Your search keyword '"De Jode, Aurélien"' showing total 16 results

1. Does rafting promote contemporary gene flow? Global and regional patterns of population genetic diversity and structure on the false limpet Siphonaria lateralis in the Southern Ocean.

Author

Millán-Medina, Constanza, Lizama, Marcelo, Saucède, Thomas, Poulin, Elie, Segovia, Nicolás I., González-Wevar, Claudio, De Jode,, Aurélien, and Amador, Luis

Subjects

ANTARCTIC Circumpolar Current, POPULATION differentiation, GENE flow, LARVAL dispersal, GENETIC variation

Abstract

Rafting has been proposed as an effective mechanism for species without freeliving pelagic larvae to achieve long-distance dispersal, theoretically preventing population differentiation over wide distributional ranges. Moreover, rafting has been advocated as a main dispersal mechanism for marine invertebrates with sub-Antarctic distributions, because of abundant buoyant kelps, driven by the Antarctic Circumpolar Current. Nonetheless, little attention has been given to the role of rafting to establish regular gene flow across the sub-Antarctic, and the geographic and temporal scales at which it occurs. Aiming to unravel these major questions about the extent of genetic connectivity across the Southern Ocean (SO), we studied the pulmonate limpet Siphonaria lateralis, a benthic species with encapsulated larvae, found on the rocky intertidal of sub-Antarctic islands and southern South America. Since S. lateralis is closely associated with D. antarctica, dispersal by rafting is plausible, as revealed by the absence of phylogeographic structure across the sub-Antarctic. We sampled 116 individuals from eight localities across the SO, and used 5,515 SNPs obtained through Genotyping-by-Sequencing, to determine contemporary genetic diversity, structure, and gene flow at two spatial scales; global, across the SO, and regional, within Kerguelen. Results identified substantial genetic structure, differentiating Patagonia, Falklands/Malvinas Islands, South Georgia and the Kerguelen archipelago, and low levels of contemporary gene flow. The most notable genetic differentiation was found between Patagonia/Falklands and South Georgia/Kerguelen. Structure was also significant between Patagonia and the Falkland/Malvinas Islands. Conversely, South Georgia and Kerguelen exhibited closer genetic affinity, and indications of recent but limited gene flow. Moreover, historical gene flow estimates between the four populations were low. At regional scale, noteworthy genetic structure persisted, and gene flow was insufficient to prevent genetic differentiation within Kerguelen. Consequently, rafting's potential may be overestimated as a contemporary mechanism promoting gene flow across the SO, as these events may be sporadic, irregular, and unpredictable for marine invertebrates lacking a larval dispersal stage, since contemporary dispersal events don't seem to facilitate high gene flow at both scales. Accordingly, other oceanographic factors or processes may hinder the establishment of species associated with macroalgae, and as consequence, contemporary genetic connectivity in the sub-Antarctic. [ABSTRACT FROM AUTHOR]

Published

2024

2. Chromosome-scale genome assembly of the rough periwinkleLittorina saxatilis

Author

De Jode, Aurélien, primary, Faria, Rui, additional, Formenti, Giulio, additional, Sims, Ying, additional, Smith, Timothy P., additional, Tracey, Alan, additional, Wood, Jonathan M. D., additional, Zagrodzka, Zuzanna B., additional, Johannesson, Kerstin, additional, Butlin, Roger K., additional, and Leder, Erica H, additional

Published

2024

3. An allozyme polymorphism is associated with a large chromosomal inversion in the marine snail Littorina fabalis

Author

Le Moan, Alan, primary, Panova, Marina, additional, De Jode, Aurélien, additional, Ortega‐Martinez, Olga, additional, Duvetorp, Mårten, additional, Faria, Rui, additional, Butlin, Roger, additional, and Johannesson, Kerstin, additional

Published

2022

4. Ten years of demographic modelling of divergence and speciation in the sea

Author

De Jode, Aurélien, primary, Le Moan, Alan, additional, Johannesson, Kerstin, additional, Faria, Rui, additional, Stankowski, Sean, additional, Westram, Anja Marie, additional, Butlin, Roger K., additional, Rafajlović, Marina, additional, and Fraïsse, Christelle, additional

