Global gene flow releases invasive plants from environmental constraints on genetic diversity

Smith, Annabel L.; Hodkinson, Trevor R.; Villellas, Jesús; Catford, Jane A.; Csergő, Anna Mária; Blomberg, Simon P.; Crone, Elizabeth E.; Ehrlén, Johan; Garcia, María Begoña; Laine, Anna Liisa; Roach, Deborah A.; Salguero‐Gómez, Roberto; Wardle, Glenda M.; Childs, Dylan Z.; Elderd, Bret D.; Finn, Alain; Munné‐Bosch, Sergi; Baudraz, Maude E.A.; Bódis, Judit; Brearley, Francis Q.; Bucharová, Anna; Caruso, Christina M.; Duncan, Richard P.; Dwyer, John M.; Gooden, Ben; Groenteman, Ronny; Hamre, Liv Norunn; Helm, Aveliina; Kelly, Ruth; Laanisto, Lauri; Lonati, Michele; Moore, Joslin L.; Morales, Manuel Poblano; Olsen, Siri Lie; Pärtel, Meelis; Petry, William K.; Ramula, Satu; Rasmussen, Pil U.; Enri, Simone Ravetto; Roeder, Anna; Roscher, Christiane; Saastamoinen, Marjo; Tack, Ayco J. M.; Töpper, Joachim; Vose, Gregory E.; Wandrag, Elizabeth M.; Wingler, Astrid; Buckley, Yvonne M.

doi:10.1073/pnas.1915848117

Cited by 119 publications

(132 citation statements)

References 80 publications

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“…and can contribute to a lack of clear genetic structure (Cristescu, 2015;Smith et al, 2020), as was evident in both ranges. Admixture between previously isolated populations can have an important influence on the invasion success of a species (Dlugosch et al, 2015).…”

Section: Discussionmentioning

confidence: 96%

“…While our ABC modelling approach did not clearly support a specific introduction scenario for Chile and Madagascar, our Bayesian assignment analyses suggest that these populations exhibit patterns consistent with admixture between different sources following multiple introductions. Such a geographic reshuffling of genetic diversity is generally considered as being beneficial for maintaining high diversity levels and can contribute to a lack of clear genetic structure (Cristescu, 2015; Smith et al., 2020), as was evident in both ranges. Admixture between previously isolated populations can have an important influence on the invasion success of a species (Dlugosch et al., 2015).…”

Section: Discussionmentioning

confidence: 99%

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Genetic analyses reveal complex introduction histories for the invasive tree Acacia dealbata Link around the world

Hirsch

Richardson

Pauchard

et al. 2020

Diversity and Distributions

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Section: Discussionmentioning

confidence: 96%

Section: Discussionmentioning

confidence: 99%

Genetic analyses reveal complex introduction histories for the invasive tree Acacia dealbata Link around the world

Hirsch

Richardson

Pauchard

et al. 2020

Diversity and Distributions

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“…The recursion equations of MetaPopGen 2.0 are based on the frequency‐based approach of MetaPopGen , which greatly reduces computation time and memory needs to simulate populations with large numbers of individuals. This advantage has made MetaPopGen an useful tool to explore the processes shaping the genetic structure of species with abundant populations, such as marine fish and invertebrates (Handal et al., 2020; Marandel et al., 2018) and terrestrial plants (Smith et al., 2020). Memory needs and computation time increase with the number of loci simulated, because the numbers of possible unique gametes and genotypes increase geometrically with the number of loci and alleles per locus (Box 2), and increasing the number of classes entails a parallel increase in computation time.…”

Section: Discussionmentioning

confidence: 99%

MetaPopGen 2.0: A multilocus genetic simulator to model populations of large size

Andrello

Noirot

Débarre

et al. 2020

Molecular Ecology Resources

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Multilocus genetic processes in subdivided populations can be complex and difficult to interpret using theoretical population genetics models. Genetic simulators offer a valid alternative to study multilocus genetic processes in arbitrarily complex scenarios. However, the use of forward‐in‐time simulators in realistic scenarios involving high numbers of individuals distributed in multiple local populations is limited by computation time and memory requirements. These limitations increase with the number of simulated individuals. We developed a genetic simulator, MetaPopGen 2.0, to model multilocus population genetic processes in subdivided populations of arbitrarily large size. It allows for spatial and temporal variation in demographic parameters, age structure, adult and propagule dispersal, variable mutation rates and selection on survival and fecundity. We developed MetaPopGen 2.0 in the R environment to facilitate its use by non‐modeler ecologists and evolutionary biologists. We illustrate the capabilities of MetaPopGen 2.0 for studying adaptation to water salinity in the striped red mullet Mullus surmuletus.

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“…However, as has been shown in some recent studies (e.g. Smith et al 2020), genetic structure amongst introduced plant populations is often weaker than amongst native populations due to multiple introductions (whereby propagules are sourced from multiple sites across the native range), resulting in subsequent genetic admixture and expression of novel genotypes. Such novel genotype expression in introduced S. oleraceus populations might have resulted in the observed divergence in phenotypic responses to novel climate.…”

Section: Divergence In Growth and Resource Acquisition Traits Betweenmentioning

confidence: 91%

Trait differentiation between native and introduced populations of the invasive plant Sonchus oleraceus L. (Asteraceae)

Ollivier¹,

Kazakou²,

Corbin³

et al. 2020

Self Cite

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There is growing evidence that rapid adaptation to novel environments drives successful establishment and spread of invasive plant species. However, the mechanisms driving trait adaptation, such as selection pressure from novel climate niche envelopes, remain poorly tested at global scales. In this study, we investigated differences in 20 traits (relating to growth, resource acquisition, reproduction, phenology and defence) amongst 14 populations of the herbaceous plant Sonchus oleraceus L. (Asteraceae) across its native (Europe and North Africa) and introduced (Australia and New Zealand) ranges. We compared traits amongst populations grown under standard glasshouse conditions. Introduced S. oleraceus plants seemed to outperform native plants, i.e. possessing higher leaf and stem dry matter content, greater number of leaves and were taller at first flowering stage. Although introduced plants produced fewer seeds, they had a higher germination rate than native plants. We found strong evidence for adaptation along temperature and precipitation gradients for several traits (e.g. shoot height, biomass, leaf and stem dry matter contents increased with minimum temperatures, while germination rate decreased with annual precipitations and temperatures), which suggests that similar selective forces shape populations in both the native and invaded ranges. We detected significant shifts in the relationships (i.e. trade-offs) (i) between plant height and flowering time and (ii) between leaf-stem biomass and grain yield between native and introduced plants, indicating that invasion was associated with changes to life-history dynamics that may confer competitive advantages over native vegetation. Specifically, we found that, at first flowering, introduced plants tended to be taller than native ones and that investment in leaf and stem biomass was greater in introduced than in native plants for equivalent levels of grain yield. Our study has demonstrated that climatic conditions may drive rapid adaption to novel environments in invasive plant species.

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Global gene flow releases invasive plants from environmental constraints on genetic diversity

Cited by 119 publications

References 80 publications

Genetic analyses reveal complex introduction histories for the invasive tree Acacia dealbata Link around the world

Genetic analyses reveal complex introduction histories for the invasive tree Acacia dealbata Link around the world

MetaPopGen 2.0: A multilocus genetic simulator to model populations of large size

Trait differentiation between native and introduced populations of the invasive plant Sonchus oleraceus L. (Asteraceae)

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