Toxicity Test Methods

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Toxicity Test Methods

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Title: Toxicity Test Methods

1
Toxicity Test Methods

Chapter 4

2
Introduction

Working knowledge of standard test methods very
important in understanding the field of
environmental toxicology
Both strengths and weaknesses needed to interpret
test results
Methods were mostly developed in the 80s with
some modifications since then
Most old tests have not been replaced with new
tests but rather have been tweaked over the
years

3
Overview

Toxicity tests can range from cell cultures to
ecosystem function
Most tests fall under two general classifications
Single-species
Relatively cheaper, shorter, low ecological
realism
Multi-species
Tend to be longer, more expensive and have higher
ecological realisms

4
Single species toxicity testing

Daphnia 45-h Acute Toxicity Test
Most widely used test for evaluating toxicity of
water
Three primary species
Daphnia magna general testing
Ceriodaphnia dubia chronic testing over an
acute time period
Daphnia pulex evaluation of stormflow toxicity
All are easy to culture when published guidelines
are followed but some differences in testing
procedure
Note algal tests are most likely to show
hormesis effect

5
D. magna vs. C. dubia
6
Ceriodaphnia dubia toxicity test
7
Daphnia magna toxicity test
8
Single species toxicity testing (cont)

Algal 96-h growth toxicity test
Examines toxicity to freshwater and marine algae
Algae are extremely important because they
generate most of the primary productivity in
aquatic and marine sytems ? effects on algae can
have high impact at higher trophic levels in
ecosystem

9
Microalgae 96-h toxicity test
10
Algal toxicity test
11
Single species toxicity testing (cont)

Acute toxicity tests with aquatic organisms
Multiple tests using a variety of fish,
amphibians and macroinvertebrates
Endpoint is either death or immobilization
More difficult to culture or obtain as test
organisms so often use animals collected from the
wild or available commercially as bait
Test organisms may need to be acclimated to
laboratory conditions
More variability in response because of increased
heterogeneity of gene pool
Locally collected organisms may provide better
indication of effect of xenobiotics on local
ecosystems
See table 4.5 (p. 80-82) for specific test
organisms and test conditions

12
Fathead minnow culture
13
Single species toxicity testing (cont)

Terrestrial vertebrate toxicity test
Mammals, birds
Toxicant usually introduced in food (gelatin
capsule or gastric lavage)
Mammals ? surrogate for human health effects
Birds ? effect of pesticides on non-target
species
Both animal groups are usually tested for 90 days
Endpoint death, test may include urinalysis,
hematology, necropsy

14
Small mammals collected from the wild may not be
suitable for toxicity testing
15
Beware of using large wild rats!
16
Single species toxicity testing (cont)

Frog Embryo Teratogenesis Assay Xenopus (FETAX)
One of few standardized amphibian-based toxicity
tests
Designed to test teratogenicity of chemicals or
effluent using the African Clawed frog as a
surrogate for humans
Good correlation between known human teratogens
and FETAX results

17
Xenopus life cycle
18
Multi-species toxicity test

Artificially contained communities
Must contain two or more interacting species
Trying to simulate environmental realism but
often want to reduce heterogeneity in test
conditions
Wide range of size and complexity in
multi-species test protocols

19
Microcosms and Mesocosms