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2. Towards vibrant fish populations and sustainable fisheries that benefit all: learning from the last 30 years to inform the next 30 years.

Author

Cooke, SJ, Fulton, EA, Sauer, WHH, Lynch, AJ, Link, JS, Koning, AA, Jena, J, Silva, LGM, King, AJ, Kelly, R, Osborne, M, Nakamura, J, Preece, AL, Hagiwara, A, Forsberg, K, Kellner, JB, Coscia, I, Helyar, S, Barange, M, Nyboer, E, Williams, MJ, Chuenpagdee, R, Begg, GA, Gillanders, BM, Cooke, SJ, Fulton, EA, Sauer, WHH, Lynch, AJ, Link, JS, Koning, AA, Jena, J, Silva, LGM, King, AJ, Kelly, R, Osborne, M, Nakamura, J, Preece, AL, Hagiwara, A, Forsberg, K, Kellner, JB, Coscia, I, Helyar, S, Barange, M, Nyboer, E, Williams, MJ, Chuenpagdee, R, Begg, GA, and Gillanders, BM

Abstract

A common goal among fisheries science professionals, stakeholders, and rights holders is to ensure the persistence and resilience of vibrant fish populations and sustainable, equitable fisheries in diverse aquatic ecosystems, from small headwater streams to offshore pelagic waters. Achieving this goal requires a complex intersection of science and management, and a recognition of the interconnections among people, place, and fish that govern these tightly coupled socioecological and sociotechnical systems. The World Fisheries Congress (WFC) convenes every four years and provides a unique global forum to debate and discuss threats, issues, and opportunities facing fish populations and fisheries. The 2021 WFC meeting, hosted remotely in Adelaide, Australia, marked the 30th year since the first meeting was held in Athens, Greece, and provided an opportunity to reflect on progress made in the past 30 years and provide guidance for the future. We assembled a diverse team of individuals involved with the Adelaide WFC and reflected on the major challenges that faced fish and fisheries over the past 30 years, discussed progress toward overcoming those challenges, and then used themes that emerged during the Congress to identify issues and opportunities to improve sustainability in the world's fisheries for the next 30 years. Key future needs and opportunities identified include: rethinking fisheries management systems and modelling approaches, modernizing and integrating assessment and information systems, being responsive and flexible in addressing persistent and emerging threats to fish and fisheries, mainstreaming the human dimension of fisheries, rethinking governance, policy and compliance, and achieving equity and inclusion in fisheries. We also identified a number of cross-cutting themes including better understanding the role of fish as nutrition in a hungry world, adapting to climate change, embracing transdisciplinarity, respecting Indigenous knowledge systems, th

Published
2023

4. Population structure and connectivity in the genus Molva in the Northeast Atlantic.

Author

McGill, L, McDevitt, A D, Hellemans, B, Neat, F, Knutsen, H, Mariani, S, Christiansen, H, Johansen, T, Volckaert, F A M, and Coscia, I

Subjects
COLD adaptation, GENETIC markers, COLD (Temperature), BODY temperature regulation, SAMPLE size (Statistics)
Abstract

In fisheries, operational management units and biological data often do not coincide. In many cases, this is not even known due to the lack of information about a species' population structure or behaviour. This study focuses on two such species, the common ling Molva molva and the blue ling M. dypterygia , two Northeast Atlantic gadoids with overlapping geographical distribution, but different depth habitats. Heavily exploited throughout their ranges, with declining catches, little is known about their population structure. Genotyping-by-sequencing at thousands of genetic markers indicated that both species are separated into two major groups, one represented by samples from the coasts of western Scotland, Greenland, and the Bay of Biscay and the other off the coast of Norway. This signal is stronger for the deeper dwelling blue ling, even though adult dispersal was also identified for this species. Despite small sample sizes, fine-scale patterns of genetic structure were identified along Norway for common ling. Signatures of adaptation in blue ling consisted in signs of selections in genes involved in vision, growth, and adaptation to cold temperatures. [ABSTRACT FROM AUTHOR]

Published
2023
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5. Genetic connectivity and hybridization with its siter species challenge the current management paradigm of white anglerfish (Lophius piscatorius)

Author

Aguirre-Sarabia, I. (Imanol), Díaz-Arce, N. (Natalia), Pereda-Agirre, I. (Iker), Mendibil, I. (Iñaki), Urtizberea, A. (Agurtzane), Gerritsen, H.D. (Hans D.), Burns, F. (Finlay), Holmes, I. (Ian), Landa, J. (Jorge), Coscia, I. (Ilaria), Quincoces, I. (Iñaki), Santurtún, M. (Marina), Zanzi, A. (Antonella), Martinsohn, J.T. (Jann T.), and Rodríguez-Ezpeleta, N. (Naiara)

Subjects
fish, hybrids, sampling, genetic connectivity, marine resources, mitochondria, misidentification, measurement, biological sampling, hybridization, Lophius budegassa, control, Lophius piscatorius, imagery
Abstract

Understanding the inter and intraspecific dynamics of fish populations is essential to promote effective management and conservation actions and to predict adaptation to changing conditions. This is possible through the analysis of thousands of genetic markers, which has proven useful to resolve connectivity among populations. Here, we have tackled this issue in the white anglerfish (Lophius piscatorius), which inhabits the Northeast Atlantic and Mediterranean Sea and coexists with its morphologically almost identical sister species, the black anglerfish (L. budegassa). Our genetic analyses based on 16,000 SNP markers and 700 samples reveal that i) the white anglerfish from the Mediterranean Sea and the Atlantic Ocean are genetically isolated, but that no differentiation can be observed within the later, and that ii) black and white anglerfish naturally hybridize, resulting in a population of about 20% of, most likely sterile, hybrids in some areas. These findings challenge the current paradigm of white anglerfish management, which considers three independent management units within the North East Atlantic and assumes that all mature fish have reproductive potential. Additionally, the northwards distribution of both species, likely due to temperature raises, calls for further monitoring of the abundance and distribution of hybrids to anticipate the effects of climate change in the interactions between both species and their potential resilience.

