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2. Demographic History and Inbreeding in Two Declining Sea Duck Species Inferred From Whole‐Genome Sequence Data.

Author

Cádiz, María I., Tengstedt, Aja Noersgaard Buur, Sørensen, Iben Hove, Pedersen, Emma Skindbjerg, Fox, Anthony David, and Hansen, Michael M.

Subjects
MATING grounds, MARKOV spectrum, ANTHROPOGENIC effects on nature, ENDANGERED species, WILDLIFE conservation, INBREEDING
Abstract

Anthropogenic impact has transitioned from threatening already rare species to causing significant declines in once numerous organisms. Long‐tailed duck (Clangula hyemalis) and velvet scoter (Melanitta fusca) were once important quarry sea duck species in NW Europe, but recent declines resulted in their reclassification as vulnerable on the IUCN Red List. We sequenced and assembled genomes for both species and resequenced 15 individuals of each. Using analyses based on site frequency spectra and sequential Markovian coalescence, we found C. hyemalis to show more historical demographic stability, whereas M. fusca was affected particularly by the Last (Weichselian) Glaciation. This likely reflects C. hyemalis breeding continuously across the Arctic, with cycles of glaciation primarily shifting breeding areas south or north without major population declines, whereas the more restricted southern range of M. fusca would lead to significant range contraction during glaciations. Both species showed evidence of declines over the past thousands of years, potentially reflecting anthropogenic pressures with the recent decline indicating an accelerated process. Analysis of runs of homozygosity (ROH) showed low but nontrivial inbreeding, with FROH from 0.012 to 0.063 in C. hyemalis and ranging from 0 to 0.047 in M. fusca. Lengths of ROH suggested that this was due to ongoing background inbreeding rather than recent declines. Overall, despite demographically important declines, this has not yet led to strong inbreeding and genetic erosion, and the most pressing conservation concern may be the risk of density‐dependent (Allee) effects. We recommend monitoring of inbreeding using ROH analysis as a cost‐efficient method to track future developments to support effective conservation of these species. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Genetic responses in sexual diploid and unisexual triploid goldfish (Carassius auratus) introduced into a high‐altitude environment.

Author

Feng, Xiu, Liu, Shenglin, Sui, Xiaoyun, Chen, Yifeng, Zhu, Ren, Jia, Yintao, Tong, Jingou, Yu, Xiaomu, Liu, Chunlong, and Hansen, Michael M.

Subjects
GOLDFISH, GENETIC variation, HETEROZYGOSITY, HOMOZYGOSITY, BIOLOGICAL invasions, INBREEDING, EVOLUTIONARY models
Abstract

Anthropogenic biological invasions represent major concerns but enable us to investigate rapid evolutionary changes and adaptation to novel environments. The goldfish Carassius auratus with sexual diploids and unisexual triploids coexisting in natural waters is one of the most widespread invasive fishes in Tibet, providing an ideal model to study evolutionary processes during invasion in different reproductive forms from the same vertebrate. Here, using whole‐genome resequencing data of 151 C. auratus individuals from invasive and native ranges, we found different patterns of genomic responses between diploid and triploid populations during their invasion of Tibet. For diploids, although invasive individuals derived from two different genetically distinct sources had a relative higher diversity (π) at the population level, their individual genetic diversity (genome‐wide observed heterozygosity) was significantly lower (21.4%) than that of source individuals. Population structure analysis revealed that the invasive individuals formed a specific genetic cluster distinct from the source populations. Runs of homozygosity analysis showed low inbreeding only in invasive individuals, and only the invasive population experienced a recent decline in effective population size reflecting founder events. For triploids, however, invasive populations showed no loss of individual genetic diversity and no genetic differentiation relative to source populations. Regions of putative selective sweeps between invasive and source populations of diploids mainly involved genes associated with mannosidase activity and embryo development. Our results suggest that invasive diploids deriving from distinct sources still lost individual genetic diversity resulting from recent inbreeding and founder events and selective sweeps, and invasive triploids experienced no change in genetic diversity owing to their reproduction mode of gynogenesis that precludes inbreeding and founder effects and may make them more powerful invaders. [ABSTRACT FROM AUTHOR]

Published
2023
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12. Neglect of Genetic Diversity in Implementation of the Convention of Biological Diversity

Author

Laikre, Linda, Allendorf, Fred W., Aroner, Laurel C., Baker, C. Scott, Gregovich, David P., Hansen, Michael M., Jackson, Jennifer A., Kendall, Katherine C., McKelvey, Kevin, Neel, Maile C., Olivieri, Isabelle, Ryman, Nils, Schwartz, Michael K., Bull, Ruth Short, Stetz, Jeffrey B., Tallmon, David A., Taylor, Barbara L., Vojta, Christina D., Waller, Donald M., and Waples, Robin S.

Published
2010

16. Performance of farmed, hybrid, and wild Atlantic salmon (Salmo salar) families in a natural river environment

Author

Skaala, Oystein, Glover, Kevin A., Barlaup, Bjorn T., Svasand, Terje, Besnier, Francois, Hansen, Michael M., and Borgstrom, Reidar

Subjects
Atlantic salmon -- Environmental aspects -- Distribution -- Comparative analysis, Population biology -- Research, Zoology -- Identification and classification, Fish populations -- Environmental aspects -- Distribution -- Comparative analysis, Company distribution practices, Earth sciences
Abstract

