posted on 2023-12-28, 16:38authored byNienke Wieringa, Steven T. J. Droge, Thomas L. Ter Laak, Aishwarya A. K. Nair, Kelsey Walker, Piet F. M. Verdonschot, Michiel H. S. Kraak
Contaminated sediments
are ubiquitous repositories of pollutants
and cause substantial environmental risks. Results of sediment bioassays
remain difficult to interpret, however, as observed effects may be
caused by a variety of (un)known stressors. This study aimed therefore
to isolate the effects of hydrophobic organic contaminants from other
(non)chemical stressors present in contaminated sediments, by employing
a newly developed passive sampling–passive dosing (PSPD) test.
The results showed that equilibrium partitioning between pesticides
or polyaromatic hydrocarbons (PAHs) in contaminated sediments and
a silicone rubber (SR) passive sampler was achieved after 1–3
days. Chlorpyrifos concentrations in pore water of spiked sediment
matched very well with concentrations released from the SR into an
aqueous test medium, showing that SR can serve as a passive dosing
device. Subjecting the 96 h PSPD laboratory bioassay with nonbiting
midge (Chironomus riparius) larvae
to field-collected sediments showed that at two locations, concentrations
of the hydrophobic organic contaminant mixtures were high enough to
affect the test organisms. In conclusion, the developed PSPD test
was able to isolate the effects of hydrophobic organic contaminants
and provides a promising simplified building block for a suite of
PSPD tests that after further validation could be used to unravel
the contribution of hydrophobic organic chemicals to sediment ecotoxicity.