TEMPERATURE-DEPENDENT GROWTH AND PRODUCTION BY A MARINE COPEPOD

Highly synchronous cohorts of the copepod E. herdmani at a station near Halifax, Nova Scotia [Canada], were followed in samples taken during late July and early Aug., 1980. Individuals from the same population were reared in the laboratory from copepodite I (CI) to adult in conditions of food satiation. Development times and adult body sizes in nature were about the same as predicted for comparable temperatures in the laboratory. Weight increments between CI and adult male in samples from nature were exponential. Females became heavier, because of eggs, after CIII, but developed more slowly, so that their specific growth rates were about the same as for males. Production estimated from weights and stage increments in successive samples (cohort method) was adequately predicted from biomasses in samples and temperature-dependent development times from the laboratory. Production of egg matter by adult females was also adequately predicted by temperature-dependent growth rates of younger stages. These rules of development, growth and production need wider empirical testing and theoretical justification.