Published
2021

6. Fishing for mammals: Landscape-level monitoring of terrestrial and semi-aquatic communities using eDNA from riverine systems

Author

Sales, NG, McKenzie, MB, Drake, J, Harper, LR, Browett, SS, Coscia, I, Wangensteen, OS, Baillie, C, Bryce, E, Dawson, DA, Ochu, E, Hänfling, B, Lawson Handley, L, Mariani, S, Lambin, X, Sutherland, C, McDevitt, AD, Sales, NG, McKenzie, MB, Drake, J, Harper, LR, Browett, SS, Coscia, I, Wangensteen, OS, Baillie, C, Bryce, E, Dawson, DA, Ochu, E, Hänfling, B, Lawson Handley, L, Mariani, S, Lambin, X, Sutherland, C, and McDevitt, AD

Abstract

Environmental DNA (eDNA) metabarcoding has revolutionized biomonitoring in both marine and freshwater ecosystems. However, for semi-aquatic and terrestrial animals, the application of this technique remains relatively untested. We first assess the efficiency of eDNA metabarcoding in detecting semi-aquatic and terrestrial mammals in natural lotic ecosystems in the UK by comparing sequence data recovered from water and sediment samples to the mammalian communities expected from historical data. Secondly, using occupancy modelling we compared the detection efficiency of eDNA metabarcoding to multiple conventional non-invasive survey methods (latrine surveys and camera trapping). eDNA metabarcoding detected a large proportion of the expected mammalian community within each area. Common species in the areas were detected at the majority of sites. Several key species of conservation concern in the UK were detected by eDNA sampling in areas where authenticated records do not currently exist, but potential false positives were also identified. Water-based eDNA metabarcoding provided comparable results to conventional survey methods in per unit of survey effort for three species (water vole, field vole and red deer) using occupancy models. The comparison between survey ‘effort’ to reach a detection probability of ≥.95 revealed that 3–6 water replicates would be equivalent to 3–5 latrine surveys and 5–30 weeks of single camera deployment, depending on the species. Synthesis and applications. eDNA metabarcoding can be used to generate an initial ‘distribution map’ of mammalian diversity at the landscape level. If conducted during times of peak abundance, carefully chosen sampling points along multiple river courses provide a reliable snapshot of the species that are present in a catchment area. In order to fully capture solitary, rare and invasive species, we would currently recommend the use of eDNA metabarcoding alongside other non-invasive surveying methods (i.e. camera tra

Published
2020

8. Performance and precision of double digestion RAD (ddRAD) genotyping in large multiplexed datasets of marine fish species

Author

Maroso, F., primary, Hillen, J.E.J., additional, Pardo, B.G., additional, Gkagkavouzis, K., additional, Coscia, I., additional, Hermida, M., additional, Franch, R., additional, Hellemans, B., additional, Van Houdt, J., additional, Simionati, B., additional, Taggart, J.B., additional, Nielsen, E.E., additional, Maes, G., additional, Ciavaglia, S.A., additional, Webster, L.M.I., additional, Volckaert, F.A.M., additional, Martinez, P., additional, Bargelloni, L., additional, and Ogden, R., additional

Published
2018
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9. Performance and precision of double digestion RAD (ddRAD) genotyping in large multiplexed datasets of marine fish species

Author

Maroso, F., Hillen, J E J, Pardo, B. G., Gkagkavouzis, K., Coscia, I., Hermida, M., Franch, R., Hellemans, B., Van Houdt, J., Simionati, B., Taggart, J. B., Nielsen, Einar Eg, Maes, G., Ciavaglia, S. A., Webster, L. M. I., Volckaert, F. A. M., Martinez, P., Bargelloni, L., Ogden, R., AquaTrace, Consortium, Maroso, F., Hillen, J E J, Pardo, B. G., Gkagkavouzis, K., Coscia, I., Hermida, M., Franch, R., Hellemans, B., Van Houdt, J., Simionati, B., Taggart, J. B., Nielsen, Einar Eg, Maes, G., Ciavaglia, S. A., Webster, L. M. I., Volckaert, F. A. M., Martinez, P., Bargelloni, L., Ogden, R., and AquaTrace, Consortium

Abstract

The development of Genotyping-By-Sequencing (GBS) technologies enables cost-effective analysis of large numbers of Single Nucleotide Polymorphisms (SNPs), especially in "non-model" species. Nevertheless, as such technologies enter a mature phase, biases and errors inherent to GBS are becoming evident. Here, we evaluated the performance of double digest Restriction enzyme Associated DNA (ddRAD) sequencing in SNP genotyping studies including high number of samples. Datasets of sequence data were generated from three marine teleost species (>5500 samples, >2.5 × 1012 bases in total), using a standardized protocol. A common bioinformatics pipeline based on STACKS was established, with and without the use of a reference genome. We performed analyses throughout the production and analysis of ddRAD data in order to explore (i) the loss of information due to heterogeneous raw read number across samples; (ii) the discrepancy between expected and observed tag length and coverage; (iii) the performances of reference based vs. de novo approaches; (iv) the sources of potential genotyping errors of the library preparation/bioinformatics protocol, by comparing technical replicates. Our results showed use of a reference genome and a posteriori genotype correction improved genotyping precision. Individual read coverage was a key variable for reproducibility; variance in sequencing depth between loci in the same individual was also identified as an important factor and found to correlate to tag length. A comparison of downstream analysis carried out with ddRAD vs single SNP allele specific assay genotypes provided information about the levels of genotyping imprecision that can have a significant impact on allele frequency estimations and population assignment. The results and insights presented here will help to select and improve approaches to the analysis of large datasets based on RAD-like methodologies.

Published
2018

16. Estimates of genetic variability and inbreeding in selected populations of European sea bass

Author

Hillen, Jasmien, Carr, A., Hellemans, B., Ogden, R., Taggart, John B., Vandeputte, Marc, Vergnet, Alain, Volcklaert, Filip A.M., Aquatrace Consortium, ., Coscia, I., Laboratory of Biodiversity and Evolutionary Genomics, University of Leuven, Fios Genomics, Partenaires INRAE, Royal Zoological Society of Scotland, Institute of Aquaculture, University of Stirling, Génétique Animale et Biologie Intégrative (GABI), Institut National de la Recherche Agronomique (INRA)-AgroParisTech, Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER), MARine Biodiversity Exploitation and Conservation (UMR MARBEC), Institut de Recherche pour le Développement (IRD)-Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), UE, and European Project: 311920,EC:FP7:KBBE,FP7-KBBE-2012-6-singlestage,AQUATRACE(2012)

Subjects
[SDV]Life Sciences [q-bio], inbreeding, selection, SNP, genetic, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2015

17. Estimates of genetic variability and inbreeding in experimentally selected populations of European sea bass

Author

Hillen, J. E. J., Coscia, I., Vandeputte, Marc, Herten, K., Hellemans, B., Maroso, F., Vergnet, Alain, Allal, Francois, Maes, G. E., Volckaert, F. A. M., Hillen, J. E. J., Coscia, I., Vandeputte, Marc, Herten, K., Hellemans, B., Maroso, F., Vergnet, Alain, Allal, Francois, Maes, G. E., and Volckaert, F. A. M.

