Your search keyword '"Galice Hoarau"' showing total 91 results

1. Population and seascape genomics of a critically endangered benthic elasmobranch, the blue skate Dipturus batis

Author

Aurélien Delaval, Michelle Frost, Victoria Bendall, Stuart J. Hetherington, David Stirling, Galice Hoarau, Catherine S. Jones, and Leslie R. Noble

Subjects

blue skate, climate change, conservation, Dipturus batis, population genomics, seascape genomics, Evolution, QH359-425

Abstract

Abstract The blue skate (Dipturus batis) has a patchy distribution across the North‐East Atlantic Ocean, largely restricted to occidental seas around the British Isles following fisheries‐induced population declines and extirpations. The viability of remnant populations remains uncertain and could be impacted by continued fishing and by‐catch pressure, and the projected impacts of climate change. We genotyped 503 samples of D. batis, obtained opportunistically from the widest available geographic range, across 6 350 single nucleotide polymorphisms (SNPs) using a reduced‐representation sequencing approach. Genotypes were used to assess the species’ contemporary population structure, estimate effective population sizes and identify putative signals of selection in relation to environmental variables using a seascape genomics approach. We identified genetic discontinuities between inshore (British Isles) and offshore (Rockall and Faroe Island) populations, with differentiation most pronounced across the deep waters of the Rockall Trough. Effective population sizes were largest in the Celtic Sea and Rockall, but low enough to be of potential conservation concern among Scottish and Faroese sites. Among the 21 candidate SNPs under positive selection was one significantly correlated with environmental variables predicted to be affected by climate change, including bottom temperature, salinity and pH. The paucity of well‐annotated elasmobranch genomes precluded us from identifying a putative function for this SNP. Nevertheless, our findings suggest that climate change could inflict a strong selective force upon remnant populations of D. batis, further constraining its already‐restricted habitat. Furthermore, the results provide fundamental insights on the distribution, behaviour and evolutionary biology of D. batis in the North‐East Atlantic that will be useful for the establishment of conservation actions for this and other critically endangered elasmobranchs.

Published

2022

2. A review of reproduction in the seaweed genus Fucus (Ochrophyta, Fucales): Background for renewed consideration as a model organism

Author

William J. Hatchett, James A. Coyer, Kjersti Sjøtun, Alexander Jueterbock, and Galice Hoarau

Subjects

Fucus, reproduction, review, diplontic life cycle, selfing, hybridization, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The genus Fucus dominates the intertidal and shallow subtidal rocky reefs of the North Atlantic and also is commonly found in the intertidal of the North Pacific. It likely diversified 12.2-2.7 mya into two genetically distinct lineages: Lineage 1 with one species in the North Pacific and two in the North Atlantic; and Lineage 2 found only in the North Atlantic (one species recently introduced into the North Pacific). With 10 accepted species, Fucus spp. (and the Fucales) are unique among algae in having a diplontic life cycle, whereby the only haploid stage is the single-celled gamete. Further, Fucus spp. produce eight eggs in each oogonium; have hermaphroditic and dioecious species in each lineage; display sperm:egg ratios differing by more than one order of magnitude; have synchronized and predictable release of gametes; are capable of self- and/or cross- fertilization and asexual (fragmentation via adventitious branching) reproduction; readily hybridize in culture, as well as the field; and form ecads (free-living individuals with morphological variability linked to habitat) by hybridization or polyploidy. Consequently, the genus is an excellent model for a variety of studies in reproductive biology, employing laboratory and field manipulations as well as detailed genetic studies using the molecular ‘omics’. We review here the relevant literature in order to fully understand and appreciate the unique opportunities that Fucus spp. provide as model organisms for future studies of reproduction.

Published

2022

3. Seasonal Enzyme Activities of Sympatric Calanus glacialis and C. finmarchicus in the High-Arctic

Author

Maja Hatlebakk, Barbara Niehoff, Marvin Choquet, Haakon Hop, Anette Wold, Galice Hoarau, and Janne E. Søreide

Subjects

calanoid copepods, overwintering, metabolism, enzyme activities, Svalbard, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

In the Arctic shelf seas, the mesozooplankton biomass is dominated by the arctic copepod Calanus glacialis, but its boreal congeneric C. finmarchicus is expanding northwards. Even though it is already there, C. finmarchicus may not be able to truly establish itself in the Arctic seas and potentially replace C. glacialis. We compared metabolic and digestive enzyme activities of sympatric C. glacialis and C. finmarchicus from Isfjorden, Svalbard and off-shelf north of Svalbard. The seasonal regulation of anabolic and catabolic enzyme activities was generally similar for the two species, but with some interspecific differences corresponding to their ontogeny. Wake-up from overwintering started earlier in adults of C. glacialis than in C. finmarchicus, while the onset of dormancy started early in the overwintering stages of both species. Furthermore, C. glacialis showed an earlier and higher mobilization of lipase enzyme activities, indicating higher efficiency in assimilating dietary lipids compared to C. finmarchicus. Similar population sizes and population structures for C. finmarchicus off-shelf north of Svalbard and in Isfjorden support a similar origin. Still, C. finmarchicus was able to match regulation of enzyme activities to the bloom even though the bloom peaked approximately a month later off-shelf north of Svalbard, indicating that food availability is an important signal for the final step of termination of diapause. Even though the two species largely follow the same patterns of metabolic enzyme activities, the more efficient lipid anabolism of C. glacialis may give it an advantage over C. finmarchicus in high-Arctic unpredictable environments with short-pulsed primary production regimes.

Published

2022

4. Novel genomic resources for shelled pteropods: a draft genome and target capture probes for Limacina bulimoides, tested for cross-species relevance

Author

Le Qin Choo, Thijs M. P. Bal, Marvin Choquet, Irina Smolina, Paula Ramos-Silva, Ferdinand Marlétaz, Martina Kopp, Galice Hoarau, and Katja T. C. A. Peijnenburg

Subjects

Targeted sequencing, Exon capture, Genome, Non-model organism, Marine zooplankton, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Pteropods are planktonic gastropods that are considered as bio-indicators to monitor impacts of ocean acidification on marine ecosystems. In order to gain insight into their adaptive potential to future environmental changes, it is critical to use adequate molecular tools to delimit species and population boundaries and to assess their genetic connectivity. We developed a set of target capture probes to investigate genetic variation across their large-sized genome using a population genomics approach. Target capture is less limited by DNA amount and quality than other genome-reduced representation protocols, and has the potential for application on closely related species based on probes designed from one species. Results We generated the first draft genome of a pteropod, Limacina bulimoides, resulting in a fragmented assembly of 2.9 Gbp. Using this assembly and a transcriptome as a reference, we designed a set of 2899 genome-wide target capture probes for L. bulimoides. The set of probes includes 2812 single copy nuclear targets, the 28S rDNA sequence, ten mitochondrial genes, 35 candidate biomineralisation genes, and 41 non-coding regions. The capture reaction performed with these probes was highly efficient with 97% of the targets recovered on the focal species. A total of 137,938 single nucleotide polymorphism markers were obtained from the captured sequences across a test panel of nine individuals. The probes set was also tested on four related species: L. trochiformis, L. lesueurii, L. helicina, and Heliconoides inflatus, showing an exponential decrease in capture efficiency with increased genetic distance from the focal species. Sixty-two targets were sufficiently conserved to be recovered consistently across all five species. Conclusion The target capture protocol used in this study was effective in capturing genome-wide variation in the focal species L. bulimoides, suitable for population genomic analyses, while providing insights into conserved genomic regions in related species. The present study provides new genomic resources for pteropods and supports the use of target capture-based protocols to efficiently characterise genomic variation in small non-model organisms with large genomes.

Published

2020

5. Insights into the species evolution of Calanus copepods in the northern seas revealed by de novo transcriptome sequencing

Author

Apollo Marco Lizano, Irina Smolina, Marvin Choquet, Martina Kopp, and Galice Hoarau

Subjects

Calanus, concordance factor, de novo transcriptome, phylotranscriptomics, RNA‐seq, Ecology, QH540-549.5

Abstract

Abstract Copepods of the zooplankton genus Calanus play a key role in marine ecosystems in the northern seas. Although being among the most studied organisms on Earth, due to their ecological importance, genomic resources for Calanus spp. remain scarce, mostly due to their large genome size (from 6 to 12 Gbps). As an alternative to whole‐genome sequencing in Calanus spp., we sequenced and de novo assembled transcriptomes of five Calanus species: Calanus glacialis, C. hyperboreus, C. marshallae, C. pacificus, and C. helgolandicus. Functional assignment of protein families based on clusters of orthologous genes (COG) and gene ontology (GO) annotations showed analogous patterns of protein functions across species. Phylogenetic analyses using maximum likelihood (ML) of 191 protein‐coding genes mined from RNA‐seq data fully resolved evolutionary relationships among seven Calanus species investigated (five species sequenced for this study and two species with published datasets), with gene and site concordance factors showing that 109 out of 191 protein‐coding genes support a separation between three groups: the C. finmarchicus group (including C. finmarchicus, C. glacialis, and C. marshallae), the C. helgolandicus group (including C. helgolandicus, C. sinicus, and C. pacificus) and the monophyletic C. hyperboreus group. The tree topology obtained in ML analyses was similar to a previously proposed phylogeny based on morphological criteria and cleared certain ambiguities from past studies on evolutionary relationships among Calanus species.

Published

2022

6. Adaptation of Temperate Seagrass to Arctic Light Relies on Seasonal Acclimatization of Carbon Capture and Metabolism

Author

Alexander Jueterbock, Bernardo Duarte, James Coyer, Jeanine L. Olsen, Martina Elisabeth Luise Kopp, Irina Smolina, Sophie Arnaud-Haond, Zi-Min Hu, and Galice Hoarau

Subjects

eelgrass (Zostera marina), climate change, Arctic light, respiration, photosynthesis, carbon capture, Plant culture, SB1-1110

Abstract

Due to rising global surface temperatures, Arctic habitats are becoming thermally suitable for temperate species. Whether a temperate species can immigrate into an ice-free Arctic depends on its ability to tolerate extreme seasonal fluctuations in daylength. Thus, understanding adaptations to polar light conditions can improve the realism of models predicting poleward range expansions in response to climate change. Plant adaptations to polar light have rarely been studied and remain unknown in seagrasses. If these ecosystem engineers can migrate polewards, seagrasses will enrich biodiversity, and carbon capture potential in shallow coastal regions of the Arctic. Eelgrass (Zostera marina) is the most widely distributed seagrass in the northern hemisphere. As the only seagrass species growing as far north as 70°N, it is the most likely candidate to first immigrate into an ice-free Arctic. Here, we describe seasonal (and diurnal) changes in photosynthetic characteristics, and in genome-wide gene expression patterns under strong annual fluctuations of daylength. We compared PAM measurements and RNA-seq data between two populations at the longest and shortest day of the year: (1) a Mediterranean population exposed to moderate annual fluctuations of 10–14 h daylength and (2) an Arctic population exposed to high annual fluctuations of 0–24 h daylength. Most of the gene expression specificities of the Arctic population were found in functions of the organelles (chloroplast and mitochondrion). In winter, Arctic eelgrass conserves energy by repressing respiration and reducing photosynthetic energy fluxes. Although light-reactions, and genes involved in carbon capture and carbon storage were upregulated in summer, enzymes involved in CO2 fixation and chlorophyll-synthesis were upregulated in winter, suggesting that winter metabolism relies not only on stored energy resources but also on active use of dim light conditions. Eelgrass is unable to use excessive amounts of light during summer and demonstrates a significant reduction in photosynthetic performance under long daylengths, possibly to prevent photoinhibition constrains. Our study identified key mechanisms that allow eelgrass to survive under Arctic light conditions and paves the way for experimental research to predict whether and up to which latitude eelgrass can potentially migrate polewards in response to climate change.