Survival, growth, and diet were compared for farmed, hybrid, and wild Atlantic salmon (Salmo salar) families from the eyed egg to the smolt stage in River Guddalselva, Hardangerfjord, Norway. All individuals that survived until the smolt stage were captured in a Wolf trap and identified to one of the 69 experimental families using microsatellite markers. Survival of farmed salmon progeny was significantly lower than that of hybrids and wild progeny. However, survival varied considerably, from 0.17% to 6.4%, among farmed families. Egg size had an important influence on survival. Half-sib hybrid families with a farmed mother had higher survival when fathered by wild salmon than by farmed salmon. The overall relative survival of farmed families compared with that of their hybrid half-sib families fell from 0.86 in the second cohort to 0.62 in the last cohort with increasing fish density. Smolts of farmed parents showed significantly higher growth rates than wild and hybrid smolts. The overlap in diet among types of crosses demonstrates competition, and farm and hybrid progeny therefore will reduce the river's capacity for production of wild salmon. Nous avons compare les taux de survie et de croissance et le regime alimentaire de familles de saumons atlantiques (Salmo salar) sauvages, hybrides et d'elevage, du stade d'oeuf embryonne a celui de saumoneau, dans la riviere Guddalselva du Hardangerfjord (Norvege). Tous les individus ayant survecu jusqu'au stade de saumoneau ont ete captures dans un piege de type Wolf et affectes a une des 69 familles experimentales sur la base de marqueurs microsatellites. Le taux de survie des saumons d'elevage etait significativement moindre que ceux des hybrides et de la progeniture sauvage. Il variait cependant considerablement, de 0,17 % a 6,4 % parmi les familles d'elevage. La taille des oeufs avait une importante incidence sur la survie. Les familles de demi-fratrie hybrides ayant une mere d'elevage presentaient un taux de survie plus eleve si le pere etait sauvage plutot que d'elevage. Le taux de survie relatif global des familles d'elevage par rapport a celui de leurs familles de demi-fratrie hydrides passait de 0,86 pour la deuxieme cohorte a 0,62 pour la derniere cohorte a densite croissante. Les saumoneaux de parents d'elevage presentaient un taux de croissance significativement plus eleve que les saumoneaux sauvages et hybrides. Le chevauchement du regime alimentaire de differents types de croisements demontre la presence d'une concurrence, de sorte que la progeniture hybride et d'elevage devrait reduire la capacite de la riviere de produire des saumons sauvages. [Traduit par la Redaction], Introduction The fast expansion in Atlantic salmon (Salmo salar) farming since the early 1980s has raised concern about genetic and ecological impacts of aquaculture on wild salmon populations (e.g., Hutchinson [...]

Published
2012
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17. Genome‐wide methylation in the panmictic European eel (Anguilla anguilla).

Author

Liu, Shenglin, Tengstedt, Aja Noersgaard Buur, Jacobsen, Magnus W., Pujolar, Jose Martin, Jónsson, Bjarni, Lobón‐Cervià, Javier, Bernatchez, Louis, and Hansen, Michael M.

Subjects
ANGUILLA anguilla, HOMEOBOX genes, METHYLATION, GLASS eels, AMERICAN eel, EPIGENETICS
Abstract

The role of methylation in adaptive, developmental and speciation processes has attracted considerable interest, but interpretation of results is complicated by diffuse boundaries between genetic and non‐genetic variation. We studied whole genome genetic and methylation variation in the European eel, distributed from subarctic to subtropical environments, but with panmixia precluding genetically based local adaptation beyond single‐generation responses. Overall methylation was 70.9%, with hypomethylation predominantly found in promoters and first exons. Redundancy analyses involving juvenile glass eels showed 0.06% and 0.03% of the variance at SNPs to be explained by localities and environmental variables, respectively, with GO terms of genes associated with outliers primarily involving neural system functioning. For CpGs 2.98% and 1.36% of variance was explained by localities and environmental variables. Differentially methylated regions particularly included genes involved in developmental processes, with Hox clusters featuring prominently. Life stage (adult versus glass eels) was the most important source of inter‐individual variation in methylation, probably reflecting both ageing and developmental processes. Demethylation of transposable elements relative to pure European eel was observed in European X American eel hybrids, possibly representing postzygotic barriers in this system characterized by prolonged speciation and ongoing gene flow. Whereas the genetic data are consistent with a role of single‐generation selective responses, the methylation results underpin the importance of epigenetics in the life cycle of eels and suggest interactions between local environments, development and phenotypic variation mediated by methylation variation. Eels are remarkable by having retained eight Hox clusters, and the results suggest important roles of methylation at Hox genes for adaptive processes. [ABSTRACT FROM AUTHOR]

Published
2022
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18. Knock-On Effects of Environmental Influences during Embryonic Development of Ectothermic Vertebrates.

Author

Jonsson, Bror, Jonsson, Nina, and Hansen, Michael M.

Subjects
COLD-blooded animals, EMBRYOLOGY, TEMPERATURE-dependent sex determination, EFFECT of human beings on climate change, ENVIRONMENTAL sex determination, AMPHIBIANS, VERTEBRATES
Abstract

Environmental factors influencing parents or offspring during embryogenesis can have knock-on effects at later life stages of the offspring. These effects may prepare the progeny for conditions that they may encounter as larvae, juveniles, and/or adults. Here, we give examples on how knock-on effects of temperature and predator cues can affect phenotypes of fish, amphibians, and reptiles. Such effects are best described in reptiles, but are generally widespread among ectotherms. Most of the species are oviparous with egg incubation outside the mother's body. The eggs can be exposed to highly different and variable environmental conditions, and developmental plasticity may help offspring cope with influences they may encounter at a later stage, e.g., whether the habitat will be warmer or colder and/or safer or riskier than what they a priori are adapted for. Knock-on effects can be considered a subset of phenotypically plastic responses. They can be instantaneous or delayed, have a physiological foundation, and can be manifested as temperature-dependent sex determination and changes in morphological, physiological, life-history, and behavioral characters. They are often, but not exclusively, assumed evolutionarily favorable, particularly beneficial for invasive species and during periods of rapidly changing environments. However, although several studies suggest that plasticity in some cases increases survival and reproductive success, the fitness gain is still virtually untested. It is assumed that epigenetic mechanisms, such as DNA methylation and histone modifications, could ultimately be important components of molecular mechanisms that allow early perceived cues to be expressed at a later stage in life. Although some empirical cases support this, evidence is still mostly circumstantial. Future research should investigate mechanisms and fitness effects of early environmental stimuli. These effects are important for the ecology of species and should be taken into account in experiments on ecological effects of environmental variables. This is of particular interest today because of climate change and increasing anthropogenic habitat alterations. [ABSTRACT FROM AUTHOR]

Published
2022
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19. Genetic and environmental correlates of morphological variation in a marine fish: the case of Baltic Sea herring (Clupea harengus)

Author

Jorgensen, Hanne B.H., Pertoldi, Cino, Hansen, Michael M., Ruzzante, Daniel E., and Loeschcke, Volker

Subjects
Morphological variation -- Research, Earth sciences
Abstract

Abstract: Baltic Sea herring (Clupea harengus) have been shown to exhibit morphological differences across the marked salinity and temperature gradients in the region. Here we analyse genetic (nine microsatellite loci), [...]

Published
2008

21. Underwater but not out of sight: genetic monitoring of effective population size in the endangered North Sea houting (Coregonus oxyrhynchus)

Author

Hansen, Michael M., Nielsen, Einar E., and Mensberg, Karen-Lise D.

