Marine Biodiversity

, Volume 40, Issue 3, pp 181–193 | Cite as

Biogeographical and cross-shelf patterns of reef fish assemblages in a transition zone

  • Hamish A. Malcolm
  • Alan Jordan
  • Stephen D. A. Smith
Original paper


Transition zones have complex patterns of biogeography and biodiversity which require consideration in conservation planning. Cross-shelf patterns of reef fish assemblage structure and biogeographic representation were determined for the Solitary Islands Marine Park (SIMP), positioned in a tropical-temperate overlap on the east coast of Australia. Sixty-eight sites were surveyed on shallow (<25 m) reefs across an inshore–offshore gradient, using timed counts. Tropical taxa were most prevalent, comprising 50% of the 254 species recorded. Australian endemics accounted for 23% of species, with east coast endemics (14%) predominating. There was a strong cross-shelf gradient, with species richness increasing offshore. There was also a distinct biogeographical gradient with the proportion of temperate species decreasing and tropical species increasing with increasing distance from shore. This gradient was similar for endemic and cosmopolitan species as many of the endemics were temperate or subtropical, and many of the tropical species were widespread Indo-Pacific taxa. These patterns are consistent with sites further offshore being more frequently exposed to the tropical East Australian Current (EAC). Patterns on reefs further inshore are consistent with the high levels of endemism previously reported for temperate and subtropical Australian waters. The complex cross-shelf arrangement of tropical, subtropical and temperate species results in high regional biodiversity and needs to be recognised in marine-park planning.


Biodiversity assessment Climate change East Australian current Endemism Solitary Islands Marine Park Representation 


