The
following
list
of
references
is
being
considered
by
the
Agency
for
development
of
the
Bioaccumulation
section
of
the
Atrazine
criteria
document.
For
further
information
on
the
bioaccumulation
section,
please
contact
Dr.
Tala
Henry
at
(
202)
566­
1323.

Atrazine
References
1.
Abou­
Waly,
H.
,
Abou­
Setta,
M.
M.,
Nigg,
H.
N.,
and
Mallory,
L.
L.
Dose­
response
relationship
of
Anabaena
flos­
aquae
and
Selenastrum
capricornutum
to
atrazine
and
hexazinone
using
chlorophyll
(
a)
content
and
super(
14)
C
uptake.
Aquat.
Toxicol.
20(
3),
195­
204.
1991.

2.
Akkanen,
J,
Penttinen,
S,
Haitzer,
M,
and
Kukkonen,
J
V.
Bioavailability
of
atrazine,
pyrene
and
benzo[
a]
pyrene
in
European
river
waters.
Chemosphere
45(
4­
5),
453­
462.
2001.

3.
Akkanen,
J.
and
Kukkonen,
J.
V.
Effects
of
water
hardness
and
dissolved
organic
material
on
bioavailability
of
selected
organic
chemicals.
Environ.
Toxicol.
Chem.
20(
10),
2303­
2308.
2001.

4.
Anderson,
T.
D.
and
Lydy,
M.
J.
Increased
toxicity
to
invertebrates
associated
with
a
mixture
of
atrazine
and
organophosphate
insecticides.
Environ.
Toxicol.
Chem.
21(
7),
1507­
1514.
2002.

5.
Assessments
of
the
feasibility
and
evidence
of
test
methods
of
levels
I
and
II
of
the
chemicals
act
on
Thiourea.
(
NTIS/
OTS
0000551­
0).
1987.

6.
Bacci,
E.,
Renzoni,
A.,
Gaggi,
C.,
Calamari,
D.,
Franchi,
A.,
Vighi,
M.,
and
Severi,
A.
Models,
field
studies,
laboratory
experiments:
An
integrated
approach
to
evaluate
the
environmental
fate
of
atrazine
(
striazine
herbicide).
Agric.
Ecosyst.
Environ.
27(
1­
4),
513­
522.
1989.

7.
Badawy
M.
I.
Use
and
impact
of
pesticides
in
Egypt.
Intern.
J.
Environ.
Health
Research.
8(
3),
223­
239.
1998.

8.
Bard,
S.
Global
transport
of
anthropogenic
contaminants
and
the
consequences
for
the
arctic
marine
ecosystem.
Mar.
Pollut.
Bull.
38(
5),
356­
379.
1999.

9.
Baturo,
W.
and
Lagadic,
L.
Benzo(
a)
pyrene
hydroxylase
and
glutathione
s­
transferase
activities
as
biomarkers
in
Lymnaea
palustris
(
Mollusca,
Gastropoda)
exposed
to
atrazine
and
hexachlorobenzene
in
freshwater
mesocosms.
Environ.
Toxicol.
Chem.
15(
5),
771­
781.
1996.

10.
Belden,
J.
B.
and
Lydy,
M.
J.
Impact
of
atrazine
on
organophosphate
insecticide
toxicity.
Environ.
Toxicol.
Chem.
19(
9),
2266­
2274.
2000.

11.
Bell,
A.
M
and
Duke,
N.
C.
Effects
of
photosystem
II
inhibiting
herbicides
on
mangroves­
preliminary
toxicology
trials.
Mar.
Pollut.
Bull.
51(
1­
4),
297­
307.
2005.

12.
Bertram,
P.,
Warren,
G.,
and
Horvatin,
P.
Lake
Michigan
(
USA)
mass
balance
study:
Modeling
Fate,
transport
and
bioaccumulation
of
PCBs,
atrazine,
trans­
nonachlor
and
mercury.
Proc.
Int.
Assoc.
Theor.
Appl.
Limnol.
27(
2),
795­
799.
2001.

13.
Bester,
K.
Effects
of
pesticides
on
seagrass
beds.
Helgol.
Mar.
Res.
54(
2/
3),
95­
98.
2000.

14.
Biagianti­
Risbourg,
S.
and
Bastide,
J.
Hepatic
perturbations
induced
by
a
herbicide
(
atrazine)
in
juvenile
Grey
Mullet
Liza
Ramada
(
Mugilidae,
Teleostei):
An
ultrastructural
study.
Aquat.
Toxicol.
31,
217­
229.
1995.

15.
Bishop
C.
A,
Mahony
N.
A,
Struger,
J.,
Ng,
P.,
and
Pettit
K.
E.
Anuran
development,
density
and
diversity
in
relation
to
agricultural
activity
in
the
Holland
River
watershed,
Ontario,
Canada
(
1990­
1992).
Environ.
Monitor.
Assess.
57(
1),
21­
43.
1999.

16.
Boehm,
H.­
H.
and
Mueller,
H.
Model
studies
of
the
accumulation
of
herbicides
by
microalgae.
Naturwissenschaften.
63:
296.
1976.

17.
Boura­
Halfon,
S.,
Rise,
M.,
Arad
(
Malis),
S.,
and
Sivan,
A.
Characterization
of
mutants
of
the
red
microalga
Porphyridium
aerugineum
(
Rhodophyceae)
resistant
to
DCMU
and
atrazine.
Phycologia.
36(
6),
479­
487.
1997.

18.
Boutet,
I.,
Tanguy,
A.,
and
Moraga,
D.
Molecular
identification
and
expression
of
two
non­
P450
enzymes,
monoamine
oxidase
A
and
flavin­
containing
monooxygenase
2,
involved
in
phase
I
of
xenobiotic
biotransformation
in
the
pacific
oyster,
Crassostrea
gigas.
Biochimica
et
Biophysica
Acta
1679(
1),
29­
36.
2004.

19.
Bridges,
C.,
Little,
E.,
Gardiner,
D.,
Petty,
J.,
and
Huckins,
J.
Assessing
the
toxicity
and
teratogenicity
of
pond
water
in
North­
Central
Minnesota
to
Amphibians.
Environ.
Sci.
Pollut.
Res.
Internat.
11(
4),
233­
239.
2004.

20.
Britson,
C.
A.
and
Threlkeld,
S.
T.
Abundance,
metamorphosis,
developmental,
and
behavioral
abnormalities
in
Hyla
chrysoscelis
tadpoles
following
exposure
to
three
agrichemicals
and
methyl
mercury
in
outdoors
mesocosms.
Bull.
Environ.
Contam.
Toxicol.
61,
154­
161.
1998.

21.
Brockway,
D.
L.,
Smith,
P.
D.,
and
Stancil,
F.
E.
Fate
and
effects
of
atrazine
in
small
aquatic
microcosms.
Bull.
Environ.
Contam.
Toxicol.
32(
3),
345­
353.
1984.

22.
Butler,
G.
L.,
Deason,
T.
R.,
and
O'kelley,
J.
C.
Loss
of
five
pesticides
from
cultures
of
twenty­
one
planktonic
algae.
Bull.
Environ.
Contam.
Toxicol.
13(
2),
149­
152.
1975.

23.
Carney,
E.,
Butler,
M.
K.,
and
Hays,
E.
Atrazine
in
Kansas.
Atrazine
in
Kansas,
Second
Edition,
Kans.
Dep.
of
Health
and
Environ.,
Topeka,
KS
,
1­
34.
1991.

24.
Chang,
L.
W.
,
Toth,
G.
P.,
Gordon,
D.
A.,
Graham,
D.
W.,
Meier,
J.
R.,
Knapp,
C.
W.,
Denoyelles,
F.
J.
Jr.,
Campbell,
S.,
and
Lattier,
D.
L.
Responses
of
molecular
indicators
of
exposure
in
mesocosms:
Common
carp
(
Cyprinus
carpio)
exposed
to
the
herbicides
alachlor
and
atrazine.
Environ.
Toxicol.
Chem.
24(
1),
190­
197.
2005.

