Climatic niche comparisons of eastern North American and eastern Asian disjunct plant genera

Melton, Anthony E.; Clinton, Matthew H.; Wasoff, Donald N.; Lu, Limin; Hu, Haihua; Chen, Zhiduan; Ma, Keping; Soltis, Douglas E.; Soltis, Pamela S.; Lenoir, Jonathan

doi:10.1111/geb.13504

Cited by 10 publications

(13 citation statements)

References 72 publications

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“…With better data and methodologies available today, biogeographic studies of individual clades can provide a more accurate picture of their dynamic histories on range expansion and restriction and provide solid baseline data for understanding the origin of disjunctions and the assembly of the Earth's phytogeography. The origin of the floristic disjunction/floristic similarity between eastern Asia and North America has been of interest for the past three decades (e.g., Qian and Ricklefs, 2000; Xiang and Soltis, 2001; Donoghue and Smith, 2004; Ricklefs et al, 2004; Harris et al, 2013; Dong et al, 2019; Melton et al, 2020, 2022; see reviews by Wen, 1999; Wen et al, 2010, 2016). Clearly, detailed biogeographic studies of disjunct clades based on robust, dated, comprehensive phylogenies inferred from genome‐wide data using modern methodology are particularly valuable for evaluating hypotheses derived from previous meta‐analyses or synthesis (e.g., Donoghue and Smith, 2004; Wen et al, 2010) that were based on early methodology.…”

Section: Discussionmentioning

confidence: 99%

An updated phylogeny, biogeography, and PhyloCode‐based classification of Cornaceae based on three sets of genomic data

Xiang

Cheng

et al. 2023

American J of Botany

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Premise A major goal of systematic biology is to uncover the evolutionary history of organisms and translate that knowledge into stable classification systems. Here, we integrate three sets of genome‐wide data to resolve phylogenetic relationships in Cornaceae (containing only Cornus s.l.), reconstruct the biogeographic history of the clade, and provide a revised classification using the PhyloCode to stabilize names for this taxonomically controversial group. Methods We conducted phylogenetic analyses using 312 single‐copy nuclear genes and 70 plastid genes from Angiosperms353 Hyb‐Seq, plus numerous loci from RAD‐Seq. We integrated fossils using morphological data and produced a dated phylogeny for biogeographical analysis. Results A well‐resolved, strongly supported, comprehensive phylogeny was obtained. Biogeographic analyses support an origin and rapid diversification of Cornus into four morphologically distinct major clades in the Northern Hemisphere (with an eastern Asian ancestor) during the late Cretaceous. Dispersal into Africa from eastern Asia likely occurred along the Tethys Seaway during the Paleogene, whereas dispersal into South America likely occurred during the Neogene. Diversification within the northern hemisphere likely involved repeated independent colonization of new areas during the Paleogene and Neogene along the Bering Land Bridge, the North Atlantic Land Bridge, and the Tethys Seaway. Thirteen strongly supported clades were named following rules of the PhyloCode. Conclusions Our study provides an example of integrating genomic and morphological data to produce a robust, explicit species phylogeny that includes fossil taxa, which we translate into an updated classification scheme using the PhyloCode to stabilize names.

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Section: Discussionmentioning

confidence: 99%

An updated phylogeny, biogeography, and PhyloCode‐based classification of Cornaceae based on three sets of genomic data

Xiang

Cheng

et al. 2023

American J of Botany

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“…Such shared disjunctions offer an unparalleled opportunity to reconstruct how geologic history has shaped the assembly of modern plant communities. More broadly, they also represent excellent systems for studying myriad fundamental processes in ecology and evolution, including speciation and diversification (Xiang et al, 2004; Yang et al, 2018), niche evolution (Wasof et al, 2015; Melton et al, 2022), biotic interactions (Quiroga et al, 2020), community assembly (Donoghue and Smith, 2004; Donoghue, 2008; Manos and Meireles, 2015; Dick and Pennington, 2019; Jiang et al, 2019), and evolutionary responses to climate change over both small and larger time scales (Qian and Ricklefs, 2004; Hamilton and Eckert, 2007; Kuhn et al, 2016).…”

Section: Figurementioning

confidence: 99%

Evolutionary origins of the eastern North American–Mesoamerican floristic disjunction: Current status and future prospects