Published

2021

7. The Seagrass Methylome Is Associated With Variation in Photosynthetic Performance Among Clonal Shoots

Author

Alexander Jueterbock, Christoffer Boström, James A. Coyer, Jeanine L. Olsen, Martina Kopp, Anusha K. S. Dhanasiri, Irina Smolina, Sophie Arnaud-Haond, Yves Van de Peer, and Galice Hoarau

Subjects

DNA methylation, ecological epigenetics, clonality, heat stress, seagrass, Zostera marina (eelgrass), Plant culture, SB1-1110

Abstract

Evolutionary theory predicts that clonal organisms are more susceptible to extinction than sexually reproducing organisms, due to low genetic variation and slow rates of evolution. In agreement, conservation management considers genetic variation as the ultimate measure of a population’s ability to survive over time. However, clonal plants are among the oldest living organisms on our planet. Here, we test the hypothesis that clonal seagrass meadows display epigenetic variation that complements genetic variation as a source of phenotypic variation. In a clonal meadow of the seagrass Zostera marina, we characterized DNA methylation among 42 shoots. We also sequenced the whole genome of 10 shoots to correlate methylation patterns with photosynthetic performance under exposure to and recovery from 27°C, while controlling for somatic mutations. Here, we show for the first time that clonal seagrass shoots display DNA methylation variation that is independent from underlying genetic variation, and associated with variation in photosynthetic performance under experimental conditions. It remains unknown to what degree this association could be influenced by epigenetic responses to transplantation-related stress, given that the methylomes showed a strong shift under acclimation to laboratory conditions. The lack of untreated control samples in the heat stress experiment did not allow us to distinguish methylome shifts induced by acclimation from such induced by heat stress. Notwithstanding, the co-variation in DNA methylation and photosynthetic performance may be linked via gene expression because methylation patterns varied in functionally relevant genes involved in photosynthesis, and in the repair and prevention of heat-induced protein damage. While genotypic diversity has been shown to enhance stress resilience in seagrass meadows, we suggest that epigenetic variation plays a similar role in meadows dominated by a single genotype. Consequently, conservation management of clonal plants should consider epigenetic variation as indicator of resilience and stability.

Published

2020

8. Decadal stability in genetic variation and structure in the intertidal seaweed Fucus serratus (Heterokontophyta: Fucaceae)

Author

Alexander Jueterbock, James A. Coyer, Jeanine L. Olsen, and Galice Hoarau

Subjects

Brown algae, Effective population size, Evolutionary potential, Genetic diversity, Microsatellites, North Atlantic, Evolution, QH359-425

Abstract

Abstract Background The spatial distribution of genetic diversity and structure has important implications for conservation as it reveals a species’ strong and weak points with regard to stability and evolutionary capacity. Temporal genetic stability is rarely tested in marine species other than commercially important fishes, but is crucial for the utility of temporal snapshots in conservation management. High and stable diversity can help to mitigate the predicted northward range shift of seaweeds under the impact of climate change. Given the key ecological role of fucoid seaweeds along rocky shores, the positive effect of genetic diversity may reach beyond the species level to stabilize the entire intertidal ecosystem along the temperate North Atlantic. In this study, we estimated the effective population size, as well as temporal changes in genetic structure and diversity of the seaweed F. serratus using 22 microsatellite markers. Samples were taken across latitudes and a range of temperature regimes at seven locations with decadal sampling (2000 and 2010). Results Across latitudes, genetic structure and diversity remained stable over 5–10 generations. Stable small-scale structure enhanced regional diversity throughout the species’ range. In accordance with its biogeographic history, effective population size and diversity peaked in the species’ mid-range in Brittany (France), and declined towards its leading and trailing edge to the north and south. At the species’ southern edge, multi-locus-heterozygosity displayed a strong decline from 1999 to 2010. Conclusion Temporally stable genetic structure over small spatial scales is a potential driver for local adaptation and species radiation in the genus Fucus. Survival and adaptation of the low-diversity leading edge of F. serratus may be enhanced by regional gene flow and ‘surfing’ of favorable mutations or impaired by the accumulation of deleterious mutations. Our results have clear implications for the conservation of F. serratus at its genetically unique southern edge in Northwest Iberia, where increasing temperatures are likely the major cause for the decline not only of F. serratus, but also other intertidal and subtidal macroalgae. We expect that F. serratus will disappear from Northwest Iberia by 2100 if genetic rescue is not induced by the influx of genetic variation from Brittany.

Published

2018

9. The complete mitochondrial genome of the blue skate Dipturus batis

Author

Aurélien Delaval, Tanja Schwanck, Martina Elisabeth Luise Kopp, Galice Hoarau, Catherine S Jones, and Leslie R Noble

Subjects

dipturus batis, mitogenome, rajidae, Genetics, QH426-470

Abstract

The complete mitochondrial genome of the blue skate Dipturus batis is described from shotgun sequencing on an Illumina next-generation sequencing platform. We report a 16,911 bp long sequence similar in size to other members of the genus, containing 13 protein-coding regions, 22 tRNA genes, 2 rRNA genes, and 2 non-coding areas. Phylogenetic analysis was performed using the complete mitochondrial genomes of 17 related species, placing D. batis within the Rajini tribe of the Rajidae family, consistent with current taxonomy. The new resource adds to a growing database of rajid mitogenomes which will help resolve phylogenetic relationships within the family.

Published

2020

10. Towards population genomics in non-model species with large genomes: a case study of the marine zooplankton Calanus finmarchicus

Author

Marvin Choquet, Irina Smolina, Anusha K. S. Dhanasiri, Leocadio Blanco-Bercial, Martina Kopp, Alexander Jueterbock, Arvind Y. M. Sundaram, and Galice Hoarau

Subjects

genome reduced-representation, sequence capture enrichment, calanus spp., Science

Abstract

Advances in next-generation sequencing technologies and the development of genome-reduced representation protocols have opened the way to genome-wide population studies in non-model species. However, species with large genomes remain challenging, hampering the development of genomic resources for a number of taxa including marine arthropods. Here, we developed a genome-reduced representation method for the ecologically important marine copepod Calanus finmarchicus (haploid genome size of 6.34 Gbp). We optimized a capture enrichment-based protocol based on 2656 single-copy genes, yielding a total of 154 087 high-quality SNPs in C. finmarchicus including 62 372 in common among the three locations tested. The set of capture probes was also successfully applied to the congeneric C. glacialis. Preliminary analyses of these markers revealed similar levels of genetic diversity between the two Calanus species, while populations of C. glacialis showed stronger genetic structure compared to C. finmarchicus. Using this powerful set of markers, we did not detect any evidence of hybridization between C. finmarchicus and C. glacialis. Finally, we propose a shortened version of our protocol, offering a promising solution for population genomics studies in non-model species with large genomes.

Published

2019

11. The complete mitochondrial genome of the copepod Calanus glacialis

Author

Marvin Choquet, Homère J. Alves Monteiro, Johan Bengtsson-Palme, and Galice Hoarau

Subjects

calanus glacialis, copepod, mitochondrion, mitogenome, zooplankton, Genetics, QH426-470

Abstract

Calanus glacialis, a marine planktonic copepod, is a keystone species in the Arctic Ocean. In this study, we shotgun sequenced the total DNA of one C. glacialis individual, using the NextSeq® Illumina platform, in order to determine its mitochondrial genome sequence. We successfully assembled and annotated this 20,674 bp long sequence, which included 13 protein-coding genes, 2 rRNA genes and 22 tRNA genes. Common gene-coding regions of 19 other species were used to reconstruct a phylogenetic tree, using mitogenomes of the phylogenetically closest copepods available. The new resource described here constitutes a tool of interest for better understanding the structure and dynamics of C. glacialis populations.

Published

2017

12. Variation in thermal stress response in two populations of the brown seaweed, Fucus distichus, from the Arctic and subarctic intertidal

Author

Irina Smolina, Spyros Kollias, Alexander Jueterbock, James A. Coyer, and Galice Hoarau

Subjects

thermal stress response, brown algae, local adaptation, heat shock protein genes, photosynthetic performance, Science

Abstract

It is unclear whether intertidal organisms are ‘preadapted’ to cope with the increase of temperature and temperature variability or if they are currently at their thermal tolerance limits. To address the dichotomy, we focused on an important ecosystem engineer of the Arctic intertidal rocky shores, the seaweed Fucus distichus and investigated thermal stress responses of two populations from different temperature regimes (Svalbard and Kirkenes, Norway). Thermal stress responses at 20°C, 24°C and 28°C were assessed by measuring photosynthetic performance and expression of heat shock protein (HSP) genes (shsp, hsp90 and hsp70). We detected population-specific responses between the two populations of F. distichus, as the Svalbard population revealed a smaller decrease in photosynthesis performance but a greater activation of molecular defence mechanisms (indicated by a wider repertoire of HSP genes and their stronger upregulation) compared with the Kirkenes population. Although the temperatures used in our study exceed temperatures encountered by F. distichus at the study sites, we believe response to these temperatures may serve as a proxy for the species’ potential to respond to climate-related stresses.

Published

2016

13. Improving transferability of introduced species' distribution models: new tools to forecast the spread of a highly invasive seaweed.