25.
Chokchai,
L.
The
study
of
diseases
in
sand
goby
(
Oxyeleotris
marmoratus
Bleeker)
and
some
herbicides
residues
in
water
and
fish
cultured
in
cages
in
the
Nan
River,
Changwat
Nakhon
Sawan.
Abstracts
of
Master
of
Science
Theses
(
Fisheries
Science)
1985­
1990.
p.
3,
Kasetsart
Univ.,
Faculty
of
Fisheries,
Bangkok,
Thailand.
2000.

26.
Chovanec,
A.
,
Vogel
W.
R.,
Lorbeer,
G.,
Hanus­
Illnar,
A.,
and
Seif,
P.
Chlorinated
organic
compounds,
PAHs,
and
heavy
metals
in
sediments
and
aquatic
mosses
of
two
upper
Austrian
Rivers.
Chemosphere.
29(
9­
11),
2117­
2133.
1994.

27.
Chovanec,
A.
,
Vogel,
W.
R.,
and
Winkler,
G.
Aspects
of
water
pollution
control
of
Austrian
Rivers.
Stuttgart
Arch.
Hydrobiol.
(
Suppl.)
(
Large
Rivers)]
113(
1­
4),
381­
388.
1996.

28.
Christensen,
E.
R,
Chen,
D.,
Nyholm,
N.,
and
Kusk,
K.
O.
Joint
action
of
chemicals
in
algal
toxicity
tests:
Influence
of
response
level
and
dose­
response
regression
model.
Environ.
Toxicol.
Chem.
20(
10),
2361­
2369.
2001.

29.
Christl,
T.
J.,
Pennington,
P.,
Delorenzo,
M.,
Karnaky,
K.
J.
Jr.,
and
Scott,
G.
I.
Effect
of
multiple
atrazine
exposure
profiles
on
hemocyte
DNA
integrity
in
the
Eastern
oyster
(
Crassostrea
virginica).
Bull.
Environ.
Contam.
Toxicol.
73(
2),
404­
410.
2004.

30.
Ciba­
Geigy
Corporation.
Environmental
fate
reference
data
source
book
for
atrazine.
Greensboro,
NC.
1994.

31.
Coady,
K.
K.
,
Murphy,
M.
B.,
Villeneuve,
D.
L.,
Hecker,
M.
,
Jones,
P.
D.,
Carr,
J.
A.,
Solomon,
K.
R.,
Smith,
E.
E.,
Van
Der
Kraak,
G.,
Kendall,
R.
J.
,
and
Giesy,
J.
P.
Effects
of
atrazine
on
metamorphosis,
growth,
and
gonadal
development
in
the
green
frog
(
Rana
clamitans).
J.
Toxicol.
Environ.
Health
Part
A
67(
12),
941­
958.
2004.

32.
Colbert,
A.
A.,
Scott,
G.
I.,
Fulton,
M.
H.,
Wirth,
E.
F.,
Daugomah,
J.
W.,
Key,
P.
B.,
Strozier,
E.
D.,
and
Galloway,
S.
B.
Investigation
of
unusual
mortalities
of
bottlenose
dolphins
along
the
mid­
Texas
coastal
bay
ecosystem
during
1992.
NOAA
Tech.
Rep.
NMFS
(
147).
1999.

33.
Connell,
D.
W.
and
Schueuermann,
G.
Evaluation
of
various
molecular
parameters
as
predictors
of
bioconcentration
in
fish.
Ecotoxicol.
Environ.
Saf.
15(
3),
324­
335.
1988.

34.
Coupe,
R.
H,
Henebry,
M.
S.
and
Branham,
M.
R.
Assessing
the
effect
of
pesticides
in
agricultural
runoff
on
aquatic
life
in
the
Sangamon
River
near
Monticello
Illinois.
Wat.
Sci.
Tech.
28(
3­
5),
569­
573.
1993.

35.
Dabydeen,
S.
and
Leavitt,
J.
R.
C.
Absorption
and
effect
of
simazine
and
atrazine
on
Elodea
canadensis.
Bull.
Environ.
Contam.
Toxicol.
26(
3),
381­
385.
1981.

36.
Day,
K.
E.
Pesticide
residues
in
freshwater
and
marine
zooplankton
a
review.
Environ.
Pollut.
67(
3),
205­
222.
1990.

37.
Denoyelles,
F.
Jr
and
Kettle,
W.
D.
Experimental
ponds
for
evaluating
bioassay
predictions.
In:
T.
P.
Boyle
(
Ed.),
Validation
and
predictability
of
laboratory
methods
for
assessing
the
fate
and
effects
of
contaminants
in
aquatic
ecosystems,
1st
Symposium,
ASTM
STP
865,
Philadelphia,
PA
,
91­
103.
1985.

38.
Denoyelles,
F.
Jr.,
Kettle,
W.
D.,
Fromm,
C.
H.,
Moffett,
M.
F.,
and
Dewey,
S.
L.
Use
of
Experimental
ponds
to
assess
the
effects
of
a
pesticide
on
the
aquatic
environment.
In:
J.
R.
Voshell,
Jr.(
Ed.),
Using
mesocosms
to
assess
the
aquatic
ecological
risk
of
pesticides:
Theory
and
Practice,
Misc.
Publ.
No.
75
,
Entomological
Society
of
America,
Lantham,
M.
D.
pp.
41­
56.
1989.

39.
Detenbeck,
N.
E.,
Hermanutz,
R.,
Allen,
K.,
and
Swift,
M.
C.
Fate
and
effects
of
the
herbicide
atrazine
in
flow­
through
wetland
mesocosms.
Environ.
Toxicol.
Chem.
15(
6),
937­
946.
1996.

40.
Diamond,
M.
L.,
Poulton,
D.
J.,
Mackay,
D.,
and
Stride,
F.
A.
Development
of
a
mass
balance
model
of
the
fate
of
17
chemicals
in
the
Bay
of
Quinte.
J.
Great
Lakes
Res.
20(
4),
643­
666.
1994.

41.
Dionne,
E.
Chronic
toxicity
to
the
fathead
minnow
(
Pimephales
promelas)
during
a
full
life­
cycle
exposure.
MRID
#
42547103.
U.
S.
EPA.
Springborn
Laboratories
Inc.,
Wareham,
MA.
1992.
42.
Du
Preez,
H.
H.
and
Van
Vuren,
J­
H.
J.
Bioconcentration
of
atrazine
in
the
banded
tilapia,
Tilapia
sparrmanii.
Comp.
Biochem.
Physiol.
C.
101(
3),
651­
655.
1992.

43.
Dudley,
D.
R.
and
Karr,
J.
R.
Pesticides
and
PCB
residues
in
the
Black
Creek
watershed,
Allen
County,
Indiana­­
1977­
78.
Pesticides
Monitor.
J.
13(
4),
155­
157.
1980.

44.
Eisler,
R.
Atrazine
hazards
to
fish,
wildlife,
and
invertebrates:
A
Synoptic
Review.
U.
S.
Fish
and
Wildlife
Service,
Washington,
DC.
Biological
Report
No
85,
53
p.
1989.

45.
El
Jay,
A.,
Ducruet,
J.
M.,
Duval,
J.
C.,
and
Pelletier,
J.
P.
A
High­
sensitivity
chlorophyll
fluorescence
assay
for
monitoring
herbicide
inhibition
of
photosystem
II
in
the
chlorophyte
Selenastrum
capricornutum:
Comparison
with
effect
on
cell
growth.
Arch.
Hydrobiol.
140(
2),
273­
286.
1997.
46.
Ellgehausen,
H.,
Guth,
J.
A.,
and
Esser,
H.
O.
Factors
determining
the
bioaccumulation
potential
of
pesticides
in
the
individual
compartments
of
aquatic
food
chains.
Ecotoxicol.
Environ.
Saf.
4(
2),
134­
157.
1980.

