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Search: WFRF:(Laikre Linda) > Uppsala University

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1.
  • Andersson, Anastasia, et al. (author)
  • Lack of trophic polymorphism despite substantial genetic differentiation in sympatric brown trout (Salmo trutta) populations
  • 2017
  • In: Ecology of Freshwater Fish. - : Wiley. - 0906-6691 .- 1600-0633. ; 26:4, s. 643-652
  • Journal article (peer-reviewed)abstract
    • Sympatric populations occur in many freshwater fish species; such populations are typically detected through morphological distinctions that are often coupled to food niche and genetic separations. In salmonids, trophic and genetically separate sympatric populations have been reported in landlocked Arctic char, whitefish and brown trout. In Arctic char and brown trout rare cases of sympatric, genetically distinct populations have been detected based on genetic data alone, with no apparent morphological differences, that is cryptic structuring. It remains unknown whether such cryptic, sympatric structuring can be coupled to food niche separation. Here, we perform an extensive screening for trophic divergence of two genetically divergent, seemingly cryptic, sympatric brown trout populations documented to remain in stable sympatry over several decades in two interconnected, tiny mountain lakes in a nature reserve in central Sweden. We investigate body shape, body length, gill raker metrics, breeding status and diet (stomach content analysis and stable isotopes) in these populations. We find small significant differences for body shape, body size and breeding status, and no evidence of food niche separation between these two populations. In contrast, fish in the two lakes differed in body shape, diet, and nitrogen and carbon isotope signatures despite no genetic difference between lakes. These genetically divergent populations apparently coexist using the same food resources and showing the same adaptive plasticity to the local food niches of the two separate lakes. Such observations have not been reported previously but may be more common than recognised as genetic screenings are necessary to detect the structures.
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4.
  • Hill, Jason, et al. (author)
  • Recurrent convergent evolution at amino acid residue 261 in fish rhodopsin
  • 2019
  • In: Proceedings of the National Academy of Sciences of the United States of America. - : Proceedings of the National Academy of Sciences. - 0027-8424 .- 1091-6490. ; 116:37, s. 18473-18478
  • Journal article (peer-reviewed)abstract
    • The evolutionary process that occurs when a species colonizes a new environment provides an opportunity to explore the mechanisms underlying genetic adaptation, which is essential knowledge for understanding evolution and the maintenance of biodiversity. Atlantic herring has an estimated total breeding stock of about 1 trillion (10(12)) and has colonized the brackish Baltic Sea within the last 10,000 y. Minute genetic differentiation between Atlantic and Baltic herring populations at selectively neutral loci combined with this rapid adaptation to a new environment facilitated the identification of hundreds of loci underlying ecological adaptation. A major question in the field of evolutionary biology is to what extent such an adaptive process involves selection of novel mutations with large effects or genetic changes at many loci, each with a small effect on phenotype (i.e., selection on standing genetic variation). Here we show that a missense mutation in rhodopsin (Phe261Tyr) is an adaptation to the red-shifted Baltic Sea light environment. The transition from phenylalanine to tyrosine differs only by the presence of a hydroxyl moiety in the latter, but this results in an up to 10-nm red-shifted light absorbance of the receptor. Remarkably, an examination of the rhodopsin sequences from 2,056 species of fish revealed that the same missense mutation has occurred independently and been selected for during at least 20 transitions between light environments across all fish. Our results provide a spectacular example of convergent evolution and how a single amino acid change can have a major effect on ecological adaptation.
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5.
  • Kurland, Sara, et al. (author)
  • Exploring a Pool-seq-only approach for gaining population genomic insights in nonmodel species
  • 2019
  • In: Ecology and Evolution. - : Wiley. - 2045-7758. ; 9, s. 11448-11463
  • Journal article (peer-reviewed)abstract
    • Developing genomic insights is challenging in nonmodel species for which resources are often scarce and prohibitively costly. Here, we explore the potential of a recently established approach using Pool-seq data to generate a de novo genome assembly for mining exons, upon which Pool-seq data are used to estimate population divergence and diversity. We do this for two pairs of sympatric populations of brown trout (Salmo trutta): one naturally sympatric set of populations and another pair of populations introduced to a common environment. We validate our approach by comparing the results to those from markers previously used to describe the populations (allozymes and individual-based single nucleotide polymorphisms [SNPs]) and from mapping the Pool-seq data to a reference genome of the closely related Atlantic salmon (Salmo salar). We find that genomic differentiation (F-ST) between the two introduced populations exceeds that of the naturally sympatric populations (F-ST = 0.13 and 0.03 between the introduced and the naturally sympatric populations, respectively), in concordance with estimates from the previously used SNPs. The same level of population divergence is found for the two genome assemblies, but estimates of average nucleotide diversity differ (pi over bar approximate to 0.002 and pi over bar approximate to 0.001 when mapping to S. trutta and S. salar, respectively), although the relationships between population values are largely consistent. This discrepancy might be attributed to biases when mapping to a haploid condensed assembly made of highly fragmented read data compared to using a high-quality reference assembly from a divergent species. We conclude that the Pool-seq-only approach can be suitable for detecting and quantifying genome-wide population differentiation, and for comparing genomic diversity in populations of nonmodel species where reference genomes are lacking.
