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Development and evaluation of test methods for benthic invertebrates and sediments: Effects of flow rate and feeding on water quality and exposure conditions (1993)

Ankley, Gerald T. ; Benoit, Duane A. ; Hoke, Robert A. ; [et al.]

Springer

Archives of environmental contamination and toxicology 25 (1993), S. 12-19

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ISSN: 1432-0703

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering , Medicine

Notes: Abstract In order to ensure among-laboratory comparability in the results of sediment toxicity tests, it is necessary to characterize the influence of variations in test regimes on organism responses and exposure conditions. The objective of these studies was to develop and document an optimized combination of overlying water renewal (flow) and feeding rates for sediment tests with three commonly used benthic species (midges, Chironomus tentans; amphipods, Hyalella azteca; oligochaetes, Lumbriculus variegatus). Optimal conditions were defined by a number of chemical and biological considerations including: (1) flow rate through the system, (2) amount of food added, (3) acceptable responses (survival, growth, reproduction) of the organisms over the course of a 10-day test, and (4) maintenance of an adequate concentration of dissolved oxygen in overlying water. The goal was to minimize factors (1) and (2), while maximizing criteria (3) and (4). The major reason for minimizing (1) and (2) was the concern that excessive water flow or addition of food could reduce exposure of the test organisms to sediment-associated contaminants. To evaluate this, interstitial (pore) water concentrations of contaminants (ammonia, zinc, copper, dieldrin) were measured over the course of 10 day tests conducted with a number of different sediments under various flow and feeding regimes. The different combinations of flow/feeding had variable effects upon pore water concentrations of contaminants; for example under our optimized regime, in some instances slight decreases in interstitial water contaminant concentrations were observed, whereas in other cases contaminant concentrations remained constant or even increased. Overall, the use of minimal water renewal and feeding rates should result only in small changes in exposure of benthic organisms to contaminants in pore water over the course of 10-day tests.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00230705

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Life cycle and behavioural assessments of the influence of substrate particle size on Chironomus tentans (Diptera: Chironomidae) in laboratory assays (1997)

Sibley, Paul K. ; Benoit, Duane A. ; Ankley, Gerald T.

Springer

Hydrobiologia 361 (1997), S. 1-9

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ISSN: 1573-5117

Keywords: Chironomus tentans ; particle Size ; sediment toxicity tests ; biological endpoints ; behaviour

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Identifying and understanding factors that affect interpretation of sediment toxicity is critical to the development and standardization of sediment test methods. In this study, we evaluated the influence of sediment particle size on survival, growth, emergence, and reproduction in a life cycle test with the midge Chironomus tentans, and on substrate selection behaviour of C. tentans larvae. In the life cycle assessment, larval development was followed for one generation on six substrates with mean particle sizes of 8, 146, 218, 306, 448, and 592 μm. For behavioural tests, first and third instar larvae were provided with a choice between paired substrates, with and without equal quantities of food. Survival of larvae at 20 d was not affected by particle size; however, survival of larvae at test completion was significantly reduced (65.6%) in the 8 μm substrate. Larval growth was not systematically related to particle size. Total emergence was significantly lower in the 8 and 592 μm substrates (50 and 53.1%, respectively) relative to the other substrates, reflecting the lower survival in these treatments. In addition, time to first emergence was significantly longer, and the rate of emergence depressed, in the 8 μm treatment. Reproductive output (mean eggs/female) was not significantly different among substrates, although fewer egg masses were produced in the 592 and 8 μm substrates. In behavioural tests, third instar larvae exhibited a weak preference for the smaller of two grain sizes when food was equally available, but this was not systematically related to the absolute difference in mean grain size. In contrast, first instar larvae consistently selected the smaller of two grain sizes when food was equally available; for these larvae, substrate selection was significantly correlated with the absolute difference in mean grain size. When food supply differed between substrates, a significantly higher proportion of both first and third instar larvae selected the substrate with food, independent of particle size. Together, the life cycle and behavioural data from this study suggest that sediment particle size, by itself, should not significantly influence interpretation of the results of toxicity tests with C. tentans.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1003159323259

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