47.
Erickson
J.
M,
Pfister,
K.,
Rahire,
M.,
Togasaki
R.
K.,
Mets,
L.,
and
Rochaix,
J­
D.
Molecular
and
biophysical
analysis
of
herbicide­
resistant
mutants
of
Chlamydomonas
reinhardtii
structure­
function
relationship
of
the
photosystem
II
D1
polypeptide.
Plant
Cell
1(
3),
361­
372.
1989.

48.
Foes,
M.
J.,
Liu,
L.,
Tranel,
P.
J.,
Wax,
L.
M.,
and
Stoller,
E.
W.
A
biotype
of
common
waterhemp
(
Amaranthus
rudis)
resistant
to
triazine
and
ALS
herbicides.
Weed
Sci.
46(
5),
514­
520.
1998.

49.
Forbis,
A.
Uptake,
depuration,
and
bioconcentration
and
metabolite
characterization
of
carbon
14­
atrazine
by
bluegill
sunfish
(
Lepomis
macrochirus):
Laboratory
Study
No.
34737.
Unpublished
study
prepared
by
Analytical
Bio­
Chemistry
Laboratories,
Inc.;
submitted
by
Ciba­
Geigy
Corp.,
Greensboro,
NC.
107
p.
1986.
50.
Francis,
B.
M,
Lampman,
R.
L.,
and
Metcalf,
R.
L.
Model
ecosystem
studies
of
the
environmental
fate
of
five
herbicides
used
in
conservation
tillage.
Arch.
Environ.
Contam.
Toxicol.
14(
6),
693­
704.
1985.

51.
Freeman,
J.
L.
and
Rayburn,
A.
L.
In
vivo
genotoxicity
of
atrazine
to
anuran
larvae.
Mutat.
Res.
560(
1),
69­
78.
2004.

52.
Freitag,
D.,
Ballhorn,
L.,
Geyer,
H.
and
Korte,
F.
Environmental
hazard
profile
of
organic
chemicals:
An
experimental
method
for
the
assessment
of
the
behavior
of
organic
chemicals
in
the
exosphere
by
means
of
simple
laboratory
tests
with
14C
labeled
chemicals.
Chemosphere
14:
21589.
1985.

53.
Friesen­
Pankratz,
B.,
Doebel,
C.,
Farenhorst,
A.,
and
Goldsborough,
L.
G.
Interactions
between
algae
(
Selenastrum
capricornutum)
and
pesticides:
Implications
for
managing
constructed
wetlands
for
pesticide
removal.
J.
Environ.
Sci.
Health.
Part
B.
38(
2),
147­
155.
2003.

54.
Gaunt,
P.
and
Barker,
S.
A.
Matrix
solid
phase
dispersion
extraction
of
triazines
from
catfish
tissues;
examination
of
the
effects
of
temperature
and
dissolved
oxygen
on
the
toxicity
of
atrazine.
Int
.
J.
Environ.
Pollut.
13(
1­
6),
284­
312.
2000.

55.
Gaunt,
P.
S.
Extraction
and
analysis
of
triazines
in
fish
tissues
following
a
toxic
exposure;
environmental
factors
affecting
atrazine
toxicity
in
fish.
Ph.
D.
Thesis,
Louisiana
State
Univ.,
Baton
Rouge,
LA
,
211
p.
1996.

56.
Geyer,
H.,
Politzki,
G.,
and
Freitag,
D.
Prediction
of
ecotoxicological
behaviour
of
chemicals:
Relationship
between
N­
octanol/
water
partition
coefficient
and
bioaccumulation
of
organic
chemicals
by
alga
chlorella.
Chemosphere.
13(
2),
269­
284.
1984.

57.
Gluth,
G.,
Freitag,
D.,
Hanke,
W.,
and
Korte,
F.
Accumulation
of
pollutant
in
fish.
Comp.
Biochem.
Physiol.
C
81(
2),
273­
278.
1985.

58.
Goerge,
G.
and
Nagel,
R.
Kinetics
and
metabolism
of
super(
14)
C­
lindane
and
super(
14)
C­
atrazine
in
early
life
stages
of
zebrafish
(
Brachydanio
rerio
).
Chemosphere.
21(
8),
1125­
1137.
1990.

59.
Gojmerac,
T,
Kartal,
B.,
Bilandzic,
N.
Roic,
B.,
and
Rajkovic­
Janje,
R.
Seasonal
atrazine
contamination
of
drinking
water
in
pig­
breeding
farm
surroundings
in
agricultural
and
industrial
areas
of
Croatia.
Bull.
Environ.
Contamin.
Toxicol.
56(
2),
225­
230.
1996.

60.
Goldberg,
E.
D.
Emerging
problems
in
the
coastal
zone
for
the
twenty­
first
century.
Mar.
Pollut.
Bull.
31(
4­
12),
152­
158.
1995.

61.
Goodbred,
S.
L.,
R.
J.
Gilliom,
T.
S.
Gross,
N.
P.
Denslow,
W.
L.
Bryant,
and
T.
R.
Schoeb.
Reconnaissance
of
17
Beta­
Estradiol,
11­
Ketotestosterone,
Vitellogenin,
and
Gonad
Histopathology
in
Common
Carp
of
United
States
Streams:
Potential
for
Contaminant­
Induced
Endocrine
Disruption.
U.
S.
Geological
Survey
Report
96­
627,
60
pp.
1996.

62.
Gorge,
G.
and
Nagel,
R.
Kinetics
and
metabolism
of
14C­
lindane
and
14C­
atrazine
in
early
life
stages
of
zebrafish
(
Brachydanio
rerio).
Chemosphere.
21(
9),
1125­
1137.
1990.

63.
Gramlich,
J.
V.
and
Frans,
R.
E.
Kinetics
of
chlorella
inhibition
by
herbicides.
Weeds.
12,
184­
189.
1964.

64.
Grobler­
Van
Heerden,
E,
Van
Vuren,
J.
H.
J,
and
Du
Preez,
H.
H.
Bioconcentration
of
atrazine,
zinc
and
iron
in
the
blood
of
Tilapia
sparrmanii
(
Cichlidae).
Comp.
Biochem.
Physiol.
C.
100(
3),
629­
634.
1991.

65.
Grossmann,
K.,
Berghaus,
R.,
and
Retzlaff,
G.
Heterotrophic
plant
cell
suspension
cultures
for
monitoring
biological
activity
in
agrochemical
research:
Comparison
with
screens
using
algae,
germinating
seeds
and
whole
plants.
Pestic.
Sci.
35(
3),
283­
289.
1992.

66.
Gruessner,
B.
and
Watzin,
M.
C.
Response
of
aquatic
communities
from
a
Vermont
stream
to
environmentally
realistic
atrazine
exposure
in
laboratory
microcosms.
Environ.
Toxicol.
Chem.
15(
4),
410­
419.
1996.

67.
Guasch,
H.,
Ivorra,
N.,
Lehmann,
V.,
Paulsson,
M.,
Real,
M.,
and
Sabater,
S.
Community
composition
and
sensitivity
of
periphyton
to
atrazine
in
flowing
waters:
The
role
of
environmental
factors.
J.
Appl.
Phycol.
10(
2),
203­
213.
1998.

68.
Guasch,
H.,
Munoz,
I.,
Roses,
N.,
and
Sabater,
S.
Changes
in
atrazine
toxicity
throughout
succession
of
stream
periphyton
communities.
J.
Appl.
Phycol.
9(
2),
137­
146.
1997.

69.
Gucciardo,
L.
S.
The
use
of
anuran
larvae
to
determine
chronic
and
acute
toxicological
effects
from
exposure
to
atrazine
and
metolachlor.
Ph.
D.
Thesis,
Iowa
State
Univ.
Ames,
IA.
1999.

70.
Gunkel,
G.
and
Streit,
B.
Mechanisms
of
bioaccumulation
of
a
herbicide
(
atrazine,
s­
triazine)
in
a
freshwater
mollusc
(
Ancylus
fluviatilis
Mull.)
and
a
fish
(
Coregonus
fera
J.
)
Water
Res.
14(
11),
1573­
1584.
1980.