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6.
  • Kurland, Sara, et al. (author)
  • Genomic dynamics of brown trout populations released to a novel environment
  • 2022
  • In: Ecology and Evolution. - : John Wiley & Sons. - 2045-7758. ; 12:7
  • Journal article (peer-reviewed)abstract
    • Population translocations occur for a variety of reasons, from displacement due to climate change to human-induced transfers. Such actions have adverse effects on genetic variation and understanding their microevolutionary consequences requires monitoring. Here, we return to an experimental release of brown trout (Salmo trutta) in order to monitor the genomic effects of population translocations. In 1979, fish from each of two genetically (F-ST = 0.16) and ecologically separate populations were simultaneously released, at one point in time, to a lake system previously void of brown trout. Here, whole-genome sequencing of pooled DNA (Pool-seq) is used to characterize diversity within and divergence between the introduced populations and fish inhabiting two lakes downstream of the release sites, sampled 30 years later (c. 5 generations). Present results suggest that while extensive hybridization has occurred, the two introduced populations are unequally represented in the lakes downstream of the release sites. One population, which is ecologically resident in its original habitat, mainly contributes to the lake closest to the release site. The other population, migratory in its natal habitat, is genetically more represented in the lake further downstream. Genomic regions putatively under directional selection in the new habitat are identified, where allele frequencies in both established populations are more similar to the introduced population stemming from a resident population than the migratory one. Results suggest that the microevolutionary consequences of population translocations, for example, hybridization and adaptation, can be rapid and that Pool-seq can be used as an initial tool to monitor genome-wide effects.
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7.
  • Kurland, Sara, 1989-, et al. (author)
  • New indicators for monitoring genetic diversity applied to alpine brown trout populations using whole genome sequence data
  • 2024
  • In: Molecular Ecology. - : John Wiley & Sons. - 0962-1083 .- 1365-294X. ; 33:2
  • Journal article (peer-reviewed)abstract
    • International policy recently adopted commitments to maintain genetic diversity in wild populations to secure their adaptive potential, including metrics to monitor temporal trends in genetic diversity – so-called indicators. A national programme for assessing trends in genetic diversity was recently initiated in Sweden. Relating to this effort, we systematically assess contemporary genome-wide temporal trends (40 years) in wild populations using the newly adopted indicators and whole genome sequencing (WGS). We use pooled and individual WGS data from brown trout (Salmo trutta) in eight alpine lakes in protected areas. Observed temporal trends in diversity metrics (nucleotide diversity, Watterson's ϴ and heterozygosity) lie within proposed acceptable threshold values for six of the lakes, but with consistently low values in lakes above the tree line and declines observed in these northern-most lakes. Local effective population size is low in all lakes, highlighting the importance of continued protection of interconnected systems to allow genetic connectivity for long-term viability of these populations. Inbreeding (FROH) spans 10%–30% and is mostly represented by ancient (<1 Mb) runs of homozygosity, with observations of little change in mutational load. We also investigate adaptive dynamics over evolutionarily short time frames (a few generations); identifying putative parallel selection across all lakes within a gene pertaining to skin pigmentation as well as candidates of selection unique to specific lakes and lake systems involved in reproduction and immunity. We demonstrate the utility of WGS for systematic monitoring of natural populations, a priority concern if genetic diversity is to be protected.
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8.
  • Laikre, Linda, et al. (author)
  • Wanted : Scientists in the CBD process
  • 2008
  • In: Conservation Biology. - : Wiley. - 0888-8892 .- 1523-1739. ; 22:4, s. 814-815
  • Journal article (peer-reviewed)
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9.
