AGRICULTURAL PESTICIDE USE AND
RELATIVE HAZARD RATINGS IN
EPA REGION VI STATES AND A TEXAS
CASE STUDY OF THE TRINITY RIVER BASIN
Principal Investigator:
John A. Jackman
Professor and Extension Entomology Specialist
Texas Agricultural Extension Service
FINAL REPORT
Submitted to:
United States Environmental Protection Agency
Region 6
1445 Ross Avenue Suite 1200
Dallas, Texas 75202-2733
104 (b) (3) Grant for Evaluation of Risk
to Aquatic Life and Human Health
November 18, 1994
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AGRICULTURAL PESTICIDE USE AND
RELATIVE HAZARD RATINGS IN
EPA REGION VI STATES AND A TEXAS
CASE STUDY OF THE TRINITY RIVER BASIN
Principal Investigator:
John A. Jackman
Professor and Extension Entomology Specialist
Texas Agricultural Extension Service
FINAL REPORT
Submitted to:
United States Environmental Protection Agency
Region 6
1445 Ross Avenue Suite 1200
Dallas, Texas 75202-2733
104 (b) (3) Grant for Evaluation of Risk
to Aquatic Life and Human Health
November 18, 1994
1
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TABLE OF CONTENTS
Page #
INTRODUCTION 6
AGRICULTURAL PESTICIDE USE IN EPA REGION VI 7
AGRICULTURAL PESTICIDE USE IN THE TRINITY RIVER BASIN 7
HAZARD RATING METHODS 11
EXPLANATION OF HAZARD RATING COEFFICIENTS 14
DISCUSSION 29
ENVIRONMENTAL AND BIOLOGICAL MONITORING STUDIES 36
COMPARISON OF URBAN PESTICIDE HAZARD
TO AGRICULTURAL HAZARD 38
SIMULATION MODELS AND GEOGRAPHIC INFORMATION SYSTEMS 39
CONCLUSIONS 40
ACKNOWLEDGEMENTS 42
LITERATURE CITED 43
APPENDICES 46
2
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TITLE: Agricultural Pesticide Use and Relative Hazard Ratings in EPA Region VI States
and a Texas Case Study of the Trinity River Basin
AUTHOR: John A. Jackman, Principal Investigator
ABSTRACT
Estimates of agricultural pesticide use in EPA Region VI by state for 1992 and in
the Trinity River Basin (TRB) in Texas by hydrologic unit (HU) for 1990 were taken from
published reports. A hazard rating coefficient emphasizing mobility was calculated for
each pesticide using toxicity to bluegills, toxicity to rats, field half life, and solubility in
water. A second hazard rating coefficient emphasizing bioaccumulation was calculated
for each pesticide using toxicity to fish, toxicity to rats, field half life, and the octanol/water
partition coefficient. Hazard ratings were normalized by multiplying total pesticide applied
and dividing by the land area of the state, HU or TRB, as appropriate. Normalized hazard
ratings are reported by state, by HU and for the TRB for agricultural pesticides reported
from the region. Thirty pesticides which had high normalized hazard ratings are
discussed. Normalized hazard rating coefficients are displayed on maps by HU in the
TRB along with hydrologic information demonstrating how this information can be made
available in a geographic information system format.
3
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List of Tables
Table 1. Annual total agricultural pesticide applied in EPA Region VI by State
and by pesticide for 1992 page 8.
Table 2. Total pounds of agricultural pesticide applied in the Trinity River
Basin in Texas by pesticide in 1990 page 12.
Table 3. Hazard rating coefficients emphasizing mobility (HRCM) for agricultural
pesticides used in the EPA Region VI page 16.
Table 4. Hazard rating coefficients emphasizing bioaccumulation (HRCB) for
agricultural pesticides used in the EPA Region VI page 17.
Table 5. Normalized hazard rating coefficients emphasizing mobility (NHRCM) for
agricultural pesticides used in EPA Region VI by State page 19.
Table 6. Normalized hazard rating coefficients emphasizing bioaccumulation
(NHRCB) for agricultural pesticides used in EPA Region VI by State. .. page 23.
Table 7. Normalized hazard rating coefficients emphasizing mobility (NHRCM) for
agricultural pesticides used in the Trinity River Basin page 27.
Table 8. Normalized hazard rating coefficients emphasizing bioaccumulation
(NHRCB) for agricultural pesticides used in the Trinity River Basin. . page 28.
4
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List of Appendices
Appendix A. Definitions page 46.
Appendix B. Acre treatments of agricultural pesticides used in 1990 in the
Trinity River Basin in Texas by hydrologic unit (HU) and crop page 47.
Appendix C. Application^ rates of agricultural pesticides reported from the
Trinity River Basin by crop page 62.
Appendix D. Annual total agricultural pesticide applied in the Trinity River
Basin by hydrologic unit (HU) and by pesticide in 1990 page 67.
Appendix E. LC50 values for fish for agricultural pesticides used in EPA Region
VI (Pesticides were ranked from most toxic to least toxic) page 76.
Appendix F. Oral LD50 values for rats for agricultural pesticides used in EPA
Region VI (Pesticides were ranked from most toxic to least toxic). .. page 77.
Appendix G. Field half life values for agricultural pesticides used in EPA Region
VI (Pesticides were ranked from most persistent to least persistent), page 78.
Appendix H. Solubility in water of agricultural pesticides used in EPA Region VI
(Pesticides were ranked from most soluble to least soluble) page 79.
Appendix I. Octanol/water partition coefficients for agricultural pesticides used
in EPA Region VI (Pesticides were ranked from most likely to bioaccumulate to
least likely to bioaccumulate) page 80.
Appendix J. Land area by state in EPA Region VI and land area by hydrologic unit
(HU) in the Trinity River Basin in Texas page 81.
Appendix K. Normalized hazard rating coefficients emphasizing mobility (NHRCM)
for agricultural pesticides in the Trinity River Basin in Texas by hydrologic
unit (HU) and by pesticide page 82.
Appendix L. Normalized hazard rating coefficients emphasizing bioaccumulation
(NHRCB) for agricultural pesticides in the Trinity River Basin in Texas by
hydrologic unit (HU) and by pesticide page 91.
Appendix M. Maps of the Trinity River Basin in Texas generated with ARC/INFO.
page 100.
5
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INTRODUCTION
The Environmental Protection Agency (1990a, b) recently completed a
comparative risk project in Region VI, ranking 22 environmental problem
categories by ecological risk and human health risk. A primary conclusion of
that study was that pesticides were among the problem categories representing the
highest risk to both the environment and human health. Periodic reassessment
of the relative hazards of pesticides to the environment and human health is
justified as new pesticide use data and hazard rating methods become available.
Relative hazard rating is a useful technique to establish priorities for
regulatory agencies and other concerned groups. Results of surveys of
agricultural pesticide use provide estimates of pesticide loading into specific
areas which is an important part of hazard rating. Chemical characteristics make
up another important aspect of hazard ratings. This study was undertaken as part
of the reassessment of hazard of pesticides in EPA Region VI with emphasis on
agricultural pesticides in surface waters. Pesticides in surface water are
particularly important because many aquatic organisms are sensitive to pesticides
and some pesticides bioaccumulate in fish tissue, thereby representing a possible
risk to human consumers.
The procedure followed in this project was,: to locate agricultural
pesticide use data for the EPA Region VI; to locate agricultural pesticide use
data specifically in the Trinity River Basin (TRB); to prepare a list of
agricultural pesticides used in EPA Region VI and the TRB; to select hazard
rating coefficients which allow comparison of relative hazard between pesticides;
to calculate the hazard rating coefficients by pesticide for those pesticides
used in EPA Region VI and the TRB; to incorporate total pesticide applied and
land area in normalized hazard rating coefficients; and to rank pesticides by
normalized hazard ratings coefficients in the EPA Region VI and the TRB.
Rankings of normalized hazard rating coefficients for agricultural pesticides
provide guidance for agricultural pesticide use monitoring projects and setting
priorities for studies of specific pesticides.
6
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AGRICULTURAL PESTICIDE USE IN EPA REGION VI
Agricultural pesticide use estimates by state utilized in this report were
taken from a national agricultural pesticide use survey with estimates by state
(USDA 1992, 1993a, b). Total pesticide applied by crop was reported for major
crops and frequently reported pesticides. A summary that combines the estimated
use for all crops in EPA Region VI by state was completed by pesticide (Table 1).
Two other studies were not as complete relative to the objectives of this
study compared to the USDA (1992, 1993a, b) study. Gianessi and Puffer (1991)
provide estimates of herbicide use only by county relying on USDA estimates. The
U.S. Department of Commerce, National Oceanic and Atmospheric Administration
(Pait et al. 1992) published on agricultural pesticide use in coastal areas of
the US and thus overlaps the EPA, Region VI.
AGRICULTURAL PESTICIDE USE IN THE TRINITY RIVER BASIN
Holloway et al. (1990) reported estimates of the number of "acre treats"
in Texas by pesticide, by crop, and by hydrologic unit (HU). Reporting
agricultural pesticide use estimates by HU provided estimates of pesticide use
in contiguous units designed for surface water management. The survey of
agricultural pesticide use based on reports from county Extension agents in Texas
(Holloway et al. 1990) was utilized as the source for pesticide use estimates
within Texas specifically in the TRB (Appendix B). "Acre treats" as utilized by
these authors were a sum of the acres treated such that when a specific acre was
treated twice it was counted twice. Consequently, if the same ten acre field
was treated ten times the "acre treats" would be one hundred. Acre treats are
referred to as acre treatments in this report. Also, all estimates of 2,4-D
should be considered as acid equivalents.
At the recommendation of Holloway (personal communication), independent
estimates of application rates by crop were made for each pesticide and used to
calculate total pesticides applied from acre treatments in his report.
Application rates (pounds/acre) of agricultural pesticides reported from the TRB
7
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Table 1. Annual total agricultural pesticide applied in EPA Region VI by State
and by pesticide for 1992.*
PESTICIDE
| STATE |
+ + + . + +
| AR | LA | OK | TX |
+ + + + +
I 1000 lbs. I 1000 lbs. I 1000 lbs. | 1000 lbs. |
2,4-D ACID
ACEPHATE
ACIFLUORFEN SODIUM SALT
ALACHLOR
ALDICARB
143
243
430
115
0
64
48
181
132
436
217
ATRAZINE
AZINPHOS-METHYL
BENEFIN
BENOMYL
BENSULFURON METHYL
75
150
2
45
61
1190
333
0
6
BENSULIDE
BENTAZON SODIUM SALT
BIFENTHRIN
BROMACIL
BROMOXYNIL OCTANOATE ESTER
334
138
103
18
1
0
CAPTAN
CARBARYL
CARBOFURAN
CHLORIMURON ETHYL
CHLOROSULFURON
86
3
22
30
60
117
CHLOROTHALONIL
CHLORPYRIFOS
CLOMAZONE
COPPER HYDROXIDE
CYANAZINE
511
149
426
298
12
14
CYCLOATE
CYFLUTHRIN
CYPERMETHRIN
CYROMAZINE
CHLORTHAL DIMETHYL
23
11
7
14
5
14
2
0
104
DIAZINON
DICROTOPHOS
DIETHYL ETHYL
DIMETHOATE
DISULFOTON
22
49
26
139
55
208
18
99
1
DIURON
DSMA
ENDOSULFAN
ESFENVALERATE
ETHALFLURALIN
89
290
170
175
182
34
11
4
8
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Table 1. Annual total agricultural pesticide applied in EPA Region VI by State
and by pesticide for 1992.* (continued)
PESTICIDE | STATE
+ + + +
| AR | LA | OK | TX
H | —
1 1000 lbs. I 1000 lbs. I 1000 lbs. | 1000 lbs.
BTHEPHON
ETRIDIAZOLE
FENOXAPROP ETHYL
FLUAZIFOP—P-BUTYL
FLUOMETURON
340
11
27
24
679
131
35
22
500
13
194
FOMESAFEN
GLYPHOSATE AMINE SALT
IMAZAQUIN ACID
IPRODIONE
LAMBDACYHALOTHRIN
59
61
96
7
26
39
20
10
5
25
LINDANE
LINURON
MALATHION
MANCOZEB
MEPIQUAT CHLORIDE
6
7
0
4
9
51
METALAXYL
METHAMIDOPHOS
METHAZOLE
METHOMYL
METHYL PARATHION
54
50
163
104
857
176
26
7
54
328
METOLACHLOR
METRIBUZIN
MOLINATE
MONOSODIUM METHANEARSONATE
NAPROPAMIDE
464
76
1605
727
592
105
1069
816
584
113
1
NAPTALAM
NICOSULFURON
NORFLURALIN
OXAMYL
OXYFLUORFEN
320
98
247
16
9
6
161
0
PARAQUAT DICHLORIDE SALT
QUINTOZENE
PENDIMETHALIN
PERMETHRIN
PETROLEUM OIL
104
640
70
156
208
5
623
8
94
PHOSALONE
PHOSMET
PROFENOFOS
PROMETRYN
PROPANIL
63
131
6033
286
1383
0
4
716
9
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Table 1. Annual total agricultural pesticide applied in EPA Region VI by State
and by pesticide for 1992.* (continued)
PESTICIDE
I STATE |
+ + + + +
| AR | LA | OK | TX |
+ + + + +
| 1000 lbs. | 1000 lbs. | 1000 lbs. | 1000 lbs. |
PROPICONAZOLE
QUIZALAFOP ETHYL
SETHOXYDIM
SODIUM CHLORATE
SULFUR
15
20
30
6
6
29
138
144
SULPROFOS
TERBUFOS
THIDIAZURON
THIOBENCARB
TRALOMETHRIN
459
746
294
32
107
55
TRIFLURALIN
TRIOPHANATE METHYL
TRIPHENYLTIN HYDROXIDE
ZIRAM
1647
531
3080
7
0
6
* Data summarized for field crops and vegetable in 1992 (USDA 1993a, b) and
fruit and nut crops in 1991 (USDA 1992). Only crops with significant
acreage were included. Only pesticides with significant quantities of use
were reported. No pesticide use was reported for New Mexico. Zero values
indicate that less than 1000 pounds was reported.
10
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by crop were taken from product labels (Appendix C). Rates of active ingredient
per acre were estimated using the rate/acre from pesticide labels by crop. For
each crop a maximum rate and a minimum rate were taken from the pesticide labels
and a mean rate was calculated. Medians were reported when a range of
application rates was listed on the label. A few rates of active ingredient per
acre were taken from USDA (1992, 1993a, b). The mean application rates were used
to calculate the total pounds applied for each pesticide for each hydrologic unit
and each crop (Appendix D). Estimates of pesticide use by pesticide were summed
by crop and by HU to provide totals for the TRB (Table 2).
HAZARD RATING METHODS
Agricultural pesticides reported by states in EPA Region VI (USDA 1992,
1993a, b) and from the Trinity River Basin in Texas (Holloway et al. 1990) are
listed (Appendix E). Characteristics of these pesticides are reported (Appendix
E-I) and sources of this information are noted.
Chemical and toxicological characteristics of individual pesticides can be
used directly as indicators of certain types of hazard. The values for LCS0 for
fish, LD50 for mammals, and field half life were selected as factors that are
important indicators of hazard of an agricultural pesticide. Solubility in water
and the octanol/water partition coefficient were selected as indicators of
pesticide fate. Hazard from highly mobile pesticides was indicated by high
solubility and would generally indicate a potential acute toxicity hazard.
Mobility of a pesticide is important because surface water runoff from
agricultural lands is considered to be the major route of pesticide transport
into the aquatic environment (Pait et al. 1992 and references therein).
