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

Cahill, Abigail; Jode, Aurélien De; Dubois, Sophie; Bouzaza, Zoheir; Aurelle, Didier; Boissin, Émilie; Chabrol, Olivier; David, Romain; Egea, Émilie; Ledoux, J. B.; Mérigot, Bastien; Weber, Alexandra Anh‐Thu; Chenuil, Anne

doi:10.1111/mec.14389

Cited by 26 publications

(30 citation statements)

References 89 publications

(115 reference statements)

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“…Firstly, as discussed earlier, Calpensia shares important morphological traits 425 with Steginoporella and its relatives even though it currently nominally belongs to the 426 phylogenetically more derived, but one-size-fits all family Microporidae (Gray, 1848;Jullien, 427 1888). Secondly, the Myriapora cox1 gene has previously been amplified utilizing barcoding 428 primers (Cahill et al, 2017). We can therefore confirm the placement of Myriapora (BLEED 429 1197) in the main phylogeny ( Fig.…”

Section: Verifying the Placement Of Historical Samples 413supporting

confidence: 52%

Molecular phylogeny of historical micro-invertebrate specimens usingde novosequence assembly

Orr

Sannum

Boessenkool

et al. 2020

Preprint

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25Resolution of relationships at lower taxonomic levels is crucial for answering many 26 evolutionary questions, and as such, sufficiently varied species representation is vital. This 27 latter goal is not always achievable with relatively fresh samples. To alleviate the difficulties 28 in procuring rarer taxa, we have seen increasing utilization of historical specimens in building 29 molecular phylogenies using high throughput sequencing. This effort, however, has mainly 30 focused on large-bodied or well-studied groups, with small-bodied and under-studied taxa 31 under-prioritized. Here, we present a pipeline that utilizes both historical and contemporary 32 specimens, to increase the resolution of phylogenetic relationships among understudied and 33 small-bodied metazoans, namely, cheilostome bryozoans. In this study, we pioneer 34 sequencing of air-dried bryozoans, utilizing a recent library preparation method for low DNA 35 input. We use the de novo mitogenome assembly from the target specimen itself as reference 36 for iterative mapping, and the comparison thereof. In doing so, we present mitochondrial and 37 ribosomal RNA sequences of 43 cheilostomes representing 37 species, including 14 from 38 historical samples ranging from 50 to 149 years old. The inferred phylogenetic relationships 39 of these samples, analyzed together with publicly available sequence data, are shown in a 40 statistically well-supported 65 taxa and 17 genes cheilostome tree. Finally, the 41 methodological success is emphasized by circularizing a total of 27 mitogenomes, seven from 42 historical cheilostome samples. Our study highlights the potential of utilizing DNA from 43 micro-invertebrate specimens stored in natural history collections for resolving phylogenetic 44 relationships between species. 45 46

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Section: Verifying the Placement Of Historical Samples 413supporting

confidence: 52%

Molecular phylogeny of historical micro-invertebrate specimens usingde novosequence assembly

Orr

Sannum

Boessenkool

et al. 2020

Preprint

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“…We cannot conclude whether the significant differences found among sites (within sea) are due to typical spatial effects (the fact not all species could colonize ARMS in distinct sites within a year, due to limited connectivity) or to some purely environmental effects (that is, involving the filter of natural selection) that differed among sites. For the North West Mediterranean region, we have evidence from population genetics data of numerous species that gene flow and dispersal are limited between the sites of the present study, despite their proximity (Cahill et al, 2017;De Jode, 2018). In 20 locations from the same area, a metabarcoding study of established coralligenous communities revealed a strong effect of the location but also strong effects of the physical environment such as depth, or slope, which were varying within locations) on community composition (indeed the same proportion of the variance, respectively 20% and 19%, was explained by location and by depth) (De Jode, 2018).…”

Section: Tablementioning

confidence: 63%

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

David

Uyarra

Carvalho

et al. 2019

Marine Pollution Bulletin

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We investigated the validity of Autonomous Reef Monitoring Structures (ARMS) as monitoring tools for hard bottoms across a wide geographic and environmental range. We deployed 36 ARMS in the northeast Atlantic, northwest Mediterranean, Adriatic and Red Sea at 7-17 m depth. After 12-16 months, community composition was inferred from photographs, in six plate-faces for each ARMS. Overall, we found a highly significant effect of sea region, site (within seas), and plateface on community composition. Plate-faces thus represent distinct micro-habitats and provide pseudo-replicates, increasing statistical power. Within each sea region taken individually , there was also a highly significant effect of site and plate-face. Because strong effects were obtained despite the fusion of taxonomic categories at high taxonomic ranks (to ensure comparability among biogeo-graphic provinces), ARMS photo-analysis appears a promising monitoring tool for each sea region. We recommend keeping three ARMS per site and analyzing more numerous sites within a sea region to investigate environmental effects.

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“…Comparing F ST value in this study (F ST global 0.0464) with those obtained by Cahill et al (2017) using data from several invertebrate species sampled in the same geographic area, the C1 species would correspond to the lecithotroph "larval type" species in terms of dispersal capacities. Both population genomics and cryptic species composition patterns showed a differentiation between the Côte Bleue, and the east part of the Bay of Marseille.…”

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confidence: 69%

“…Amplicons were sequenced, and Miseq Reads were processed as described in Cahill et al (2017) with a few exceptions. For the plastid marker, psbA, sorting was done as in Cahill et al (2017) for mitochondrial loci with slight modifications: sequences were retained if the total number of reads was ≥ 20 (i.e. 20X coverage) and the count ratio ≤ 0.14 (i.e.…”

Section: Miseq Sequencingmentioning

confidence: 99%

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

Jode

David

Haguenauer

et al. 2019

Molecular Phylogenetics and Evolution

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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. Please note that this is an author-produced PDF of an article accepted for publication following peer review. The definitive publisher-authenticated version is available on the publisher Web site.

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

Cited by 26 publications

References 89 publications

Molecular phylogeny of historical micro-invertebrate specimens usingde novosequence assembly

Molecular phylogeny of historical micro-invertebrate specimens usingde novosequence assembly

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

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

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