Relationships between water-column stratification, phytoplankton cell size and copepod fecundity in Long Island Sound and off central Chile

Abstract

Changes in phytoplankton abundance and size brought on by changes in water-column stratification are shown to affect copepod fecundity. The response of copepods to changes in their food environment, as manifested by changes in rates of egg production, is compared for two different time-scales: seasonal-to-weekly in Long Island Sound, New York, and event-scale-to-daily off the coast of central Chile. The data sets discussed include a time-series of hydrographic and chlorophyll samples along with measurements of copepod egg production (made using an incubation technique) carried out each week in Long Island Sound during 1985 and a 25-day time-series of daily measurements of the same variables at a fixed station in the nearshore coastal upwelling zone off Concepción, Chile, in January 1986. Egg production was often low, suggesting food-limitation. Temporal variations in the fecundity of the copepods Temora longicornis and Acarlia tonsa in Long Island Sound did not follow changes in total phytoplankton biomass, but rather changes in the concentration of chlorophyll in the > 10 μm and > 20 μm size fractions. Off Chile, changes in fecundity of Calanus chilensis mirrored changes in both total phytoplankton biomass and the > 20 μm size fraction. This fact demonstrates that herbivorous copepods follow closely changes in their food environment and suggests that there is a close coupling between food quality of phytoplankton (in terms of particle size), ingestion and egg production by adult females.