Subjects
North Sea -- Environmental aspects, Fishes -- Environmental aspects, Aquatic ecology, DNA, Earth sciences
Abstract

Abstract: We analysed 12 microsatellite DNA loci in temporal samples (1980, 1994, and 2002) from the only remaining indigenous population of the North Sea houting (Coregonus oxyrhynchus) in the Vidaa [...]

Published
2006

23. Combining population genomics with demographic analyses highlights habitat patchiness and larval dispersal as determinants of connectivity in coastal fish species.

Author

Knutsen, Halvor, Catarino, Diana, Rogers, Lauren, Sodeland, Marte, Mattingsdal, Morten, Jahnke, Marlene, Hutchings, Jeffrey A., Mellerud, Ida, Espeland, Sigurd H., Johanneson, Kerstin, Roth, Olivia, Hansen, Michael M., Jentoft, Sissel, André, Carl, and Jorde, Per Erik

Subjects
LARVAL dispersal, GENE flow, FISH diversity, WHOLE genome sequencing, FRAGMENTED landscapes, GENOMICS, HABITATS, SPECIES
Abstract

Gene flow shapes spatial genetic structure and the potential for local adaptation. Among marine animals with nonmigratory adults, the presence or absence of a pelagic larval stage is thought to be a key determinant in shaping gene flow and the genetic structure of populations. In addition, the spatial distribution of suitable habitats is expected to influence the distribution of biological populations and their connectivity patterns. We used whole genome sequencing to study demographic history and reduced representation (double‐digest restriction associated DNA) sequencing data to analyse spatial genetic structure in broadnosed pipefish (Syngnathus typhle). Its main habitat is eelgrass beds, which are patchily distributed along the study area in southern Norway. Demographic connectivity among populations was inferred from long‐term (~30‐year) population counts that uncovered a rapid decline in spatial correlations in abundance with distance as short as ~2 km. These findings were contrasted with data for two other fish species that have a pelagic larval stage (corkwing wrasse, Symphodus melops; black goby, Gobius niger). For these latter species, we found wider spatial scales of connectivity and weaker genetic isolation‐by‐distance patterns, except where both species experienced a strong barrier to gene flow, seemingly due to lack of suitable habitat. Our findings verify expectations that a fragmented habitat and absence of a pelagic larval stage promote genetic structure, while presence of a pelagic larvae stage increases demographic connectivity and gene flow, except perhaps over extensive habitat gaps. [ABSTRACT FROM AUTHOR]

Published
2022
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24. A melting pot in the Arctic: Analysis of mitogenome variation in Arctic char (Salvelinus alpinus) reveals a 1000‐km contact zone between highly divergent lineages.

Author

Jacobsen, Magnus W., Jensen, Nana W., Nygaard, Rasmus, Præbel, Kim, Jónsson, Bjarni, Nielsen, Nynne Hjort, Pujolar, Jose M., Fraser, Dylan J., Bernatchez, Louis, and Hansen, Michael M.

Subjects
ARCTIC char, GENETIC variation, GENETIC code, GLACIATION
Abstract

Analysing the geographical distribution of evolutionary linages can reveal the potential locations of past refugia and colonisation routes and thus can improve understanding of current patterns of genetic variation and adaptive potential. We analysed 94 full mitogenome sequences to assess phylogeographic relationships amongst ten Arctic char (Salvelinus alpinus) populations, from western Greenland, eastern Greenland, Iceland and Norway. In addition, we excised D‐loop sequences, which were combined with previously published data in order to provide a circumpolar phylogeographical overview. In western Greenland, a secondary contact zone between Arctic and Atlantic evolutionary lineages was identified, spanning >1000 km, which geographically parallels a similar contact zone in Labrador, Canada. In eastern Greenland, Iceland and Norway, the Atlantic lineage was exclusively observed, whereas the northernmost western Greenland populations belonged to the Arctic lineage. The Arctic and Atlantic lineages were estimated to have diverged ca. 400,000 years BP, corresponding to the onset of the Saale glaciation, whereas the time of the most recent common ancestor (TMRCA) of the Arctic lineage was ca. 15,000 years BP. The Atlantic lineage comprised two subclades, with an estimated TMRCA of 60,000 BP, suggesting a complex history involving cryptic refugia or multiple recolonisations. Codon‐based tests revealed no evidence for positive selection within the 13 coding genes, indicating that there are no mitochondrial genetic adaptations within or between lineages. Higher genetic diversity observed within the contact zone likely correlates with higher standing genetic variation that could contribute to adaptive responses and morphological diversification, which Arctic char is renowned. [ABSTRACT FROM AUTHOR]

Published
2022
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25. Genetic differentiation and relationship between genetic and geographical distance in Danish sea trout (Salmo trutta L.) populations

Author

Hansen, Michael M. and Mensberg, Karen-Lise D.

Subjects
Mitochondrial DNA -- Research, Trout -- Research, Genetic research -- Analysis, Biological sciences
Abstract

Tissue samples from brown trout distributed over four river systems were genetically analyzed. The 24 samples were divided into 3 phylogenetic groups, suggesting populations within river systems tended to be more closely related to each other than to populations from other systems. Distance has been seen as a significant factor in limiting gene flow.

Published
1998

30. Sequencing, de novo annotation and analysis of the first Anguilla anguilla transcriptome: EeelBase opens new perspectives for the study of the critically endangered european eel

Author

Bernatchez Louis, Hansen Michael M, Larsen Peter F, Maes Gregory E, Pujolar Jose, Coppe Alessandro, Zane Lorenzo, and Bortoluzzi Stefania

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Once highly abundant, the European eel (Anguilla anguilla L.; Anguillidae; Teleostei) is considered to be critically endangered and on the verge of extinction, as the stock has declined by 90-99% since the 1980s. Yet, the species is poorly characterized at molecular level with little sequence information available in public databases. Results The first European eel transcriptome was obtained by 454 FLX Titanium sequencing of a normalized cDNA library, produced from a pool of 18 glass eels (juveniles) from the French Atlantic coast and two sites in the Mediterranean coast. Over 310,000 reads were assembled in a total of 19,631 transcribed contigs, with an average length of 531 nucleotides. Overall 36% of the contigs were annotated to known protein/nucleotide sequences and 35 putative miRNA identified. Conclusions This study represents the first transcriptome analysis for a critically endangered species. EeelBase, a dedicated database of annotated transcriptome sequences of the European eel is freely available at http://compgen.bio.unipd.it/eeelbase. Considering the multiple factors potentially involved in the decline of the European eel, including anthropogenic factors such as pollution and human-introduced diseases, our results will provide a rich source of data to discover and identify new genes, characterize gene expression, as well as for identification of genetic markers scattered across the genome to be used in various applications.