71.
Gunkel,
G.
Bioaccumulation
of
a
herbicide
(
Atrazine,
S­
Triazine)
in
the
whitefish
(
Coregonus
fera
J.):
Uptake
and
Distribution
of
the
residue
in
fish.
Arch.
Hydrobiol.
Suppl.
59(
2/
3),
252­
287.
1981.

72.
Hall,
W.
L.
Jr.,
Anderson,
R.
D.,
Kilian,
J.,
and
Tierney,
D.
P.
Concurrent
exposure
assessments
of
atrazine
and
metolachlor
in
the
mainstem,
major
tributaries
and
small
streams
of
the
Chesapeake
Bay
watershed:
Indicators
of
ecological
risk.
Environ.
Monit.
Assess.
59,
155­
190.
1999.

73.
Hannan
P.
J.
A
novel
detection
scheme
for
herbicidal
residues.
Environ.
Toxicol.
Chem.
14(
5),
775­
780.
1995.

74.
Harris,
M.
L.,
Bishop,
C.
A,
Struger,
J.,
Van
Den
Heuvel,
M.
R.,
Van
Der
Kraak,
G.
J.,
Dixon,
D.
G.,
Ripley,
B.,
and
Bogart,
J.
P.
The
functional
integrity
of
northern
leopard
frog
(
Rana
pipiens)
and
green
frog
(
Rana
clamitans)
populations
in
orchard
wetlands:
I.
Genetics,
physiology,
and
biochemistry
of
breeding
adults
and
young­
of­
the­
year.
Environ.
Toxicol.
Chem.
17(
7),
1338­
1350.
1998.

75.
Hartgers,
E.
M.,
Aalderink,
G.
H.,
Van
Den
Brink,
P.
J.,
Gylstra,
R.,
Wiegman,
J.
W.
F.,
and
Brock,
T.
C.
M.
Ecotoxicological
threshold
levels
of
a
mixture
of
herbicides
(
Atrazine,
Diuron
and
Metolachlor)
in
freshwater
microcosms.
Aquat.
Ecol.
32,
135­
152.
1998.

76.
Haynes,
D.,
Muller,
J.,
and
Carter,
S.
Pesticide
and
herbicide
residues
in
sediments
and
seagrasses
from
the
Great
Barrier
Reef
World
Heritage
Area
and
Queensland
Coast.
Mar.
Pollut.
Bull.
41(
7­
12),
279­
287.
2000.
77.
Heisig­
Gunkel,
G.
and
Gunkel,
G.
Distribution
of
a
herbicide
(
atrazine,
s­
triazine)
in
Daphnia
pulicaria:
A
new
approach
to
determination.
Arch.
Hydrobiol.
Suppl.
59(
4),
359­
376.
1982.

78.
Hendriks
A.
J.,
Pieters,
H.,
and
De
Boer
J.
Accumulation
of
metals,
polycyclic
(
halogenated)
aromatic
hydrocarbons,
and
biocides
in
zebra
mussel
and
eel
from
the
Rhine
and
Meuse
Rivers.
Environ.
Toxicol.
Chem.
17(
10),
1885­
1898.
1998.

79.
Hendriks,
A
J.
Modeling
response
of
species
to
microcontaminants:
Comparative
ecotoxicology
by
(
sub)
lethal
body
burdens
as
a
function
of
species
size
and
partition
ratio
of
chemicals.
Ecotoxicol.
Environ.
Saf.
32(
2),
103­
130.
1995.

80.
Hinman
M.
L.
and
Klaine
S.
J.
Uptake
and
translocation
of
selected
organic
pesticides
by
the
rooted
aquatic
plant
Hydrilla
verticillata
Royle.
Environ.
Sci.
Technol.
26(
3),
609­
613.
1992.

81.
Huber,
W.
Atrazine
in
aquatic
test
systems:
An
evaluation
of
ecotoxicological
risks.
In:
Hill
I.
R.,
F.
Heimbach
,
P.
Leeuwangh
,
P.
Matthiessen
(
Eds.),
Freshwater
field
tests
for
hazard
assessment
of
chemicals.
Lewis
Publishers,
Boca
Raton,
FL
(
USA),
pp.
273­
286.
1994.

82.
Huber,
W.
Ecotoxicological
relevance
of
atrazine
in
aquatic
systems.
Environ.
Toxicol.
Chem.
12(
10),
1865­
1881.
1993.

83.
Huckins,
J.
N.,
Petty,
J.
D.,
and
England,
D.
C.
Distribution
and
impact
of
trifluralin,
atrazine,
and
fonofos
residues
in
microcosms
simulating
a
northern
prairie
wetland.
Chemosphere.
15(
5),
563­
588.
1986.

84.
Hutber,
G.
N.,
Rogers,
L.
J.,
and
Smith,
A.
J.
Influence
of
pesticides
on
the
growth
of
cyanobacteria.
Z.
Allg.
Mikrobiol.
19(
6),
397­
402.
1979.

85.
Isensee,
A.
R.
Variability
of
aquatic
model
ecosystem­
derived
data.
Int.
J.
Environ.
Stud.
10,
35­
41.
1976.

86.
Johnson,
D.
H.,
Beaty,
J.
D.,
Horton,
D.
K.,
Talbert,
R.
E.,
Guy,
C.
B.,
Mattice,
J.
D.,
Lavy,
T.
L.,
and
Smith,
R.
J.
Jr.
Effects
of
rotational
crop
herbicides
on
rice
(
Oryza
sativa).
Weed
Sci.
43(
4),
648­
654.
1995.

87.
Jones,
R.
J.
and
Kerswell,
A.
P.
Phytotoxicity
of
photosystem
II
(
PSII)
herbicides
to
coral.
Mar.
Ecol.
Prog.
Ser.
261,
149­
159.
2003.

88.
Jones,
R.
J.,
Muller,
J.,
Haynes,
D.,
and
Schreiber,
U.
Effects
of
herbicides
diuron
and
atrazine
on
corals
of
the
Great
Barrier
Reef,
Australia.
Mar.
Ecol.
Prog.
Ser.
251,
153­
167.
2003.

89.
Jones,
T.
W.
and
Estes,
P.
S.
Uptake
and
phytotoxicity
of
soil­
sorbed
atrazine
for
the
submerged
aquatic
plant,
Potamogeton
perfoliatus
L.
Arch.
Environ.
Contam.
Toxicol.
13(
2),
237­
241.
1984.

90.
Jones,
T.
W.
and
Winchell,
L.
Uptake
and
photosynthetic
inhibition
by
atrazine
and
its
degradation
products
on
four
species
of
submerged
vascular
plants.
J.
Environ.
Qual.
13(
2),
243­
247.
1984.

91.
Jones,
T.
W,
Kemp,
W.
M,
Estes,
P.
S.,
and
Stevenson,
J.
C.
Atrazine
uptake
photosynthetic
inhibition
and
short­
term
recovery
for
the
submersed
vascular
plant
Potamogeton­
perfoliatus.
Arch.
Environ.
Contam.
Toxicol.
15(
3),
277­
284.
1986.

92.
Juttner,
I.,
Peither,
A.,
Lay,
J.
P.,
Kettrup,
A.,
and
Ormerod,
S.
J.
An
outdoor
mesocosm
study
to
assess
ecotoxicological
effects
of
atrazine
on
a
natural
plankton
community.
Arch.
Environ.
Contam.
Toxicol.
29(
4),
435­
441.
1995.

93.
Kazeto,
Y.,
Place,
A.
R,
and
Trant,
J.
M.
Effects
of
endocrine
disrupting
chemicals
on
the
expression
of
CYP19
genes
in
zebrafish
(
Danio
rerio)
juveniles.
Aquat.
Toxicol.
69(
1),
25­
34.
2004.
94.
Kearney,
P.
C.,
Oliver,
J.
E.,
Helling,
C.
S.,
Isensee,
A.
R.,
and
Kontson,
A.
Distribution,
movement,
persistence,
and
metabolism
of
n­
nitrosoatrazine
in
soils
and
a
model
aquatic
ecosystem.
J.
Agric.
Food
Chem.
25(
5),
1177­
1181.
1977.

