Developmental plasticity in larval development in the echinometrid sea urchin Evechinus chloroticus with varying food ration

Abstract

Developmental plasticity in the morphology of planktotrophic echinoid larvae has been studied primarily in temperate sea urchins from the Northern Hemisphere. These studies have shown that echinoplutei with reduced food ration generally respond by increasing the length of the larval arms, and thus the length of the ciliated band, and delaying formation of the rudiment. Using the endemic New Zealand sea urchin Evechinus chloroticus we tested for the presence of developmental plasticity in larvae fed a high or low algal food ration (6000 or 600 Dunaliella cells/ml), or with no algal food. Our results show that developmental plasticity in larval form is seen in a Southern Hemisphere representative of the Family Echinometridae, but the general pattern of longer arms with low food ration was only seen in the earliest part of development. Larvae in the High food treatment were largest in all dimensions and formed rudiments within 23 days of fertilization. Larvae fed a low algal ration or no algal food stalled at the four-arm echinopluteus stage, and were significantly smaller in size, and differed in shape, when compared in a multivariate analysis to the High food treatment. We suggest that the response of echinoplutei to low levels of particulate food is a species-specific trait, depending in part on the level of dependence of the larvae on exogenous food. Previous studies in Lytechinus variegatus, and the present study with E. chloroticus, suggest that in species where development stalls at the four-arm stage, the pattern of longer larval arms with low food ration will only be seen during the initial early period of larval growth. Additionally our results show that there can be significant variation in larval morphology between replicate jars in the same feeding treatment, suggesting that future research on developmental plasticity should also consider differences in larval morphology between culture containers.