. 2019 May 9;9(11):6665-6677.

doi: 10.1002/ece3.5246. eCollection 2019 Jun.

Interbreeding between local and translocated populations of a cleaner fish in an experimental mesocosm predicts risk of disrupted local adaptation

Enrique Blanco Gonzalez^{1

2

3}, Sigurd H Espeland^{2

4}, Sissel Jentoft⁵, Michael M Hansen⁶, Joana I Robalo⁷, Nils C Stenseth^{2

5}, Per Erik Jorde⁴

Affiliations

¹ Department of Natural Sciences University of Agder Kristiansand Norway.
² Centre for Coastal Research University of Agder Kristiansand Norway.
³ Norwegian College of Fishery Science UiT The Arctic University of Norway Tromsø Norway.
⁴ Institute of Marine Research Flødevigen Norway.
⁵ Centre for Ecological and Evolutionary Synthesis, Department of Biosciences University of Oslo Oslo Norway.
⁶ Department of Bioscience Aarhus University Aarhus C Denmark.
⁷ MARE - Marine and Environmental Sciences Centre ISPA Instituto Universitário de Ciências Psicológicas, Sociais e da Vida Lisboa Portugal.

PMID: 31236251
PMCID: PMC6580302
DOI: 10.1002/ece3.5246

Interbreeding between local and translocated populations of a cleaner fish in an experimental mesocosm predicts risk of disrupted local adaptation

Enrique Blanco Gonzalez et al. Ecol Evol. 2019.

. 2019 May 9;9(11):6665-6677.

doi: 10.1002/ece3.5246. eCollection 2019 Jun.

Authors

Enrique Blanco Gonzalez^{1

2

3}, Sigurd H Espeland^{2

4}, Sissel Jentoft⁵, Michael M Hansen⁶, Joana I Robalo⁷, Nils C Stenseth^{2

5}, Per Erik Jorde⁴

Affiliations

¹ Department of Natural Sciences University of Agder Kristiansand Norway.
² Centre for Coastal Research University of Agder Kristiansand Norway.
³ Norwegian College of Fishery Science UiT The Arctic University of Norway Tromsø Norway.
⁴ Institute of Marine Research Flødevigen Norway.
⁵ Centre for Ecological and Evolutionary Synthesis, Department of Biosciences University of Oslo Oslo Norway.
⁶ Department of Bioscience Aarhus University Aarhus C Denmark.
⁷ MARE - Marine and Environmental Sciences Centre ISPA Instituto Universitário de Ciências Psicológicas, Sociais e da Vida Lisboa Portugal.

PMID: 31236251
PMCID: PMC6580302
DOI: 10.1002/ece3.5246

Abstract

Translocation of organisms within or outside its native range carries the risk of modifying the community of the recipient ecosystems and induces gene flow between locally adapted populations or closely related species. In this study, we evaluated the genetic consequences of large-scale translocation of cleaner wrasses that has become a common practice within the salmon aquaculture industry in northern Europe to combat sea lice infestation. A major concern with this practice is the potential for hybridization of escaped organisms with the local, recipient wrasse population, and thus potentially introduce exogenous alleles and breaking down coadapted gene complexes in local populations. We investigated the potential threat for such genetic introgressions in a large seminatural mesocosm basin. The experimental setting represented a simulated translocation of corkwing wrasse (Symphodus melops) that occurs on a large scale in the Norwegian salmon industry. Parentage assignment analysis of mesocosm's offspring revealed 30% (195 out of 651 offspring) interbreeding between the two populations, despite their being genetically (F _ST = 0.094, p < 0.05) and phenotypically differentiated. Moreover, our results suggest that reproductive fitness of the translocated western population doubled that of the local southern population. Our results confirm that human translocations may overcome the impediments imposed by natural habitat discontinuities and urge for immediate action to manage the genetic resources of these small benthic wrasses.

Keywords: Symphodus melops; corkwing wrasse; mating behavior; microsatellites; parentage assignment; reproductive fitness.

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Conflict of interest statement

None declared.

Figures

**Figure 1**
Pedigree reconstruction of 651 offspring collected from the mesocosm basin. Each point of the node represents one parental breeder of south (orange) and west (blue) origin who contributed with at least one offspring to the sample. The lines connecting two nodes represent the offspring of a particular pair or breeders; their color represents whether the offspring were classified as south (blue), west (orange), or hybrid (green); and the line thickness is proportional to the number of offspring comprising each family. The IDs of the nesting male (black), sneaker (gray), and female (red) breeders who contributed to at least 15 offspring are shown in the graph

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Interbreeding between local and translocated populations of a cleaner fish in an experimental mesocosm predicts risk of disrupted local adaptation

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Interbreeding between local and translocated populations of a cleaner fish in an experimental mesocosm predicts risk of disrupted local adaptation

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