Published

2022

5. Biodiversity, climate change, and adaptation in the Mediterranean

Author

Aurelle, Didier, Thomas, Séverine, Albert, Cécile, Bally, Marc, Bondeau, Alberte, Boudouresque, Charles‐françois, Cahill, Abigail E., Carlotti, François, Chenuil, Anne, Cramer, Wolfgang, Davi, Hendrik, De Jode, Aurélien, Ereskovsky, Alexander, Farnet, Anne‐marie, Fernandez, Catherine, Gauquelin, Thierry, Mirleau, Pascal, Monnet, Anne‐christine, Prévosto, Bernard, Rossi, Vincent, Sartoretto, Stephane, Van Wambeke, France, Fady, Bruno, Aurelle, Didier, Thomas, Séverine, Albert, Cécile, Bally, Marc, Bondeau, Alberte, Boudouresque, Charles‐françois, Cahill, Abigail E., Carlotti, François, Chenuil, Anne, Cramer, Wolfgang, Davi, Hendrik, De Jode, Aurélien, Ereskovsky, Alexander, Farnet, Anne‐marie, Fernandez, Catherine, Gauquelin, Thierry, Mirleau, Pascal, Monnet, Anne‐christine, Prévosto, Bernard, Rossi, Vincent, Sartoretto, Stephane, Van Wambeke, France, and Fady, Bruno

Abstract

Potential for, and limits to, adaptation to environmental changes are critical for resilience and risk mitigation. The Mediterranean basin is a mosaic of biodiversity-rich ecosystems long affected by human influence, whose resilience is now questioned by climate change. After reviewing the different components of biological adaptation, we present the main characteristics of marine and terrestrial biodiversity in the Mediterranean basin and of the pressures they face. Taking climatic trends into consideration, we discuss the adaptive potential of a range of ecosystems dominated by species without active dispersal. We argue that the high heterogeneity of Mediterranean landscapes and seascapes constitutes a laboratory for the study of adaptation when environmental conditions change rapidly and may provide opportunities for adaptation and adaptability of species and ecosystems. Adaptive management in the Mediterranean can and should harness the nature-based solutions offered by both ecological and evolutionary processes for increasing the resilience of ecosystems to climate change.

Published

2022

6. Biodiversity, climate change, and adaptation in the Mediterranean

Author

Aurelle, Didier, primary, Thomas, Séverine, additional, Albert, Cécile, additional, Bally, Marc, additional, Bondeau, Alberte, additional, Boudouresque, Charles‐François, additional, Cahill, Abigail E., additional, Carlotti, François, additional, Chenuil, Anne, additional, Cramer, Wolfgang, additional, Davi, Hendrik, additional, De Jode, Aurélien, additional, Ereskovsky, Alexander, additional, Farnet, Anne‐Marie, additional, Fernandez, Catherine, additional, Gauquelin, Thierry, additional, Mirleau, Pascal, additional, Monnet, Anne‐Christine, additional, Prévosto, Bernard, additional, Rossi, Vincent, additional, Sartoretto, Stéphane, additional, Van Wambeke, France, additional, and Fady, Bruno, additional

Published

2022

7. Ten years of demographic modelling of divergence and speciation in the sea.

Author

De Jode, Aurélien, Le Moan, Alan, Johannesson, Kerstin, Faria, Rui, Stankowski, Sean, Westram, Anja Marie, Butlin, Roger K., Rafajlović, Marina, and Fraïsse, Christelle

Subjects

*GENE flow, *SPECIES diversity, *VICARIANCE, *GENETIC speciation, *MARINE organisms, REPRODUCTIVE isolation

