Genetic variation and population history of three related fir species Abies sachalinensis, A. nephrolepis and A. gracilis (Pinaceae) revealed by nuclear microsatellites

Семериков, В. Л.; Семерикова, С. А.

doi:10.17581/bp.2023.12203

Bot Pac

2023

DOI: 10.17581/bp.2023.12203

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Genetic variation and population history of three related fir species Abies sachalinensis, A. nephrolepis and A. gracilis (Pinaceae) revealed by nuclear microsatellites

В. Л. Семериков¹,

С. А. Семерикова²

Abstract: Seventeen nuclear microsatellite loci (nSSR) were used to study the genetic diversity and historical demography of three Northeast Asian fir species: insular Sakhalin fir Abies sachalinensis (Fr. Schmidt) Mast., continental A. nephrolepis (Trautv.) Maxim. and Kamchatka endemic A. gracilis Kom. Bayesian clustering, performed using the STRUCTURE software separated the considered species from each other and divided A. sachalinensis populations into several groups located from south to north. According to the resu… Show more

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2024

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Changes in Distribution Ranges of Abies Species Dominating in the Forests of Northeast Asia Since the Last Glacial Maximum

Petrenko,

Dzizyurova,

Altman

et al. 2024

Journal of Biogeography

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AimClimate variations within the stadial–interstadial cycles drive shifts in the distribution of forest dominants. This study examines how climate dynamic alters the distribution ranges of two boreal and one cold‐temperate Abies species dominating in Northeast Asia.LocationNortheast Asia: China, Japan, Korea and Russia.TaxonAbies nephrolepis, A. sachalinensis (sect. Balsamea) and A. holophylla (sect. Pseudopicea).MethodsWe developed climate envelope species distribution models (SDMs) using warmth and coldness indices, the continentality index, and proxies of rain and snow precipitation indices. We interpolated SDMs on reconstructed climates for the Last Glacial Maximum (LGM) and the Holocene Climatic Optimum (HCO) and to predicted climates for 2070 under global warming scenarios RCP2.6 and RCP8.5.ResultsDuring the LGM, the climatic optimum for all species covered extensive areas on the shelves of the Japanese and Yellow Seas, facilitated by the global sea level drop. The interglacial climatic optimum supports the expansion of A. nephrolepis and A. sachalinensis compared to the LGM, whereas the range of A. holophylla climatic niche range experiences a reduction.Main ConclusionsOur findings highlight the significant impact of climatic oscillations on the spatial distribution and ecological dynamics of Abies species in Northeast Asia. The contrasting responses of boreal and temperate fir species to glacial and interglacial periods underscore the complex interplay between climate change and the distribution of forest dominants. Projections under future warming scenarios suggest that Abies species will face further range shifts, emphasising the need for adaptive forest management and conservation strategies, especially in the southern part of their distribution.

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Changes in Distribution Ranges of Abies Species Dominating in the Forests of Northeast Asia Since the Last Glacial Maximum

Petrenko,

Dzizyurova,

Altman

et al. 2024

Journal of Biogeography

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show abstract

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Genetic variation and population history of three related fir species Abies sachalinensis, A. nephrolepis and A. gracilis (Pinaceae) revealed by nuclear microsatellites

Cited by 1 publication

References 22 publications

Changes in Distribution Ranges of Abies Species Dominating in the Forests of Northeast Asia Since the Last Glacial Maximum

Changes in Distribution Ranges of Abies Species Dominating in the Forests of Northeast Asia Since the Last Glacial Maximum

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