Abstract
Herring-eating killer whales debilitate herring with underwater tail slaps and likely herd herring into tighter schools using a feeding-specific low-frequency pulsed call (‘herding’ call). Feeding on herring may be dependent upon daylight, as the whales use their white underside to help herd herring; however, feeding at night has not been investigated. The production of feeding-specific sounds provides an opportunity to use passive acoustic monitoring to investigate feeding behaviour at different times of day. We compared the acoustic behaviour of killer whales between day and night, using an autonomous recorder deployed in Iceland during winter. Based upon acoustic detection of underwater tail slaps used to feed upon herring we found that killer whales fed both at night and day: they spent 50% of their time at night and 73% of daytime feeding. Interestingly, there was a significant diel variation in acoustic behaviour. Herding calls were significantly associated with underwater tail slap rate and were recorded significantly more often at night, suggesting that in low-light conditions killer whales rely more on acoustics to herd herring. Communicative sounds were also related to underwater tail slap rate and produced at different rates during day and night. The capability to adapt feeding behaviour to different light conditions may be particularly relevant for predator species occurring in high latitudes during winter, when light availability is limited.
Highlights
Investigating top predator behaviour is essential for a full understanding of the ecosystem they inhabit and the role that they play in it
Using acoustically detectable underwater tail slaps as a proxy of feeding activity (Simon et al 2005, 2007; Samarra and Miller 2015), we aimed to assess whether killer whales feed at night, and how acoustic behaviour related to feeding might differ between day and night
Based upon Aikake Information Criterion (AIC) criteria and the ANOVA tests, we found that the models without interaction between the rate of underwater tail slaps and the light period better explained the production of herding calls, whereas for all the other sound categories the models using the interaction term were selected (S2 Table)
Summary
Investigating top predator behaviour is essential for a full understanding of the ecosystem they inhabit and the role that they play in it. Prey abundance and distribution vary spatially within the water column, i.e. in depth, and with time, either on short timescales, such as diel migration, or on longer scales, such as seasonal migration. Such diverse use of the water column by prey, both spatially and temporally, should influence the diving and foraging patterns and behaviour of their predators Day-night differences in light availability may affect predator–prey interactions. Light availability could impact the foraging behaviour of marine predators. Miller et al (2010) revealed day-night differences in the diving behaviour of mammal-eating killer whales that were most
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