• E-mailKevin.Glover@uib.no
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    Thormøhlensgt. 53 A/B
  • Postal Address
    Postboks 7803
    5020 Bergen
Academic article
  • 2020. “A cleaner break”: Genetic divergence between geographic groups and sympatric phenotypes revealed in ballan wrasse (Labrus bergylta). Ecology and Evolution. 6120-6135.
  • 2020. Transcriptomic comparison of communally reared wild, domesticated and hybrid Atlantic salmon fry under stress and control conditions. BMC Genetics. 1-20.
  • 2020. The future looks like the past: Introgression of domesticated Atlantic salmon escapees in a risk assessment framework. Fish and Fisheries. 15 pages.
  • 2020. Production and verification of the first Atlantic salmon (Salmo salar L.) clonal lines. BMC Genetics. 10 pages.
  • 2020. Population structure of bycaught harbour porpoise (Phocoena phocoena) in Norway. Marine Biology Research. 141-147.
  • 2020. Microbial communities associated with the parasitic copepod Lepeophtheirus salmonis. . Marine Genomics. 4 pages.
  • 2020. Genetic analysis redraws the management boundaries for the European sprat. Evolutionary Applications. 1906-1922.
  • 2020. Epistatic regulation of growth in Atlantic salmon revealed: a QTL study performed on the domesticated-wild interface. BMC Genetics. 17 pages.
  • 2020. Domestication leads to increased predation susceptibility. Scientific Reports.
  • 2020. Chromosome aberrations in pressure-induced triploid Atlantic salmon. BMC Genetics. 11 pages.
  • 2020. Atlantic salmon and sea trout display synchronised smolt migration relative to linked environmental cues. Scientific Reports. 1-13.
  • 2019. The influence of vgll3 genotypes on sea age at maturity is altered in farmed mowi strain Atlantic salmon. BMC Genetics. 1-8.
  • 2019. Swimming with the fishes: validating drift diving to identify farmed Atlantic salmon escapees in the wild. Aquaculture Environment Interactions. 417-427.
  • 2019. Salmon lice sampled from wild Atlantic salmon and sea trout throughout Norway display high frequencies of the genotype Associated with pyrethroid resistance. Aquaculture Environment Interactions. 459-468.
  • 2019. Population genetic analysis reveals a geographically limited transition zone between two genetically distinct Atlantic salmon lineages in Norway. Ecology and Evolution. 6901-6921.
  • 2019. Inferring Atlantic salmon post-smolt migration patterns using genetic assignment. Royal Society Open Science. 1-10.
  • 2019. Evolutionary drivers of kype size in atlantic salmon (salmo salar): domestication, age and genetics. Royal Society Open Science.
  • 2019. Domesticated escapees on the run: The second-generation monitoring programme reports the numbers and proportions of farmed Atlantic salmon in >200 Norwegian rivers annually. ICES Journal of Marine Science. 1151-1161.
  • 2019. Development of SNP for the deep-sea fish blue ling, Molva dypterygia (Pennant, 1784) from ddRAD sequencing data. Conservation Genetics Resources. 1-7.
  • 2019. An extensive common‐garden study with domesticated and wild Atlantic salmon in the wild reveals impact on smolt production and shifts in fitness traits. Evolutionary Applications. 1001-1016.
  • 2018. Modeling fitness changes in wild Atlantic salmon populations faced by spawning intrusion of domesticated escapees. Evolutionary Applications. 1010-1025.
  • 2018. Migration of Atlantic salmon post-smolts in a fjord with high infestation pressure of salmon lice. Marine Ecology Progress Series. 243-256.
  • 2018. Judging a salmon by its spots: Environmental variation is the primary determinant of spot patterns in Salmo salar. BMC Ecology. 1-13.
  • 2018. Investigating the frequency of triploid Atlantic salmon in wild Norwegian and Russian populations. BMC Genetics. 1-9.
  • 2018. Implications for introgression: Has selection for fast growth altered the size threshold for precocious male maturation in domesticated Atlantic salmon? BMC Evolutionary Biology. 1-13.
  • 2018. Growth of wild and domesticated Atlantic cod Gadus morhua reared under semi-commercial conditions. Aquaculture Environment Interactions. 187-200.
