引种和更新世后气候变化塑造的北美西部白橡树的系统地理学

IF 3.4 2区环境科学与生态学 Q2 ECOLOGY Journal of Biogeography Pub Date : 2024-08-16 DOI:10.1111/jbi.14984

Rande Kanne, Geraldine A. Allen

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摘要

AimWe examined range-wide genetic variation in a widespread white oak species in western North America to determine phylogeographic patterns (including possible latitudinal gradients) and investigate their underlying causes.LocationWestern North America.TaxonQuercus garryana (Fagaceae).MethodsWe sampled Q. garryana at 117 locations throughout its range and related species of white oaks in 8 additional populations.我们对四个可变基因间质粒间隔和核糖体 ITS 区域进行了 DNA 测序。我们构建了单倍型网络和系统发生树，绘制了质体单倍型的地理分布图谱，并分析了遗传多样性模式。相比之下，ITS几乎没有或根本没有地理或系统发育差异。Quercus garryana 与相关的白橡树共享几种质粒单倍型，但没有通过 ITS 与这些物种区分开来。Q. garryana 的质体单倍型多样性在其分布区中部最高，向北急剧下降。在其分布区的北部三分之一有两个单倍型出现（每个单倍型组中有一个），在北部分布区的极限只有一个单倍型。主要结论Q. garryana的遗传模式既受更新世后气候变化的影响，与地貌特征相互作用，也受与其他白橡树杂交的影响。该物种含有大量遗传变异，质体单倍型具有很强的空间结构，这表明：（1）南部（内华达山脉）和北部种群的早期分化；（2）全新世期间的向北扩散导致其北部分布区的遗传多样性大大降低。能够随着气候的变化调整其分布范围的物种可能仍然容易受到遗传变异损失的影响，这可能会影响它们在北部分布区边缘的新条件下的生存能力。

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Phylogeography of a western North American white oak shaped by introgression and post-Pleistocene climate change

Aim

We examined range-wide genetic variation in a widespread white oak species in western North America to determine phylogeographic patterns (including possible latitudinal gradients) and investigate their underlying causes.

Location

Western North America.

Taxon

Quercus garryana (Fagaceae).

Methods

We sampled Q. garryana at 117 locations throughout its range and related species of white oaks in 8 additional populations. We sequenced DNA from four variable intergenic plastid spacers and the ribosomal nuclear ITS region. We constructed haplotype networks and phylogenetic trees, mapped the geographical distributions of plastid haplotypes, and analysed genetic diversity patterns.

Results

We identified 25 plastid haplotypes that clustered in two major groups, each showing pronounced genetic variation with latitude. In contrast, ITS showed little or no geographical or phylogenetic variation. Quercus garryana shared several plastid haplotypes with related white oaks and was not differentiated from these species by ITS. Plastid haplotype diversity in Q. garryana was highest in the central part of its range and sharply reduced to the north. Two haplotypes (one from each haplotype group) occurred in the northern third of the range, with only one at the northern range limit. Populations at the southern range limit were characterised by distinct haplotypes.

Main Conclusions

Genetic patterns of Q. garryana have been shaped both by post-Pleistocene climate change, interacting with features of the landscape, and by hybridisation with other white oaks. The species contains substantial genetic variation with strong spatial structuring of plastid haplotypes, indicating (1) early divergence of southern (Sierra Nevada) and northern populations, and (2) northward dispersal during the Holocene resulting in greatly reduced genetic diversity in its northern range. Species that can adjust their ranges with changing climates may remain susceptible to loss of genetic variation, potentially affecting their ability to persist in novel conditions at northern range margins.

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