TY - JOUR
T1 - Effect of sample holding time on bioaccessibility and sediment ecotoxicological assessments
AU - Huff Hartz, Kara E.
AU - Sinche, Federico L.
AU - Nutile, Samuel A.
AU - Fung, Courtney Y.
AU - Moran, Patrick W.
AU - Van Metre, Peter C.
AU - Nowell, Lisa H.
AU - Mills, Marc
AU - Lydy, Michael J.
N1 - Funding Information:
The authors thank J. Orlando, B. Phillips, and D. Weston for assistance in site selection; C. Burton, C. Brilmyer, T. Davis, J. Domagalski, A. Egler, L. Kammel, R. Kent, J. Orlando, M. Peterson, and E. Pietrzak for their technical support in sample collection; A. Derby, J. Gray, A. Harwood, B. Hamilton, S. Kahil, V. Lydy, and H. Sever for technical support in sample preparation; Kalexsyn, Inc and D. Koch for supplying deuterated pyrethroid standards; E. Woodward for manuscript review. This work was supported by the National Institute of Water Research ( G15AS00019 ) and supplemental funding by U.S. Geological Service and University of Illinois ( G17AP00056 ). Any use of trade, firm or product names is for descriptive purposes only and does not imply endorsement by the U.S. government.
Publisher Copyright:
© 2018
PY - 2018/11
Y1 - 2018/11
N2 - The ecotoxicological effects of hydrophobic organic compound (HOC) contamination in sediment are often assessed using laboratory exposures of cultured invertebrates to field-collected sediment. The use of a sediment holding time (storage at 4 °C) between field sampling and the beginning of the bioassay is common practice, yet the effect of holding time on the reliability of bioassay results is largely unknown, especially for current-use HOCs, such as pyrethroid insecticides. Single-point Tenax extraction can be used to estimate HOC concentrations in the rapidly desorbing phase of the organic carbon fraction of sediment (i.e., bioaccessible concentrations), which relate to sediment toxicity and bioaccumulation in invertebrates. In this study, repeated measurements of bioaccessible concentrations (via Tenax), were made as a function of sediment holding time using pyrethroid-contaminated field sediment, and Hyalella azteca 10-d survival and growth was measured concurrently for comparison. Similarly, bioaccessible concentrations and 14-d bioaccumulation were measured in Lumbriculus variegatus as a comparison using the legacy HOCs, polychlorinated biphenyls (PCBs). While the bioaccessible and bioaccumulated PCB concentrations did not change significantly through 244 d of holding time, the bioaccessible pyrethroid concentrations were more varied. Depending on when pyrethroid-contaminated sediments were sampled, the bioaccessible pyrethroid concentrations showed first-order loss with half-lives ranging from 3 to 45 d of holding, or slower, linear decreases in concentrations up to 14% decrease over 180 d. These findings suggest that at least for some contaminants in sediments, holding the sediments prior to bioassays can bias toxicity estimates. Bioaccessible pyrethroid concentrations in sediments may change during storage, thus holding time procedures may alter bioassay results.
AB - The ecotoxicological effects of hydrophobic organic compound (HOC) contamination in sediment are often assessed using laboratory exposures of cultured invertebrates to field-collected sediment. The use of a sediment holding time (storage at 4 °C) between field sampling and the beginning of the bioassay is common practice, yet the effect of holding time on the reliability of bioassay results is largely unknown, especially for current-use HOCs, such as pyrethroid insecticides. Single-point Tenax extraction can be used to estimate HOC concentrations in the rapidly desorbing phase of the organic carbon fraction of sediment (i.e., bioaccessible concentrations), which relate to sediment toxicity and bioaccumulation in invertebrates. In this study, repeated measurements of bioaccessible concentrations (via Tenax), were made as a function of sediment holding time using pyrethroid-contaminated field sediment, and Hyalella azteca 10-d survival and growth was measured concurrently for comparison. Similarly, bioaccessible concentrations and 14-d bioaccumulation were measured in Lumbriculus variegatus as a comparison using the legacy HOCs, polychlorinated biphenyls (PCBs). While the bioaccessible and bioaccumulated PCB concentrations did not change significantly through 244 d of holding time, the bioaccessible pyrethroid concentrations were more varied. Depending on when pyrethroid-contaminated sediments were sampled, the bioaccessible pyrethroid concentrations showed first-order loss with half-lives ranging from 3 to 45 d of holding, or slower, linear decreases in concentrations up to 14% decrease over 180 d. These findings suggest that at least for some contaminants in sediments, holding the sediments prior to bioassays can bias toxicity estimates. Bioaccessible pyrethroid concentrations in sediments may change during storage, thus holding time procedures may alter bioassay results.
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U2 - 10.1016/j.envpol.2018.06.065
DO - 10.1016/j.envpol.2018.06.065
M3 - Article
C2 - 30097284
AN - SCOPUS:85054759157
SN - 0269-7491
VL - 242
SP - 2078
EP - 2087
JO - Environmental Pollution
JF - Environmental Pollution
ER -