Bioaccumulation hazard was indicated by high octanol/water partition coefficient
and would generally indicate a long term hazard due to persistance in organisms.
An explanation of the constants used to calculate hazard rating coefficients
follows.
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Table 2. Total agricultural pesticide applied in the Trinity River Basin by
pesticide in 1990.
TOTAL APPLIED TOTAL APPLIED
PESTICIDE
(lbs.)
PESTICIDE
(lbs.)
PROPANIL
111506
MONOSODIUM METHANEARSONATE 2535
2,4-D ACID
100820
BENOMYL
2207
ATRAZINE
80088
CHLORSULFURON
2079
PROMETRYN
72783
PARAQUAT
1870
DISULFOTON
72578
THIDIAZURON
1746
ARSENIC ACID
64271
LINURON
1516
TERBUFOS
61373
AZINPHOS-METHYL
1450
FLUAZIFOP-P-BUTYL
40968
DSMA
1237
METHYL PARATHION
40073
MONOCROTOPHOS
1168
TRIFLURALIN
37318
IPRODIONE
1077
ALACHLOR
36885
OXYDEMETON-METHYL
1014
CARBARYL
32114
DIAZINON
996
METOLACHLOR
30267
DICLOFOP-METHYL
805
ALDICARB
27238
SULPROFOS
787
PARATHION
24170
2,4-DB
672
BUTIFOS
20928
PHOSPHAMIDON
649
DICAMBA
19982
FLUOMETURON
598
GLYPHOSATE
16415
SULPHUR
563
MOLINATE
15067
BENSULIDE
550
ACEPHATE
14885
FENVALERATE
541
DIMETHOATE
14809
CYPERHETHRIN
518
CARBOFURAN
14398
ESFENVALERATE
339
THIODICARB
13566
TRICLOPYR
289
THIOBENCARB
13496
PETROLEUM OIL
267
DICROTOPHOS
13050
IMAZAQUIN ACID
254
PENDIMETHALIN
11727
METALAXYL
225
CHLORPYRIFOS
11325
CHLORTHAL DIMETHYL
210
PROPARGITE
9362
BIFENTHRIN
202
SETHOXYDIM
9202
VERNOLATE
177
MANCOZEB
8376
CLOPYRALID
159
CHLOROTHALONIL
7926
TRIPHENYLTIN
144
PROFENOFOS
7755
ORYZALIN
144
BENTAZON
7390
METSULFURON-METHYL
105
MALATHION
6535
CYHALOTHRIN
102
ETHEPHON
6443
ENDOSULFAN
76
QUINTOZENE
6375
CYFLUTHRIN
39
DIURON
5374
ENDOTHALL
34
METHOMYL
5140
CAPTAN
30
CYANAZINE
4865
MEVINPHOS
28
TRIADIMEFON
4080
PHOSMET
25
PROPICONAZOLE
3977
COPPER HYDROXIDE
15
PHOSALONE
3679
PERMETHRIN
6
ACIFLUORFEN
2976
METRIBUZIN
6
BROMOXYNIL
2912
MEPIQUAT
2
FOMESAFEN
2729
*Values were calculated from acre treatment estimates from
Holloway et al. (1990) and mean application rates from product labels.
Picloram and 2,4-D combinations for brush control in pastures were not
included because rates were dependent on brush intensity rather than
per acre.
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LC50 FOR FISH. The 96 hour LC50 for bluegills was used whenever possible
in this study because it reflects the sensitivity of a naturally occurring fish
in the region. A few LC50 values for other fish species were substituted when
the data for bluegills was not available. Agricultural pesticides reported in
the Region VI states were arranged in Appendix E from most toxic to least toxic
based on LCS0 for fish.
LDS0 FOR MAMMALS. LD50 (ug/1, 96 hours) of rats was selected for use in
this study. Whenever values were available by sex, the value for male rats was
used. Agricultural pesticides reported in the Region VI states are arranged in
Appendix F from most toxic to least toxic based on LD50 values for mammals.
FIELD HALF LIFE. A longer half life means that the pesticide persists in
the environment while a short half life means that the pesticide readily breaks
down. Agricultural pesticides reported in the Region VI states were arranged in
Appendix G ranked from most persistent to least persistent based on field half
life. Actual values of field half life of a pesticide in the environment can
vary depending on soil type, organic matter, weather conditions, etc. Values
reported here are those of Wauchope et al. (1992).
WATER SOLUBILITY. Water solubility is the concentration of a pesticide
that dissolves in water (ppm) (EXTOXNET 1989). A high value for water
solubility indicates that the pesticide is readily dissolved and that it would
move readily in runoff water or percolation. A low solubility implies that the
pesticide would remain at the application site and generally is more likely to
accumulate in fats that a pesticide with high water solubility. Agricultural
pesticides reported in the Region VI states were arranged in Appendix H from most
soluble in water to least soluble in water.
OCTANOL/WATER PARTITION COEFFICIENT (Kow). The octanol/water partition
coefficient is an indicator of soil adsorption and bioaccumulation (EXTOXNET
1989). Agricultural pesticides reported in the Region VI states are arranged in
Appendix I from least adhesive to most adhesive to organic material based on the
octanol/water partition coefficient. Octanol/water partition coefficients (Kow)
were available for most pesticides that were reported as used in Region VI.
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EXPLANATION OF HAZARD RATING COEFFICIENTS
Each specific chemical characteristic provides a measure that can be used
to compare pesticides and thus the hazard they pose. However, the hazard posed
by chemicals that are highly water soluble but have a short half life is much
different from the hazard posed by chemicals that are low in water solubility and
have a long half life. Therefore, hazard ratings that combine chemical
characteristics into more general hazard ratings are useful for comparison of
hazards of very different chemicals.
Pait et al. (1992) combined hazard ratings by first scaling each of four
chemical characteristic of interest to a range of 0 to 1, with 0 being least
hazardous and 1 most hazardous of the chemicals in the study. Then chemical
characteristics of each chemical were rescaled and combined to produce a single
hazard rating in the range of 0 to 1. In this study, two combined hazard rating
coefficients were calculated for each agricultural pesticide reported as used in
EPA Region VI following the methods of Pait et al. (1992) but using different
chemical characteristics.
First, LC50 for fish, LD50 for mammals, field half life and solubility were
combined to produce a combined hazard rating coefficent emphasizing mobility
(HRCM). Chemicals with a high solubility were rated as hazardous to emphasize
the mobility of the chemical in aquatic environments. Because HRCM provides a
hazard rating that combines mobility, toxicity and persistence of a chemical,
this hazard rating would be useful to rank acute toxicity hazards in aquatic
ecosystems.
The formula for Ct below was used to scale half life (t 1/2) and solubility
following the method used by Pait et al. (1992). High values for these
parameters indicate a high hazard.
ci " (*1 " XmiJ/tX™, " xmi„)
The formula for C2 below was used to scale LC50 and LDS0 following the
method used by Pait et al. (1992). Low values for these parameters indicate high
hazard.
C2 = 1 - ((x, - xro1n)/(xm„ - xmln))
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Hazard rating coefficients emphasizing mobility (HRCM) were then calculated
for each agricultural pesticide using the formula below. Hazard rating
coefficients emphasizing mobility for agricultural pesticides reported in the EPA
Region VI are reported in Table 3 arranged by most to least hazardous.
UDPVf — n >25 v p .25 v p .25 v n .25
ttKUfl - *"IC50 * ^LD50 X 1/2 X US
The second combined hazard rating coefficient included the log of the
octanol/water partition coefficient (Kow) with LC50 for fish, LD50 for mammals and
field half life to emphasize bioaccumulation (HRCB). HRCB provides a hazard
rating that combines toxicity, persistence and bioaccumulation potential.
Bioaccumulation is of concern in mammals (including humans), fish and birds,
especially those species which are predators.
The formula for C1 below was used to scale half life (t 1/2) and KOM
following the method used by Pait et al. (1992). High values for these
parameters indicate a high hazard.
C1 " (*1 " Xm1n)/(Xm« " Xn,iJ
The formula for C2 below was used to scale LC50 and LDS0 following the
method used by Pait et al. (1992). Low values for these parameters indicate high
hazard.
C, - 1 - ((x, - xmln)/(xmiX - xm1n))
Hazard rating coefficients emphasizing bioaccumulation (HRCB) were then
calculated for each agricultural pesticide using the formula below. Hazard
rating coefficients emphasizing bioaccumulation for agricultural pesticides
reported in the EPA Region VI are reported in Table 4 arranged by most to least
hazardous. HRCB « CLC50 -2S x CLD50 25 x Ct 1/2 -2S x CKow 25
Each factor used in calculating HRCM and HRCB were given equal weight in
contributing to the final value. A value near zero would result if all four
values were very low. A high score in any one factor would assure a hazard
rating coefficient of at least .25. A value of 1 would occur only when all
factors were maximal for hazard.
The total pounds of chemical applied and the total land area impacted are
also important in assessing the hazard of a chemical. Normalizing over the total
15
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Table 3. Hazard rating coefficients emphasizing mobility (HRCM) for agricultural
pesticides used in EPA Region VI.*
RANK
PESTICIDE
HRCM
RANK
PESTICIDE
HRCM
1
MONOSODIUM METHANEARSONATE
0.54887
53
TRALOMETHRIN
0.03699
2
PARAQUAT
0.48502
54
ATRAZINE
0.03637
3
ARSENIC ACID
0.37389
55
PROMETRYN
0.03504
4
BENTAZON
0.27550
56
CARBARYL
0.03403
5
MONOCROTOPHOS
3.26296
57
VERNOLATE
0.03376
6
GLYPHOSATE
3.25247
58
TRICLOPYR
0.03333
7
FOMESAFEN
3.25129
59
DISULFOTON
0.03159
8
DICROTOPHOS
3.24167
60
BENSULIDE
0.03090
9
PHOSPHAMIDON
3.22866
61
THIOBENCARB
0.02918
10
CYROMAZINE
3.22547
62
PHOSMET
0.02741
11
PICLORAM SALT
3.22273
63
PARATHION
0.02669
12
OXYDEMETON-METHYL
3.20765
64
AZINPHOS-METHYL
0.02576
13
ETHEPHON
3.19718
65
METHYL PARATHION
0.02533
14
CLOPYRALID
3.19561
66
BENSULFURON
0.02525
15
IMAZAQUIN ACID
3.19226
67
MANCOZEB
0.02506
16
2,4-DB
3.18588
68
PROFENOFOS
0.02415
17
METHAMIDAPHOS
3.18488
69
THIDIAZURON
0.02293
18
DICAMBA SALT
3.18238
70
THIODICARB
0.02177
19
ACIFLUORFEN
3.16497
71
PHOSALON
0.01914
20
METHOMYL
3.14883
72
SULPROFOS
0.01789
21
ACEPHATE
3.14500
73
CHLORTHAL DIMETHYL
0.01708
22
MEVINPHOS
3.13915
74
PROPARGITE
0.01634
23
OXAMYL
3.12975
75
PENDIMETHALIN
0.01570
24
ENDOTHALL
3.12024
76
TERBUFOS
0.01541
25
NAPTALAM
3.11864
77
IPRODIONE
0.01539
26
METALAXYL
0.11842
78
FLUAZIFOP-P-BUTYL
0.01503
27
DIMETHOATE
0.10032
79
ENDOSULFAN
0.01466
28
ALDICARB
0.09457
80
QUIZALOFOP ETHYL
0.01458
29
METSULFURON METHYL
0.08999
81
METHAZOLE
0.01447
30
CHLORSULFURON
0.08959
82
CHLORPYRIFOS
0.01378
31
METRIBUZIN
0.07118
83
THIOPHANATE-METHYL
0.01278
32
METOLACHLOR
0.07100
84
QUINTOZENE
0.01274
33
CHLORIMURON ETHYL
0.06553
85
FENOXAPROP ETHYL
0.01162
34
CLOMAZONE
0.06138
86
BIFENTHRIN
0.01007
35
BROMACIL
0.06116
87
OXYFLUORFEN
0.00939
36
MOLINATE
0.06032
88
CAPTAN
0.00881
37
CARBOFURAN
0.05953
89
BROMOXYNIL
0.00726
38
SETHOXYDIM
0.05534
90
LAMBDACYHALOTHRIN
0.00646
39
PROPICONAZOLE
0.05382
91
PERMETHRIN
0.00626
40
2,4-D ACID
0.05043
92
BENEFIN
0.00000
41
ETRIDIAZOLE
0.04563
93
BENOMYL
0.00000
42
LINURON
0.04391
94
CHLOROTHALONIL
0.00000
43
DIURON
0.04293
95
CYFLUTHRIN
0.00000
44
ALACHLOR
0.04211
96
CYPERMETHRIN
0.00000
45
LINDANE
0.04130
97
DICLOFOP-METHYL
0.00000
46
NAPROPAMIDE
0.04065
98
ESFENVALERATE
0.00000
47
DIETHATYL ETHYL
0.03996
99
ETHALFLURALIN
0.00000
48
CYCLOATE
0.03947
100
MALATHION
0.00000
49
CYANAZINE
0.03936
101
ORYZALIN
0.00000
50
DIAZINON
0.03935
102
PETROLEUM OIL
0.00000
51
FLUOMETURON
0.03926
103
PROPANIL
0.00000
52
TRIADIMEFON
0.03740
104
TRIFLURALIN
0.00000
* Data were not available to calculate HRCM for BUTIFOS, COPPER HYDROXIDE,
DSMA, FENVALERATE, FURORE, NICOSULFURON, SODIUM CHLORATE, SULFUR,
TRIPHENYLTIN, and ZIRAM.
