Different diatoms induce contrasting effects on the reproductive success of the copepod Temora stylifera

Four diatoms, Thalassiosira rotula (THA), Thalassiosira weissflogii (TWEI), Skeletonema costatum (SKE) and Phaeodactylum tricornutum (PHA), and one dinoflagellate Prorocentrum minimum (PRO, control diet), were tested during the course of 14-day laboratory experiments examining the effects of these algae on the fecundity and egg viability in the copepod Temora stylifera. All algae were provided at the same mean carbon concentrations of 0.98 μg C ml⁻¹ to normalize the effects due to differences in diatom size and nutrient concentrations, at least with regards to carbon, so that variations in egg production and hatching viability were presumably due to other chemical constituents of the cells. Our results show that only PRO supported high reproductive success, with stable egg production rates and egg viability close to 100%. By contrast, all four diatoms negatively impacted egg production and hatching success, with varying degrees of suppression. The two diets SKE and PHA induced dramatic effects on reproductive success; SKE was the worst diet with naupliar production ceasing altogether within only 3 days. With PHA, fecundity never reached zero, but at the end of the experiments, initial egg production rates had dropped to 6.6% of initial rates, and viability had declined to zero within 7 days. The two Thalassiosira species mainly affected egg viability, so that after 14 days of feeding, a decrease of 90% had occurred. However, egg production rates were high and were reduced only by 15-24% towards the end of the experiments. In terms of potential recruitment rates, even though PRO induced high mean naupliar production, a slight decrease was observed during the first 5 days, likely due to the time required for T. stylifera to acclimate to PRO. After day 5, potential recruitment rate was higher, comparable to in situ values. THA and TWEI inhibited potential recruitment up to 90-100%, but these effects were not evident over a short-term period, denoting the importance of introducing the time factor when evaluating diatom effects on copepod production. With the other two diatom diets, SKE and PHA, recruitment was zero after 2 and 6 days, respectively. Experiments testing the effects of unsaturated aldehydes in THA (2-trans-4-trans-decadienal) and SKE (2-trans-4-trans-octadienal and 2-trans-4-trans-heptadienal) on the hatching viability of T. stylifera indicate that diatom-derived aldehydes may differ in terms of biological activity. Of the three molecules tested, decadienal had somewhat stronger effects on hatching success, with total blockage occurring at concentrations of 2.0 μg ml⁻¹; the concentrations to induce total blockage by octadienal and heptadienal were somewhat higher and ≥2.5 μg ml⁻¹. We suggest that the greater biological activity of SKE in terms of cell blockage may thus be due to the presence of antimitotic compounds other than these unsaturated aldehydes.