Size-at-age and body condition of juvenile American lobsters (Homarus americanus) living on cobble and mud in a mixed-bottom embayment in the Bay of Fundy

Abstract

American lobsters, Homarus americanus, prefer structurally complex cobble bottom for settlement and early development, but this habitat is sparse and some juveniles are likely forced to exploit other habitats, such as mud bottom. Size-at-age and body condition of juvenile lobsters may vary between cobble and mud habitats, due to differences in food and shelter the habitats provide. In this study, we used cobble-filled collectors deployed on mud and cobble bottom to capture juvenile lobsters occupying cobble and mud seafloor in a mixed-bottom embayment in the southwestern Bay of Fundy, Canada. We compared their size-at-age using a recently developed age-determination technique, and their body condition using mass–length relationship, RNA/DNA ratio and protein content. Individuals 3 and 4 years of age inhabiting mud bottom had greater carapace length than same-age conspecifics on cobble, which could be due to greater growth of juveniles in the less preferred mud habitat. We also found that for a similar carapace length lobsters on mud had slightly lower body mass than those on cobble. RNA/DNA ratio and protein content did not differ between juveniles sampled from the two habitats. Our results suggest that mud bottom represents a more important habitat for young lobsters than is currently appreciated. We hypothesize that mud bottom has become a more important juvenile habitat in recent years due to high lobster abundance, which may be forcing some juveniles to move from preferred but saturated cobble patches to other habitats, such as mud.