Ghost crab populations respond to changing morphodynamic and habitat properties on sandy beaches
Abstract
The morphodynamic state and habitat properties of microtidal sandy beaches largely account for variations
in macrofauna structure. In ecological theory, the habitat harshness hypothesis and the habitat
safety hypothesis explain variations in macrofauna populations of the intertidal and supratidal zones of
sandy beaches. The former hypothesis states that intertidal macrofauna should increase from reflective
to dissipative beaches. The latter hypothesis supports the idea that supratidal species are more successful
on reflective beaches, given their relative independence from the swash. However, trends in abundance
of supratidal species, particularly crustaceans, have been unclear and further investigation is therefore
needed. This study tested the two hypotheses on the largest invertebrate intertidal-to-supratidal crustacean
on sandy beaches, namely the ghost crab (genus Ocypode). Variations in ghost crab burrow
density, abundance, size and across-shore distribution were measured on four warm-temperate
microtidal sandy beaches in KwaZulu-Natal, South Africa. Burrow numbers increased with beach morphodynamic
state, while average burrow size decreased. The steepest, narrowest and most inundationprone
beach represented the least hospitable environment for the ghost crabs. The results that are reported
here tend to support the habitat harshness hypothesis. However, the relevance of i) individual
physical variables, ii) tidal action, and iii) the ecology of various species, in shaping ghost crab population
dynamics, is also discussed. The results contribute to the knowledge regarding population dynamics of
intertidal and supratidal crustaceans across beach types.