Abstract

The aquaculture industry has increasingly aimed at improving economically important traits like growth, feed efficiency and resistance to infections. Artificial selection represents an important window of opportunity to significantly improve production. However, the pitfall is that selection will reduce genetic diversity and increase inbreeding in the farmed stocks. Genetic tools are very useful in this context as they provide accurate measures of genetic diversity together with many additional insights in the stock status and the selection process. In this study we assessed the level of genetic variability and relatedness over several generations of two lines of experimentally selected European sea bass (Dicentrarchus labrax L.). The first line was selected for growth over three generations and the second line for both high and low weight loss under a starvation regime over two generations. We used a genomic approach (2549 single nucleotide polymorphism markers derived from double digest restriction site associated DNA sequencing) in combination with eight microsatellites to estimate genetic variation, relatedness, effective population size and genetic differentiation across generations. Individual heterozygosity estimates indicated that the selected lines showed no significant reduction in diversity compared with wild populations. There was, however, a decreasing trend in allelic richness, suggesting the loss of low frequency alleles. We compared the estimates of effective population size from genetic markers with pedigree information and found good correspondence between methods. This study provides important insights in the genetic consequences of selective breeding and demonstrates the operational use of the latest genomic tools to estimate variability, inbreeding and at a later stage domestication and artificial selection.

Published
2017
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19. Spatio-temporal variability in the population structure in North-east Atlantic stocks of horse mackerel (Trachurus trachurus)

Author

Bozano, M., Mariani, S., Barratt, C., Sacchi, C., Boufana, B., and Coscia, I.

Abstract

The long-term sustainability of fish stocks is dependent upon the identification of biologically meaningful demographic boundaries and, subsequently, appropriate assessment figures and management strategies. In the case of the horse mackerel, Trachurus trachurus, stock management in the North-east Atlantic area is currently based on stock identities derived from multidisciplinary data integration, but including genetic markers that might lack statistical power, hence potentially misrepresenting the units of assessment. For this reason, and based on multiannual field observations, the boundaries of the vast 'western stock', whose distribution spans from the Bay of Biscay to the Norwegian coast, were reassessed. The preliminary results of a population genetics survey of samples collected over three consecutive years off the western Irish coast (areas VI and VII) and Norway (IVa), and screened by employing a suite of thirteen microsatellite loci are presented. Results indicate that the core of the putative stock in the west of Ireland is temporally stable, but its spatial extent and connection with Norwegian waters varies between years. Interannual variation in nutrient transport and oceanographic regimes may explain unstable patterns of genetic variation west of Norway, where local, smaller, previously unknown populations might exist.

Published
2015

30. Exploring neutral and adaptive processes in expanding populations of gilthead sea bream, Sparus aurata L., in the North-East Atlantic.

Author

Coscia, I, Vogiatzi, E, Kotoulas, G, Tsigenopoulos, C S, and Mariani, S

Subjects
*SPARUS aurata, *FISH populations, *NATURAL selection, *MICROSATELLITE repeats, *MITOCHONDRIAL DNA, *MARINE fishes
Abstract

Recent studies in empirical population genetics have highlighted the importance of taking into account both neutral and adaptive genetic variation in characterizing microevolutionary dynamics. Here, we explore the genetic population structure and the footprints of selection in four populations of the warm-temperate coastal fish, the gilthead sea bream (Sparus aurata), whose recent northward expansion has been linked to climate change. Samples were collected at four Atlantic locations, including Spain, Portugal, France and the South of Ireland, and genetically assayed using a suite of species-specific markers, including 15 putatively neutral microsatellites and 23 expressed sequence tag-linked markers, as well as a portion of the mitochondrial DNA (mtDNA) control region. Two of the putatively neutral markers, Bld-10 and Ad-10, bore signatures of strong directional selection, particularly in the newly established Irish population, although the potential 'surfing effect' of rare alleles at the edge of the expansion front was also considered. Analyses after the removal of these loci suggest low but significant population structure likely affected by some degree of gene flow counteracting random genetic drift. No signal of historic divergence was detected at mtDNA. BLAST searches conducted with all 38 markers used failed to identify specific genomic regions associated to adaptive functions. However, the availability of genomic resources for this commercially valuable species is rapidly increasing, bringing us closer to the understanding of the interplay between selective and neutral evolutionary forces, shaping population divergence of an expanding species in a heterogeneous milieu. [ABSTRACT FROM AUTHOR]

Published
2012
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31. SPARC 2022 book of abstracts

Author

Ardo, A, Bass, J, Gaber, T, Abdullahi, A, Dargahi, T, Babaie, M, Bennett, A, Searle, D, Mbabu, A, Underwood, J, Munir, M, Woodman, A, Coffey, M, Cooper-Ryan, A, Foster, A, Greensmith, D, Stein, A, Dubrow-Marshall, R, Gumel, A, Malevicius, R, Rana, M, Baatz, A, Young, R, Bidgood, A, Davison, A, McDevitt, A, Rahimi Toudeshki, A, Parker, D, Price, C, Bird, S, Sabir, A, Withers, S, Latimer, J, Hamdan, A, Elkadi, H, Warburton, B, Kosmidou, S, Hiriart, J, Martin, C, Nourian, A, Nasr, G, Chinigo, C, Lisanti, M, Sotgia, F, Hargreaves, C, Newbery, S, Hall, B, Poolay Mootien, C, Beevers, D, Thompson, C, Lomas, M, Harris, D, Sharples, N, Gilbert, D, Cook, P, Allely, C, Mukherjee, R, Ajibade, D, Chen, Y, Watson, N, Maguire, D, Thompson, J, Vadera, S, Smith, E, Coscia, I, Cooper, E, Bown, K, Blezard, E, Clarke, A, Ahmed, A, Alkashti, F, Sharifi, S, Mtonga, V, Plahe, G, James, C, Goodhead, I, Elgamodi, H, Krpetic, Z, Broadhurst, H, Kolawole, H, Ferry, N, Bakoji, I, Nduka, I, Arrigo, R, Namvar, S, Homer, J, Mandal, J, Wood, M, Hutchinson, S, Mondal, D, Jackman, J, Sarwar, J, Howard, D, Kenney, L, Yuen, J, Roddy, J, Widdowson, M, Maloney yorganci, K, Coen, S, McMurty, L, Barnes, K, Magennis, C, Lineshah, L, Clarry, L, Long, T, Wood, A, Chrimes, L, Byrne, A, Stout, L, Stephens, M, Hashmi, F, Barton, L, Elliott, A, Smith, J, Irwin, L, Loi, M, O'Donnell, M, Sales, N, Gray, A, Kimamo, M, Fenton, A, Yousif, M, Alani, O, Hassunu Saleh, M, Takruri, H, Linge, N, Usman, N, Griffiths, M, Alam, M, Xu, O, Willis, A, Blaker, L, Gonen, P, Syme, R, Rafati, P, Abubakar, R, Ji, Y, Sam, R, Robinson, N, O'Chiobi, R, Kutar, M, Al Ben Jasim, S, Fitton, S, Talbot, R, Wilkie, I, Gowda, S, Fletcher, G, Webb, S, Halstead, T, Beech, D, Makarfi, U, Wu, Y, Brettle, A, Ure, C, Sant, A, Moftakhar, Z, Naeem, Z, Clark, A, Brown, T, Preece, S, Prasetyo, A, Benvenuto, C, Mariani, S, Murray, J, Ochoche, G, Lord, J, Bell, R, Shukla, K, Holderbaum, W, Theodoridis, T, Wei, G, Ritchie, M, Asdullah, M, Hazdifar, H, Taylor, T, Parnell, S, Yates, K, and Ireland, TJ

