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EFFECTS OF A CONTAMINATED SEDIMENT ON LIFE HISTORY TRAITS AND POPULATION GROWTH RATE OF NEANTHES ARENACEODENTATA (POLYCHAETA:NEREIDAE) IN THE LABORATORY
Citation:
Pesch, C., W.R. Munns, Jr., AND R. Gutjahr-Gobell. EFFECTS OF A CONTAMINATED SEDIMENT ON LIFE HISTORY TRAITS AND POPULATION GROWTH RATE OF NEANTHES ARENACEODENTATA (POLYCHAETA:NEREIDAE) IN THE LABORATORY. U.S. Environmental Protection Agency, Washington, D.C., EPA/600/J-91/236 (NTIS PB92108059), 1991.
Description:
The effects of a highly contaminated sediment on life history traits and population dynamics of the nereid polychaete Neanthes arenaceodentata Moore were assessed in a laboratory experiment. Survival, growth and fecundity were measured for one generation of worms exposed to 40 and 10% Black Rock Harbor, Connecticut (BRH) sediment (a contaminated sediment), 100% reference (REF) sediment from central Long Island Sound (the control) and a no-sediment treatment (to follow progress of pairing and reproduction). he BRH sediment did not affect survival or size of adults or number of broods. umber of eggs per brood appeared to be lower in 40% BRH sediment than 10% BRH or REF sediment, but the difference was not significant (1,397, 1,621 and 1,556 eggs per brood, respectively). However, number of larvae per brood was significantly lower in the 40% BRH sediment than in 10% BRH or REF sediment (363,770 and 850 larvae per brood, respectively). umber of juveniles appeared to be lower in 40% BRH than in the other sediment treatments, although the differences were not significant. ize of juveniles did not differ in the sediment treatments. he finite multiplication rate of population increase, was the same for all treatments. he lack of significant differences but the presence of some trends may indicate that 40% BRH sediment was not a high enough dose to produce significant effects. ffects of BR sediment on other species are discussed. n conjunction with an earlier study, this work demonstrates that population responses of life-cycle tests with Neanthes arenaceodentata can be used to evaluate the chronic toxicity of sediments, which could provide comparative toxicological data to evaluate the relative sensitivity of this and other marine species and may serve as a model system to study questions in population biology.