Valentina Neglia scite author profile

Aim To understand the origin of the most isolated endemic fish fauna of the Indo‐Pacific, Easter Island (Rapa Nui), and to infer divergence times and colonization routes of the endemic coral reef fish fauna from their closest relatives. Location Easter Island, Pacific Ocean. Methods Samples of ten species were used: six small‐range species endemic to Rapa Nui and Motu Motiro Hiva (Salas y Gómez) (i.e. small‐range endemic species) and four large‐range species endemic to the southern subtropical Pacific (i.e. large‐range endemic species). We present phylogenetic reconstruction results based on mitochondrial (1 to 5) and nuclear (1 to 6) loci to place these endemic species in their respective family phylogenies (8). Using these newly calibrated phylogenetic trees, information of species distributions and geological data, we inferred the divergence times from the closest relatives of these ten endemic fishes, compared biogeographical history estimation models to reconstruct their ancestral geographic ranges, colonization routes and underlying mechanisms of speciation. Results The divergence times (i.e. divergence times from the closest relatives) of all of the small‐range endemics studied were more recent than the age of Rapa Nui and Motu Motiro Hiva; thus, these species can be considered as neoendemics. Biogeographical history estimation models indicated that speciation following a founder‐event is the most likely scenario. In contrast, the divergence estimates of the large‐range endemic species were highly variable. This being said, the divergence times of all species were more recent than the age of the oldest islands within their distributions. Main conclusions Taken together, these results demonstrate that Rapa Nui acts as a cradle of coral reef biodiversity, being responsible for the emergence of small‐range endemic fish species, but also a route of dispersion for several large‐range endemics and as a stepping stone in the diversification of the Myripristis and Pseudolabrus genera. While no common divergence time was recovered for all of the ten endemic species studied here, the common mechanism of speciation following a founder event was recovered for most of the small‐range endemic species.

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Blacktip reef sharks, Carcharhinus melanopterus, have high genetic structure and varying demographic histories in their Indo‐Pacific range

Vignaud

Mourier

Maynard

et al. 2014

Molecular Ecology

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For free-swimming marine species like sharks, only population genetics and demographic history analyses can be used to assess population health/status as baseline population numbers are usually unknown. We investigated the population genetics of blacktip reef sharks, Carcharhinus melanopterus; one of the most abundant reef-associated sharks and the apex predator of many shallow water reefs of the Indian and Pacific Oceans. Our sampling includes 4 widely separated locations in the Indo-Pacific and 11 islands in French Polynesia with different levels of coastal development. Four-teen microsatellite loci were analysed for samples from all locations and two mitochondrial DNA fragments, the control region and cytochrome b, were examined for 10 locations. For microsatellites, genetic diversity is higher for the locations in the large open systems of the Red Sea and Australia than for the fragmented habitat of the smaller islands of French Polynesia. Strong significant structure was found for distant locations with FST values as high as ~0.3, and a smaller but still significant structure is found within French Polynesia. Both mitochondrial genes show only a few mutations across the sequences with a dominant shared haplotype in French Polynesia and New Caledonia suggesting a common lineage different to that of East Australia. Demographic history analyses indicate population expansions in the Red Sea and Australia that may coincide with sea level changes after climatic events. Expansions and flat signals are indicated for French Polynesia as well as a significant recent bottleneck for Moorea, the most human-impacted lagoon of the locations in French Polynesia.

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Contemporary genetic structure and postglacial demographic history of the black scorpionfish, Scorpaena porcus, in the Mediterranean and the Black Seas

et al. 2016

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Understanding the distribution of genetic diversity in the light of past demographic events linked with climatic shifts will help to forecast evolutionary trajectories of ecosystems within the current context of climate change. In this study, mitochondrial sequences and microsatellite loci were analysed using traditional population genetic approaches together with Bayesian dating and the more recent approximate Bayesian computation scenario testing. The genetic structure and demographic history of a commercial fish, the black scorpionfish, Scorpaena porcus, was investigated throughout the Mediterranean and Black Seas. The results suggest that the species recently underwent population expansions, in both seas, likely concomitant with the warming period following the Last Glacial Maximum, 20 000 years ago. A weak contemporaneous genetic differentiation was identified between the Black Sea and the Mediterranean Sea. However, the genetic diversity was similar for populations of the two seas, suggesting a high number of colonizers entered the Black Sea during the interglacial period and/or the presence of a refugial population in the Black Sea during the glacial period. Finally, within seas, an east/west genetic differentiation in the Adriatic seems to prevail, whereas the Black Sea does not show any structured spatial genetic pattern of its population. Overall, these results suggest that the Black Sea is not that isolated from the Mediterranean, and both seas revealed similar evolutionary patterns related to climate change and changes in sea level.

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