The energetics of 'airtime': estimating swim power from breaching behaviour in fishes and cetaceans

J Exp Biol. 2020 Jan 13;223(Pt 1):jeb216036. doi: 10.1242/jeb.216036.

Abstract

Displays of maximum swimming speeds are rare in the laboratory and the wild, limiting our understanding of the top-end athletic capacities of aquatic vertebrates. However, jumps out of the water - exhibited by a diversity of fish and cetaceans - might sometimes represent a behaviour comprising maximum burst effort. We collected data on such breaching behaviour for 14 fish and cetacean species primarily from online videos, to calculate breaching speed. From newly derived formulae based on the drag coefficient and hydrodynamic efficiency, we also calculated the associated power. The fastest breaching speeds were exhibited by species 2 m in length, peaking at nearly 11 m s-1; as species size decreases below this, the fastest breaches become slower, while species larger than 2 m do not show a systematic pattern. The power associated with the fastest breaches was consistently ∼50 W kg-1 (equivalent to 200 W kg-1 muscle) in species from 20 cm to 2 m in length, suggesting that this value may represent a universal (conservative) upper boundary. And it is similar to the maximum recorded power output per muscle mass recorded in any species of similar size, suggesting that some breaches could indeed be representative of maximum capability.

Keywords: Cetacean; Fish; Hydrodynamics; Jump; Teleost; Velocity.

MeSH terms

  • Animals
  • Cetacea / physiology*
  • Energy Metabolism*
  • Fishes / physiology*
  • Swimming / physiology*