  • Lamichhaney, Sangeet, et al. (author)
  • Population-scale sequencing reveals genetic differentiation due to local adaptation in Atlantic herring
  • 2012
  • In: Proceedings of the National Academy of Sciences of the United States of America. - : Proceedings of the National Academy of Sciences. - 0027-8424 .- 1091-6490. ; 109:47, s. 19345-19350
  • Journal article (peer-reviewed)abstract
    • The Atlantic herring (Clupea harengus), one of the most abundant marine fishes in the world, has historically been a critical food source in Northern Europe. It is one of the few marine species that can reproduce throughout the brackish salinity gradient of the Baltic Sea. Previous studies based on few genetic markers have revealed a conspicuous lack of genetic differentiation between geographic regions, consistent with huge population sizes and minute genetic drift. Here, we present a cost-effective genome-wide study in a species that lacks a genome sequence. We first assembled amuscle transcriptome and then aligned genomic reads to the transcripts, creating an "exome assembly," capturing both exons and flanking sequences. We then resequenced pools of fish from a wide geographic range, including the Northeast Atlantic, as well as different regions in the Baltic Sea, aligned the reads to the exome assembly, and identified 440,817 SNPs. The great majority of SNPs showed no appreciable differences in allele frequency among populations; however, several thousand SNPs showed striking differences, some approaching fixation for different alleles. The contrast between low genetic differentiation at most loci and striking differences at others implies that the latter category primarily reflects natural selection. A simulation study confirmed that the distribution of the fixation index F-ST deviated significantly from expectation for selectively neutral loci. This study provides insights concerning the population structure of an important marine fish and establishes the Atlantic herring as a model for population genetic studies of adaptation and natural selection.
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10.
  • Martínez Barrio, Álvaro, et al. (author)
  • The genetic basis for ecological adaptation of the Atlantic herring revealed by genome sequencing
  • 2016
  • In: eLIFE. - 2050-084X. ; 5
  • Journal article (peer-reviewed)abstract
    • Ecological adaptation is of major relevance to speciation and sustainable population management, but the underlying genetic factors are typically hard to study in natural populations due to genetic differentiation caused by natural selection being confounded with genetic drift in subdivided populations. Here, we use whole genome population sequencing of Atlantic and Baltic herring to reveal the underlying genetic architecture at an unprecedented detailed resolution for both adaptation to a new niche environment and timing of reproduction. We identify almost 500 independent loci associated with a recent niche expansion from marine (Atlantic Ocean) to brackish waters (Baltic Sea), and more than 100 independent loci showing genetic differentiation between spring- and autumn-spawning populations irrespective of geographic origin. Our results show that both coding and non-coding changes contribute to adaptation. Haplotype blocks, often spanning multiple genes and maintained by selection, are associated with genetic differentiation.
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  • Result 1-10 of 11
Type of publication
journal article (10)
other publication (1)
Type of content
peer-reviewed (9)
pop. science, debate, etc. (2)
Author/Editor
Laikre, Linda (8)
Andersson, Leif (4)
Ryman, Nils (4)
Rafati, Nima (3)
Laikre, Linda, 1960- (3)
Rubin, Carl-Johan (3)
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Pettersson, Mats (2)
Ryman, Nils, 1943- (2)
Andersson, Anastasia (2)
Sörensen, Jens (1)
Madison, Guy (1)
Munthe, Christian, 1 ... (1)
Gardell, Mattias (1)
Kutschera, Verena E. (1)
Persson, Mats (1)
Jonsson, Stefan (1)
Karlsohn, Thomas, 19 ... (1)
Nylin, Sören (1)
Casini, Michele (1)
Rider, Sharon (1)
Ekman, Diana (1)
Grabherr, Manfred (1)
Wheat, Christopher W ... (1)
Rooke, Tetz, 1955 (1)
Liu, Xin (1)
Nystedt, Björn (1)
Fur, Gunlög (1)
Ganetz, Hillevi (1)
Dainat, Jacques (1)
Lamichhaney, Sangeet (1)
Berglund, Jonas (1)
Webster, Matthew T. (1)
Ebenhard, Torbjörn (1)
Enbody, Erik D (1)
Fornäs, Johan, 1952- (1)
Nilsson, Ulrika (1)
Olsson, Erik J (1)
Martin, Marcel (1)
Wetterbom, Anna (1)
Lorenzoni, Patricia, ... (1)
Sundbom, Marcus (1)
Johansson, Frank (1)
Priebe, Gunilla, 196 ... (1)
Zetterholm, Magnus (1)
Bekkevold, Dorte (1)
Fuentes-Pardo, Angel ... (1)
Tydén, Mattias (1)
Jalmert, Lars (1)
Jonsson, Bengt Gunna ... (1)
Hedman Hvitfeldt, Ma ... (1)
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University
Stockholm University (9)
Swedish University of Agricultural Sciences (5)
Södertörn University (2)
University of Gothenburg (1)
Örebro University (1)
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Lund University (1)
Linnaeus University (1)
Karolinska Institutet (1)
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Language
English (10)
Swedish (1)
Research subject (UKÄ/SCB)
Natural sciences (9)
Agricultural Sciences (5)
Social Sciences (1)
Humanities (1)

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