Phylogenomic and ecological analyses reveal the spatiotemporal evolution of global pines

Jin, Wei-Tao; Gernandt, David S.; Wehenkel, Christian; Xia, Xiao-Mei; Wei, Xiao-Xin; Wang, Xiaoquan

doi:10.1073/pnas.2022302118

Cited by 112 publications

(128 citation statements)

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“…We observed that P. koraiensis and P. sibirica maintain relatively close genetic relationship compared with P. pumila . Similar results were reported in previous study of spatiotemporal evolution of global pines ( Jin et al, 2021 ). Furthermore, in subgroup II, P. pumila and P. parviflora were divided into the same group of five-needle pines, which may correspond to the traits of short needles among them.…”

Section: Discussionsupporting

confidence: 92%

Morphological and Comparative Transcriptome Analysis of Three Species of Five-Needle Pines: Insights Into Phenotypic Evolution and Phylogeny

Cai

Zhao

et al. 2022

Front. Plant Sci.

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Pinus koraiensis, Pinus sibirica, and Pinus pumila are the major five-needle pines in northeast China, with substantial economic and ecological values. The phenotypic variation, environmental adaptability and evolutionary relationships of these three five-needle pines remain largely undecided. It is therefore important to study their genetic differentiation and evolutionary history. To obtain more genetic information, the needle transcriptomes of the three five-needle pines were sequenced and assembled. To explore the relationship of sequence information and adaptation to a high mountain environment, data on needle morphological traits [needle length (NL), needle width (NW), needle thickness (NT), and fascicle width (FW)] and 19 climatic variables describing the patterns and intensity of temperature and precipitation at six natural populations were recorded. Geographic coordinates of altitude, latitude, and longitude were also obtained. The needle morphological data was combined with transcriptome information, location, and climate data, for a comparative analysis of the three five-needle pines. We found significant differences for needle traits among the populations of the three five-needle pine species. Transcriptome analysis showed that the phenotypic variation and environmental adaptation of the needles of P. koraiensis, P. sibirica, and P. pumila were related to photosynthesis, respiration, and metabolites. Analysis of orthologs from 11 Pinus species indicated a closer genetic relationship between P. koraiensis and P. sibirica compared to P. pumila. Our study lays a foundation for genetic improvement of these five-needle pines and provides insights into the adaptation and evolution of Pinus species.

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Section: Discussionsupporting

confidence: 92%

Morphological and Comparative Transcriptome Analysis of Three Species of Five-Needle Pines: Insights Into Phenotypic Evolution and Phylogeny

Cai

Zhao

et al. 2022

Front. Plant Sci.

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“…Notably, the transcriptome-based phylogeny also shows a very high resolution of interspecific relationships, indicating that phylotranscriptomics is an economical and highly efficient approach for tree of life reconstruction at the species level, even for plant groups with recent evolutionary radiations like Rhododendron or with long generation times and slow molecular evolutionary rates like pines ( Jin et al 2021 ). It is generally recognized that transcriptome sequencing (RNA-seq) needs fresh samples, but actually silica-gel dried plant materials are also suitable for phylotranscriptomic studies according to our experience, because phylotranscriptomics uses OGs generated from RNA-seq and does not compare gene expression levels.…”

Section: Discussionmentioning

confidence: 99%

Spatiotemporal Evolution of the Global Species Diversity of Rhododendron

Xia

Yang

et al. 2021

Molecular Biology and Evolution

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Evolutionary radiation is a widely recognized mode of species diversification, but its underlying mechanisms have not been unambiguously resolved for species-rich cosmopolitan plant genera. In particular, it remains largely unknown how biological and environmental factors have jointly driven its occurrence in specific regions. Here, we use Rhododendron, the largest genus of woody plants in the Northern Hemisphere, to investigate how geographic and climatic factors, as well as functional traits, worked together to trigger plant evolutionary radiations and shape the global patterns of species richness based on a solid species phylogeny. Using 3,437 orthologous nuclear genes, we reconstructed the first highly supported and dated backbone phylogeny of Rhododendron comprising 200 species that represent all subgenera, sections, and nearly all multispecies subsections, and found that most extant species originated by evolutionary radiations when the genus migrated southward from circumboreal areas to tropical/subtropical mountains, showing rapid increases of both net diversification rate and evolutionary rate of environmental factors in the Miocene. We also found that the geographically uneven diversification of Rhododendron led to a much higher diversity in Asia than in other continents, which was mainly driven by two environmental variables, that is, elevation range and annual precipitation, and were further strengthened by the adaptation of leaf functional traits. Our study provides a good example of integrating phylogenomic and ecological analyses in deciphering the mechanisms of plant evolutionary radiations, and sheds new light on how the intensification of the Asian monsoon has driven evolutionary radiations in large plant genera of the Himalaya-Hengduan Mountains.

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“…Phenological traits have been linked to seasonal variation within species of North America (Jump and Penuelas 2005), and differences in seasonality requirements for P. pungens and P. rigida likely explain the observed phenological trait differences in seed size, reproductive age, timing of pollen release, and rates of seedling establishment across these two species (Zobel 1969; Della- Bianca 1990; Ledig et al 2015). Using niche and trait data, the phylogenetic inference of Jin et al (2021) identified precipitation seasonality (Bio15) and elevation as drivers of diversification in eastern North American pines. The results of our RDA corroborate these conclusions, as clear separation of species-level genetic differences was explained by Bio15 and elevation along axis 1 (Fig.…”

Section: Discussionmentioning

confidence: 99%

Divergence amid recurring gene flow: complex demographic histories for two North American pines (Pinus pungens and P. rigida) fit growing expectations among forest trees

Bolte

Faske

Friedline

et al. 2022

Preprint

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Long-lived species of trees, especially conifers, often display weak patterns of reproductive isolation, but clear patterns of local adaptation and phenotypic divergence. Discovering the evolutionary history of these patterns is paramount to a generalized understanding of speciation for long-lived plants. We focus on two closely related yet phenotypically divergent pine species, Pinus pungens and P. rigida, that co-exist along high elevation ridgelines of the southern Appalachian Mountains. Based on genome-wide RADseq data, patterns of population structure for each species were uncorrelated to geography and the environment. Signals of admixture, however, were present range-wide. When combined with information from contemporary and historical species distribution models, these patterns are consistent with a complex evolutionary history of speciation. This was confirmed using inferences based on the multidimensional site-frequency spectrum, where demographic modeling inferred recurring gene flow since divergence (9.3 – 15.4 million years ago) and population size reductions that align in timing with the last interglacial period (~120 – 140 thousand years ago). This suggests that phenotypic and genomic divergence, including the evolution of divergent phenological schedules leading to partial reproductive isolation, as previously documented for these two species, can happen rapidly, even between long-lived species of pines.

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Phylogenomic and ecological analyses reveal the spatiotemporal evolution of global pines

Cited by 112 publications

References 94 publications

Morphological and Comparative Transcriptome Analysis of Three Species of Five-Needle Pines: Insights Into Phenotypic Evolution and Phylogeny

Morphological and Comparative Transcriptome Analysis of Three Species of Five-Needle Pines: Insights Into Phenotypic Evolution and Phylogeny

Spatiotemporal Evolution of the Global Species Diversity of Rhododendron

Divergence amid recurring gene flow: complex demographic histories for two North American pines (Pinus pungens and P. rigida) fit growing expectations among forest trees

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