Author

Heroen Verbruggen, Lennert Tyberghein, Gareth S Belton, Frederic Mineur, Alexander Jueterbock, Galice Hoarau, C Frederico D Gurgel, and Olivier De Clerck

Subjects

Medicine, Science

Abstract

The utility of species distribution models for applications in invasion and global change biology is critically dependent on their transferability between regions or points in time, respectively. We introduce two methods that aim to improve the transferability of presence-only models: density-based occurrence thinning and performance-based predictor selection. We evaluate the effect of these methods along with the impact of the choice of model complexity and geographic background on the transferability of a species distribution model between geographic regions. Our multifactorial experiment focuses on the notorious invasive seaweed Caulerpa cylindracea (previously Caulerpa racemosa var. cylindracea) and uses Maxent, a commonly used presence-only modeling technique. We show that model transferability is markedly improved by appropriate predictor selection, with occurrence thinning, model complexity and background choice having relatively minor effects. The data shows that, if available, occurrence records from the native and invaded regions should be combined as this leads to models with high predictive power while reducing the sensitivity to choices made in the modeling process. The inferred distribution model of Caulerpa cylindracea shows the potential for this species to further spread along the coasts of Western Europe, western Africa and the south coast of Australia.

Published

2013

14. Calanus helgolandicus - more than a guest in the north?

Author

Mads Schultz, Marvin Choquet, Vigdis Tverberg, and Galice Hoarau

Subjects

Ecology, Aquatic Science, Ecology, Evolution, Behavior and Systematics

Abstract

Molecular identification of Calanus helgolandicus has revealed a more northern distribution for this boreal species than previously reported. We investigated an Arctic fjord to determine if local reproduction is taking place. Combining time series data from depth stratified sampling with molecular tools for species identification, we found C. helgolandicus from all stages throughout the year including males and females as well as a nauplius. These findings constitute strong evidence that C. helgolandicus is reproducing north of the Arctic Circle and their role in the ecosystem should be investigated further.

Published

2022

15. No evidence for hybridization in Calanus : Reply to the comment by Parent et al

Author

Marvin Choquet, Galice Hoarau, and Irina Smolina

Subjects

Calanus, Zoology, Aquatic Science, Biology, Oceanography, biology.organism_classification

Published

2021

16. Population and seascape genomics of a critically endangered benthic elasmobranch, the blue skate Dipturus batis

Author

Catherine S. Jones, Victoria Bendall, David Stirling, Michelle Frost, Leslie R. Noble, Stuart Hetherington, Aurélien Delaval, and Galice Hoarau

Subjects

population genomics, Evolution, Population, Genomics, Biology, Population genomics, Critically endangered, Genetics, QH359-425, education, Skate, Ecology, Evolution, Behavior and Systematics, Seascape, education.field_of_study, Ecology, blue skate, conservation, Blue skate, climate change, conservation, Dipturus batis, population genomics, seascape genomics, biology.organism_classification, Dipturus batis, climate change, Benthic zone, Matematikk og Naturvitenskap: 400::Basale biofag: 470::Genetikk og genomikk: 474 [VDP], Dipturus, seascape genomics, General Agricultural and Biological Sciences

Abstract

The blue skate (Dipturus batis) has a patchy distribution across the North‐East Atlantic Ocean, largely restricted to occidental seas around the British Isles following fisheries‐induced population declines and extirpations. The viability of remnant populations remains uncertain and could be impacted by continued fishing and by‐catch pressure, and the projected impacts of climate change. We genotyped 503 samples of D. batis, obtained opportunistically from the widest available geographic range, across 6 350 single nucleotide polymorphisms (SNPs) using a reduced‐representation sequencing approach. Genotypes were used to assess the species’ contemporary population structure, estimate effective population sizes and identify putative signals of selection in relation to environmental variables using a seascape genomics approach. We identified genetic discontinuities between inshore (British Isles) and offshore (Rockall and Faroe Island) populations, with differentiation most pronounced across the deep waters of the Rockall Trough. Effective population sizes were largest in the Celtic Sea and Rockall, but low enough to be of potential conservation concern among Scottish and Faroese sites. Among the 21 candidate SNPs under positive selection was one significantly correlated with environmental variables predicted to be affected by climate change, including bottom temperature, salinity and pH. The paucity of well‐annotated elasmobranch genomes precluded us from identifying a putative function for this SNP. Nevertheless, our findings suggest that climate change could inflict a strong selective force upon remnant populations of D. batis, further constraining its already‐restricted habitat. Furthermore, the results provide fundamental insights on the distribution, behaviour and evolutionary biology of D. batis in the North‐East Atlantic that will be useful for the establishment of conservation actions for this and other critically endangered elasmobranchs.

Published

2022

17. Endangered Coastal Elasmobranchs of the North-East Atlantic

Author

Aurélien Delaval, Galice Hoarau, Fenella R. Wood, Leslie R. Noble, C. Isabel Wagner, Catherine S. Jones, and Tanja N. Schwanck

Subjects

Bycatch, Fishery, Critically endangered, Geography, biology, Threatened species, Fishing, Endangered species, Marine protected area, biology.organism_classification, Thornback ray, Common skate

Published

2022

18. Evolutionary dynamics of sex-biased gene expression in a young XY system: Insights from the brown alga genus Fucus

Author

William J. Hatchett, Alexander O. Jueterbock, Martina Kopp, James A. Coyer, Susana M. Coelho, Galice Hoarau, and Agnieszka P. Lipinska

Subjects

Physiology, Plant Science

Abstract

• Sex-biased gene expression is considered to be an underlying cause of sexually dimorphic traits. Although the nature and degree of sex-biased expression has been well-documented in several animal and plant systems, far less is known about the evolution of sex-biased genes in more distant eukaryotic groups. • Here we investigate sex-biased gene expression in two brown algal dioecious species, Fucus serratus and Fucus vesiculosus, where male heterogamety (XX/XY) has recently emerged. • We find that in contrast to evolutionary distant plant and animal lineages, male-biased genes do not experience high turnover rates, but instead reveal remarkable conservation of bias and expression levels between the two species, suggesting their importance in sexual differentiation. Genes with consistent male-bias were enriched in functions related to gamete production, along with sperm competition and include three flagellar proteins under positive selection. • We present one of the first reports, outside of the animal kingdom, showing that male-biased genes display accelerated rates of coding sequence evolution compared to female-biased or unbiased genes. Our results imply that evolutionary forces affect male and female sex-biased genes differently on structural and regulatory levels, resulting in unique properties of differentially expressed transcripts during reproductive development in Fucus algae.

Published

2021

19. Insights into the species evolution of

Author

Apollo Marco, Lizano, Irina, Smolina, Marvin, Choquet, Martina, Kopp, and Galice, Hoarau

Abstract

Copepods of the zooplankton genus

Published

2021

20. Population and seascape genomics of a critically endangered benthic elasmobranch, the blue skate

Author

Aurélien, Delaval, Michelle, Frost, Victoria, Bendall, Stuart J, Hetherington, David, Stirling, Galice, Hoarau, Catherine S, Jones, and Leslie R, Noble

Subjects

climate change, population genomics, blue skate, conservation, seascape genomics, Original Article, Original Articles, Dipturus batis

Abstract

The blue skate (Dipturus batis) has a patchy distribution across the North‐East Atlantic Ocean, largely restricted to occidental seas around the British Isles following fisheries‐induced population declines and extirpations. The viability of remnant populations remains uncertain and could be impacted by continued fishing and by‐catch pressure, and the projected impacts of climate change. We genotyped 503 samples of D. batis, obtained opportunistically from the widest available geographic range, across 6 350 single nucleotide polymorphisms (SNPs) using a reduced‐representation sequencing approach. Genotypes were used to assess the species’ contemporary population structure, estimate effective population sizes and identify putative signals of selection in relation to environmental variables using a seascape genomics approach. We identified genetic discontinuities between inshore (British Isles) and offshore (Rockall and Faroe Island) populations, with differentiation most pronounced across the deep waters of the Rockall Trough. Effective population sizes were largest in the Celtic Sea and Rockall, but low enough to be of potential conservation concern among Scottish and Faroese sites. Among the 21 candidate SNPs under positive selection was one significantly correlated with environmental variables predicted to be affected by climate change, including bottom temperature, salinity and pH. The paucity of well‐annotated elasmobranch genomes precluded us from identifying a putative function for this SNP. Nevertheless, our findings suggest that climate change could inflict a strong selective force upon remnant populations of D. batis, further constraining its already‐restricted habitat. Furthermore, the results provide fundamental insights on the distribution, behaviour and evolutionary biology of D. batis in the North‐East Atlantic that will be useful for the establishment of conservation actions for this and other critically endangered elasmobranchs.

Published

2021

21. The microbiome of the habitat-forming brown alga Fucus vesiculosus (Phaeophyceae) has similar cross-Atlantic structure that reflects past and present drivers

Author

Kyle A, Capistrant-Fossa, Hilary G, Morrison, Aschwin H, Engelen, Charlotte T C, Quigley, Aleksey, Morozov, Ester A, Serrão, Juliet, Brodie, Claire M M, Gachon, Yacine, Badis, Ladd E, Johnson, Galice, Hoarau, Maria Helena, Abreu, Patricia A, Tester, Leigh A, Stearns, and Susan H, Brawley

Subjects

Phylogeography, Microbiota, Fucus, North Carolina, Phylogeny

Abstract

Latitudinal diversity gradients have provided many insights into species differentiation and community processes. In the well-studied intertidal zone, however, little is known about latitudinal diversity in microbiomes associated with habitat-forming hosts. We investigated microbiomes of Fucus vesiculosus because of deep understanding of this model system and its latitudinally large, cross-Atlantic range. Given multiple effects of photoperiod, we predicted that cross-Atlantic microbiomes of the Fucus microbiome would be similar at similar latitudes and correlate with environmental factors. We found that community structure and individual amplicon sequencing variants (ASVs) showed distinctive latitudinal distributions, but alpha diversity did not. Latitudinal differentiation was mostly driven by ASVs that were more abundant in cold temperate to subarctic (e.g., Granulosicoccus_t3260, Burkholderia/Caballeronia/Paraburkholderia_t8371) or warm temperate (Pleurocapsa_t10392) latitudes. Their latitudinal distributions correlated with different humidity, tidal heights, and air/sea temperatures, but rarely with irradiance or photoperiod. Many ASVs in potentially symbiotic genera displayed novel phylogenetic biodiversity with differential distributions among tissues and regions, including closely related ASVs with differing north-south distributions that correlated with Fucus phylogeography. An apparent southern range contraction of F. vesiculosus in the NW Atlantic on the North Carolina coast mimics that recently observed in the NE Atlantic. We suggest cross-Atlantic microbial structure of F. vesiculosus is related to a combination of past (glacial-cycle) and contemporary environmental drivers.

Published

2021

22. The complete mitochondrial genome of the copepod

Author

Marvin, Choquet, Homère J, Alves Monteiro, Johan, Bengtsson-Palme, and Galice, Hoarau

Subjects

zooplankton, Calanus glacialis, mitogenome, copepod, fungi, mitochondrion, Mitogenome Announcement, Research Article

Abstract

Calanus glacialis, a marine planktonic copepod, is a keystone species in the Arctic Ocean. In this study, we shotgun sequenced the total DNA of one C. glacialis individual, using the NextSeq® Illumina platform, in order to determine its mitochondrial genome sequence. We successfully assembled and annotated this 20,674 bp long sequence, which included 13 protein-coding genes, 2 rRNA genes and 22 tRNA genes. Common gene-coding regions of 19 other species were used to reconstruct a phylogenetic tree, using mitogenomes of the phylogenetically closest copepods available. The new resource described here constitutes a tool of interest for better understanding the structure and dynamics of C. glacialis populations.

