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Digitale Medien

Comparative studies of crustacean spectral sensitivity (1968)

Goldsmith, Timothy H. ; Fernandez, Hector R.

Springer

Journal of comparative physiology 60 (1968), S. 156-175

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ISSN: 1432-1351

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie , Medizin

Notizen: Summary Spectral sensitivity of the lateral eyes of the isopodPorcellio scaber (wood louse) and the decapodsCallinectes sapidus (blue crab),Palaemonetes paludosus (Everglades prawn),Orconectes virilis, andO. immunis (crayfish) have been measured between 300 and 660 nm by determining the reciprocal number of photons required to evoke a constant size retinal action potential. Porcellio is maximally sensitive at 515 nm andCallinectes at 505 nm. Both species have a single pigment system, as spectral sensitivity is unchanged by red light adaptation. Palaemonetes appears to have a dichromatic color vision. Sensitivity of the dark-adapted eye is dominated by a receptor maximally sensitive at 550–555 nm, but red or yellow adaptation discloses a uv pigment with λmax at about 380 nm. Present evidence suggests the 555 and 380 nm pigments are located in different receptor cells. Orconectes has peak sensitivity at 565 nm, but under red light adaptation and close to the electroretinographic threshold a second sensitivity maximum appears at 425 nm. As in the prawn, these peaks seem to indicate the presence of a two-receptor color vision system. The corneas ofOrconectes, Callinectes, andHomarus (lobster) are relatively thick, and microspectrophotometric measurements show near ultraviolet absorption as well as the protein peak at 280 nm. By contrast,Palaemonetes andMusca (housefly), species with near ultraviolet receptors, have thinner corneas which are transparent through the near ultraviolet. The crystalline cone ofPalaemonetes likewise shows no near ultraviolet absorption but a strong protein band at 280 nm. The scarcity of ultraviolet receptors in the compound eyes of crustacea, in contrast to their common occurrence in insects, is thought to be related to the relative absence of ultraviolet wavelengths in most aquatic environments.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00878449

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Digitale Medien

E-Vector and wavelength discrimination by retinular cells of the crayfish Procambarus (1970)

Waterman, Talbot H. ; Fernández, Hector R.

Springer

Journal of comparative physiology 68 (1970), S. 154-174

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Details

ISSN: 1432-1351

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie , Medizin

Notizen: Summary 1. Receptor potentials have been recorded intracellularly from single retinular cells in the anterior and dorsal quadrants of the compound eye of the crayfish Procambarus (Fig. 1) stimulated with equal quantum flashes of linearly polarized monochromatic light. Comparisons between two orthogonal stimulus e-vectors respectively parallel and perpendicular to the microvilli of each receptor cell's rhabdomere were made sequentially in about one minute's running time at 20 nm intervals between 400 and 740 nm (Fig. 2). 2. Of the 91 cells studied 17 responded maximally in the violet (av. λ max= 440 nm) whereas the other 74 cells were most responsive in the yellow-orange (av.λ max=594 nm) (Table 1). For the latter group the λ max of individual cells ranged widely from 538 to 634 nm (Fig. 4). Violet sensitive cells were found only in the anterior quadrant of the eye. 3. For 29 cells spectral sensitivity curves were plotted from the spectral efficiency curves using response-energy functions determined at λ max or spectral efficiency curves taken at two or more stimulus energy levels (Figs. 5B, 6B, 7). When the sensitivity curves are normalized the vertical and horizontal e-vector responses are closely similar indicating that dichroism of the visual pigment is undoubtedly responsible for the observed differential sensitivity (Figs. 5C, 6C). 4. For 51 yellow-orange cells where e-vector comparisons can be made more than half (57%) were more responsive to vertical e-vector (Table 2) corresponding very closely with the estimated percentage of retinular cells with microvilli parallel to the body's dorso-ventral axis (57.2%). In contrast five of the seven violet cells available for this comparison gave stronger responses to horizontal e-vector suggesting they may predominantly be the one asymmetrical cell in each ommatidium. Nevertheless both color discriminating types were found to be present in both e-vector channels. 5. For the 29 cells for which spectral sensitivity curves can be plotted the average sensitivity ratio for the two polarization planes is 3.1 with a range from 1.2 to 11.9 at λ max. Since dichroic absorption ratios directly measured in crayfish have previously been shown to be about 2, the origin of greater spectral sensitivity ratios in individual retinular cells most likely must depend on other functions than photon absorption by a single rhabdomere.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00297692

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