Elizabeth Gosling

Marine Mussels


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ducks) on mussels on bouchots can be reduced by using nylon threads to prevent their landing. When sea stars and mollusc‐drilling snails (Nucella lapillus) are present in high densities and predation levels are high, they need to be manually removed.

      Predation may exert a top‐down limitation on production, especially in bottom culture, since mussel plots are accessible for benthic predators as well as for fish and birds. Intertidal mussels are preyed upon by shore crabs and birds (oystercatchers, herring gulls), while subtidal mussels are preyed upon by shore crabs, sea stars and diving ducks. The number of sea stars on culture plots is reduced by freshwater treatment and there is a selective fishery on sea stars with sea star mops in The Netherlands, the United Kingdom, Germany, Ireland and purse‐seines (large walls of netting deployed around an entire area or school of fish) in Denmark (Petersen et al. 2016). Freshwater treatment is applied before seeding when mussels are in the vessels’ hold; the process consists of the joint exposure of mussels and associated sea stars to freshwater for several hours. Mussels will keep their shells shut, while sea stars are unable to protect themselves against osmotic stress and will not survive. Sea star mops are made of fuzzy rope entwined around small chains that are towed over the mussel plots ensnaring the sea stars, thereby enabling removal. Calderwood et al. (2016) estimated the efficiency of sea star removal by mops in Belfast Lough in Northern Ireland and found a large variation in the catch efficiency (4–78%), while the mean sea star reduction when applying this method was 27% (±SE 3.2.)

      Bivalves provide an excellent substrate for the settlement of many fouling organisms. Biofouling appears to be a significant cause of mortality in intertidal mussels, mainly due to dislodgement caused by the increased weight, especially from barnacles and seaweed. Fouling is a particular problem in suspended mussel culture, and almost 100 invertebrate species, including gastropods, crustaceans, bivalves, polychaetes, ascidians, sponges and hydroids, have been identified on mussel ropes (Hickman 1992). These organisms cause reduced growth and productivity through competition for space, but are not a major cause of mortality in suspended culture. See Chapter 10 for details on biofouling.

Schematic illustration of performance of three indigenous South African mussels, Aulacomya ater, Perna perna and Choromytilus meridionalis, relative to Mytilus galloprovincialis.

      Source: From Branch & Steffani (2004). Reproduced with permission from Elsevier.