Genomic evidence of a widespread southern distribution during the Last Glacial Maximum for two eastern North American hickory species

Bemmels, Jordan B.; Dick, Christopher W.

doi:10.1111/jbi.13358

Cited by 20 publications

(32 citation statements)

References 81 publications

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“…This issue was evident in recent phylogeographical work conducted on two species of hickory (Carya spp. ), which are common deciduous trees of eastern North America (Bemmels & Dick, 2018;Bemmels et al, 2019). These works allow a direct comparison of SDMs based on historical climate data with analyses of whole genomes to identify range expansion origins (Bemmels & Dick, 2018;Bemmels et al, 2019 (Delcourt et al, 1980;Jackson et al, 2000;Peterson & Graves, 2016).…”

Section: Middle Latitude Range Expansion Originsmentioning

confidence: 99%

“…), which are common deciduous trees of eastern North America (Bemmels & Dick, 2018;Bemmels et al, 2019). These works allow a direct comparison of SDMs based on historical climate data with analyses of whole genomes to identify range expansion origins (Bemmels & Dick, 2018;Bemmels et al, 2019 (Delcourt et al, 1980;Jackson et al, 2000;Peterson & Graves, 2016). In this case and others, SDMs may lack the resolution to identify such microrefugia as they consider climatic averages over relatively large spatial and temporal scales (Ashcroft, 2010;Dobrowski, 2011;Franklin et al, 2013).…”

Section: Middle Latitude Range Expansion Originsmentioning

confidence: 99%

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Westward range expansion from middle latitudes explains the Mississippi River discontinuity in a forest herb of eastern North America

et al. 2020

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It is often expected that temperate plants have expanded their geographical ranges northward from primarily southern refugia. Evidence for this hypothesis is mixed in eastern North American species, and there is increasing support for colonization from middle latitudes. We studied genome‐wide patterns of variation in RADseq loci to test hypotheses concerning range expansion in a North American forest herb (Campanula americana). First, spatial patterns of genetic differentiation were determined. Then phylogenetic relationships and divergence times were estimated. Spatial signatures of genetic drift were also studied to identify the directionality of recent range expansion and its geographical origins. Finally, spatially explicit scenarios for the spread of plants across the landscape were compared, using variation in the population mutation parameter and Tajima's D. We found strong longitudinal subdivision, with populations clustering into groups west and east of the Mississippi River. While the southeastern region was probably part of a diverse Pleistocene refugium, there is little evidence that range expansion involved founders from these southern locales. Instead, declines in genetic diversity and the loss of rare alleles support a westward colonization wave from a middle latitude refugium near the southern Appalachian Mountains, with subsequent expansion from a Pleistocene staging ground in the Mississippi River Valley (0.51–1.27 million years ago). These analyses implicate stepping stone colonization from middle latitudes as an important mechanism of species range expansion in eastern North America. This study further demonstrates the utility of population genetics as a tool to infer the routes travelled by organisms during geographical range expansion.

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Section: Middle Latitude Range Expansion Originsmentioning

confidence: 99%

Section: Middle Latitude Range Expansion Originsmentioning

confidence: 99%

Westward range expansion from middle latitudes explains the Mississippi River discontinuity in a forest herb of eastern North America

et al. 2020

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“…Indeed, many such species have been found to have undergone dramatic range contractions into southern refugia during glacial periods and rapidly expanded northward as climates warmed following the LGM [23][24][25]57]. This general pattern of northward expansion from lower latitude refugial areas has also been observed in a number of widespread species, whose contemporary distributions span both glaciated and unglaciated North America: e.g., herbs (Asclepias exaltata [58], Campanulastrum americanum [59], Trillium erectum and T. grandiflorum [60,61], and Symplocarpus foetidus [62]); shrubs (Dirca paulustris [63], Viburnum lantanoides [64], Viburnum nudum complex [65], and the Lentago clade of Viburnum [66]); and trees (e.g., Acer rubrum and sacharum [67,68], Carya cordiformis and ovata [69,70], Fagus grandifolia [67,71], and Pinus strobus [72,73]).…”

