Spatial environmental heterogeneity may drive functional trait variation in Hydrocotyle vulgaris (Araliaceae), an invasive aquatic plant

Wan, Ji-Zhong; Wang, Mo‐Zhu; Qin, Tian-Jian; Bu, Xiang-Qi; Liu, Hongli; Yu, Fei‐Hai

doi:10.3354/ab00716

Cited by 8 publications

(2 citation statements)

References 39 publications

(75 reference statements)

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“…The Hydrocotyle genus is the only aquatic or semi-aquatic plant in the Araliaceae family. Hydrocotyle species, including the three species in this study, usually grow in places that are marshy, boggy, and wet, but can even survive under water [57][58][59] . Accelerated nucleotide substitution rates in some species or clades exhibiting distinct environments and growth habitats have been reported [60][61][62] , and associated www.nature.com/scientificreports/ mutation rates among the plastome, mitogenome, and nuclear genome were discussed in previous studies 56,[63][64][65][66] .…”

Section: Accelerated At-biased Mutation In the Plastomes Of The Semi-...mentioning

confidence: 99%

Evolution of the Araliaceae family involved rapid diversification of the Asian Palmate group and Hydrocotyle specific mutational pressure

Kang,

Giang,

Park

et al. 2023

Sci Rep

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The Araliaceae contain many valuable species in medicinal and industrial aspects. We performed intensive phylogenomics using the plastid genome (plastome) and 45S nuclear ribosomal DNA sequences. A total of 66 plastome sequences were used, 13 of which were newly assembled in this study, 12 from new sequences, and one from existing data. While Araliaceae plastomes showed conserved genome structure, phylogenetic reconstructions based on four different plastome datasets revealed phylogenetic discordance within the Asian Palmate group. The divergence time estimation revealed that splits in two Araliaceae subfamilies and the clades exhibiting phylogenetic discordances in the Asian Palmate group occurred at two climatic optima, suggesting that global warming events triggered species divergence, particularly the rapid diversification of the Asian Palmate group during the Middle Miocene. Nucleotide substitution analyses indicated that the Hydrocotyloideae plastomes have undergone accelerated AT-biased mutations (C-to-T transitions) compared with the Aralioideae plastomes, and the acceleration may occur in their mitochondrial and nuclear genomes as well. This implies that members of the genus Hydrocotyle, the only aquatic plants in the Araliaceae, have experienced a distinct evolutionary history from the other species. We also discussed the intercontinental disjunction in the genus Panax and proposed a hypothesis to complement the previously proposed hypothesis. Our results provide the evolutionary trajectory of Araliaceae and advance our current understanding of the evolution of Araliaceae species.

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Section: Accelerated At-biased Mutation In the Plastomes Of The Semi-...mentioning

confidence: 99%

Evolution of the Araliaceae family involved rapid diversification of the Asian Palmate group and Hydrocotyle specific mutational pressure

Kang,

Giang,

Park

et al. 2023

Sci Rep

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“…That is, levels of resources are consistent within the same patch but inconsistent among different patches ( Stuefer and Hutchings, 1994 ; Qian et al., 2014 ). Resource heterogeneity can influence plant growth, intraspecific and interspecific competition, and community structures ( Roiloa et al., 2014 ; Wan et al., 2019 ; Liang et al., 2020 ; Si et al., 2021 ).…”

Section: Introductionmentioning

confidence: 99%

Effects of clonal integration and nutrient availability on the growth of Glechoma longituba under heterogenous light conditions

Zhang,

Chen,

et al. 2023

Front. Plant Sci.

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IntroductionClonal integration of connected ramets within clones is an important ecological advantage. In this study, we tested the hypothesis that the effects of clonal integration on performance of donor and recipient ramets when one resource is heterogeneous can be influenced by the availability of another resource of donor ramets.MethodsWe conducted a greenhouse experiment on the widespread, perennial herb Glechoma longituba. Clonal fragments consisting of pairs of connected ramets were grown for seven weeks. The younger, apical ramets were exposed under 30% or 100% light condition and the older, basal ramets were treated with three levels of nutrients. The connections between ramets were either severed or left intact. 30% light condition negatively affected the growth of apical ramets, basal ramets and the whole fragments. ResultsClonal integration significantly increased the growth of apical ramets, but decreased the growth of the basal ramets. Medium and high level nutrient availability of basal ramets significantly increased the growth of apical ramets, basal ramets and the whole fragments. At the high nutrient level, the reduction in growth of basal ramets from clonal integration was decreased, but the growth responses of apical ramets and the whole fragments to clonal integration were not influenced by nutrient availability. ConclusionThe results suggested that clonal integration was benefit to the growth of apical ramets of Glechoma longituba but at the cost of reducing the growth of basal ramets. Although the high nutrient level could reduce the cost that clonal integration brought to the unshaded basal ramets, but could not increase the benefit that clonal integration brought to the shaded apical ramets and whole fragment.

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Genotypic richness affects inorganic N uptake and N form preference of a clonal plant via altering soil N pools

Zhu,

Gao,

Xue

et al. 2024

Biol Fertil Soils

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Spatial environmental heterogeneity may drive functional trait variation in Hydrocotyle vulgaris (Araliaceae), an invasive aquatic plant

Cited by 8 publications

References 39 publications

Evolution of the Araliaceae family involved rapid diversification of the Asian Palmate group and Hydrocotyle specific mutational pressure

Evolution of the Araliaceae family involved rapid diversification of the Asian Palmate group and Hydrocotyle specific mutational pressure

Effects of clonal integration and nutrient availability on the growth of Glechoma longituba under heterogenous light conditions

Genotypic richness affects inorganic N uptake and N form preference of a clonal plant via altering soil N pools

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