Pollination and reproductive success of two colour variants of a deceptive orchid, Dactylorhiza maculata (Orchidaceae)

Koivisto, Anna‐Maria; Vallius, Elisa; Salonen, Veikko

doi:10.1111/j.1756-1051.2002.tb01621.x

Cited by 14 publications

(11 citation statements)

References 37 publications

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“…2003). There have been a number of recent studies on polymorphic orchids and the data are mixed with respect to whether pollinators have preferences for rare color morphs, and whether those preferences can maintain floral color variation through negative frequency‐dependent selection (Koivisto et al . 2002; Aragón & Ackerman 2004; Ackerman & Carromero 2005; Tremblay & Ackerman 2007).…”

Section: Introductionmentioning

confidence: 99%

“…fluctuating selection), disruptive selection or selection for intermediate or rare color morphs in populations of Clarkia gracilis (Onagraceae; Jones 1996a,b), Dactylorhiza sambucina (Orchidaceae; Gigord et al 2001), Ipomoea purpurea (Convolvulaceae; Rausher & Fry 1993;Subramaniam & Rausher 2000) and Mimulus luteus (Scrophulariaceae; Medel et al 2003). There have been a number of recent studies on polymorphic orchids and the data are mixed with respect to whether pollinators have preferences for rare color morphs, and whether those preferences can maintain floral color variation through negative frequency-dependent selection (Koivisto et al 2002;Aragón & Ackerman 2004;Ackerman & Carromero 2005;Tremblay & Ackerman 2007).…”

Section: Introductionmentioning

confidence: 99%

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Floral color variation and associations with fitness‐related traits inMalva moschata(Malvaceae)

Frey

Dunton

Garland

2011

Plant Species Biology

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Genetic polymorphisms for floral color are interesting phenomena to study because they are likely to be maintained by opposing selective forces. Pollinator preferences may exert direct selection on floral color; however, floral color might also be the indirect target of selection through genetic associations with other traits under selection. Malva moschata (Malvaceae) is a North American species that produces either red or white flowers. In the present study, we present reflectance spectrophotometry data that characterize the nature of floral color variation in this species and show that honey bees and bumble bees should be able to distinguish between the morphs through differential sensitivity at the green (long-wavelength) photoreceptor. Second, we use a series of phenotypic measures to investigate whether the color morphs differ with respect to other floral traits, vegetative traits or female reproductive success, and use a series of correlation analyses to infer the relative independence of color from these other traits. We found that red-flowered morphs produced more anthers per flower and had greater leaf area, and that whiteflowered morphs had greater percentage fruit set; however, there were no reproductive success differences between the morphs. The relationship between flower size and anther number was the only correlation that differed between the morphs. Finally, a series of pollinator-choice experiments showed that bumble bees strongly prefer red morphs in terms of visit frequency and duration, but honey bees have no preference. Taken together, our results suggest that color is rather independent of other phenotypic traits, and that honey bee abundance is likely to play a role in maintaining color variation in this system.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Floral color variation and associations with fitness‐related traits inMalva moschata(Malvaceae)

Frey

Dunton

Garland

2011

Plant Species Biology

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“…Among the wide range of colour variants of orchid flowers, the occurrence of rare hypochromic inflorescences are regularly recorded in natural populations of the common coloured morph (Weiss 1995;Bournérias and Prat 2005;Dormont et al 2010a). In orchids, the behavioural responses of pollinators to white inflorescences in populations of a coloured morph and the possible consequences for plant reproductive success have been poorly investigated (Koivisto et al 2002;Ackerman and Carromero 2005). Dormont et al (2010a) demonstrate for the European species Orchis mascula L. that the presence of white-flowered individuals results in a fourfold increase in the percentage pollination of neighbouring purple-flowered individuals.…”

Section: Introductionmentioning

confidence: 99%

Presence, distribution and effect of white, pink and purple morphs on pollination in the orchid Orchis mascula