16
-------�
Table 4. Hazard rating coefficients emphasizing bioaccumulation (HRCB) for
agricultural pesticides used in EPA Region VI.*
RANK
PESTICIDE
HRCB RANK
PESTICIDE
HRCB
1
ARSENIC ACID
0.92558
43
2,4-D ACID
0.22351
2
PARAQUAT
0.58485
44
ALACHLOR
0.22287
3
PROPICONAZOLE
0.36514
45
DICAMBA
0.22062
4
PICLORAM SALT
0.33438
46
BENTAZON
0.21943
5
CHLORTHAL DIMETHYL
0.33414
47
TRALOMETHRIN
0.21586
6
ETRIDIAZOLE
0.33195
48
PROFENOFOS
0.21542
7
SULPROFOS
0.32789
49
PARATHION
0.21498
8
DIURON
0.31951
50
ENDOTHALL
0.21369
9
BENSULIDE
0.31804
51
OXYFLUORFEN
0.21285
10
METOLACHLOR
0.30818
52
METHAZOLE
0.21188
11
METALAXYL
0.30597
53
BROMOXYNIL
0.20955
12
GLYPHOSATE
0.30458
54
THIDIAZURON
0.20920
13
IMAZAQUIN ACID
0.30276
55
THIODICARB
0.20839
14
CARBOFURAN
0.30009
56
AZINPHOS-METHYL
0.20822
15
LINURON
0.29890
57
QUINTOZENE
0.20709
16
MANCOZEB
0.29227
58
ETHEPHON
0.20702
17
MONOCROTOPHOS
0.28937
59
DIMETHOATE
0.20470
18
METHOMYL
0.28735
60
OXYDEMETON-METHYL
0.19630
19
ATRAZINE
0.28578
61
BIFENTHRIN
0.19246
20
METRIBUZIN
0.28314
62
PERMETHRIN
0.18987
21
ALDICARB
0.28244
63
TERBUFOS
0.18009
22
PROPARGITE
0.28144
64
FENOXAPROP ETHYL
0.17781
23
ENDOSULFAN
0.27450
65
METHYL PARATHION
0.17421
24
CHLORIMURON ETHYL
0.27284
66
CYPERMETHRIN
0.17118
25
PEND1METHALIN
0.27190
67
SETHOXYDIM
0.17042
26
DIAZINON
0.27015
68
ACEPHATE
0.16935
27
DICROTOPHOS
0.26838
69
MEVINPHOS
0.16880
28
PROMETRYN
0.26493
70
BENSULFURON
0.16541
29
CHLORSULFURON
0.26457
71
IPRODIONE
0.14093
30
NAPROPAMIDE
0.26288
72
LAMBDACYHALOTHRIN
0.13113
31
METSULFURON-METHYL
0.26206
73
CAPTAN
0.10010
32
PHOSPHAMIDON
0.24470
74
BENOMYL
0.00000
33
CYANAZINE
0.24233
75
CHLOROTHALONIL
0.00000
34
CLOMAZONE
0.24064
76
CYFLUTHRIN
0.00000
35
MOLINATE
0.23882
77
DICLOFOP-METHYL
0.00000
36
DIETHATYL ETHYL
0.23783
78
ESFENVALERATE
0.00000
37
PHOSMET
0.23552
79
ETHALFLURALIN
0.00000
38
ACIFLUORFEN
0.23375
80
MALATHION
0.00000
39
CYCLOATE
0.23232
81
PETROLEUM OIL
0.00000
40
CHLORPYRIFOS
0.23217
82
PROPANIL
0.00000
41
THIOBENCARB
0.22851
83
TRIFLURALIN
0.00000
42
CARBARYL
0.22604
* Data were not available to calculate HRCB for 2,4-DB, BENEFIN, BROMACIL,
BUTIFOS, CLOPYRALID, COPPER HYDROXIDE, CYROMAZINE, DISULFOTON, DSMA,
FENVALERATE, FLUAZIFOP-P-BUTYL, FLUOMETURON, FOMESAFEN, FURORE, LINDANE,
METHAMIDOPHOS, MONOSODIUM METHANEARSONATE, NAPTALAM, NICOSULFURON, ORYZALIN,
OXAMYL, PHOSALONE, QUIZALOFOP ETHYL, SODIUM CHLORATE, SULFUR, THIOPHANATE-METHYL,
TRIADIMEFON, TRICLOPYR, TRIPHENYLTIN, VERNOLATE, and ZIRAM.
17
-------�
land area rather than using the acres treated provides a measure of hazard for
a region, e.g., state, HU, or TRB, in this study. This method of normalization
was similar to the normalized rating system used by Pait et al. (1992) for
toxicity coefficients for comparison of hazards of pesticides used in coastal
areas.
HRCM and HRCB for each pesticide were multiplied by the estimated total
pounds applied in each state (Table 1) and divided by the total land area in the
state (Appendix J) to calculate normalized hazard rating coefficients emphasizing
mobility in water (NHRCM) and normalized hazard rating coefficients emphasizing
bioaccumulation (NHRCB) for each pesticide and state. NHRCM and NHRCB allow
comparison of relative hazard by pesticides and relative hazard between states.
Normalized hazard rating coefficients emphasizing mobility and normalized hazard
rating coefficients emphasizing bioaccumulation for agricultural pesticides in
the EPA Region VI by state are reported in Table 5 and Table 6, respectively.
NHRCM and NHRCB would be one if the hazard rating coefficient was one and
one pound of pesticide was applied for every acre in the region. Actual values
of NHRCM and NHRCB were always much less than one.
For hydrologic units in the Trinity River Basin, HRCM and HRCB for each
agricultural pesticide were multiplied by the estimated total pounds applied in
each HU (Appendix D) and divided by the total land area in the HU (Appendix J)
to calculate normalized hazard rating coefficients emphasizing mobility in water
(NHRCM) (Appendix K) and normalized hazard rating coefficients emphasizing
bioaccumulation (NHRCB) (Appendix L) for each agricultural pesticide and HU.
In the Trinity River Basin, HRCM and HRCB for each agricultural pesticide
were multiplied by the estimated total pounds applied in TRB (Table 2) and
divided by the total land area in the TRB (Appendix J) to calculate normalized
hazard rating coefficients emphasizing mobility in water (NHRCM) (Table 7) and
normalized hazard rating coefficients emphasizing bioaccumulation (NHRCB) (Table
8) for each agricultural pesticide and HU.
18
-------�
Table 5. Normalized hazard rating coefficients emphasizing mobility (NHRCM)
for agricultural pesticides used in EPA Region VI by State.*
STATE PESTICIDE NHRCM
AR
MONOSODIUM METHANEARSONATE
0.011973
AR
MOLINATE
0.002905
AR
BENTAZON
0.002761
AR
ETHEPHON
0.002012
AR
TRIFLURALIN
0.001828
AR
ACIFLUORFEN
0.001203
AR
METOLACHLOR
0.000988
AR
FLUOMETURON
0.000800
AR
THIOBENCARB
0.000653
AR
CYANAZINE
0.000604
AR
IMAZAQUIN ACID
0.000554
AR
ALACHLOR
0.000543
AR
GLYPHOSATE
0.000462
AR
FOMESAFEN
0.000445
AR
OXAMYL
0.000382
AR
ALDICARB
0.000326
AR
PENDIMETHALIN
0.000302
AR
BROMACIL
0.000253
AR
METHOMYL
0.000223
AR
2,4-D ACID
0.000216
AR
TERBUFOS
0.000212
AR
HETRIBUZIN
0.000162
AR
DICROTOPHOS
0.000160
AR
DIMETHOATE
0.000147
AR
PROMETRYN
0.000138
AR
METHYL PARATHION
0.000124
AR
DIURON
0.000115
AR
AZINPHOS-METHYL
0.000058
AR
SETHOXYDIM
0.000050
AR
PROFENOFOS
0.000046
AR
QUINTOZENE
0.000040
AR
PROP I CON A Z OLE
0.000024
AR
METHAZOLE
0.000023
AR
ETRIDIAZOLE
0.000015
AR
FLUAZIFOP-P-BUTYL
0.000011
AR
FENOXAPROP ETHYL
0.000009
AR
QUIZALAFOP ETHYL
0.000009
AR
CHLORIMURON ETHYL
0.000004
AR
BENSULFURON
0.000002
AR
LAMBDACYHALOTHRIN
0.000001
AR
CYPERMETHRIN
0.000000
AR
BENOMYL
0.000000
AR
CYFLUTHRIN
0.000000
AR
ESFENVALERATE
0.000000
AR
PROPANIL
0.000000
AR
DSMA
NA
AR
MEPIQUAT CHLORIDE
NA
AR
NORFLURALIN
NA
19
-------�
Table 5. Normalized hazard rating coefficients emphasizing mobility (NHRCM)
for agricultural pesticides used in EPA Region VI by State.* (continued)
STATE
PESTICIDE
NHRCM
LA
MONOSODIUM METHANEARSONATE
0.016063
LA
MOLINATE
0.002313
LA
METOLACHLOR
0.001507
LA
PARAQUAT
0.001218
LA
BENTAZON
0.001018
LA
ETHEPHON
0.000926
LA
METHYL PARATHION
0.000779
LA
TRIPLURALIN
0.000704
LA
FLUOMETURON
0.000704
LA
CYANAZINE
0.000601
LA
ACIFLUORFEN
0.000379
LA
PROMETRYN
0.000359
LA
GLYPHOSATE
0.000353
LA
CLOMAZONE
0.000328
LA
METRIBUZIN
0.000268
LA
DIURON
0.000262
LA
FOMESAFEN
0.000234
LA
DICROTOPHOS
0.000225
LA
CARBOFURAN
0.000183
LA
ALDICARB
0.000162
LA
TERBUFOS
0.000162
LA
IMAZAQUIN ACID
0.000137
LA
PENDIMETHALIN
0.000117
LA
THIOBENCARB
0.000112
LA
QUINTOZENE
0.000071
LA
SETHOXYDIM
0.000057
LA
ETRIDIAZOLE
0.000057
LA
BENSULFURON
0.000055
LA
METHAZOLE
0.000053
LA
THIDIAZURON
0.000026
LA
PROPICONAZOLE
0.000011
LA
FENOXAPROP ETHYL
0.000009
LA
CHLORIMURON ETHYL
0.000007
LA
OXYFLUORFEN
0.000005
LA
QUIZALAFOP ETHYL
0.000003
LA
LAMBDACYHALOTHRIN
0.000002
LA
PERMETHRIN
0.000001
LA
2,4-D ACID
0.000000
LA
CYPERMETHRIN
0.000000
LA
BENOMYL
0.000000
LA
CYFLUTHRIN
0.000000
LA
PROPANIL
0.000000
LA
DSMA
NA
LA
MEPIQUAT
NA
LA
NORFLURALIN
NA
LA
SODIUM CHLORATE
NA
OK
DIMETHOATE
0.000317
OK
2,4-D ACID
0.000207
OK
METHYL PARATHION
0.000101
OK
CHLOROSULFURON
0.000000
20
-------�
Table 5. Normalized hazard rating coefficients emphasizing mobility (NHRCM)
for agricultural pesticides used in EPA Region VI by State.* (continued)
STATE
PESTICIDE
NHRCM
TX
TRIFLURALIN
0.000679
TX
HONOSODIUM METHANEARSONATE
0.000369
TX
DICROTOPHOS
0.000299
TX
ATRAZINE
0.000258
TX
METOLACHLOR
0.000247
TX
PROMETRYN
0.000149
TX
OXAMYL
0.000125
TX
ALDICARB
0.000122
TX
ACEPHATE
0.000114
TX
ALACHLOR
0.000109
TX
DIMETHOATE
0.000059
TX
PENDIMETHALIN
0.000058
TX
AZINPHOS-METHYL
0.000051
TX
METHYL PARATHION
0.000049
TX
METHOMYL
0.000048
TX
DIURON
0.000046
TX
FLUOMETURON
0.000045
TX
CARBOFURAN
0.000041
TX
CHLOROTHALONIL
0.000024
TX
METALAXYL
0.000018
TX
DIAZINON
0.000013
TX
CARBARYL
0.000012
TX
CHLORTHAL DIMETHYL
0.000010
TX
GLYPHOSATE
0.000008
TX
METHAMIDOPHOS
0.000007
TX
MANCOZEB
0.000007
TX
NAPTALAM
0.000006
TX
CHLORPYRIFOS
0.000006
TX
SULPROFOS
0.000005
TX
DIETHATYL ETHYL
0.000004
TX
ETRIDIAZOLE
0.000003
TX
BENSULIDE
0.000003
TX
ENDOSULFAN
0.000002
TX
IPRODIONE
0.000002
TX
CAPTAN
0.000001
TX
CYCLOATE
0.000001
TX
CYROMAZINE
0.000001
TX
LINURON
0.000001
TX
PHOSMET
0.000000
TX
TRALOMETHRIN
0.000000
TX
NAPROPAMIDE
0.000000
TX
PERMETHRIN
0.000000
TX
LINDANE
0.000000
TX
DISULFOTON
0.000000
TX
PROPICONAZOLE
0.000000
TX
PHOSALONE
0.000000
TX
BIFENTHRIN
0.000000
TX
OXYFLUORFEN
0.000000
TX
BROMOXYNIL
0.000000
21
-------�
Table 5. Normalized hazard rating coefficients emphasizing mobility (NHRCM)
for agricultural pesticides used in EPA Region VI by State.* (continued)
STATE
PESTICIDE
NHRCM
TX
CYPERMETHRIN
0.000000
TX
BENOMYL
0.000000
TX
CYFLUTHRIN
0.000000
TX
ESFENVALERATE
0.000000
TX
ETHALFLURALIN
0.000000
TX
MALATHION
0.000000
TX
PETROLEUM OIL
0.000000
TX
TRIOPHANATE METHYL
0.000000
TX
BENEFIN
0.000000
TX.
COPPER HYDROXIDE
NA
TX
NICOSULFURON
NA
TX
SULFUR
NA
TX
TRIPHENYLTIN
NA
TX
ZIRAM
NA
* State
and chemical combinations
not appearing in the table had no use
reported. No use was reported for New Mexico.
NA - values not available due to missing data required for calculation.