Stull

2023

American J of Botany

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Biogeographic disjunction patterns, where multiple taxa are shared between isolated geographic areas, represent excellent systems for investigating the historical assembly of modern biotas and fundamental biological processes such as speciation, diversification, niche evolution, and evolutionary responses to climate change. Studies on plant genera disjunct across the northern hemisphere, particularly between eastern North America (ENA) and eastern Asia (EAS), have yielded tremendous insight on the geologic history and assembly of rich temperate floras. However, one of the most prevalent disjunction patterns involving ENA forests has been largely overlooked: that of taxa disjunct between ENA and cloud forests of Mesoamerica (MAM), with examples including Acer saccharum, Liquidambar styraciflua, Cercis canadensis, Fagus grandifolia, and Epifagus virginiana. Despite the remarkable nature of this disjunction pattern, which has been recognized for over 75 years, there have been few recent efforts to empirically examine its evolutionary and ecological origins. Here I synthesize previous systematic, paleobotanical, phylogenetic, and phylogeographic studies to establish what is known about this disjunction pattern to provide a roadmap for future research. I argue that this disjunction pattern, and the evolution and fossil record of the Mexican flora more broadly, represents a key missing piece in the broader puzzle of northern hemisphere biogeography. I also suggest that the ENA–MAM disjunction represents an excellent system for examining fundamental questions about how traits and life history strategies mediate plant evolutionary responses to climate change and for predicting how broadleaf temperate forests will respond to the ongoing climatic pressures of the Anthropocene.

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“…Naturalized species from genera exhibiting the Eastern Asia (EA)–Eastern North America (ENA) floristic disjunction provide an ideal system for examining these niche change scenarios and further investigating the potential role of niche changes in biological invasions. EA and ENA are two geographically separated land masses with largely overlapping climate space (Guo et al, 2006; Heberling et al, 2017; Melton et al, 2022), thus facilitating the interpretation of unbiased niche changes. Meanwhile, these two areas have a long history of reciprocal anthropogenic floristic exchanges (Guo et al, 2006; Seipel et al, 2012), and genera that span the EA‐ENA floristic disjunction are an important component in these floristic exchanges (e.g.…”

Section: Introductionmentioning

confidence: 99%

“…First, the native ranges of ENA naturalized species from EA‐ENA disjunct genera are restricted in EA, thus excluding the possibility that niche unfilling is detected due to the naturalized species in ENA having wide home ranges beyond just EA and occupying some climate conditions that are not found in EA and ENA. Second, sister species from EA‐ENA disjunct genera occupy similar niches in their respective native ranges (Melton et al, 2022; Yin et al, 2021). Meanwhile, sister species in these genera also share ancestral functional traits and climatic niches (Qian & Ricklefs, 2004) because they formerly had continuous EA‐ENA distributions across the Bering land bridge until they were separated by the cooling climates in the middle and late Tertiary (Tiffney, 1985; Wen, 1999).…”

Section: Introductionmentioning

confidence: 99%

Niche unfilling dominates the naturalization of species from intercontinentally disjunct genera

Liu,

Heberling,

Wang

et al. 2023

Global Ecol Biogeogr

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AimQuantifying niche shifts of non‐native species and their interactions with natives is vital in evaluating invasion risk yet remains difficult. Climate filtering and competition with native congeners are two important processes impacting niche changes and yielding contradictory predictions for the coexistence of non‐native and native species. Closely related species representing the Eastern Asia (EA)–Eastern North America (ENA) floristic disjunction provide a powerful yet unexplored system for assessing the relative roles of these two processes. Here, we tested three niche change scenarios (unfilling, expansion and stable) using EA species naturalized in ENA. We aim to answer: (1) which scenario is observed for naturalized species? and (2) how has niche overlap between EA and ENA congeners changed after naturalization?LocationENA and EA.Time PeriodPresent.Major Taxa StudiedAngiosperms.MethodsNiches were estimated using both occurrences and predictions generated by ecological niche models. Niche changes of naturalized species and their niche overlap with natives were measured using Schoener's D. Contributions of niche expansion and unfilling on niche changes of naturalized niches were evaluated using hierarchical partitioning and linear regressions. We further measured pairwise phylogenetic distances among EA and ENA congeners and evaluated the association with niche overlap.ResultsUnfilling‐dominated postintroduction niche changes of the naturalized species. EA species naturalized in ENA exhibited lower niche overlap with ENA native congeners compared with native range populations in EA. These results remain when considering time since introduction and potential physical dispersal limitations interpreted by projecting suitable niche space between EA and ENA. However, dispersal limitation may contribute to the degree of niche unfilling.Main ConclusionsUsing intercontinental disjunct species as a study system, we found that naturalization is shaped jointly by climate filtering and competition with native congeners, providing valuable insights for evaluating invasion risk underlying global floristic exchanges.

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Climatic niche comparisons of eastern North American and eastern Asian disjunct plant genera

Cited by 10 publications

References 72 publications

An updated phylogeny, biogeography, and PhyloCode‐based classification of Cornaceae based on three sets of genomic data

An updated phylogeny, biogeography, and PhyloCode‐based classification of Cornaceae based on three sets of genomic data

Evolutionary origins of the eastern North American–Mesoamerican floristic disjunction: Current status and future prospects

Niche unfilling dominates the naturalization of species from intercontinentally disjunct genera

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