*

CORAL TROUTS

Plectropomus spp. & Variola spp.

  • Tom Roberts (Department of Agriculture and Fisheries, Queensland)
  • Ashley Williams (Australian Bureau of Agricultural and Resource Economics and Sciences)
  • Nic Marton (Australian Bureau of Agricultural and Resource Economics and Sciences)
  • Stephen Newman (Department of Fisheries, Western Australia)
  • Thor Saunders (Department of Primary Industry and Resources, Northern Territory)

You are currently viewing a report filtered by jurisdiction. View the full report.

Toggle content

Stock Status Overview

Stock status determination
Jurisdiction Stock Fisheries Stock status Indicators
Northern Territory Northern Territory CLF, FTO Sustainable Catch, SAFE  assessment
CLF
Coastal Line Fishery (NT)
FTO
Fishery Tour Operator (NT)
Toggle content

Stock Structure

The Coral Trout species complex, part of the family Serranidae, is found throughout Australia and is comprised of: Common Coral Trout (Plectropomus leopardus), Barcheek Coral Trout (P. maculatus), Bluespotted Coral Trout (P. laevis), Passionfruit Coral Trout (P. areolatus), Yellow-edge Coronation Trout (Variola louti) and White-edge Coronation Trout (V. albimarginata), with the Bluespotted Coral Trout and Passionfruit Coral Trout not being found in Western Australia and Northern Territory. The biological stock structures of these species are spatially complex1–4 and remain uncertain.

 

Here, assessment of stock status for this multispecies group is presented at the management unit level—Torres Strait Finfish Fishery (Commonwealth); Coral Reef Fin Fish Fishery and Gulf of Carpentaria (Queensland); and at the jurisdictional level—Western Australia and Northern Territory.

Toggle content

Stock Status

Northern Territory

Only small catches are reported from the Fishing Tour Operator sector, Coastal Line Fishery, Demersal Fishery and Timor Reef Fishery. Because Coral Trout are only an incidental catch in these fisheries and are rarely caught by recreational fishers9, a semi-quantitative sustainable assessment for fishing effects model9 was used to assess the fishing mortality rate on this species, using data up to 2015. The model results indicated that there is a low risk of Coral Trout being overfished at current levels of harvest, as there is a very low overlap of the fisheries activity and the distribution of Coral Trout in Northern Territory waters. The above evidence indicates that the biomass of this stock is unlikely to be recruitment overfished; and that the current level of fishing pressure is unlikely to cause the stock to become recruitment overfished.

 

On the basis of the evidence provided above, the Coral Trout species group in the Northern Territory is classified as a sustainable stock.

Toggle content

Biology

Biology
Species Longevity / Maximum Size Maturity (50 per cent)
CORAL TROUTS Plectropomus leopardus: 17 years; ~650 mm FL P. maculatus: 13 years; ~650 mm FL P. laevis: 16 years; ~1150 mm FL P. areolatus: 14 years; ~650 mm FL Variola louti: 7 years;~520 mm FL V. albimarginata: 12 years; ~380 mm FL All species are protogynous hermaphrodites (individuals are born female and later become male). Size at maturity and sex change also vary by location. P. leopardus: female ~280 mm FL, male ~500 mm FL  P. maculatus: female ~300 mm FL, male ~ 440 mm FL P. laevis: female ~450 mm FL, male ~870 mm FL P. areolatus: female ~370 mm FL, male ~550 mm FL V. louti: Unknown V. albimarginata: Unknown

Coral Trout biology11–18

Toggle content

Distributions

Distribution of reported commercial catch of Coral Trout

Toggle content

Tables

Fishing methods
Northern Territory
Commercial
Line
Unspecified
Indigenous
Spearfishing
Hand Line, Hand Reel or Powered Reels
Recreational
Spearfishing
Hand Line, Hand Reel or Powered Reels
Management methods
Method Northern Territory
Commercial
Gear restrictions
Limited entry
Spatial closures
Spatial zoning
Total allowable catch
Total allowable effort
Vessel restrictions
Indigenous
Laws of general application
Recreational
Bag limits
Gear restrictions
Licence
Limited entry
Passenger restrictions
Possession limit
Size limit
Spatial closures
Spatial zoning
Active vessels
Northern Territory
24, 9 in CLF, 8 in TRF
CLF
Coastal Line Fishery (NT)
TRF
Timor Reef Fishery (NT)
Catch
Northern Territory
Commercial 200.83kg in CLF, 1.36t in FTO
Indigenous Negligible
Recreational 2.8 t (2010),0.9 t in FTO (2012)
CLF
Coastal Line Fishery (NT)
FTO
Fishery Tour Operator (NT)

