Agriculture Reference
In-Depth Information
Van Gestel, C.A.M., Ma, W.-C., and Smit, C.E. 1991. Development of QSARÔs in terrestrial ecotoxicology:
earthworm toxicity and soil sorption of chlorophenols, chlorobenzenes and dichloroaniline,
Sci. Total
Environ
., 109/110, 589Ï604.
Van Gestel, C.A.M. and Van Dis, W.A. 1988. The influence of soil characteristics on the toxicity of four
chemicals to the earthworm
Eisenia fetida andrei
(Oligochaeta),
Biol. Fertil. Soils,
6, 262Ï265.
Van Gestel, C.A.M., Van Dis, W.A., Van Breemen, E.M., and Sparenburg, P.M. 1989. Development of a
standardized reproduction toxicity test with the earthworm species
Eisenia fetida andrei
using copper,
pentachlorophenol, and 2,4-dichloroaniline,
Ecotox. Environ. Saf.
, 18, 305Ï312.
Van Hook, R.I. 1974. Cadmium, lead and zinc distributions between earthworms and soils: potentials for
biological accumulation,
Bull. Environ. Contam. Toxicol
., 2, 509Ï512.
Van Straalen, N.M. 1990. New methodologies for estimating the ecological risk of chemicals in the environ-
ment, in
Proceedings Sixth International Congress
,
International Association of Engineering Geology
,
D.G. Price, Ed., A.A. Balkema, Rotterdam, the Netherlands, pp. 165Ï173
Van Straalen, N.M. 2001.
Distribution-Based Extrapolation Approaches in the Risk Assessment of Metals in
the Environment. Fact Sheet on Environmental Risk
, International Council on Metals in the Environ-
ment, Ontario, Canada.
Van Straalen, N.M. and Denneman, C.A.J. 1989. Ecotoxicological evaluation of soil quality criteria,
Ecotox.
Environ. Saf.
, 18, 241Ï251.
Van Straalen, N.M. and Timmermans, J.T.N. 2002. Genetic variation in toxicant-stressed populations: an
evaluation of the Ñgenetic erosionÒ hypothesis,
Hum. Ecol. Risk Assess.
, 8, 983Ï1002.
Van Straalen, N.M. and Van Gestel, C.A.M. 1993. Soil invertebrates and micro-organisms, in
Handbook of
Ecotoxicology
, Vol. 1, P. Calow, Ed., Blackwell Scientific, London, pp. 251Ï277.
Van Straalen, N.M. and Van Leeuwen, C.J. 1992. European history of species sensitivity distributors, in
Species
Sensitivity Distributors
, Posthuma, L., G.W. Suter, II, and T.P. Traas, Lewis Publ., Boca Raton, FL,
pp. 19Ï37.
Van Wensem, J. 1997. The use of models in ecological risk assessment, in
Ecological Risk Assessment of
Contaminants in Soils
, N.M. Van Straalen and H. L¾kke, Eds., Chapman & Hall, London, pp. 215Ï231.
Venables, B.J., Fitzpatrick, L.C., and Goven, A.J. 1992. Earthworms as indicators of toxicity, in
Ecotoxicology
of Earthworms
, P.W. Greig-Smith, H. Becker, P.J. Edwards, and F. Heimbach, Eds., Intercept, Hants,
U.K., pp. 197Ï206.
Vermeulen, L.A., Reinecke, A.J. and Reinecke, S.A. 2001. Evaluation of the fungicide manganese-zinc
ethylene bis (dithiocarbamate) (Mangozeb) for sublethal and acute toxicity to
Eisenia fetida
(Oli-
gochaeta),
Ecotox. Environ. Saf.
, 48, 183Ï189.
Weeks, J.M. 1995. The value of biomarkers for ecological risk assessment: academic toys or legislative tools?
Appl. Soil Ecol.
, 2, 215Ï216.
Weeks, J.M. 1997. Effects of pollutants on soil invertebrates: links between levels, in
Ecotoxicology. Ecological
Fundamentals, Chemical Exposure, and Biological Effects
, G. Schuurmann and B. Markert, Eds.,
Wiley, New York, pp. 645Ï662.
Weibull, W. 1951. A statistical distribution function of wide application,
J. Appl. Mech.
, 18, 293Ï297.
Weltje, L. 1998. Mixture toxicity and tissue interactions of Cd, Cu, Pb and Zn in earthworms Oligochaeta in
laboratory and field soils: a critical evaluation of data,
Chemosphere
, 36, 2643Ï2660.
Wilson, R. and Crouch, E.A.C. 1987. Risk assessment and comparisons: an introduction,
Science
, 236,
267Ï270.
Yeardley, R.B., Lazorchak, J.M., and Gast, L.C. 1996. The potential of an earthworm avoidance test for
evaluation of hazardous waste sites,
Environ. Toxicol. Chem
., 15, 1532Ï1537.
