Spatial Distribution of Flower Color Induced by Interspecific Sexual Interaction.

Yuma Takahashi,Koh-Ichi Takakura,Masakado Kawata,Fan Chen

doi:10.1371/journal.pone.0164381

Yuma Takahashi, Koh-Ichi Takakura + Show 2 more

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https://doi.org/10.1371/journal.pone.0164381

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Journal: PloS one	Publication Date: Oct 10, 2016
Citations: 6	License type: CC BY 4.0

Affiliation: Tohoku University, University of Shiga Prefecture

Abstract

Understanding the mechanisms shaping the spatiotemporal distribution of species has long been a central concern of ecology and evolutionary biology. Contemporary patterns of plant assemblies suggest that sexual interactions among species, i.e., reproductive interference, lead to the exclusive distributions of closely related species that share pollinators. However, the fitness consequences and the initial ecological/evolutionary responses to reproductive interference remain unclear in nature, since reproductive isolation or allopatric distribution has already been achieved in the natural community. In Japan, three species of blue-eyed grasses (Sisyrinchium) with incomplete reproductive isolation have recently colonized and occur sympatrically. Two of them are monomorphic with white flowers, whereas the other exhibits heritable color polymorphism (white and purple morphs). Here we investigated the effects of the presence of two monomorphic species on the distribution and reproductive success of color morphs. The frequency and reproductive success of white morphs decreased in area where monomorphic species were abundant, while those of purple morphs did not. The rate of hybridization between species was higher in white morphs than in the purple ones. Resource competition and habitat preference seemed not to contribute to the spatial distribution and reproductive success of two morphs. Our results supported that color-dependent reproductive interference determines the distribution of flower color polymorphism in a habitat, implying ecological sorting promoted by pollinator-mediated reproductive interference. Our study helps us to understand the evolution and spatial structure of flower color in a community.

Highlights

Elucidating the factors that affect the spatiotemporal variations of species assemblies has long been a central concern of ecology
We focused on the effect of interspecific reproductive interaction among congeneric species on the distribution of color morphs of M-species of Sisyrinchium
We demonstrated that the white morph frequency of the M-species decreased with the relative abundance of the other species with similar flower color (L- and S-species), suggesting an exclusive relationship between the white morph of the M-species and the other species

Summary

Introduction

Elucidating the factors that affect the spatiotemporal variations of species assemblies has long been a central concern of ecology. As well as historical and phylogenetic factors, play a role in shaping biodiversity gradients throughout species turnover because of PLOS ONE | DOI:10.1371/journal.pone.0164381. Some studies have shown that flowers of co-occurring species to be more dissimilar than expected by chance [2,3,4]. The distribution of floral traits in communities is expected to exhibit greater variance than expected by random assembly from a regional species pool [1]. Negative interactions between species that share pollinators are suggested to influence the structure of community and spatial distribution of flower color [5,6]

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