Population Genetic Structure of the Grasshopper Eyprepocnemis plorans in the South and East of the Iberian Peninsula

Manrique-Poyato, María Inmaculada; López-León, María Dolores; Gómez, R.; Perfectti, Francisco; Camacho, Juan Pedro M.

doi:10.1371/journal.pone.0059041

Cited by 16 publications

(16 citation statements)

References 50 publications

(61 reference statements)

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“…But migratory species are often deemed to have less phylogeographic structure in their distribution range, as strong gene flow effects the homogenization of genetic variation as well as counteracts random drift, selection and mutation [63]–[66]. Higherφwithin populations than among populations suggests higher level of gene flow, in the light of the high dispersal ability reported for C. kiangsu , high levels of gene flow among populations and orderless phylogeographic relationship are perhaps convincing [67]. However, it has been shown that on large spatial scales, the ability of migration may not fully counteract the effect of geographical isolation.…”

Section: Discussionmentioning

confidence: 99%

Population Explosion in the Yellow-Spined Bamboo Locust Ceracris kiangsu and Inferences for the Impact of Human Activity

et al. 2014

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Geographic distance and geographical barriers likely play a considerable role in structuring genetic variation in species, although some migratory species may have less phylogeographic structure on a smaller spatial scale. Here, genetic diversity and the phylogenetic structure among geographical populations of the yellow-spined bamboo locust, Ceracris kiangsu, were examined with 16S rDNA and amplified fragment length polymorphisms (AFLPs). In this study, no conspicuous phylogeographical structure was discovered from either Maximum parsimony (MP) and Neighbor-joining (NJ) phylogenetic analyses. The effect of geographical isolation was not conspicuous on a large spatial scale.At smaller spatial scales local diversity of some populations within mountainous areas were detected using Nei's genetic distance and AMOVA. There is a high level of genetic diversity and a low genetic differentiation among populations in the C. kiangsu of South and Southeast China. Our analyses indicate that C. kiangsu is a monophyletic group. Our results also support the hypothesis that the C. kiangsu population is in a primary differentiation stage. Given the mismatch distribution, it is likely that a population expansion in C. kiangsu occurred about 0.242 Ma during the Quaternary interglaciation. Based on historical reports, we conjecture that human activities had significant impacts on the C. kiangsu gene flow.

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Section: Discussionmentioning

confidence: 99%

Population Explosion in the Yellow-Spined Bamboo Locust Ceracris kiangsu and Inferences for the Impact of Human Activity

et al. 2014

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“…This finding is consistent with a study on grasshopper population genetic structure by Manrique‐Poyato et al . () who found that structure analysis based on data from loci with allelic dropout rates higher than 30% gave very similar results for both ∆K and the assignment of individuals to populations, as a second structure analysis on a reduced data set including only markers with low or no allelic dropout, suggesting that allelic dropout has a negligible effect on this type of analysis.…”

Section: Discussionmentioning

confidence: 89%

Comparison of historical bottleneck effects and genetic consequences of re‐introduction in a critically endangered island passerine

et al. 2013

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Re-introduction is an important tool for recovering endangered species; however, the magnitude of genetic consequences for re-introduced populations remains largely unknown, in particular the relative impacts of historical population bottlenecks compared to those induced by conservation management. We characterize 14 microsatellite loci developed for the Seychelles paradise flycatcher and use them to quantify temporal and spatial measures of genetic variation across a 134-year time frame encompassing a historical bottleneck that reduced the species to ~28 individuals in the 1960s, through the initial stages of recovery and across a second contemporary conservation-introduction-induced bottleneck. We then evaluate the relative impacts of the two bottlenecks, and finally apply our findings to inform broader re-introduction strategy. We find a temporal trend of significant decrease in standard measures of genetic diversity across the historical bottleneck, but only a nonsignificant downward trend in number of alleles across the contemporary bottleneck. However, accounting for the different timescales of the two bottlenecks (~40 historical generations versus <1 contemporary generation), the loss of genetic diversity per generation is greater across the contemporary bottleneck. Historically, the flycatcher population was genetically structured; however, extinction on four of five islands has resulted in a homogeneous contemporary population. We conclude that severe historical bottlenecks can leave a large footprint in terms of sheer quantity of genetic diversity lost. However, severely depleted genetic diversity does not render a species immune to further genetic erosion upon re-introduction. In some cases, the loss of genetic diversity per generation can, initially at least, be greater across re-introduction-induced bottlenecks.

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“…Studies using microsatellites have been mainly focused on their use as polymorphic markers in population genetics, genetic diversity, or kinship contexts (reviewed in Schlötterer and Pemberton 1998;Goldstein and Schlötterer 1999). This is particularly true in insects, where reports based on SSR molecular variation are abundant (Insuan et al 2007;Agustinos et al 2011;Blondin et al 2013;Manrique-Poyato et al 2013). In recent years, microsatellite genomic analysis has been powered by the development of high throughput next generation sequencing (NGS) technologies, based on massive sequencing approaches which enable a rapid, low-cost, and low time-consuming way to characterize microsatellites (Malausa et al 2011;Iquebal et al 2013).…”

Section: Introductionmentioning

confidence: 99%

Next generation sequencing and FISH reveal uneven and nonrandom microsatellite distribution in two grasshopper genomes

et al. 2014

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Simple sequence repeats (SSRs), also known as microsatellites, are one of the prominent DNA sequences shaping the repeated fraction of eukaryotic genomes. In spite of their profuse use as molecular markers for a variety of genetic and evolutionary studies, their genomic location, distribution, and function are not yet well understood. Here we report the first thorough joint analysis of microsatellite motifs at both genomic and chromosomal levels in animal species, by a combination of 454 sequencing and fluorescent in situ hybridization (FISH) techniques performed on two grasshopper species. The in silico analysis of the 454 reads suggested that microsatellite expansion is not driving size increase of these genomes, as SSR abundance was higher in the species showing the smallest genome. However, the two species showed the same uneven and nonrandom location of SSRs, with clear predominance of dinucleotide motifs and association with several types of repetitive elements, mostly histone gene spacers, ribosomal DNA intergenic spacers (IGS), and transposable elements (TEs). The FISH analysis showed a dispersed chromosome distribution of microsatellite motifs in euchromatic regions, in coincidence with chromosome location patterns previously observed for many mobile elements in these species. However, some SSR motifs were clustered, especially those located in the histone gene cluster.

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Population Genetic Structure of the Grasshopper Eyprepocnemis plorans in the South and East of the Iberian Peninsula

Cited by 16 publications

References 50 publications

Population Explosion in the Yellow-Spined Bamboo Locust Ceracris kiangsu and Inferences for the Impact of Human Activity

Population Explosion in the Yellow-Spined Bamboo Locust Ceracris kiangsu and Inferences for the Impact of Human Activity

Comparison of historical bottleneck effects and genetic consequences of re‐introduction in a critically endangered island passerine

Next generation sequencing and FISH reveal uneven and nonrandom microsatellite distribution in two grasshopper genomes

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