22
-------�
Table 6. Normalized hazard rating coefficients emphasizing bioaccumulation
(NHRCB) for agricultural pesticides use in EPA Region VI by State.*
STATE
PESTICIDE
NHRCB
AR
MOLINATE
0.011501
AR
TRIFLURALIN
0.010667
AR
PENDIMETHALIN
0.005221
AR
THIOBENCARB
0.005115
AR
METOLACHLOR
0.004291
AR
CYANAZINE
0.003716
AR
ALACHLOR
0.002875
AR
TERBUFOS
0.002480
AR
BENTAZON
0.002199
AR
ETHEPHON
0.002112
AR
ACIFLUORFEN
0.001704
AR
PROMETRYN
0.001041
AR
ALDICARB
0.000975
AR
2,4-D ACID
0.000959
AR
IMAZAQUIN ACID
0.000872
AR
DIURON
0.000853
AR
METHYL PARATHION
0.000852
AR
QUINTOZENE
0.000646
AR
METRIBUZIN
0.000646
AR
GLYPHOSATE
0.000557
AR
AZINPHOS-METHYL
0.000469
AR
METHOMYL
0.000431
AR
PROFENOFOS
0.000407
AR
METHAZOLE
0.000343
AR
DIMETHOATE
0.000301
AR
DICROTOPHOS
0.000177
AR
PROPICONAZOLE
0.000164
AR
SETHOXYDIM
0.000153
AR
FENOXAPROP ETHYL
0.000144
AR
ETRIDIAZOLE
0.000110
AR
CYPERMETHRIN
0.000056
AR
LAMBDACYHALOTHRIN
0.000028
AR
CHLORIMURON ETHYL
0.000016
AR
BENSULFURON
0.000010
AR
BENOMYL
0.000000
AR
CYFLUTHRIN
0.000000
AR
ESFENVALERATE
0.000000
AR
PROPANIL
0.000000
AR
MONOSODIUM METHANEARSONATE
NA
AR
FLUOMETURON
NA
AR
FOMESAFEN
NA
AR
OXAMYL
NA
AR
BROMACIL
NA
AR
FLUAZIFOP-P-BUTYL
NA
AR
QUIZALAFOP ETHYL
NA
AR
DSMA
NA
AR
MEPIQUAT
NA
AR
NORFLURALIN
NA
23
-------�
Table 6. Normalized hazard rating coefficients emphasizing bioaccumulation
(NHRCB) for agricultural pesticides use in EPA Region VI by State.* (continued)
STATE PESTICIDE NHRCB
LA
MOLINATE
0.009156
LA
METOLACHLOR
0.006543
LA
METHYL PARATHION
0.005354
LA
TRIFLURALIN
0.004110
LA
CYANAZINE
0.003702
LA
PROMETRYN
0.002717
LA
PENDIMETHALIN
0.002028
LA
DIURON
0.001948
LA
TERBUFOS
0.001898
LA
PARAQUAT
0.001468
LA
CLOMAZONE
0.001286
LA
QUINTOZENE
0.001158
LA
METRIBUZIN
0.001066
LA
ETHEPHON
0.000972
LA
CARBOFURAN
0.000925
LA
THIOBENCARB
0.000876
LA
BENTAZON
0.000810
LA
METHAZOLE
0.000790
LA
ACIFLUORFEN
0.000536
LA
ALDICARB
0.000486
LA
GLYPHOSATE
0.000426
LA
ETRIDIAZOLE
0.000416
LA
BENSULFURON
0.000361
LA
DICROTOPHOS
0.000250
LA
THIDIAZURON
0.000240
LA
IMAZAQUIN ACID
0.000217
LA
SETHOXYDIM
0.000177
LA
FENOXAPROP ETHYL
0.000140
LA
OXYFLUORFEN
0.000122
LA
CYPERMETHRIN
0.000085
LA
PROPICONAZOLE
0.000078
LA
LAMBDACYHALOTHRIN
0.000047
LA
PERMETHRIN
0.000034
LA
CHLORIMURON ETHYL
0.000029
LA
2,4-D ACID
0.000000
LA
BENOMYL
0.000000
LA
CYFLUTHRIN
0.000000
LA
PROPANIL
0.000000
LA
MONOSODIUM METHANEARSONATE
NA
LA
FLUOMETURON
NA
LA
FOMESAFEN
NA
LA
QUIZALAFOP ETHYL
NA
LA
DSMA
NA
LA
MEPIQUAT
NA
LA
NORFLURALIN
NA
LA
SODIUM CHLORATE
NA
OK 2,4-D ACID
OK METHYL PARATHION
OK DIMETHOATE
OK CHLOROSULFURON
0.000920
0.000697
0.000647
0.000000
24
-------�
Table 6. Normalized hazard rating coefficients emphasizing bioaccumulation
(NHRCB) for agricultural pesticides use in EPA Region VI by State.* (continued)
STATE
PESTICIDE
NHRCB
TX
TRIFLURALIN
0.003964
TX
ATRAZINE
0.002028
TX
PROMETRYN
0.001131
TX
METOLACHLOR
0.001073
TX
PENDIMETHALIN
0.001010
TX
ALACHLOR
0.000579
TX
CHLOROTHALONIL
0.000413
TX
AZINPHOS-METHYL
0.000413
TX
ALDICARB
0.000365
TX
DIURON
0.000346
TX
METHYL PARATHION
0.000340
TX
DICROTOPHOS
0.000332
TX
CARBOFURAN
0.000209
TX
CHLORTHAL DIMETHYL
0.000208
TX
ACEPHATE
0.000134
TX
DIMETHOATE
0.000121
TX
SULPROFOS
0.000107
TX
METHOMYL
0.000093
TX
MANCOZEB
0.000090
TX
DIAZINON
0.000090
TX
CARBARYL
0.000082
TX
ENDOSULFAN
0.000055
TX
METALAXYL
0.000048
TX
BENSULIDE
0.000035
TX
DIETHATYL ETHYL
0.000025
TX
ETRIDIAZOLE
0.000025
TX
IPRODIONE
0.000021
TX
CHLORPYRIFOS
0.000019
TX
CAPTAN
0.000018
TX
GLYPHOSATE
0.000010
TX
PERMETHRIN
0.000009
TX
LINURON
0.000007
TX
CYCLOATE
0.000007
TX
PHOSMET
0.000006
TX
CYPERMETHRIN
0.000002
TX
NAPROPAMIDE
0.000002
TX
BIFENTHRIN
0.000001
TX
OXYFLUORFEN
0.000000
TX
PROPICONAZOLE
0.000000
TX
BROMOXYNIL
0.000000
TX
BENOMYL
0.000000
TX
CYFLUTHRIN
0.000000
TX
E S FENVALERATE
0.000000
TX
ETHALFLURALIN
0.000000
TX
MALATHION
0.000000
TX
PETROLEUM OIL
0.000000
TX
TRIOPHANATE METHYL
0.000000
TX
MONOSODIUM METHANEARSONATE
NA
TX
OXAMYL
NA
TX
FLUOMETURON
NA
25
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Table 6. Normalized hazard rating coefficients emphasizing bioaccumulation
(NHRCB) for agricultural pesticides use in EPA Region VI by State.* (continued)
STATE
PESTICIDE
NHRCB
TX
METHAMIDOPHOS
NA
TX
NAPTALAM
NA
TX
CYROMAZINE
NA
TX
TRALOMETHRIN
NA
TX
LINDANE
NA
TX
DISULFOTON
NA
TX
PHOSALONE
NA
TX
BENEFIN
NA
TX
COPPER HYDROXIDE
NA
TX
NICOSULFURON
NA
TX
SULFUR
NA
TX
TRIPHENYLTIN
NA
TX
ZIRAM
NA
* State
and chemical combinations
not appearing in the table had no use
reported. No use was reported for New Mexico.
NA - values not available due to missing data required for calculations.
26
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Table 7. Normalized hazard rating coefficients emphasizing mobility (NHRCM)
for agricultural pesticides in the Trinity River Basin.*
PESTICIDE
NHRCM
PESTICIDE
NHRCM
ARSENIC ACID
.0018722
IMAZAQUIN ACID
.0000038
GLYPHOSATE
.0003229
THIDIAZURON
.0000031
DICROTOPHOS
.0002457
DIAZINON
.0000031
ATRAZINE
.0002270
AZINPHOS-METHYL
.0000029
ALDICARB
.0002007
CLOPYRALID
.0000024
PROMETRYN
.0001987
METALAXYL
.0000021
DISULFOTON
.0001787
FLUOMETURON
.0000018
ACEPHATE
.0001682
BROMOXYNIL
.0000016
METOLACHLOR
.0001674
BENSULIDE
.0000013
BENTAZON
.0001586
IPRODIONE
.0000013
ALACHLOR
.0001210
SULPROFOS
.0000011
DIMETHOATE
.0001158
TRICLOPYR
.0000008
MONOSODIUM METHANEARSONATE
.0001084
METSULFURON-METHYL
.0000007
ETHEPHON
.0000990
VERNOLATE
.0000005
CARBARYL
.0000852
ENDOTHALL
.0000003
METHYL PARATHION
.0000791
MEVINPHOS
.0000003
TERBUFOS
.0000737
CHLORTHAL DIMETHYL
.0000003
MOLINATE
.0000708
BIFENTHRIN
.0000002
PARAQUAT
.0000707
ENDOSULFAN
.0000001
CARBOFURAN
.0000668
PHOSMET
.0000001
METHOMYL
.0000596
METRIBUZIN
.0000000
FOMESAFEN
.0000534
CAPTAN
.0000000
PARATHION
.0000503
PERMETHRIN
.0000000
FLUAZIFOP-P-BUTYL
.0000480
BENOMYL
.0000000
SETHOXYDIM
.0000397
CHLOROTHALONIL
.0000000
ACIFLUORFEN
.0000383
CYFLUTHRIN
.0000000
THIOBENCARB
.0000307
CYPERMETHRIN
.0000000
MONOCROTOPHOS
.0000239
DICLOFOP-METHYL
.0000000
THIODICARB
.0000230
ESFENVALERATE
.0000000
DIURON
.0000180
MALATHION
.0000000
PROPICONAZOLE
.0000167
ORYZALIN
.0000000
OXYDEMETON-METHYL
.0000164
PETROLEUM OIL
.0000000
MANCOZEB
.0000164
PROPANIL
.0000000
CYANAZINE
.0000149
TRIFLURALIN
.0000000
PROFENOFOS
.0000146
2,4-D ACID
NA
CHLORSULFURON
.0000145
BUTIFOS
NA
PENDIMETHALIN
.0000144
COPPER HYDROXIDE
NA
CHLORPYRIFOS
.0000122
CYHALOTHRIN
NA
PROPARGITE
.0000119
DICAMBA
NA
TRIADIMEFON
.0000119
DSMA
NA
PHOSPHAMIDON
.0000116
FENVALERATE
NA
2,4-DB
.0000097
FURORE
NA
QUINTOZENE
.0000063
MEPIQUAT
NA
PHOSALONE
.0000055
TRIPHENYLTIN
NA
LINURON
.0000052
* NA - values were not available due to missing data required for calculations.
Picloram and 2,4-D combinations for hay and pasture application were not
included because rates were dependent on brush intensity rather than per acre.
Pesticides not included in the table had no use reported.
27
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Table 8. Normalized hazard rating coefficients emphasizing bioaccumulation
(NHRCB) for agricultural pesticides in the Trinity River Basin.*
PESTICIDE
NHRCB
PESTICIDE
NHRCB
ARSENIC ACID
.0046346
CYPERMETHRIN
.0000069
ATRAZINE
.0017831
IMAZAQUIN ACID
.0000060
PROMETRYN
.0015023
CHLORTHAL DIMETHYL
.0000055
TERBUFOS
.0008611
METALAXYL
.0000054
METOLACHLOR
.0007267
BIFENTHRIN
.0000030
ALACHLOR
.0006405
METSULFURON-METHYL
.0000022
ALDICARB
.0005994
ENDOSULFAN
.0000016
CARBARYL
.0005656
ENDOTHALL
.0000006
METHYL PARATHION
.0005439
PHOSMET
.0000005
PARATHION
.0004048
MEVINPHOS
.0000004
GLYPHOSATE
.0003895
CAPTAN
.0000002
CARBOFURAN
.0003366
METRIBUZIN
.0000001
MOLINATE
.0002804
PERMETHRIN
.0000001
DICROTOPHOS
.0002729
BENOMYL
.0000000
PENDIMETHALIN
.0002484
CHLOROTHALONIL
.0000000
THIOBENCARB
.0002403
CYFLUTHRIN
.0000000
DIMETHOATE
.0002362
DICLOFOP-METHYL
.0000000
THIODICARB
.0002202
ESFENVALERATE
.0000000
PROPARGITE
.0002053
MALATHION
.0000000
CHLORPYRIFOS
.0002049
PETROLEUM OIL
.0000000
ACEPHATE
.0001964
PROPANIL
.0000000
MANCOZEB
.0001907
TRIFLURALIN
.0000000
DIURON
.0001338
2,4-D ACID
NA
PROFENOFOS
.0001302
2,4-DB
NA
BENTAZON
.0001263
BUTIFOS
NA
SETHOXYDIM
.0001222
CLOPYRALID
NA
METHOMYL
.0001151
COPPER HYDROXIDE
NA
PROPICONAZOLE
.0001132
CYHALOTHRIN
NA
ETHEPHON
.0001039
DICAMBA
NA
QUINTOZENE
.0001029
DISULFOTON
NA
CYANAZINE
.0000919
DSMA
NA
PARAQUAT
.0000852
FENVALERATE
NA
ACIFLUORFEN
.0000542
FLUAZIFOP-P-BUTYL
NA
BROMOXYNIL
.0000475
FLUOMETURON
NA
CHLORSULFURON
.0000429
FOMESAFEN
NA
LINURON
.0000353
FURORE
NA
THIDIAZURON
.0000285
MEPIQUAT
NA
MONOCROTOPHOS
.0000263
MONOSODIUM METHANEARSONATE
NA
AZINPHOS-METHYL
.0000235
ORYZALIN
NA
DIAZINON
.0000210
PHOSALONE
NA
SULPROFOS
.0000201
TRIADIMEFON
NA
OXYDEMETON-METHYL
.0000155
TRICLOPYR
NA
BENSULIDE
.0000136
TRIPHENYLTIN
NA
PHOSPHAMIDON
.0000124
VERNOLATE
NA
IPRODIONE
.0000118
* NA - values were not available due to missing data required for calculations.
Picloram and 2,4-D combinations for hay and pasture application were not
included because rates were dependent on brush intensity rather than per acre.
Pesticides not included in the table had no use reported.
28
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DISCUSSION
Thirty compounds were selected for this discussion. These compounds
include the top twenty ranked by NHRCM and NHRCB in the Trinity River Basin plus
most of the top ten ranked by NHRCM and NHRCB in each state for Arkansas,
Louisiana and Texas. Reported pesticide use from Oklahoma and New Mexico were
much less than in these three states and thus pesticides used in Oklahoma and New
Mexico were not selected for this discussion. Pesticides not included in this
list that were ranked in the top ten for NHRCM were oxamyl in Texas, and for
NHRCB were diuron in Lousiana, chlorothalonil, azinphos-methyl and diuron in
Texas. This summary by product consists of product name, common trade name(s),
ranks of hazard ratings calculated in this study, statement of product uses and
a few comments about specific products.
Pait et al. (1992) ranked most of the same agricultural pesticides as
hazardous as does this study. Herbicides were generally highly ranked in both
studies. Several of the commonly used herbicides such as alachlor, atrazine and
metolachlor are not as frequently found in aquatic biota as expected based on
their use (Pait et al. 1992).
While hazard rating methods like those utilized in this report provide
general guidance on relative hazard from pesticide, more specific information on
pesticide fate is always desirable. Environmental and biological monitoring
studies provide specific point estimates of pesticide concentrations in various
segments of the environment. Simulation models provide a method of predicting
pesticide breakdown and movement in the environment.
HERBICIDES
Acifluorfen is a postemergence herbicide for annual broadleaf weeds on
soybeans, peanuts and rice (Farm Chemicals Handbook 1992). It is commonly sold
as Blazer™. The HRCM for acifluorfen ranked 19th of the chemicals in this
study. The NHRCM for acifluorfen ranked 6th in AR, 11th in LA, and 26th in the
TRB. The HRCB for aciflurofen ranked 38th of the chemicals in this study. The
29
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NHRCB for acifluorfen ranked 11th in AR, 19th in LA and 33rd in the TRB.
Moderate use and moderate toxicity contribute to its rankings.
Alachlor is a preemergence, early postemergence or soil-incorporated
herbicide used to control most annual grasses and many broadleaf weeds in beans,
corn, cotton, milo, peanuts, peas, soybeans, sunflower, and certain woody
ornamental plants (Montgomery 1993). It is commonly sold as Lasso™. The HRCM
for alachlor ranked 44th of the chemicals in this study. The NHRCM for alachlor
ranked 12th in AR, 10th in TX, and 11th in the TRB. The HRCB for alachlor ranked
44th of the chemicals in this study. The NHRCB for alachlor ranked 7th in AR,
6th in TX and 6th in the TRB. Widespread use contributes to values of normalized
rankings above hazard ranks.
Atrazine is used for season long weed control in corn, sorghum and certain
other crops (Farm Chemicals Handbook 1992). It is commonly sold as Aatrex™ and
under many other names. The HRCM for atrazine ranked 54th of the chemicals in
this study. The NHRCM for atrazine ranked 4th in TX and 4th in the TRB. The
HRCB for atrazine ranked 19th of the chemicals in this study. The NHRCB for
atrazine ranked 2nd in TX and 2nd in the TRB. This chemical is already
recognized as a hazard appearing in surface water in the midwest.
Bentazon is a selective postemergence control of many broadleaf weeds and
sedges in corn, rice, sorghum, soybeans, alfalfa and many other crops (Farm
Chemicals Handbook 1992). It is commonly sold as Basagran™. The HRCM for
bentazon ranked 4th of the chemicals in this study. The NHRCM for bentazon
ranked 3rd in AR, 5th in LA, and 10th in the TRB. The HRCB for bentazon ranked
46th of the chemicals in this study. The NHRCB for bentazon ranked 9th in AR,
17th in LA and 25th in the TRB.
Cyanazine is used for early preplant, preemergence or postemergence for
field corn, weed control on fallow cropland (Farm Chemicals Handbook 1992). The
HRCM for cyanazine ranked 49th of the chemicals in this study. The NHRCM for
cyanazine ranked 10th in AR, 10th in LA, and 34th in the TRB. The HRCB for
cyanazine ranked 33rd of the chemicals in this study. The NHRCB for cyanazine
ranked 6th in AR, 5th in LA and 31st in the TRB. Substantial use was reported
30
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in AR and LA. Reported use was much less in TX and the TRB.
Fluometuron is used as a pre-emergence and post-emergence herbicide used
for weed control in cotton (Farm Chemicals Handbook 1992). It is commonly sold
as Cotoran™. The HRCM for fluometuron ranked 51st of the chemicals in this
study. The NHRCM for fluometuron ranked 8th in AR, 9th in LA, 17th in TX and
52nd in the TRB.
