Hydrostatic pressure affects selective tidal stream transport (STST) in the North Sea brown shrimp (Crangon crangon, L.)

Abstract

The brown shrimp (Crangon crangon) is a highly abundant invertebrate in the North Sea with its life cycle spanning deeper offshore spawning and shallow onshore nursery areas. To overcome the long distances between these two habitats, brown shrimp are suspected to use selective tidal stream transport (STST) moving with the cyclic tide currents towards their preferred water depths. However, it is not known which stimulus actually triggers STST behavior in brown shrimp. In this work, we determined the influence of different hyperbaric pressures on STST behavior of juvenile brown shrimp. Brown shrimp's activity was recorded in a hyperbaric pressure chamber that supplied constant and dynamic pressure conditions simulating different depths with and without a tidal cycle. Subsequent Wavelet and Fourier analysis were performed to determine the periodicity in the activity data. The results of the experiments show that STST behavior in brown shrimp varies with pressure and therefore with depth. We further show that STST behavior can be initiated by cyclic pressure changes. However, an interaction with one or more other environmental triggers remains possible. Furthermore a security ebb-tide activity was identified that may serve to avoid potential stranding in shallow waters and is “remembered” by shrimp for about 1.5 days without contact to tidal triggers.