Abstract
Most species of flower-visiting Hymenoptera are trichromatic, with photoreceptor spectral sensitivity peaks in the UV, blue and green regions of the spectrum. Red flowers, therefore, should be relatively difficult to detect for such insects. Nevertheless, in population biological studies in the bumblebee, Bombus terrestris, the Sardinian island population (B. t. sassaricus) displayed significantly higher responses to red artificial flowers (in tests of innate colour choice and detectability) than several mainland populations of the same species (Chittka et al. in Cognitive ecology of pollination, pp 106–126, 2001; Popul Ecol 46:243–251, 2004). Since there is relatively little physiological data on population differences in sensory systems, we used intracellular recording to compare photoreceptor spectral sensitivity in B. t. sassaricus and the southern European and Mediterranean population, B. t. dalmatinus. The results show both populations to be UV–blue–green trichromats, but with a small but significant increase in long-wave sensitivity in island bees. Spectral peaks were estimated at 348, 435 and 533 nm (B. t. dalmatinus) and 347, 436 and 538 nm (B. t. sassaricus) for UV, blue and green receptors, respectively. There were no significant differences in UV and blue receptor sensitivities. We found no photoreceptors maximally sensitive to red spectral light in the Sardinian population and model calculations indicate that the behavioural population differences in colour responses cannot be directly explained by receptor population differences.
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Acknowledgments
We thank Simon Laughlin for essential advice on constructing the visual electrophysiology set-up. This work was supported by NERC (UK) Research Grant NER/B/S/2003/00281 to LC and PS. TFD was supported by the Post-Doc Program of the German Academic Exchange Service.
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Electronic supplementary material 1. Relative spectral sensitivities of UV, blue and green receptors of B. t. dalmatinus and B. t. sassaricus. Sensitivity was calculated in 4 nm steps after fitting exponential templates of the form described by Stavenga et al. (1993) to the normalized, electrophysiologically-measured sensitivity data for each receptor class from each population. (DOC 220 kb)
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Skorupski, P., Döring, T.F. & Chittka, L. Photoreceptor spectral sensitivity in island and mainland populations of the bumblebee, Bombus terrestris . J Comp Physiol A 193, 485–494 (2007). https://doi.org/10.1007/s00359-006-0206-6
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DOI: https://doi.org/10.1007/s00359-006-0206-6