  1. Ackerman JL, Bellwood DR (2000) Reef fish assemblages: a re-evaluation using enclosed rotenone stations. Mar Ecol Prog Ser 206:227–237CrossRefGoogle Scholar
  2. Allen GR, Werner TB (2002) Coral reef fish assessment in the ‘coral triangle’ of southeastern Asia. Environ Biol Fisches 65:209–214CrossRefGoogle Scholar
  3. Almany GR, Berumen ML, Thorrold SR, Planes S, Jones GP (2007) Local replenishment of coral reef fish populations in a marine reserve. Science 316:742–744CrossRefPubMedGoogle Scholar
  4. ANZECC (1998a) Interim marine and coastal regionalisation for Australia: an ecosystem based classification for marine and coastal environments. Australian and New Zealand environment and conservation council, task force on marine protected areas. Environment Australia, CanberraGoogle Scholar
  5. ANZECC (1998b) Guidelines for establishing the national representative system of marine protected areas. Australian and New Zealand environment and conservation council, task force on marine protected areas. Environment Australia, CanberraGoogle Scholar
  6. Bell JD (1983) Effects of depth and marine reserve fishing restrictions on the structure of a rocky reef fish assemblage in the north-western Mediterranean Sea. J Appl Ecol 20:357–369CrossRefGoogle Scholar
  7. Beukers JS, Jones GP (1997) Habitat complexity modifies the impact of piscivores on a coral reef population. Oecologia 114:50–59CrossRefGoogle Scholar
  8. Boland FM (1979) A time series of expendable bathythermograph sections across the East Australian Current. Aust J Mar Freshw Res 30:303–313CrossRefGoogle Scholar
  9. Booth DJ, Kingsford MJ, Dohery PJ, Beretta GA (2000) Recruitment of damselfishes in One Tree Island lagoon: persistent inter-annual spatial patterns. Mar Ecol Prog Ser 202:219–230CrossRefGoogle Scholar
  10. Booth DJ, Figueira WF, Gregson MA, Brown L, Beretta G (2007) Occurrence of tropical fishes in temperate south-eastern Australia: role of the East Australian Current. Estuar Coast Shelf Sci 72:102–114CrossRefGoogle Scholar
  11. Bowen MM, Wilkin JL, Emery WJ (2005) Variability and forcing of the East Australian Current. J Geophys Res 110:C03019CrossRefGoogle Scholar
  12. Brook FJ (2002) Biogeography of near-shore reef fishes in northern New Zealand. J R Soc N Z 32:243–274Google Scholar
  13. Choat JH, Robbins WD, Clements KD (2004) The trophic status of herbivorous fishes on coral reefs. II. Food processing and trophodynamics. Mar Biol 145:445–454CrossRefGoogle Scholar
  14. Clarke KR (1993) Non-parametric multivariate analyses of changes in community structure. Aust J Ecol 18:117–143CrossRefGoogle Scholar
  15. Clarke KR, Warwick RM (2001) Change in marine communities: an approach to statistical analysis and interpretation, 2nd edn. PRIMER-E, PlymouthGoogle Scholar
  16. Cole RG (2001) Patterns of abundance and population size structure of herbivorous fishes at the subtropical Kermadec Islands and in mainland New Zealand. NZ J Mar Freshw Res 35:445–456CrossRefGoogle Scholar
  17. Connell SD, Jones GP (1991) Influence of habitat structure on post-recruitment processes in a temperate reef fish population. J Exp Mar Biol Ecol 151:271–294CrossRefGoogle Scholar
  18. Connell SD, Kingsford MJ (1998) Spatial, temporal and habitat-related variation in the abundance of large predatory fish at One Tree Reef, Australia. Coral Reefs 17:49–57CrossRefGoogle Scholar
  19. Connell SD, Lincoln-Smith MP (1999) Depth and the structure of assemblages of demersal fish: experimental trawling along a temperate coast. Estuar Coast Shelf Sci 48:483–495CrossRefGoogle Scholar
  20. Cowen RK (2002) Larval dispersal and retention and consequences for population connectivity. In: Sale PF (ed) Coral reef fishes. Dynamics and diversity in a complex ecosystem. Academic Press, San Diego, pp 149–170Google Scholar
  21. Cowling RM et al (2003) The expert of the algorithm? Comparison of priority conservation areas in the Cape Floristic Region identified by park managers and reserve selection software. Biol Conserv 112:147–167CrossRefGoogle Scholar
  22. Cresswell GR, Ellyet C, Legeckis R, Pearce AF (1983) Nearshore features of the East Australian Current system. Aust J Mar Freshw Res 34:105–114CrossRefGoogle Scholar
