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Vongoles are found in southern coastal waters. They occur in the intertidal zone of shallow bays and estuaries. SA has three management zones, with one zone depleting, one undefined and one depleted. The stock in TAS is depleted. The WA stock is negligible.
Stock Status Overview
|South Australia||Coffin Bay Cockle Fishing Zone||Depleting||
Harvestable biomass estimate, recruitment
|South Australia||Port River Cockle Fishing Zone||Depleted||Harvestable biomass estimate, recruitment|
|South Australia||West Coast Cockle Fishing Zone||Undefined|
Vongole (Katelysia spp.) is a species complex that inhabits southern coastal waters from Augusta in Western Australia to Port Jackson in New South Wales. They are found on sand banks in shallow bays and estuaries from the intertidal zone to a depth of 5 m [Cantin 2010]. Stock structure is unknown. However, given the short larval life span, ~16 days for K. rhytiphora hatchery animals [Gluis and Li 2014], it is likely that Vongole in individual bays would constitute separate stocks.
Due to the potential for there to be a large number of stocks, assessment of stock status is presented at the management unit level—Western Australian Vongole Fishery; Ansons Bay Vongole Fishery (Tasmania); Coffin Bay Cockle Fishing Zone, Port River Cockle Fishing Zone, and West Coast Cockle Fishing Zone (South Australia).
Coffin Bay Cockle Fishing Zone
The 2018 estimate of harvestable biomass in the Coffin Bay Cockle Fishing Zone CBCFZ was 538 t and is lower than previous estimates [Heldt et al. 2020]. In addition, since 2015, Vongole density has decreased, large, legal sized Vongole have declined, and outputs from a data-limited stock assessment model (catch-only MSY) showed consistent declines. There was some evidence of recent recruitment from 2016–2018, noting that recruitment is known to be sporadic [Dent et al. 2016], and that setting of appropriate minimum legal lengths enables a majority of Vongole to reproduce prior to harvest, based on estimates of size at first maturity [Gorman et al. 2010, Dent et al. 2012]. The above evidence indicates that, for the period from 2015–2018, the biomass declined, but the stock is not yet considered to be recruitment impaired, and that the current level of fishing mortality is likely to cause the stock to become recruitment impaired. In addition, although not directly linked to stock status, the 2018–19 harvestable biomass estimate at 80 per cent confidence (538.5 t) resulted in a harvest fraction of 9.3 per cent, which was above the harvest fraction limit of 7.5 per cent in the management plan (PIRSA 2014).
On the basis of the evidence provided above, the Coffin Bay Cockle Fishing Zone management unit is classified as a depleting stock.
Port River Cockle Fishing Zone
The Port River Cockle Fishing Zone (PRCFZ) was historically important with significant catches reported prior to 2009. The first biomass survey conducted in 2009 estimated low biomass in the PRCFZ [Gorman et al. 2010], but the causes of this biomass decline are unclear. Due to ongoing sustainability concerns, the PRCFZ has been closed to the taking of Vongole by all fishing sectors since 2011–12; the stocks have not recovered from a depleted state. Biomass surveys in early 2016 showed lack of stock recovery, and a project to develop stock enhancement methods is underway. The above evidence indicates that the biomass of this stock is likely to be depleted and that recruitment is likely to be impaired. Furthermore, the above evidence indicates that current fishing mortality has been reduced by management to a level that should allow the stock to recover from its recruitment impaired state; however, measurable improvements are yet to be detected.
On the basis of the evidence provided above, the Port River Cockle Fishing Zone management unit is classified as a depleted stock.
West Coast Cockle Fishing Zone
There was insufficient information to estimate an annual biomass for the entire West Coast Cockle Fishing Zone WCCFZ [Heldt et al. 2020]. Estimates of harvestable biomass were 236 t in 2016 for Streaky Bay, 109 t in 2017 for Smoky Bay, and 76 t in 2018 for Venus Bay. There was evidence of recent recruitment in most bays; however, there was no evidence of recruitment of K. rhytiphora in Streaky Bay in 2016. Recruitment is sporadic [Dent et al. 2016], and minimum legal lengths in place enable Vongole to reproduce at least once prior to being available for harvest, based on estimates of size at first maturity [Dent et al. 2012, Gorman et al. 2010]. There are no data available to estimate biomass or exploitation rates. In addition, there is no knowledge on recruitment or harvestable biomass, and there are no defined target or limit reference levels. This prevents assessment of current stock size or fishing pressure. Consequently, there is insufficient information available to confidently classify the status of this stock.
