Groups of beaked whales reduce predation risk through extreme diving synchronization, according to a study in Scientific Reports. This behaviour has not been observed in other deep diving whales and the underlying reasons have remained unclear.
Natacha Aguilar de Soto, Mark Johnson, Peter Madsen and colleagues analysed data on 26 beaked whales carrying sensors that tracked the depths they swam to, the steepness of their dives, and the sounds they made. The authors observed that the whales performed closely coordinated deep dives in order to forage using echolocation (using sounds to search for prey) but limited vocalizations at shallow depths where they are vulnerable to hunting by killer whales. Beaked whales began vocalizations at an average depth of 450 metres before searching for food individually. Whales then reunited as a group at an average depth of 750 metres and ascended silently to the surface at a shallow angle covering an average horizontal distance of one kilometre.
The authors suggest that by limiting vocalizations to depths out of the range of killer whale attacks and surfacing at unpredictable locations, beaked whales prevent killer whales from tracking them. However, the authors note that this strategy is costly; long silent ascents from dives lasting more than one hour reduce foraging time by around 35% compared to the diving strategies used by other toothed whales.
The findings suggest that predation risk may have been a strong evolutionary force driving the unique diving and vocal behaviour of beaked whales. This may also help to explain the whale's reaction to naval sonar which, has been linked to mass strandings.
Planetary Science: Mercury may have shrunk less than previously thoughtCommunications Earth＆Environment
Environment: Polyester fibres found to be widespread in the ArcticNature Communications
Planetary science: Over 100,000 new craters identified on the MoonNature Communications