Commonwealtha Queenslanda Northern Territoryb Western Australiab Recreationalc Indigenousd,e,f

 

 

a Data provided for the Commonwealth and Queensland align with the 2014–15 financial year.

b Data provided for Western Australia and the Northern Territory align with the 2015 calendar year.

c The Australian Government does not manage recreational fishing in Commonwealth waters. Recreational fishing in Commonwealth waters is managed by the state or territory immediately adjacent to those waters, under its management regulations.

d The Australian Government does not manage non-commercial Indigenous fishing in Commonwealth waters (with the exception of the Torres Strait). In general, non-commercial Indigenous fishing in Commonwealth waters is managed by the state or territory immediately adjacent to those waters. In the Torres Strait, both commercial and non-commercial Indigenous fishing is managed by the Torres Strait Protected Zone Joint Authority (PZJA) through the Australian Fisheries Management Authority (Commonwealth), the Department of Agriculture, Fisheries and Forestry (Queensland), and the Torres Strait Regional Authority. The PZJA also manages non-Indigenous commercial fishing in the Torres Strait.

e Under the Fisheries Act 1994 (Qld), Indigenous fishers in Queensland are able to use prescribed traditional and non-commercial fishing apparatus in waters open to fishing. Size and possession limits, and seasonal closures do not apply to Indigenous fishers. Further exemptions to fishery regulations may be applied for through permits.

f Subject to the defence that applies under Section 211 of the Native Title Act 1993 (Cth), and the exemption from a requirement to hold a recreational fishing licence, the non-commercial take by indigenous fishers is covered by the same arrangements as that for recreational fishing.

g Western Australia – Commercial (management methods) In Western Australia, different zones within fisheries may have different effort allocations.

h Western Australia – Recreational (Catch) Boat-based recreational catch from 1 May 2013–30 April 2014.

Toggle content

Catch Chart

Commercial catch of Coral Trout

Toggle content

Effects of fishing on the marine environment

  • There were no reported interactions with protected species by the Torres Strait Finfish Fishery (Commonwealth) in 2014, or the Coral Reef Fin Fish Fishery (Queensland) (CRFFF) in the 2012–13 fishing season, indicating that the impact of these fisheries on protected species is low.

 

  • Line fishing for Coral Trout is likely to have little direct effect on the marine environment20. However, there is evidence that the removal of predators (including Coral Trout) can lead to an increase in the abundance of their prey species, which is indicative of food web changes20. The impacts of this are unknown.

 

  • During the 2014–15 fishing seasons, the CRFFF reported minimal interactions with protected species. The following species: Barramundi Cod and Humphead Maori Wrasse, were identified, but overall the impact on protected species is low.

 

  • Commercial trawl gear used in the Northern Territory has the potential to impact on the benthic habitat. However, trawl nets in the Northern Territory have been designed to fish off the seabed, reducing interaction with benthic habitats21. The trawl fishery in the Northern Territory comprises a very small fleet and only fishes about seven per cent of the available area21.
Toggle content

Environmental effects on CORAL TROUTS

  • The most recent Queensland Coral Trout stock assessment10 notes the impact of cyclones on reducing Coral Trout catch rates. A 2010 study22 reported on the effects of three tropical cyclones on the Coral Reef Fin Fish Fishery (Queensland) industry, including a decrease in Coral Trout catch rates of around one-third in regions with the most structural reef damage. The destruction, scouring and displacement of reef habitat were significant and widespread across large areas of the reef. In addition to the structural reef damage, commercial fishers reported reduced catch rates of all species throughout the directly impacted areas22. The analysis identifies depressed catch rates for 12–24 months in affected areas following cyclones.