Published
2010
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31. A comparison of SNP and STR loci for delineating population structure and performing individual genetic assignment

Author

Høyheim Bjørn, Als Thomas D, Lien Sigbjørn, Hansen Michael M, Glover Kevin A, and Skaala Øystein

Subjects
Genetics, QH426-470
Abstract

Abstract Background Technological advances have lead to the rapid increase in availability of single nucleotide polymorphisms (SNPs) in a range of organisms, and there is a general optimism that SNPs will become the marker of choice for a range of evolutionary applications. Here, comparisons between 300 polymorphic SNPs and 14 short tandem repeats (STRs) were conducted on a data set consisting of approximately 500 Atlantic salmon arranged in 10 samples/populations. Results Global FST ranged from 0.033-0.115 and -0.002-0.316 for the 14 STR and 300 SNP loci respectively. Global FST was similar among 28 linkage groups when averaging data from mapped SNPs. With the exception of selecting a panel of SNPs taking the locus displaying the highest global FST for each of the 28 linkage groups, which inflated estimation of genetic differentiation among the samples, inferred genetic relationships were highly similar between SNP and STR data sets and variants thereof. The best 15 SNPs (30 alleles) gave a similar level of self-assignment to the best 4 STR loci (83 alleles), however, addition of further STR loci did not lead to a notable increase assignment whereas addition of up to 100 SNP loci increased assignment. Conclusion Whilst the optimal combinations of SNPs identified in this study are linked to the samples from which they were selected, this study demonstrates that identification of highly informative SNP loci from larger panels will provide researchers with a powerful approach to delineate genetic relationships at the individual and population levels.

Published
2010
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32. Depauperate genetic variability detected in the American and European bison using genomic techniques

Author

Wilson Gregory A, Coltman David, Gregersen Vivi R, Loeschcke Volker, Demontis Ditte, Wójcik Jan M, Tokarska Małgorzata, Pertoldi Cino, Randi Ettore, Hansen Michael M, and Bendixen Christian

Subjects
Biology (General), QH301-705.5
Abstract

Abstract A total of 929 polymorphic SNPs in EB (out of 54, 000 SNPs screened using a BovineSNP50 Illumina Genotyping BeadChip), and 1, 524 and 1, 403 polymorphic SNPs in WB and PB, respectively, were analysed. EB, WB and PB have all undergone recent drastic reductions in population size. Accordingly, they exhibited extremely depauperate genomes, deviations from genetic equilibrium and a genome organization consisting of a mosaic of haplotype blocks: regions with low haplotype diversity and high levels of linkage disequilibrium. No evidence for positive or stabilizing selection was found in EB, WB and PB, likely reflecting drift overwhelming selection. We suggest that utilization of genome-wide screening technologies, followed by utilization of less expensive techniques (e.g. VeraCode and Fluidigm EP1), holds large potential for genetic monitoring of populations. Additionally, these techniques will allow radical improvements of breeding practices in captive or managed populations, otherwise hampered by the limited availability of polymorphic markers. This result in improved possibilities for 1) estimating genetic relationships among individuals and 2) designing breeding strategies which attempt to preserve or reduce polymorphism in ecologically relevant genes and/or entire blocks. Reviewers This article was reviewed by: Fyodor Kondrashov and Shamil Sunyaev

Published
2009
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33. Genetic support for the current discrete conservation unit of the Central European wolf population.

Author

Szewczyk, Maciej, Nowak, Carsten, Hulva, Pavel, Mergeay, Joachim, Stronen, Astrid V., Bolfíková, Barbora Černá, Czarnomska, Sylwia D., Diserens, Tom A., Fenchuk, Viktar, Figura, Michał, de Groot, Arjen, Haidt, Andżelika, Hansen, Michael M., Jansman, Hugh, Kluth, Gesa, Kwiatkowska, Iga, Lubińska, Karolina, Michaux, Johan R., Niedźwiecka, Natalia, and Nowak, Sabina

Subjects
WOLVES, GENE flow, POPULATION dynamics
Abstract

The gray wolf Canis lupus range in central Europe is dynamically expanding, reconnecting previously isolated populations. Thus, a recent paper has proposed to merge the current Baltic and Central European (CE) wolf management units, which are no longer isolated by distance. However, recent genetic findings indicate that these two populations are not genetically homogenous. Here we review the most recent data on wolf genetic structure in central Europe and show that even though the CE and Baltic wolves represent the same phylogeographic lineage, their demographic history has resulted in significant genetic structure between these two populations. While the groups are interconnected by moderate gene flow, it is not high enough to reduce the strong founder signal observed in the CE population, suggesting that population dynamics within the CE wolf range are largely independent from those of its source (Baltic) population. Consequently, a management unit combining the CE and Baltic wolves would not form a demographically coherent entity. Thus, we recommend that conservation management units maintain their separate status. [ABSTRACT FROM AUTHOR]

Published
2021
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34. Reproductive isolation, evolutionary distinctiveness and setting conservation priorities: The case of European lake whitefish and the endangered North Sea houting (Coregonus spp.)

Author

Mensberg Karen-Lise D, Als Thomas D, Fraser Dylan J, and Hansen Michael M

Subjects
Evolution, QH359-425
Abstract

Abstract Background Adaptive radiation within fishes of the Coregonus lavaretus complex has created numerous morphs, posing significant challenges for taxonomy and conservation priorities. The highly endangered North Sea houting (C. oxyrhynchus; abbreviated NSH) has been considered a separate species from European lake whitefish (C. lavaretus; abbreviated ELW) due to morphological divergence and adaptation to oceanic salinities. However, its evolutionary and taxonomic status is controversial. We analysed microsatellite DNA polymorphism in nine populations from the Jutland Peninsula and the Baltic Sea, representing NSH (three populations, two of which are reintroduced) and ELW (six populations). The objectives were to: 1) analyse postglacial recolonization of whitefish in the region; 2) assess the evolutionary distinctiveness of NSH, and 3) apply several approaches for defining conservation units towards setting conservation priorities for NSH. Results Bayesian cluster analyses of genetic differentiation identified four major groups, corresponding to NSH and three groups of ELW (Western Jutland, Central Jutland, Baltic Sea). Estimates of historical migration rates indicated recolonization in a north-eastern direction, suggesting that all except the Baltic Sea population predominantly represent postglacial recolonization via the ancient Elbe River. Contemporary gene flow has not occurred between NSH and ELW, with a divergence time within the last 4,000 years suggested from coalescence methods. NSH showed interbreeding with ELW when brought into contact by stocking. Thus, reproductive isolation of NSH was not absolute, although possible interbreeding beyond the F1 level could not be resolved. Conclusion Fishes of the C. lavaretus complex in the Jutland Peninsula originate from the same recolonization event. NSH has evolved recently and its species status may be questioned due to incomplete reproductive isolation from ELW, but it was shown to merit consideration as an independent conservation unit. Yet, application of several approaches for defining conservation units generated mixed outcomes regarding its conservation priority. Within the total species complex, it remains one among many recently evolved unique forms. Its uniqueness and high conservation priority is more evident at a local geographical scale, where conservation efforts will also benefit populations of a number of other endangered species.

