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Eastern Rock Lobster (2018)

Sagmariasus verreauxi

  • Geoff Liggins (Department of Primary Industries, New South Wales)

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Summary

Eastern Rock Lobster is a sustainable species found on rocky reefs and sandy areas along Australia’s east coast. It is harvested commercially in NSW, with some recreational catch.

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Stock Status Overview

Stock status determination
Jurisdiction Stock Fisheries Stock status Indicators
New South Wales New South Wales Rock Lobster Fishery NSWRLF Sustainable Biomass, CPUE, catch as percentage of TACC, spawning stock abundance (FIS-based), puerulus recruitment (FIS-based), size structure 
NSWRLF
New South Wales Lobster Fishery (NSW)
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Stock Structure

Eastern Rock Lobsters occur on rocky reef and sand/mud substrates in depths of less than 1 m to around 200 m, from southern Queensland to Port MacDonnell in South Australia, including around Tasmania [Montgomery and Liggins 2013]. The greatest abundances and the only significant catches occur along the New South Wales coast, where Eastern Rock Lobster is taken by commercial and recreational fishers [Liggins et al. 2018, Montgomery and Liggins 2013, NSW DPI 2007). This species also occurs off New Zealand, predominantly around the North Island [Booth 2011, Kensler 1967].

The spawning stock of Eastern Rock Lobster in Australia is concentrated on the north coast of New South Wales. Following spawning and a nine-month larval phase (pelagic phyllosoma larvae), puerulus post-larvae recruit to shallow inshore reefs along the entire New South Wales coast [Liggins et al. 2018, Montgomery and Craig, 2005]. This suggests a single New South Wales (Australian) biological stock. Genetic studies done in the 1990s suggested that the stocks off Australia and New Zealand may be discrete populations [Brasher et al. 1992, Ovenden and Brasher 1994]. However, contemporary techniques using single nucleotide polymorphisms to genotype Eastern Rock Lobsters from New South Wales, Tasmania and New Zealand found genetic homogeneity across the three regions [Woodings et al. 2018]. This finding is consistent with oceanographic modelling that demonstrated the potential for a small proportion of phyllosoma larvae to be transported eastward across the Tasman Sea to New Zealand [Chiswell et al. 2003]. This implies that recruitment to the New South Wales (Australian) stock is dependent on the New South Wales spawning stock but that recruitment to the New Zealand stock is likely supplied by spawning stocks in both New Zealand and New South Wales.

Here, assessment of stock status is presented at the biological stock level—New South Wales Rock Lobster Fishery.

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Stock Status

New South Wales Rock Lobster Fishery

Following concerns about the sustainability of the Eastern Rock Lobster resource in the early-1990s, stock abundance has responded positively to management initiatives, including the introduction of a maximum legal length, individually numbered management tags, share management and a total allowable commercial catch (TACC) [Liggins et al. 2018, Montgomery and Liggins 2013, NSW DPI 2000, NSW DPI 2007, NSW Gov. 2018].

The annual TACC has effectively been taken (that is, more than 95 per cent caught) each year since 2004–05, indicating that the TACC has been limiting catch. Catch during the most recent complete quota year (August 2016–July 2017) was 154.6 tonnes (t), marginally below the 2016–17 TACC of 160 t. The TACC has increased from 102 t in 2004–05 to 160 t in 2015–16 and has been set at 170 t for the 2018–19 season [NSW Gov. 2018]. Small shortfalls on the annual TACC have occurred due to limitations of the quota trading system in coping with the seasonality of different spatial components of the fishery. During the past four years, between four and ten t of legal-size lobsters have been discarded annually due to individual fishers in the deep-water component of the fishery catching more than their quota. Catch per unit effort has increased approximately four-fold since a low point in the early-1990s and is currently the greatest observed during the past four decades. Abundance of spawning stock, estimated from a fishery-independent trap-based survey, increased approximately four-fold between the late-1990s-early-2000s and the most recent survey during 2016–17. Based on an annual survey of puerulus abundance along the New South Wales coast, recruitment of pueruli has shown inter-annual fluctuations but also an increasing linear trend during the past two decades, approximately doubling since the mid-1990s [Liggins et al. 2018].