Published

2021

23. The complete mitochondrial genome of the blue skate

Author

Aurélien, Delaval, Tanja, Schwanck, Martina Elisabeth Luise, Kopp, Galice, Hoarau, Catherine S, Jones, and Leslie R, Noble

Subjects

mitogenome, Dipturus batis, Mitogenome Announcement, Research Article, Rajidae

Abstract

The complete mitochondrial genome of the blue skate Dipturus batis is described from shotgun sequencing on an Illumina next-generation sequencing platform. We report a 16,911 bp long sequence similar in size to other members of the genus, containing 13 protein-coding regions, 22 tRNA genes, 2 rRNA genes, and 2 non-coding areas. Phylogenetic analysis was performed using the complete mitochondrial genomes of 17 related species, placing D. batis within the Rajini tribe of the Rajidae family, consistent with current taxonomy. The new resource adds to a growing database of rajid mitogenomes which will help resolve phylogenetic relationships within the family.

Published

2021

24. Proteomic and Transcriptomic Patterns during Lipid Remodeling in Nannochloropsis gaditana

Author

Viswanath Kiron, Irina Smolina, Chris J. Hulatt, Adam Dowle, Martina Kopp, René H. Wijffels, Ghana Kalerammana Vasanth, and Galice Hoarau

Subjects

Proteomics, 0106 biological sciences, 0301 basic medicine, Bio Process Engineering, Tandem mass tag, Matematikk og Naturvitenskap: 400::Basale biofag: 470 [VDP], 01 natural sciences, nitrogen, Transcriptome, lcsh:Chemistry, transcriptomics, bioreactor, Nannochloropsis, phosphorus, lcsh:QH301-705.5, Spectroscopy, biology, Chemistry, Phosphorus, General Medicine, Computer Science Applications, Biochemistry, Proteome, Stramenopiles, Nitrogen, Bioreactor, Article, Catalysis, Inorganic Chemistry, 03 medical and health sciences, proteomics, Downregulation and upregulation, Physical and Theoretical Chemistry, Transcriptomics, Molecular Biology, VLAG, Organic Chemistry, EPA, Matematikk og Naturvitenskap: 400::Basale biofag: 470::Molekylærbiologi: 473 [VDP], Lipid Metabolism, biology.organism_classification, Metabolic pathway, Light intensity, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, TAG, 010606 plant biology & botany

Abstract

Nutrient limited conditions are common in natural phytoplankton communities and are often used to increase the yield of lipids from industrial microalgae cultivations. Here we studied the effects of bioavailable nitrogen (N) and phosphorus (P) deprivation on the proteome and transcriptome of the oleaginous marine microalga Nannochloropsis gaditana. Turbidostat cultures were used to selectively apply either N or P deprivation, controlling for variables including the light intensity. Global (cell-wide) changes in the proteome were measured using Tandem Mass Tag (TMT) and LC-MS/MS, whilst gene transcript expression of the same samples was quantified by Illumina RNA-sequencing. We detected 3423 proteins, where 1543 and 113 proteins showed significant changes in abundance in N and P treatments, respectively. The analysis includes the global correlation between proteomic and transcriptomic data, the regulation of subcellular proteomes in different compartments, gene/protein functional groups, and metabolic pathways. The results show that triacylglycerol (TAG) accumulation under nitrogen deprivation was associated with substantial downregulation of protein synthesis and photosynthetic activity. Oil accumulation was also accompanied by a diverse set of responses including the upregulation of diacylglycerol acyltransferase (DGAT), lipase, and lipid body associated proteins. Deprivation of phosphorus had comparatively fewer, weaker effects, some of which were linked to the remodeling of respiratory metabolism.

Published

2020

25. No evidence for hybridization between<scp>Calanus finmarchicus</scp>and<scp>Calanus glacialis</scp>in a subarctic area of sympatry

Author

Stig Skreslet, Galice Hoarau, Marvin Choquet, Gauthier Burckard, and Janne E. Søreide

Subjects

Sympatry, Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480::Marinbiologi: 497 [VDP], Calanus finmarchicus, Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480::Økologi: 488 [VDP], Calanus glacialis, Zoology, Aquatic Science, Biology, Oceanography, biology.organism_classification, Subarctic climate

Abstract

Unit License Agreement

Published

2020

26. The complete mitochondrial genome of the blue skate Dipturus batis

Author

Martina Kopp, Leslie R. Noble, Tanja N. Schwanck, Aurélien Delaval, Catherine S. Jones, and Galice Hoarau

Subjects

0106 biological sciences, 0301 basic medicine, Mitochondrial DNA, biology, Shotgun sequencing, Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480::Marinbiologi: 497 [VDP], biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Evolutionary biology, Matematikk og Naturvitenskap: 400::Basale biofag: 470::Genetikk og genomikk: 474 [VDP], Genetics, Dipturus, Skate, Molecular Biology

Abstract

The complete mitochondrial genome of the blue skate Dipturus batis is described from shotgun sequencing on an Illumina next-generation sequencing platform. We report a 16,911 bp long sequence simil...

Published

2020

27. Can morphology reliably distinguish between the copepodsCalanus finmarchicusandC. glacialis, or is DNA the only way?

Author

Marvin Choquet, Sławomir Kwaśniewski, Janne E. Søreide, Malin Daase, Camilla Svensen, Webjørn Raunsgård Melle, Maja Hatlebakk, Ksenia N. Kosobokova, Galice Hoarau, and Anusha K. S. Dhanasiri

Subjects

0106 biological sciences, biology, Ecology, Basic research, 010604 marine biology & hydrobiology, Calanus finmarchicus, Foundation (engineering), Ocean Engineering, Morphology (biology), biology.organism_classification, 010603 evolutionary biology, 01 natural sciences

Abstract

Nord University Russian Foundation for Basic Research Russian Scientific Foundation Polish‐Norwegian Research Program

Published

2018

28. Reduced up-regulation of gene expression in response to elevated temperatures in the mid-Atlantic population of Calanus finmarchicus

Author

Galice Hoarau, Rachel A. Harmer, Irina Smolina, and Penelope K. Lindeque

Subjects

0106 biological sciences, education.field_of_study, biology, Ecology, 010604 marine biology & hydrobiology, Calanus finmarchicus, Population, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Acclimatization, Intraspecific competition, Nap, Molecular Response, Calanus, education, Gene, Ecology, Evolution, Behavior and Systematics

Abstract

Climate change is affecting numerous species worldwide, including dominant and important copepods of the genus Calanus. Despite the growing body of studies that examine effects of climate change stressors on Calanus species, comparative intraspecific studies are lacking. Importantly, acclimatization and genetic adaptation can modify the stress response, thus leading to a differential response of separated populations to the same stressor. The molecular and physiological responses of a C. finmarchicus population from the mid-Atlantic, with an in situ temperature of 8.5 °C, were investigated under experimental thermal conditions of 0 °C, 5 °C, 10 °C, 15 °C, and 20 °C for durations of 3 h and 6 days. This experimental set-up mirrored previously published experiments conducted on C. finmarchicus at the northern limit of its distribution allowing a comparison between two populations. The greatest physiological response, assessed as fecal pellet production, was seen after 3 h exposure at 10 °C and 15 °C, and after 6 days exposure at 5 °C, 10 °C and 15 °C. Molecular response was assessed by the change in expression of 5 selected genes: hsp70_2, dnaja1, nap 1l1, rps11, and gdh. Only two out of the five genes (gdh and nap1l1) showed significant up-regulation with increased temperature and duration of exposure. These findings differ from the results obtained in the northern population where all 5 genes were differently expressed. Overall, the results suggest population-specific response to temperature in C. finmarchicus, however determining the source of such variation (genetic adaptation or acclimatization) requires more detailed studies.

Published

2016

29. The seagrass methylome memorizes heat stress and is associated with variation in stress performance among clonal shoots

Author

Alexander Jueterbock, Martina Kopp, Jeanine L. Olsen, Yves Van de Peer, Anusha Ks Dhanasiri, James A. Coyer, Christoffer Boström, Galice Hoarau, Irina Smolina, and Sophie Arnaud-Haond

Subjects

Seagrass, biology, Evolutionary biology, Genotype, Shoot, Genetic variation, DNA methylation, Zostera marina, Epigenetics, biology.organism_classification, Gene

Abstract

Evolutionary theory predicts that clonal organisms are more susceptible to extinction than sexually reproducing organisms, due to low genetic variation and slow rates of evolution. In agreement, conservation management considers genetic variation as the ultimate measure of a population’s ability to survive over time. However, clonal plants are among the oldest living organisms on our planet. Here, we test the hypothesis that clonal seagrass meadows display epigenetic variation that complements genetic variation as a source of phenotypic variation. In a clonal meadow of the seagrass Zostera marina we characterized DNA methylation among 42 shoots. We also sequenced the whole genome of 10 shoots to correlate methylation patterns with photosynthetic performance under exposure to, and recovery from 27°C, while controlling for somatic mutations. Here, we show for the first time that clonal seagrass shoots display DNA methylation variation that is associated with variation in fitness-related traits: photosynthetic performance and heat stress resilience. The co-variation in DNA methylation and phenotype may be linked via gene expression because methylation patterns varied in functionally relevant genes involved in photosynthesis, and in the repair and prevention of heat-induced protein damage. A >five week epigenetic heat stress memory may heat-harden previously heat-exposed shoots. While genotypic diversity has been shown to enhance stress resilience in seagrass meadows, we suggest that epigenetic variation plays a similar role in meadows dominated by a single genotype. Consequently, conservation management of clonal plants should consider epigenetic variation as indicator of resilience and stability, and restoration efforts may benefit from stress-priming transplanted seeds or shoots.

Published

2019

30. Electronic Supplementary Materials from Towards population genomics in non-model species with large genomes; a case study of the marine zooplankton Calanus finmarchicus

Author

Choquet, Marvin, Smolina, Irina, Anusha K. S. Dhanasiri, Blanco-Bercial, Leocadio, Kopp, Martina, Jueterbock, Alexander, Sundaram, Arvind Y. M., and Galice Hoarau

Abstract

ddRAD-seq pilot study on Calanus finmarchicus; Protocols of library preparation and capture in Calanus spp.; Custom analyses scripts used for sequence capture data analyses.

