Almut Gerhardt1. 1. 1 LimCo International, An der Aa 5, 49477 Ibbenbueren, Germany.m AlmutG@web.de
Abstract
GOAL, SCOPE AND BACKGROUND: Lumbriculus variegatus Miller (Oligochaeta), a common freshwater sediment-dweller, has frequently been used in toxicokinetic studies, although has been less used in ecotoxicity tests. METHODS: For the first time the Multispecies Freshwater Biomonitor (MFB) was applied in a short-term whole-sediment toxicity test. The MFB automatically and quantitatively recorded the spontaneous locomotory behaviour of Lumbriculus variegatus in exposures with two compartments, water and sediment. The study questioned, whether the animals altered their locomotion depending on the compartment which was spiked with lead (Pb). RESULTS AND DISCUSSION: As in the exposures to Pb-contaminated water/clean sediment, the animals exposed to Pb-contaminated sediment/clean water showed higher activities in intermediate Pb-concentrations. This indicates, that spontaneous locomotory activity is affected by Pb-concentrations at sublethal levels regardless of whether the Pb-concentration is found in the water or in the sediment, because these animals use both environmental compartments simultaneously. However, within the same Pb-levels, the animals showed higher locomotory activity in contaminated water compared with contaminated sediment. This indicates a possible tendency to withdraw from ('avoidance') contaminated water into the clean sediment compartment, whereas there was no withdrawal from contaminated sediment into clean water. The latter might be explained by the fact that withdrawal from sediment to water might increase the risk of predation and drift in nature, whereas retracting to sediment might provide shelter, CONCLUSIONS: The study showed that spontaneous locomotory responses of L. variegatus to Pb depend on whether the water or sediment is contaminated. The study also concluded that the Multispecies Freshwater Biomonitor can be applied effectively in sediment toxicity testing. RECOMMENDATIONS AND PERSPECTIVES: More emphasis should be given to the interactions of water/sediment in sediment ecotoxicity tests to better simulate field conditions and increase ecological realism in risk assessment, especially as quantitative recording methods exisit.
GOAL, SCOPE AND BACKGROUND:Lumbriculus variegatus Miller (Oligochaeta), a common freshwater sediment-dweller, has frequently been used in toxicokinetic studies, although has been less used in ecotoxicity tests. METHODS: For the first time the Multispecies Freshwater Biomonitor (MFB) was applied in a short-term whole-sediment toxicity test. The MFB automatically and quantitatively recorded the spontaneous locomotory behaviour of Lumbriculus variegatus in exposures with two compartments, water and sediment. The study questioned, whether the animals altered their locomotion depending on the compartment which was spiked with lead (Pb). RESULTS AND DISCUSSION: As in the exposures to Pb-contaminated water/clean sediment, the animals exposed to Pb-contaminated sediment/clean water showed higher activities in intermediate Pb-concentrations. This indicates, that spontaneous locomotory activity is affected by Pb-concentrations at sublethal levels regardless of whether the Pb-concentration is found in the water or in the sediment, because these animals use both environmental compartments simultaneously. However, within the same Pb-levels, the animals showed higher locomotory activity in contaminated water compared with contaminated sediment. This indicates a possible tendency to withdraw from ('avoidance') contaminated water into the clean sediment compartment, whereas there was no withdrawal from contaminated sediment into clean water. The latter might be explained by the fact that withdrawal from sediment to water might increase the risk of predation and drift in nature, whereas retracting to sediment might provide shelter, CONCLUSIONS: The study showed that spontaneous locomotory responses of L. variegatus to Pb depend on whether the water or sediment is contaminated. The study also concluded that the Multispecies Freshwater Biomonitor can be applied effectively in sediment toxicity testing. RECOMMENDATIONS AND PERSPECTIVES: More emphasis should be given to the interactions of water/sediment in sediment ecotoxicity tests to better simulate field conditions and increase ecological realism in risk assessment, especially as quantitative recording methods exisit.
Authors: Anita J Kirkpatrick; Almut Gerhardt; Jaimie T A Dick; Maria McKenna; John A Berges Journal: Ecotoxicol Environ Saf Date: 2005-08-29 Impact factor: 6.291
Authors: Christopher G Ingersoll; Eric L Brunson; Ning Wang; F James Dwyer; Gerald T Ankley; David R Mount; James Huckins; Jim Petty; Peter F Landrum Journal: Environ Toxicol Chem Date: 2003-04 Impact factor: 3.742
Authors: Anita J Kirkpatrick; Almut Gerhardt; Jaimie T A Dick; Peter Laming; John A Berges Journal: Environ Sci Pollut Res Int Date: 2006-07 Impact factor: 4.223
Authors: Peter F Landrum; Matti Leppänen; Sander D Robinson; Duane C Gossiaux; G Allen Burton; Marc Greenberg; Jussi V K Kukkonen; Brian J Eadie; Margaret B Lansing Journal: Environ Toxicol Chem Date: 2004-01 Impact factor: 3.742
Authors: Peter F Landrum; Matti Leppänen; Sander D Robinson; Duane C Gossiaux; G Allen Burton; Marc Greenberg; Jussi V K Kukkonen; Brian J Eadie; Margaret B Lansing Journal: Environ Toxicol Chem Date: 2004-01 Impact factor: 3.742
Authors: Jan Wölz; Magnus Engwall; Sibylle Maletz; Helena Olsman Takner; Bert van Bavel; Ulrike Kammann; Martin Klempt; Roland Weber; Thomas Braunbeck; Henner Hollert Journal: Environ Sci Pollut Res Int Date: 2008-10-21 Impact factor: 4.223