Glyphosate is a nonselective, postemergence herbicide for control of many
annual and perennial grasses and broadleaf weeds and tree and woody brush species
in cropland and non-crop sites (Farm Chemicals Handbook 1992). It is commonly
sold as Roundup™. The HRCM for glyphosate ranked 6th of the chemicals in this
study. The NHRCM for glyphosate ranked 13rd in AR, 13rd in LA, 24th in TX and
2nd in the TRB. The HRCB for glyphosate ranked 12th of the chemicals in this
study. The NHRCB for glyphosate ranked 20th in AR, 21st in LA, 30th in TX and
11 in the TRB. Rangeland and right-of-way brush control were a major use.
Metolachlor is a preemergence and preplant incorporated weed control in
corn, soybeans, peanuts, grain sorghum, cotton and other crops (Farm Chemicals
Handbook 1992). The HRCM for metolachlor ranked 32nd of the chemicals in this
study. The NHRCM for metolachlor ranked. 7th in AR, 3rd in LA, 5th in TX and 9th
in the TRB. The HRCB for metolachlor ranked 10th of the chemicals in this study.
The NHRCB for metolachlor ranked 5th in AR, 2nd in LA, 4th in TX and 5th in the
TRB.
Molinate is used to control watergrass in rice (Farm Chemicals Handbook
1992). The HRCM for molinate ranked 36th of the chemicals in this study. The
NHRCM for molinate ranked 2nd in AR, 2nd in LA, and 18th in the TRB. The HRCB
for molinate ranked 35th of the chemicals in this study. The NHRCB for molinate
ranked 1st in AR, 1st in LA and 13 in the TRB. Ranking reflects the use in rice.
Monosodium methanearsonate is used as a postemergence herbicide for
johnsongrass and other grassy weeds in noncrop land. Preplant herbicide in
cotton (Farm Chemicals Handbook 1992). It is frequently abbreviated as MSMA.
The HRCM for monosodium methanearsonate ranked 1st of the chemicals in this
study. The NHRCM for monosodium methanearsonate ranked 1st in AR, 1st in LA, 2nd
31
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in TX and 13rd in the TRB. High solubility contributes to high ranking.
Pendimethalin is used as a preemergence or postemergence herbicide in field
corn; early postemergence in rice; postemergence incorporated in sorghum;
preplant incorporated in cotton, soybeans, peanuts, and others (Farm Chemicals
Handbook 1992). It is commonly sold as Prowl™. The HRCM for pendimethalin
ranked 75th of the chemicals in this study. The NHRCM for pendimethalin ranked
17th in AR, 23rd in LA, 12th in TX and 37th in the TRB. The HRCB for
pendimethalin ranked 25th of the chemicals in this study. The NHRCB for
pendimethalin ranked 3rd in AR, 7th in LA, 5th in TX and 15th in the TRB.
Prometryn is a selective herbicide for most annual grasses, broadleaf weeds
in cotton (Farm Chemicals Handbook 1992). The HRCM for prometryn ranked 55th of
the chemicals in this study. The NHRCM for prometryn ranked 25th in AR, 12th in
LA, 6th in TX and 6th in the TRB. The HRCB for prometryn ranked 28th of the
chemicals in this study. The NHRCB for prometryn ranked 12th in AR, 6th in LA,
3rd in TX and 3rd in the TRB.
Thiobencarb is a preemergence and early postemergence herbicide used in
rice (Farm Chemicals Handbook 1992). It is commonly sold as Bolero™. The HRCM
for thiobencarb ranked 61st of the chemicals in this study. The NHRCM for
thiobencarb ranked 9th in AR, 24th in LA, and 27th in the TRB. The HRCB for
thiobencarb ranked 41st of the chemicals in this study. The NHRCB for
thiobencarb ranked 4th in AR, 16th in LA and 16th in the TRB.
Trifluralin is used as a selective preemergence herbicide on many crops
(Farm Chemicals Handbook 1992). It is commonly sold as Treflan™. The HRCM for
trifluralin ranked 104th of the chemicals in this study. The NHRCM for
trifluralin ranked 5th in AR, 8th in LA, 1st in TX and 79th in the TRB. The HRCB
for trifluralin ranked 83rd of the chemicals in this study. The NHRCB for
trifluralin ranked 2nd in AR, 4th in LA, 1st in TX and 67th in the TRB.
Trifluralin has widespread use in AR, LA, and TX but much reduced use in the TRB
by comparison.
32
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PLANT GROWTH REGULATORS AND DESICCANTS
Arsenic acid is a cotton desiccant and herbicide (Farm Chemicals Handbook
1992). The HRCM for arsenic acid ranked 3rd of the chemicals in this study. The
NHRCM for arsenic acid ranked 1st in the TRB. The HRCB for arsenic acid ranked
1st of the chemicals in this study. The NHRCB for arsenic acid ranked 1st in the
TRB. Very long half life contributes to this product rating. The use in states
was not reported probably because the USDA report concentrated on pesticides and
may have excluded it as a harvest aid chemical.
Ethephon is a plant growth regulator for cotton, various fruits, nuts and
vegetables (Farm Chemicals Handbook 1992). The HRCM for ethephon ranked 13rd of
the chemicals in this study. The NHRCM for ethephon ranked 4th in AR, 6th in LA,
and 14th in the TRB. The HRCB for ethephon ranked 58th of the chemicals in this
study. The NHRCB for ethephon ranked 10th in AR, 14th in LA and 29th in the TRB.
Paraquat is used for desiccation of seed crops, noncrop and industrial weed
control; defoliation and desiccation of cotton, used in "NoTill" before planting
(Farm Chemicals Handbook 1992). The HRCM for paraquat ranked 2nd of the
chemicals in this study. The NHRCM for paraquat ranked 4th in LA, and 19th in
the TRB. The HRCB for paraquat ranked 2nd of the chemicals in this study. The
NHRCB for paraquat ranked 10th in LA and 32rd in the TRB.
INSECTICIDES AND ACARICIDES
Acephate is a contact and systemic insecticide for control of sucking and
chewing insects in cotton, ornamentals, forestry, tobacco, fruits, vegetables,
and other crops (Montgomery 1993). It is commonly sold as Orthene™. The HRCM
for acephate ranked 21st of the chemicals in this study. The NHRCM for acephate
ranked 9th in TX and 8th in the TRB. The HRCB for acephate ranked 68th of the
chemicals in this study. The NHRCB for acephate ranked 15th in TX and 21st in
the TRB. The NHRCM and NHRCB for acephate is elevated in rank above the HRCM and
HRCB indicating substantial use.
Aldicarb is a systemic insecticide, acaracide and nematicide (Montgomery
1993). It is commonly sold as Temik™. The HRCM for aldicarb ranked 28th of the
33
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chemicals in this study. The NHRCM for aldicarb ranked 16th in AR, 20th in LA,
8th in TX and 5th in the TRB. The HRCB for aldicarb ranked 21st of the chemicals
in this study. The NHRCB for aldicarb ranked 13rd in AR, 20th in LA, 9th in TX
and 7th in the TRB. Relatively high rankings of HRCM and HRCB coupled with
substantial use contribute to the rankings for NHRCM and NHRCB.
Carbaryl is a broad spectrum insecticide used for chewing insects on many
crops (Farm Chemicals Handbook 1992). It is commonly sold as Sevin™. The HRCM
for carbaryl ranked 56th of the chemicals in this study. The NHRCM for carbaryl
ranked 22nd in TX and 15th in the TRB. The HRCB for carbaryl ranked 42nd of the
chemicals in this study. The NHRCB for carbaryl ranked 21st in TX and 8th in the
TRB. The rankings for HRCM and HRCB are relatively low. This product is
generally considered a low toxicity alternative to more hazardous compounds.
However, carbaryl is used at high rates per acre compared with some of the more
recently registered compounds.
Carbofuran is a broad spectrum insecticide, nematicide and miticide on a
variety of crops (Farm Chemicals Handbook 1992). It is commonly sold as
Furadan™. The HRCM for carbofuran ranked 37th of the chemicals in this study.
The NHRCM for carbofuran ranked 19th in LA, 18th in TX and 20th in the TRB. The
HRCB for carbofuran ranked 14th of the chemicals in this study. The NHRCB for
carbofuran ranked 15th in LA, 13rd in TX and 12th in the TRB.
Chlorpyrifos is used to control a wide variety of insects in many
agricultural and urban situations. It is commonly sold as Lorsban™ for
agricultural use and Dursban™ for homeowner use. The HRCM for chlorpyrifos
ranked 82nd of the chemicals in this study. The NHRCM for chlorpyrifos ranked
28th in TX and 38th in the TRB. The HRCB for chlorpyrifos ranked 40th of the
chemicals in this study. The NHRCB for chlorpyrifos ranked 28th in TX and 20th
in the TRB. While the HRCM and HRCB are relatively low, this product is used at
relatively high rates per acre which contribute to its ranking.
Dicrotophos is a contact systemic insecticide for cotton insects (Farm
Chemicals Handbook 1992). The HRCM for dicrotophos ranked 8th of the chemicals
in this study. The NHRCM for dicrotophos ranked 23rd in AR, 18th in LA, 3rd in
34
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TX and 3rd in the TRB. The HRCB for dicrotophos ranked 27th of the chemicals in
this study. The NHRCB for dicrotophos ranked 26th in AR, 24th in LA, 12th in TX
and 24th in the TRB. Ratings in TX and TRB are probably due to more cotton
acreage in these areas compared to AR and LA.
Dimethoate is a systematic insecticide/acaracide used on many crops (Farm
Chemicals Handbook 1992). It is commonly sold as Cygon™. The HRCM for
dimethoate ranked 27th of the chemicals in this study. The NHRCM for dimethoate
ranked 24th in AR, 1st in OK, 11th in TX and 12th in the TRB. The HRCB for
dimethoate ranked 59th of the chemicals in this study. The NHRCB for dimethoate
ranked 25th in AR, 3rd in OK, 16th in TX and 17th in the TRB. One of only four
products reported from OK. Used on a variety of crops but cotton use probably
dominates these rankings.
Disulfoton is used as a side dressing, broadcast, in the seed furrow or
foliar spray to control many insects and mites and as a seed treatment for
sucking insects (Farm Chemicals Handbook 1992). The HRCM for disulfoton ranked
59th of the chemicals in this study. The NHRCM for disulfoton ranked 44th in TX
and 7th in the TRB.
Methyl parathion is an insecticide used to control boll weevil, many biting
and sucking insects in many crops (Farm Chemicals Handbook 1992). The HRCM for
methyl parathion ranked 65th of the chemicals in this study. The NHRCM for
methyl parathion ranked 26th in AR, 7th in LA, 3rd in OK, 14th in TX and 16th in
the TRB. The HRCB for methyl parathion ranked 65th of the chemicals in this
study. The NHRCB for methyl parathion ranked 17th in AR, 3rd in LA, 2nd in OK,
11th in TX and 9th in the TRB.
Parathion is an insecticide and acaracide for control of sucking and
chewing insects and mites in fruit, vegetables, ornamentals and field crops
(Montgomery 1993). The HRCM for parathion ranked 63rd of the chemicals in this
study. The NHRCM for parathion ranked 23rd in the TRB. The HRCB for parathion
ranked 49th of the chemicals in this study. The NHRCB for parathion ranked 10th
in the TRB. Many uses were cancelled on 12/31/91 (Farm Chemicals Handbook 1992).
Propagite is an acaricide used in corn, cotton, sorghum and many other
35
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crops (Farm Chemicals Handbook 1992). The HRCM for propargite ranked 74th of the
chemicals in this study. The NHRCM for propargite ranked 39th in the TRB. The
HRCB for propargite ranked 22nd of the chemicals in this study. The NHRCB for
propargite ranked 19th in the TRB.
Terbufos is a systemic insecticide used for corn rootworms and others pests
in corn and greenbug on grain sorghum (Farm Chemicals Handbook 1992). It is
commonly sold as Counter™. The HRCM for terbufos ranked 76th of the chemicals
in this study. The NHRCM for terbufos ranked 21st in AR, 21st in LA, and 17th
in the TRB. The HRCB for terbufos ranked 63rd of the chemicals in this study.
The NHRCB for terbufos ranked 8th in AR, 9th in LA and 4th in the TRB.
Thiodicarb is an insecticide primarily for Lepidopterous pests and used as
an ovicide in cotton (Farm Chemicals Handbook 1992). It is commonly sold as
Larvin™. The HRCM for thiodicarb ranked 70th of the chemicals in this study.
The NHRCM for thiodicarb ranked 28th in the TRB. The HRCB for thiodicarb ranked
55th of the chemicals in this study. The NHRCB for thiodicarb ranked 18th in the
TRB.
ENVIRONMENTAL AND BIOLOGICAL MONITORING STUDIES
The Upper Trinity was a focus for a recent symposium (Jensen 1992) which
included information and reviews on pesticides in the Trinity River. Since 1970,
there have been fifteen documented fish kills in the Trinity, most of these in
the middle reaches (Dickson et al. 1992). An ongoing, comprehensive study on
fish kills in the Trinity River has been underway (Davis 1987, 1991; Davis and
Bastian 1988, 1990). The conclusion from these studies was that most of the fish
kills were associated with low levels of dissolved oxygen. However, the
cumulative information revealed that toxicants were exerting appreciable
ecological impacts on aquatic life in the system.
Severe toxicity to Ceriodaphnia was observed in an ambient toxicity test
of water collected at Trinidad during high water flows. Diazinon was identified
as a probable toxic agent in this situation (Davis and Bastian 1990). A
subsequent study (Crocker et al. 1992) detected diazinon at 18 of 20 ambient
36
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river stations tested. However, diazinon concentrations did not exceed the
chronic value (0.34 ug/1) for Ceriodaphnia. The time of the samples and
antecedent rainfall may have resulted in underestimation of typical diazinon
concentrations.
The assessment of biotic integrity of the Trinity River (Davis 1991) found
that the aquatic communities were typically healthy with the degree of integrity
remarkable for such an extensively urbanized watershed. However, a degree of
impact was evident in certain reaches of the river. Generally, these studies
conclude that the water quality in the Trinity River has substantially improved
since the 1970's but that some disruption of biological integrity still occurs.
The Texas Water Commission (1990) provides a physical description of the
Trinity River Basin and a summary of the water quality in that river. TWC points
out that levels of dissolved oxygen, fecal coliform bacteria, nutrients, cadmium
and lead were all of concern. The main concern related to pesticides was the
fishing ban for that portion of the river from Fort Worth to Highway 1-20 due to
chlordane contamination.
Pesticide use in the Upper Trinity River was summarized by Harris et al.
(1992) who point out that the agricultural production in this area was declining
and that increased numbers of soil samples from that area indicate that improved
crop practices were being followed. The voluntary adoption of best management
practices and the widespread use of integrated pest management have contributed
to this improvement in agricultural practices. These changes in production
practices has further helped to reduce the impact of pesticides on the Trinity
River which is encouraging for improvements in the river in the future.
Irwin (1988) and Dickson et al. (1992) reported on monitoring of fish
tissue samples for chlorinated hydrocarbons and heavy metals in the Trinity River
Basin. Levels of chorinated hydrocarbons and heavy metals were found to be
elevated in areas of the river below residential centers. However, the levels
of these chemicals in most areas were low enough to not be a major concern. The
compounds investigated in monitoring studies were not the compounds that ranked
high in this study with the exception of arsenic. Nevertheless, most Trinity
37
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River tissue samples do not show highly elevated levels of arsenic (Irwin 1988).
Plots and statistical analyses of arsenic levels in mosquitofish revealed no
clear trends or correlations when compared to river miles, location groups or
runoff types. Irwin (1988) suggests that more data is needed to assess risks of
arsenic to fish and wildlife and that some clam species may be better for
monitoring arsenic than fish tissue samples.