95.
Kemp,
W.
M.,
Means,
J.
C.,
Jones,
T.
W.,
and
Stevenson,
J.
C.
Herbicides
in
Chesapeake
Bay
and
their
effects
on
submerged
aquatic
vegetation.
In:
A
synthesis
of
research
supported
by
U.
S.
EPA
Chesapeake
Bay
program.
U.
S.
EPA,
Washington,
D.
C.
pp.
502­
566.
1981.

96.
Kenaga,
E.
E.
Predicted
bioconcentration
factors
and
soil
sorption
coefficients
of
pesticides
and
other
chemicals.
Ecotox.
Environ.
Saf.
4:
26­
38.
1980.

97.
KDHE.
Regional
ambient
fish
tissue
monitoring
program
(
RAFTMP)
and
Kansas
follow­
up
studies
program
(
KFSP)
1988
summary
report.
Kansas
Department
of
Health
and
Environmental,
Topeka,
KS.
1988.

98.
KDHE.
1987.
Regional
ambient
fish
tissue
monitoring
program
(
RAFTMP)
report/
summary.
Kansas
Department
of
Health
and
Environmental,
Topeka,
KS.
1987.

99.
Klaassen,
H.
E.
and
Kadoum,
A.
M.
Distribution
and
retention
of
atrazine
and
carbofuran
in
farm
pond
ecosystems.
Arch.
Environ.
Contam.
Toxicol.
8(
3),
345­
353.
1979.

100.
Klein,
J.,
Brueggemann,
R.,
Voigt,
K.,
and
Steinberg,
C.
E.
W.
Advances
in
comparative
analysis
of
adverse
effects
in
aquatic
ecosystems
with
emphasis
on
studies
with
humic
substances
and
on
progress
in
mathematical
analysis
techniques.
Wat.
Res.
29(
10),
2261­
2268.
1995.

101.
Krieger,
K.
A.,
Baker,
D.
B.,
and
Kramer,
J.
W.
Effects
of
herbicides
on
stream
Aufwuchs
productivity
and
nutrient
uptake.
Arch.
Environ.
Contam.
Toxicol.
17
(
3),
299­
306.
1988.

102.
Kunze,
P.
Change
of
behaviour
with
atrazine
in
an
electric
fish.
J.
Water
Wastewat.
Res.
22(
3),
108­
111.
1989.

103.
Lampert,
M.,
Fleckner,
W.,
Pott,
E.,
Schober,
U.,
and
Stoerkel,
K.
U.
Herbicide
effects
on
planktonic
systems
of
different
complexity.
Hydrobiologia.
188­
189,
415­
424.
1989.

104.
Leblanc,
G.
A.
Trophic­
Level
Differences
in
the
bioconcentration
of
chemicals:
Implications
in
assessing
environmental
biomagnification.
Environ.
Sci.
Technol.
29(
1),
154­
160.
1995.

105.
Lehotay,
S.
J.,
Harman­
Fetcho,
J.
A.,
and
Mcconnell,
L.
L.
Agricultural
pesticide
residues
in
oysters
and
water
from
two
Chesapeake
Bay
tributaries.
Mar.
Pollut.
Bull.
37(
1­
2),
32­
44.
1998.

106.
Lynch,
T.
R.
,
Johnson,
H.
E.,
and
Adams,
W.
J.
The
fate
of
atrazine
and
a
hexachlorobiphenyl
isomer
in
naturally­
derived
model
stream
ecosystems.
Environ.
Toxicol.
Chem.
1(
2),
179­
192.
1982.

107.
Lytle,
J.
S.
and
Lytle,
T.
F.
Uptake
and
loss
of
chlorpyrifos
and
atrazine
by
Juncus
effusus
L.
in
a
mesocosm
study
with
a
mixture
of
pesticides.
Environ.
Toxicol.
Chem.
21(
9),
1817­
1825.
2002.

108.
Lyubenov,
Y.
Pollution
of
waters
and
water
basins
by
herbicides
used
in
Bulgaria.
Rastit.
Zasht.
21(
2):
33­
36(
Bul)
(
1973)
/
Pestic.
Abstr.
7(
8),
503­
504.
1974.

109.
Macdonald,
R.
W.
and
Bewers,
J.
M.
Contaminants
in
the
arctic
marine
environment:
Priorities
for
protection.
ICES
J.
Mar.
Sci.
53(
3),
537­
563.
1996.

110.
Macek,
K.
J.
,
Buxton,
K.
S.,
Sauter,
S.,
Gnilka,
S.,
and
Dean,
J.
W.
Chronic
toxicity
of
atrazine
to
selected
aquatic
invertebrates
and
fishes
.
U.
S.
EPA,
Duluth,
MN
,
50
p.
1976.
111.
Magee,
P.
S.
Complex
factors
in
hydrocarbon­
water
soil­
water
and
fish­
water
partitioning.
In:
J.
L.
M.
Hermens
and
A.
Opperhuizen
(
Ed.),
Qsar
(
Quantitative
structure­
activity
relationships)
in
environmental
toxicology­
IV;
Fourth
International
Workshop,
Veldhoven,
Netherlands,
September
16­
20,
1990.
Elsevier
Science
Publishers
B.
V.,
Amsterdam,
Netherlands
(
Dist.
in
the
USA
and
Canada
by
Elsevier
Science
Publishing
Co.,
Inc.,
New
York,
New
York),
pp.
155­
178,
1991.

112.
Maier­
Bode,
H.
Behavior
of
herbicides
in
water,
muck
and
fish
after
application
in
fish
ponds.
Schriftenreihe
des
Vereins
fur
Wasser­,
Boden­
und
Lufthygiene,
Berlin­
Dahlem.
37:
67­
75.
1972.

113.
Mailhot,
H.
Prediction
of
algal
bioaccumulation
and
uptake
rate
of
nine
organic
compounds
by
ten
physicochemical
properties.
Environ.
Sci.
Technol.
21(
10),
1009­
1013.
1987.

114.
Maule,
A.
and
Wright,
S.
J.
L.
Herbicide
effects
on
the
population
growth
of
some
green
algae
and
cyanobacteria.
J.
Appl.
Bacteriol.
57(
2),
369­
379.
1984.

115.
Mazanti,
L.
E.
The
effects
of
atrazine,
metolachlor
and
chlorpyrifos
on
the
growth
and
survival
of
larval
frogs
under
laboratory
and
field
conditions.
Ph.
D.
Thesis,
Univ.
of
Maryland,
College
Park,
MD
.
1999.

116.
Mcenerney,
J.
T.
and
Davis,
D.
E.
Metabolic
fate
of
atrazine
in
the
Spartina
alterniflora­
detritus­
Uca
pugnax
food
chain.
J.
Environ.
Qual.
8(
3),
335­
338.
1979.

117.
Meakins,
N.
C,
Bubb,
J.
M,
and
Lester,
J.
N.
The
mobility,
partitioning
and
degradation
of
atrazine
and
simazine
in
the
salt
marsh
environment.
Mar.
Pollut.
Bull.
30(
12),
812­
819.
1995.

118.
Merriam,
T.
L.
and
Axtell,
R.
C.
Relative
toxicity
of
certain
pesticides
to
Lagenidium
giganteum
(
Oomycetes:
Lagenidiales),
a
fungal
pathogen
of
mosquito
larvae.
Environ.
Entomol.
12,
515­
521.
1983.

119.
Metcalf,
R.
L.
and
Sanborn,
J.
R.
Pesticides
and
environmental
quality
in
Illinois.
III.
Nat.
Hist.
Surv.
Bull.
31:
377.
1975.