 

  • Climate change impacts are a concern for coral reef ecosystems. Climate change has been linked to changes in ocean chemistry, and increases in the frequency and extent of coral bleaching events23. These events can also affect the replenishment rates of coral reef fin fish populations, individual growth rates24 and spawning output25,26 and may influence the geographic distribution of coral reef species (for example, latitudinal shifts in distribution).
Toggle content

References

  1. 1 Bergenius, MA, Begg, GA and Mapstone, BD 2006, The use of otolith morphology to indicate the stock structure of common Coral Trout (Plectropomus leopardus) on the Great Barrier Reef, Australia, Fishery Bulletin, 104: 498–511.
  2. 2 Bergenius, MAJ, Mapstone, BD, Begg, GA and Murchie, CD 2005, The use of otolith chemistry to determine stock structure of three epinepheline serranid coral reef fishes on the Great Barrier Reef, Australia, Fisheries Research, 72:253–270.
  3. 3 Van Herwerden, L, Choat, JH, Dudgeon, CL, Carlos, G, Newman, SJ, Frisch, A and van Oppen, M 2006, Contrasting patterns of genetic structure in two species of the Coral Trout Plectropomus (Serranidae) from east and west Australia: introgressive hybridization or ancestral polymorphisms, Molecular Phylogenetics and Evolution, 41: 420–435.
  4. 4 van Herwerden, L, Choat, JH, Newman, SJ, Lerray, M and Hillesroy, G 2009, Complex patterns of population structure and recruitment of Plectropomus leopardus (Pisces: Epinephelidae) in the Indo-West Pacific: implications for fisheries management, Marine Biology, 156: 1595–1607.
  5. 5 Williams, AJ, Begg, GA, Little, LR, Currey, LM, Ballagh, AC and Murchie, CD 2007, Evaluation of the eastern Torres Strait Reef Line Fishery, Technical report 1, Fishing and Fisheries Research Centre, James Cook University, Townsville.
  6. 6 Marton, N and Skirtun, M 2014, Torres Strait Finfish Fishery, in L Georgeson, I Stobutzki and R Curtotti (eds), Fishery status reports 2013–14, Australian Bureau of Agricultural and Resource Economics and Sciences, Canberra, 289–299
  7. 7 Williams, AJ, Little, LR and Begg, GA 2011, ‘Balancing indigenous and non-Indigenous commercial objectives in a coral reef finfish fishery’, ICES Journal of Marine Science, vol. 68, no. 5, pp. 834–847.
  8. 8 Newman, SJ, Wakefield, C, Skepper, C, Boddington, D, Blay, N, Jones, R and Dobson, P 2015, North Coast Demersal Fisheries Status Report. pp. 189-206. In: Fletcher, W.J. and Santoro, K. (eds.). Status Reports of the Fisheries and Aquatic Resources of Western Australia 2014/15: The State of the Fisheries. Department of Fisheries, Western Australia, Perth, Australia. 353p.
  9. 9 West, L.D, Lyle, JM, Matthews, SR, Stark, KE, and Steffe, A.S 2012, Survey of recreational fishing in the Northern Territory, 2009-10. Fishery Report-Department of Resources, Northern Territory Government, (109). 
  10. 10 Leigh, GM, Campbell, AB, Lunow, CP and O’Neill, MF 2014, Stock assessment of the Queensland east coast common coral trout (Plectropomus leopardus) fishery, Queensland Department of Agriculture, Fisheries and Forestry, Brisbane.
  11. 11 Ferreira, BP 1995, Reproduction of the common Coral Trout Plectropomus leopardus (Serranidae: Epinephelinae) from the central and northern Great Barrier Reef, Australia, Bulletin of Marine Science, 56: 653–669.
  12. 12 Heupel, MR, Williams, AJ, Welch, DJ, Davies CR, Adams, S, Carlos, G, and Mapstone, BD 2010, Demography of a large exploited grouper, Plectropomus laevis: Implications for fisheries management, Marine and Freshwater Research, 61: 184–195.
