The recent observation of fluorescence emission from photoreceptor cells in flies1 offers a new opportunity to map the distribution of the various spectral types in a highly organized retinal mosaic. Previous studies had led to the conclusion that in each ommatidium the two central receptor cells are quite distinct from their six neighbours in terms of anatomical projection2,3, visual pigment and physiology4. We show here that in a restricted, well defined region of the male eye only, one of these central cells resembles its six neighbours not only in having the same visual pigment and physiological properties, but also in sending its axon to the same neuropile. A clue to the function of this sexually dimorphic retinal organization is given by the fact that these male-specific cells dominate the frontal-dorsal part of the retina (fovea) which is used by the male to track females in aerobatic chases5,6. We suggest that the male fovea, already known to drive sex-specific higher-order neurones7, has sacrificed colour vision for other more vital kinds of information processing such as improving quantum catch and possibly also contrast transfer or movement detection.
[1]
Nicholas J. Strausfeld,et al.
Sexually dimorphic interneuron arrangements in the fly visual system
,
1980,
Proceedings of the Royal Society of London. Series B. Biological Sciences.
[2]
Boschek Cb.
On the fine structure of the peripheral retina and lamina ganglionaris of the fly, Musca domestica.
,
1971
.
[3]
W. W. Stewart,et al.
Functional connections between cells as revealed by dye-coupling with a highly fluorescent naphthalimide tracer
,
1978,
Cell.
[4]
N. Franceschini,et al.
Evidence for a sensitising pigment in fly photoreceptors
,
1977,
Nature.
[5]
Gilbert D. McCann,et al.
Spectral and Polarization Sensitivity of the Dipteran Visual System
,
1972,
The Journal of general physiology.
[6]
Kuno Kirschfeld,et al.
The Dorsal Compound Eye of Simuliid Flies:
,
1976
.