A length-structured model of the lobster population and the fishery provides annual estimates of stock biomass and depletion of biomass relative to pre-exploitation levels, and a prospective risk analysis of the likely consequence for biomass of alternative future TACCs. The base-case scenario of the most recent assessment [Liggins et al. 2018] estimated that spawning biomass (SB) at the commencement of the 2017–18 season was 33 per cent (90 per cent confidence interval 29–48 per cent) of the unfished (1884–85) level, having increased seven-fold (median SB2017–18/SB1994–95 = 7.6; 90 per cent confidence interval 6.2–9.2) since 1994–95. Multiple sensitivity scenarios, in which key assumptions in the base-case scenario were examined, all provided estimates of current SB depletion (2017–18) that were above the limit reference point of 25 per cent Liggins et al. 2018]. The stock is not considered to be recruitment impaired.

Based on the prospective risk analysis of the consequences of alternative future catches, an independent Total Allowable Fishing committee sets TACCs annually to maintain the spawning biomass above the biological reference point of 25 per cent of unfished biomass. Moreover, although there is no legislated target reference point for the stock, the stock has now rebuilt to a level approaching the range of biomass where common fishery targets are expected to be for this species [NSW Gov. 2018]. Prospective, model-based, risk assessment of alternative TACCs suggests that the current TACC will allow some further rebuilding of biomass towards maximum stock productivity [Liggins et al. 2018, NSW Gov. 2018]. This level of fishing mortality is unlikely to cause the stock to become recruitment impaired.

On the basis of the evidence provided above, the biological stock is classified as a sustainable stock.

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Biology

Eastern Rock Lobster biology [Montgomery 1992, Montgomery et al. 2009, Montgomery and Liggins 2013]

Biology
Species Longevity / Maximum Size Maturity (50 per cent)
Eastern Rock Lobster ≥ 30 years, 260 mm CL  Females 167 mm CL 
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Distributions

Distribution of reported commercial catch of Eastern Rock Lobster

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Tables

Fishing methods
New South Wales
Commercial
Diving
Rock Lobster And Crayfish Traps And Pots
Indigenous
Diving
Rock Lobster And Crayfish Traps And Pots
Recreational
Diving
Rock Lobster And Crayfish Traps And Pots
Management methods
Method New South Wales
Commercial
Demerit points, share confiscation
Gear restrictions
Individual transferable quota
Limited entry
Management tags
Marine park closures
Mesh size regulations
Protection of egg-bearing females
Size limit
Spatial closures
Total allowable catch
Vessel restrictions
Indigenous
Bag limits
Native Title
Section 37 (1d)(3)(9), Aboriginal cultural fishing authority
Recreational
Bag and possession limits
Bag limits
Gear restrictions
Licence
Marine park closures
Protection of egg-bearing females
Size limit
Spatial closures
Active vessels
New South Wales
103 in NSWRLF
NSWRLF
New South Wales Lobster Fishery (NSW)
Catch
New South Wales
Commercial 154.57t in NSWRLF
Indigenous Unknown
Recreational 16 t (2013–14)
NSWRLF
New South Wales Lobster Fishery (NSW)

New South Wales – Commercial (Fishing Methods / Diving). Diving method is skindiving only, use of underwater breathing apparatus is not permitted.

New South Wales – Recreational (Catch totals).Recreational catch of 16 t is based on (i) an estimate of 23 216 (standard error ± 12 501) lobsters taken by recreational fishers during 2013–14 [West et al 2015]; and (ii) an assumed mean weight of 689 g per lobster (mean weight caught by commercial fishers in depths less than 10 m during 2013–14).

New South Wales – Recreational (Fishing Methods) Diving method is skindiving only, use of underwater breathing apparatus is not permitted.

New South Wales – Indigenous (Management Methods) (a) The Aboriginal Cultural Fishing Interim Access Arrangement allows an Indigenous fisher in New South Wales to take in excess of a recreational bag limit in certain circumstances - for example, if they are doing so to provide fish to other community, (b) The Aboriginal Cultural Fishing Authority is the authority that Indigenous persons can apply to take catches outside the recreational limits under the Fisheries Management Act 1994 (NSW), Section 27 (1d) (3) (9), and (c) In cases where the Native Title Act 1993 (Cth) applies fishing activity can be undertaken by the person holding native title in line with S.211 of that Act, which provides for fishing activities for the purpose of satisfying their personal, domestic or non-commercial communal needs. In managing the resource where native title has been formally recognised, the native title holders are engaged with to ensure their native title rights are respected and inform management of the State's fisheries resources.