Published

2019

31. The fate of the Arctic seaweedFucus distichusunder climate change: an ecological niche modeling approach

Author

Galice Hoarau, James A. Coyer, Irina Smolina, and Alexander Jueterbock

Subjects

0106 biological sciences, Fucus distichus, Intertidal zone, Intertidal ecology, 010603 evolutionary biology, 01 natural sciences, rocky intertidal, Arctic vegetation, hybridization, Ecology, Evolution, Behavior and Systematics, Original Research, key species, Nature and Landscape Conservation, Ecological niche, cold‐temperate, Ecology, biology, 010604 marine biology & hydrobiology, biology.organism_classification, Environmental niche modelling, intertidal macroalgae, Arctic, Mathematics and natural science: 400::Zoology and botany: 480::Marine biology: 497 [VDP], Arctic ecosystem, competition, Arctic ecology

Abstract

Rising temperatures are predicted to melt all perennial ice cover in the Arctic by the end of this century, thus opening up suitable habitat for temperate and subarctic species. Canopy‐forming seaweeds provide an ideal system to predict the potential impact of climate‐change on rocky‐shore ecosystems, given their direct dependence on temperature and their key role in the ecological system. Our primary objective was to predict the climate‐change induced range‐shift of Fucus distichus, the dominant canopy‐forming macroalga in the Arctic and subarctic rocky intertidal. More specifically, we asked: which Arctic/subarctic and cold‐temperate shores of the northern hemisphere will display the greatest distributional change of F. distichus and how will this affect niche overlap with seaweeds from temperate regions? We used the program MAXENT to develop correlative ecological niche models with dominant range‐limiting factors and 169 occurrence records. Using three climate‐change scenarios, we projected habitat suitability of F. distichus – and its niche overlap with three dominant temperate macroalgae – until year 2200. Maximum sea surface temperature was identified as the most important factor in limiting the fundamental niche of F. distichus. Rising temperatures were predicted to have low impact on the species' southern distribution limits, but to shift its northern distribution limits poleward into the high Arctic. In cold‐temperate to subarctic regions, new areas of niche overlap were predicted between F. distichus and intertidal macroalgae immigrating from the south. While climate‐change threatens intertidal seaweeds in warm‐temperate regions, seaweed meadows will likely flourish in the Arctic intertidal. Although this enriches biodiversity and opens up new seaweed‐harvesting grounds, it will also trigger unpredictable changes in the structure and functioning of the Arctic intertidal ecosystem.

Published

2016

32. Towards population genomics in non-model species with large genomes: a case study of the marine zooplankton

Author

Irina Smolina, Leocadio Blanco-Bercial, Anusha K. S. Dhanasiri, Martina Kopp, Marvin Choquet, Galice Hoarau, Alexander Jueterbock, and Arvind Y. M. Sundaram

Subjects

0106 biological sciences, Calanus finmarchicus, Population, Biology, calanus spp, 010603 evolutionary biology, 01 natural sciences, Zooplankton, Genome, Population genomics, 03 medical and health sciences, lcsh:Science, education, 030304 developmental biology, 0303 health sciences, education.field_of_study, Multidisciplinary, Representation (systemics), Genetics and Genomics, biology.organism_classification, sequence capture enrichment, Evolutionary biology, Matematikk og Naturvitenskap: 400::Basale biofag: 470::Genetikk og genomikk: 474 [VDP], genome reduced-representation, Matematikk og Naturvitenskap: 400::Basale biofag: 470::Bioinformatikk: 475 [VDP], lcsh:Q, Research Article

Abstract

Advances in next-generation sequencing technologies and the development of genome-reduced representation protocols have opened the way to genome-wide population studies in non-model species. However, species with large genomes remain challenging, hampering the development of genomic resources for a number of taxa including marine arthropods. Here, we developed a genome-reduced representation method for the ecologically important marine copepod Calanus finmarchicus (haploid genome size of 6.34 Gbp). We optimized a capture enrichment-based protocol based on 2656 single-copy genes, yielding a total of 154 087 high-quality SNPs in C. finmarchicus including 62 372 in common among the three locations tested. The set of capture probes was also successfully applied to the congeneric C. glacialis . Preliminary analyses of these markers revealed similar levels of genetic diversity between the two Calanus species, while populations of C. glacialis showed stronger genetic structure compared to C. finmarchicus . Using this powerful set of markers, we did not detect any evidence of hybridization between C. finmarchicus and C. glacialis . Finally, we propose a shortened version of our protocol, offering a promising solution for population genomics studies in non-model species with large genomes.

Published

2018

33. Population Genomics of Marine Zooplankton

Author

Ann Bucklin, Galice Hoarau, Rachel J. O’Neill, Marvin Choquet, Kate R. DiVito, Irina Smolina, and Jennifer M. Questel

Subjects

0106 biological sciences, 0301 basic medicine, education.field_of_study, fungi, Population, Population genetics, Biology, 010603 evolutionary biology, 01 natural sciences, Zooplankton, Population genomics, 03 medical and health sciences, Phylogenetic diversity, 030104 developmental biology, Evolutionary biology, Biological dispersal, Microsatellite, education, Local adaptation

Abstract

The exceptionally large population size and cosmopolitan biogeographic distribution that distinguish many – but not all – marine zooplankton species generate similarly exceptional patterns of population genetic and genomic diversity and structure. The phylogenetic diversity of zooplankton has slowed the application of population genomic approaches, due to lack of genomic resources for closely related species and diversity of genomic architecture, including highly replicated genomes of many crustaceans. Use of numerous genomic markers, especially single nucleotide polymorphisms (SNPs), is transforming our ability to analyze population genetics and connectivity of marine zooplankton, and providing new understanding and different answers than earlier analyses, which typically used mitochondrial DNA and microsatellite markers. Population genomic approaches have confirmed that, despite high dispersal potential, many zooplankton species exhibit genetic structuring among geographic populations, especially at large ocean-basin scales, and have revealed patterns and pathways of population connectivity that do not always track ocean circulation. Genomic and transcriptomic resources are critically needed to allow further examination of micro-evolution and local adaptation, including identification of genes that show evidence of selection. These new tools will also enable further examination of the significance of small-scale genetic heterogeneity of marine zooplankton, to discriminate genetic “noise” in large and patchy populations from local adaptation to environmental conditions and change.

Published

2018

34. Additional file 3: of Decadal stability in genetic variation and structure in the intertidal seaweed Fucus serratus (Heterokontophyta: Fucaceae)

Author

Jueterbock, Alexander, Coyer, James, Olsen, Jeanine, and Galice Hoarau

Abstract

PCR cycling protocols. Time-release (a) and no-time-release (b) PCR cycling protocols. In the time-release protocol, the heat-activated DNA-polymerase was progressively released during the thermal cycling process. Annealing temperatures and number of cycles indicated with an X are specified for each marker in Additional file 2. (PDF 34 kb)

Published

2018

35. Decadal stability in genetic variation and structure in the intertidal seaweed Fucus serratus (Heterokontophyta: Fucaceae)

Author

Galice Hoarau, James A. Coyer, Jeanine L. Olsen, and Alexander Jueterbock

Subjects

0106 biological sciences, 0301 basic medicine, Evolution, Range (biology), Fucus serratus, EFFECTIVE POPULATION-SIZE, Brown algae, RANGE EXPANSION, Intertidal ecology, 010603 evolutionary biology, 01 natural sciences, Genetic diversity, 03 medical and health sciences, Rocky shore, Effective population size, Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480::Økologi: 488 [VDP], QH359-425, Water Movements, Evolutionary potential, GLOBAL CLIMATE-CHANGE, Cluster Analysis, 14. Life underwater, Microsatellites, Ecology, Evolution, Behavior and Systematics, TEMPORAL VARIATION, Local adaptation, Population Density, biology, Ecology, Temperature, North Atlantic, Genetic Variation, COD GADUS-MORHUA, Seaweed, biology.organism_classification, GENOTYPIC DIVERSITY, 030104 developmental biology, 13. Climate action, MICROSATELLITE LOCI, Fucus, Genetic structure, HEAT-SHOCK RESPONSE, France, ALLELE FREQUENCIES, DELETERIOUS MUTATIONS, Research Article, Microsatellite Repeats

Abstract

Background The spatial distribution of genetic diversity and structure has important implications for conservation as it reveals a species’ strong and weak points with regard to stability and evolutionary capacity. Temporal genetic stability is rarely tested in marine species other than commercially important fishes, but is crucial for the utility of temporal snapshots in conservation management. High and stable diversity can help to mitigate the predicted northward range shift of seaweeds under the impact of climate change. Given the key ecological role of fucoid seaweeds along rocky shores, the positive effect of genetic diversity may reach beyond the species level to stabilize the entire intertidal ecosystem along the temperate North Atlantic. In this study, we estimated the effective population size, as well as temporal changes in genetic structure and diversity of the seaweed F. serratus using 22 microsatellite markers. Samples were taken across latitudes and a range of temperature regimes at seven locations with decadal sampling (2000 and 2010). Results Across latitudes, genetic structure and diversity remained stable over 5–10 generations. Stable small-scale structure enhanced regional diversity throughout the species’ range. In accordance with its biogeographic history, effective population size and diversity peaked in the species’ mid-range in Brittany (France), and declined towards its leading and trailing edge to the north and south. At the species’ southern edge, multi-locus-heterozygosity displayed a strong decline from 1999 to 2010. Conclusion Temporally stable genetic structure over small spatial scales is a potential driver for local adaptation and species radiation in the genus Fucus. Survival and adaptation of the low-diversity leading edge of F. serratus may be enhanced by regional gene flow and ‘surfing’ of favorable mutations or impaired by the accumulation of deleterious mutations. Our results have clear implications for the conservation of F. serratus at its genetically unique southern edge in Northwest Iberia, where increasing temperatures are likely the major cause for the decline not only of F. serratus, but also other intertidal and subtidal macroalgae. We expect that F. serratus will disappear from Northwest Iberia by 2100 if genetic rescue is not induced by the influx of genetic variation from Brittany. Electronic supplementary material The online version of this article (10.1186/s12862-018-1213-2) contains supplementary material, which is available to authorized users.