COMPARISON OF URBAN PESTICIDE HAZARD TO AGRICULTURAL HAZARD
Irwin (1988) pointed out that areas of the Trinity River downstream from
Dallas/Fort Worth had a reduced number of species of fish and wildlife. Many of
the species present were found to carry sufficiently high body burdens of toxic
chemicals to cause concern for their welfare. Consequently, an evaluation of the
potential for pesticide impact from urban areas compared to agriculture was
attempted here for example pesticides.
A recent national survey of urban pesticide use (Whitmore et al. 1992) was
conducted providing an estimate of pounds of pesticide applied by household
nationally. Dallas County, the most populous county along the Trinity River, has
an estimated 701,686 households (Texas State Data Center, personal communica-
tion) . Multiplying use by households in Dallas County provides an estimated
urban pesticide use of 534,196 pounds per year in a county consisting of 563,200
acres (Dallas Morning News 1987).
Even though urban pesticide use estimates were not partitioned by
pesticide, a hypothetical calculation was completed to estimate the percentage
of urban pesticide use that would be necessary for diazinon, a commonly used
urban insecticide, to be considered as hazardous as any agricultural pesticide
in this study. Diazinon with a HRCM of .039365 and a HRCB of .27015 would have
to constitute only about 5% and 2% of the total urban pesticide use in Dallas
County to have a NHRCM and NHRCB, respectively, to be as significant in Dallas
County as arsenic acid with NHRCM of .0018722 and NHRCB of .0046346 in the
Trinity River Basin.
Similarly, chlorpyrifos would have to constitute 13% and 2% of the total
38
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urban pesticide use in Dallas County to have a NHRCM and NHRCB, respectively, to
be as significant as any agricultural pesticide in the Trinity River Basin.
These percentages seem well within reason for these commonly used insecticides.
Consequently, urban pesticide use could easily be a hazard in highly urbanized
counties that rivals agricultural pesticide hazard for individual chemicals.
SIMULATION MODELS AND GEOGRAPHIC INFORMATION SYSTEMS
Simulation models are useful tool to predict the impact of pesticides.
While exact values for output parameters are sometimes incorrect, the use of
models for sensitivity analysis (Srinivasan and Engel 1992) and priority setting
(Haith 1985, 1987) is justified because relative values can be used for
comparison between pesticides.
A number of simulation models have been developed that could be used for
evaluation of pesticide contamination and these models vary in complexity and
purpose. Griggs (1990) provided a review of various models for use in water
quality evaluations including estimating pesticide contamination in run-off.
Jones (1993) provides a further summary of modeling efforts that include water
quality considerations. Selection of a model that is appropriate for a
particular study may be difficult. Often an existing model can be modified to
accommodate a new application.
The rapid increase in geographic information systems (GIS) capabilities,
availability of appropriate data, computer speed and data storage has made many
GIS applications feasible that might have been overlooked a few years ago.
Specific applications for pesticide use and fate modeling with GIS links have not
been completed for the Trinity River Basin. However, models like AGNPS have been
successfully linked to a GIS (Lee and Terstriep 1991, Vieux and Needham 1993) for
sediment movement in the soil. Horn and Grayman (1993) discuss the use of the
EPA REACH file system which was based on USGS maps of hydrology for water quality
modeling. Furthermore, GIS applications have been developed to identify sites
for stormwater detention basins along the Trinity River (Atkinson 1992) which
could be an important start toward that goal. Progress in these studies provides
39
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a framework which should expedite GIS applications to study pesticides in surface
water in the near future.
This project was undertaken with the expectation that pesticides use and
fate studies will eventually use this technology. The data used in this study
have been placed in a format compatible with GIS. (Examples of GIS generated
maps are in Appendix M). Our data could be easily incorporated into more complex
GIS applications. Incorporation of hazard rating methods with environmental fate
models of pesticides into a database linked to a GIS is a long-term goal which
would allow more realistic site-specific pesticide hazard rating. This project
was intended as contributing toward that goal.
The two tables below show pesticides ranking in the top ten either in NHRCM
or NHRCB based on agricultural use. The first shows 23 in either Arkansas,
Louisiana or Texas. Pesticide use and reporting from Oklahoma and New Mexico
were much less than in these three states and thus were not selected for this
summary. The second table shows 16 pesticides in the Trinity River Basin.
CONCLUSIONS
Top ranking pesticides on either NHRCM or NHRCB
scale in either Arkansas. Louisiana or Texas.
acephate
acifluorfen
metolachlor
molinate
monosodium methanearsonate
oxamyl
paraquat
parathion (methyl)
pendimethalin
prometryn
terbufos
thiobencarb
trifluralin
alachlor
aldicarb
azinphos-methyl
bentazon
chlorothalonil
cyanazine
dicrotophos
diuron
ethephon
fluometuron
Top ranking pesticides on either NHRCM or NHRCB
scale in the Trinity River Basin of Texas.
acephate
alachlor
aldicarb
diuron
ethephon
fluometuron
metolachlor
parathion (ethyl)
parathion (methyl)
prometryn
terbufos
arsenic acid
atrazine
bentazon
carbaryl
dicrotophos
40
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More than half of the chemicals that had high normalized hazard ratings
were herbicides. While herbicides have rarely produced fish kills, the risk to
aquatic plants posed by herbicide runoff should be considered. Several
insecticides also had high hazard ratings. We developed the hazard rating
coefficients using three critieria. These were total pesticides applied, land
area impacted, and chemical characteristics. Total pesticide applied was a
dominant factor in hazard rating. In this study, pesticide hazard was local for
some products applied in the Trinity River Basin. This was especially so for
products used primarily on single crops grown regionally. An example is rice
along the Gulf Coast.
Urban pesticide use can present serious environmental hazards. Calcula-
tions of hazard ratings from pesticides applied in urban areas suggest that their
impact may be as significant as hazards from agricultural chemicals. Pesticides
like diazinon and chlordane are known problem chemicals in the Trinity River but
were not rated high based on agricultural use. The source of these pesticides
is more likely to be urban use.
41
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ACKNOWLEDGEMENTS
I thank Philip Crocker and his colleagues at EPA Region VI for their review
of early versions of this manuscript. I also thank Douglas Stevenson, Marvin
Harris, Paul Baumann, Rodney Holloway and Ric Jensen for their review of the
manuscript and helpful suggestions. I thank the Interlibrary Services office of
the the Sterling C. Evans Library at Texas ASM for their assistance in acquisiton
of various documents used in this study. A number of contacts in various
agencies including the Texas Water Commission, the Texas Water Resources
Institute, the Texas Water Development Board, the Texas Parks and Wildlife
Department, the chemical industry, and others have contributed information for
this report.
42
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LITERATURE CITED
Atkinson, S. F. 1992. Using Geographic Information Systems to Locate Sites for
Stormwater Detention Basins. In Jensen, R. 1992. How Healthy is the Upper Trinity
River? Biological and Water Quality Perspectives. Proceedings of a Symposium
Hosted by Texas Christian University, Oct. 1991. 274 pp.
AQUIRE. 1993. On-line data base. US-Environmental Protection Agency.
Buckner, H. D., and W. J. Shelby. 1990. Water Resouces Data Texas Water Year
1990. Vol. 1. 453 pp. U. S. Geological Survey Water - Data Report TX-90-1. USGS,
Austin, TX.
Crocker, P. A., J. R. Davis, T. A. Hollister and E. Hornig. 1992. Diazinon in
Municipal Effluents and Ambient Waters for the Upper Trinity River, Texas. U. S.
EPA-Region 6, Dallas, Texas and Texas Water Commission, Austin, Texas.
Crop Protection Chemicals Reference. 1991. Chemical and Pharmaceutical Press,
Paris. 7th Edition. 2170 pp. + Supplement 55 pp.
EXTOXNET. 1989. Extension Toxicology Network. A Pesticide Information Project of
the Cooperative Extension Offices of Cornell University, The University of
California, Michigan State University and Oregon State University. Cornell
University, Ithaca, N.Y.
Dallas Morning News. 1987. 1988-1989 Texas Almanac and State Industrial Guide.
The Texas Monthly Press. 640 pp.
Davis, J. R. 1987. Analysis of fish kills and associated water quality conditions
in the Trinity River, Texas. I. Review of historical data, 1970-1985. Texas Water
Commission Report No. LP-87-02. Austin, TX.
Davis, J. R. 1991. Analysis of Fish Kills and Associated Water Quality Conditions
in the Trinity River, Texas, IV. Assessment of Biotic Integrity. TX Water
Commission LP 91-03, 169 pp.
Davis, J. R., and M. V. Bastian. 1988. Analysis of fish kills and associated
water quality conditions in the Trinity River, Texas. II. Results of Phase I
Studies, 1985-86. Report Number LP 88-06, Texas Water Commission, Austin, Texas.
199 p.
Davis, J. R., and M. V. Bastian. 1990. Analysis of fish kills and associated
water quality conditions in the Trinity River, Texas. III. Final Toxicological
Considerations, Rept. NO. LP 90-03, Texas Water Commission, Austin, Texas. 81 p.
Dickson, K. L., W. T. Waller, J. H. Kennedy, R. W. Arnold and J. F. Hall. 1992.
A water quality and ecological survey of the Trinity River. In Jensen, R. 1992.
How Healthy is the Upper Trinity River? Biological and Water Quality Perspec-
tives. . Proceedings of a Symposium Hosted by Texas Christian University, Oct.
1991. 274 pp.
EPA. 1990a. Region 6 Comparative Risk Project Overview Report. 175 pp.
Appendices.
EPA. 1990b. Region 6 Comparative Risk Project. Appendix A: Ecological Report.
EPA. 1991. The Watershed Protection Approach, An Overview. US-EPA. Office of
Water. EPA/503/9-92/002. 8 pp.
Farm Chemicals Handbook. 1992. Meister Publishing Company, Willoughby, OH. 794
pp.
43
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Gianessi, L. P., and C. A. Puffer. 1990. The Use of Herbicides in U. S. Crop
Production; Use Coefficients Listed by State. Quality of Environment Division,
Resources for the Future, Inc. Vol. 1, 120 pp.
Griggs, R. H. 1990. The Right Computer Simulation Model for the Right Water
Quality Question. In Proceedings 26th Annual Meeting of the Texas Section
American Society of Agricultural Engineers. . Paper No. TX90-5.
Haith, D. A. 1985. Variability of pesticide loads to surface waters. J. WPCF
57(11): 1062-1067.
Haith, D. A. 1987. Extreme event analysis of pesticide loads to surface waters.
J. WPCF 59(5): 284-288.
Harris, B. L., R. L. Holloway, and H. D. Pennington. 1992. Pesticide and
Fertilizer Use in the Upper Trinity River Watershed. In Jensen, R. 1992. How
Healthy is the Upper Trinity River? Biological and Water Quality Perspectives.
Proceedings of a Symposium Hosted by Texas Christian University, Oct. 1991. 274
pp.
Holloway, R. L., B. L. Boyd, J. D. Price, and F. Mazac, Jr. 1990. Estimates of
Agriculture Chemical use in Texas reported by hydrologic unit. Texas Agricultural
Extension Service. 213 pp.
Horn, C. R., and W. M. Grayman. 1993. Water-quality modeling with EPA Reach File
System. J. of Water Resources Planning and Management. 119(2): 262-274.
Humenik, F. J., S. Ainsworth, R. R. Carriker, J. A. Cotruvo, G. J. Hoffman, L.
W. Libby, M. Mlay, R. Parry, R. F. Poltak, M. B. Reeves, M. B. St. Clair, J.
Thorne, and M. Yates. 1992. Water Quality: Agriculture' Role. Council for Agr.
Sci. and Tech. Task Force Report No. 120. Ames, IA. 103 pp.
Irwin, R. J. 1988. Impacts of Toxic Chemicals on Trinity River Fish and Wildlife.
Fish and Wildlife, US Dept. of the Interior. 82 pp.
Jensen, R. 1992. How Healthy is the Upper Trinity River? Biological and Water
Quality Perspectives. Proceedings of a Symposium Hosted by Texas Christian
University, Oct. 1991. 274 pp.
Jones, C. A. 1993. Agricultural and Natural Resources Policy Analysis, CNRIT
Newsl Center for Natural Resources Information Technology, TX. Agr. Exp. Sta.,
Temple, TX 2(1): 1-16.
Lee, M. T., and M. L. Terstriep. 1991. Application of GIS for water quality
modeling in agricultural and urban watershed. Hydr. Engrg., Proc., 1991 Nat.
Conf. ASCE, New York, NY. 961-965.
Montgomery, J. H. 1993. Agrochemical Desk Reference. Lewis Publishers, Chelsea,
Michigan. 625 pp.
Pait, A. S., A. E. DeSouza, D. R. G. Farrow. 1992. Agricultural Pesticide Use
in Coastal Areas: A National Summary. National Oceanic and Atmospheric
Administration, U. S. Dept. of Commerce, 112 pp.
Royal Society of Chemistry. 1991. The Agrochemical Handbook 3rd edition. The
Royal Society of Chemistry: Information Services. Thomas Graham House, Science
Park, Milton Road, Cambridge CB4 4WF England.
Savage, E. P., T. J. Keefe, and H. W. Wheeler. 1980. National Household Pesticide
Usage Study, 1976-1977. US EPA, Office of Pesticide Programs, EPA 540/9-80-002.
126 pp.
44
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Shelton, B. 1992. New Water Quality and Environmental Initiatives for the U. S.
Army Corps of Engineers in the Upper Trinity River Basin. In Jensen, R. 1992. How
Healthy is the Upper Trinity River? Biological and Water Quality Perspectives.
Proceedings of a Symposium Hosted by Texas Christian University, Oct. 1991. 274
pp.
Srinivasan, R., and B. A. Engel. 1992. GIS: A Tool for Sensitivity Analysis of
Nonpoint Source Pollution Models. Amer. Soc. of Agr. Engineers. Paper no. 92-
7062. An ASAE presentation.
Texas Department of Water Resources. 1982. Trinity-San Jacinto Estuary: An
Analysis of Bay Segment Boundaries, Physical Characteristics, and Nutrient
Processes. 77 pp.
Texas Water Commission. 1990. The State of Texas Water Quality Inventory. 10th
Edition. 643 pp.
USDA - ES. 1990. National Pesticide/Soils Database and User Decision Support
System for Risk Assessment of Ground and Surface Water Contamination, NPURG 9.1
User's Manual. Cooperative Extension Service, University of Maine. 19 pp.
United States Department of Agriculture. 1992. Agricultural Chemical Usage 1990,
Fruit and Nut Crops Summary. Ag Ch 1(92). 167 pp.
United States Department of Agriculture. 1993a. Agricultural Chemical Usage
1992, Field Crops Summary. Ag Ch 1(93). 118 pp.
United States Department of Agriculture. 1993b. Agricultural Chemical Usage
1992, Vegetables Summary. Ag Ch 1(93). 270 pp.
Vieux, B. E., and S. Needham. 1993. Nonpoint-Pollution model sensitivity to Grid-
Cell Size. J. of Water Resources Planning and Management 119(2): 141-157.
Wauchope, R. D., R. M. Buttler, A. G. Hornsby, P. W. M. Augustijn-Beckers, and
J. P Burt. 1992. The SCS/ARS/CES pesticide properties database for environmental
decision-making. Rev. Environ. Contam. Toxicol. 123: 1-164.
Whitmore, R. W., J. E. Kelly, and P. L. Reading. 1992. National Home and Garden
Pesticide Use Survey, Final Report, Executive Summary. RTI/5100/17-03F. Research
Triangle Institute, Research Triangle Park, North Carolina.
