Changes in the visual environment affect colour signal brightness and shoaling behaviour in a freshwater fish

Changes in the visual environment affect colour signal brightness and shoaling behaviour in a freshwater fish

Aquatic organisms are exposed to highly variable light environments, which can affect the efficacy of colour patterns that are used for communication or camouflage. Specifically, dissolved organic matter that is common in turbid freshwater habitats tends to absorb short wavelength light causing a sh...

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Bibliographic Details
Published in:Animal behaviour Vol. 83; no. 3; pp. 783 - 791
Main Authors: Kelley, Jennifer L., Phillips, Bree, Cummins, Gabrielle H., Shand, Julia
Format: Journal Article
Language:English
Published: London Elsevier Ltd 01-03-2012
Harcourt Brace Jovanovich Ltd
Subjects:
adaptive coloration
Animal behavior
Color
colour vision
crypsis
digital images
dissolved organic matter
Fish
freshwater
freshwater fish
Habitats
light intensity
lighting
Melanotaenia
Melanotaenia australis
rainbowfish
shoaling
signalling
social behavior
spectroscopy
turbidity
visual ecology
wavelengths
turbidity
visual ecology
adaptive coloration
crypsis
rainbowfish
Melanotaenia australis
signalling
colour vision
shoaling
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Summary:Aquatic organisms are exposed to highly variable light environments, which can affect the efficacy of colour patterns that are used for communication or camouflage. Specifically, dissolved organic matter that is common in turbid freshwater habitats tends to absorb short wavelength light causing a shift towards environments that are rich in long wavelengths (orange/red). We investigated how changes in the intensity and wavelength of light affect colour pattern expression and shoaling behaviour in a colourful freshwater fish, the western rainbowfish, Melanotaenia australis. We used light filters to simulate environments rich in organic matter (yellow filters: long wavelength dominated, reduced luminance), habitats with full-spectrum lighting but with reduced luminance (neutral-density filters) and a control in which no changes in the light environment occurred (no filters). We measured changes in the area and brightness of colour patterns using digital photography and spectrometry and we evaluated the effect of lighting on fish social (shoaling) behaviour. Rainbowfish in the dissolved organic matter treatment showed an increase in the area and brightness of their colour patterns and individuals shoaled further apart than those in the control group. The increased brightness of red colours in environments rich in organic matter could act to enhance colour pattern conspicuousness, allowing individuals to maintain communication in altered visual environments. However, an understanding of the species’ visual system is required to determine levels of contrast of the colour patterns with respect to variable background environments. ► We investigated colour pattern plasticity in variable light environments. ► Fish in turbid-like environments increased the brightness of their colour patterns. ► The simulated increase in turbidity also affected shoaling behaviour. ► Both physiological and behavioural traits maintain visual signalling behaviour.
Bibliography:http://dx.doi.org/10.1016/j.anbehav.2011.12.028
ISSN:0003-3472
1095-8282
DOI:10.1016/j.anbehav.2011.12.028