120.
Moore,
A.
and
Waring,
C.
P.
Mechanistic
effects
of
a
triazine
pesticide
on
reproductive
endocrine
function
in
mature
male
Atlantic
salmon
(
Salmo
salar
L.)
parr.
Pestic.
Biochem.
Physiol.
62,
41­
50.
1998.

121.
Moore,
M.
T.,
Bennett,
E.
R.,
Cooper,
C.
M.,
Smith,
S.
Jr,
Shields,
F.
D.
Jr,
Milam,
C.
D.,
and
Farris,
J.
L.
Transport
and
fate
of
atrazine
and
lambda­
cyhalothrin
in
an
agricultural
drainage
ditch
in
the
Mississippi
Delta,
USA.
Agric.
Ecosyst.
Environ.
87(
3),
309­
314.
2001.

122.
Nikkila,
A.,
Paulsson,
M.,
Almgren,
K.,
Blanck,
H.,
and
Kukkonen,
J.
V.
Atrazine
uptake,
elimination,
and
bioconcentration
by
periphyton
communities
and
Daphnia
magna:
Effects
of
dissolved
organic
carbon.
Environ.
Toxicol.
Chem.
20(
5),
1003­
1011.
2001.

123.
Norris,
L.
A.,
Lorz,
H.
W.,
and
Gregory,
S.
V.
Forest
chemicals.
In:
W.
R.
Meehan
(
Ed.),
Am.
Fish.
Soc.
Spec.
Publ.
No.
19,
Influences
of
forest
and
rangeland
management
on
salmonid
fishes
and
their
habitats,
Chapter
7,
Am.
Fish.
Soc.,
Bethesda,
MD.
pp.
207­
296.
1991.

124.
Owen,
R.,
Knap,
A.,
Ostrander,
N.,
and
Carbery,
K.
Comparative
acute
toxicity
of
herbicides
to
photosynthesis
of
coral
zooxanthellae.
Bull.
Environ.
Contam.
Toxicol.
70(
3),
541­
548.
2003.

125.
Paris,
D.
F.,
Lewis,
D.
L.,
Barnett,
J.
T.
Jr,
and
Baughman,
G.
L.
Microbial
degradation
and
accumulation
of
pesticides
in
aquatic
systems.
U.
S.
EPA
Off.
Res.
Monit.
Ecol.
Res.
Ser.
No.
75­
007.
1975.

126.
Pennington,
P.
L.,
Daugomah,
J.
W.,
Colbert,
A.
C.,
Fulton,
M.
H.,
Key,
P.
B.,
Thompson,
B.
C.,
Strozier,
E.
D.,
and
Scott,
G.
I.
Analysis
of
pesticide
runoff
from
mid­
Texas
estuaries
and
risk
assessment
implications
for
marine
phytoplankton.
J.
Environ.
Sci.
Health.
Part
B.
36(
1),
1­
14.
2001.
127.
Pereira,
W.
E.,
Domagalski,
J.
L.,
Hostettler,
F.
D.,
Brown,
L.
R.,
and
Rapp,
J.
B.
Occurrence
and
accumulation
of
pesticides
and
organic
contaminants
in
river
sediment,
water
and
clam
tissues
from
the
San
Joaquin
River
and
tributaries,
California.
Environ.
Toxicol.
Chem.
15(
2),
172­
180.
1996.

128.
Peterson,
H.
G.,
Boutin,
C.,
Martin,
P.
A.,
Freemark,
K.
E.,
Ruecker,
N.
J.,
and
Moody,
M.
J.
Aquatic
phytotoxicity
of
23
pesticides
applied
at
expected
environmental
concentrations.
Aquat.
Toxicol.
28(
3­
4),
275­
292.
1994.

129.
Phyu,
Y.
L.,
Warne,
M.
St
J.,
and
Lim,
R.
P.
Toxicity
of
atrazine
and
molinate
to
the
cladoceran
Daphnia
carinata
and
the
effect
of
river
water
and
bottom
sediment
on
their
bioavailability.
Arch.
Environ.
Contam.
Toxicol.
46(
3),
308­
315.
2004.

130.
Pierce,
P.
C.,
Frey,
J.
E.,
and
Yawn,
H.
M.
Field
evaluations
of
newer
aquatic
herbicides.
In:
Proc.
18th
Annu.
Meeting
Southern
Weed
Conf.
pp.
497­
506.
1965.

131.
Pillai,
C.
G.
P.,
Weete,
J.
D.,
and
Davis,
D.
E.
Metabolism
of
atrazine
by
Spartina
alterniflora.
1.
Chloroform­
soluble
metabolites.
J.
Agric.
Food
Chem.
25(
4),
852­
855.
1977.

132.
Pillai,
P.,
Weete,
J.
D.,
Diner,
A.
M.,
and
Davis,
D.
E.
Atrazine
metabolism
in
box
crabs.
J.
Environ.
Qual.
8(
3),
277­
280.
1979.

133.
Pratt,
J.
R.,
Melendez,
A.
E.,
Barreiro,
R.,
and
Bowers,
N.
J.
Predicting
the
ecological
effects
of
herbicides.
Ecol.
Appl.
7(
4),
1117­
1124.
1997.

134.
Premazzi,
G.,
and
Stecchi,
R.
Evaluation
of
the
impact
of
atrazine
on
the
aquatic
environment.
EU
12569.
Review.
Commission
of
the
European
Communities.
Brussels,
Belgium.
1990.

135.
Prescott,
L.
M.
and
Olson,
D.
L.
The
effect
of
pesticides
on
the
soil
amoeba
Acanthamoeba
castellanii
(
Neff).
Proc.
South
D.
Acad.
Sci.
51,
136­
141.
1972.

136.
Purkayastha,
R.
Simultaneous
detection
of
the
residues
of
atrazine
and
linuron
in
water,
soil,
plant,
and
animal
samples
by
thin­
layer
chromatography.
Intern.
J.
Environ.
Anal.
Chem.
1(
2),
147­
158.
1971.

137.
Rabert,
W.,
Lin,
J.,
Frankenberry,
M.,
and
Urban,
D.
Reregistration
eligibility
science
chapter
for
atrazine
environmental
fate
and
effects
chapter.
U.
S.
EPA
Office
of
Pesticide
Programs.
pp.
1­
95.
2002.

138.
Rice,
P.
J.,
Anderson,
T.
A.,
and
Coats,
J.
R.
Phytoremediation
of
herbicide­
contaminated
surface
water
with
aquatic
plants.
In:
E.
L.
Kruger,
T.
A.
Anderson,
and
J.
R.
Coats
(
Eds.),
Phytoremediation
of
soil
and
water
contaminants,
Chapter
10,
ACS
Symp.
Ser.
664,
pp.
133­
151.
1997.

139.
Riley,
D.
Assessment
acceptability
and
regulation
of
risk
from
residues
in
water.
A.
Walker
et
al.
(
Ed.).
British
Crop
Protection
Council
Monograph,
No.
62.
Pesticide
Movement
to
Water;
Symposium,
Coventry,
England,
UK,
April
3­
5,
1995.

140.
Rupassara,
S.
I.,
Larson,
R.
A.,
Sims,
G.
K.,
and
Marley,
K.
A.
Degradation
of
atrazine
by
hornwort
in
aquatic
systems.
Bioremed.
J.
6(
3),
217­
224.
2002.

141.
Russell,
D.
J.,
Hales,
P.
W.,
and
Moss,
A.
Pesticide
residues
in
aquatic
biota
from
North­
east
Queensland
coastal
streams.
Proceedings
Royal
Soc.
Queensland.
106(
1),
23­
30.
1996.

142.
Sabater,
C.,
Cuesta,
A.,
and
Carrasco,
R.
Effects
of
bensulfuron­
methyl
and
cinosulfuron
on
growth
of
four
freshwater
species
of
phytoplankton.
Chemosphere.
46(
7),
953­
960.
2002.