Published
2008
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35. Speciation history of European (Anguilla anguilla) and American eel (A. rostrata), analysed using genomic data.

Author

Nikolic, Natacha, Liu, Shenglin, Jacobsen, Magnus W., Jónsson, Bjarni, Bernatchez, Louis, Gagnaire, Pierre‐Alexandre, and Hansen, Michael M.

Subjects
AMERICAN eel, ANGUILLA anguilla, SYMPATRIC speciation, GENE flow, VICARIANCE, GENETIC speciation, FISH spawning
Abstract

Speciation in the ocean could differ from terrestrial environments due to fewer barriers to gene flow. Hence, sympatric speciation might be common, with American and European eel being candidates for exemplifying this. They show disjunct continental distributions on both sides of the Atlantic, but spawn in overlapping regions of the Sargasso Sea from where juveniles are advected to North American, European and North African coasts. Hybridization and introgression are known to occur, with hybrids almost exclusively observed in Iceland. Different speciation scenarios have been suggested, involving either vicariance or sympatric ecological speciation. Using RAD sequencing and whole‐genome sequencing data from parental species and F1 hybrids, we analysed speciation history based on the joint allele frequency spectrum (JAFS) and pairwise sequentially Markovian coalescent (PSMC) plots. JAFS supported a model involving a split without gene flow 150,000–160,000 generations ago, followed by secondary contact 87,000–92,000 generations ago, with 64% of the genome experiencing restricted gene flow. This supports vicariance rather than sympatric speciation, likely associated with Pleistocene glaciation cycles and ocean current changes. Whole‐genome PSMC analysis of F1 hybrids from Iceland suggested divergence 200,000 generations ago and indicated subsequent gene flow rather than strict isolation. Finally, simulations showed that results from both approaches (JAFS and PSMC) were congruent. Hence, there is strong evidence against sympatric speciation in North Atlantic eels. These results reiterate the need for careful consideration of cases of possible sympatric speciation, as even in seemingly barrier‐free oceanic environments palaeoceanographic factors may have promoted vicariance and allopatric speciation. [ABSTRACT FROM AUTHOR]

Published
2020
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36. Genetic population structure and variation at phenology‐related loci in anadromous Arctic char (Salvelinus alpinus).

Author

Madsen, Rikke P. A., Jacobsen, Magnus W., O'Malley, Kathleen G., Nygaard, Rasmus, Præbel, Kim, Jónsson, Bjarni, Pujolar, Jose M., Fraser, Dylan J., Bernatchez, Louis, and Hansen, Michael M.

Subjects
ARCTIC char, PHYLOGEOGRAPHY, OCEAN temperature, PLANT phenology, GENE flow, GEOGRAPHIC spatial analysis
Abstract

The Arctic will be especially affected by climate change, resulting in altered seasonal timing. Anadromous Arctic char (Salvelinus alpinus) is strongly influenced by sea surface temperature (SST) delimiting time periods available for foraging in the sea. Recent studies of salmonid species have shown variation at phenology‐related loci associated with timing of migration and spawning. We contrasted genetic population structure at 53 SNPs versus four phenology‐related loci among 15 anadromous Arctic char populations from Western Greenland and three outgroup populations. Among anadromous populations, the time period available for foraging at sea (>2°C) ranges from a few weeks to several months, motivating two research questions: (a) Is population structure compatible with possibilities for evolutionary rescue of anadromous populations during climate change? (b) Does selection associated with latitude or SST regimes act on phenology‐related loci? In Western Greenland, strong isolation by distance at SNPs was observed and spatial autocorrelation analysis showed genetic patch size up to 450 km, documenting contingency and gene flow among populations. Outlier tests provided no evidence for selection at phenology‐related loci. However, in Western Greenland, mean allele length at OtsClock1b was positively associated with the time of year when SST first exceeded 2°C and negatively associated with duration of the period where SST exceeded 2°C. This is consistent with local adaptation for making full use of the time period available for foraging in the sea. Current adaptation may become maladaptive under climate change, but long‐distance connectivity of anadromous populations could redistribute adaptive variation across populations and lead to evolutionary rescue. [ABSTRACT FROM AUTHOR]

Published
2020
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37. Demographic history has shaped the strongly differentiated corkwing wrasse populations in Northern Europe.

Author

Mattingsdal, Morten, Jorde, Per Erik, Knutsen, Halvor, Jentoft, Sissel, Stenseth, Nils Christian, Sodeland, Marte, Robalo, Joana I., Hansen, Michael M., André, Carl, and Blanco Gonzalez, Enrique

Subjects
GENE flow, WRASSES, GENETIC drift, POTENTIAL flow, STOCHASTIC processes, MARINE fishes
Abstract

Understanding the biological processes involved in genetic differentiation and divergence between populations within species is a pivotal aim in evolutionary biology. One particular phenomenon that requires clarification is the maintenance of genetic barriers despite the high potential for gene flow in the marine environment. Such patterns have been attributed to limited dispersal or local adaptation, and to a lesser extent to the demographic history of the species. The corkwing wrasse (Symphodus melops) is an example of a marine fish species where regions of particular strong divergence are observed. One such genetic break occurred at a surprisingly small spatial scale (FST ~0.1), over a short coastline (<60 km) in the North Sea‐Skagerrak transition area in southwestern Norway. Here, we investigate the observed divergence and purported reproductive isolation using genome resequencing. Our results suggest that historical events during the post‐glacial recolonization route can explain the present population structure of the corkwing wrasse in the northeast Atlantic. While the divergence across the break is strong, we detected ongoing gene flow between populations over the break suggesting recent contact or negative selection against hybrids. Moreover, we found few outlier loci and no clear genomic regions potentially being under selection. We concluded that neutral processes and random genetic drift e.g., due to founder events during colonization have shaped the population structure in this species in Northern Europe. Our findings underline the need to take into account the demographic process in studies of divergence processes. [ABSTRACT FROM AUTHOR]

Published
2020
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38. Prepping for climate change by introgressive hybridization.

