Summary
Free-flying black-chinned hummingbirds (Archilochus alexandri) at a site in southeastern Arizona were attracted to artificial feeders displaying narrow spectral bands of light (7 nm half band width). The birds were taught to discriminate between pairs of wavelengths of approximately equal brightness but with a spectral separation of 10 nm. After training, performance of the birds was not significantly changed by alterations in the relative intensities of the two lights. Moreover, when the spectral composition of the test and training lights was made identical, the birds did not learn to make a discrimination on the basis of intensity differences of 0.5 or 1 log unit. In the learned foraging behavior of these hummingbirds, the salience of brightness is therefore inconsequential relative to hue.
Discrimination scores for a constant 10 nm separation of test and training wavelengths were determined between 410 and 650 nm. This measure of the spectral dependence of wavelength discrimination shows a deterioration of performance at the red end of the spectrum but not in the blue and violet. Moreover, the minima at 585 and 555 nm indicate more structure than is present in this region of the spectrum in the human hue discrimination curve, and are similar but not identical to data on pigeon. These results are consistent with a growing body of evidence suggesting that the color space of birds may be more than three dimensional.
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This work was supported by NIH grants EY03266 and EY00222. We are indebted to Sally and Walter Spofford, who generously allowed us to work at their home, Aguila-Rancho, during May and June of 1980, and without whose kind help these experiments could not have been performed.
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Goldsmith, T.H., Collins, J.S. & Perlman, D.L. A wavelength discrimination function for the hummingbirdArchilochus alexandri . J. Comp. Physiol. 143, 103–110 (1981). https://doi.org/10.1007/BF00606073
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DOI: https://doi.org/10.1007/BF00606073