On the basis of the evidence provided above, the West Coast Cockle Fishing Zone (South Australia) management unit is classified as an undefined stock.
Vongole biology [Riley et al. 2005, Gorman et al. 2010, Dent et al. 2012]
|Species||Longevity / Maximum Size||Maturity (50 per cent)|
|VONGOLES||29 years, 55 mm SL||4 years, 23–31 mm SL * [*Note that differences in maturity (50 per cent) occur among species and locations]|
|Total allowable catch|
|Bag and possession limits|
|Recreational||12 805 ± 12, n = 574 individuals or 0.14 t per year (2013–14)|
Active Vessels Vongole can be collected from beaches and bay on foot therefore, ‘vessels’ are not always used. Hence, numbers of licences and fishers are presented here instead of vessel numbers. Licences refer to the number of licence holders with an endorsement to take Vongole for sale.
- Cantin, A 2010, Population biology of two sympatric mud cockles, Katelysia peronii and K. scalarina (Bivalvia: Veneridae), with implications for their management, PhD thesis, Flinders University, Adelaide.
- Dent, J, Mayfield, S and Carroll, J 2016, Harvestable biomass of Katelysia spp. in the South Australian commercial Mud Cockle Fishery, Report to Primary Industries and Regions South Australia, Fisheries and Aquaculture, SARDI Publication F2014/000191-2, SARDI Research Report Series 898, SARDI, Adelaide.
- Dent, J, Mayfield, S, Burch, P, Gorman, D and Ward, TM 2012, Distribution, harvestable biomass and fisheries biology of Katelysia spp. in the South Australian commercial Mud-Cockle Fishery, Fishery assessment report for Primary Industries and Regions South Australia Fisheries and Aquaculture, SARDI Publication F2010/000263-2, SARDI Research Report Series 595, South Australian Research and Development Institute (Aquatic Sciences), Adelaide.
- Department of Primary Industries and Water 2007, Shellfish fishery policy document, Wild Fisheries Management Branch, DPIW, Hobart.
- Gluis, MR and Li, X 2014, Hatchery manual for larval rearing of Vongole Katelysia rhytiphora, Fisheries Research and Development Corporation Project 2009/208, South Australian Research and Development Institute (Aquatic Sciences), Adelaide.
- Gorman, D, Mayfield, S, Burch, P and Ward, TM 2010, Distribution, harvestable biomass and fisheries biology of Katelysia spp. In the South Australian commercial mud cockle fishery, Fishery assessment report for PIRSA Fisheries, SARDI Publication F2010/000263-1, SARDI Research Report Series 442, South Australian Research and Development Institute (Aquatic Sciences), Adelaide.
- Heldt, K and Mayfield, S 2020, Harvestable biomass of Katelysia spp. in the South Australian Vongole Fishery. Report to PIRSA Fisheries and Aquaculture (PDF 3.3 MB). South Australian Research and Development Institute (Aquatic Sciences), Adelaide. SARDI Publication Number. F2014/000191-2. SARDI Research Report Series No. 1060. 40pp
- Keane, JP and Gardner, C 2017, 2017 Small Bivalve Fishery assessment. Institute for Marine and Antarctic Studies Report, University of Tasmania, Hobart.
- Primary Industries and Regions South Australia 2013, Management plan for the South Australian Commercial Marine Scalefish Fishery, South Australian Fisheries Management Series: Paper 59, PIRSA, Adelaide.
- Riley, SP, Green, RM, Zacharin, W and Maguire, GB 2005, Growth models and age determination for the intertidal venerid clam Katelysia scalarina (Lamarck 1818) from three sites in Tasmania, Australia, Fisheries Research and Development Corporation Project 93/232, in GB Maguire (ed) Enhancing Tasmanian clam resources, FRDC, Tasmania.