Author

Hansen, Michael M.

Subjects
*GENETIC variation, *INTROGRESSION (Genetics)
Abstract

Species and populations may adapt to climate change by microevolutionary processes. However, standing genetic variation can be insufficient for this to occur. An interesting new study of a system of rainbowfish species shows that intraspecific hybridization enriches gene pools with adaptive variation that may allow persistence in a changing climate. [ABSTRACT FROM AUTHOR]

Published
2023
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40. Interbreeding between local and translocated populations of a cleaner fish in an experimental mesocosm predicts risk of disrupted local adaptation.

Author

Blanco Gonzalez, Enrique, Espeland, Sigurd H., Jentoft, Sissel, Hansen, Michael M., Robalo, Joana I., Stenseth, Nils C., and Jorde, Per Erik

Subjects
FISH populations, PEDICULOSIS, SALMON farming, GENE flow, AQUACULTURE industry, HOUSEKEEPING
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 (FST = 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. [ABSTRACT FROM AUTHOR]

Published
2019
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41. Genomic parallelism and lack thereof in contrasting systems of three‐spined sticklebacks.

Author

Liu, Shenglin, Ferchaud, Anne‐Laure, Grønkjær, Peter, Nygaard, Rasmus, and Hansen, Michael M.

Subjects
STICKLEBACKS, CONVERGENT evolution, FRESHWATER ecology, SINGLE nucleotide polymorphisms, NUCLEOTIDE sequencing
Abstract

Parallel evolution and the extent to which it involves gene reuse have attracted much interest. Whereas it has theoretically been predicted under which circumstances gene reuse is expected, empirical studies that directly compare systems showing high and low parallelism are rare. Three‐spined stickleback (Gasterosteus aculeatus), where freshwater populations have been independently founded by ancestral marine populations, represent prime examples of phenotypic and genomic parallelism, but cases exist where parallelism is low. Based on RAD (restriction site associated DNA) sequencing, we analysed SNPs and chromosome inversions in populations in Denmark and Greenland showing low and high parallelism, respectively. We identified parallelism across freshwater populations in Greenland at genomic regions previously identified to be associated with marine–freshwater divergence. These same markers also separated Danish marine and freshwater sticklebacks, albeit to a weaker extent. Hence, parallelism was not absent in Denmark but possibly constrained by spatially and temporally varying selection. Divergence time estimates found one Danish freshwater population to be much older than the others. It also deviated strongly with respect to parallelism and may represent earlier postglacial colonization based on a different pool of standing variation and eliciting different adaptive responses to freshwater conditions. These findings provide empirical support to previous suggestions that the time since replicate populations had access to a common pool of standing variation is a major factor determining gene reuse. At last, based on the observed parallelism in the Greenlandic system we discuss the predictability of adaptive responses in newly established populations. [ABSTRACT FROM AUTHOR]

Published
2018
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42. Spatiotemporal genetic structure of anadromous Arctic char (Salvelinus alpinus) populations in a region experiencing pronounced climate change.

Author

Christensen, Camilla, Jacobsen, Magnus W., Nygaard, Rasmus, and Hansen, Michael M.

Subjects
SINGLE nucleotide polymorphisms, ARCTIC char, CLIMATE change, ANIMAL populations, GENE flow
Abstract

We examined spatio-temporal genetic variation at 53 single nucleotide polymorphisms in anadromous Arctic char populations from Western Greenland, a region experiencing pronounced climate change. The study was based on contemporary and historical samples, the latter represented by DNA extracted from otoliths and scales from the 1950s-1960s. We investigated whether genetic population structure was temporarily stable or unstable, the latter due to relatively small spawning and nursery areas combined with a harsh Arctic environment. Furthermore, in order to evaluate the potential for adaptive responses and local adaptation we estimated effective population size (Ne) and migration rate (m). Temporal stability of genetic population structure was suggested, based on a hierarchical analysis of genetic differentiation showing much higher differentiation among samples from different populations (FCT = 0.091) than among temporal samples from the same populations (FSC = 0.01). This was further supported by a neighbor-joining tree and assignment of individuals that showed high contingency between historical and contemporary samples. Estimates of Ne were high (> 500) in three out of four populations, with a lower estimate in one population potentially reflecting fishing pressure or suboptimal environmental conditions. Estimates of m were in most cases low, ≤ 0.01. Ne and m estimates suggest a potential for adaptive responses and local adaptation. However, long generation time may also cause adaptive responses by microevolution to be unable to track climate change, especially considering the low migration rates that reduce potential evolutionary rescue by gene flow from populations better adapted to the altered environments. [ABSTRACT FROM AUTHOR]

Published
2018
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43. Half a century of genetic interaction between farmed and wild Atlantic salmon: Status of knowledge and unanswered questions.

Author

Glover, Kevin A, Solberg, Monica F, McGinnity, Phil, Hindar, Kjetil, Verspoor, Eric, Coulson, Mark W, Hansen, Michael M, Araki, Hitoshi, Skaala, Øystein, and Svåsand, Terje

Subjects
ATLANTIC salmon, AQUACULTURE, FISH populations, FISHERIES, GENETIC transformation
Abstract

Atlantic salmon ( Salmo salar) is one of the best researched fishes, and its aquaculture plays a global role in the blue revolution. However, since the 1970s, tens of millions of farmed salmon have escaped into the wild. We review current knowledge of genetic interactions and identify the unanswered questions. Native salmon populations are typically genetically distinct from each other and potentially locally adapted. Farmed salmon represent a limited number of wild source populations that have been exposed to ≥12 generations of domestication. Consequently, farmed and wild salmon differ in many traits including molecular-genetic polymorphisms, growth, morphology, life history, behaviour, physiology and gene transcription. Field experiments have demonstrated that the offspring of farmed salmon display lower lifetime fitness in the wild than wild salmon and that following introgression, there is a reduced production of genetically wild salmon and, potentially, of total salmon production. It is a formidable task to estimate introgression of farmed salmon in wild populations where they are not exotic. New methods have revealed introgression in half of ~150 Norwegian populations, with point estimates as high as 47%, and an unweighted average of 6.4% across 109 populations. Outside Norway, introgression remains unquantified, and in all regions, biological changes and the mechanisms driving population-specific impacts remain poorly documented. Nevertheless, existing knowledge shows that the long-term consequences of introgression is expected to lead to changes in life-history traits, reduced population productivity and decreased resilience to future challenges. Only a major reduction in the number of escapees and/or sterility of farmed salmon can eliminate further impacts. [ABSTRACT FROM AUTHOR]

Published
2017
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44. PSMC (pairwise sequentially Markovian coalescent) analysis of RAD (restriction site associated DNA) sequencing data.

