Abstract
Mussels often hybridise to form the Mytilus species complex comprised of M. edulis and M. galloprovincialis as the main species cultivated in Europe and, where their geographical distribution overlaps, the species M. trossulus. It has been suggested that M. trossulus have a weaker shell than the UK native M. edulis and hybridisation reduces farmed mussel yields and overall fitness. Here, we investigate the hypothesised link between species and shell weakness, employing multi-locus genotyping combined with measurements of six different phenotypes indicative of shell strength (shell thickness, flexural strength, Young’s modulus, Vicker’s hardness, fracture toughness, calcite and aragonite crystallographic orientation). Historic evidence from shell strength studies assumed species designation based on geographical origin, single locus DNA marker or allozyme genetic techniques that are limited in their ability to discern hybrid individuals. Single nucleotide polymorphic markers have now been developed with the ability to better distinguish between the species of the complex and their hybrids. Our study indicates that shell strength phenotypic traits are less associated with species than previously thought. The application of techniques outlined in this study challenges the historic influence of M. trossulus hybridisation on mussel yields and opens up potential for the environment to determine mussel shell fitness.
Highlights
Scottish Shellfish Marketing Group, Bellshill, Glasgow ML4 3NZ, UK tein source for humans [1], and fish consumption has increased enormously in the last
The genotyped individuals were identified as 63.3% pure M. edulis, 16.7% introgressed M. edulis/M. trossulus with various levels of heterozygosity, 15% pure
To compare meaningful shell characteristics between genotypes, we only report the individuals identified as pure M. edulis, F1 hybrids and pure M. trossulus (Table 1), excluding mixed ancestries, which would instead constitute a confounding factor
Summary
Scottish Shellfish Marketing Group, Bellshill, Glasgow ML4 3NZ, UK tein source for humans [1], and fish consumption has increased enormously in the last. Aquaculture is the fastest-growing animal production sector in the world, with an annual growth rate, since 2000, averaging
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