Abstract
The evolution of several floral traits is thought to be driven by multiple selective agents, including pollinators and herbivores. Similar combinations of selection pressures may have shaped extra-floral traits. The conspicuous purple tufts of leaves (“flags”), which often terminate vertical inflorescences in the Mediterranean annual Salvia viridis, were shown to attract insect pollinators to the flowering patch. Here we test whether they also function as anti-herbivore signals. We determined the aposematic potential of S. viridis flags on three levels: concentrations of anthocyanins, suggested to function as aposematic visual signals, in leaves and flags; spectrometry to estimate whether the color-vision system of two common Mediterranean generalist herbivores (locusts and goats) can discriminate flags from leaves; and choice experiments to determine food preferences of the same herbivores. Anthocyanin concentrations in flags were >10-fold higher than in leaves. Flags exhibited peak reflectance at 450 and 700 nm wavelengths, while leaves reflected maximally at 550 nm. According to the Vorobyev-Osorio color vision model, these differences in color reflection are likely to allow visual discrimination by herbivores. Goats preferred feeding on clipped inflorescences over control inflorescences. Locusts preferred leaves over flags. To test whether this was due to deterrence from the flags’ coloration, we also offered them choice between leaves and a rare, white morph, of the flags. The locusts chose both equally immediately after presentation, but leaves attracted more individuals after 5 min of feeding. The locusts also preferred green cabbage over anthocyanin-rich red cabbage. These results support the function of colorful extra-floral displays as warning signals.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Adler LS, Bronstein JL (2004) Attracting antagonists: does floral nectar increase leaf herbivory? Ecology 85:1519–1526
Adler LS, Wink M, Distl M, Lentz AJ (2006) Leaf herbivory and nutrients increase nectar alkaloids. Ecol Lett 9:960–967
Armbruster WS (2002) Can indirect selection and genetic context contribute to trait diversification? A transition-probability study of blossom-colour evolution in two genera. J Evol Biol 15:468–486
Arnon R, Keasar T, Pollak G, Cohen D, Shmida A (2006) Honesty of signaling and pollinator attraction: the case of flag-like bracts. Israel J Plant Sci 54:119–128
Backhaus W (1992) Color vision in honeybees. Neurosci Biobehav Rev 16:1–12
Borges RM, Gowda V, Zacharias M (2003) Butterfly pollination and high-contrast visual signals in a low-density distylous plant. Oecologia 136:571–573
Bridle P, Timberlake CF (1997) Anthocyanins as natural food colours—selected aspects. Food Chem 58:103–109
Briscoe AD, Chittka L (2001) The evolution of color vision in insects. Ann Rev Entomol 46:471–510
Cariveau D, Irwin RE, Brody AK, Garcia-Mayeya LS, von der Ohe A (2004) Direct and indirect effects of pollinators and seed predators to selection on plant and floral traits. Oikos 104:15–26
Carroll J, Murphy CJ, Neitz M, Hoeve JN, Neitz J (2001) Photopigment basis for dichromatic color vision in the horse. J Vis 1:80–87
Chittka L, Kevan PG (2005) Flower colour as advertised. In: Dafni A, Kevan PG, Husband BC (eds) Pratical pollination biology. Enviroquest Ltd., Cambridge, pp 157–196
Ehrlén J, Käck S, Ågren J (2002) Pollen limitation, seed predation and scape length in Primula farinosa. Oikos 97:45–51
Faegri K, van der Pijl L (1979) The principles of pollination ecology, 3rd edn. Pergamon Press, New York
Faivre O, Juusola M (2008) Visual coding in locust photoreceptors. PLoS One 3(5): e2173. doi:10.1371/journal.pone.0002173
Fineblum WL, Rausher MD (1997) Do floral pigmentation genes also influence resistance to enemies? The W locus in Ipomoea purpurea. Ecology 78:1646–1654
Gómez JM (2003) Herbivory reduces the strength of pollinator-mediated selection in the Mediterranean herb Erysimum mediohispanicum: consequences for plant specialization. Am Nat 162:242–256
Gould KS (2004) Nature’s Swiss army knife: the diverse protective roles of anthocyanins in leaves. J Biomed Biotechnol 5:314–320
Gronquist M, Bezzerides A, Attygalle A, Meinwald J, Eisner M, Eisner T (2001) Attractive and defensive functions of the ultraviolet pigments of a flower (Hypericum calycinum). PNAS 98:13745–13750
Hagen SB, Folstad I, Jakobsen SW (2003) Autumn colouration and herbivore resistance in mountain birch (Betula pubescens). Ecol Lett 6:807–811
Hempel De Ibarra N, Giurfa M, Vorobyev M (2001) Detection of coloured patterns by honeybees through chromatic and achromatic cues. J Comp Physiol A 187:215–224