Abstract

Understanding population divergence that eventually leads to speciation is essential for evolutionary biology. High species diversity in the sea was regarded as a paradox when strict allopatry was considered necessary for most speciation events because geographical barriers seemed largely absent in the sea, and many marine species have high dispersal capacities. Combining genome‐wide data with demographic modelling to infer the demographic history of divergence has introduced new ways to address this classical issue. These models assume an ancestral population that splits into two subpopulations diverging according to different scenarios that allow tests for periods of gene flow. Models can also test for heterogeneities in population sizes and migration rates along the genome to account, respectively, for background selection and selection against introgressed ancestry. To investigate how barriers to gene flow arise in the sea, we compiled studies modelling the demographic history of divergence in marine organisms and extracted preferred demographic scenarios together with estimates of demographic parameters. These studies show that geographical barriers to gene flow do exist in the sea but that divergence can also occur without strict isolation. Heterogeneity of gene flow was detected in most population pairs suggesting the predominance of semipermeable barriers during divergence. We found a weak positive relationship between the fraction of the genome experiencing reduced gene flow and levels of genome‐wide differentiation. Furthermore, we found that the upper bound of the 'grey zone of speciation' for our dataset extended beyond that found before, implying that gene flow between diverging taxa is possible at higher levels of divergence than previously thought. Finally, we list recommendations for further strengthening the use of demographic modelling in speciation research. These include a more balanced representation of taxa, more consistent and comprehensive modelling, clear reporting of results and simulation studies to rule out nonbiological explanations for general results. [ABSTRACT FROM AUTHOR]

Published

2023

8. An allozyme polymorphism is associated with a large chromosomal inversion in the marine snail Littorina fabalis.

Author

Le Moan, Alan, Panova, Marina, De Jode, Aurélien, Ortega‐Martinez, Olga, Duvetorp, Mårten, Faria, Rui, Butlin, Roger, and Johannesson, Kerstin

Subjects

CHROMOSOME inversions, NATURAL selection, POPULATION genetics, ALLELES, CHROMOSOMES, ISOENZYMES

Abstract

Understanding the genetic targets of natural selection is one of the most challenging goals of population genetics. Some of the earliest candidate genes were identified from associations between allozyme allele frequencies and environmental variation. One such example is the clinal polymorphism in the arginine kinase (Ak) gene in the marine snail Littorina fabalis. While other enzyme loci do not show differences in allozyme frequencies among populations, the Ak alleles are near differential fixation across repeated wave exposure gradients in Europe. Here, we use this case to illustrate how a new sequencing toolbox can be employed to characterize the genomic architecture associated with historical candidate genes. We found that the Ak alleles differ by nine nonsynonymous substitutions, which perfectly explain the different migration patterns of the allozymes during electrophoresis. Moreover, by exploring the genomic context of the Ak gene, we found that the three main Ak alleles are located on different arrangements of a putative chromosomal inversion that reaches near fixation at the opposing ends of two transects covering a wave exposure gradient. This shows Ak is part of a large (3/4 of the chromosome) genomic block of differentiation, in which Ak is unlikely to be the only target of divergent selection. Nevertheless, the nonsynonymous substitutions among Ak alleles and the complete association of one allele with one inversion arrangement suggest that the Ak gene is a strong candidate to contribute to the adaptive significance of the inversion. [ABSTRACT FROM AUTHOR]

Published

2023

9. Small-scale connectivity of coralligenous habitats: insights from a modelling approach within a semi-opened Mediterranean bay

Author

Rossi, Vincent, Lo, Madiop, Legrand, Terence, Ser-giacomi, Enrico, De Jode, Aurélien, Thierry De Ville D’avray, Laure, Pairaud, Ivane, Faure, Vincent, Fraysse, Marion, Pinazo, Christel, Chenuil, Anne, Rossi, Vincent, Lo, Madiop, Legrand, Terence, Ser-giacomi, Enrico, De Jode, Aurélien, Thierry De Ville D’avray, Laure, Pairaud, Ivane, Faure, Vincent, Fraysse, Marion, Pinazo, Christel, and Chenuil, Anne

Abstract

Habitat connectivity is central to several key evolutionary and ecological processes, having implications for the spatial structuring of marine populations. For benthic species that have no or little mobility as adults, connectivity is evaluated by analyzing the dispersal of propagules across the seascape. We investigate fine-scale connectivity of coralligenous habitats in Marseille Bay (located in the north-western Mediterranean) sea using high-resolution cartography and a particle-tracking model ran over a range of parameters derived from the biological traits of potential target species. We present annual and seasonal means of various connectivity diagnostics measuring the retention and exchange of propagules among coralligenous patches. A synthetic view is obtained by clustering individual patches into “coralligenous provinces” (ensemble of patches tightly connected by ocean currents). When discussing our results against historical observations, we highlight some genetic breaks, sharp community changes and ecological clusters that fit well our simulated connectivity patterns. Consistent findings include reduced biodiversity along Côte Bleue, high biodiversity at Planier Island and the presence of various dispersal barriers, which evolve with dispersal durations and provide the backbone of habitat connectivity. Our results help to apprehend and test hypothesis on marine population structures, providing useful information for ecologists and conservationists.