Schatz

Delle-Vedove

Dormont

2013

European Journal of Environmental Sciences

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How floral polymorphism of flowering plants can be maintained in evolutionary time has long intrigued ecologists and is still debated. In particular, how floral colour polymorphism influences reproductive success is still poorly understood. Here, we investigated the case of Orchis mascula, a deceptive orchid species in which the presence of rare white-flowered individuals is known to increase the percentage pollination of co-occurring coloured morphs. In a brief review, we report all the orchid species for which rare colour morphs are recorded and show that colour polymorphism occurs in most orchid genera occurring in France. In this study, more than 20,000 individuals of O. mascula were surveyed and some rare clear pink morphs were recorded. The frequencies of white-flowered and clear pink-flowered individuals were 0.59% and 0.28%, respectively. These two rare-colour flowered individuals were not randomly distributed and restricted to a few populations. In addition, the presence of pink-flowered individuals and the use of experimental pink lures resulted in an increase in the percentage pollination of surrounding purple-flowered individuals, as previously shown for white-flowered individuals and white lures. These new observations favour kin selection as the means by which floral colour polymorphism is maintained in this species. We suggest conducting comparative studies of other species in order to evaluate the importance of this mechanism in orchid pollination and that of other plant families.

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“…They concluded that natural levels of color variation might be more influenced by genetic drift than selection. Similarly, Koivisto et al (2002) found no preferences of pollinators for any color variant in Dactylorhiza maculata . It seems that not all of the color polymorphism in flowers affects pollinator activity, and that it might be either linked genetically to other adaptive characters, such as flower size or the number of inflorescences, which also impinge on the reproductive success (Wolfe 1993 ;Galen et al 1987 ;Sobrevila et al 1989) , or to the outcome of phenotypic plasticity (Schemske and Bierzychudek 2001 ;Warren and Mackenzie 2001) .…”

Section: Generalized Food Deceptionmentioning

confidence: 91%

“…A few species exhibit discontinuous, genetically determined variation in flower color resulting in two or several more or less discrete color morphs, such as yellow and purple morphs of Dactylorhiza sambucina or D. romana (Nilsson 1980) . More rarely, petal color is polymorphic, with individuals exhibiting variable-sized spots or nectar guides on darker or lighter backgrounds, as in Dactylorhiza maculata (Koivisto et al 2002) .…”

Section: Generalized Food Deceptionmentioning

confidence: 98%

Deceptive Behavior in Plants. II. Food Deception by Plants: From Generalized Systems to Specialized Floral Mimicry

Jersáková¹,

Johnson

Jürgens³

2009

Plant-Environment Interactions

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Most of the ca. 8,000 angiosperm species that lack floral rewards are orchids pollinated by food-seeking animals. The fitness benefits of floral deception are still being debated, but most of the available evidence suggests that food deception evolves because it strongly promotes cross-pollination. These plants are generally considered to employ either generalized food deception (exploiting innate preferences of pollinators) or Batesian floral mimicry (exploiting conditioned preferences of pollinators). However, we argue that there are also intermediate conditions between these two modes and that exploitation of conditioned preferences is probably more common among food-deceptive orchids than was previously realized. We also review evidence for ecological facilitation of the pollination of deceptive species by rewarding species via the "magnet effect." We then consider the relative importance of visual and olfactory cues in food-deceptive systems. The role of scent in fooddeceptive systems, especially generalized ones, is still poorly understood, but the available evidence indicates that floral color matching is a critical component of Batesian floral mimicry.

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Pollination and reproductive success of two colour variants of a deceptive orchid, Dactylorhiza maculata (Orchidaceae)

Cited by 14 publications

References 37 publications

Floral color variation and associations with fitness‐related traits inMalva moschata(Malvaceae)

Floral color variation and associations with fitness‐related traits inMalva moschata(Malvaceae)

Presence, distribution and effect of white, pink and purple morphs on pollination in the orchid Orchis mascula

Deceptive Behavior in Plants. II. Food Deception by Plants: From Generalized Systems to Specialized Floral Mimicry

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