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Experimental studies of food and suspended sediment effects on growth and reproduction of six planktonic cladocerans
Authors:Hart   R.C.
Affiliation:Department of Zoology and Entomology, University of Natal PO Box 375, Pietermaritzberg 3200, Republic of South Africa
Abstract:Life-long somatic growth and egg production responses of Daphniabarbata, Daphnia gibba, Daphnia laevis, Daphnia pulex, Moinamicrura and Diaphanosoma excisum were examined in relation todifferent food and suspended sediment levels, in factorial experimentsat 20°C. Food treatments involved additions of 0, 100, 500and 2500 µg C l–1 of Selenastrum to 20 µmfiltered water, generally from source lakes. These food levelswere tested at two suspended sediment levels in all species,viz. (i) natural source-lake nephelometric turbidities of 7–65nephelometric turbidity units (NTU) ({small tilde}10–70mg l–1 TSS) and (ii) {small tilde}3- to 4-fold enrichmentof natural levels (8-fold in D.excisum). A third sediment-freetreatment was tested in all species of Daphnia other than D.gibba.Growth in body length and reproductive output were assesseddaily for individual animals. Main and interactive effects offood and sediment on growth were assessed at selected ages fromday 3 through subsequent life using analysis of variance (ANOVA).Strong and highly significant positive food effects were apparentat all ages in all species examined, with the curious exceptionof D.excisum. The onset of maturity and fecundity were alsopositively related to food level. Sediment effects on growth,age of maturity and fecundity were variable, but tended to bemuch weaker than food effects. Both stimulatory (positive, especiallyat low food levels) and inhibitory (negative) effects of sedimenton growth were apparent, both between and within species. Performancein sediment-free water was very poor, except in D.pulex. Food-sedimentinteraction effects were variable. Generally, turbidwater specieswere influenced less adversely by sediment than clear-waterspecies, indicating the existence of environmentally appropriateadaptive responses. Overall, the findings indicate that lightlimitation of algal resources by suspended sediments, ratherthan the condition of high turbidity per se, is responsiblefor the apparently negative impact of suspended sediments frequentlyobserved on natural populations of cladoceran zooplankters.
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