Published

2020

10. From seascape ecology to population genomics and back. Spatial and ecological differentiation among cryptic species of the red algae Lithophyllum stictiforme/L. cabiochiae, main bioconstructors of coralligenous habitats

Author

De Jode, Aurélien, David, Romain, Haguenauer, Anne, Cahill, Abigail E., Erga, Zinovia, Guillemain, Dorian, Sartoretto, Stephane, Rocher, Caroline, Selva, Marjorie, Le Gall, Line, Féral, Jean-pierre, Chenuil, Anne, De Jode, Aurélien, David, Romain, Haguenauer, Anne, Cahill, Abigail E., Erga, Zinovia, Guillemain, Dorian, Sartoretto, Stephane, Rocher, Caroline, Selva, Marjorie, Le Gall, Line, Féral, Jean-pierre, and Chenuil, Anne

Abstract

Ecosystem engineering species alter the physical structure of their environment and can create or modify habitats, having a massive impact on local biodiversity. Coralligenous reefs are highly diverse habitats endemic to the Mediterranean Sea built by calcareous benthic organisms among which Crustose Coralline Algae are the main engineering species. We analyzed the diversity of Lithophyllum stictiforme or L. cabiochiae in coralligenous habitats combining a multiple barcode and a population genomics approach with seascape features. Population genomics allowed disentangling pure spatial effects from environmental effects. We found that these taxa form a complex of eight highly divergent cryptic species that are easily identifiable using classic barcode markers (psbA, LSU, COI). Three factors have a significant effect on the relative abundances of these cryptic species: the location along the French Mediterranean coast, depth and Photosynthetic Active Radiation (PAR). The analysis of around 5000 SNPs for the most abundant species revealed genetic differentiation among localities in the Bay of Marseille but no differentiation between depths within locality. Thus, the effect of depth and PAR on cryptic species communities is not a consequence of restricted connectivity but rather due to differential settlement or survival among cryptic species. This differential is more likely driven by irradiance levels rather than by pressure or temperature. Both the genetic and species diversity patterns are congruent with the main patterns of currents in the Bay. Ecological differentiation among these engineering cryptic species, sensitive to ocean warming and acidification, could have important consequences on the diversity and structure of the coralligenous communities.

Published

2019

11. From seascape ecology to population genomics and back. Spatial and ecological differentiation among cryptic species of the red algae Lithophyllum stictiforme/L. cabiochiae, main bioconstructors of coralligenous habitats

Author

De Jode, Aurélien, primary, David, Romain, additional, Haguenauer, Anne, additional, Cahill, Abigail E., additional, Erga, Zinovia, additional, Guillemain, Dorian, additional, Sartoretto, Stéphane, additional, Rocher, Caroline, additional, Selva, Marjorie, additional, Le Gall, Line, additional, Féral, Jean-Pierre, additional, and Chenuil, Anne, additional

Published

2019

12. Lessons from photo analyses of Autonomous Reef Monitoring Structures as tools to detect (bio-)geographical, spatial, and environmental effects

Author

David, Romain, primary, Uyarra, Maria C., additional, Carvalho, Susana, additional, Anlauf, Holger, additional, Borja, Angel, additional, Cahill, Abigail E., additional, Carugati, Laura, additional, Danovaro, Roberto, additional, De Jode, Aurélien, additional, Feral, Jean-Pierre, additional, Guillemain, Dorian, additional, Martire, Marco Lo, additional, D'Avray, Laure Thierry De Ville, additional, Pearman, John K., additional, and Chenuil, Anne, additional

Published

2019

13. A multispecies approach reveals hot spots and cold spots of diversity and connectivity in invertebrate species with contrasting dispersal modes

