Phylogenomic And Macroevolutionary Evidence For An Explosive
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We then fit macroevolutionary models to explore its spatial and diversification dynamics in Oreocharis and applied explicit birth-death models to investigate the effects of past environmental changes on its diversification. Notes: The best fit models for each birth–death series that explain the phylogeny of the group are displayed in bold. Overall, the model with temperature-dependent speciation and no extinction is the best fitting model (AIC ω = 0.679). Values represent the mean of each parameter as estimated from 100 randomly selected trees of the posterior distribution of the dating analyses.
Phylogenomic and Macroevolutionary Evidence for an Explosive Radiation of a Plant Genus in the Miocene HANGHUI KONG1, FABIEN L. CONDAMINE2, LIHUA YANG1, AJ HARRIS1, CHAO FENG1, FANG WEN3, AND MING KANG1,4 ,∗
相关研究成果以Phylogenomic and Macroevolutionary Evidence for an Explosive Radiation of a Plant Genus in the Miocene为题,发表在国际著名期刊Systematic Biology (IF2020=15.68)上,华南植物园孔航辉博士为论文第一作者,康明研究员为论文通讯作者,法国国家科学中心Fabien Condamine博士,华南 Phylogenomic and Macroevolutionary Evidence for an Explosive Radiation of a Plant Genus in the Miocene HANGHUI KONG1, FABIEN L. CONDAMINE2, LIHUA YANG1, AJ HARRIS1, CHAO FENG1, FANG WEN3, AND MING KANG1,4 ,∗ Phylogenomic and Macroevolutionary Evidence for an Explosive Radiation of a Plant Genus in the Miocene Article Full-text available Aug 2021
华南植物园东亚季风气候驱动山地植物多样性形成机制研究取得进展
Phylogenomic and macroevolutionary evidence for an explosive radiation of a plant genus in the Miocene PubMed journal article: Phylogenomic and Macroevolutionary Evidence for an Explosive Radiation of a Plant Genus in the Miocene. Download Prime PubMed App to iPhone, iPad, or Android FIGURE 2. Phylogeny of Oreocharis with IQ-TREE and ASTRAL. a) A maximum likelihood (ML) phylogeny of Oreocharis from IQ-TREE based on the concatenated dataset with 574 loci and up to 50% missing taxa for each locus. Bootstrap support based on 1,000 ultrafast bootstrap replicates for each node were indicated with colored cycle, where bright red represents UFBS
Major historical events often trigger the rapid flourishing of a few lineages, which in turn shape established biodiversity patterns. How did this process occur and develop? This study provides a window into this issue. The endemic East Asian carps (EEAC) dominated the ichthyofauna of East Asia and exhibited a high degree of adaptation to monsoonal river-lake
Phylogenomic and Macroevolutionary Evidence for an Explosive Radiation of a Plant Genus in the Miocene Article Full-text available Aug 2021 Kong HH, Condamine FL, Yang LH, Harris AJ, Feng C, Wen F, Kang M. (2021) Phylogenomic and macroevolutionary evidence for an explosive radiation of a plant genus in the miocene.
Phylogenomic and Macroevolutionary Evidence for an Explosive Radiation of a Plant Genus in the Miocene Article Full-text available Aug 2021 The species richness pattern was calculated with equal-area square grid cells of 0.5°using Biodiverse (version 2.1) (Laffan et al. 2010). – „Phylogenomic and Macroevolutionary Evidence for an Explosive Radiation of a Plant Genus in the Miocene“
Phylogenomic and macroevolutionary evidence for an explosive radiation of a plant genus in the Miocene. Systematic Biology 71: 589–609. Xu, M.Z. Yang, L.Y., Kong, H.H., Wen, F., Kang, M. 2021. Congruent spatial patterns of species richness and phylogenetic diversity in karst flora: Case study of Primulina (Gesneriaceae). Node labels indicate median age estimates. The species distributed in the HDM are shown in red. At the top of the chronogram, the number of speciation events (PL = phylogenetic lineages) per 2.5 million year time slice is provided. – „Phylogenomic and Macroevolutionary Evidence for an Explosive Radiation of a Plant Genus in the Miocene“
A new combination and a new synonym of Gesneriaceae in China
Phylogenomic and Macroevolutionary Evidence for an Explosive Radiation of a Plant Genus in the Miocene Full-text available Article Aug 2021
This README.txt file was generated on 2021-08-25 by Hanghui Kong GENERAL INFORMATION 1. Title of Dataset: Phylogenomic and macroevolutionary evidence for an explosive radiation of a plant genus in the Miocene 2. Author Information A. Principal Researcher Contact Information Name: Hanghui Kong Institution: South China Botanical Garden, Chinese Academy of
Abstract Mountain systems harbor a substantial fraction of global biodiversity and, thus, provide excellent opportunities to study rapid diversification and to understand the historical processes underlying the assembly of biodiversity hotspots. The rich biodiversity in mountains is widely regarded as having arisen under the influence of geological and climatic processes as well as Phylogenomic and Macroevolutionary Evidence for an Explosive Radiation of a Plant Genus in the Miocene Summary News X The dotted grey line indices the boundary of Yungui Plateau. The yellow arrows indicate the possible dispersal events. Pictured in the right corner is Oreocharis tongtchouanensis occurring in the Hengduan Mountains (©Lihua Yang). – „Phylogenomic and Macroevolutionary Evidence for an Explosive Radiation of a Plant Genus in the Miocene“
Our phylogenomic analyses markedly improved the robustness of early land plant relationships, and strongly supported the monophyly of bryophytes using a large nuclear data set and dense taxon sampling. Abstract. The subtribe Espeletiinae (Asteraceae), endemic to the high-elevations in the Northern Andes, exhibits an exceptional diversity of species, growt
Phylogenomic and macroevolutionary evidence for an explosive radiation of a plant genus in the Miocene. Syst Biol. 71 (3):589–609. doi: 10.1093/sysbio/syab068. 1. Phylogenomic and Macroevolutionary Evidence for an Explosive Radiation of a Plant Genus in the Miocene BioProject Accession: PRJNA649046 ID: 649046 Increasing evidence suggests that geological or climatic events in the past promoted allopatric speciation of alpine plants in the Qinghai-Tibetan Plateau and adjacent region. However, few studies have been undertaken to examine whether such allopatric divergences also occurred within a morphologically uniform species.
Google Scholar Kong et al., 2022 H. Kong, F.L. Condamine, L. Yang, A.J. Harris, C. Feng, F. Wen, M. Kang Phylogenomic and macroevolutionary evidence for an explosive radiation of a plant genus in the Miocene Syst. Biol., 71 (2022), pp. 589 – 609 Crossref View in Scopus Google Scholar Lane et al., 2018 Phylogenomic and Macroevolutionary Evidence for an Explosive Radiation of a Plant Genus in the Miocene Article Full-text available Aug 2021 Phylogenomic and Macroevolutionary Evidence for an Explosive Radiation of a Plant Genus in the Miocene Hanghui Kong and others
Phylogenomic and Macroevolutionary Evidence for an Explosive Radiation of a Plant Genus in the Miocene Article Full-text available Aug 2021 Phylogenomic and Macroevolutionary Evidence for an Explosive Radiation of a Plant Genus in the Miocene Article Full-text available Aug 2021
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