Growth and fecundity of colonizing hybrid <i>Raphanus</i> populations are environmentally dependent

Shukla, Kruti; Laursen, Andrew E.; Benavides, Jessica; Ejbari, Neda; Campbell, Lesley G.

doi:10.1002/ajb2.1640

Cited by 3 publications

(3 citation statements)

References 119 publications

(197 reference statements)

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“…These studies allow the acceleration of natural processes in order to explore local ecological scenarios under which the fitness of crop-weed hybrids may equal or exceed the fitness of their parents, favoring the persistence of crop alleles in wild/weedy populations and consequently enhancing weediness and invasiveness (Mercer et al, 2006;Campbell et al, 2009). The Raphanus complex, formed by the cultivated species R. sativus, their feral conspecific forms and their weedy related species R. raphanistrum, is a well-established model system that has been widely used to evaluate the ecological and evolutionary consequences of interspecific crop-weed hybridization (Campbell et al, 2006(Campbell et al, , 2009Hegde et al, 2006;Campbell and Snow, 2007;Ridley et al, 2008;Snow et al, 2010;Hovick et al, 2012;Shukla et al, 2020Shukla et al, , 2021. Evolutionary experiments are often necessary for the observation and characterization of evolutionary changes occurring as a consequence of natural crop-wild/weed hybridization processes (Ellstrand et al, 2010;Hovick and Whitney, 2014).…”

Section: Introductionmentioning

confidence: 99%

The role of intraspecific crop-weed hybridization in the evolution of weediness and invasiveness: cultivated and weedy radish (Raphanus sativusL.) as a case study

Vercellino

Hernández

Presotto

2023

Preprint

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PREMISECrop-wild/weed hybrids usually exhibit intermediate and maladapted phenotypes compared to their parents; however, hybridization has sometimes been associated with increased fitness, potentially leading to enhanced weediness and invasiveness. Since the ecological context and maternal genetic effects may affect hybrid fitness, they could influence the evolutionary outcomes of hybridization. Here, we evaluated the evolutionary potential of reciprocal early-generation crop-weed hybrids using intraspecific weedy and cultivated radish (Raphanus sativusL.) as a model system.METHODSUsing experimental hybridization and common garden experiments under field conditions, we assessed the differences in time to flowering, survival to maturity, plant biomass and reproductive components between reciprocal crop-weed hybrids and their parents, under two contrasting ecological conditions, agrestal (wheat cultivation, fertilization, weeding) and ruderal (human-disturbed uncultivated area) over two years.RESULTSCrop, weeds and reciprocal hybrids overlapped -at least partially-during the flowering period, indicating a high probability of gene flow. Reciprocal hybrids survived to maturity at rates at least as successful as their parents and showed higher plant biomass and fecundity, which resulted in higher fitness compared to their parents in both contrasting environments, without any differences associated with the direction of the hybridization.CONCLUSIONSIntraspecific crop-weed hybridization, regardless of the cross direction, has the potential to promote weediness and invasiveness in the invasive feralR. sativusweed both agrestal and ruderal environments, increasing the chances of the introgression of crop alleles into weed populations. This is the first report of intraspecific crop-weed hybridization inR. sativus.

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Section: Introductionmentioning

confidence: 99%

The role of intraspecific crop-weed hybridization in the evolution of weediness and invasiveness: cultivated and weedy radish (Raphanus sativusL.) as a case study

Vercellino

Hernández

Presotto

2023

Preprint

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“…Additionally, hybrids with transgressive traits have been shown to tolerate extreme environments that could become more prevalent with climate change (e.g., Helianthus hybrids adapted to salt marshes; Lexer, Welch, et al, 2003). However, hybrid performance (relative to parents) under novel conditions may depend on the environments in which they evolve (Shukla et al, 2021), and it is unclear how these insights on aspects of hybrid performance translate into population growth of hybrids across environments.…”

Section: Introductionmentioning

confidence: 99%

Demographic responses of hybridizing cinquefoils to changing climate in the Colorado Rocky Mountains