  23. Curley BG, Kingsford MJ, Gillanders BM (2002) Spatial and habitat-related patterns of temperate reef fish assemblages: implications for the design of Marine Protected Areas. Mar Freshw Res 53:1197–1210CrossRefGoogle Scholar
  24. DeMartini EE, Freidlander AM (2004) Spatial patterns of endemism in shallow water reef fish populations of the Northwestern Hawaiian Islands. Mar Ecol Prog Ser 271:281–296CrossRefGoogle Scholar
  25. Doherty PJ, Fowler AJ (1994) Demographic consequences of variable recruitment to coral reef fish populations: a congeneric comparison of two damselfishes. Bull Mar Sci 54:297–313Google Scholar
  26. Edgar GJ, Banks S, Farina JM, Calvopina M, Martinez C (2004) Regional biogeography of shallow reef fish and macro-invertebrate communities in the Galapagos archipelago. J Biogeogr 31:1107–1124CrossRefGoogle Scholar
  27. Ferreira CEL, Floeter SR, Gasparini JL, Ferreira BP, Joyeux JC (2004) Trophic structure patterns of Brazilian reef fishes: a latitudinal comparison. J Biogeogr 31:1093–1106CrossRefGoogle Scholar
  28. Fowler A, Miskiewicz A, Cox D, Baird M, Suthers I (2006) Greater abundances and increased spatial complexity of larval fish assemblages in the proximity of an island wake. Annual Conference Proceedings, Australian Society for Fish Biology, HobartGoogle Scholar
  29. Foxall G (1997) Variations in the sub tropical rocky reef fish communities of the Solitary Islands in response to seasonal temperature reductions. Honours Thesis, University of New England, ArmidaleGoogle Scholar
  30. Friedlander AM, Parrish JD (1998a) Habitat characteristics affecting fish assemblages on a Hawaiian coral reef. J Exp Mar Biol Ecol 224:1–30CrossRefGoogle Scholar
  31. Friedlander AM, Parrish JD (1998b) Temporal dynamics of fish communities on an exposed shoreline in Hawaii. Environ Biol Fishes 53:1–18CrossRefGoogle Scholar
  32. Garcia-Charton JA, Perez-Ruzafa A (2001) Spatial pattern and the habitat structure of a Mediterranean rocky reef fish local assemblage. Mar Biol 138:917–934CrossRefGoogle Scholar
  33. Gladstone W (2007) Requirements for marine protected areas to conserve the biodiversity of rocky reef fishes. Aquat Conserv Mar Freshw Ecosyst 17:71–87CrossRefGoogle Scholar
  34. Halford A (2003) Fish diversity and distribution. In: La Pet-Soede EM (ed)Rapid ecological assessment Wakatobi National Park. Directorate General of Forest Protection and Nature Conservation,Ministry of Forestry, Jakarta; WWF Indonesia Marine Program, Denpasar,Bali; The Nature Conservancy, Southeast Asia Center for Marine ProtectedAreas, Bali (Chap 3)Google Scholar
  35. Harriott VJ, Banks SA (1995) Recruitment of scleractinian corals in the Solitary Islands Marine Reserve, a high latitude coral-dominated community in Eastern Australia. Mar Ecol Prog Ser 123:155–161CrossRefGoogle Scholar
  36. Harriott VJ, Smith SDA, Harrison PL (1994) Patterns of coral community structure of subtropical reefs in the Solitary Islands Marine Reserve, Eastern Australia. Mar Ecol Prog Ser 109:67–76CrossRefGoogle Scholar
  37. Henry GW, Lyle JM (2003) The national recreational and indigenous fishing survey. FDRC Project No. 99/158. Tasmanian Aquaculture and Fisheries Institute, HobartGoogle Scholar
  38. Hobday AJ, Okey TA, Poloczanska ES, Kunz TJ, Richardson AJ (2006) Impacts of climate change on marine life in Australia. Part B: Technical Report. In: Report to the Australian Greenhouse Office, CanberraGoogle Scholar
  39. Hoey A, Bellwood D (2008) Cross shelf variation in the role of parrotfishes on the Great Barrier Reef. Coral Reefs 27:37–47CrossRefGoogle Scholar
  40. Hughes TP, Bellwood DR, Connolly SR (2002) Biodiversity hotspots, centres of endemicity, and the conservation of coral reefs. Ecol Lett 5:775–784CrossRefGoogle Scholar
  41. Jones GP, Caley MJ, Munday PL (2002) Rarity in coral reef fish communities. In: Sale PF (ed) Coral reef fishes. Dynamics and diversity in a complex ecosystem. Academic Press, San Diego, pp 81–102Google Scholar