  • 2018. Genetic management of mixed-stock fisheries "real-time": The case of the largest remaining cod fishery operating in the Atlantic in 2007-2017. Fisheries Research. 77-85.
  • 2018. DNA-analysis to monitor fisheries and aquaculture: Too costly? Fish and Fisheries. 1-11.
  • 2018. Cryptic introgression: evidence that selection and plasticity mask the full phenotypic potential of domesticated Atlantic salmon in the wild. Scientific Reports. 1-10.
  • 2018. Analysis of coastal cod (Gadus morhua L.) sampled on spawning sites reveals a genetic gradient throughout Norway's coastline. BMC Genetics.
  • 2017. “Real-time” genetic monitoring of a commercial fishery on the doorstep of an MPA reveals unique insights into the interaction between coastal and migratory forms of the Atlantic cod. ICES Journal of Marine Science. 1093-1104.
  • 2017. Whole genome resequencing reveals diagnostic markers for investigating global migration and hybridization between minke whale species. BMC Genomics. 1-11.
  • 2017. Timing is everything: Fishing-season placement may represent the most important angling-induced evolutionary pressure on Atlantic salmon populations. Ecology and Evolution. 7490-7502.
  • 2017. The mechanism (Phe362Tyr mutation) behind resistance in Lepeophtheirus salmonis pre-dates organophosphate use in salmon farming. Scientific Reports. 8 pages.
  • 2017. The ecological profile of Atlantic salmon escapees entering a river throughout an entire season: Diverse in escape history and genetic background, but frequently virus-infected. ICES Journal of Marine Science. 1371-1381.
  • 2017. The Phe362Tyr mutation conveying resistance to organophosphates occurs in high frequencies in salmon lice collected from wild salmon and trout. Scientific Reports. 1-10.
  • 2017. Rapid growth causes abnormal vaterite formation in farmed fish otoliths. Journal of Experimental Biology. 2965-2969.
  • 2017. Ploidy elicits a whole-genome dosage effect: growth of triploid Atlantic salmon is linked to the genetic origin of the second maternal chromosome set . BMC Genetics. 1-12.
  • 2017. Half a century of genetic interaction between farmed and wild Atlantic salmon: Status of knowledge and unanswered questions. Fish and Fisheries. 890-927.
  • 2017. Genetic analysis of goldsinny wrasse reveals evolutionary insights into population connectivity and potentialevidence of inadverent translocationvia aquaculture. ICES Journal of Marine Science. 2135-2147.
  • 2017. Cloned and outbred Atlantic salmon display equal parasite dispersion when infected with the salmon louse. Aquaculture. 83-88.
  • 2017. A pedigree-based experiment reveals variation in salinity and thermal tolerance in the salmon louse, Lepeophtheirus salmonis. Evolutionary Applications. 1007-1019.
  • 2016. Thermal plasticity in farmed, wild and hybrid Atlantic salmon during early development: Has domestication caused divergence in low temperature tolerance? BMC Evolutionary Biology.
  • 2016. Siblingship tests connect two seemingly independent farmed Atlantic salmon escape events. Aquaculture Environment Interactions. 497-509.
  • 2016. Salmonid fish: model organisms to study cardiovascular morphogenesis in conjoined twins? BMC Developmental Biology. 10 pages.
  • 2016. Plasticity in response to feed availability: Does feeding regime influence the relative growth performance of domesticated, wild and hybrid Atlantic salmon Salmo salar parr? Journal of Fish Biology. 1754-1768.
  • 2016. Plasticity in growth of farmed and wild Atlantic salmon: is the increased growth rate of farmed salmon caused by evolutionary adaptations to the commercial diet? BMC Evolutionary Biology.
  • 2016. Is the ballan wrasse (Labrus bergylta) two species? Genetic analysis reveals within-species divergence associated with plain and spotted morphotype frequencies. Integrative Zoology. 162-172.
  • 2016. Genetic screening of farmed Atlantic salmon escapees demonstrates that triploid fish display reduced migration to freshwater. Biological Invasions. 1287-1294.
  • 2016. Does density influence relative growth performance of farm, wild and F1 hybrid Atlantic salmon in semi-natural and hatchery common garden conditions? Royal Society Open Science. 16 pages.