Published

2018

36. Genetics redraws pelagic biogeography of Calanus

Author

Ksenia N. Kosobokova, Maja Hatlebakk, Sławomir Kwaśniewski, Galice Hoarau, Vigdis Tverberg, Marvin Choquet, Malin Daase, Irina Smolina, Webjørn Raunsgård Melle, Ann Bucklin, Camilla Svensen, Stig Skreslet, Ketil Eiane, Anusha K. S. Dhanasiri, and Janne E. Søreide

Subjects

0106 biological sciences, zooplankton, Genetic Markers, 010504 meteorology & atmospheric sciences, ecosystem shift, Biogeography, Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480::Marinbiologi: 497 [VDP], species identification, Fjord, Marine Biology, fjord, 01 natural sciences, Zooplankton, Copepoda, INDEL Mutation, Animals, genetics, VDP::Mathematics and natural science: 400::Zoology and botany: 480::Marine biology: 497, 14. Life underwater, Atlantic Ocean, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, biology, Ecology, Arctic Regions, 010604 marine biology & hydrobiology, fungi, Pelagic zone, Sequence Analysis, DNA, Plankton, VDP::Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480::Marinbiologi: 497, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), climate change, Arctic, Matematikk og Naturvitenskap: 400::Basale biofag: 470::Genetikk og genomikk: 474 [VDP], Calanus, General Agricultural and Biological Sciences, Copepod, geographic locations, Research Article

Abstract

Planktonic copepods of the genus Calanus play a central role in North Atlantic/Arctic marine food webs. Here, using molecular markers, we redrew the distributional ranges of Calanus species inhabiting the North Atlantic and Arctic Oceans and revealed much wider and more broadly overlapping distributions than previously described. The Arctic shelf species, C. glacialis , dominated the zooplankton assemblage of many Norwegian fjords, where only C. finmarchicus has been reported previously. In these fjords, high occurrences of the Arctic species C. hyperboreus were also found. Molecular markers revealed that the most common method of species identification, prosome length, cannot reliably discriminate the species in Norwegian fjords. Differences in degree of genetic differentiation among fjord populations of the two species suggested that C. glacialis is a more permanent resident of the fjords than C. finmarchicus . We found no evidence of hybridization between the species. Our results indicate a critical need for the wider use of molecular markers to reliably identify and discriminate these morphologically similar copepod species, which serve as important indicators of climate responses.

Published

2017

37. Electronic Supplementary Material from Genetics redraws pelagic biogeography of Calanus

Author

Choquet, Marvin, Hatlebakk, Maja, Anusha K. S. Dhanasiri, Kosobokova, Ksenia, Smolina, Irina, Søreide, Janne E., Svensen, Camilla, Webjørn Melle, Sławomir Kwaśniewski, Eiane, Ketil, Daase, Malin, Tverberg, Vigdis, Skreslet, Stig, Bucklin, Ann, and Galice Hoarau

Abstract

Supplementary 1,2,5,6,7,8: Sampling details; validation InDels markers; test for hybridisation; prosome length assessment; detailed protocols

Published

2017

38. The complete mitochondrial genome of the copepod Calanus glacialis

Author

Galice Hoarau, Homére Alves Monteiro, Johan Bengtsson-Palme, and Marvin Choquet

Subjects

0106 biological sciences, 0301 basic medicine, Mitochondrial DNA, biology, Phylogenetic tree, Ecology, fungi, Shotgun, Ribosomal RNA, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Evolutionary biology, Matematikk og Naturvitenskap: 400::Basale biofag: 470::Genetikk og genomikk: 474 [VDP], Transfer RNA, Genetics, Keystone species, Molecular Biology, Gene, Copepod

Abstract

Calanus glacialis, a marine planktonic copepod, is a keystone species in the Arctic Ocean. In this study, we shotgun sequenced the total DNA of one C. glacialis individual, using the NextSeq® Illumina platform, in order to determine its mitochondrial genome sequence. We successfully assembled and annotated this 20,674 bp long sequence, which included 13 protein-coding genes, 2 rRNA genes and 22 tRNA genes. Common gene-coding regions of 19 other species were used to reconstruct a phylogenetic tree, using mitogenomes of the phylogenetically closest copepods available. The new resource described here constitutes a tool of interest for better understanding the structure and dynamics of C. glacialis populations.

Published

2017

39. Genomic divergence between the migratory and stationary ecotypes of Atlantic cod

Author

Kevin A. Klingan, Galice Hoarau, Tomasz Furmanek, Bård Ove Karlsen, Truls Moum, Alexander Jueterbock, Steinar Johansen, Åse Emblem, Jarle Tryti Nordeide, and Tor Erik Jørgensen

Subjects

Reproductive Isolation, Genotype, Genetic Linkage, Population, Biology, Polymorphism, Single Nucleotide, DNA sequencing, Population genomics, Gene density, Genetics, Animals, education, Atlantic Ocean, Ecology, Evolution, Behavior and Systematics, Ecotype, Whole genome sequencing, education.field_of_study, Sequence Analysis, DNA, Reproductive isolation, biology.organism_classification, Genetics, Population, Gadus morhua, Sympatric speciation, Evolutionary biology, Animal Migration, Atlantic cod

Abstract

Atlantic cod displays a range of phenotypic and genotypic variations, which includes the differentiation into coastal stationary and offshore migratory types of cod that co-occur in several parts of its distribution range and are often sympatric on the spawning grounds. Differentiation of these ecotypes may involve both historical separation and adaptation to ecologically distinct environments, the genetic basis of which is now beginning to be unravelled. Genomic analyses based on recent sequencing advances are able to document genomic divergence in more detail and may facilitate the exploration of causes and consequences of genome-wide patterns. We examined genomic divergence between the stationary and migratory types of cod in the Northeast Atlantic, using next-generation sequencing of pooled DNA from each of two population samples. Sequence data was mapped to the published cod genome sequence, arranged in more than 6000 scaffolds (611 Mb). We identified 25 divergent scaffolds (26 Mb) with a higher than average gene density, against a backdrop of overall moderate genomic differentiation. Previous findings of localized genomic divergence in three linkage groups were confirmed, including a large (15 Mb) genomic region, which seems to be uniquely involved in the divergence of migratory and stationary cod. The results of the pooled sequencing approach support and extend recent findings based on single-nucleotide polymorphism markers and suggest a high degree of reproductive isolation between stationary and migratory cod in the North-east Atlantic.

Published

2013

40. Dispersal similarly shapes both population genetics and community patterns in the marine realm

Author

María Luz Fernández de Puelles, Galice Hoarau, Cecilie Broms, Maria Grazia Mazzocchi, Simon Claus, Guillem Chust, Patricija Mozetič, Nihayet Bizsel, Soultana Zervoudaki, Ángel Borja, Ernesto Villarino, Xabier Irigoien, Antonio Bode, Anne Chenuil, Helena Veríssimo, S. Fonda-Umani, Leen Vandepitte, Institut méditerranéen de biodiversité et d'écologie marine et continentale (IMBE), Avignon Université (AU)-Aix Marseille Université (AMU)-Institut de recherche pour le développement [IRD] : UMR237-Centre National de la Recherche Scientifique (CNRS), AZTI-Tecnalia, Instituto Español de Oceanografía, Centro Oceanográfico de A Coruña, Flanders Marine Institute, VLIZ, Departement of Life Sciences, Università degli studi di Trieste = University of Trieste, Service de bactériologie, parasitologie, virologie et hygiène hospitalière [La réunion], Groupe Hospitalier Sud-CHR La réunion, Marine Biology Station (MARINE BIOLOGY STATION), National Institute of Biology, AZTI - Tecnalia, University of Trieste, Chust, Guillem, Villarino, Ernesto, Chenuil, Anne, Irigoien, Xabier, Bizsel, Nihayet, Bode, Antonio, Broms, Cecilie, Claus, Simon, Fernández De Puelles, Mariá L., Fonda, Serena, Hoarau, Galice, Mazzocchi, Maria G., Mozetia, Patricija, Vandepitte, Leen, Veríssimo, Helena, Zervoudaki, Soultana, Borja, Angel, and Centre National de la Recherche Scientifique (CNRS)-Institut de recherche pour le développement [IRD] : UMR237-Aix Marseille Université (AMU)-Avignon Université (AU)

Subjects

0106 biological sciences, Population, Biodiversity, Population genetics, Biology, 010603 evolutionary biology, 01 natural sciences, Zooplankton, Article, diversity, Quantitative Trait, Heritable, Propagule, genetic structure, Animals, 14. Life underwater, community composition, NE Atlantic, education, education.field_of_study, Multidisciplinary, Models, Genetic, Ecology, 010604 marine biology & hydrobiology, plankton, fungi, Community structure, benthos, Species diversity, 15. Life on land, Genetics, Population, Mathematics and natural science: 400::Zoology and botany: 480::Marine biology: 497 [VDP], Phytoplankton, Genetic structure, Biological dispersal, [SDE.BE]Environmental Sciences/Biodiversity and Ecology

Abstract

Dispersal plays a key role to connect populations and, if limited, is one of the main processes to maintain and generate regional biodiversity. According to neutral theories of molecular evolution and biodiversity, dispersal limitation of propagules and population stochasticity are integral to shaping both genetic and community structure. We conducted a parallel analysis of biological connectivity at genetic and community levels in marine groups with different dispersal traits. We compiled large data sets of population genetic structure (98 benthic macroinvertebrate and 35 planktonic species) and biogeographic data (2193 benthic macroinvertebrate and 734 planktonic species). We estimated dispersal distances from population genetic data (i.e., FST vs. geographic distance) and from β-diversity at the community level. Dispersal distances ranked the biological groups in the same order at both genetic and community levels, as predicted by organism dispersal ability and seascape connectivity: macrozoobenthic species without dispersing larvae, followed by macrozoobenthic species with dispersing larvae and plankton (phyto- and zooplankton). This ranking order is associated with constraints to the movement of macrozoobenthos within the seabed compared with the pelagic habitat. We showed that dispersal limitation similarly determines the connectivity degree of communities and populations, supporting the predictions of neutral theories in marine biodiversity patterns., RADIALES (IEO)

Published

2016

41. PATERNAL LEAKAGE OF MITOCHONDRIAL DNA IN A FUCUS (PHAEOPHYCEAE) HYBRID ZONE(1)

Author

Galice, Hoarau, James A, Coyer, and Jeanine L, Olsen

Abstract

Eukaryotic mitochondria are mostly uniparentally (maternally) inherited, although mtDNA heteroplasmy has been reported in all major lineages. Heteroplasmy, the presence of more than one mitochondrial genome in an individual, can arise from recombination, point mutations, or by occasional transmission of the paternal mtDNA (=paternal leakage). Here, we report the first evidence of mtDNA paternal leakage in brown algae. In Denmark, where Fucus serratus L. and Fucus evanescens C. Agardh have hybridized for years, we found eight introgressed individuals that possessed the very distinct haplotypes of each parental species. The finding of heteroplasmy in individuals resulting from several generations of backcrosses suggests that paternal leakage occurred in earlier generations and has persisted through several meiotic bottlenecks.

