Lasting Impact of a Tsunami Event on Sediment‐Organism Interactions in the Ocean

Abstract

AbstractAlthough tsunami sedimentation is a short‐term phenomenon, it may control the long‐term benthic environment by altering seafloor surface characteristics such as topography and grain‐size composition. By analyzing sediment cores, we investigated the long‐term effect of the 2011 tsunami generated by the Tohoku Earthquake off the Pacific coast of Japan on sediment mixing (bioturbation) by an important ecosystem engineer, the heart urchin Echinocardium cordatum. Recent tsunami deposits allow accurate estimation of the depth of current bioturbation by E. cordatum, because there are no preexisting burrows in the sediments. The in situ hardness of the substrate decreased significantly with increasing abundance of E. cordatum, suggesting that echinoid bioturbation softens the seafloor sediment. Sediment‐core analysis revealed that this echinoid rarely burrows into the coarser‐grained (medium‐grained to coarse‐grained) sandy layer deposited by the 2011 tsunami; thus, the vertical grain‐size distribution resulting from tsunami sedimentation controls the depth of E. cordatum bioturbation. As sandy tsunami layers are preserved in the seafloor substrate, their restriction on bioturbation continues for an extended period. The results demonstrate that understanding the effects on seafloor processes of extreme natural events that occur on geological timescales, including tsunami events, is important in revealing continuing interactions between seafloor sediments and marine benthic invertebrates.