  42. Jouvenel JY, Pollard DA (2001) Some effects of marine reserve protection on the population structure of two spearfishing target-fish species, Dicentrarchus labrax (Moronidae) and Sparus aurata (Sparidae), in shallow inshore waters, along a rocky coast in the northwestern Mediterranean Sea. Aquat Conserv Mar Freshw Ecosyst 11:1–9CrossRefGoogle Scholar
  43. Kingsford MJ (1998) Reef fishes. In: Studying temperate marine environments: a handbook for ecologists. Canterbury University Press, ChristchurchGoogle Scholar
  44. Kuiter RH (2000) Coastal fishes of south-eastern Australia. Gary Allen, SydneyGoogle Scholar
  45. Last PR, Stevens JD (1994) Sharks and rays of Australia. CSIRO, MelbourneGoogle Scholar
  46. Lincoln Smith MP, Bell JD, Hair CA (1991) Spatial variation in abundance of recently settled rocky reef fish in southeastern Australia: implications for detecting change. Mar Ecol Prog Ser 77:95–103CrossRefGoogle Scholar
  47. Malcolm H, Smith S, Jordan A (2010) Using patterns of reef fish assemblages to refine a Habitat Classification System for marine parks in NSW, Australia. Aquat Conserv Mar Freshw Ecosyst 20:83–92Google Scholar
  48. Malcolm HA (2007) Expansion of a sea temperature Monitoring Program in the NRCMA Area. Report to the Northern Rivers Catchment Management Authority. National MarineScience Centre, Coffs HarbourGoogle Scholar
  49. Malcolm HA, Cheale AJ, Thompson AA (1999) Fishes of the Yongala historic shipwreck. CRC Reef Research Technical Report No. 26. CRC Reef Research Centre, TownsvilleGoogle Scholar
  50. Malcolm HA, Gladstone W, Lindfield S, Wraith J, Lynch TP (2007) Spatial and temporal variation in reef fish assemblages of marine parks in New South Wales, Australia-baited video observations. Mar Ecol Prog Ser 350:277–290CrossRefGoogle Scholar
  51. Marchesiello P, Middleton JH (2000) Modeling the East Australian Current in the Western Tasman Sea. J Phys Oceanogr 30:2956–2971CrossRefGoogle Scholar
  52. Mau R (1997) A preliminary survey of continental shelf habitats of the Solitary Islands Marine Park, New South Wales. Honours thesis, Southern Cross University, LismoreGoogle Scholar
  53. Meekan MG, Choat JH (1997) Latitudinal variation in abundance of herbivorous fishes: a comparison of temperate and tropical reefs. Mar Biol 128:373–383CrossRefGoogle Scholar
  54. Millar AJK (1990) Marine red algae of the Coffs harbour region, northern NSW. Aust Syst Bot 3:293–593CrossRefGoogle Scholar
  55. NSWMPA (2001) Developing a representative system of marine protected areas in NSW-an overview. NSW Marine Parks Authority, SydneyGoogle Scholar
  56. NSWMPA (2000) Solitary islands Marine Park, planning issues and option paper. NSW Marine Parks Authority, SydneyGoogle Scholar
  57. NSWMPA (2007) Natural values of the Solitary Islands Marine Park. NSW Department of Environment and Climate Change, SydneyGoogle Scholar
  58. Parker PG (1999) Fish assemblages at Julian Rocks and the adjacent waters of northern New South Wales, Australia. Aust Zool 31:134–160Google Scholar
  59. Planes S, Jones GP, Thorrold SR (2009) Larval dispersal connects fish populations in a network of marine protected areas. Proc Natl Acad Sci USA 106:5693–5697CrossRefPubMedGoogle Scholar
  60. Poloczanska ES et al (2007) Climate change and Australian marine life. Oceanogr Mar Biol Annu Rev 45:407–478Google Scholar
  61. Poore GCB (2001) Biogeography and diversity of Australia’s marine biota. The State of the Marine Environment Report for Australia. Technical annex: 1. The marine environment. In: Zann LP, Kailola P (eds) Department of the Environment, Sport and Territories, TownsvilleGoogle Scholar
  62. Randall JE, Allen GR, Steene RC (1997) The complete divers′ and fishermen's guide to fishes of the Great Barrier Reef and Coral Sea. Crawford House, BathurstGoogle Scholar
  63. Richardson DL (1999) Correlates of environmental variables with patterns in the distribution and abundance of two anemonefishes (Pomacentridae: Amphiprion) on an eastern Australian sub-tropical reef system. Environ Biol Fishes 55:255–263CrossRefGoogle Scholar
  64. Ridgeway KR (2007) Long-term trend and decadal variability of the southward penetration of the East Australian Current. Geophys Res Lett 34:L13613CrossRefGoogle Scholar
  65. Ridgeway KR, Godfrey JS (1997) Seasonal cycle of the East Australian Current. J Geophys Res 102:22921–22936CrossRefGoogle Scholar