143.
Sabater,
C.
and
Carrasco,
J.
M.
Effects
of
the
organophosphorus
insecticide
fenitrothion
on
growth
in
five
freshwater
species
of
phytoplankton.
Environ.
Toxicol.
16,
314­
320.
2001.
144.
Saito,
S.,
Tanoue,
A.,
and
Matsuo,
M.
Applicability
of
the
i/
o­
characters
to
a
quantitative
description
of
bioconcentration
of
organic
chemicals
in
fish.
Chemosphere.
24(
1),
81­
88.
1992.

145.
Sajjaphan,
K.,
Shapir,
N.,
Judd,
A.
K.,
Wackett,
L.
P.,
and
Sadowsky,
M.
J.
Novel
PSBA1
gene
from
a
naturally
occurring
atrazine­
resistant
cyanobacterial
isolate.
Appl.
Environ.
Microbio.
68(
3),
1358­
1366.
2002.

146.
Schaefer,
H.,
Wenzel,
A.,
Fritsche,
U.,
Roederer,
G.,
and
Traunspurger,
W.
Long­
term
effects
of
selected
xenobiotica
on
freshwater
green
algae:
Development
of
a
flow­
through
test
system.
Proceed.
Second
European
Conf.
Ecotoxicol.,
Sci.
Total
Environ.,
vol.
suppl.
pts.
1­
2,
735­
740.
1993.

147.
Schober,
U.
and
Lampert,
W.
Effects
of
sublethal
concentrations
of
a
herbicide
on
daphnia.
Naturwissenschaften.
63(
5),
241­
242.
1976.

148.
Schocken,
M.
J.
and
Speedie,
M.
K.
Interaction
of
higher
marine
fungi
with
the
herbicide
atrazine.
II.
Sorption
of
atrazine
to
four
species
of
marine
fungi.
Bull.
Environ.
Contam.
Toxicol.
29(
1),
101­
106.
1982.

149.
Schocken,
M.
J.
and
Speedie,
M.
K.
Physiological
aspects
of
atrazine
degradation
by
higher
marine
fungi.
Arch.
Environ.
Contam.
Toxicol.
13,
707­
714.
1984.

150.
Schueuermann,
G.
and
Klein,
W.
Advances
in
bioconcentration
prediction.
Chemosphere
17(
8),
1551­
1574.
1988.

151.
Sheehan,
P.
J.,
Axler,
R.
P.,
and
Newhook,
R.
C.
Evaluation
of
simple
generic
aquatic
ecosystem
tests
to
screen
the
ecological
impacts
of
pesticides.
In:
J.
Cairns,
Jr.(
Ed.),
Community
toxicity
testing,
ASTM
STP
920,
Philadelphia,
PA
,
pp.
158­
179.
1986.

152.
Shelton,
A.
D.
and
Miller,
M.
C.
Herbicide
bioconcentration
in
Cladophora
glomerata:
Atrazine
removal
in
a
eutrophic
agricultural
river.
Hydrobiologia.
469,
157­
164.
2002.

153.
Sivan,
A.
and
Arad,
S.
A
Mutant
of
the
red
Microalga
porphyridium
sp.
(
Rhodophyceae)
resistant
to
DCMU
and
atrazine.
Phycologia.
34(
4),
299­
305.
1995.

154.
Solomon,
K.
R.,
Baker,
D.
B.,
Richards,
R.,
Dixon,
K.
R.,
Klaine,
S.
J.,
La
Point,
T.
W.,
Kendall,
R.
J.,
Weisskopf,
C.
P.,
Giddings,
J.
M.,
Giesy,
J.
P.,
Hall,
L.
W.
Jr,
and
Williams,
W.
M.
Ecological
risk
assessment
of
atrazine
in
North
American
surface
waters.
Environ.
Toxicol.
Chem.
15(
1),
31­
76.
1996.

155.
Spazier,
E.
,
Storch,
V.,
and
Braunbeck,
T.
Cytopathology
of
spleen
in
eel
Anguilla
anguilla
exposed
to
a
chemical
spill
in
the
Rhine
River.
Dis.
Aquat.
Org.
14(
1),
1­
22.
1992.

156.
Stay,
F.
S.,
Larsen,
D.
P.,
Katko,
A.,
and
Rohm,
C.
M.
Effects
of
atrazine
on
community
level
responses
in
taub
microcosms.
In:
T.
P.
Boyle
(
Ed.),
Validation
and
predictability
of
laboratory
methods
for
assessing
the
fate
and
effects
of
contaminants
in
aquatic
ecosystems,
1st
symposium,
ASTM
STP
865,
Philadelphia,
PA
,
pp.
75­
90.
1985.

157.
Stevenson,
J.
C.,
Jones,
T.
W.,
Kemp,
W.
M.,
Boynton,
W.
R.,
and
Means,
J.
C.
An
overview
of
atrazine
dynamics
in
estuarine
ecosystems.
In:
Proc.
of
the
Workshop
on
Agrichemicals
and
Estuarine
Productivity,
Beaufort,
North
Carolina,
Sept.
18­
19,
pp.
71­
94.
1980.

158.
Storrs,
S.
I.
and
Kiesecker,
J.
M.
Survivorship
patterns
of
larval
amphibians
exposed
to
low
concentrations
of
atrazine.
Environ.
Health
Perspect.
112(
10),
1054­
1057.
2004.

159.
Stratton,
G.
W.
and
Corke,
C.
T.
Interaction
between
acetone
and
two
pesticides
towards
several
unicellular
green
algae.
Bull.
Environ.
Contam.
Toxicol.
27(
1),
13­
16.
1981.
160.
Stratton,
G.
W.,
Huber,
A.
L.,
and
Corke,
C.
T.
The
effect
of
pesticides
and
their
metabolites,
alone
and
in
combination,
on
algal
processes.
In:
J.
F.
Klaverkamp,
S.
L.
Leonard
and
K.
E.
Marshall
(
Eds.),
Proc.
6th
Annu.
Tox.
Workshop,
Can.
Tech.
Rep.
Fish
Aquat.
Sci.
No.
975,
131­
139.
1980.

161.
Streit,
B.
Uptake
accumulation
and
release
of
organic
pesticides
by
benthic
invertebrates.
3.
Distribution
of
14C­
atrazine
and
14Clindane
in
an
experimental
3­
step
food
chain
microcosm.
Arch.
Hydrobiol.
Suppl.
55:
373­
400.
1979.

162.
Su,
Y.­
H.
and
Zhu,
Y.­
G.
Influence
of
lead
on
atrazine
uptake
by
rice
(
Oryza
Sativa
L.)
seedlings
from
nutrient
solution.
Environ.
Sci.
Poll.
Res.
Internat.
12(
1),
21­
27.
2005.

163.
Svobodova,
Z.,
Piacka,
V.,
Vykusova,
B.,
Machova,
J.,
Hejtmanek,
M.,
Hrbkova,
M.,
and
Bastl,
J.
Residues
of
pollutants
in
siluriformes
from
various
localities
of
the
Czech
Republic.
Actaveterinaria
Brno
64(
2),
195­
208.
1995.

164.
Svobodova,
Z.,
Vykusova,
B.,
and
Machova,
J.
The
effects
of
pollutants
on
selected
haematological
and
biochemical
parameters
in
fish.
In:
R.
Muller
and
R.
Lloyd
(
Eds.),
Sublethal
and
chronic
effects
of
pollutants
on
freshwater
fish,
Chapter
4,
Fishing
News
Books,
London,
UK,
pp.
39­
52.
1994.

165.
Tang,
J.,
Hoagland,
K.
D.,
and
Siegfried,
B.
D.
Uptake
and
bioconcentration
of
atrazine
by
selected
freshwater
algae.
Environ.
Toxicol.
Chem.
17
(
6),
1085­
1090.
1998.

166.
Taub,
F.
B.
and
Dollar,
A.
M.
A
chlorella­
daphnia
food­
chain
study:
The
design
of
a
compatible
chemically
defined
culture
medium.
Limnol.
Oceanogr.
9(
1),
61­
74.
1964.

