Post‐glacial distribution of a Mongolian mayfly inferred from population genetic analysis

Sekiné, Kazuki; Bayartogtokh, Badamdorj; Bae, Yeon Jae

doi:10.1111/fwb.12853

Cited by 3 publications

(2 citation statements)

References 59 publications

(101 reference statements)

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“…Like all mitochondrial DNA, these genes have high copy numbers and, crucially, rapid evolutionary rates (Gyllensten et al 1991, Rollins et al 2011). As such, they are highly suitable for studying intraspecies genetic differences and have been used widely to study geographic populations of insects (Salvato et al 2002, Meng et al 2008, Seabra et al 2015, Sekiné et al 2017, Wu and Yan 2018). Studying genetic variation between pest populations cannot only provide information about the population structure of the species in different geographical regions, but also infer the demographic history of pests (Assefa et al 2006, 2015, 2017).…”

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confidence: 99%

Study on the Genetic Differentiation of Geographic Populations of Calliptamus italicus (Orthoptera: Acrididae) in Sino-Kazakh Border Areas Based on Mitochondrial COI and COII Genes

Mai

et al. 2019

Journal of Economic Entomology

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Calliptamus italicus L. is an important pest on the desert and semidesert steppes along the Sino-Kazakh border. To elucidate the molecular mechanism of its continuous outbreaks, we studied 11 different geographic populations of C. italicus to determine: 1) the complete sequences of the entire mitochondrial cytochrome oxidase subunit I (COI) and mitochondrial cytochrome oxidase subunit II (COII) genes, and 2) performed genetic diversity, differentiation, gene flow, and molecular variation analyses. Of the 11 populations, the Yining County (YNX) population had the highest haplotype diversity and Pi values. There are significant differences in Tajima’s D and Fu’s Fs (P < 0.05). The fixation index Fst values of the total C. italicus population were 0.03352, and its gene flow Nm values of the total C. italicus population were 15.32. Taken together, there were five main findings: 1) the current genetic differentiation of C. italicus arose within populations; 2) genetic exchange levels were high between geographical populations; 3) genetic variation level was low; 4) C. italicus populations likely expanded in recently, and 5) there was no significant correlation between genetic distance and geographic distance for any geographic population. Findings from this study indicate that frequent gene exchange between populations may enhance the adaptability of C. italicus along the Sino-Kazakh border, leading to frequent outbreaks.

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Study on the Genetic Differentiation of Geographic Populations of Calliptamus italicus (Orthoptera: Acrididae) in Sino-Kazakh Border Areas Based on Mitochondrial COI and COII Genes

Mai

et al. 2019

Journal of Economic Entomology

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“…Another hypothesis is that the demographic histories of dung beetles in Mongolia were influenced more by late Quaternary climate change than by domestication events. Several previous studies have reported the influence of the late Quaternary climate oscillation, usually the last glacial maximum, on the population demography of species in Mongolia 35 , 36 .…”

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confidence: 99%

Climate change will lead to range shifts and genetic diversity losses of dung beetles in the Gobi Desert and Mongolian Steppe

Lim,

Kang,

Bayartogtokh

et al. 2024

Sci Rep

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Desertification is known to be a major threat to biodiversity, yet our understanding of the consequent decline in biodiversity remains insufficient. Here, we predicted climate change-induced range shifts and genetic diversity losses in three model dung beetles: Colobopterus erraticus, Cheironitis eumenes, and Gymnopleurus mopsus, distributed across the Gobi Desert and Mongolian Steppe, areas known for desertification. Phylogeographic analyses of mitochondrial COI sequences and species distribution modeling, based on extensive field investigations spanning 14 years, were performed. Species confined to a single biome were predicted to contract and shift their distribution in response to climate change, whereas widespread species was predicted to expand even if affected by range shifts. We indicated that all species are expected to experience significant haplotype losses, yet the presence of high singleton frequencies and low genetic divergence across geographic configurations and lineages mitigate loss of genetic diversity. Notably, Cheironitis eumenes, a desert species with low genetic diversity, appears to be the most vulnerable to climate change due to the extensive degradation in the Gobi Desert. This is the first study to predict the response of insects to desertification in the Gobi Desert. Our findings highlight that dung beetles in the Gobi Desert and Mongolian Steppe might experience high rates of occupancy turnover and genetic loss, which could reshuffle the species composition.

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Distribution, body size, genetic structure and conservation ofSiphlaenigma janae(Insecta: Ephemeroptera)

Pohe

Winterbourn

Goldstien

et al. 2017

New Zealand Journal of Zoology

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Post‐glacial distribution of a Mongolian mayfly inferred from population genetic analysis

Cited by 3 publications

References 59 publications

Study on the Genetic Differentiation of Geographic Populations of Calliptamus italicus (Orthoptera: Acrididae) in Sino-Kazakh Border Areas Based on Mitochondrial COI and COII Genes

Study on the Genetic Differentiation of Geographic Populations of Calliptamus italicus (Orthoptera: Acrididae) in Sino-Kazakh Border Areas Based on Mitochondrial COI and COII Genes

Climate change will lead to range shifts and genetic diversity losses of dung beetles in the Gobi Desert and Mongolian Steppe

Distribution, body size, genetic structure and conservation ofSiphlaenigma janae(Insecta: Ephemeroptera)

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