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Data from: Blood-red colour as a prey-choice cue for mosquito specialist predators

Citation

Taylor, Lisa; Cross, Fiona; Jackson, Robert (2022), Data from: Blood-red colour as a prey-choice cue for mosquito specialist predators, Dryad, Dataset, https://doi.org/10.5061/dryad.9cnp5hqjd

Abstract

Specialist predators are innately and distinctively proficient at targeting specific prey types. This is enabled by behavioural, perceptual, and cognitive mechanisms that can only be understood using carefully-designed experiments. Evarcha culicivora is an East African jumping spider that feeds on vertebrate blood acquired indirectly by actively targeting blood-carrying female mosquitoes as preferred prey. Here we asked whether these spiders use the colour red to locate this prey. In Objective 1, we used spectrophotometry to document the changing redness of mosquitoes in the 17 hours following blood meals. In Objective 2, we used vision-based choice tests to document how E. culicivora’s preference for blood-carrying mosquitoes changes over time (using an interval comparable to that in Objective 1). We found that E. culicivora exhibits the strongest preference for blood-carrying mosquitoes during the first 6 hours after those mosquitoes had fed on blood and that this time interval corresponded to when mosquitoes exhibit the reddest coloration. Based on this, we then took mosquitoes that had never fed on blood and manipulated their colour using a blend of red food dye to make them appear blood-fed (i.e., by matching their spectral properties to mosquitoes that had fed on blood within the previous 6 hours). We also created grey-dyed mosquitoes that matched the spectral properties of those that had never fed on blood. In Objective 3, we found that E. culicivora did not visually discriminate between our red-dyed mosquitoes and blood-carrying mosquitoes; this indicated that, to E. culicivora, our red-dyed mosquitoes appropriately resembled blood-carrying mosquitoes. Finally, in Objective 4, we showed that E. culicivora consistently preferred red-dyed mosquitoes over grey-dyed mosquitoes, supporting the hypothesis that E. culicivora uses some aspect of red coloration to locate their preferred prey. We discuss how these findings relate to cognitive processes, colour-based communication, and sensory exploitation.   

Methods

Data collection is as described in the accompanying manuscript

Funding