Ed. T. Agardy.) pp. 23–40. (IUCN: Gland, Switzerland.)

Skilleter G. A. (1998). Ecology of benthic invertebrates in Moreton Bay. In ‘Moreton Bay and Catchment’. (Eds I. Tibbetts, N. J. Hall and W. C. Dennison.) pp. 365–394. (University of Queensland: Brisbane.)

Stachowitsch, M. (2003). Research on intact marine ecosystems: a lost era. Marine Pollution Bulletin 46, 801–805.
Crossref | GoogleScholarGoogle Scholar | Stevens T. (2003). Mapping benthic habitats for representation in marine protected areas. Ph.D. Thesis, Griffith University, Brisbane.

Stevens, T. (2005). Scales of similarity in soft sediment epibenthic assemblages: implications for marine protected area design. Marine Biology. 146, 345–354.
Crossref | GoogleScholarGoogle Scholar | Sweatman H. (1997). Long term monitoring of the Great Barrier Reef. Status report number 2, 1997. Australian Institute of Marine Science, Townsville.

Thompson, B. W. , Riddle, M. J. , and Stark, J. S. (2003). Cost-efficient methods for marine pollution monitoring at Casey Station, East Antarctica: the choice of sieve mesh-size and taxonomic resolution. Marine Pollution Bulletin 46, 232–243.
Crossref | GoogleScholarGoogle Scholar | Tibbetts I. R., Hall N. J., and Dennison W. C. (1998). ‘Moreton Bay and Catchment.’ (University of Queensland: Brisbane.)

Tselepides, A. , Papadopoulou, K.-N. , Podaras, D. , Plaiti, W. , and Koutsoubas, D. (2000). Macrobenthic community structure over the continental margin of Crete (South Aegean Sea, NE Mediterranean). Progress in Oceanography 46, 401–428.
Crossref | GoogleScholarGoogle Scholar | and the table arrangement follows the order used in that reference
A1