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Catch Chart

Commercial catch of Eastern Rock Lobster - note confidential catch not shown

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References

  1. Booth, J 2011, Spiny Lobster: through the eyes of the giant packhorse, Victoria University Press, Wellington.
  2. Brasher, DJ, Ovenden, JD, Booth, JD and White, RWG 1992, Genetic subdivision of Australian and New Zealand populations of Jasus verreauxi (Decapoda: Palinuridae)—preliminary evidence from the mitochondrial genome, New Zealand Journal of Marine and Freshwater Research, 26: 53–58.
  3. Chiswell, S, Wilkin, J, Booth, JD and Stanton, BR, 2003. Trans-Tasman Sea larval transport: Is Australia a source for New Zealand rock lobsters?, Marine Ecology Progress Series, 247: 173-182.
  4. Kensler, CB 1967, The distribution of Spiny Lobsters in New Zealand waters (Crustacea: Decapoda: Palinuridae), New Zealand Journal of Marine and Freshwater Research, 1: 412–420.
  5. Liggins, GW, Miller, ME and Ballinger, G 2018, Resource assessment—lobster: prepared for the total allowable catch setting and Review Committee process for the determination for the total allowable commercial catch of NSW lobster for the 2018/19 season, New South Wales Department of Primary Industries, Sydney.
  6. Montgomery, SS 1992, Sizes at first maturity and at onset of breeding in female Jasus verreauxi (Decapoda: Palinuridae) from New South Wales waters, Australia, Australian Journal of Marine and Freshwater Research, 3: 1373–1379.
  7. Montgomery, SS and Craig, JR 2005, Distribution and abundance of recruits of the eastern rock lobster (Jasus verreauxi) along the coast of NSW, Australia, New Zealand Journal of Marine and Freshwater Research, 39: 619-628.
  8. Montgomery, SS and Liggins, GW 2013, Recovery of the Eastern Rock Lobster Sagmariasus verreauxi off New South Wales, Australia, Marine Biology Research, 9: 104–115.
  9. Montgomery, SS, Liggins, GW, Craig, JR and McLeod, JR 2009, Growth of the Spiny Lobster Jasus verreauxi (Decapoda: Palinuridae) off the east coast of Australia, New Zealand Journal of Marine and Freshwater Research, 43: 113–123.
  10. New South Wales Department of Primary Industries 2000, Fisheries management (Lobster share management plan) regulation 2000, NSW DPI, Sydney.
  11. New South Wales Department of Primary Industries 2007, Fishery Management Strategy for the NSW Lobster Fishery, NSW DPI, Sydney.
  12. New South Wales Government 2018, New South Wales Total Allowable Catch Committee report and determination for 2018/2019—Rock Lobster Fishery, Sydney.
  13. Ovenden, JR and Brasher, DJ 1994, Stock identity of the Red (Jasus edwardsii) and Green (J. verreauxi) Rock Lobsters inferred from mitochondrial DNA analysis, in BF Phillips, JS Cobb and J Kittaka (ed.s), Spiny Lobster management, Blackwell, London, pp 230–249.
  14. West, LD, Stark, KE, Murphy, JJ, Lyle, JM and Ochwada-Doyle, FA 2015, Survey of recreational fishing in New South Wales and the ACT, 2013/14, Fisheries Final Report Series 149, New South Wales Department of Primary Industries, Wollongong.
  15. Woodings, LN, Murphy, NP, Doyle, SR, Hall, NE, Robinson, AJ, Liggins, GW, Green, BS, Cooke, IR, Bell, JJ and Strugnell, JM, 2018, Outlier SNPs detect weak regional structure against a background of genetic homogeneity in the Eastern Rock Lobster Sagmariasus verreauxi, Marine Biology, 165:185.

Archived reports

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