Abstract

Welcome to the Book of Abstracts for the 2022 SPARC conference. Our conference is called “Moving \ud Forwards” reflecting our re-emergence from the pandemic and our desire to reconnect our PGR \ud community, in celebration of their research. PGRs have continued with their research endeavours \ud despite many challenges, and their ongoing successes are underpinned by the support and guidance \ud of dedicated supervisors and the Doctoral School Team. To recognise supervision excellence we will \ud be awarding our annual Supervisor of the Year prizes, based on the wonderful nominations received \ud from their PGR students.\ud Once again, we have received a tremendous contribution from our postgraduate research community; \ud with over 60 presenters, 12 Three-Minute Thesis finalists, and 20 poster presentations, the conference \ud showcases our extraordinarily vibrant, inclusive, and resilient PGR community at Salford. This year \ud there will be prizes to be won for ‘best in conference’ presentations, in addition to the winners from \ud each parallel session. Audience members too could be in for a treat, with judges handing out spot \ud prizes for the best questions asked, so don’t miss the opportunity to put your hand up. \ud These abstracts provide a taster of the diverse and impactful research in progress and provide \ud delegates with a reference point for networking and initiating critical debate. Take advantage of the \ud hybrid format: in online sessions by posting a comment or by messaging an author to say “Hello”, or \ud by initiating break time discussions about the amazing research you’ve seen if you are with us in \ud person. Who knows what might result from your conversation? With such wide-ranging topics being \ud showcased, we encourage you to take up this great opportunity to engage with researchers working \ud in different subject areas from your own. As recent events have shown, researchers need to \ud collaborate to meet global challenges. Interdisciplinary and international working is increasingly \ud recognised and rewarded by all major research funders. We do hope, therefore, that you will take this \ud opportunity to initiate interdisciplinary conversations with other researchers. A question or comment \ud from a different perspective can shed new light on a project and could lead to exciting collaborations, \ud and that is what SPARC is all about. \ud SPARC is part of a programme of personal and professional development opportunities offered to all \ud postgraduate researchers at Salford. More information about this programme is available on our \ud website: Doctoral School | University of Salford. Registered Salford students can access full details on \ud the Doctoral School hub: Doctoral School Hub - Home (sharepoint.com) You can follow us on Twitter \ud @SalfordPGRs and please use the #SPARC2022 to share your conference experience.\ud We particularly welcome taught students from our undergraduate and master’s programmes as \ud audience members. We hope you enjoy the presentations on offer and that they inspire you to pursue \ud your own research career. If you would like more information about studying for a PhD here at the \ud University of Salford, your lecturers can advise, or you can contact the relevant PGR Support Officer; \ud their details can be found at Doctoral School | University of Salford. \ud We wish you a rich and rewarding conference experience.

32. Fungal microbiomes are determined by host phylogeny and exhibit widespread associations with the bacterial microbiome

Author

Harrison, XA, McDevitt, A, Dunn, Jenny, Griffiths, S, Benvenuto, C, Birtles, RJ, Boubli, JP, Bown, K, Bridson, C, Brooks, DR, Browett, SS, Carden, R, Clever, F, Coscia, I, Edwards, KL, Ferry, N, Goodhead, IB, Highlands, A, Hopper, J, Jackson, J, Jehle, R, Kaizer, M, King, T, Lea, J, Lenka, JL, McCubbin, A, McKenzie, J, Moraes, B, O'Meara, D, Pescod, P, Preziosi, RF, Rowntree, JK, Shultz, S, Silk, M, Stockdale, JE, Symondson, WOC, de lan Pena, M, Walker, S, Wood, M, Meade, E, Antwis, RE, Harrison, XA, McDevitt, A, Dunn, Jenny, Griffiths, S, Benvenuto, C, Birtles, RJ, Boubli, JP, Bown, K, Bridson, C, Brooks, DR, Browett, SS, Carden, R, Clever, F, Coscia, I, Edwards, KL, Ferry, N, Goodhead, IB, Highlands, A, Hopper, J, Jackson, J, Jehle, R, Kaizer, M, King, T, Lea, J, Lenka, JL, McCubbin, A, McKenzie, J, Moraes, B, O'Meara, D, Pescod, P, Preziosi, RF, Rowntree, JK, Shultz, S, Silk, M, Stockdale, JE, Symondson, WOC, de lan Pena, M, Walker, S, Wood, M, Meade, E, and Antwis, RE

Abstract

Interactions between hosts and their resident microbial communities are a fundamental component of fitness for both agents. Though recent research has highlighted the importance of interactions between animals and their bacterial communities, comparative evidence for fungi is lacking, especially in natural populations. Using data from 49 species, we present novel evidence of strong covariation between fungal and bacterial communities across the host phylogeny, indicative of recruitment by hosts for specific suites of microbes. Using co-occurrence networks, we demonstrate marked variation across host taxonomy in patterns of covariation between bacterial and fungal abundances. Host phylogeny drives differences in overall richness of bacterial and fungal communities, but the effect of diet on richness was only evident in the mammalian gut microbiome. Sample type, tissue storage and DNA extraction method also affected bacterial and fungal community composition, and future studies would benefit from standardised approaches to sample processing. Collectively these data indicate fungal microbiomes may play a key role in host fitness and suggest an urgent need to study multiple agents of the animal microbiome to accurately determine the strength and ecological significance of host-microbe interactions.