  • 2016. Development of SNP and microsatellite markers for goldsinny wrasse (Ctenolabrus rupestris) from ddRAD sequencing data. Conservation Genetics Resources. 201-206.
  • 2016. Comparing the transcriptomes of embryos from domesticated and wild Atlantic salmon (Salmo salar L.) stocks and examining factors that influence heritability of gene expression. Genetics Selection Evolution.
  • 2016. Atlantic salmon populations reveal adaptive divergence of immune related genes - A duplicated genome under selection. BMC Genomics. 1-12.
  • 2016. A common garden design reveals population-specific variability in potential impacts of hybridization between populations of farmed and wild Atlantic salmon, Salmo salar L. Evolutionary Applications. 435-449.
  • 2015. The vgll3 Locus Controls Age at Maturity in Wild and Domesticated Atlantic Salmon(Salmo salar L.) Males. PLoS Genetics.
  • 2015. The frequency of spontaneous triploidy in farmed Atlantic salmon produced in Norway during the period 2007–2014. BMC Genetics. 10 pages.
  • 2015. Risk assessment of the environmental impact of Norwegian Atlantic salmon farming. ICES Journal of Marine Science. 997-1021.
  • 2015. Potential disease interaction reinforced: double-virusinfected escaped farmed Atlantic salmon, Salmo salar L., recaptured in a nearby river. Journal of Fish Diseases. 209-219.
  • 2015. Identification of quantitative genetic components of fitness variation in farmed, hybrid and native salmon in the wild. Heredity. 47-55.
  • 2015. IBSEM: An individual-based atlantic salmon population model. PLOS ONE.
  • 2015. Genetic introgression of farmed salmon in native populations: quantifying the relative influence of population size and frequency of escapees. Aquaculture Environment Interactions. 185-190.
  • 2015. Evaluation of emamectin benzoate and substance EX against salmon lice in sea-ranched Atlantic salmon smolts. Diseases of Aquatic Organisms. 187-194.
  • 2015. Are farmed salmon more prone to risk than wild salmon? Susceptibility of juvenile farm, hybrid and wild Atlantic salmon Salmo salar L. to an artificial predator. Applied Animal Behaviour Science. 67-80.
  • 2014. Vertebra deformities in wild Atlantic salmon caught in the Figgjo River, southwest Norway. Journal of Applied Ichthyology. 777-782.
  • 2014. Triploid and diploid Atlantic salmon show similar susceptibility to infection with salmon lice Lepeophtheirus salmonis. Pest Management Science. 982-988.
  • 2014. Triploid (sterile) farmed Atlantic salmon males attempt to spawn with wild females. Aquaculture Environment Interactions.
  • 2014. The effect of triploidy on vaccine side-effects in Atlantic salmon. Aquaculture. 481-490.
  • 2014. Pacific and Atlantic Lepeophtheirus salmonis (Krøyer, 1838) are allopatric subspecies: Lepeophtheirus salmonis salmonis and L. salmonis oncorhynchi subspecies novo. BMC Genetics.
  • 2014. Microsatellite DNA used for parentage identification of partly digested Atlantic salmon (Salmo salar) juveniles through non-destructive diet sampling in salmonids. Marine Biology Research. 323-328.
  • 2014. Investigating population genetic structure in a highly mobile marine organism: The minke whale balaenoptera acutorostrata acutorostrata in the north east atlantic. PLOS ONE.
  • 2014. Hybrid salmonids: Ploidy effect on skeletal meristic characteristics and sea lice infection susceptibility. Journal of Applied Ichthyology. 746-752.
  • 2014. Human-induced evolution caught in action: SNP-array reveals rapid amphi-atlantic spread of pesticide resistance in the salmon ecotoparasite Lepeophtheirus salmonis. BMC Genomics. 18 pages.
  • 2014. Hatching time and alevin growth prior to the onset of exogenous feeding in farmed, wild and hybrid Norwegian Atlantic salmon. PLOS ONE.
  • 2014. Genetic analyses of ling (Molva molva) in the Northeast Atlantic reveal patterns relevant to stock assessments and management advice. ICES Journal of Marine Science. 635-641.
  • 2014. A conservation plan for Atlantic salmon (Salmo salar) and anadromous brown trout (Salmo trutta) in a region with intensive industrial use of aquatic habitats, the Hardangerfjord, western Norway. Marine Biology Research. 308-322.