Author

Cahill, Abigail E., primary, De Jode, Aurélien, additional, Dubois, Sophie, additional, Bouzaza, Zoheir, additional, Aurelle, Didier, additional, Boissin, Emilie, additional, Chabrol, Olivier, additional, David, Romain, additional, Egea, Emilie, additional, Ledoux, Jean-Baptiste, additional, Mérigot, Bastien, additional, Weber, Alexandra Anh-Thu, additional, and Chenuil, Anne, additional

Published

2017

14. Molecular evidence for the coexistence of two sibling species in Pylaiella littoralis (Ectocarpales, Phaeophyceae) along the Brittany coast

Author

Geoffroy, Alexandre, primary, Mauger, Stéphane, additional, De Jode, Aurélien, additional, Le Gall, Line, additional, and Destombe, Christophe, additional

Published

2015

15. IndexMed projects : new tools using the CIGESMED DataBase on Coralligenous for indexing, visualizing and data mining based on graphs

Author

David, Romain, Féral, Jean-Pierre, Archambeau, Anne-Sophie, Bailly, Nicolas, Blanpain, Cyril, Breton, V., De Jode, Aurélien, Delavaud, A., Dias, Alrick, Gachet, Sophie, Guillemain, Dorian, Lecubin, Julien, Romier, G., Surace, Christian, Thierry de Ville d'Avray, Laure, Arvanitidis, Christos, Chenuil, Anne, Ҫinar, Melih Ertan, Koutsoubas, Drosos, Sartoretto, Stéphane, and Tatoni, Thierry

Subjects

thesaurus, 13. Climate action, Coralligenous habitats, data qualification, distributed information system, 14. Life underwater, graph

Abstract

Data produced by the CIGESMED project (Coralligenous based Indicators to evaluate and monitor the "Good Environmental Status" of the MEDiterranean coastal waters) have a high potential for use by several stakeholders involved in environmental management. A new consortium called IndexMed whose task is to index Mediterranean biodiversity data, makes it possible to build graphs in order to analyse the CIGESMED data and develop new ways for data mining of coralligenous data. This paper presents the prototypes under development that test the ability of graphs approach to connect biodiversity objects with non-centralized data. This project explores the ability of two scientific communities to work together. The uses of data from coralligenous habitat demonstrate the prototype functionalities and introduce new perspectives to analyse environmental and societal responses.

16. Chromosome-scale Genome Assembly of the Rough Periwinkle Littorina saxatilis.

Author

De Jode A, Faria R, Formenti G, Sims Y, Smith TP, Tracey A, Wood JMD, Zagrodzka ZB, Johannesson K, Butlin RK, and Leder EH

Subjects

Animals, Gastropoda genetics, Chromosome Inversion, Ecotype, Genome, Chromosomes genetics

Abstract

The intertidal gastropod Littorina saxatilis is a model system to study speciation and local adaptation. The repeated occurrence of distinct ecotypes showing different levels of genetic divergence makes L. saxatilis particularly suited to study different stages of the speciation continuum in the same lineage. A major finding is the presence of several large chromosomal inversions associated with the divergence of ecotypes and, specifically, the species offers a system to study the role of inversions in this divergence. The genome of L. saxatilis is 1.35 Gb and composed of 17 chromosomes. The first reference genome of the species was assembled using Illumina data, was highly fragmented (N50 of 44 kb), and was quite incomplete, with a BUSCO completeness of 80.1% on the Metazoan dataset. A linkage map of one full-sibling family enabled the placement of 587 Mbp of the genome into 17 linkage groups corresponding to the haploid number of chromosomes, but the fragmented nature of this reference genome limited the understanding of the interplay between divergent selection and gene flow during ecotype formation. Here, we present a newly generated reference genome that is highly contiguous, with a N50 of 67 Mb and 90.4% of the total assembly length placed in 17 super-scaffolds. It is also highly complete with a BUSCO completeness of 94.1% of the Metazoa dataset. This new reference will allow for investigations into the genomic regions implicated in ecotype formation as well as better characterization of the inversions and their role in speciation., (© The Author(s) 2024. Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution.)

Published

2024