Published

2016

42. Climate Oscillations, Range Shifts and Phylogeographic Patterns of North Atlantic Fucaceae

Author

Jorge Assis, Ester A. Serrão, Jeanine L. Olsen, Galice Hoarau, João Neiva, James A. Coyer, Gareth A. Pearson, Myriam Valero, Centre of Marine Sciences [Faro] (CCMAR), University of Algarve [Portugal], Centro Interdisciplinar de Investigaçao Marinha e Ambiental (CIMAR), Universidade do Algarve (UAlg), Cornell University [New York], Groningen Institute for Evolutionary Life Sciences, Service de bactériologie, parasitologie, virologie et hygiène hospitalière [La réunion], Groupe Hospitalier Sud-CHR La réunion, Evolutionary Biology and Ecology of Algae (EBEA), Station biologique de Roscoff [Roscoff] (SBR), Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Universidad Austral de Chile-Centre National de la Recherche Scientifique (CNRS)-Pontificia Universidad Católica de Chile (UC), and Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Pontificia Universidad Católica de Chile (UC)-Universidad Austral de Chile-Centre National de la Recherche Scientifique (CNRS)

Subjects

0106 biological sciences, 0301 basic medicine, Pathways of range expansion, North-Atlantic intertidal, Range (biology), Niche, Comparative phylogeography, Biology, 010603 evolutionary biology, 01 natural sciences, Genetic diversity, 03 medical and health sciences, Rafting, Climatic refugia, Restricted dispersal, 14. Life underwater, Glacial period, Glacial–interglacial cycles, Marine introductions, Ecology, 15. Life on land, Fucaceae, biology.organism_classification, Latitudinal range shifts, Ongoing climate change, Fucoid seaweeds, Phylogeography, 030104 developmental biology, 13. Climate action, Biological dispersal, Gene pool, [SDE.BE]Environmental Sciences/Biodiversity and Ecology

Abstract

Members of the seaweed family Fucaceae have been recurrent models in North Atlantic phylogeographic research; numerous studies have been published since 2000, and this review synthesizes their major findings. Fucoid species exhibited diverse responses to glacial–interglacial cycles, but evidence indicates there were a few common refugial areas such as north-western Iberia, the Celtic Sea (Brittany/Ireland) region and the North-west Atlantic. In genetically rich refugial areas, pervasive genetic breaks confirmed presently limited gene flow between adjacent distinct genetic groups. In contrast with the maintenance of sharp genetic breaks, most species experienced extensive migration during post-glacial expansion. Poleward migrations in the North-east Atlantic followed routes along north-western Ireland and the transgressing English Channel. These patterns support the role of density-blocking in maintaining sharp genetic breaks at contact zones, and of long-distance dispersal from range edges in mediating expansion into uninhabited regions. The data also indicate that expansions involve mostly the genetic groups located at range edges rather than the entire species’ gene pool, both poleward during interglacials and toward warmer regions during glacial periods. Fucoid expansions have also been linked to introgressive recombination of genomes at (and beyond) contact zones and to gene surfing leading to present large-scale dominance by alleles that were located at the expanding edge. Phylogeographic approaches have also proven useful to identify and track the sources of introductions linked to marine traffic. The integration of environmental niche models with molecular data have further allowed hindcasting southern distributions during glaciation and predicting the potentially negative effects of future climate warming, including the loss of vulnerable, unique trailing-edge lineages, as species’ ranges are predicted to continue shifting northward. Collectively, these studies have contributed greatly to elucidating the links between past and ongoing climatic shifts, range dynamics and geographical patterns of genetic variability in the North Atlantic.

Published

2016

43. Variation in thermal stress response in two populations of the brown seaweed, Fucus distichus, from the Arctic and subarctic intertidal

Author

James A. Coyer, Galice Hoarau, Spyros Kollias, Irina Smolina, and Alexander Jueterbock

Subjects

0106 biological sciences, Fucus distichus, Population, Intertidal zone, Biology, brown algae, 010603 evolutionary biology, 01 natural sciences, Ecosystem engineer, Rocky shore, Algae, lcsh:Science, education, Local adaptation, photosynthetic performance, education.field_of_study, Multidisciplinary, Ecology, 010604 marine biology & hydrobiology, thermal stress response, heat shock protein genes, biology.organism_classification, Subarctic climate, Mathematics and natural science: 400::Zoology and botany: 480::Marine biology: 497 [VDP], lcsh:Q, Biology (Whole organism), local adaptation, Research Article

Abstract

It is unclear whether intertidal organisms are ‘preadapted’ to cope with the increase of temperature and temperature variability or if they are currently at their thermal tolerance limits. To address the dichotomy, we focused on an important ecosystem engineer of the Arctic intertidal rocky shores, the seaweedFucus distichusand investigated thermal stress responses of two populations from different temperature regimes (Svalbard and Kirkenes, Norway). Thermal stress responses at 20°C, 24°C and 28°C were assessed by measuring photosynthetic performance and expression of heat shock protein (HSP) genes (shsp,hsp90andhsp70). We detected population-specific responses between the two populations ofF. distichus, as the Svalbard population revealed a smaller decrease in photosynthesis performance but a greater activation of molecular defence mechanisms (indicated by a wider repertoire of HSP genes and their stronger upregulation) compared with the Kirkenes population. Although the temperatures used in our study exceed temperatures encountered byF. distichusat the study sites, we believe response to these temperatures may serve as a proxy for the species’ potential to respond to climate-related stresses.

Published

2016

44. Genetic structure and distribution of Gelidium elegans (Gelidiales, Rhodophyta) in Korea based on mitochondrial cox1 sequence data

Author

Galice Hoarau, Kyeong Mi Kim, and Sung Min Boo

Subjects

Genetic diversity, Ecology, business.industry, Haplotype, Distribution (economics), Plant Science, Aquatic Science, Biology, biology.organism_classification, Gelidium elegans, Agarophyte, Phylogeography, Evolutionary biology, Genetic structure, Gelidiales, business

Abstract

Gelidium elegans Kutzing is commonly found in Korea, China, and Japan, and is the economically most important agarophyte in the northwest Pacific. To assess the genetic structure of the Korean species, we analyzed 1200 base pairs of the mitochondrial cox1 gene from 272 individuals collected from 36 locations. A total of 34 haplotypes were found, most of which were unique, including 27 (79%) ‘private’ haplotypes. The nucleotide and haplotype diversities of cox1 within G. elegans were 0.711 ± 0.028 (H) and 0.00736 ± 0.00038 (π), respectively. The distribution of cox1 haplotypes, pairwise FST values, results of neutrality tests, AMOVA, and mismatch distribution revealed the existence of a deep genetic break between central Pacific Japan and all the other locations, corresponding to the surface seawater current patterns as well as the genetic signature of potential demographic expansion.

Published

2012

45. Trans-Pacific and trans-Arctic pathways of the intertidal macroalga Fucus distichus L. reveal multiple glacial refugia and colonizations from the North Pacific to the North Atlantic

Author

James A. Coyer, Galice Hoarau, Jaap van Schaik, Pepijn Luijckx, and Jeanine L. Olsen

Subjects

0106 biological sciences, Fucus distichus, education.field_of_study, Ecology, biology, 010604 marine biology & hydrobiology, Biogeography, Population, Cytochrome c oxidase subunit I, Last Glacial Maximum, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Phylogeography, Geography, Arctic, 13. Climate action, 14. Life underwater, Glacial period, education, geographic locations, Ecology, Evolution, Behavior and Systematics

Abstract

Aim We examined the phylogeography of the cold-temperate macroalgal species Fucus distichus L., a key foundation species in rocky intertidal shores and the only Fucus species to occur naturally in both the North Pacific and the North Atlantic. Location North Pacific and North Atlantic oceans (42° to 77° N). Methods We genotyped individuals from 23 populations for a mitochondrial DNA (mtDNA) intergenic spacer (IGS) (n = 608) and the cytochrome c oxidase subunit I (COI) region (n = 276), as well as for six nuclear microsatellite loci (n = 592). Phylogeographic structure and connectivity were assessed using population genetic and phylogenetic network analyses. Results IGS mtDNA haplotype diversity was highest in the North Pacific, and divergence between Pacific haplotypes was much older than that of the single cluster of Atlantic haplotypes. Two ancestral Pacific IGS/COI clusters led to a widespread Atlantic cluster. High mtDNA and microsatellite diversities were observed in Prince William Sound, Alaska, 11 years after severe disturbance by the 1989 Exxon Valdez oil spill. Main conclusions At least two colonizations occurred from the older North Pacific populations to the North Atlantic between the opening of the Bering Strait and the onset of the Last Glacial Maximum. One colonization event was from the Japanese Archipelago/eastern Aleutians, and a second was from the Alaskan mainland around the Gulf of Alaska. Japanese populations probably arose from a single recolonization event from the eastern Aleutian Islands before the North Pacific-North Atlantic colonization. In the North Atlantic, the Last Glacial Maximum forced the species into at least two known glacial refugia: the Nova Scotia/Newfoundland (Canada) region and Andoya (northern Norway). The presence of two private haplotypes in the central Atlantic suggests the possibility of colonization from other refugia that are now too warm to support F. distichus. With the continuing decline in Arctic ice cover as a result of global climate change, renewed contact between North Pacific and North Atlantic populations of Fucus species is expected.

Published

2010

46. Introduced or glacial relict? Phylogeography of the cryptogenic tunicate Molgula manhattensis (Ascidiacea, Pleurogona)

Author

Wim J. Wolff, Galice Hoarau, Deniz Haydar, Jeanine L. Olsen, and Wytze T. Stam

Subjects

Phylogeography, music.instrument, Effective population size, Molgula manhattensis, Ecology, Propagule pressure, Cytochrome c oxidase subunit I, Biological dispersal, Disjunct, Biology, music, Bay, Ecology, Evolution, Behavior and Systematics

Abstract

Aim The tunicate Molgula manhattensis has a disjunct amphi-Atlantic distribution and a recent history of world-wide introductions. Its distribution could be the result of regional extinctions followed by post-glacial recolonization, or anthropogenic dispersal. To determine whether the North Atlantic distribution of M. manhattensis is natural or human-mediated, we analysed mtDNA cytochrome c oxidase subunit I (COI) sequence variation in individuals from cryptogenic and introduced ranges. Location North Atlantic Europe and America; Black Sea; San Francisco Bay; Osaka Bay. Methods Nuclear 18S rDNA sequences were used to resolve phylogenetic relationships and mtDNA COI sequences for phylogeographic analyses. Results Phylogenetic analyses confirmed that M. manhattensis and M. socialis, which are frequently confused, are distinct species. MtDNA haplotype diversity was nearly three times higher with deeper relationships among haplotypes on the North-east American coast than in Europe. Diversity declined from south to north in America but not in Europe. In areas of known introductions (Black Sea, Japan, San Francisco Bay), M. manhattensis showed variable levels of haplotype diversity. Medium-to-high-frequency haplotypes originating from the North-west Atlantic were present in two locations of known introductions, but not in Europe. Private haplotypes were found on both sides of the Atlantic and in introduced populations. The mismatch distribution for the North-east Atlantic coast indicates a recent expansion. Main conclusions Molgula manhattensis is native in North-east America. However, whether it was introduced or is native to Europe remains equivocal. Additional sampling might or might not reveal the presence of putative private European haplotypes in America. The low European diversity may be explained by low effective population size and a recent expansion, or by low propagule pressure of anthropogenic introduction. Absence of medium-to-high-frequency American haplotypes in Europe may be the result of exclusive transport from southern ports, or long-term residence. These arguments are ambiguous, and M. manhattensis remains cryptogenic in Europe.