33. Using environmental DNA metabarcoding to monitor fish biodiversity and assess anthropogenic barrier impacts on the river Mersey, UK

Author

Perkins, JC, McDevitt, A, Coscia, I, Benvenuto, C, and Sales, NG

Abstract

Freshwater habitats, despite their limited volume, support almost 10% of global biodiversity and are facing increased anthropogenic threats worldwide. Dams and weirs, for example, create habitat fragmentation, changing water flow and water levels, blocking crucial nutrients passing through river systems, and, above all, preventing crucial movements and migrations of aquatic organisms. Fish passes alleviate the problem, increasing river connectivity, but there is an evident need for a better understanding of their efficiency for fish movements and migration. Monitoring aquatic systems is notoriously difficult and traditional methods such as electrofishing and trapping can be invasive, costly and not always effective. The use of a novel molecular approach, environmental DNA (eDNA) metabarcoding, is now revolutionising biomonitoring. In this thesis, data collected from non-invasive monitoring techniques (camera recordings and eDNA metabarcoding) were combined to monitor Atlantic salmon migration at the Woolston weir fish pass, on the river Mersey, UK. In addition, a fine-scale spatial-temporal sampling approach was employed to investigate changes in fish communities below and above two weirs, from the Mersey estuary to the upper Mersey, in autumn and spring. Atlantic salmon was detected above and below Woolston weir, showing a good degree of connectivity and demonstrating the power of eDNA metabarcoding in detecting even few individuals (as revealed from the camera data). In total, 30 species were detected, including all main UK migratory species except for shad. Temporal variation was found in the detected communities, in line with expectations of different species’ migratory patterns. No correlation was found between barriers and community composition along the river, although lower species richness was detected at sites directly above each weir. Highest species richness was found at sampling sites at the geographical border of the lower and upper estuary, possibly due to tidal and river flow combination, suggesting that these types of environments could be optimal sampling areas to monitor the whole river biodiversity at once. Environmental parameters (pH, oxygen, salinity and temperature) were also integrated in the analyses. For example, the salmonid species showed a positive relationship with oxygen, and are known to require well oxygenated water to spawn. Overall, this work reinforces the potential of eDNA metabarcoding for ongoing and future biomonitoring efforts of fish communities (including migratory species) in a recovering river.

34. Exploring population connectivity and adaptation in two deep sea fishes, Molva molva and Molva dypterygia

Author

McGill, L, McDevitt, A, and Coscia, I

Abstract

The deep sea is typically seen as a stable and constant environment. However, in recent years we are seeing increasing fragility caused by unprecedented human exploitation. Many deep-sea fish species are typically long lived and have specific traits which often limit their resilience to impact and change. Due to the expansion of fisheries, it is important to better understand population structure and connectivity of these deep-sea populations, in order to ensure their sustainable management. \ud In this study, samples of two deep sea species collected across their distribution range were screened: the common ling, Molva molva, and the deeper dwelling blue ling, Molva dypterygia. Using Genotype-By-Sequencing (GBS) and the M. molva reference genome, 6,566 and 3,073 neutral Single Nucleotide Polymorphism (SNPs) were identified, respectively. Results indicate how the two species exhibit a different structure pattern, with the deeper blue ling showing fine scale differentiation within population samples along the Norwegian coast, and the common ling being more homogeneous. By identifying 3 outlier loci in the common ling, and 5 outlier loci in the blue ling, adaptive divergence is explored. No candidate genes could be identified from the common ling data. With data for the blue ling it was possible to link outlier loci with multiple genes and speculate adaptive divergence from this. Genes linked with responses to environmental variables including light and temperature were among those found.\ud Overall, the findings presented in this study attempt at filling a knowledge gap about exploited deep sea fish species, and will hopefully aid the sustainable management of these species.

35. Population Genomics of the Blue Shark, Prionace glauca , Reveals Different Populations in the Mediterranean Sea and the Northeast Atlantic.

Author

Leone A, Arnaud-Haond S, Babbucci M, Bargelloni L, Coscia I, Damalas D, Delord C, Franch R, Garibaldi F, Macias D, Mariani S, Martinsohn J, Megalofonou P, Micarelli P, Nikolic N, Prodöhl PA, Sperone E, Stagioni M, Zanzi A, Cariani A, and Tinti F

Abstract

Populations of marine top predators have been sharply declining during the past decades, and one-third of chondrichthyans are currently threatened with extinction. Sustainable management measures and conservation plans of large pelagic sharks require knowledge on population genetic differentiation and demographic connectivity. Here, we present the case of the Mediterranean blue shark ( Prionace glauca , L. 1758), commonly found as bycatch in longline fisheries and classified by the IUCN as critically endangered. The management of this species suffers from a scarcity of data about population structure and connectivity within the Mediterranean Sea and between this basin and the adjacent Northeast Atlantic. Here, we assessed the genetic diversity and spatial structure of blue shark from different areas of the Mediterranean Sea and the Northeast Atlantic through genome scan analyses. Pairwise genetic differentiation estimates ( F ST ) on 203 specimens genotyped at 14,713 ddRAD-derived SNPs revealed subtle, yet significant, genetic differences within the Mediterranean sampling locations, and between the Mediterranean Sea and the Northeast Atlantic Ocean. Genetic differentiation suggests some degree of demographic independence between the Western and Eastern Mediterranean blue shark populations. Furthermore, results show limited genetic connectivity between the Mediterranean and the Atlantic basins, supporting the hypothesis of two distinct populations of blue shark separated by the Strait of Gibraltar. Although reproductive interactions may be limited, the faint genetic signal of differentiation suggests a recent common history between these units. Therefore, Mediterranean blue sharks may function akin to a metapopulation relying upon local demographic processes and connectivity dynamics, whereby the limited contemporary gene flow replenishment from the Atlantic may interplay with currently poorly regulated commercial catches and large-scale ecosystem changes. Altogether, these results emphasise the need for revising management delineations applied to these critically endangered sharks., Competing Interests: The authors declare no conflicts of interest., (© 2024 The Author(s). Evolutionary Applications published by John Wiley & Sons Ltd.)

