Sand Whiting (2020)
Date Published: June 2021
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Sand Whiting is a sustainable species along the east coast of Australia. It is most abundant in southern QLD and northern NSW.
Stock Status Overview
|New South Wales||New South Wales||Sustainable||
Catch, effort and standardised CPUE, length and age, mortality rates
Sand Whiting occur along the east coast of Australia and are most abundant in southern Queensland and northern New South Wales. Tagging studies have shown movement of adult fish between estuaries, but information on biological stock boundaries remains incomplete. The unknown nature of biological stock composition means no formal assessment of the entire biological stock has been completed. Separate assessments of Sand Whiting have been conducted in Queensland and New South Wales [Hoyle et al. 2000, O'Neill et al. 2000, Ochwada-Doyle et al. 2014, Hall 2020].
Here, assessment of stock status is presented at the jurisdictional level—Queensland and New South Wales.
New South Wales
In New South Wales, Sand Whiting are mainly taken by the commercial Estuary General Fishery using mesh nets and general-purpose hauling nets, and smaller catches are reported by the Ocean Hauling Fishery [Hall 2015]. Annual commercial catches of Sand Whiting in New South Wales waters remained above 130 tonnes (t) between 1980–91 and 2007–08 but have since gradually decreased to the lowest catches in five decades of 74.9 t in 2017–18 and 75.1 t in 2018–19 [Hall 2020]. This recent decrease in catches has coincided with a similar decline in effort, such that the standardised commercial catch rates for both the mesh netting and hauling sectors, while variable, have remained near long-term averages over the last 11 years [Hall 2020]. The length compositions of the commercial landings for this species have been relatively stable since the late-1960s (although the time-series has many missing years) [NSW DPI, unpublished data]. Local populations that have been studied are predominantly comprised of fish that are between two and five years of age [Ochwada-Doyle et al. 2014].
Relative to the commercial catch, recreational catches comprised approximately 46.3 per cent of the total harvest from New South Wales in 2013–14 [Hall 2020]. The most recent estimate of the recreational harvest of Sand Whiting in New South Wales was approximately 280 064 fish or around 33.6 t during 2017–18 [Murphy et al. 2020]. This estimate was based on a survey of Recreational Fishing Licence (RFL) Households, comprised of at least one fisher possessing a long-term (1 or 3 years duration) fishing licence and any other fishers resident within their household. The equivalent estimated recreational harvest in 2013–14 was approximately 38 per cent smaller at 172 941 fish, which suggests catches have recently increased, although available data are limited [Murphy et al. 2020]. A survey of Aboriginal cultural fishing in the Tweed River catchment identified Sand Whiting as one of the top 10 most important species numerically in catches and was estimated to account for 14.2 per cent of the total finfish catches in that catchment [Schnierer and Egan 2016]. Statewide estimates of the annual Aboriginal harvest of Sand Whiting in NSW waters are unknown but are assumed to be significant. In combination, the above evidence indicates that the biomass of this stock is unlikely to be depleted and that recruitment is unlikely to be impaired.
Nominal effort levels (in total number of days fished) over the past 11 years have been well below historical levels. In 2018–19, effort was 7 969 days for mesh netting and 950 days for hauling compared with 23 093 and 8 012 days, respectively, in 1998–99 [Hall 2020]. Changes in catch reporting from monthly to daily records in July 1997 significantly altered effort distributions and would account for some of the historical decrease. There is a minimum legal length for both commercial and recreational fishers of 270 mm TL and recreational fishing havens in 31 New South Wales estuaries, and associated commercial fishing licence buyout, have also reduced commercial fishing pressure on the spawning stock. Previous estimates of mortality from catch curves indicate that the rate of fishing mortality is likely to be less than that of natural mortality, although these estimates need to be updated [Ochwada-Doyle et al. 2014]. Collectively, the above evidence indicates that the current level of fishing mortality is unlikely to cause the stock to become recruitment impaired.
On the basis of the evidence provided above, Sand Whiting in New South Wales is classified as a sustainable stock.