Published

2010

47. The phylogeographic architecture of the fucoid seaweedAscophyllum nodosum: an intertidal ‘marine tree’ and survivor of more than one glacial-interglacial cycle

Author

Frederick W. Zechman, Myriam Valero, James A. Coyer, Per Åberg, Galice Hoarau, Jeanine L. Olsen, Wytze T. Stam, and Olsen lab

Subjects

coalescence, LIFE-HISTORY, Fucus serratus, long-distance dispersal, Intertidal zone, phylogeography, microsatellites, PHAEOPHYCEAE, EFFECTIVE POPULATION SIZES, Rocky shore, ICE SHEETS, recolonization, GENE FLOW, SPATIAL VARIATION, Glacial period, Ecology, Evolution, Behavior and Systematics, CLIMATE-CHANGE, Last Glacial Maximum, Ecology, biology, Ascophyllum nodosum, mtDNA, biology.organism_classification, N(e), Phylogeography, FUCACEAE POPULATIONS, COMPUTER-PROGRAM, Interglacial, FUCUS-SERRATUS, Ascophyllum

Abstract

AimAscophyllum nodosum (L.) Le Jolis is a dominant fucoid seaweed occurring along sheltered, rocky shores throughout the North Atlantic (but not in the Pacific), where it is a foundational species of the intertidal community. Its large size and vulnerability to ice-scour have led to the hypothesis that contemporary populations in the north-west Atlantic may be the result of de novo recolonization from the north-east Atlantic since the Last Glacial Maximum (LGM) (c. 20 ka). We tested this hypothesis.LocationTemperate North Atlantic rocky intertidal between c. 42 and 65 degrees N latitude.MethodsMore than 1300 individuals from 28 populations were sampled from across the entire range of A. nodosum and genotyped for six microsatellite loci, and > 500 individuals were genotyped for two mitochondrial loci, an intergenic spacer (IGS) and the tRNA (W) gene (trnW). Population structure and historical demography were analysed in a standard population genetics and coalescence framework.ResultsBased on the presence of private alleles and haplotypes, we found that A. nodosum has survived on both sides of the Atlantic (since before the LGM, dating back to at least the penultimate Eemian interglacial) with similar effective population sizes and divergence times (1.2 and 0.8 Ma). Dispersal has been predominantly from Europe to North America, and there is very weak present-day population differentiation across the North Atlantic. Diversity measures provided additional support for determining the location of refugia.Main conclusionsAscophyllum nodosum was apparently little affected by the LGM, although contemporary climate change is likely to have major effects on its latitudinal distribution on both sides of the North Atlantic. It is a very long-lived species, analogous in virtually all demographic aspects to a tree - resistant to extinction but vulnerable to catastrophic events. The Brittany peninsula is a hotspot of genetic diversity worthy of conservation.

Published

2010

48. Microsatellite analysis of plaice (Pleuronectes platessa L.) in the NE Atlantic

Author

Galice Hoarau, Anna Was, and Elizabeth Gosling

Subjects

Species distribution, Population genetics, Aquatic Science, Demersal zone, Flatfish, TURBOT SCOPHTHALMUS-MAXIMUS, SELECTIVE TIDAL TRANSPORT, POPULATION-STRUCTURE, MARINE FISHES, Ecology, Evolution, Behavior and Systematics, Pleuronectes, geography, geography.geographical_feature_category, Ecology, biology, Continental shelf, Pelagic zone, COD GADUS-MORHUA, MIGRATORY BEHAVIOR, biology.organism_classification, Genetic structure, BALTIC SEA, WHITING MICROMESISTIUS-POUTASSOU, FLOUNDER PLATICHTHYS-FLESUS, geographic locations, NORTH-SEA PLAICE

Abstract

Many species of marine fish are typified by large population sizes, strong migratory behavior, high fecundity, and pelagic eggs and larvae that are passively transported by ocean currents, all features that tend to increase gene flow, and hence reduce genetic partitioning, among localized populations. The plaice, Pleuronectes platessa, is a commercially important demersal species that exhibits all of these characteristics. We analyzed genetic variation at eight microsatellite loci in samples of spawning adults (N = 348) from the coasts of Ireland, Iceland, and, for the first time, from the Baltic Sea. Significant differentiation was observed between Iceland and Irish and Baltic Sea samples. However, there were no genetic differences between Irish and Baltic Sea samples, which contrast with the significant differentiation reported between Baltic Sea and North Sea/Atlantic populations of other flatfish species. To increase the data set, we carried out a cross-calibration exercise, allowing us to perform a joint analysis of data with an earlier study on adult and juvenile plaice (N = 480) collected over a broad geographic range, using six microsatellite loci in common to the two studies. Significant differentiation was observed between fish collected at the northern (Iceland, Faeroes, Norway) and southern (Bay of Biscay) parts of the species range. In contrast, the results showed little evidence of genetic structuring over much of the continental shelf of Europe. We believe that bathymetric and hydrographic barriers are the major factors shaping genetic structure, while lack of structure over much of the European continental shelf may be explained by a combination of past historical events, population structure, and dynamics of the species.

Published

2010

49. Glacial refugia and recolonization pathways in the brown seaweed Fucus serratus

Author

James A. Coyer, Galice Hoarau, Jan Veldsink, Jeanine L. Olsen, and Wytze T. Stam

Subjects

Range (biology), Fucus serratus, Population, Population Dynamics, Fucus vesiculosus, GENETIC CONSEQUENCES, phylogeography, brown algae, DNA, Mitochondrial, PHAEOPHYCEAE, ENGLISH-CHANNEL, Refugium (population biology), Genetics, Ice Cover, PHYLOGEOGRAPHIC ANALYSIS, Glacial period, glacial refugia, education, MITOCHONDRIAL-DNA VARIATION, Ecology, Evolution, Behavior and Systematics, Phylogeny, MOLECULAR PHYLOGENIES, NORTHERN EUROPE, education.field_of_study, biology, Geography, Ecology, Last Glacial Maximum, Sequence Analysis, DNA, DEMOGRAPHIC HISTORY, biology.organism_classification, Fucaceae, mitochondria, Haplotypes, seaweed, Fucus, FUCACEAE POPULATIONS, DNA, Intergenic, ICE AGES

Abstract

The last glacial maximum (20 000-18 000 years ago) dramatically affected extant distributions of virtually all northern European biota. Locations of refugia and postglacial recolonization pathways were examined in Fucus serratus (Heterokontophyta; Fucaceae) using a highly variable intergenic spacer developed from the complete mitochondrial genome of Fucus vesiculosus. Over 1500 samples from the entire range of F. serratus were analysed using fluorescent single strand conformation polymorphism. A total of 28 mtDNA haplotypes was identified and sequenced. Three refugia were recognized based on high haplotype diversities and the presence of endemic haplotypes: southwest Ireland, the northern Brittany-Hurd Deep area of the English Channel, and the northwest Iberian Peninsula. The Irish refugium was the source for a recolonization sweep involving a single haplotype via northern Scotland and throughout Scandinavia, whereas recolonization from the Brittany-Hurd Deep refugium was more limited, probably because of unsuitable soft-bottom habitat in the Bay of Biscay and along the Belgian and Dutch coasts. The Iberian populations reflect a remnant refugium at the present-day southern boundary of the species range. A generalized skyline plot suggested exponential population expansion beginning in the mid-Pleistocene with maximal growth during the Eems interglacial 128 000 - 67 000 years ago, implying that the last glacial maximum mainly shaped population distributions rather than demography.

Published

2007

50. Biodiversity mediates top-down control in eelgrass ecosystems: A global comparative-experimental approach

Author

Lars Gamfeldt, Kevin A. Hovel, J. Paul Richardson, Jennifer L. Ruesink, John J. Stachowicz, Erik E. Sotka, Galice Hoarau, Matthew A. Whalen, Johan S. Eklöf, Jeanine L. Olsen, Mathieu Cusson, Aschwin H. Engelen, Stein Fredriksen, Serena Donadi, Jonas Thormar, Britas Klemens Eriksson, Pamela L. Reynolds, Jonathan S. Lefcheck, Camilla Gustafsson, James A. Coyer, Christoffer Boström, Katrin Iken, Mary I. O'Connor, Masahiro Nakaoka, James G. Douglass, J. Emmett Duffy, Per-Olav Moksnes, Masakazu Hori, and Eriksson group

Subjects

Food Chain, Genotype, Nutrient enrichment, Gastropoda, Population Dynamics, Functional-role, Biodiversity, DIVERSITY, Community, Models, Biological, Algal bloom, Zostera-Marina, Microsatellite Loci, ZOSTERA-MARINA, Crustacea, Microalgae, Animals, Ecosystem, Biomass, Herbivory, 14. Life underwater, SEAGRASS ECOSYSTEM, Ecology, Evolution, Behavior and Systematics, Diversity, Biomass (ecology), biology, NUTRIENT ENRICHMENT, Ecology, Zosteraceae, Populations, Eutrophication, 15. Life on land, biology.organism_classification, Seagrass ecosystem, FUNCTIONAL-ROLE, COMMUNITY, TROPHIC INTERACTIONS, Seagrass, 13. Climate action, MICROSATELLITE LOCI, Nutrient pollution, EUTROPHICATION, Foundation species, Zostera marina, POPULATIONS, Trophic interactions

Abstract

Nutrient pollution and reduced grazing each can stimulate algal blooms as shown by numerous experiments. But because experiments rarely incorporate natural variation in environmental factors and biodiversity, conditions determining the relative strength of bottom-up and top-down forcing remain unresolved. We factorially added nutrients and reduced grazing at 15 sites across the range of the marine foundation species eelgrass (Zostera marina) to quantify how top-down and bottom-up control interact with natural gradients in biodiversity and environmental forcing. Experiments confirmed modest top-down control of algae, whereas fertilisation had no general effect. Unexpectedly, grazer and algal biomass were better predicted by cross-site variation in grazer and eelgrass diversity than by global environmental gradients. Moreover, these large-scale patterns corresponded strikingly with prior small-scale experiments. Our results link global and local evidence that biodiversity and top-down control strongly influence functioning of threatened seagrass ecosystems, and suggest that biodiversity is comparably important to global change stressors. National Science Foundation [OCE-1031061] info:eu-repo/semantics/publishedVersion

Published

2015