4.5 Article

Lens and cornea limit UV vision of birds - a phylogenetic perspective

Journal

JOURNAL OF EXPERIMENTAL BIOLOGY
Volume 224, Issue 20, Pages -

Publisher

COMPANY BIOLOGISTS LTD
DOI: 10.1242/jeb.243129

Keywords

Ultraviolet vision; Spectral sensitivity; Bird visual ecology; Colour vision

Categories

Funding

  1. Swedish Research Council, Stockholm [2012-2212, 2016-03298]
  2. Marius Jakulis Jason Foundation, Lithuania
  3. Lunds Universitet
  4. Swedish Research Council [2016-03298] Funding Source: Swedish Research Council

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Most vertebrates have UV-sensitive vision, which is limited by the transmittance of ocular media, with lens transmittance being the main factor determining overall transmittance. Eye size is positively correlated with OMT transmittance.
Most vertebrates have UV-sensitive vision, but the UV sensitivity of their eyes is limited by the transmittance of the ocular media, and the specific contribution of the different media (cornea, lens) has remained unclear. Here, we describe the transmittance of all ocular media (OMT), as well as that of lenses and corneas of birds. For 66 species belonging to 18 orders, the wavelength at which 50% of light is transmitted through the ocular media to the retina (lambda(T)(0.5)) ranges from 310 to 398 nm. Low lambda(T)(0.5) corresponds to more UV light transmitted. Comeal lambda(T)(0.5 ) varies only between 300 and 345 nm, whereas lens lambda(T)(0.5) values are more variable (between 315 and 400 nm) and tend to be the limiting factor, determining OMT in the majority of species. OMT lambda(T)(0.5) is positively correlated with eye size, but lambda(T)(0.5) of corneas and lenses are not correlated with their thickness when controlled for phylogeny. Comeal and lens transmittances do not differ between birds with UV- and violet-sensitive SWS1 opsin when controlling for eye size and phylogeny. Phylogenetic relatedness is a strong predictor of OMT, and ancestral state reconstructions suggest that from ancestral intermediate OMT, highly UV-transparent ocular media (low lambda(T)(0.5)) evolved at least five times in our sample of birds. Some birds have evolved in the opposite direction towards a more UV-opaque lens, possibly owing to pigmentation, likely to mitigate UV damage or reduce chromatic aberration.

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