  • 2014. A comparison of gene transcription profiles of domesticated and wild Atlantic salmon (Salmo salar L.) at early life stages, reared under controlled conditions. BMC Genomics. 14 pages.
  • 2014. A common-garden experiment to quantify evolutionary processes in copepods: The case of emamectin benzoate resistance in the parasitic sea louse Lepeophtheirus salmonis. BMC Evolutionary Biology.
  • 2013. ParallelStructure: a R package to distribute parallel runs of the population genetics program STRUCTURE on multi-core computers. PLOS ONE. 5 pages.
  • 2013. Molecular Genetic Analysis of Stomach Contents Reveals Wild Atlantic Cod Feeding on Piscine Reovirus (PRV) Infected Atlantic Salmon Originating from a Commercial Fish Farm. PLOS ONE. 8 pages.
  • 2013. Kva skjer med oppdrettslaksen sitt avkom i naturen? Fisken og Havet, Særnummer. 18-19.
  • 2013. Hybrids between common and Antarctic minke whales are fertile and can back-cross. BMC Genetics. 11 pages.
  • 2013. How does sequence variability affect de novo assembly quality? Journal of Natural History. 901-910.
  • 2013. Growth reaction norms of domesticated, wild and hybrid Atlantic salmon families in response to differing social and physical environments. BMC Evolutionary Biology. 23 pages.
  • 2013. Genetic analysis of Atlantic salmon captured in a netting station reveals multiple escapement events from commercial fish farms. Fisheries Management and Ecology. 42-51.
  • 2013. Emamectin benzoate resistance and fitness in laboratory reared salmon lice (Lepeophtheirus salmonis). Aquaculture. 111-118.
  • 2013. Does domestication cause changes in growth reaction norms? A study of farmed, wild and hybrid Atlantic salmon families exposed to environmental stress. PLOS ONE. 11 pages.
  • 2013. Atlantic salmon populations invaded by farmed escapees: quantifying genetic introgression with a Bayesian approach and SNPs. BMC Genetics. 19 pages.
  • 2012. Three Decades of Farmed Escapees in the Wild: A Spatio-Temporal Analysis of Atlantic Salmon Population Genetic Structure throughout Norway. PLOS ONE. 18 pages.
  • 2012. The Norwegian minke whale DNA register: a data base monitoring commercial harvest and trade of whale products. Fish and Fisheries. 313-332.
  • 2012. Performance of farmed, hybrid, and wild Atlantic salmon (Salmo salar) families in a natural river environment. Canadian Journal of Fisheries and Aquatic Sciences. 1994-2006.
  • 2012. Good ethics or political and cultural censoring in science? ICES Journal of Marine Science. 493-497.
  • 2012. Gene expression in Atlantic salmon skin in response to infection with the parasitic copepod Lepeophtheirus salmonis, cortisol implant, and their combination. BMC Genomics. 15 pages.
  • 2012. Effects of environmental stress on mRNA expression levels of seven genes related to oxidative stress and growth in Atlantic salmon salmo salar L. Of farmed, hybrid and wild origin. BMC Research Notes.
  • 2011. Population genetic structure of the parasitic copepod Lepeophtheirus salmonis throughout the Atlantic. Marine Ecology Progress Series. 161-172.
  • 2011. Microsatellite DNA reveals population genetic differentiation among sprat (Sprattus sprattus) sampled throughout the Northeast Atlantic, including Norwegian fjords. ICES Journal of Marine Science. 2145-2151.
  • 2011. Investigating genetic change in wild populations: modelling gene flow from farm escapees. Aquaculture Environment Interactions. 75-86.
  • 2011. Greenland sharks (Somniosus microcephalus) scavenge offal from minke (Balaenoptera acutorostrata) whaling operations in Svalbard (Norway). Polar Research. 4 pages.
  • 2011. Genotyping errors in a calibrated DNA register: implications for identification of individuals. BMC Genetics. 10 pages.
  • 2011. Genetic identification of farmed and wild Atlantic cod, Gadus morhua, in coastal Norway. ICES Journal of Marine Science. 901-910.
  • 2011. Genetic differentiation among Atlantic salmon reared in sea-cages reveals a non-random distribution of genetic material from a breeding programme to commercial production. Aquaculture Research. 1323-1331.