Carscadden

Doak

Oldfather

et al. 2023

Ecology and Evolution

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Hybridization between taxa generates new pools of genetic variation that can lead to different environmental responses and demographic trajectories over time than seen in parental lineages. The potential for hybrids to have novel environmental tolerances may be increasingly important in mountainous regions, which are rapidly warming and drying due to climate change. Demographic analysis makes it possible to quantify within‐ and among‐species responses to variation in climate and to predict population growth rates as those conditions change. We estimated vital rates and population growth in 13 natural populations of two cinquefoil taxa (Potentilla hippiana and P. pulcherrima) and their hybrid across elevation gradients in the Southern Rockies. Using three consecutive years of environmental and demographic data, we compared the demographic responses of hybrid and parental taxa to environmental variation across space and time. All three taxa had lower predicted population growth rates under warm, dry conditions. However, the magnitude of these responses varied among taxa and populations. Hybrids had consistently lower predicted population growth rates than P. hippiana. In contrast, hybrid performance relative to P. pulcherrima varied with population and climate, with the hybrid maintaining relatively stable growth rates while populations of P. pulcherrima shrank under warm, dry conditions. Our findings demonstrate that hybrids in this system are neither intrinsically unfit nor universally more vigorous than parents, suggesting that the demographic consequences of hybridization are context‐dependent. Our results also imply that shifts to warmer and drier conditions could have particularly negative repercussions for P. pulcherrima, which is currently the most abundant taxon in the study area, possibly as a legacy of more favorable historical climates. More broadly, the distributions of these long‐lived taxa are lagging behind their demographic trajectories, such that the currently less common P. hippiana could become the most abundant of the Potentilla taxa as this region continues to warm and dry.

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“…These studies allow the acceleration of natural processes to evaluate local ecological scenarios in which the fitness of crop-weed hybrids may equal or exceed the fitness of their parents, favoring the persistence of crop alleles in wild/weedy populations and consequently enhancing weediness and invasiveness (Mercer et al, 2006;Campbell et al, 2009). The Raphanus complex, formed by the cultivated species R. sativus, their weedy conspecific forms, and their related weed species, R. raphanistrum, is a well-established model system for evaluating the ecological and evolutionary consequences of interspecific crop-weed hybridization (Campbell et al, 2006(Campbell et al, , 2009Hegde et al, 2006;Campbell and Snow, 2007;Ridley et al, 2008;Snow et al, 2010;Hovick et al, 2012;Shukla et al, 2020Shukla et al, , 2021. We compared the time to flowering, survival to maturity, plant biomass, and reproductive components of bidirectional firstgeneration crop-weed hybrids in relation to both parents under two contrasting ecological environments, agrestal (wheat cultivation, fertilization, weeding) and ruderal (human-disturbed uncultivated area) over 2 years.…”

mentioning

confidence: 99%

The role of intraspecific crop–weed hybridization in the evolution of weediness and invasiveness: Cultivated and weedy radish (Raphanus sativus) as a case study

Vercellino,

Hernández,

Presotto

2023

American J of Botany

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PremiseThe phenotype of hybrids between a crop and its wild or weed counterpart is usually intermediate and maladapted compared to that of their parents; however, hybridization has sometimes been associated with increased fitness, potentially leading to enhanced weediness and invasiveness. Since the ecological context and maternal genetic effects may affect hybrid fitness, they could influence the evolutionary outcomes of hybridization. Here, we evaluated the performance of first‐generation crop–weed hybrids of Raphanus sativus and their parents in two contrasting ecological conditions.MethodsUsing experimental hybridization and outdoor common garden experiments, we assessed differences in time to flowering, survival to maturity, plant biomass, and reproductive components between bidirectional crop–weed hybrids and their parents in agrestal (wheat cultivation, fertilization, weeding) and ruderal (human‐disturbed, uncultivated area) conditions over 2 years.ResultsCrop, weeds, and bidirectional hybrids overlapped at least partially during the flowering period, indicating a high probability of gene flow. Hybrids survived to maturity at rates at least as successful as their parents and had higher plant biomass and fecundity, which resulted in higher fitness compared to their parents in both environments, without any differences associated with the direction of the hybridization.ConclusionsIntraspecific crop–weed hybridization, regardless of the cross direction, has the potential to promote weediness in weedy R. sativus in agrestal and ruderal environments, increasing the chances for introgression of crop alleles into weed populations. This is the first report of intraspecific crop–weed hybridization in R. sativus.

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Growth and fecundity of colonizing hybrid Raphanus populations are environmentally dependent

Cited by 3 publications

References 119 publications

The role of intraspecific crop-weed hybridization in the evolution of weediness and invasiveness: cultivated and weedy radish (Raphanus sativusL.) as a case study

The role of intraspecific crop-weed hybridization in the evolution of weediness and invasiveness: cultivated and weedy radish (Raphanus sativusL.) as a case study

Demographic responses of hybridizing cinquefoils to changing climate in the Colorado Rocky Mountains

The role of intraspecific crop–weed hybridization in the evolution of weediness and invasiveness: Cultivated and weedy radish (Raphanus sativus) as a case study

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