Shifts in outcrossing rates and changes to floral traits are associated with the evolution of herbicide resistance in the common morning glory

Kuester, Adam; Fall, Eva; Chang, Shu‐Mei; Baucom, Regina S.

doi:10.1111/ele.12703

Cited by 29 publications

(28 citation statements)

References 58 publications

(136 reference statements)

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“…It has been proposed that selfing may even evolve to facilitate local adaptation when there is fine grained spatial environmental heterogeneity with migration (Antonovics, ; Levin, ). Self‐fertilisation has been found to evolve in conjunction with adaptation to heavy metals (Antonovics, ; Antonovics et al ., ; Dubois et al ., ), serpentine soil (Macnair & Gardiner, ; Rajakaruna, ), and the herbicide glyphosate (Kuester et al ., ). Although our simulations did not explore if local adaptation can contribute to the evolution of selfing we showed that, even with high levels of outcrossed pollen flow, optimal trait values rapidly evolve in selfing populations over the short term (see Notes S2 for a discussion of the rate of adaptation in selfers and outcrossers).…”

Section: Discussionmentioning

confidence: 97%

Mating system impacts the genetic architecture of adaptation to heterogeneous environments

Hodgins

Yeaman

2019

New Phytologist

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Self-fertilisation has consequences for variation across the genome as it reduces effective population size, effect recombination rates and pollen flow, with implications for local adaptation.We conducted simulations of divergent stabilising selection on a quantitative trait with drift, pollen flow, mutation, recombination and different outcrossing rates. We quantified trait divergence and the genetic architecture of adaptation. We conducted an F ST outlier analysis to identify candidate loci and quantified the impact of mating system on detectability.Selfing promoted trait divergence mainly through reductions in pollen flow. Moreover, trait architecture became more diffuse with selfing. Average effect size of trait loci was lower, while the number of loci, and their clustering distance increased. The genetic architecture of selfers was also more diffuse than outcrossers for equivalent migration rates. However, when deleterious alleles were included, architectures became more concentrated in selfers, likely to be because of reductions in population size caused by mutational meltdown and impacts of background selection on N e .Our simulations demonstrate that mating system has important impacts on adaptive divergence of traits and the genetic landscape underlying that divergence. Selfing has a significant effect on detectability of regions of the genome important for adaptation because of neutral divergence and diffuse trait architecture.

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Section: Discussionmentioning

confidence: 97%

Mating system impacts the genetic architecture of adaptation to heterogeneous environments

Hodgins

Yeaman

2019

New Phytologist

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“…This is likewise supported by our finding of low genome-wide patterns of linkage between SNPs, and evidence of a selective sweep, as indicated by low nucleotide diversity in this region and marks of positive selection indicating a high frequency of derived variants. Because this species employs a mixed mating system (i.e., multilocus outcrossing rate (t m ) = 0.5; [50]), it is plausible that resistance alleles, once introduced into the population, could quickly spread via outcrossing and then increase in frequency given strong selection.…”

Section: Patterns Of Haplotype Sharing Across Resistant Populations Smentioning

confidence: 99%

“…Ipomoea purpurea is a weedy annual vine that is native to the central highlands of Mexico and was introduced to the United States prior to the arrival of Columbus [4]. It is a diploid species with a genome size of 980 MB [55] and employs a mixed mating system, with some populations showing a high selfing rate and other populations exhibiting high levels of outcrossing [50]. It is consistently listed as one of the 'worst weeds of agriculture' in the Southeast and midwestern part of the United States [summarized in [4,[17][18][19][20].…”

Section: Study Speciesmentioning

confidence: 99%

Parallel and nonparallel genomic responses contribute to herbicide resistance in Ipomoea purpurea, a common agricultural weed

et al. 2020

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The repeated evolution of herbicide resistance has been cited as an example of genetic parallelism, wherein separate species or genetic lineages utilize the same genetic solution in response to selection. However, most studies that investigate the genetic basis of herbicide resistance examine the potential for changes in the protein targeted by the herbicide rather than considering genome-wide changes. We used a population genomics screen and targeted exome re-sequencing to uncover the potential genetic basis of glyphosate resistance in the common morning glory, Ipomoea purpurea, and to determine if genetic parallelism underlies the repeated evolution of resistance across replicate resistant populations. We found no evidence for changes in 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS), glyphosate's target protein, that were associated with resistance, and instead identified five genomic regions that showed evidence of selection. Within these regions, genes involved in herbicide detoxification-cytochrome P450s, ABC transporters, and glycosyltransferasesare enriched and exhibit signs of selective sweeps. One region under selection shows parallel changes across all assayed resistant populations whereas other regions exhibit signs of divergence. Thus, while it appears that the physiological mechanism of resistance in this species is likely the same among resistant populations, we find patterns of both similar and divergent selection across separate resistant populations at particular loci.

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“…This is a strategy that plants probably use to enhance reproductive success under conditions of stress (Levin, ) although in Vicia faba an increased rate of outcrossing was observed when plants were exposed to a simulated heat wave of 30°C for 5 days (Bishop et al ., ; for an overview of the metabolic responses of flowers to heat waves, see Box 1). Shifts in mating behavior may impact the effective size of populations, gene flow and maintenance of the genetic diversity of wild flowering species with trends which are difficult to predict in the context of natural ecosystems, as additional factors such as the evolution of herbicide resistance (Kuester et al ., ), the co‐occurrence of pollinators and herbivores in the same habitat (Moreira et al ., ) and different phenological responses to temperature (Cleland et al ., ) also influence plant reproductive success. Moreover, differential phenological responses of plant species to climate change may produce opposing consequences for population structures and consequently for species extinction.…”

Section: The Effects Of Global Warming On the Metabolism Of Flowers Omentioning

confidence: 99%

Flowers and climate change: a metabolic perspective

et al. 2019

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Summary Adverse climatic conditions at the time of flowering severely hinder crop yields and threaten the interactions between plants and their pollinators. These features depend on a common trait: the metabolism of flowers. In this Viewpoint article, we aim to provide insight into the metabolic changes that occur in flowers in response to changes in climate and emphasize that these changes severely impact the fitness of autogamous and allogamous species, plant–pollinator interactions, and overall ecosystem health. We review the biochemical processes that lead to failure of gamete development and to alterations of color, scent and nectar secretion. Then, making use of open access expression data, we examine the expression of genes that may drive these changes in response to heat and drought. Finally, we present measurements of metabolites from flowers exposed to a heat wave and discuss how the results of this short‐term experiment may give rise to misleading conclusions regarding the positive effect of heat on flower fitness. We hope this article draws attention to this often‐neglected dynamic and its important consequences.

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Shifts in outcrossing rates and changes to floral traits are associated with the evolution of herbicide resistance in the common morning glory

Cited by 29 publications

References 58 publications

Mating system impacts the genetic architecture of adaptation to heterogeneous environments

Mating system impacts the genetic architecture of adaptation to heterogeneous environments

Parallel and nonparallel genomic responses contribute to herbicide resistance in Ipomoea purpurea, a common agricultural weed

Flowers and climate change: a metabolic perspective

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