Environmental Engineering Reference
In-Depth Information
Cheung, Y. H., Neller, A., Chu, K. H.,
et al.
(1997)
Assessment of sediment toxicity using different trophic
organisms.
Archives of Environmental Contamination
and Toxicology
,
32
, 260-67.
Chiron, S., Roy, S., Cottier, R. & Jeannot, R. (2000)
Speciation of butyl- and phenyltin compounds in
sediments using pressurized liquid extraction and
liquid chromatography - inductively coupled plasma
mass spectrometry.
Journal of Chromatography A
,
879
,
137.
Ciarelli, S., Vonck, W. & vanStralen, N. M. (1997)
Reproducibility of spiked-sediment bioassays using the
marine benthic amphipod,
Corophium volutator
.
Marine
Environmental Research
,
43
, 329-43.
Cohn, S. A. & McGuire, J. R. (2000) Using diatom motility
as an indicator of environmental stress: effects of toxic
sediment elutriates.
Diatom Research
,
15
, 19-29.
Cook, N. H. & Wells, P. G. (1996) Toxicity of Halifax
harbour sediments: an evaluation of the Microtox®
solid-phase test.
Water Quality Research Journal of
Canada
,
31
, 673-708.
Côte, C., Blaise, C., Michaud, J. R., Menard, L., Trottier,
S., Gagne, F. & Lifshitz, R. (1998) Comparisons between
microscale and whole-sediment assays for freshwater
sediment toxicity assessment.
Environmental Toxicology
and Water Quality
,
13
, 93-110.
Coughlan, B. M., Hartl, M. G. J., O'Reilly, S. J.,
et al.
(2002) Detecting genotoxicity using the Comet assay fol-
lowing chronic exposure of Manila clam
Tapes semidec-
ussatus
to polluted estuarine sediments.
Marine Pollution
Bulletin
,
44
, 1359-65.
Dalmacija, B., Prica, M., Ivancev-Tumbas, I.,
et al.
(2006)
Pollution of the Begej Canal sediment-metals, radioactiv-
ity and toxicity assessment.
Environment International
,
32
, 606-15.
Davoren, M., Ni Shuilleabhain, S., O'Halloran, J.,
et al.
(2005) A test battery approach for the ecotoxicological
evaluation of estuarine sediments.
Ecotoxicology
,
14
,
741-55.
Day, K. E., Dutka, B. J., Kwan, K. K., Batista, N.,
Reynoldson, T. B. & Metcalfesmith, J. L. (1995)
Correlations between solid phase microbial screening
assays, whole sediment toxicity tests with macroinverte-
brates and in situ benthic community structure.
Journal
of Great Lakes Research
,
21
, 192-06.
Dellamatrice, P. M., Monteiro, R. T. R., Blaise, C., Slabbert,
J. L., Gagne, F. & Alleau, S. (2006) Toxicity assessment
of reference and natural freshwater sediments with the
LuminoTox assay.
Environmental Toxicology
,
21
,
395-402.
Depledge, M. H., Amaral-Mendes, J. J., Daniel, B.,
et al.
(1993) The conceptual basis of the biomarker approach.
In
Biomarkers: Research and Application in the assess-
ment of Environmental Health
, D. B. Peakall & L. R.
Shugart, (eds), vol.
68
, NATO ASI Series H: Cell Biology,
15-29. Berlin: Springer.
Di Toro, D. M., Zarba, C. S. & Hansen, D. J.,
et al.
(1991)
Technical basis for establishing sediment quality criteria
for nonionic organic-chemicals using equilibrium parti-
tioning.
Environmental Toxicology and Chemistry
,
10
,
1541-83.
Doherty, F. G. (2001) A review of the Microtox® toxicity
test system for assessing the toxicity of sediments and
soils.
Water Quality Research Journal of Canada
,
36
,
475-18.
Duan, Y. H., Guttman, S. I., Oris, J. T., Huang, X. D. &
Burton, G. A. (2000) Genotype and toxicity relationships
among
Hyalella azteca
: II. Acute exposure to fl uoran-
thene-contaminated sediment.
Environmental Toxicology
and Chemistry
,
19
, 1422-26.
Eggleton, J. & Thomas, K. V. (2004) A review of factors
affecting the release and bioavailability of contaminants
during sediment disturbance events.
Environment
International
,
30
, 973-80.
Elskens, M., Leermakers, M., Panutrakul, S., Monteny, F.
& Baeyens, W. (1991) Microbial activity in sandy and
muddy estuarine sediments.
Geo-Marine Letters
,
11
,
194-98.
Environment Canada. (1997)
Test for growth and survival
in sediment using the freshwater amphipod
Hyalella
azteca. Environment Canada. EPS 1/RM/33. Ottawa,
ON, Canada. 123pp.
Faimali, M., Garaventa, F. , Piazza, V. ,
et al.
(2006)
Swimming speed alteration of larvae of
Balanus
amphitrite
as a behavioural end-point for laboratory
toxicological
bioassays.
Marine
Biology
,
149
,
87-96.
Fenchel, T. (1969) The ecology of marine microbenthos.
IV. Structure and function of the benthic ecosystem, its
chemical and physical factors and microfauna communi-
ties with special reference to the ciliated protozoa.
Ophelia
,
6
, 1-182.
Fernandez, N., Bellas, J., Lorenzo, J. I. & Beiras, R. (2008)
Complementary approaches to assess the environmental
quality of estuarine sediments.
Water Air and Soil
Pollution
,
189
, 163-77.
Flower, R. J., Monteith, D. T., Mackay, A. W., Chambers,
J. M. & Appleby, P. G. (1995) The design and perform-
ance of a new box corer for collecting undisturbed
samples of soft subaquatic sediments.
Journal of
Paleolimnology
,
14
, 101-11.
Forrester, G. E., Fredericks, B. I., Gerdeman, D.,
et al.
(2003) Growth of estuarine fi sh is associated with the
combined concentration of sediment contaminants and
shows no adaptation or acclimation to past conditions.
Marine Environmental Research
,
56
, 423-42.
Fuchsman, P. C., Sferra, J. C. & Barber, T. R. (2000) Three
lines of evidence in a sediment toxicity evaluation for
hexachlorobutadiene.
Environmental Toxicology and
Chemistry
,
19
, 2328-337.
Fulton, M., Key, P. , Wirth, E.,
et al.
(2006) An evaluation
of contaminated estuarine sites using sediment quality