45
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Appendix A. DEFINITIONS.
ACRE TREATMENT: "acre treats" as utilized by Holloway et al. (1990) is a sum of
the acres treated such that when a specific acre was treated twice it was counted
twice. Consequently, if the same ten acre field was treated ten times the acre
treats would be one hundred. Acre treats in the study by Holloway et al. (1990)
were referred to as acre treatments in this report.
ACRE TREATS: (see acre treatments).
ACTIVE INGREDIENT: the chemical in a formulated pesticide product that causes
death of the insect. Pesticides are formulated with a certain percentage of
active ingredient. Estimates of pesticide use usually correct for the percentage
of active ingredient to make comparisons comparable from one study to another.
EPA REGION VI: a portion of the United States consisting of Arkansas, Louisiana,
New Mexico, Oklahoma, and Texas.
HALF LIFE (t 1/2): the time it takes for half of the amount of substance in a
living system (e.g., body, soil, water) to be broken down and/or eliminated by
natural processes. The shorter the t 1/2, the faster the chemical is broken
down/eliminated (EXTOXNET 1989). Field half life (days) is the time required for
one half of the pesticide to breakdown in the soil (Wauchope et al. 1992).
LC^: lethal concentration fifty; that concentration of chemical in air or water
that kills half (50%) of the experimental animals exposed to it for a set time
period (EXTOXNET 1989). LC50 is the lethal concentration of pesticide (ug/1)
that kills 50% of the fish tested in 96 hours (EXTOXNET 1989).
LDgg (ORAL, DERMAL or RESPIRATORY): lethal dose fifty; the dose of a poisonous
substance (given by mouth, absorbed through the skin, or inhaled, respectively)
that causes death in half (50%) of the test population. A value used to show the
toxicity of a chemical expressed in milligrams (mg) of toxic chemical per
kilogram (kg) of body weight: mg/kg. LD50s do not indicate the dosages necessary
to produce poisoning symptoms, disease conditions, or other nonlethal effects on
health. A high LD50 can not be interpreted as an indication of safety or lack
of having the capacity to poison (EXTOXNET 1989). The LD50 is the lethal dose
(ug/1) that kills 50% of rats in 96 hours (EXTOXNET 1989).
OCTANOL/WATER PARTITION COEFFICIENT (K„J: an indicator of soil adsorption and
bioaccumulation, calculated by using measurements of pesticide distribution
between octanol and water. High octanol water coefficient compounds are likely
to bioaccumulate. (EXTOXNET 1989). The octanol/water partition coefficient is
an indicator of soil adsorption and bioaccumulation that is calculated using
measurements of pesticide distribution between octanol and water. Pesticides
with high octanol/water coefficients are likely to bioaccumulate (EXTOXNET 1989).
PESTICIDE: a toxic substance that is used to control a pest. Generally a single
active ingredient rather than a trade name product.
PPM: parts per million; the number of parts of toxicant per million parts of the
substance in question; may include the percentage of residue in soil, water or
whole animals, for example (EXTOXNET 1989).
SOLUBILITY: the concentration of a substance that dissolves in a given solvent
HIGH SOLUBILITY: readily dissolves. LOW SOLUBILITY: does not dissolve very well
(EXTOXNET 1989). Water solubility is the concentration of a pesticide that
dissolves in water (ppm) (EXTOXNET 1989).
46
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Appendix B. Acre treatments of agricultural pesticides used in 1990 in
the Trinity River Basin (TRB) by hydrologic unit (HU) and by crop.*
+ + + +
| HU NUMBER | CROP | PESTICIDE | ACRE TREATMENTS
+ + + +
12030101
12030101
12030101
CORN
CORN
CORN
ATRAZINE
CHLORPYRIFOS
TRIFLURALIN
33
51
33
12030101
12030101
12030101
12030101
12030101
12030101
12030101
12030101
12030101
12030101
GRAPES
GRAPES
GRAPES
GRAPES
GRAPES
GRAPES
GRAPES
GRAPES
GRAPES
GRAPES
CAPTAN
CARBARYL
COPPER HYDROXIDE
GLYPHOSATE
MALATHION
MANCOZEB
ORYZALIN
PHOSMET
SETHOXYDIM
TRIADIMEFON
6
6
6
6
6
6
20
6
20
12
12030101
12030101
12030101
HAY (GRASS)
HAY
HAY
2,4-D
ATRAZINE
PICL0RAM+ 2,4-D
166
634
4772
12030101
12030101
12030101
12030101
12030101
12030101
12030101
MELONS
MELONS
MELONS
MELONS
MELONS
MELONS
MELONS
AZINPHOS-METHYL
CHLOROTHALONIL
ESFENVALERATE
METHYL PARATHION
SETHOXYDIM
TRIADIMEFON
TRIFLURALIN
1000
1400
100
400
1200
500
800
12030101
12030101
12030101
OATS
OATS
OATS
2,4-D
CHLORSULFURON
DICAMBA
20
154
20
12030101
12030101
12030101
12030101
12030101
12030101
12030101
PEANUTS
PEANUTS
PEANUTS
PEANUTS
PEANUTS
PEANUTS
PEANUTS
2,4-DB
BENTAZON
CHLOROTHALONIL
CHLORPYRIFOS
METOLACHLOR
SETHOXYDIM
TRIFLURALIN
511
409
1637
68
511
13
322
12030101
12030101
12030101
12030101
12030101
12030101
12030101
12030101
12030101
12030101
12030101
PECANS
PECANS
PECANS
PECANS
PECANS
PECANS
PECANS
PECANS
PECANS
PECANS
PECANS
BENOMYL
CARBARYL
CHLORPYRIFOS
CYPERMETHRIN
DISULFOTON
GLYPHOSATE
PETROLEUM OIL
ORYZALIN
PHOSALONE
PROPICONAZOLE
TRIPHENYLTIN HYDROXIDE
34
48
48
5
0
19
2
0
48
17
34
12030101
12030101
12030101
VEGETABLES
VEGETABLES
VEGETABLES
CARBARYL
CHLOROTHALONIL
SETHOXYDIM
350
175
175
47
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Appendix B. Acre treatments of agricultural pesticides used in 1990 in
the Trinity River Basin (TRB) by hydrologic unit (HU) and by crop.* (continued)
+ + + +
| HU NUMBER | CROP | PESTICIDE | ACRE TREATMENTS
+ + + +
12030101
WHEAT
2,4-D
5996
12030101
WHEAT
CHLORSULFURON
10689
12030101
WHEAT
DICAMBA
50
12030101
WHEAT
DIMETHOATE
5785
12030101
WHEAT
MANCOZEB
615
12030101
WHEAT
METHYL PARATHION
3529
12030101
WHEAT
METSULFURON METHYL
6283
12030101
WHEAT
PARATHION
481
12030101
WHEAT
PROPICONAZOLE
296
12030101
WHEAT
TRIADIMEFON
615
12030102
CORN
ATRAZINE
307
12030102
CORN
CARBOFURAN
142
12030102
CORN
TERBUFOS
307
12030102
GRAPES
CAPTAN
14
12030102
GRAPES
CARBARYL
14
12030102
GRAPES
COPPER HYDROXIDE
14
12030102
GRAPES
GLYPHOSATE
14
12030102
GRAPES
MALATHION
14
12030102
GRAPES
MANCOZEB
14
12030102
GRAPES
PHOSMET
14
12030102
HAY (GRASS)
2,4-D
1166
12030102
HAY
ATRAZINE
466
12030102
HAY
PICLORAM + 2,4-D
3500
12030102
MELONS
BENOMYL
150
12030102
MELONS
BENSULIDE
100
12030102
MELONS
CARBARYL
300
12030102
MELONS
CHLOROTHALONIL
150
12030102
MELONS
DIAZINON
150
12030102
MELONS
DISULFOTON
100
12030102
MELONS
FENVALERATE
150
12030102
MELONS
MALATHION
150
12030102
MELONS
METALAXYL
150
12030102
MELONS
MEVINPHOS
150
12030102
OATS
2,4-D
80
12030102
OATS
CHLORSULFURON
433
12030102
OATS
DICAMBA
80
12030102
OATS
DIMETHOATE
86
12030102
PEANUTS
2,4-DB
513
12030102
PEANUTS
BENTAZON
53
12030102
PEANUTS
CARBARYL
574
12030102
PEANUTS
CHLOROTHALONIL
766
12030102
PEANUTS
DIAZINON
344
12030102
PEANUTS
FLUAZIFOP-P-BUTYL
27
12030102
PEANUTS
GLYPHOSATE
153
12030102
PEANUTS
MANCOZEB
383
12030102
PEANUTS
METOLACHLOR
15
12030102
PEANUTS
SULPHUR
383
12030102
PEANUTS
TRIFLURALIN
1341
12030102
PEANUTS
VERNOLATE
76
48
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Appendix B. Acre treatments of agricultural pesticides used in 1990 in
the Trinity River Basin (TRB) by hydrologic unit (HU) and by crop.* (continued)
+ + + +
| HU NUMBER | CROP | PESTICIDE | ACRE TREATMENTS
+ + + +
12030102
PECANS
AZINPHOS-METHYL
40
12030102
PECANS
BENOMYL
240
12030102
PECANS
CARBARYL
380
12030102
PECANS
CHLORPYRIFOS
340
12030102
PECANS
CYPERMETHRIN
40
12030102
PECANS
DISULFOTON
1
12030102
PECANS
GLYPHOSATE
133
12030102
PECANS
PETROLEUM OIL
20
12030102
PECANS
ORYZALIN
6
12030102
PECANS
PHOSALONE
380
12030102
PECANS
PROPICONAZOLE
120
12030102
PECANS
TRIPHENYLTIN HYDROXIDE
260
12030102
WHEAT
2,4-D
214
12030102
WHEAT
BROMOXYNIL
66
12030102
WHEAT
CHLORSULFURON
9421
12030102
WHEAT
DICAMBA
444
12030102
WHEAT
DICLOFOP-METHYL
33
12030102
WHEAT
DIMETHOATE
6848
12030102
WHEAT
DISULFOTON
633
12030102
WHEAT
MANCOZEB
92
12030102
WHEAT
METHYL PARATHION
128
12030102
WHEAT
METSULFURON METHYL
155
12030102
WHEAT
PROPICONAZOLE
163
12030102
WHEAT
TRIADIMEFON
700
12030103
BARLEY
CHLORSULFURON
1500
12030103
BARLEY
PARATHION
1500
12030103
CORN
ALACHLOR
840
12030103
CORN
ATRAZINE
2230
12030103
CORN
BROMOXYNIL
60
12030103
CORN
CARBOFURAN
120
12030103
CORN
CYANAZINE
80
12030103
CORN
DICAMBA
40
12030103
CORN
METOLACHLOR
220
12030103
CORN
PENDIMETHALIN
160
12030103
CORN
TERBUFOS
800
49
-------�
Appendix B. Acre treatments of agricultural pesticides used in 1990 in
the Trinity River Basin (TRB) by hydrologic unit (HU) and by crop.* (continued)
HU NUMBER
CROP
PESTICIDE | ACRE TREATMENTS
12030103
COTTON
ACEPHATE
1192
12030103
COTTON
ALDICARB
1192
12030103
COTTON
ARSENIC ACID
3179
12030103
COTTON
CYANAZINE
994
12030103
COTTON
CYHALOTHRIN
119
12030103
COTTON
DICROTOPHOS
6156
12030103
COTTON
DIMETHOATE
596
12030103
COTTON
DISULFOTON
3113
12030103
COTTON
DIURON
953
12030103
COTTON
ENDOTHALL
397
12030103
COTTON
ETHEPHON
794
12030103
COTTON
FENVALERATE
796
12030103
COTTON
FLUAZIFOP-P-BUTYL
79
12030103
COTTON
FLUOMETURON
379
12030103
COTTON
MEPIQUAT-CHLORIDE
79
12030103
COTTON
METHYL PARATHION
500
12030103
COTTON
PARAQUAT
397
12030103
COTTON
PENDIMETHALIN
3665
12030103
COTTON
PROMETRYN
830
12030103
COTTON
SETHOXYDIM
1589
12030103
COTTON
THIDIAZURON
79
12030103
COTTON
THIODICARB
1589
12030103
COTTON
TRIFLURALIN
3665
12030103
GRAPES
BENOMYL
9
12030103
GRAPES
GLYPHOSATE
15
12030103
GRAPES
ORYZALIN
5
12030103
GRAPES
SETHOXYDIM
20
12030103
GRAPES
TRIADIMEFON
3
12030103
HAY (GRASS)
2,4-D
2000
12030103
HAY
CARBARYL
1500
12030103
HAY
PICLORAM + 2,4-D
2916
12030103
MELONS
CHLOROTHALONIL
200
12030103
MELONS
ESFENVALERATE
50
12030103
MELONS
METHYL PARATHION
200
12030103
MELONS
SETHOXYDIM
100
12030103
MELONS
TRIFLURALIN
100
12030103
OATS
BROMOXYNIL
329
12030103
OATS
CHLORSULFURON
1094
12030103
OATS
DICAMBA
392
12030103
OATS
PARATHION
400
50
-------�
Appendix B. Acre treatments of agricultural pesticides used in 1990 in
the Trinity River Basin (TRB) by hydrologic unit (HU) and by crop.* (continued)
+ +- + +
| HU NUMBER | CROP | PESTICIDE | ACRE TREATMENTS
+— + + +
12030103
PEANUTS
2,4-DB
1900
12030103
PEANUTS
ACEPHATE
300
12030103
PEANUTS
ACIFLUORFEN
. 186
12030103
PEANUTS
ALACHLOR
2050
12030103
PEANUTS
ALDICARB
775
12030103
PEANUTS
BENTAZON
350
12030103
PEANUTS
CARBOFURAN
200
12030103
PEANUTS
CHLOROTHALONIL
300
12030103
PEANUTS
DISULFOTON
225
12030103
PEANUTS
METOLACHLOR
750
12030103
PEANUTS
QUINTOZENE
1000
12030103
PEANUTS
PENDIMETHALIN
2100
12030103
PEANUTS
PROPICONAZOLE
325
12030103
PEANUTS
SETHOXYDIM
725
12030103
PEANUTS
TRIFLURALIN
250
12030103
VEGETABLES
CARBARYL
130
12030103
VEGETABLES
CHLOROTHALONIL
65
12030103
VEGETABLES
SETHOXYDIM
65
12030103
WHEAT
2,4-D
3537
12030103
WHEAT
