Abstract
The important ecological role of Mytilus mussels in marine ecosystems, their high abundance in coastal waters and the demand for human consumption has made them a target species for aquaculture. Mussel cultivation is the most important and rapidly growing sector of the Scottish shellfish aquaculture industry and until recently production was considered to be based exclusively on the native species Mytilus edulis. However, the sympatric occurrence of M. edulis, M. trossulus, M. galloprovincialis and their hybrids in cultivation has recently been reported and significant production losses (over 50% at some sites) have been attributed to the presence of fragile-shelled M. trossulus. Given the ecological and economical importance of these species, an urgent need arose for a wider understanding of Mytilus species distribution on Scottish coasts and its implication for the sustainability of the Scottish shellfish industry. Here we present a summary of a 3-year project established within the “ECOsystem approach to SUstainable Management of the Marine Environment and its living Resources” (ECOSUMMER) Marie Curie network to address this need. We developed DNA-based molecular assays for the detection and surveillance of the different Mytilus species in Scotland. Several potential management strategies have been explored, aimed at favouring M. edulis production at mixed-species sites, but these have so far not been found to provide the reliable efficacy necessary for adoption by the industry. Complete eradication of M. trossulus from economically affected areas in Scotland may be unrealistic, especially considering that its introduction and distribution mechanisms in the environment remain uncertain. Area-specific solutions to managing the problem may thus be required, which may or may not involve eradication and fallowing (clearance of mussels from production sites for a given period of time). Nevertheless, the current distribution of M. trossulus is limited and its spread outside its existing range is clearly undesirable. Any management solutions must also be accompanied by an industry wide strategy and awareness, for example, through the development of an industry supported code of good practice.
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References
Alfaro, A. C. & A. G. Jeffs, 2003. Variability in mussel settlement on suspended ropes placed at Ahipara Bay, Northland, New Zealand. Aquaculture 216: 115–126.
Beaumont, A. R., M. P. Hawkins, F. L. Doig, I. M. Davies & M. Snow, 2008. Three species of Mytilus and their hybrids identified in a Scottish Loch: natives, relicts and invaders? Journal of Experimental Marine Biology and Ecology 367(2): 100–110.
Bownes, S. J. & C. D. McQuaid, 2006. Will the invasive mussel Mytilus galloprovincialis Lamarck replace the indigenous Perna perna L. on the south coast of South Africa? Journal of Experimental Marine Biology and Ecology 338(1): 140–151.
Dias, P. J., L. Sollelis, E. Cook, S. B. Piertney, I. M. Davies & M. Snow, 2008. Survey of Mytilus edulis complex species in Scotland using real-time PCR. Journal of Experimental Marine Biology and Ecology 367: 253–258.
Dias, P. J., M. Bland, A. M. Shanks, A. R. Beaumont, S. B. Piertney, I. M. Davies & M. Snow, 2009a. Mytilus species under rope culture in Scotland: implications for management. Aquaculture International 17(5): 437–448.
Dias, P. J., A. Dordor, D. Tulett, S. Piertney, I. M. Davies & M. Snow, 2009b. Survey of mussel (Mytilus) species at Scottish shellfish farms. Aquaculture Research 40: 1715–1722.
Dias, P. J., F. M. Batista, A. M. Shanks, A. R. Beaumont, I. M. Davies & M. Snow, 2009c. Gametogenic asynchrony of mussels Mytilus in a mixed-species area: implications for management. Aquaculture 295: 175–182.
Dias, P. J., B. Malgrange, M. Snow & I. M. Davies, 2011. Performance of mussels Mytilus edulis, M. trossulus and their hybrids in cultivation at three Scottish lochs. Journal of the World Aquaculture Society 42(1): 111–121.
FRS, 1996. Scottish Shellfish Farm Production Survey. Fisheries Research Services, Aberdeen, UK.
FRS, 2008. Scottish Shellfish Farm Production Survey. Fisheries Research Services, Aberdeen, UK.
Gosling, E., 1992. The mussel Mytilus: ecology, physiology, genetics and culture. Elsevier Developments in Aquaculture and Fisheries Science 25: 589.
Gosling, E., S. Doherty & N. Howley, 2008. Genetic characterization of hybrid mussel (Mytilus) populations on Irish coasts. Journal of the Marine Biological Association of the UK 88(2): 341–346.
Goudet, J., 1995. FSTAT (version 1.2): a computer program to calculate F-statistics. Journal of Heredity 76: 111–117.
Hilbish, T. J., A. Mullinax, S. I. Dolven, A. Meyer, R. K. Koehn & P. D. Rawson, 2000. Origin of the antitropical distribution pattern in marine mussels (Mytilus spp.): routes and timing of transequatorial migration. Marine Biology 136: 69–77.
