1 research outputs found
Low-Dose Effects: Nonmonotonic Responses for the Toxicity of a <i>Bacillus thuringiensis</i> Biocide to <i>Daphnia magna</i>
Currently,
there is a trend toward an increasing use of biopesticides
assumed to be environmentally friendly, such as <i>Bacillus thuringiensis</i> (Bt). Studies of the Bt toxicity to nontarget organisms have reported
low effects at high exposure levels, which is interpreted as indicating
negligible risk to nontarget organisms. We investigated the response
of the nontarget organism <i>Daphnia magna</i> to waterborne
DiPel ES, a globally used Bt formulation. Neonates and adults were
exposed for 48 h to a wide range of concentrations, and immobilization
and mortality were monitored. Whole body biomarkers (body weight,
protein, chitobiase, catalase, xenobiotic metabolism, and acetylcholinesterase)
were measured in the adults. The immobilization and mortality of the
neonates were affected in a nonmonotonic and inverted U-shaped pattern
with EC<sub>50</sub>s that were ∼10<sup>5</sup>-fold lower
than those reported by the manufacturer. The immobilization of adults
demonstrated a similar pattern, but significant mortality was not
observed. The biomarker results revealed multiphasic dose–response
curves, which suggested toxicity mechanisms that affected various
physiological pathways. The main particle size in exposure media was
in the size range of bacterial spores and crystal toxins. However,
the chemical heterogeneity was nonmonotonic, with a change in the
phase at the maximum of toxicity (∼5 μL L<sup>–1</sup>), which might explain the observed nonmonotonic effects. These results
demonstrate the vulnerability of a nontarget organism to a biopesticide
that is considered to be safe, while challenging the universal applicability
of the central ecotoxicological assumption of monotonicity