167.
Tayaputch,
N.
Present
aspects
and
environmental
impacts
of
pesticide
use
in
Thailand.
J.
Pestic.
Sci.
21(
1),
132­
135.
1996.

168.
Toth,
S.,
Becker­
Van
Slooten,
K.,
Spack,
L.,
De
Alencastro,
L.
F.,
and
Tarradellas,
J.
Irgarol
1051,
An
antifouling
compound
in
freshwater,
sediment,
and
biota
of
Lake
Geneva.
Bull.
Environ.
Contamin.
Toxicol.
57(
3),
426­
433.
1996.

169.
Turgut,
C.
and
Fomin,
A.
The
ability
of
Myriophyllum
aquaticum
(
Vell.)
verdcourt
in
the
uptake
and
the
translocation
of
pesticides
via
roots
with
a
view
to
using
the
plants
in
sediment
toxicity
testing.
J.
Appl.
Bot.
76(
1/
2),
62­
65.
2002.

170.
Urban,
D.,
Odenkirchen,
E.,
Frankenberry,
M.,
Lin,
J.,
and
Rabert,
W.
Review
of
Atrazine
PRA.
US
EPA,
Office
of
Pesticide
Programs,
Appendix
XVII.
1­
39.
2001.

171.
Valentine,
J.
P.
and
Bingham,
S.
W.
Influence
of
algae
on
amitrole
and
atrazine
residues
in
water.
Can.
J.
Bot.
54(
18),
2100­
2107.
1976.

172.
Valentine,
J.
P.
and
Bingham,
S.
W.
Uptake
of
three
herbicides
by
four
species
of
algae.
Va.
J.
Sci.
23,102
(
Abs).
1972.

173.
Van
Der
Heever,
J.
A
and
Grobbelaar,
J.
U.
Evaluation
of
short­
incubation­
time
small­
volume
radiocarbonuptake
algal
toxicity
test.
J.
Appl.
Phycol.
8(
1),
65­
71.
1996.

174.
Van
Der
Weij,
H.
G.,
Hoogers,
B.
J.,
and
Blok,
E.
Mercaptotriazines
compared
with
diuron
for
aquatic
weed
control
in
stagnant
waters.
In:
3rd
Int.
Symp
on
Aquatic
Weeds,
Eur.
Weed
Res.
Counc.,
Wageningen,
Netherlands
pp.
149­
160.
1971.

175.
Vanderpoorten,
A.
Aquatic
bryophytes
for
a
spatio­
temporal
monitoring
of
the
water
pollution
of
the
rivers
Neuse
and
Sambre
(
Belgium).
Environ.
Pollut.
104,
401­
410.
1999.
176.
Veber,
K.,
Zahradnik,
J.,
Breyl,
I.,
and
Kredl,
F.
Toxic
effect
and
accumulation
of
atrazine
in
algae.
Bull.
Environ.
Contam.
Toxicol.
27(
6),
872­
876.
1981.

177.
Verrin,
S.
M.,
Begg,
S.
J.,
and
Ross,
P.
S.
Pesticide
use
in
British
Columbia
and
the
Yukon:
An
assessment
of
types,
applications
and
risks
to
aquatic
biota.
Can.
Tech.
Rep.
Fish.
Aquat.
Sci.
No.
225.
2004.

178.
Vojinovic­
Miloradov,
M.,
Buzarov,
D.,
Adamov,
J.,
Simic,
S.,
and
Popovic,
E.
Determination
of
polychlorinated
biphenyls
and
polyaromatic
hydrocarbons
in
frog
liver.
Wat.
Sci.
Tech.
34(
7­
8),
153­
156.
1996.

179.
Von
Gunkel,
G.
Investigations
of
the
ecotoxicological
effect
of
a
herbicide
in
an
aquatic
model
ecosystem
II.
Food
chain
significance
and
pesticide
balance.
Arch.
Hydrobiol.
Suppl.
69(
1),
130­
168.
1984.

180.
Von
Westernhagen
H.
and
Klumpp,
D.
W.
Xenobiotics
in
fish
from
Australian
tropical
coastal
waters
including
the
Great
Barrier
Reef.
Mar.
Pollut.
Bull.
30(
2),
166­
169.
1995.

181.
Wade,
T.
L.
,
Sericano,
J.
L.,
Gardinali,
P.
R.,
Wolff,
G.
,
and
Chambers,
L.
NOAA's
'
mussel
watch'
project:
Current
use
organic
compounds
in
bivalves.
Mar.
Pollut.
Bull.
37(
1/
2),
20­
26.
1999.

182.
Walker,
C.
R.
Toxicological
effects
of
herbicides
on
the
fish
environment.
In:
Proc.
8th
Air
and
Pollut.
Conf.,
Univ.
of
Missouri,
Columbia,
MO,
pp.
17­
34
(
Publ.
in
Part
as
643).
1962.

183.
Wang,
X.,
Harada,
S.,
Watanabe,
M.,
Koshikawa,
H.,
and
Geyer
H.
J.
Modelling
The
bioconcentration
of
hydrophobic
organic
chemicals
in
aquatic
organisms.
Chemosphere.
32(
9),
1783­
1793.
1996.

184.
Weete,
J.
D.,
Pillai,
P.,
and
Davis,
D.
D.
Metabolism
of
atrazine
by
Spartina
alterniflora.
2.
Water­
soluble
metabolites.
J.
Agric.
Food
Chem.
28(
3),
636­
640.
1980.

185.
Weiner,
J.
A.,
Delorenzo,
M.
E.,
and
Fulton,
M.
H.
Relationship
between
uptake
capacity
and
differential
toxicity
of
the
herbicide
atrazine
in
selected
microalgal
species.
Aquat.
Toxicol.
68(
2),
121­
128.
2004.

186.
Whitton
B.
A.
and
Kelly
M.
G.
Use
of
algae
and
other
plants
for
monitoring
rivers.
Austr.
J.
Ecol.
20(
1),
45­
56.
1995.

187.
Wiegand,
C.
,
Krause,
E.,
Steinberg,
C.,
and
Pflugmacher,
S.
Metabolism
of
the
s­
triazine
herbizide
atrazine
in
early
life
stages
of
the
zebrafish,
Danio
rerio.
Mar.
Environ.
Res.
50(
1­
5),
73.
2000.

188.
Wiegand,
C.,
Pflugmacher,
S.,
Giese,
M.,
Frank,
H.,
and
Steinberg,
C.
Uptake,
toxicity,
and
effects
on
detoxication
enzymes
of
atrazine
and
trifluoroacetate
in
embryos
of
zebrafish.
Ecotoxicol.
Environ.
Saf.
45(
2),
122­
131.
2000.

189.
Wilhelm,
C.
,
Conrad,
R.,
Meitzler,
L.,
and
Muhlenweg,
A.
Combination
of
solid
phase
extraction
and
a
microalgal
test
system
based
on
pulse­
amplitude
modulated
fluorescence
to
detect
photosystem
II
herbicides
up
to
0.05
ueq1­
1.
J.
Appl.
Phycol.
8(
2),
171­
173.
1996.

190.
Wittmann,
C.
and
Hock,
B.
Evaluation
and
performance
characteristics
of
a
novel
ELISA
for
the
quantitative
analysis
of
atrazine
in
water,
plants
and
soil.
Food
Agric.
Immunol.
2(
2),
65­
74.
1990.

191.
Wolf,
D.
C.
and
Jackson,
R.
L.
Atrazine
degradation,
sorption
and
bioconcentration
in
water
systems.
Arkansas
Water
Resource
Research
Center
Publication
87.
Fayetteville,
AR.
1982.

192.
Xu,
F.
L.,
Dawson,
R.
W.,
Tao,
S.,
Li,
B.­
G.,
and
Cao,
J.
System­
level
responses
of
lake
ecosystems
to
chemical
stresses
using
exergy
and
structural
exergy
as
ecological
indicators.
Chemosphere
46(
2),
173­
185.
2002.