Inoue, K., J. H. Waite, M. Matsuoka, S. Odo & S. Harayama, 1995. Interspecific variations in adhesive protein sequences of Mytilus edulis, M. galloprovincialis and M. trossulus. Biological Bulletin 189: 370–375.
Kijewski, T. K., M. Zbawicka, R. Väinölä & R. Wenne, 2006. Introgression and mitochondrial DNA heteroplasmy in the Baltic populations of mussels Mytilus trossulus and M. edulis. Marine Biology 149: 1371–1385.
Mallet, A. L. & C. E. A. Carver, 1995. Comparative growth and survival patterns of Mytilus trossulus and Mytilus edulis in Atlantic Canada. Canadian Journal of Fisheries and Aquatic Sciences 52: 1873–1880.
Mallet, A. L. & C. E. A. Carver, 1999. Maritime distribution and commercial production performance of Mytilus edulis and Mytilus trossulus. Bulletin of the Aquaculture Association of Canada 99(3): 7–13.
Marine Scotland, 2009. Scottish Shellfish Farm Production Survey. Marine Scotland Marine Laboratory, Aberdeen, UK.
Nalepa, T. F. & D. W. Schloesser, 1993. Zebra Mussels: Biology, Impacts and Control. CRC Press, Boca Raton, FL: 810.
Penney, R. W. & M. J. Hart, 1999. Distribution, genetic structure, and morphometry of Mytilus edulis and M. trossulus within a mixed species zone. Journal of Shellfish Research 18: 367–374.
Penney, R. W., M. J. Hart & N. Templeman, 2002. Comparative growth of cultured blue mussels, Mytilus edulis, M. trossulus and their hybrids, in naturally occurring mixed-species stocks. Aquaculture Research 33: 693–702.
Penney, R. W., M. J. Hart & N. D. Templeman, 2006. Genotype-dependent survival, growth, and production in cultured blue mussels Mytilus spp.: results of a reciprocal seed transfer experiment. Journal of Shellfish Research 25(2): 515–525.
Penney, R. W., M. J. Hart & N. Templeman, 2007. Shell strength and appearance in cultured Blue Mussels Mytilus edulis, M. trossulus, and M. edulis × M. trossulus hybrids. North American Journal of Aquaculture 69: 3281–3295.
Penney, R. W., M. J. Hart & N. D. Templeman, 2008. Genotype-dependent variability in somatic tissue and shell weights and its effect on meat yield in mixed species [Mytilus edulis L., M. trossulus (Gould), and their hybrids] cultured mussel populations. Journal of Shellfish Research 27(4): 827–834.
Skibinski, D. O. F., J. A. Beardmore & T. F. Cross, 1983. Aspects of the population genetics of Mytilus (Mytilidae; molluscs) in the British Isles. Biological Journal of the Linnean Society 19: 137–183.
Smaal, A. C., 2002. European mussel cultivation along the Atlantic coast: production status, problems and perspectives. Hydrobiologia 484: 89–98.
Zbawicka, M., A. Burzyński, D. Skibinski & R. Wenne, 2010. Scottish Mytilus trossulus mussels retain ancestral mitochondrial DNA: complete sequences of male and female mtDNA genomes. Gene 456(1–2): 45–53.
Acknowledgments
The authors would like to thank all colleagues at Marine Scotland and at the University of Aberdeen at Aberdeen, UK, and the Hellenic Centre for Marine Research in Greece for the support provided during the 3 years of the project. Thank you to the Association of Scottish Shellfish Growers and all mussel farmers involved in the project for support, advice and interest in our work. Joana Dias was funded by the ECOSUMMER Marie Curie training site (MEST-CT-2005-020501). The years of training within the ECOSUMMER network represented a very good and rewarding experience and this could not have been achieved without Graham Pierce’s dedication. Thank you so much to Graham Pierce, Begoña Santos, Alejandro Gallego, Vasilis Valavanis and all the people that dedicated their time and contributed to the organisation and success of the network. Thank you dearly to all ECOSUMMER trainees for such a good time.
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Guest editors: Graham J. Pierce, Vasilis D. Valavanis, Begoña M. Santos & Julio M. Portela / Marine Ecosystems and Sustainability
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Dias, P.J., Piertney, S.B., Snow, M. et al. Survey and management of mussel Mytilus species in Scotland. Hydrobiologia 670, 127–140 (2011). https://doi.org/10.1007/s10750-011-0664-x
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DOI: https://doi.org/10.1007/s10750-011-0664-x