Published
2024
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36. Towards vibrant fish populations and sustainable fisheries that benefit all: learning from the last 30 years to inform the next 30 years.

Author

Cooke SJ, Fulton EA, Sauer WHH, Lynch AJ, Link JS, Koning AA, Jena J, Silva LGM, King AJ, Kelly R, Osborne M, Nakamura J, Preece AL, Hagiwara A, Forsberg K, Kellner JB, Coscia I, Helyar S, Barange M, Nyboer E, Williams MJ, Chuenpagdee R, Begg GA, and Gillanders BM

Abstract

A common goal among fisheries science professionals, stakeholders, and rights holders is to ensure the persistence and resilience of vibrant fish populations and sustainable, equitable fisheries in diverse aquatic ecosystems, from small headwater streams to offshore pelagic waters. Achieving this goal requires a complex intersection of science and management, and a recognition of the interconnections among people, place, and fish that govern these tightly coupled socioecological and sociotechnical systems. The World Fisheries Congress (WFC) convenes every four years and provides a unique global forum to debate and discuss threats, issues, and opportunities facing fish populations and fisheries. The 2021 WFC meeting, hosted remotely in Adelaide, Australia, marked the 30th year since the first meeting was held in Athens, Greece, and provided an opportunity to reflect on progress made in the past 30 years and provide guidance for the future. We assembled a diverse team of individuals involved with the Adelaide WFC and reflected on the major challenges that faced fish and fisheries over the past 30 years, discussed progress toward overcoming those challenges, and then used themes that emerged during the Congress to identify issues and opportunities to improve sustainability in the world's fisheries for the next 30 years. Key future needs and opportunities identified include: rethinking fisheries management systems and modelling approaches, modernizing and integrating assessment and information systems, being responsive and flexible in addressing persistent and emerging threats to fish and fisheries, mainstreaming the human dimension of fisheries, rethinking governance, policy and compliance, and achieving equity and inclusion in fisheries. We also identified a number of cross-cutting themes including better understanding the role of fish as nutrition in a hungry world, adapting to climate change, embracing transdisciplinarity, respecting Indigenous knowledge systems, thinking ahead with foresight science, and working together across scales. By reflecting on the past and thinking about the future, we aim to provide guidance for achieving our mutual goal of sustaining vibrant fish populations and sustainable fisheries that benefit all. We hope that this prospective thinking can serve as a guide to (i) assess progress towards achieving this lofty goal and (ii) refine our path with input from new and emerging voices and approaches in fisheries science, management, and stewardship., (© The Author(s), under exclusive licence to Springer Nature Switzerland AG 2023, Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.)

Published
2023
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38. Next-generation phylogeography resolves post-glacial colonization patterns in a widespread carnivore, the red fox (Vulpes vulpes), in Europe.

Author

McDevitt AD, Coscia I, Browett SS, Ruiz-González A, Statham MJ, Ruczyńska I, Roberts L, Stojak J, Frantz AC, Norén K, Ågren EO, Learmount J, Basto M, Fernandes C, Stuart P, Tosh DG, Sindicic M, Andreanszky T, Isomursu M, Panek M, Korolev A, Okhlopkov IM, Saveljev AP, Pokorny B, Flajšman K, Harrison SWR, Lobkov V, Ćirović D, Mullins J, Pertoldi C, Randi E, Sacks BN, Kowalczyk R, and Wójcik JM

Subjects
Animals, Bayes Theorem, Europe, Humans, Phylogeny, Phylogeography, Foxes genetics, Genetic Variation
Abstract

Carnivores tend to exhibit a lack of (or less pronounced) genetic structure at continental scales in both a geographic and temporal sense and this can confound the identification of post-glacial colonization patterns in this group. In this study we used genome-wide data (using genotyping by sequencing [GBS]) to reconstruct the phylogeographic history of a widespread carnivore, the red fox (Vulpes vulpes), by investigating broad-scale patterns of genomic variation, differentiation and admixture amongst contemporary populations in Europe. Using 15,003 single nucleotide polymorphisms (SNPs) from 524 individuals allowed us to identify the importance of refugial regions for the red fox in terms of endemism (e.g., Iberia). In addition, we tested multiple post-glacial recolonization scenarios of previously glaciated regions during the Last Glacial Maximum using an Approximate Bayesian Computation (ABC) approach that were unresolved from previous studies. This allowed us to identify the role of admixture from multiple source population post-Younger Dryas in the case of Scandinavia and ancient land-bridges in the colonization of the British Isles. A natural colonization of Ireland was deemed more likely than an ancient human-mediated introduction as has previously been proposed and potentially points to a larger mammalian community on the island in the early post-glacial period. Using genome-wide data has allowed us to tease apart broad-scale patterns of structure and diversity in a widespread carnivore in Europe that was not evident from using more limited marker sets and provides a foundation for next-generation phylogeographic studies in other non-model species., (© 2021 John Wiley & Sons Ltd.)

Published
2022
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39. Fungal microbiomes are determined by host phylogeny and exhibit widespread associations with the bacterial microbiome.

Author

Harrison XA, McDevitt AD, Dunn JC, Griffiths SM, Benvenuto C, Birtles R, Boubli JP, Bown K, Bridson C, Brooks DR, Browett SS, Carden RF, Chantrey J, Clever F, Coscia I, Edwards KL, Ferry N, Goodhead I, Highlands A, Hopper J, Jackson J, Jehle R, da Cruz Kaizer M, King T, Lea JMD, Lenka JL, McCubbin A, McKenzie J, de Moraes BLC, O'Meara DB, Pescod P, Preziosi RF, Rowntree JK, Shultz S, Silk MJ, Stockdale JE, Symondson WOC, de la Pena MV, Walker SL, Wood MD, and Antwis RE

Subjects
Animals, Bacteria genetics, Host Microbial Interactions, Phylogeny, Microbiota, Mycobiome
Abstract

Interactions between hosts and their resident microbial communities are a fundamental component of fitness for both agents. Though recent research has highlighted the importance of interactions between animals and their bacterial communities, comparative evidence for fungi is lacking, especially in natural populations. Using data from 49 species, we present novel evidence of strong covariation between fungal and bacterial communities across the host phylogeny, indicative of recruitment by hosts for specific suites of microbes. Using co-occurrence networks, we demonstrate marked variation across host taxonomy in patterns of covariation between bacterial and fungal abundances. Host phylogeny drives differences in the overall richness of bacterial and fungal communities, but the effect of diet on richness was only evident in the mammalian gut microbiome. Sample type, tissue storage and DNA extraction method also affected bacterial and fungal community composition, and future studies would benefit from standardized approaches to sample processing. Collectively these data indicate fungal microbiomes may play a key role in host fitness and suggest an urgent need to study multiple agents of the animal microbiome to accurately determine the strength and ecological significance of host-microbe interactions.

