Hybridisation is associated with increased fecundity and size in invasive taxa: meta‐analytic support for the hybridisation‐invasion hypothesis

Hovick, Stephen M.; Whitney, Kenneth D.

doi:10.1111/ele.12355

Cited by 135 publications

(152 citation statements)

References 105 publications

(193 reference statements)

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“…). These results are consistent with the hypothesis that crop–wild hybrid biotypes have the potential to displace their wild parent in certain environments (Ellstrand and Schierenbeck ; Hovick and Whitney ).…”

Section: Methodssupporting

confidence: 89%

“…; Hendry ; Whitney et al. ) and thus contribute to weedy population growth (Hovick and Whitney ). Therefore, gene flow between genetically distinct crops and sexually compatible weedy relatives may contribute to the evolution of more problematic weeds when gene flow alters phenotypic frequencies and the relative fitness of phenotypes within weed populations.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Contemporary evolution and the dynamics of invasion in crop–wild hybrids with heritable variation for two weedy life–histories

Campbell

Teitel

Miriti

2016

Evolutionary Applications

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Gene flow in crop–wild complexes between phenotypically differentiated ancestors may transfer adaptive genetic variation that alters the fecundity and, potentially, the population growth (λ) of weeds. We created biotypes with potentially invasive traits, early flowering or long leaves, in wild radish (Raphanus raphanistrum) and F5 crop–wild hybrid (R. sativus × R. raphanistrum) backgrounds and compared them to randomly mated populations, to provide the first experimental estimate of long‐term fitness consequences of weedy life‐history variation. Using a life table response experiment design, we modeled λ of experimental, field populations in Pellston, MI, and assessed the relative success of alternative weed strategies and the contributions of individual vital rates (germination, survival, seed production) to differences in λ among experimental populations. Growth rates (λ) were most influenced by seed production, a trait altered by hybridization and selection, compared to other vital rates. More seeds were produced by wild than hybrid populations and by long‐leafed than early‐flowering lineages. Although we did not detect a biotype by selection treatment effect on lambda, lineages also exhibited contrasting germination and survival strategies. Identifying life‐history traits affecting population growth contributes to our understanding of which portions of the crop genome are most likely to introgress into weed populations.

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Section: Methodssupporting

confidence: 89%

Section: Introductionmentioning

confidence: 99%

Contemporary evolution and the dynamics of invasion in crop–wild hybrids with heritable variation for two weedy life–histories

Campbell

Teitel

Miriti

2016

Evolutionary Applications

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“…Elaborating on this hypothesis, Mark Kirkpatrick provided evidence for a new example in which massive range expansion in the mosquito (and malaria vector) Anopheles gambiae may have been triggered by capture of a cassette of adaptive alleles from the dry-climate adapted A. arabensis. Mixing of genetic material from divergent (but not too divergent) populations within a species can also improve performance, as was shown by Katrina Dlugosch (University of Arizona, These patterns match recent trends in the literature: both intraspecific and interspecific admixture are commonly associated with performance increases in invasive plants, animals, and fungi (see syntheses in Rius & Darling, 2014;Hovick & Whitney, 2014). However, a fundamental question is still up for grabs: how critical is such admixture for invasive success?…”

