Effects of organic additions to sediment, and maternal age and size, on patterns of offspring investment and performance in two opportunistic deposit-feeding polychaetes

The investment made by a reproducing organism in its offspring can be affected by both extrinsic (environmental) and intrinsic (female condition) factors. The purpose of this study, conducted between December 1990 and June 1992, was to examine the influence of organic additions to sediment, and female age and size, on patterns of offspring investment and performance in the opportunistic polychaete Capitella sp. I (cf. Capitella capitata Farbricius). Sediment treatments were composed of marsh mud enriched with sewage or algae, or spiked with #2 fuel oil. All three of these additions are associated with opportunistic responses in Capitella sp. I populations in the laboratory and field. As a means of comparison, effects of sewage additions were also examined on the spionid Streblospio benedicti Webster. Organic additions to mud had no detectable effect on the C or N content of embryos in either species. However, sewage had a positive effect on juvenile performance in Capitella sp. I. Juveniles produced by adult Capitella sp. I in the sewage treatment grew 2 times larger (in 2 wk) than juveniles produced by adults in the mud treatment when these juveniles were raised in the same sediment type (mud). Such effects may facilitate opportunistic responses in Capitella sp. I offspring by reducing time to first reproduction. In addition to treatment sediment effects, maternal age and size had a strong influence on patterns of offspring investment in Capitella sp. I. The material investment measured in collected embryos declined with maternal age in the oil and sewage treatments. The C:N ratio of embryos increased with maternal age for Capitella sp. I except in the algae treatment, which showed no effect of maternal age. Juvenile growth decreased with maternal age in the sewage treatment for Capitella sp. I. Maternal size appeared to have a positive effect on embryo investment in the mud and oil treatments, where reproducing worms were smallest. Previous studies of Capitella sp. I have documented a broad range of environmentally induced responses in growth and fecundity. The results of this study emphasize the importance of maternal environment, age, and size effects on the relationship between offspring investment and performance. Such effects may have profound consequences for the dynamics of populations and the fitness of individuals.