  • 2011. Generic genetic differences between farmed and wild Atlantic salmon identified from a 7K SNP-chip. Molecular Ecology Resources. 247-253.
  • 2010. Pharmacokinetics of emamectin benzoate administered to Atlantic salmon, Salmo salar L., by intra-peritoneal injection. Journal of Fish Diseases. 183-186.
  • 2010. Migration of Antarctic Minke Whales to the Arctic. PLOS ONE.
  • 2010. Genetic diversity within and among Atlantic cod (Gadus morhua) farmed in marine cages: a proof-of-concept study for the identification of escapees. Animal Genetics. 515-522.
  • 2010. Forensic identification of severely degraded Atlantic salmon (Salmo salar) and rainbow trout (Oncorhynchus mykiss) tissues. Investigative Genetics.
  • 2010. Fatty acids in fish scales. Marine Biology. 1567-1576.
  • 2010. A comparison of SNP and STR loci for delineating population structure and performing individual genetic assignment. BMC Genetics. 1 pages.
  • 2009. Vertebral body mineralization and deformities in cultured Atlantic salmon (Salmo salar L.): Effects of genetics and off-season smolt production. Aquaculture. 36-44.
  • 2009. Identifying the source of farmed escaped Atlantic salmon (Salmo salar): Bayesian clustering analysis increases accuracy of assignment. Aquaculture. 37-46.
  • 2009. Genetic dissection of MHC-associated susceptibility to Lepeophtheirus salmonis in Atlantic salmon. BMC Genetics. 20-29.
  • 2009. Establishment and characterisation of salmon louse (Lepeophtheirus salmonis (Kroyer 1837)) laboratory strains. Parasitology international. 451-460.
  • 2009. A comparison of farmed, wild and hybrid Atlantic salmon (Salmo salar L.) reared under farming conditions. Aquaculture. 203-210.
  • 2008. A laboratory study to evaluate the use of emamectin benzoate in the control of sea lice in sea-ranched Atlantic salmon (Salmo salar L.). Aquaculture. 2-7.
  • 2007. Major histocompatibility complex (MHC) variation and susceptibility to the sea louse Lepeophtheirus salmonis in Atlantic salmon Salmo salar. Diseases of Aquatic Organisms. 57-65.
  • 2006. Sequence variation in four mitochondrial genes of the salmon louse Lepeophtheirus salmonis. Diseases of Aquatic Organisms. 251-259.
  • 2004. Microsatellite analysis in domesticated and wild Atlanticsalmon (Salmo. Aquaculture. 131-143.
  • 2020. Rømt og vill fisk i Etneelva 2019: resultat frå den nasjonale feltplattforma. 2020 - 10. 2020 - 10. .
  • 2019. Rømt oppdrettslaks i vassdrag i 2018 : Rapport fra det nasjonale overvåkningsprogrammet. 2019 - 4. 2019 - 4. .
  • 2019. Risk assessment of Norwegian fin fish aquaculture 2019 - Environmental impact of aquaculture. 2019 - 5. 2019 - 5. .
  • 2019. OURO Etneelva 2018. 2019 - 11. 2019 - 11. .
  • 2019. Genetisk påvirkning av rømt oppdrettslaks på ville laksebestander – oppdatert status 2019. 1659. 1659. .
  • 2018. Rømt og vill fisk i Etneelva 2017. Nr. 5 - 2018. Nr. 5 - 2018. .
  • 2018. Risikorapport norsk fiskeoppdrett 2018. .
  • 2017. Risikorapport norsk fiskeoppdrett 2017. .
  • 2017. Genetisk påvirkning av rømt oppdrettslaks på ville laksebestander – status 2017. 1337. 1337. .
  • 2014. Risikovurdering norsk fiskeoppdrett 2013. 2-2014. 2-2014. .
  • 2012. Forslag til førstegenerasjons målemetode for miljøeffekt (effektindikatorer) med hensyn til genetisk påvirkning fra oppdrettslaks til villaks, og påvirkning av lakselus fra oppdrett på viltlevende laksefiskbestander. 07. 07. .
  • 2011. Genetiske effekter av rømt oppdrettslaks på ville laksebestander:: utforming av indikatorer. 726. 726. .