Published
2021
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40. Evidence of stock connectivity, hybridization, and misidentification in white anglerfish supports the need of a genetics-informed fisheries management framework.

Author

Aguirre-Sarabia I, Díaz-Arce N, Pereda-Agirre I, Mendibil I, Urtizberea A, Gerritsen HD, Burns F, Holmes I, Landa J, Coscia I, Quincoces I, Santurtún M, Zanzi A, Martinsohn JT, and Rodríguez-Ezpeleta N

Abstract

Understanding population connectivity within a species as well as potential interactions with its close relatives is crucial to define management units and to derive efficient management actions. However, although genetics can reveal mismatches between biological and management units and other relevant but hidden information such as species misidentification or hybridization, the uptake of genetic methods by the fisheries management process is far from having been consolidated. Here, we have assessed the power of genetics to better understand the population connectivity of white ( Lophius piscatorius ) and its interaction with its sister species, the black anglerfish ( Lophius budegassa ). Our analyses, based on thousands of genome-wide single nucleotide polymorphisms, show three findings that are crucial for white anglerfish management. We found (i) that white anglerfish is likely composed of a single panmictic population throughout the Northeast Atlantic, challenging the three-stock based management, (ii) that a fraction of specimens classified as white anglerfish using morphological characteristics are genetically identified as black anglerfish ( L .  budegassa ), and iii) that the two Lophius species naturally hybridize leading to a population of hybrids of up to 20% in certain areas. Our results set the basics for a genetics-informed white anglerfish assessment framework that accounts for stock connectivity, revises and establishes new diagnostic characters for Lophius species identification, and evaluates the effect of hybrids in the current and future assessments of the white anglerfish. Furthermore, our study contributes to provide additional evidence of the potentially negative consequences of ignoring genetic data for assessing fisheries resources., Competing Interests: The authors declare no conflict of interest., (© 2021 The Authors. Evolutionary Applications published by John Wiley & Sons Ltd.)

Published
2021
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41. Space-time dynamics in monitoring neotropical fish communities using eDNA metabarcoding.

Author

Sales NG, Wangensteen OS, Carvalho DC, Deiner K, Præbel K, Coscia I, McDevitt AD, and Mariani S

Subjects
Animals, Biodiversity, Brazil, Fishes genetics, DNA Barcoding, Taxonomic, Environmental Monitoring
Abstract

The biodiverse Neotropical ecoregion remains insufficiently assessed, poorly managed, and threatened by unregulated human activities. Novel, rapid and cost-effective DNA-based approaches are valuable to improve understanding of the biological communities and for biomonitoring in remote areas. Here, we evaluate the potential of environmental DNA (eDNA) metabarcoding for assessing the structure and distribution of fish communities by analysing water and sediment from 11 locations along the Jequitinhonha River catchment (Brazil). Each site was sampled twice, before and after a major rain event in a five-week period and fish diversity was estimated using high-throughput sequencing of 12S rRNA amplicons. In total, 252 Molecular Operational Taxonomic Units (MOTUs) and 34 fish species were recovered, including endemic, introduced, and previously unrecorded species for this basin. Spatio-temporal variation of eDNA from fish assemblages was observed and species richness was nearly twice as high before the major rain event compared to afterwards. Yet, peaks of diversity were primarily associated with only four of the locations. No correlation between β-diversity and longitudinal distance or presence of dams was detected, but low species richness observed at sites located near dams might that these anthropogenic barriers may have an impact on local fish diversity. Unexpectedly high α-diversity levels recorded at the river mouth suggest that these sections should be further evaluated as putative "eDNA reservoirs" for rapid monitoring. By uncovering spatio-temporal changes, unrecorded biodiversity components, and putative anthropogenic impacts on fish assemblages, we further strengthen the potential of eDNA metabarcoding as a biomonitoring tool, especially in regions often neglected or difficult to access., Competing Interests: Declaration of competing interest The authors declare that they have no known personal relationships or competing financial interests that could have influenced the work conducted in this study., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2021
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42. Fine-scale seascape genomics of an exploited marine species, the common cockle Cerastoderma edule , using a multimodelling approach.

Author

Coscia I, Wilmes SB, Ironside JE, Goward-Brown A, O'Dea E, Malham SK, McDevitt AD, and Robins PE

Abstract

Population dynamics of marine species that are sessile as adults are driven by oceanographic dispersal of larvae from spawning to nursery grounds. This is mediated by life-history traits such as the timing and frequency of spawning, larval behaviour and duration, and settlement success. Here, we use 1725 single nucleotide polymorphisms (SNPs) to study the fine-scale spatial genetic structure in the commercially important cockle species Cerastoderma edule and compare it to environmental variables and current-mediated larval dispersal within a modelling framework. Hydrodynamic modelling employing the NEMO Atlantic Margin Model (AMM15) was used to simulate larval transport and estimate connectivity between populations during spawning months (April-September), factoring in larval duration and interannual variability of ocean currents. Results at neutral loci reveal the existence of three separate genetic clusters (mean F ST  = 0.021) within a relatively fine spatial scale in the north-west Atlantic. Environmental association analysis indicates that oceanographic currents and geographic proximity explain over 20% of the variance observed at neutral loci, while genetic variance (71%) at outlier loci was explained by sea surface temperature extremes. These results fill an important knowledge gap in the management of a commercially important and overexploited species, bringing us closer to understanding the role of larval dispersal in connecting populations at a fine geographic scale., Competing Interests: None declared., (© 2020 The Authors. Evolutionary Applications published by John Wiley & Sons Ltd.)

Published
2020
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43. Environmental DNA metabarcoding as an effective and rapid tool for fish monitoring in canals.

