FORUM An Insect’s View of a Flower by Thomas Eisner T he discovery that the visual world of insects is different from our own, by virtue of the insects’ sensitivity to ultraviolet light, was quite literally an eye opener. The papers on the subject, dating back to the pioneering efforts of Lubbock (1883), von Frisch (1914), Kühn and Pohl (1921), and Lutz (1924), and including the masterful studies by Daumer (1956, 1958), make for marvelous reading. In fact, Daumer’s 1958 paper on Blumenfarben, wie sie die Bienen sehen (floral colors as seen by the honeybee) rates as a classic of the entomological literature. Thanks to this work we know that there is a “color wheel” in the world of the honeybee, in which three domains¯yellow, blue , and ultraviolet¯are the primaries. We know further that the honeybee perceives the sum of any two primaries as a new color, different from the two colors that were summed. Terms have been coined to denote such mixed colors, which if they include ultraviolet may be seen as “new” by the insect but not by us. The addition of yellow and ultraviolet, for instance, which we see as yellow because of our blindness to ultraviolet, is perceived as neither yellow nor ultraviolet by the honeybee but as a new color that has been termed “bee purple.” Daumer showed that by photographing a flower through yellow, blue and ultraviolet filters, one can analyze how the flower appears in the three primary colors of the bee’s eye, and deduce how these images sum to generate the composite floral Gestalt seen by the pollinator. If, for example, one photographs the black-eyed Susan (Rudbeckia hirta) through yellow and ultraviolet filters (one can omit the blue filter since the black- 142 eyes Susan reflects no blue), one obtains two images (Fig.1, top photos) depicting, respectively, the pattern of reflection of yellow by the flower (a pattern also seen by us) and the pattern of ultraviolet reflection (which is invisible to us). How does a honeybee see such a flower? It sees the central disk as we do, in black, because the disc absorbs all light (but note small patch in center of disk, which dimly reflects ultraviolet). Surrounding the disk is a zone, comprising the basal portion of the petals, that is intensely dark in the ultraviolet, signifying that it is ultraviolet-absorbent.1 That area reflects yellow, therefore it is vis1 Special pigments, in the form of flavonols, account for the ultra-violet absorption in this basal region of the petals (Thompson et al. 1972) ible to the insect as yellow. Beyond this basal zone the petals reflect both yellow and ultraviolet (note that the petal tips are bright in the ultraviolet picture). The insect therefore sees the petal tips as the sum of yellow and ultraviolet, in other words as “bee purple.” A photographic rendition of the combined yellow and ultraviolet reflection patterns of the black-eyed Susan is given in Fig. 1 (bottom), providing some idea of what this flower might look like to the pollinator. The picture was taken by photographing the flower first in yellow light, and then, on the same film frame, in the ultraviolet (through an ultraviolet filter, with electronic flash as the light source). The film used was Kodak EPY Professional (tungsten, ASA 64), which I found to be moderately sensitive to ultraviolet light. Although the technique used here for combining the visible and ultraviolet features of a flower is broadly applicable, it has its limitations. Ultraviolet is transduced into blue by the photographic emulsion, so that if the floral image has both a blue and an ultraviolet component, these components will not be unambiguously resolved in the photos. But the technique is applicable to flowers that offer a combination of y ellow and ultraviolet reflectances, and such flowers are plentiful. The technique is also not meant to substitute for any alternative procedures, including Daumer’s technique, that provide for the quantification of reflectances in the various colors. In picturing the black-eyed Susan in the wild, beckoning to the pollinator, it should be imagined in its green surroundings. Foliage, it should be noted, reflects moderately in the honeybee’s three primary colors, meaning that to the honeybee foliage appears in AMERICAN ENTOMOLOGIST • Fall 2002 the equivalent of our gray. Against such a drab background, the multicolored floral head of the black-eyed Susan must have the projecting power of a beacon. References Daumer, K. 1956. Reizmetrische Untersuchung des Farbensehens der Biene. Z. Vergl. Physiol. 38: 413-478 Daumer, K. 1958. Blumenfarben, wie sie die Bienen sehen. Z. Vergl. Physiol. 41: 49-110. Kühn, A., and R. Pohl. 1921. Dressurfähigkeit der Bienen auf Spektrallinien. Naturwissenschaften 9: 738-740 Lubbock, J. 1882. Ants, bees and wasps. Kegan, Trench & Company, London. Lutz, F. E. 1924. Apparently non-selective characters and combinations of characters including a study of ultraviolet in relation to the flower-visiting habits of insects. Ann. N.Y. Acad. Sci. 29: 181-283 Thompson, W. R., J. Meinwald, D. Aneshansley, and T. Eisner. 1972. Flavonols: pigments responsible for ultraviolet absorption in nectar guide of slower. Science 177: 528-530. Von Frisch, K. 1914. Demonstration von Versuchen zum Nachweis des Farbensinnes bei angeblich total farbenblinden Tieren. Verhandl. Deutsch. Zool Ges. Freiburg 50-58. Thomas Eisner is Director of the Cornell Institute for Research in Chemical Ecology, Cornell University Ithaca, NY 14853. 7 AMERICAN ENTOMOLOGIST • Volume 48, Number 3 The most widely-read magazine devoted to the science, mystery, and magic of insects. AMERICAN ENTOMOLOGIST American Entomologist is a quarterly, general interest entomology magazine written for both scientists and nonscientists. With colorful, illustrated feature articles, peerreviewed scientific reports, provocative and humorous coluns, letters, book reviews, and obituaries, American Entomologist is ideal for the advanced researcher or a high school student interested in insects. Subscriptions are free with ESA membership. Nonmembers can subscribe by sending the proper fees to the address below. 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