%0 Journal Article %1 irwin2003herbivores %A Irwin, Rebecca E. %A Strauss, Sharon Y. %A Storz, Shonna %A Emerson, Aimee %A Guibert, Genevieve %D 2003 %I Ecological Society of America %J Ecology %K balanced_polymorphism flower_color herbivory pollination radish %N 7 %P 1733--1743 %R 10.1890/0012-9658(2003)0841733:TROHIT2.0.CO;2 %T The role of herbivores in the maintenance of a flower color polymorphism in wild radish %U http://dx.doi.org/10.1890/0012-9658(2003)0841733:TROHIT2.0.CO;2 %V 84 %X Plant species exhibiting polymorphisms with respect to flower color are widespread. Our understanding of the selection pressures that may maintain these color polymorphisms has primarily been confined to one set of organisms—pollinators. Yet, selection on flower color may also be driven by other agents, such as herbivores, especially in cases where pollinators and herbivores are using the same or correlated traits to select plants. A wealth of studies have documented pollinator preference for anthocyanin-recessive color morphs (A−; yellow and white flowers) of wild radish, Raphanus sativus, over anthocyanin-dominant morphs (A+; pink and bronze flowers); yet, differences in pollination alone do not explain the maintenance of the flower color polymorphism. Here, we ask whether variation in flower color in R. sativus influences the preference and performance of herbivores for A− flower color morphs vs. A+ flower color morphs in four types of herbivores (generalist and specialist Lepidoptera, slugs, aphids, and thrips). We found that all herbivores except for aphids and thrips preferred flowering A− color morphs compared to A+ morphs of R. sativus. Furthermore, all herbivores except larvae of specialist and generalist Lepidoptera performed better on A− color morphs. Differences in plant secondary chemistry may play a role in differential herbivore preference and performance on the anthocyanin flower color morphs. Chemical analyses of leaf secondary compounds (indole glucosinolates) revealed that A+ color morphs produced higher concentrations of indole glucosinolates than A− morphs in the presence of herbivore damage. Therefore, herbivores may exhibit lower preference for A+ color morphs, and these morphs may support lower herbivore performance because they are heavily defended once damaged. This is the first study, to our knowledge, to document differential preference and performance of herbivores for different flower color morphs. Previous studies have shown that increased herbivore damage can have profound negative direct and indirect effects on the reproduction of R. sativus. The data presented here suggest that differential preference and performance of herbivores for R. sativus color morphs may counter selection on flower color exerted by pollinators.

@article{irwin2003herbivores, abstract = {Plant species exhibiting polymorphisms with respect to flower color are widespread. Our understanding of the selection pressures that may maintain these color polymorphisms has primarily been confined to one set of organisms—pollinators. Yet, selection on flower color may also be driven by other agents, such as herbivores, especially in cases where pollinators and herbivores are using the same or correlated traits to select plants. A wealth of studies have documented pollinator preference for anthocyanin-recessive color morphs (A−; yellow and white flowers) of wild radish, Raphanus sativus, over anthocyanin-dominant morphs (A+; pink and bronze flowers); yet, differences in pollination alone do not explain the maintenance of the flower color polymorphism. Here, we ask whether variation in flower color in R. sativus influences the preference and performance of herbivores for A− flower color morphs vs. A+ flower color morphs in four types of herbivores (generalist and specialist Lepidoptera, slugs, aphids, and thrips). We found that all herbivores except for aphids and thrips preferred flowering A− color morphs compared to A+ morphs of R. sativus. Furthermore, all herbivores except larvae of specialist and generalist Lepidoptera performed better on A− color morphs. Differences in plant secondary chemistry may play a role in differential herbivore preference and performance on the anthocyanin flower color morphs. Chemical analyses of leaf secondary compounds (indole glucosinolates) revealed that A+ color morphs produced higher concentrations of indole glucosinolates than A− morphs in the presence of herbivore damage. Therefore, herbivores may exhibit lower preference for A+ color morphs, and these morphs may support lower herbivore performance because they are heavily defended once damaged. This is the first study, to our knowledge, to document differential preference and performance of herbivores for different flower color morphs. Previous studies have shown that increased herbivore damage can have profound negative direct and indirect effects on the reproduction of R. sativus. The data presented here suggest that differential preference and performance of herbivores for R. sativus color morphs may counter selection on flower color exerted by pollinators.}, added-at = {2017-05-14T08:09:53.000+0200}, author = {Irwin, Rebecca E. and Strauss, Sharon Y. and Storz, Shonna and Emerson, Aimee and Guibert, Genevieve}, biburl = {https://www.bibsonomy.org/bibtex/293562fa6490ef84b6d2bcb241ac81ae7/peter.ralph}, doi = {10.1890/0012-9658(2003)084[1733:TROHIT]2.0.CO;2}, interhash = {23cb5357eb813c1e38f4790255a7594f}, intrahash = {93562fa6490ef84b6d2bcb241ac81ae7}, issn = {1939-9170}, journal = {Ecology}, keywords = {balanced_polymorphism flower_color herbivory pollination radish}, number = 7, pages = {1733--1743}, publisher = {Ecological Society of America}, timestamp = {2017-05-14T08:09:53.000+0200}, title = {The role of herbivores in the maintenance of a flower color polymorphism in wild radish }, url = {http://dx.doi.org/10.1890/0012-9658(2003)084[1733:TROHIT]2.0.CO;2}, volume = 84, year = 2003 }