Section: Phylogeography Of Wild Sunflowermentioning

confidence: 99%

Phylogeography and the Evolutionary History of Sunflower (Helianthus annuus L.): Wild Diversity and the Dynamics of Domestication

Park

Burke

2020

Genes

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Patterns of genetic variation in crops are the result of selection and demographic changes that occurred during their domestication and improvement. In many cases, we have an incomplete picture of the origin of crops in the context of their wild progenitors, particularly with regard to the processes producing observed levels of standing genetic variation. Here, we analyzed sequence diversity in cultivated sunflower (Helianthus annuus L.) and its wild progenitor (common sunflower, also H. annuus) to reconstruct phylogeographic relationships and population genetic/demographic patterns across sunflower. In common sunflower, south-north patterns in the distribution of nucleotide diversity and lineage splitting indicate a history of rapid postglacial range expansion from southern refugia. Cultivated sunflower accessions formed a clade, nested among wild populations from the Great Plains, confirming a single domestication event in central North America. Furthermore, cultivated accessions sorted by market type (i.e., oilseed vs. confectionery) rather than breeding pool, recapitulating the secondary development of oil-rich cultivars during its breeding history. Across sunflower, estimates of nucleotide diversity and effective population sizes suggest that cultivated sunflower underwent significant population bottlenecks following its establishment ~5000 years ago. The patterns inferred here corroborate those from previous studies of sunflower domestication, and provide a comprehensive overview of its evolutionary history.

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“…Distribution ranges of most tree species have expanded and moved from the refugia in the Last Glacial Maximum. Thus, genotypes of individual host tree species have their own geographic structure (e.g., genotypic composition and diversity), called phylogeography (e.g., Magri et al, 2006; Petit et al, 2012; Bemmels and Dick, 2018). Such phylogeographic patterns of host species (e.g., differences in genotypes across site) can also influence the ECM fungal communities, as some evidence show that ECM fungi co-migrate with their hosts (Kennedy et al, 2011; Séne et al, 2018) or they show preference to certain intra-specific genotypes (Gehring et al, 2017; Patterson et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

Biogeographic Patterns of Ectomycorrhizal Fungal Communities Associated With Castanopsis sieboldii Across the Japanese Archipelago

et al. 2019

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Biogeographic patterns in ectomycorrhizal (ECM) fungal communities and their drivers have been elucidated, including effects of host tree species and abiotic (climatic and edaphic) conditions. At these geographic scales, genotypic diversity and composition of single host tree species change with spatial and environmental gradients, reflecting their historical dispersal events. However, whether the host genotypes can be associated with the biogeographic patterns of ECM communities remains unclear. We investigated the biogeographic pattern of ECM fungal community associated with the single host species Castanopsis sieboldii (Fagaceae), whose genotypic diversity and composition across the Japanese archipelago has already been evaluated. ECM communities were investigated in 12 mature Castanopsis-dominated forests covering almost the entire distribution range of C. sieboldii, and we quantified the effect of host genotypes on the biogeographic pattern of ECM fungal communities. Richness and community composition of ECM fungi changed with latitude and longitude; these biogeographic changes of ECM community were significantly correlated with host genotypic variables. Quantitative analyses showed a higher relative explanatory power of climatic and spatial variables than that of host genotypic variables for the biogeographic patterns in the ECM community. Our results suggest historical events of host dispersal can affect the biogeographic patterns of the ECM fungal community, while their explanation power was lower than that for climatic filtering and/or fungal dispersal.

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Genomic evidence of a widespread southern distribution during the Last Glacial Maximum for two eastern North American hickory species

Cited by 20 publications

References 81 publications

Westward range expansion from middle latitudes explains the Mississippi River discontinuity in a forest herb of eastern North America

Westward range expansion from middle latitudes explains the Mississippi River discontinuity in a forest herb of eastern North America

Phylogeography and the Evolutionary History of Sunflower (Helianthus annuus L.): Wild Diversity and the Dynamics of Domestication

Biogeographic Patterns of Ectomycorrhizal Fungal Communities Associated With Castanopsis sieboldii Across the Japanese Archipelago

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