Herrera J (1997) The role of colored accessory bracts in the reproductive biology of Lavandula stoechas. Ecology 78:494–504
Irwin RE, Adler LS (2006) Correlations among traits associated with herbivore resistance and pollination: implications for pollination and nectar robbing in a distylous plant. Am J Bot 93:64–72
Irwin RE, Strauss SY, Stortz S, Emerson A, Guibert G (2003) The role of herbivores in the maintenance of a flower color polymorphism in wild radish. Ecology 84:1733–1743
Jacobs GH, Deegan JF, Neitz Y (1998) Photopigment basis for dichromatic color vision in cows, goats, and sheep. Vis Neurosci 15:581–584
Junker RR, Blüthgen N (2008) Floral scents repel potentially nectar-thieving ants. Evol Ecol Res 10:295–308
Karageorgou P, Manetas Y (2006) The importance of being red when young: anthocyanins and the protection of young leaves of Quercus coccifera from insect herbivory and excess light. Tree Physiol 26:613–621
Keasar T, Sadeh A, Gerchman Y, Shmida A (2009) The signaling function of an extra-floral display: what selects for signal development? Oikos 118:1752–1759
Lee DW, Brammeier S, Smith AP (1987) The selective advantages of anthocyanins in developing leaves of mango and cacao. Biotropica 19:40–49
Lev-Yadun S, Gould KS (2008) Role of anthocyanins in plant defence. In: Gould K, Davies K, Winefield C (eds) Anthocyanins: biosynthesis, functions and applications. Springer, NY, pp 21–48
Lev-Yadun S, Dafni A, Flaishman MA, Inbar M, Izhaki I, Katzir G, Ne’eman G (2004) Plant coloration undermines herbivorous insect camouflage. BioEssays 26:1126–1130
Manson JS (2010) The ecological consequences and adaptive functions of nectar secondary metabolites. PhD thesis, University of Toronto
Mateus N, Freitas V (2008) Anthocyanins as food colorants. In: Gould K, Davies K, Winefield C (eds) Anthocyanins: biosynthesis, functions and applications. Springer, NY, pp 283–304
Numata S, Kachi N, Okuda T, Manokaran N (2004) Delayed greening, leaf expansion, and damage to sympatric Shorea species in a lowland rain forest. J Plant Res 117:19–25
Osorio D, Vorobyev M (2005) Photoreceptor sectral sensitivities in terrestrial animals: adaptations for luminance and colour vision. Proc Roy Soc Lond B 272:1745–1752
Rodriguez-Girones MA, Santamaria L (2004) Why are so many bird flowers red? PLoS Biol 2:e350
Simms EL, Bucher MA (1996) Pleiotropic effects of flower-color intensity on herbivore performance in Ipomoea purpurea. Evolution 50:957–963
Sims DA, Gamon JA (2002) Relationships between leaf pigment content and spectral reflectance across a wide range of species, leaf structures and developmental stages. Remote Sens Environ 81:337–354
Singaravelan N, Ne’eman G, Inbar M, Izhaki I (2005) Feeding responses of free-flying honeybees to secondary compounds mimicking floral nectars. J Chem Ecol 31:2791–2804
Sletvold N, Grindeland JM (2008) Floral herbivory increases with inflorescence size and local plant density in Digitalis purpurea. Acta Oecol 34:21–25
Strauss SY, Whittall JB (2006) Non-pollinator agents of selection on floral traits. In: Harder LD, Barrett SCH (eds) Ecology and Evolution of Flowers. Oxford University Press, Oxford, pp 120–138
Treutter D (2006) Significance of flavonoids in plant resistance: a review. Environ Chemistry Lett 4:147–157
Vishnevskaya TM, Shura-Bura TM (1990) Spectral sensitivity of photoreceptors and spectral inputs to the neurons of the first optic ganglion in the locust (Locusta migratoria). Sensory systems and communication in arthropods. Birkhäuser Verlag, Basel, pp 106–111
Vorobyev M, Brandt R, Peitsch D, Laughlin SB, Menzel R (2001) Colour thresholds and receptor noise: behaviour and physiology compared. Vis Res 41:639–653
Winkel-Shirley B (2002) Biosynthesis of flavonoids and effects of stress. Current Opinion Plant Biol 5:218–223
Acknowledgments
The study was supported by the Center for Rationality at the Hebrew University and by an internal research grant from Oranim College to TK. Lars Chittka and Nadav Shashar advised on the color analyses. Some of the locust nymphs were kindly provided by Amir Ayali, Tel Aviv University.
Author information
Authors and Affiliations
Corresponding authors
Rights and permissions
About this article
Cite this article
Gerchman, Y., Dodek, I., Petichov, R. et al. Beyond pollinator attraction: extra-floral displays deter herbivores in a Mediterranean annual plant. Evol Ecol 26, 499–512 (2012). https://doi.org/10.1007/s10682-011-9509-3
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10682-011-9509-3