  66. Ridgeway KR, Dunn JR (2003) Mesoscale structure of the mean East Australian Current System and its relationship with topography. Prog Oceanogr 56:189–222CrossRefGoogle Scholar
  67. Rule M, Smith S (2007) Depth-associated patterns in the development of benthic assemblages on artificial substrata deployed on shallow, subtropical reefs. J Exp Mar Biol Ecol 345:38–51CrossRefGoogle Scholar
  68. Rule M, Jordan A, McIlgorm A (2007) The marine environment of northern New South Wales. A review of current knowledge and existing datasets. Report to the Northern Rivers Catchment Management Authority. National MarineScience Centre, Coffs HarbourGoogle Scholar
  69. Shima JS, Osenberg CW (2003) Cryptic density dependence: effects of covariation between density and site quality in reef fish. Ecology 84:46–52CrossRefGoogle Scholar
  70. Short DA, Woodroffe CD (2009) The coast of Australia. Cambridge University Press, New YorkGoogle Scholar
  71. Smith S, Rule M, Harrison M, Dalton S (2008) Monitoring the sea change: preliminary assessment of the conservation value of nearshore reefs, and existing impacts, in a high-growth, coastal region of subtropical eastern Australia. Mar Pollut Bull 56:525–534CrossRefPubMedGoogle Scholar
  72. Smith SDA (2005) Rapid assessment of invertebrate biodiversity on rocky shores: where there's a whelk there's a way. Biodivers Conserv 14:3565–3576CrossRefGoogle Scholar
  73. Smith SDA, Malcolm HA, Rule M, Dalton SJ, Harrison M (2005) Rapid biodiversity assessment of inshore reefs. Report to the Northern Rivers Catchment Management Authority, NSW. National MarineScience Centre, Coffs HarbourGoogle Scholar
  74. Stevens T, Connolly RM (2004) Testing the utility of abiotic surrogates for marine habitat mapping at scales relevant to management. Biol Conserv 119:351–362CrossRefGoogle Scholar
  75. Stewart RR, Noyce T, Possingham HP (2003) Opportunity cost of ad hoc marine reserve design decisions: an example from South Australia. Mar Ecol Prog Ser 253:25–38CrossRefGoogle Scholar
  76. Terlizzi A, Benedetti-Cecchi L, Bevilacqua S, Fraschetti S, Guidetti P, Anderson MJ (2005) Multivariate and univariate asymmetrical analyses in environmental impact assessment: a case study of Mediterranean subtidal sessile assemblages. Mar Ecol Prog Ser 289:27–42CrossRefGoogle Scholar
  77. Veron JEN, How RA, Done TJ, Zell LD, Dodkin MJ, O’Farrell AF (1974) Corals of the Solitary Islands, central New South Wales. Aust J Mar Freshw Res 25:193–208CrossRefGoogle Scholar
  78. Ward TJ, Vanderklife MA, Nicholls AO, Kenchington RA (1999) Selecting marine reserves using habitats and species assemblages as surrogates for biological diversity. Ecol Appl 9:691–698CrossRefGoogle Scholar
  79. Williams A, Bax NJ (2001) Delineating fish-habitat associations for spatially based management: an example from the south-eastern Australian continental shelf. Mar Freshw Res 52:513–536CrossRefGoogle Scholar
  80. Willis TJ, Anderson MJ (2003) Structure of cryptic reef fish assemblages: relationships with habitat characteristics and predator density. Mar Ecol Prog Ser 257:209–221CrossRefGoogle Scholar
  81. Wismer S, Hoey A, Bellwood D (2009) Cross-shelf benthic community structure on the Great Barrier Reef: relationships between macroalgal cover and herbivore biomass. Mar Ecol Prog Ser 376:45–54CrossRefGoogle Scholar
  82. Zann LP (2000) The eastern Australian region: a dynamic tropical/temperate biotone. Mar Pollut Bull 41:188–203CrossRefGoogle Scholar

Copyright information

© Senckenberg, Gesellschaft für Naturforschung and Springer 2010

Authors and Affiliations

  • Hamish A. Malcolm
    • 1
    • 2
  • Alan Jordan
    • 3
  • Stephen D. A. Smith
    • 2
    • 4
  1. 1.Solitary Islands Marine ParkNSW Marine Parks AuthorityCoffs Harbour JettyAustralia
  2. 2.School of Environmental and Rural ScienceUniversity of New England, National Marine Science CentreCoffs HarbourAustralia
  3. 3.NSW Department of EnvironmentClimate Change and WaterNelson BayAustralia
  4. 4.National Marine Science CentreSouthern Cross UniversityCoffs HarbourAustralia

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