Author

Liu, Shenglin and Hansen, Michael M.

Subjects
*NUCLEOTIDE sequencing, *THREESPINE stickleback, *CHROMOSOMES, *GENETIC mutation, *POPULATION genetics, *LOCUS (Genetics)
Abstract

The pairwise sequentially Markovian coalescent (PSMC) method uses the genome sequence of a single individual to estimate demographic history covering a time span of thousands of generations. Although originally designed for whole-genome data, we here use simulations to investigate its applicability to reference genome-aligned restriction site associated DNA (RAD) data. We find that RAD data can potentially be used for PSMC analysis, but at present with limitations. The key factor is the proportion ( p) of the genome that the RAD data covers. In our simulations, a proportion of 10% can still retain a substantial amount of coalescent information, whereas for 1% estimation becomes unreliable. The performance depends strongly on mutation rate ( μ) and recombination rate ( r) and is proportional to μ*p/r. When the value of this term is low, increasing the amount of data and number of iterations helps restoring the power of the estimation. We subsequently analyse one whole-genome-sequenced and 17 RAD-sequenced three-spined sticklebacks ( Gasterosteus aculeatus) from a lake in Greenland. The whole-genome sequence suggests a relatively recent expansion and decline within ca. 4000-40 000 generations ago, possibly reflecting postglacial expansion and founding of the lake population. RAD data, where chromosomes from 10 individuals are combined, identify a similar pattern. Our study provides guidance about the use of PSMC analysis and suggests measures that can improve its utility for RAD data. Finally, the study shows that RAD loci in general contain coalescent information that can be used for developing more targeted methods. [ABSTRACT FROM AUTHOR]

Published
2017
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45. Low genetic and phenotypic divergence in a contact zone between freshwater and marine sticklebacks: gene flow constrains adaptation.

Author

Pedersen, Susanne Holst, Ferchaud, Anne-Laure, Bertelsen, Mia S., Bekkevold, Dorte, and Hansen, Michael M.

Subjects
STICKLEBACKS, GENE flow, SINGLE nucleotide polymorphisms, NUCLEOTIDE sequencing, HYBRID zones
Abstract

Background: Distinct hybrid zones and phenotypic and genomic divergence is often observed between marine and freshwater threespine sticklebacks (Gasterosteus aculeatus). Nevertheless, cases also exist where marinefreshwater divergence is diffuse despite seemingly similar environmental settings. In order to assess what characterizes these highly different outcomes, we focused on the latter kind of system in the Odder River, Denmark. Here, a previous study based on RAD (Restriction site Associated DNA) sequencing found non-significant genomewide differentiation between marine and freshwater sticklebacks. In the present study, we analyzed samples on a finer geographical scale. We assessed if the system should be regarded as panmictic, or if fine-scale genetic structure and local selection was present but dominated by strong migration. We also asked if specific population components, that is the two sexes and different lateral plate morphs, contributed disproportionally more to dispersal. Results: We assessed variation at 96 SNPs and the Eda gene that affects lateral plate number, conducted molecular sex identification, and analyzed morphological traits. Genetic differentiation estimated by FST was non-significant throughout the system. Nevertheless, spatial autocorrelation analysis suggested fine scale genetic structure with a genetic patch size of 770 m. There was no evidence for sex-biased dispersal, but full-plated individuals showed higher dispersal than low- and partial-plated individuals. The system was dominated by full-plated morphs characteristic of marine sticklebacks, but in the upstream part of the river body shape and frequency of low-plated morphs changed in the direction expected for freshwater sticklebacks. Five markers including Eda were under possible diversifying selection. However, only subtle clinal patterns were observed for traits and markers. Conclusions: We suggest that gene flow from marine sticklebacks overwhelms adaptation to freshwater conditions, but the short genetic patch size means that the effect of gene flow on the most upstream region must be indirect and occurs over generations. The occurrence of both weak unimodal and strong bimodal hybrid zones within the same species is striking. We suggest environmental and demographic factors that could determine these outcomes, but also highlight the possibility that long-term population history and the presence or absence of genomic incompatibilities could be a contributing factor. [ABSTRACT FROM AUTHOR]

Published
2017
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46. Recipient of the 2016 Molecular Ecology Prize: Louis Bernatchez - advancing the conservation of aquatic resources with his contributions on the ecological genomics of adaptation and speciation.

Author

Hansen, Michael M. and Rogers, Sean M.

Subjects
*MOLECULAR ecology, *ECOLOGISTS, *AWARDS
Abstract

The article announces that Louis Bernatchez, professor and holder of Canadian Research Chair in Genomics and Conservation of Aquatic Resources at Université Laval, Québec City in Québec, Canada has received the 2016 Molecular Ecology Prize.

Published
2017
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47. Region-wide and ecotype-specific differences in demographic histories of threespine stickleback populations, estimated from whole genome sequences.

Author

Liu, Shenglin, Hansen, Michael M., and Jacobsen, Magnus W.

Subjects
*THREESPINE stickleback, *GENETIC speciation, *PHYLETIC gradualism, *GENETICS
Abstract

We analysed 81 whole genome sequences of threespine sticklebacks from Pacific North America, Greenland and Northern Europe, representing 16 populations. Principal component analysis of nuclear SNPs grouped populations according to geographical location, with Pacific populations being more divergent from each other relative to European and Greenlandic populations. Analysis of mitogenome sequences showed Northern European populations to represent a single phylogeographical lineage, whereas Greenlandic and particularly Pacific populations showed admixture between lineages. We estimated demographic history using a genomewide coalescence with recombination approach. The Pacific populations showed gradual population expansion starting >100 Kya, possibly reflecting persistence in cryptic refuges near the present distributional range, although we do not rule out possible influence of ancient admixture. Sharp population declines ca. 14-15 Kya were suggested to reflect founding of freshwater populations by marine ancestors. In Greenland and Northern Europe, demographic expansion started ca. 20-25 Kya coinciding with the end of the Last Glacial Maximum. In both regions, marine and freshwater populations started to show different demographic trajectories ca. 8-9 Kya, suggesting that this was the time of recolonization. In Northern Europe, this estimate was surprisingly late, but found support in subfossil evidence for presence of several freshwater fish species but not sticklebacks 12 Kya. The results demonstrate distinctly different demographic histories across geographical regions with potential consequences for adaptive processes. They also provide empirical support for previous assumptions about freshwater populations being founded independently from large, coherent marine populations, a key element in the Transporter Hypothesis invoked to explain the widespread occurrence of parallel evolution across freshwater stickleback populations. [ABSTRACT FROM AUTHOR]

Published
2016
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48. The impact of selection, gene flow and demographic history on heterogeneous genomic divergence: three-spine sticklebacks in divergent environments.

