Retinal adaptations of southern bluefin tuna larvae: implications for culture

Hilder, Pollyanna E., Battaglene, Stephen C., Hart, Nathan S., Collin, Shaun P., and Cobcroft, Jennifer M. (2019) Retinal adaptations of southern bluefin tuna larvae: implications for culture. Aquaculture, 507. pp. 222-232.

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Abstract

We examined Southern bluefin tuna, Thunnus maccoyii, larvae to identify specific retinal adaptations that would indicate both important parameters for culture and larval ecology in the wild. Plastic resin histology, microspectrophotometry and behavioural feeding responses were used to describe visual development. Thunnus maccoyii larvae reflected the visual morphogenesis template commonly observed in many other marine fish species exhibiting indirect development. First-feeding (3 days post-hatching, [dph], 3.4mm standard length [SL]) larvae possessed tightly packed single cone photoreceptors. Rods and twin cones were present in the retina in post-flexion larvae (21 dph, 8.39mm fork length [FL]) with cone mosaic patterns observed in juveniles (30 dph, 21mm FL). Based on the spacing of adjacent photoreceptors and focal length, first feeding larvae had a maximum theoretical visual acuity of 1.23 ± 0.11° that decreased to 0.14 ± 0.02° at 30 dph. Thunnus maccoyii displayed high cell density in the ventral retinal region (cones, bipolar and horizontal cells), a low convergence of cone cells to ganglion cells throughout the retina during larval development (1.1 ± 0.2 to 1.4 ± 0.3 at 3 dph and 30 dph, respectively), and early development of retinal pigment epithelium (RPE) migration. Microspectrophotometry showed twin cone visual pigments maximally sensitive to light in the blue-green part of the visual spectrum (wavelength of maximum absorption [λmax] of 494 nm, 507 nm and 524 nm), and behavioural experiments showed they fed preferentially at these wavelengths. Increased retinal cone densities in the ventral region indicated a localized region specialized for acute vision for prey and predator detection in the upward direction (dorsal plane) at an early age, representing a possible adaptation to life in deeper oceanic waters. The apparent high acuity and photopic sensitivity observed in T. maccoyii is hypothesised to be associated with the ability to feed in low light conditions. This has important practical considerations in determining lighting regimes for culture of T. maccoyii and possibly for other tuna species.

Item ID: 58125
Item Type: Article (Research - C1)
ISSN: 1873-5622
Keywords: marine fish larvae; aquaculture; hatcheries; vision; fish larvae; eye development; microspectrophotometry; light; spectral sensitivity and retina; Southern bluefin tuna
Copyright Information: Crown Copyright © 2019 Published by Elsevier B.V. All rights reserved.
Funders: Australian Seafood Cooperative Research Centre (ASCRC), Australian National Network of Marine Science (ANNiMS)
Date Deposited: 24 Apr 2019 01:30
FoR Codes: 30 AGRICULTURAL, VETERINARY AND FOOD SCIENCES > 3005 Fisheries sciences > 300501 Aquaculture @ 100%
SEO Codes: 83 ANIMAL PRODUCTION AND ANIMAL PRIMARY PRODUCTS > 8301 Fisheries - Aquaculture > 830107 Aquaculture Tuna @ 100%
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