  13. 13 Frisch, AJ, Cameron, DS, Pratchett, MS, Williamson, DH, Williams, AJ, Reynolds, AD, Hoey, AS, Rizzari, JR, Evans, L, Kerrigan, B, Muldoon G, Welch, DJ, and Hobbs, J-PA, 2016, Key aspects of the biology, fisheries and management of Coral grouper, Reviews in Fish Biology and Fisheries, 26: 303–325.
  14. 14 Mapleston, A, Currey, LM, Williams, AJ, Pears, R, Simpfendorfer, CA, Penny, AL, Tobin, A, and Welch D, 2009. Comparative biology of key inter-reefal serranid species on the Great Barrier Reef. Project Milestone Report to the Marine and Tropical Sciences Research Facility, Reef and Rainforest Research Centre Limited, Cairns, 55pp.
  15. 15 Kailola, PJ, Williams, MJ, Stewart, PC, Reichelt, RE, McNee, A and Grieve, C 1993, Australian fisheries resources, Bureau of Resource Sciences and Fisheries Research and Development Corporation, Canberra.
  16. 16 Mapstone, BD 2004, The effects of line fishing on the Great Barrier Reef and evaluations of alternative potential management strategies, Technical report 54, CRC Reef Research Centre, CSIRO Marine Research and Fisheries Research and Development Corporation, Townsville.
  17. 17 Samoilys, MA 1997, Periodicity of spawning aggregations of coral trout Plectropomus leopardus (Pisces: Serranidae) on the northern Great Barrier Reef, Marine Ecology Progress Series, 160: 149–159.
  18. 18 Williams, G, Currey, LM, Begg, GA, Murchie, CD and Ballagh, AC 2008, Population biology of coral trout species in eastern Torres Strait: implications for fisheries management, Continental Shelf Research, 28: 2129–2142.
  19. 19 Webley, JAC, McInnes, K, Teixeira, D, Lawson, A, Quinn, R 2015, Statewide Recreational Fishing Survey 2013–14. Department of Agriculture and Fisheries, Queensland Government.
  20. 20 Great Barrier Reef Management Authority 2009, Great Barrier Reef outlook report 2009, GBRMPA, Townsville.
  21. 21 Mounsey, RP and Ramm, DC 1991, Evaluation of a new design of semi-demersal trawl, Fishery report 25, Northern Territory Department of Primary Industry and Fisheries, Darwin.
  22. 22 Tobin, A, Schlaff, A, Tobin, R, Penny, A, Ayling, T, Ayling, A, Krause, B, Welch, D, Sutton, S, Sawynok, W, Marshall, N, Marshall, P and Maynard, J 2010, Adapting to change: minimising uncertainty about the effects of rapidly-changing environmental conditions on the Queensland Coral Reef Fin Fish Fishery, final report to the Fisheries Research and Development Corporation, project 2008/103, Fishing and Fisheries Research Centre, James Cook University, Townsville.
  23. 23 Hoegh-Guldberg, O, Mumby, PJ, Hooten, AJ, Steneck, RS, Greenfield, P, Gomez, E, Harvell, CD, Sale, PF, Edwards, AJ, Caldeira, K, Knowlton, N, Eakin, CM, Iglesias-Prieto, R, Muthiga, N, Bradbury, RH, Dubi, A and Hatziolos, ME 2007, Coral reefs under rapid climate changes and ocean acidification, Science, 318: 1737–1742.
  24. 24 Hughes, T 2010, Marine and Tropical Sciences Research Facility milestone report for program 2.5i.3, report to the Australian Government Department of the Environment, Water, Heritage and the Arts.
  25. 25 Johnson, JE and Welch, DJ 2010, Marine fisheries management in a changing climate: a review of vulnerability and future options, Reviews in Fisheries Science, 18: 106–124.
  26. 26 Pratchett, MS, Messmer, V, Reynolds, A, Clark, TD, Munday, PL, Tobin, AJ and Hoey, AS 2013, Effects of climate change on reproduction, larval development, and adult health of coral trout (Plectropomus spp.), James Cook University, Townsville.

Archived reports

Click the links below to view reports from other years for this fish.