Author

Ferchaud, Anne‐Laure and Hansen, Michael M.

Subjects
*STICKLEBACKS, *NATURAL selection, *GENE flow, *BIOLOGICAL divergence, *FISH genetics, *FISH populations, *FISHES
Abstract

Heterogeneous genomic divergence between populations may reflect selection, but should also be seen in conjunction with gene flow and drift, particularly population bottlenecks. Marine and freshwater three-spine stickleback (Gasterosteus aculeatus) populations often exhibit different lateral armour plate morphs. Moreover, strikingly parallel genomic footprints across different marine-freshwater population pairs are interpreted as parallel evolution and gene reuse. Nevertheless, in some geographic regions like the North Sea and Baltic Sea, different patterns are observed. Freshwater populations in coastal regions are often dominated by marine morphs, suggesting that gene flow overwhelms selection, and genomic parallelism may also be less pronounced. We used RAD sequencing for analysing 28 888 SNPs in two marine and seven freshwater populations in Denmark, Europe. Freshwater populations represented a variety of environments: river populations accessible to gene flow from marine sticklebacks and large and small isolated lakes with and without fish predators. Sticklebacks in an accessible river environment showed minimal morphological and genomewide divergence from marine populations, supporting the hypothesis of gene flow overriding selection. Allele frequency spectra suggested bottlenecks in all freshwater populations, and particularly two small lake populations. However, genomic footprints ascribed to selection could nevertheless be identified. No genomic regions were consistent freshwater-marine outliers, and parallelism was much lower than in other comparable studies. Two genomic regions previously described to be under divergent selection in freshwater and marine populations were outliers between different freshwater populations. We ascribe these patterns to stronger environmental heterogeneity among freshwater populations in our study as compared to most other studies, although the demographic history involving bottlenecks should also be considered in the interpretation of results. [ABSTRACT FROM AUTHOR]

Published
2016
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49. A low-density SNP array for analyzing differential selection in freshwater and marine populations of threespine stickleback (Gasterosteus aculeatus).

Author

Ferchaud, Anne-Laure, Pedersen, Susanne H., Bekkevold, Dorte, Jianbo Jian, Yongchao Niu, and Hansen, Michael M.

Abstract

Background: The threespine stickleback (Gasterosteus aculeatus) has become an important model species for studying both contemporary and parallel evolution. In particular, differential adaptation to freshwater and marine environments has led to high differentiation between freshwater and marine stickleback populations at the phenotypic trait of lateral plate morphology and the underlying candidate gene Ectodysplacin (EDA). Many studies have focused on this trait and candidate gene, although other genes involved in marine-freshwater adaptation may be equally important. In order to develop a resource for rapid and cost efficient analysis of genetic divergence between freshwater and marine sticklebacks, we generated a low-density SNP (Single Nucleotide Polymorphism) array encompassing markers of chromosome regions under putative directional selection, along with neutral markers for background. Results: RAD (Restriction site Associated DNA) sequencing of sixty individuals representing two freshwater and one marine population led to the identification of 33,993 SNP markers. Ninety-six of these were chosen for the low-density SNP array, among which 70 represented SNPs under putatively directional selection in freshwater vs. marine environments, whereas 26 SNPs were assumed to be neutral. Annotation of these regions revealed several genes that are candidates for affecting stickleback phenotypic variation, some of which have been observed in previous studies whereas others are new. Conclusions: We have developed a cost-efficient low-density SNP array that allows for rapid screening of polymorphisms in threespine stickleback. The array provides a valuable tool for analyzing adaptive divergence between freshwater and marine stickleback populations beyond the well-established candidate gene Ectodysplacin (EDA). [ABSTRACT FROM AUTHOR]

Published
2014
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50. Genomic footprints of speciation in Atlantic eels ( Anguilla anguilla and A. rostrata).

Author

Jacobsen, Magnus W., Pujolar, Jose Martin, Bernatchez, Louis, Munch, Kasper, Jian, Jianbo, Niu, Yongchao, and Hansen, Michael M.

Subjects
ANGUILLA anguilla, AMERICAN eel, FISH genetics, FISH spawning, FISH ecology
Abstract

The importance of speciation-with-geneflow scenarios is increasingly appreciated. However, the specific processes and the resulting genomic footprints of selection are subject to much discussion. We studied the genomics of speciation between the two panmictic, sympatrically spawning sister species; European ( Anguilla anguilla) and American eel ( A. rostrata). Divergence is assumed to have initiated more than 3 Ma, and although low gene flow still occurs, strong postzygotic barriers are present. Restriction-site-associated DNA ( RAD) sequencing identified 328 300 SNPs for subsequent analysis. However, despite the presence of 3757 strongly differentiated SNPs ( FST > 0.8), sliding window analyses of FST showed no larger genomic regions (i.e. hundreds of thousands to millions of bases) of elevated differentiation. Overall FST was 0.041, and linkage disequilibrium was virtually absent for SNPs separated by more than 1000 bp. We suggest this to reflect a case of genomic hitchhiking, where multiple regions are under directional selection between the species. However, low but biologically significant gene flow and high effective population sizes leading to very low genetic drift preclude accumulation of strong background differentiation. Genes containing candidate SNPs for positive selection showed significant enrichment for gene ontology ( GO) terms relating to developmental processes and phosphorylation, which seems consistent with assumptions that differences in larval phase duration and migratory distances underlie speciation. Most SNPs under putative selection were found outside coding regions, lending support to emerging views that noncoding regions may be more functionally important than previously assumed. In total, the results demonstrate the necessity of interpreting genomic footprints of selection in the context of demographic parameters and life-history features of the studied species. [ABSTRACT FROM AUTHOR]

Published
2014
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