Intraspecific divergence and convergence of floral tube length in specialized pollination interactions

Anderson, Bruce; Ros, P.; Wiese, Tobias Johannes; Ellis, Allan G.

doi:10.1098/rspb.2014.1420

Cited by 54 publications

(56 citation statements)

References 59 publications

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“…Inferences about evolutionary processes have traditionally been made based on the observed interspecific variance of phenotypes (Darwin, ). Phenotypic diversity accumulated at the intraspecific level is also important to consider for a better understanding of processes behind geographical differentiation and adaptation, and to establish a connection between micro‐ and macroevolution (Roitberg et al, , Anderson, Ros, Wiese, & Ellis, , e.g. Bertin, Ruiz, Figueroa, & Gouin, , Jaffe, Campbell‐Staton, & Losos, , Tsuboi et al, ).…”

Section: Introductionmentioning

confidence: 99%

The role of common ancestry and gene flow in the evolution of human‐directed play behaviour in dogs

Garamszegi

Temrin

Kubinyi

et al. 2019

J of Evolutionary Biology

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Among‐population variance of phenotypic traits is of high relevance for understanding evolutionary mechanisms that operate in relatively short timescales, but various sources of nonindependence, such as common ancestry and gene flow, can hamper the interpretations. In this comparative analysis of 138 dog breeds, we demonstrate how such confounders can independently shape the evolution of a behavioural trait (human‐directed play behaviour from the Dog Mentality Assessment project). We combined information on genetic relatedness and haplotype sharing to reflect common ancestry and gene flow, respectively, and entered these into a phylogenetic mixed model to partition the among‐breed variance of human‐directed play behaviour while also accounting for within‐breed variance. We found that 75% of the among‐breed variance was explained by overall genetic relatedness among breeds, whereas 15% could be attributed to haplotype sharing that arises from gene flow. Therefore, most of the differences in human‐directed play behaviour among breeds have likely been caused by constraints of common ancestry as a likely consequence of past selection regimes. On the other hand, gene flow caused by crosses among breeds has played a minor, but not negligible role. Our study serves as an example of an analytical approach that can be applied to comparative situations where the effects of shared origin and gene flow require quantification and appropriate statistical control in a within‐species/among‐population framework. Altogether, our results suggest that the evolutionary history of dog breeds has left remarkable signatures on the among‐breed variation of a behavioural phenotype.

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Section: Introductionmentioning

confidence: 99%

The role of common ancestry and gene flow in the evolution of human‐directed play behaviour in dogs

Garamszegi

Temrin

Kubinyi

et al. 2019

J of Evolutionary Biology

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“…Models of the evolution of specialization that incorporate environmental heterogeneity and associative mating indicate that these variables can result in a decrease in gene flow between environments and contribute to speciation [7]. Anderson et al [41] examined pollinators in different parts of a plant species' range and found a close association between floral traits and the traits of the pollinators in the region but did not find strong evidence that these patterns greatly influenced gene flow and dispersal. Presumably, if selection pressures were consistent for generations, speciation could occur, yet pollinators may be too variable between years [57].…”

Section: (C) Range Extent Specialization and Diversificationmentioning

confidence: 99%

“…For example, if spatial heterogeneity is such that the abundance of a commonly used host changes rapidly over space (beta-diversity is high), this should accelerate the evolution of specialization [41]. Much of the work in this area is done with herbivorous insects, with some studies suggesting that generalization is positively associated with large range size [55] and others finding cases where a specialist can have a much larger range if its host species is widespread [56].…”

Section: (C) Range Extent Specialization and Diversificationmentioning

confidence: 99%

“…In contrast to the idea that shifts in specialization result in speciation ( pollinator shifts), Abrahamczyk et al [40] find more evidence favouring biogeographical shifts spurring the process of lineage splitting. In Tritoniopsis revoluta (Iridaceae) Anderson et al [41] report that pollinators vary geographically across the plant's range and are closely associated with variation in floral traits, suggesting a strong role of distribution and range in how biotic specialization influences speciation (see Range extent, specialization, and diversification).…”

Section: Introductionmentioning

confidence: 99%

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Evolutionary ecology of specialization: insights from phylogenetic analysis

2014

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In this Special feature, we assemble studies that illustrate phylogenetic approaches to studying salient questions regarding the effect of specialization on lineage diversification. The studies use an array of techniques involving a wide-ranging collection of biological systems (plants, butterflies, fish and amphibians are all represented). Their results reveal that macroevolutionary examination of specialization provides insight into the patterns of trade-offs in specialized systems; in particular, the genetic mechanisms of trade-offs appear to extend to very different aspects of life history in different groups. In turn, because a species may be a specialist from one perspective and a generalist in others, these trade-offs influence whether we perceive specialization to have effects on the evolutionary success of a lineage when we examine specialization only along a single axis. Finally, how geographical range influences speciation and extinction of specialist lineages remains a question offering much potential for further insight.

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“…One striking example of community level patterns shaped by species interactions is the phenotypic convergence of mutualistic partners. Phenotypic convergence emerges in different mutualistic interactions such as plant-pollinator interactions (Anderson et al, 2014), plant-seed disperser interactions (Jordano, 1995), cleaning symbiosis in marine ecosystems (Stummer et al, 2004) and Müllerian mimicry,in which the per-capita predation risks of unpalatable individuals from different species with similar warning signals decay because they share costs of predators learning warning signals (Müller, 1879;Kapan, 2001;Ruxton et al, 2004;Meyer, 2006;Rowland et al, 2007;Elias et al, 2008). There are theoretical and empirical evidences that reciprocal selection imposed by mutualism can result in convergence between species (Guimaraes Jr et al, 2011;Thompson, 2006;Marek & Bond, 2009;Nuismer et al, 2013;Pinheiro et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

Evolutionary dynamics of mimetic rings in heterogeneous ecological communities

Barros¹

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Intraspecific divergence and convergence of floral tube length in specialized pollination interactions

Cited by 54 publications

References 59 publications

The role of common ancestry and gene flow in the evolution of human‐directed play behaviour in dogs

The role of common ancestry and gene flow in the evolution of human‐directed play behaviour in dogs

Evolutionary ecology of specialization: insights from phylogenetic analysis

Evolutionary dynamics of mimetic rings in heterogeneous ecological communities

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