Baofeng Wu scite author profile

Baofeng Wu

2Publications

18Citation Statements Received

183Citation Statements Given

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Chinese Research Academy of Environmental Sciences

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Scale-dependent effects of habitat fragmentation on the genetic diversity of Actinidia chinensis populations in China

Wang

et al. 2020

Hortic Res

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Spatial scale partly explains the differentiated effects of habitat fragmentation on plant biodiversity, but the mechanisms remain unclear. To investigate the effects of habitat fragmentation on genetic diversity at different scales, we sampled Actinidia chinensis Planch. at broad and fine scales, China. The broad-scale sampling included five mountain populations and one oceanic island population (Zhoushan Archipelago), and the fine-scale sampling covered 11 lake islands and three neighboring land populations in Thousand-Island Lake (TIL). These populations were genotyped at 30 microsatellite loci, and genetic diversity, gene flow, and genetic differentiation were evaluated. Genetic differentiation was positively related to geographical distance at the broad scale, indicating an isolation-by-distance effect of habitat fragmentation on genetic diversity. The oceanic population differed from the mainland populations and experienced recent bottleneck events, but it showed high gene flow with low genetic differentiation from a mountain population connected by the Yangtze River. At the fine scale, no negative genetic effects of habitat fragmentation were found because seed dispersal with water facilitates gene flow between islands. The population size of A. chinensis was positively correlated with the area of TIL islands, supporting island biogeography theory, but no correlation was found between genetic diversity and island area. Our results highlight the scale-dependent effects of habitat fragmentation on genetic diversity and the importance of connectivity between island-like isolated habitats at both the broad and fine scales.

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Patterns of genomic divergence in sympatric and allopatric speciation of three Mihoutao (Actinidia) species

Liu¹,

et al. 2022

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Isolation by geographic distance involves in the formation of potential genomic islands and the divergence of genomes, which often result in speciation. The mechanisms of sympatric and allopatric speciation associated with geographic distance remain a topic of interest to evolutionary biologists. Here we examined genomic divergence in three Actinidia species from large-scale sympatric and allopatric regions. Genome sequence data revealed that hexaploid A. deliciosa originated from A. chinensis, and supported the speciation-with-gene-flow model in sympatric regions. The common ancestor of A. setosa and A. deliciosa migrated from the mainland to the Taiwan Island ~2.91 Mya and formed A. setosa ~ 0.92 Mya, and the speciation of A. setosa is consistent with the divergence-after-speciation model with selective sweeps. Geographic isolation resulted in population contraction and accelerated the process of lineage sorting and speciation due to natural selection. Genomic islands contained genes associated with organ development, local adaptation, and stress resistance, indicating selective sweeps on a specific set of traits. Our results highlight the patterns of genomic divergence in sympatric and allopatric speciation, with the mediation of geographic isolation in the formation of genomic islands during Actinidia speciation.

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Baofeng Wu

Scale-dependent effects of habitat fragmentation on the genetic diversity of Actinidia chinensis populations in China

Patterns of genomic divergence in sympatric and allopatric speciation of three Mihoutao (Actinidia) species

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