Sand Whiting biology [Burchmore et al. 1988, McKay RJ 1992, Ochwada-Doyle 2014, Stocks et al. 2011]
|Species||Longevity / Maximum Size||Maturity (50 per cent)|
12 years, 510 mm TL
Males 170–240 mm FL Females 190–240 mm FL
|New South Wales|
|Hook and Line|
|Hook and Line|
|Hook and Line|
|Method||New South Wales|
|Bag and possession limits|
|Section 37 (1d)(3)(9), Aboriginal cultural fishing authority|
|Bag and possession limits|
|In possession limits|
|New South Wales|
|Charter||242 fish (2018-19)|
|Recreational||33.6 t (2017–18)|
Queensland – Indigenous (management methods) for more information see https://www.daf.qld.gov.au/business-priorities/fisheries/traditional-fishing
New South Wales – Recreational (catch totals) Estimate from Murphy et al. , based on a survey of Recreational Fishing Licence households.
New South Wales – Indigenous (Management Methods) https://www.dpi.nsw.gov.au/fishing/aboriginal-fishing).
Commercial catch of Sand Whiting - note confidential catch not shown
- Burchmore, JJ 1988, Biology of four species of Whiting (Pices: Sillaginidae) in Botany Bay, New South Wales, Marine and Freshwater Research, 39: 709–27.
- Butcher, PA, Broadhurst, MK and Brand, CP 2006, Mortality of sand whiting (Sillago ciliata) released by recreational anglers in an Australian estuary, ICES Journal of Marine Science, 63: 567–571.
- Hall, KC 2015, Sand Whiting (Sillago ciliata), In: J Stewart, A Hegarty, C Young, AM Fowler and J Craig (eds), Status of fisheries resources in NSW 2013–14, NSW Department of Primary Industries, Mosman, 263–267.
- Hall, KC 2018, Status of Australian Fish Stocks 2018 – NSW Stock status summary – Sand Whiting (Sillago ciliata), NSW Department of Primary Industries, Coffs Harbour.
- Hall, KC 2020, Status of Australian Fish Stocks 2020 – NSW Stock status summary – Sand Whiting (Sillago ciliata), NSW Department of Primary Industries, Coffs Harbour.
- Hoyle, S, Brown, I, Dichmont, C, Sellin, M, Cosgrove, M and McLennan, M 2000, Integrated fish stock assessment and monitoring program, Fisheries Research and Development Corporation project 94/161, Queensland Department of Primary Industries, Brisbane.
- Leigh, GM, Yang, WH, O'Neill, MF, McGilvray, JG and Wortmann, J 2019, Stock assessments of bream, whiting and flathead (Acanthopagrus australis, Sillago ciliata and Platycephalus fuscus) in South East Queensland, Technical Report, State of Queensland.
- McKay, RJ 1992, Sillaginid fishes of the world, vol. 14, FAO synopsis no. 125, Food and Agriculture Organisation.
- Murphy, JJ, Ochwada-Doyle, FA, West, LD, Stark, KE and Hughes, JM, 2020, The NSW Recreational Fisheries Monitoring Program - survey of recreational fishing, 2017/18. Fisheries Final Report Series No. 158.
- O’Neill, MF 2000, Fishery assessment of the Burnett River, Maroochy River and Pumistone Passage, Project Report QO99012, Queensland Department of Primary Industries, Brisbane.
- Ochwada-Doyle, FA, Stocks, J, Barnes, L and Gray, CA 2014, Reproduction, growth and mortality of the exploited sillaginid, Sillago ciliata Cuvier, 1829, Journal of Applied Ichthyology, 30: 870–880, doi: 10.1111/jai.21478.
- QFish, Department of Agriculture and Fisheries, www.qfish.gov.au
- Schnierer, S and Egan, H, 2016, Composition of the Aboriginal harvest of fisheries resources in coastal New South Wales, Australia. Reviews in Fish Biology and Fisheries 26:693-709.
- Stocks, J, Stewart, J and Gray, CA 2011, Using otolith increment widths to infer spatial, temporal and gender variation in the growth of sand whiting Sillago ciliata, Fisheries Management and Ecology, 18: 121–131.
- Teixeira, D, Janes, R, and Webley, J 2021, 2019–20 Statewide Recreational Fishing Survey Key Results. Project Report. State of Queensland, Brisbane.
- Then, AY, Hoenig, NJ, Hall, NG, Hewitt, DA 2014, Evaluating the predictive performance of empirical estimators of natural mortality rate using information on over 200 fish species. ICES Journal of Marine Science.
- Webley, J, McInnes, K, Teixeira, D, Lawson, A and Quinn, R 2015, Statewide Recreational Fishing Survey 2013–14, Department of Agriculture and Fisheries, Queensland.