Abstract

Five genera of Miocene bivalves evolved antipredatory adaptations in response to predation by drilling naticid gastropods. I examined the evolution of two traits affecting predator‐prey interaction, prey shell thickness (TH) and internal volume (IV). Thickness controls predation costs by determining drilling time, and internal volume influences the benefit derived by the predator. Internal volume showed no consistent pattern of temporal change among the taxa studied. IV fluctuated nondirectionally during the history of most genera, though both increasing and decreasing trends occurred within species ofAstarte. In contrast, all five genera exhibited significant thickness increases (from 8–157%) during the three‐million‐year interval. Both gradual intraspecific and interspecific directional changes occurred. Taxa with the greatest predation intensities displayed the most change, suggesting that predation selected for the thickness increases. Increased thickness apparently reduced predation; a significant negative correlation between TH and predation intensity occurred within four of the bivalve genera. Improvement of predator capabilities apparently did not keep pace with increased antipredatory morphologic adaptations over the interval studied.