supporting

confidence: 65%

Five decades of invasion genetics

Whitney

Gering

2014

New Phytologist

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In 1964, some of the most prominent scientists in the history of ecology and evolutionary biology met on the Pacific coast at Asilomar, California to discuss the genetics of colonizing species. Pointed (but polite) exchanges were recorded between Ernst Mayr, G. Ledyard Stebbins, E. O. Wilson, Theodosius Dobzhansky, Richard Lewontin, John Harper, C. H. Waddington, R. W. Allard, Herbert Baker, and 21 others. The resulting symposium volume (Baker & Stebbins, 1965) became an enduring classic, still widely cited today by students of microevolution and invasion biology.The beach poppies (Eschscholzia californica) then flowered 50 times before invasion geneticists once again colonized the Asilomar dunes. At the behest of organizers Spencer Barrett, Rob Colautti, Katrina Dlugosch, and Loren Rieseberg, 74 participants from 12 countries met to celebrate the achievements of the remarkable 1964 group, and to assess the progress made and the challenges remaining in the field of invasion genetics. Participants in the 1964 and 2014 symposia enthusiastically shared a conviction that invasions, range expansions, and colonization events provide unique windows on fundamental evolutionary processes.'What allows invasive species to outperform natives, when the latter should be well-adapted to their habitats?'Matching new environments: pre-adaptation, post-invasion adaptation, and plasticity What allows invasive species to outperform natives, when the latter should be well-adapted to their habitats? The mechanisms favored by the 1964 participants included pre-invasion pre-adaptation, post-invasion adaptation, and phenotypic plasticity. The 2014 symposium provided evidence that each of these mechanisms has facilitated invasion; the jury is out on whether one pathway dominates. In support of pre-adaptation, Johanna Schmitt (University of California, Davis, CA, USA) presented compelling evidence that the performance of translocated Arabidopsis thaliana can be predicted by the climatic niches of source populations. Ongoing mapping of the climatic distributions of individual alleles within the native range will help determine if 'climatically matched' alleles enhance fitness in the introduced range.However, rapid evolution following arrival is clearly a feature in many invasions. Lee Ann Rollins (Deakin University, Burwood, Australia) provided a striking example from invasive cane toads in Australia, which have evolved greater dispersal abilities via longer leg length, greater endurance, more linear dispersal trajectories, and possibly altered immune function. Robert Colautti (University of British Columbia, Vancouver, Canada) provided evidence of rapid evolution of Lythrum salicaria's flowering time and size at reproduction following northward migration in eastern North America. Results from common garden experiments confirmed that clines observed in the invasive range result from local adaptation to growing season length, rather than simple dispersal and founder effects. John Pannell (Universite de Lausanne, Switzerland) showed that ex...

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“…With time, many cultivars escaped cultivation, spread beyond the ornamental confines of the garden and became weeds (Spies 1984, Swarbrick 1985, Palmer and Pullen 1995. Studies have identified hybridization to contribute substantially to invasiveness, weediness and/or range expansion (Brown and Marshall 1981, Ellstrand and Schierenbeck 2000, Hovick and Whitney 2014. Likewise, innumerable intentional as well as unintentional hybridization events in Lantana led to remarkable increase in its complexity.…”

Section: Historical Events Leading To the Species Complexmentioning

confidence: 99%

Lantana camara L. (sensu lato): an enigmatic complex

Goyal¹,

Sharma²

2015

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Lantana camara L., considered among the world's worst invaders is in identity crisis and contentiously referred as Lantana camara L. (sensu lato). Taxonomic ambiguity in L. camara L. (sensu lato), a species complex is one of the grim caveats behind incompetence of its management efforts. Recognizing the extent of variability within the complex, we aim to highlight the need to circumscribe its composition to bring effective management and control efforts into practice. There is a need for clear terminology to examine weedy, naturalized and/or invasive complex constituents that have been placed under the contentious umbrella of 'L. camara L. (sensu lato)'. The time is ripe for invasion ecologists, cytogeneticists and conservationists to collaboratively focus on disentangling the complex and integrate their knowledge and expertise into management and control programs.

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Hybridisation is associated with increased fecundity and size in invasive taxa: meta‐analytic support for the hybridisation‐invasion hypothesis

Cited by 135 publications

References 105 publications

Contemporary evolution and the dynamics of invasion in crop–wild hybrids with heritable variation for two weedy life–histories

Contemporary evolution and the dynamics of invasion in crop–wild hybrids with heritable variation for two weedy life–histories

Five decades of invasion genetics

Lantana camara L. (sensu lato): an enigmatic complex

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