Author

McDevitt AD, Sales NG, Browett SS, Sparnenn AO, Mariani S, Wangensteen OS, Coscia I, and Benvenuto C

Subjects
Animals, Biodiversity, DNA genetics, Ecosystem, England, Fishes classification, Fishes genetics, Fresh Water, Temperature, DNA Barcoding, Taxonomic, Environmental Monitoring methods, Fishes physiology
Abstract

We focus on a case study along an English canal comparing environmental DNA (eDNA) metabarcoding with two types of electrofishing techniques (wade-and-reach and boom-boat). In addition to corroborating data obtained by electrofishing, eDNA provided a wider snapshot of fish assemblages. Given the semi-lotic nature of canals, we encourage the use of eDNA as a fast and cost-effective tool to detect and monitor whole fish communities., (© 2019 The Fisheries Society of the British Isles.)

Published
2019
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44. Connectivity and Dispersal Patterns of Protected Biogenic Reefs: Implications for the Conservation of Modiolus modiolus (L.) in the Irish Sea.

Author

Gormley K, Mackenzie C, Robins P, Coscia I, Cassidy A, James J, Hull A, Piertney S, Sanderson W, and Porter J

Subjects
Animals, Ecosystem, Endangered Species, Larva, Microsatellite Repeats genetics, Models, Statistical, Polymorphism, Genetic, Spatial Analysis, Animal Distribution, Conservation of Natural Resources, Coral Reefs, Mytilidae genetics, Oceans and Seas
Abstract

Biogenic reefs created by Modiolus modiolus (Linnaeus, 1758) (horse mussel reefs) are marine habitats which support high levels of species biodiversity and provide valuable ecosystem services. Currently, M. modiolus reefs are listed as a threatened and/or declining species and habitat in all OSPAR regions and thus are highlighted as a conservation priority under the EU Marine Strategy Framework Directive (MSFD). Determining patterns of larval dispersal and genetic connectivity of remaining horse mussel populations can inform management efforts and is a critical component of effective marine spatial planning (MSP). Larval dispersal patterns and genetic structure were determined for several M. modiolus bed populations in the Irish Sea including those in Wales (North Pen Llŷn), Isle of Man (Point of Ayre) and Northern Ireland (Ards Peninsula and Strangford Lough). Simulations of larval dispersal suggested extant connectivity between populations within the Irish Sea. Results from the genetic analysis carried out using newly developed microsatellite DNA markers were consistent with those of the biophysical model. Results indicated moderately significant differentiation between the Northern Ireland populations and those in the Isle of Man and Wales. Simulations of larval dispersal over a 30 day pelagic larval duration (PLD) suggest that connectivity over a spatial scale of 150km is possible between some source and sink populations. However, it appears unlikely that larvae from Northern Ireland will connect directly with sites on the Llŷn or Isle of Man. It also appears unlikely that larvae from the Llŷn connect directly to any of the other sites. Taken together the data establishes a baseline for underpinning management and conservation of these important and threatened marine habitats in the southern part of the known range.

Published
2015
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45. A species-to-be? The genetic status and colonization history of the critically endangered Killarney shad.

Author

Coscia I, McDevitt AD, King JJ, Roche WK, McLoughlin C, and Mariani S

Subjects
Animals, Bayes Theorem, DNA, Mitochondrial genetics, Fishes classification, Genetic Speciation, Genetics, Population, Ireland, Lakes, Microsatellite Repeats, Sequence Analysis, DNA, Endangered Species, Evolution, Molecular, Fishes genetics, Phylogeny
Abstract

Typically anadromous, the twaite shad (Alosa fallax) can become landlocked and adapt to a fully freshwater life. The only landlocked shad population in Northwestern Europe is found in a lake in Ireland, Lough Leane. The Killarney shad, Alosa killarnensis (or Alosa fallax killarnensis, as it is mostly referred to) displays a level of morphological divergence that indicates a long-term isolation in the lake. Microsatellites and mtDNA control region sequences were used within a coalescent framework (BEAST and Approximate Bayesian Computation (ABC)) to investigate its colonization history and to clarify its taxonomic status. Results indicate that the lake was likely colonized in two independent events, the first coinciding with the retreat of the ice sheet from the area after the Last Glacial Maximum and the second after the Younger Dryas. Microsatellite data has shown that these two landlocked lineages have completely admixed within the lake, and have started diverging significantly from their closest ancestor, the twaite shad. We argue that our molecular results (together with the life-history and physiological divergence between Killarney and twaite shad) are conspicuous enough to view the landlocked population as a new species, and one whose future existence would certainly not be insured by its sister taxon., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published
2013
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46. Ancient divergence in the trans-oceanic deep-sea shark Centroscymnus crepidater.

Author

Cunha RL, Coscia I, Madeira C, Mariani S, Stefanni S, and Castilho R

Subjects
Animals, Atlantic Ocean, Bayes Theorem, DNA, Mitochondrial chemistry, Female, Fish Proteins chemistry, Fish Proteins genetics, Gene Flow, Genetic Variation, Indian Ocean, Microsatellite Repeats, Pacific Ocean, Phylogeny, Sharks classification, Genetic Speciation, Sharks genetics
Abstract

Unravelling the genetic structure and phylogeographic patterns of deep-sea sharks is particularly challenging given the inherent difficulty in obtaining samples. The deep-sea shark Centroscymnus crepidater is a medium-sized benthopelagic species that exhibits a circumglobal distribution occurring both in the Atlantic and Indo-Pacific Oceans. Contrary to the wealth of phylogeographic studies focused on coastal sharks, the genetic structure of bathyal species remains largely unexplored. We used a fragment of the mitochondrial DNA control region, and microsatellite data, to examine genetic structure in C. crepidater collected from the Atlantic Ocean, Tasman Sea, and southern Pacific Ocean (Chatham Rise). Two deeply divergent (3.1%) mtDNA clades were recovered, with one clade including both Atlantic and Pacific specimens, and the other composed of Atlantic samples with a single specimen from the Pacific (Chatham Rise). Bayesian analyses estimated this splitting in the Miocene at about 15 million years ago. The ancestral C. crepidater lineage was probably widely distributed in the Atlantic and Indo-Pacific Oceans. The oceanic cooling observed during the Miocene due to an Antarctic glaciation and the Tethys closure caused changes in environmental conditions that presumably restricted gene flow between basins. Fluctuations in food resources in the Southern Ocean might have promoted the dispersal of C. crepidater throughout the northern Atlantic where habitat conditions were more suitable during the Miocene. The significant genetic structure revealed by microsatellite data suggests the existence of present-day barriers to gene flow between the Atlantic and Pacific populations most likely due to the influence of the Agulhas Current retroflection on prey movements.

Published
2012
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