Abstract
The spectral sensitivity of the fish and the suitable light wavelength range for survival and growth performance of juvenile Pacific bluefin tuna (PBT) were investigated. The spectral sensitivity peak of PBT under photopic condition was observed between 449 and 503 nm, which corresponded to their natural habitat. The fish were reared in tanks irradiated continuously with 4 kinds of light emitting diodes (LEDs). The maximum wavelength of LEDs used for the rearing experiment were 460 nm (blue), 520 nm (green), 630 nm (red), and 450–680 nm (white). There was no notable difference in survival rate among fish in the four LED groups. However, the growth of juvenile PBT was lesser under red light compared to the green and white light wavelengths. These results suggest that PBT juveniles have low sensitivity to red light because the fish are rarely exposed to the red light wavelengths under natural ocean conditions. Thus, low sensitivity to red light negatively influenced the feeding behavior and growth of PBT juveniles.
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