  • 1997. Studies on genotype dependant growth in juvenile cod (Gadus morhua L.) reared at different temperatures and light regimes. ?. ?. .
  • 2015. Det nasjonale overvåkningsprogram for rømt laks.
  • 2015. Det nasjonale overvåkningsprogram for rømt laks.
Popular scientific lecture
  • 2019. Genetiske metoder for å undersøke utvandring av villaks.
  • 2019. Genetiske metoder for å undersøke utvandring av villaks.
Academic lecture
  • 2019. Salmon lice (Lepeophtheirus Salmonis) induced mortality of Atlantic salmon (Salsmo salar) during post-smolt migration in Norway.
  • 2019. Nye genetiske markører for å spore innkrysning.
  • 2019. Escaped farm salmon affect the Genetics of Wild salmon populations all along the Norwegian coast.
  • 2019. Eksperimentelle undersøkelser av vekst og overlevelse hos oppdrettslaks og villaks .
  • 2019. Domestication leads to increased predation susceptibility.
  • 2018. Ulv i fåreklær – vekstpotensialet til oppdrettslaks er skjult i naturen, men avsløres under oppdrettsforhold.
  • 2018. The river positions within fjords affects salmon lice infestation on trawled postsmolt Atlantic salmon.
  • 2016. Risk assessment of genetic impact of escaped farmed salmon on wild populations in Norway.
  • 2016. Kan en feilaktig atferd mot rovdyr forklare hvorfor avkom av oppdrettslaks har lavere overlevelse enn villaks i naturen? .
  • 2016. Genome resequencing of geographically distinct Atlantic Salmon (Salmo salar) populations reveals adaptive divergence.
  • 2016. Genetisk interaksjon og vurdering opp mot kvalitetsnorm.
  • 2016. Adaptive plasticity in Atlantic salmon- genetic predisposition of time at maturity and environmental triggers.
  • 2015. Population genetics of the salmon louse.
  • 2015. Farmed escapees and interactions with wild fish: the big picture from little Norway.
  • 2012. Knowledge Platform - Quantifying Genetic Effects of Escaped Farmed Salmon on Wild Salmon (QuantEscape).
  • 2012. A study of growth reaction norms of farmed, wild and hybrid Atlantic salmon (Salmo salar L.) families exposed to different levels of stress .
Short communication
  • 2018. Documentation of multiple species of marine fish trapped in Atlantic salmon sea-cages in Norway. Aquatic Living Resources. 6 pages.
Popular scientific article
  • 2019. Genetisk innkryssing fra rømt oppdrettslaks - 225 ville laksebestander langs hele norskekysten er analysert. Villaksnytt. 28-30.
  • 2014. Transport og utsettinger av levende leppefisk. Havforskningsrapporten.
  • 2014. Transport og utsettinger av levende leppefisk. Fisken og Havet, Særnummer.
  • 2012. Triploid laks – en kandidat for kommersielt oppdrett? Havforskningsrapporten.
Feature article
  • 2018. Rømt laks må hindres i å gyte. Dagens næringsliv.
  • 2014. Unødvendig med fem fangstområder for vågehval. Forskning.no.
Letter to the editor
  • 2014. Isolation and characterization of twenty microsatellite loci for the ballan wrasse, Labrus bergylta. Conservation Genetics Resources. 425-428.
Doctoral dissertation
  • 2017. Genetics behind puberty and adaptation in Atlantic Salmon revealed by genomic studies.
  • 2013. Ulik overleving hos avkom frå rømt laks.
  • 2007. Offspring performance of three different cod populations, measured under identical environmental conditions. Aquaculture. S273-S273.
  • 2014. Population structure of ling (Molva molva) in the Northeast Atlantic and its implications for stock assessments and management advice.
  • 2012. Performance of farm, hybrid and wild Atlantic salmon (Salmo salar) families in a natural river environment.
  • 2010. Results from River Guddal: Performance of farmed, hybrid and wild salmon planted out as eyed eggs.
Academic literature review
  • 2010. Forensic identification of fish farm escapees: the Norwegian experience. 1-10.
  • 2008. Local and systemic gene expression responses of Atlantic salmon (Salmo salar L.) to infection with the salmon louse (Lepeophtheirus salmonis). 18 pages.

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