Add to ORKGIntra- and interspecific variation in flower color is a hallmark of angiosperm diversity. The evolutionary forces underlying the variety of flower colors can be nearly as diverse as the colors themselves. In addition to pollinator preferences, non-pollinator agents of selection can have a major influence on the evolution of flower color polymorphisms, especially when the pigments in question are also expressed in vegetative tissues. In such cases, identifying the target(s) of selection starts with determining the biochemical and molecular basis for the flower color variation and examining any pleiotropic effects manifested in vegetative tissues. Herein, we describe a widespread purple-white flower color polymorphism in the mustard Parrya nu...
Phenotypic differences between species and populations can reveal much about how they have adapted a...
Background: Phenotypic transitions, such as trait gain or loss, are predicted to carry evolutionary ...
This article comments on: Ye S, Hua S, Ma T, Ma X, Chen Y, Wu L, Zhao L, Yi B, Ma C, Tu J, Shen J, F...
Intra- and interspecific variation in flower color is a hallmark of angiosperm diversity. The evolut...
Intra- and interspecific variation in flower color is a hallmark of angiosperm diversity. The evolut...
Angiosperms are renown for their diversity of flower colors. Often considered adaptations to pollina...
Background: Anthocyanins are the primary source of colour in flowers and also accumulate in vegetati...
Flower color polymorphisms are widely used as model traits from genetics to ecology, yet determining...
Flower-colour polymorphism within the British flora appears more common in species whose flowers typ...
Background and Aims: Floral colour in angiosperms can be controlled by variations in the expression ...
<p>The arctic mustard, <i>Parrya nudicaulis,</i> exhibits variation in petal anthocyanins within pop...
Intraspecific variation in flower color is often attributed to pollinator-mediated selection, yet th...
Pigmentation affords resistance to abiotic stressors, and thus can respond adaptively or plastically...
The coexistence of different color morphs is often attributed to variable selection pressures across...
Flower colour throughout the world is generally linked to various functional purposes, pollinator at...
Phenotypic differences between species and populations can reveal much about how they have adapted a...
Background: Phenotypic transitions, such as trait gain or loss, are predicted to carry evolutionary ...
This article comments on: Ye S, Hua S, Ma T, Ma X, Chen Y, Wu L, Zhao L, Yi B, Ma C, Tu J, Shen J, F...
Intra- and interspecific variation in flower color is a hallmark of angiosperm diversity. The evolut...
Intra- and interspecific variation in flower color is a hallmark of angiosperm diversity. The evolut...
Angiosperms are renown for their diversity of flower colors. Often considered adaptations to pollina...
Background: Anthocyanins are the primary source of colour in flowers and also accumulate in vegetati...
Flower color polymorphisms are widely used as model traits from genetics to ecology, yet determining...
Flower-colour polymorphism within the British flora appears more common in species whose flowers typ...
Background and Aims: Floral colour in angiosperms can be controlled by variations in the expression ...
<p>The arctic mustard, <i>Parrya nudicaulis,</i> exhibits variation in petal anthocyanins within pop...
Intraspecific variation in flower color is often attributed to pollinator-mediated selection, yet th...
Pigmentation affords resistance to abiotic stressors, and thus can respond adaptively or plastically...
The coexistence of different color morphs is often attributed to variable selection pressures across...
Flower colour throughout the world is generally linked to various functional purposes, pollinator at...
Phenotypic differences between species and populations can reveal much about how they have adapted a...
Background: Phenotypic transitions, such as trait gain or loss, are predicted to carry evolutionary ...
This article comments on: Ye S, Hua S, Ma T, Ma X, Chen Y, Wu L, Zhao L, Yi B, Ma C, Tu J, Shen J, F...