BROMOXYNIL
3690
12030103
WHEAT
CHLORSULFURON
39123
12030103
WHEAT
DICAMBA
2666
12030103
WHEAT
DICLOFOP METHYL
1023
12030103
WHEAT
DIMETHOATE
20431
12030103
WHEAT
DISULFOTON
17436
12030103
WHEAT
MANCOZEB
560
12030103
WHEAT
METHYL PARATHION
11469
12030103
WHEAT
METSULFURON METHYL
11545
12030103
WHEAT
PARATHION
2857
12030103
WHEAT
PROPICONAZOLE
4479
12030103
WHEAT
TRIADIMEFON
6786
12030104
CORN
ATRAZINE
282
12030104
CORN
CHLORPYRIFOS
49
12030104
CORN
TRIFLURALIN
32
51
-------�
Appendix B. Acre treatments of agricultural pesticides used in 1990 in
the Trinity River Basin (TRB) by hydrologic unit (HU) and by crop.* (continued)
+ + + +
| HU NUMBER | CROP | PESTICIDE | ACRE TREATMENTS
+ + + +
12030104
COTTON
ACEPHATE
307
12030104
COTTON
ALDICARB
307
12030104
COTTON
ARSENIC ACID
820
12030104
COTTON
CYANAZINE
205
12030104
COTTON
CYHALiOTHRI N
30
12030104
COTTON
DICROTOPHOS
656
12030104
COTTON
DIMETHOATE
153
12030104
COTTON
DIURON
246
12030104
COTTON
ENDOTHALL
102
12030104
COTTON
ETHEPHON
205
12030104
COTTON
FENVALERATE
153
12030104
COTTON
FLUAZIFOP-P-BUTYL
20
12030104
COTTON
FLUOMETURON
20
12030104
COTTON
MEPIQUAT-CHLORIDE
20
12030104
COTTON
PARAQUAT
102
12030104
COTTON
PENDIMETHALIN
410
12030104
COTTON
SETHOXYDIM
410
12030104
COTTON
THIDIAZURON
20
12030104
COTTON
THIODICARB
410
12030104
COTTON
TRIFLURALIN
410
12030104
GRAPES
ORYZALIN
5
12030104
GRAPES
SETHOXYDIM
5
12030104
GRAPES
TRIADIMEFON
3
+ + + +
j12030104 |HAY (GRASS) |PICLORAM + 2,4-D | 2000
+ + + +
12030104
12030104
12030104
12030104
12030104
MELONS
MELONS
MELONS
MELONS
MELONS
CHLOROTHALONIL
ESFENVALERATE
METHYL PARATHION
SETHOXYDIM
TRIFLURALIN
1100
275
1100
550
550
12030104
12030104
12030104
12030104
OATS
OATS
OATS
OATS
BROMOXYNIL
CHLORSULFURON
DICAMBA
DIMETHOATE
20
295
20
13
12030104
12030104
12030104
PEANUTS
PEANUTS
PEANUTS
CHLORPYRIFOS
SETHOXYDIM
TRIFLURALIN
272
54
600
12030104
12030104
12030104
VEGETABLES
VEGETABLES
VEGETABLES
CARBARYL
CHLOROTHALONIL
SETHOXYDIM
200
100
100
52
-------�
Appendix B. Acre treatments of agricultural pesticides used in 1990 in
the Trinity River Basin (TRB) by hydrologic unit (HU) and by crop.* (continued)
HU NUMBER
CROP
PESTICIDE | ACRE TREATMENTS
12030104
WHEAT
2,4-D
498
12030104
WHEAT
BROMOXYNIL
822
12030104
WHEAT
CHLORSULFURON
8219
12030104
WHEAT
DICAMBA
658
12030104
WHEAT
DICLOFOP METHYL
164
12030104
WHEAT
DIMETHOATE
2600
12030104
WHEAT
DISULFOTON
4112
12030104
WHEAT
MANCOZEB
589
12030104
WHEAT
METHYL PARATHION
3439
12030104
WHEAT
METSULFURON METHYL
1994
12030104
WHEAT
PROPICONAZOLE
944
12030104
WHEAT
TRIADIMEFON
1916
12030105
CORN
ALACHLOR
1784
12030105
CORN
ATRAZINE
10947
12030105
CORN
CARBOFURAN
1710
12030105
CORN
CHLORPYRIFOS
2925
12030105
CORN
CYANAZINE
208
12030105
CORN
DICAMBA
1253
12030105
CORN
METHOMYL
1044
12030105
CORN
METOLACHLOR + ATRAZINE
3625
12030105
CORN
TERBUFOS
10013
12030105
COTTON
ACEPHATE
6168
12030105
COTTON
ALDICARB
4089
12030105
COTTON
ARSENIC ACID
14735
12030105
COTTON
AZINPHOS-METHYL
4769
12030105
COTTON
BIFENTHRIN
1558
12030105
COTTON
BUTIFOS
3764
12030105
COTTON
CYFLUTHRIN
519
12030105
COTTON
CYHALOTHRIN
1427
12030105
COTTON
CYPERMETHRIN
1554
12030105
COTTON
DICROTOPHOS
12724
12030105
COTTON
DIMETHOATE
37
12030105
COTTON
DISULFOTON
1165
12030105
COTTON
DIURON
388
12030105
COTTON
ESFENVALERATE
2205
12030105
COTTON
ETHEPHON
2078
12030105
COTTON
FLUAZIFOP-P-BUTYL
6362
12030105
COTTON
GLYPHOSATE
3764
12030105
COTTON
METHOMYL
2690
12030105
COTTON
METHYL PARATHION
10014
12030105
COTTON
METOLACHLOR
1750
12030105
COTTON
MONOCROTOPHOS
388
12030105
COTTON
MONOSODIUM METHANEARSONATE
1233
12030105
COTTON
OXYDEMETON-METHYL
2598
12030105
COTTON
PARAQUAT
5682
12030105
COTTON
PENDIMETHALIN
1233
12030105
COTTON
PHOSPHAMIDON
2078
12030105
COTTON
PROFENOFOS
5196
12030105
COTTON
PROMETRYN
11558
12030105
COTTON
PROPARGITE
2370
12030105
COTTON
SETHOXYDIM
1039
12030105
COTTON
THIDIAZURON
3764
12030105
COTTON
THIODICARB
13603
12030105
COTTON
TRIFLURALIN
9475
53
-------�
Appendix B. Acre treatments of agricultural pesticides used in 1990 in
the Trinity River Basin (TRB) by hydrologic unit (HU) and by crop.* (continued)
HU NUMBER | CROP j PESTICIDE | ACRE TREATMENTS
12030105
12030105
HAY (GRASS)
HAY
2,4-D
PICLORAM + 2,4-D
3382
3316
12030105 |OATS |METHYL PARATHION | 60
12030105
12030105
12030105
12030105
PECANS
PECANS
PECANS
PECANS
CARBARYL
DIMETHOATE
PHOSALONE
TRIPHENYLTIN HYDROXIDE
500
500
500
50
12030105
12030105
12030105
12030105
12030105
12030105
12030105
12030105
12030105
12030105
12030105
12030105
WHEAT
WHEAT
WHEAT
WHEAT
WHEAT
WHEAT
WHEAT
WHEAT
WHEAT
WHEAT
WHEAT
WHEAT
2,4-D
BROMOXYNIL
CHLORSULFURON
DICLOFOP-METHYL
DIMETHOATE
DISULFOTON
PARATHION
MANCOZEB
METHYL PARATHION
METSULFURON METHYL
PROPICONAZOLE
TRIADIMEFON
1874
666
12762
333
12305
8890
947
666
315
1333
2123
1983
12030106
12030106
12030106
12030106
12030106
12030106
12030106
12030106
12030106
CORN
CORN
CORN
CORN
CORN
CORN
CORN
CORN
CORN
ALACHLOR
ATRAZINE
BROMOXYNIL
CARBOFURAN
CYANAZINE
DICAMBA
METOLACHLOR
PENDIMETHALIN
TERBUFOS
7400
4243
225
656
300
150
600
600
7443
12030106
12030106
12030106
12030106
12030106
12030106
12030106
COTTON
COTTON
COTTON
COTTON
COTTON
COTTON
COTTON
DICROTOPHOS
DIMETHOATE
DISULFOTON
METHYL PARATHION
PENDIMETHALIN
PROMETRYN
TRIFLURALIN
2264
33
2264
43
1509
603
1509
12030106
12030106
12030106
12030106
HAY (GRASS)
HAY
HAY
HAY
2,4-D
ATRAZINE
CARBARYL
PICLORAM + 2,4-D
2050
211
1500
1361
12030106
12030106
12030106
OATS
OATS
OATS
BROMOXYNIL
CHLORSULFURON
DICAMBA
250
375
312
12030106
12030106
12030106
12030106
SOYBEANS
SOYBEANS
SOYBEANS
SOYBEANS
FLUAZIFOP-P-BUTYL
METOLACHLOR
SETHOXYDIM
TRIFLURALIN
35
17
11
23
54
-------�
Appendix B. Acre treatments of agricultural pesticides used in 1990 in
the Trinity River Basin (TRB) by hydrologic unit (HU) and by crop.* (continued)
HU NUMBER
CROP
PESTICIDE
ACRE TREATMENTS
12030106
WHEAT
2,4-D
8476
12030106
WHEAT
BROMOXYNIL
142
12030106
WHEAT
CHLORSULFURON
11145
12030106
WHEAT
DICLOFOP METHYL
235
12030106
WHEAT
DIMETHOATE
11194
12030106
WHEAT
DISULFOTON
15385
12030106
WHEAT
GLYPHOSATE
38
12030106
WHEAT
MALATHION
576
12030106
WHEAT
MANCOZEB
598
12030106
WHEAT
METHYL PARATHION
6208
12030106
WHEAT
METSULFURON METHYL
2395
12030106
WHEAT
PROP1CONAZOLE
829
12030106
WHEAT
TRIADIMEFON
956
12030107
CORN
ATRAZINE
62
12030107
CORN
CARBARYL
62
12030107
COTTON
DIMETHOATE
1000
12030107
COTTON
DSMA
550
12030107
COTTON
DISULFOTON
600
12030107
COTTON
DIURON
500
12030107
COTTON
FENVALERATE
300
12030107
COTTON
FLUAZIFOP-P-BUTYL
300
12030107
COTTON
GLYPHOSATE
250
12030107
COTTON
METHYL PARATHION
400
12030107
COTTON
PENDIMETHALIN
850
12030107
HAY (GRASS)
2,4-D + DICAMBA
3888
12030107
HAY
CARBARYL
1555
12030107
HAY
PICLORAM + 2,4-D
5833
12030107
HAY
TRICLOPYR: 2,4-D 1/2
388
12030107
MELONS
CHLORTHAL DIMETHYL
28
12030107
MELONS
BENOMYL
25
12030107
MELONS
CHLOROTHALONIL
42
12030107
MELONS
DIAZINON
50
12030107
MELONS
ENDOSULFAN
100
12030107
MELONS
OXYDEMETON-METHYL
100
12030107
MELONS
TRIFLURALIN
85
12030107
OATS
CARBARYL
245
12030107
OATS
CHLORSULFURON
52
12030107
OATS
PARATHION
104
12030107
WHEAT
CARBARYL
333
12030107
WHEAT
CHLORSULFURON
2082
12030107
WHEAT
DIMETHOATE
2236
12030107
WHEAT
DISULFOTON
200
12030107
WHEAT
MANCOZEB
33
12030107
WHEAT
METSULFURON METHYL
967
12030108
CORN
ALACHLOR
180
12030108
CORN
ATRAZINE
3010
12030108
CORN
CARBOFURAN
1807
12030108
CORN
METOLACHLOR + ATRAZINE
14776
12030108
CORN
TERBUFOS
4218
55
-------�
Appendix B. Acre treatments of agricultural pesticides used in 1990 in
the Trinity River Basin (TRB) by hydrologic unit (HU) and by crop.* (continued)
HU NUMBER
CROP
PESTICIDE | ACRE TREATMENTS
12030108
COTTON
ACEPHATE
9482
12030108
COTTON
ALDICARB
5681
12030108
COTTON
ARSENIC ACID
22357
12030108
COTTON
AZINPHOS-METHYL
4371
12030108
COTTON
BUTIFOS
12070
12030108
COTTON
CARBOFURAN
1727
12030108
COTTON
CYHALOTHRIN
1028
12030108
COTTON
CYPERMETHRIN
4805
12030108
COTTON
DICROTOPHOS
8244
12030108
COTTON
DIMETHOATE
3110
12030108
COTTON
DISULFOTON
3085
12030108
COTTON
DIURON
1028
12030108
COTTON
ESFENVALERATE
5159
12030108
COTTON
PARATHION
13131
12030108
COTTON
FENVALERATE
2073
12030108
COTTON
FLUAZIFOP-P-BUTYL
5850
12030108
COTTON
GLYPHOSATE
9996
12030108
COTTON
METHOMYL
4371
12030108
COTTON
METHYL PARATHION
4371
12030108
COTTON
METOLACHLOR
2571
12030108
COTTON
MONOCROTOPHOS
1028
12030108
COTTON
MONOSODIUM METHANEARSONATE
514
12030108
COTTON
PARAQUAT
1285
12030108
COTTON
PENDIMETHALIN
514
12030108
COTTON
PROMETRYN
16216
12030108
COTTON
PROPARGITE
2844
12030108
COTTON
THIDIAZURON
3776
12030108
COTTON
THIODICARB
4371
12030108
COTTON
TRIFLURALIN
19640
12030108
HAY (GRASS)
2,4-D
10318
12030108
HAY
CARBARYL
533
12030108
HAY
DICAMBA
2750
12030108
HAY
PICLORAM + 2,4-D
7500
12030108
OATS
CHLORSULFURON
592
12030108
OATS
PARATHION
592
12030108
OATS
METHYL PARATHION
180
12030108
PECANS
BENOMYL
21
12030108
PECANS
CARBARYL
1021
12030108
PECANS
CHLORPYRIFOS
21
12030108
PECANS
DIMETHOATE
1000
12030108
PECANS
MALATHION
21
12030108
PECANS
PETROLEUM OIL
21
12030108
PECANS
PHOSALONE
1000
12030108
PECANS
PROPICONAZOLE
14
12030108
PECANS
TRIPHENYLTIN HYDROXIDE
121
56
-------�
Appendix B. Acre treatments of agricultural pesticides used in 1990 in
the Trinity River Basin (TRB) by hydrologic unit (HU) and by crop.* (continued)
HU NUMBER
CROP
PESTICIDE | ACRE TREATMENTS
12030108
WHEAT
2,4*-D
4954
12030108
WHEAT
BROMOXYNIL
222
12030108
WHEAT
CHLORSULFURON
12877
12030108
WHEAT
DICLOFOP-METHYL
111
12030108
WHEAT
DIMETHOATE
13679
12030108
WHEAT
DISULFOTON
4638
12030108
WHEAT
PARATHION
14570
12030108
WHEAT
MANCOZEB
389
12030108
WHEAT
METHYL PARATHION
1263
12030108
WHEAT
METSULFURON METHYL
444
12030108
WHEAT
PARATHION
291
12030108
WHEAT
PROPICONAZOLE
10872
12030108
WHEAT
TRIADIMEFON
7334
12030109
CORN
ALACHLOR
1579
12030109
CORN
ATRAZINE
13613
12030109
CORN
CARBOFURAN
1462
12030109
CORN
CHLORPYRIFOS
4255
12030109
CORN
CYANAZINE
303
12030109
CORN
DICAMBA
1823
12030109
CORN
METHOMYL
1519
12030109
CORN
METOLACHLOR + ATRAZINE
5823
12030109
CORN
TERBUFOS
11458
12030109
COTTON
ACEPHATE
6530
12030109
COTTON
ALDICARB
4260
12030109
COTTON
ARSENIC ACID
15942
12030109
COTTON
AZINPHOS-METHYL
5060
12030109
COTTON
BIFENTHRIN
1558
12030109
COTTON
BUTIFOS
3969
12030109
COTTON
CYFLUTHRIN
519
12030109
COTTON
CYHALOTHRIN
1496
12030109
COTTON
CYPERMETHRIN
1828
12030109
COTTON
DICROTOPHOS
13389
12030109
COTTON
DISULFOTON
1371
12030109
COTTON
DIURON
457
12030109
COTTON
ESFENVALERATE
2410
12030109
COTTON
ETHEPHON
2078
12030109
COTTON
FLUAZIFOP-P-BUTYL
6568
12030109
COTTON
GLYPHOSATE
3969
12030109
COTTON
METHOMYL
2982
12030109
COTTON
METHYL PARATHION
10638
12030109
COTTON
METOLACHLOR
2081
12030109
COTTON
MONOCROTOPHOS
457
12030109
COTTON
MONOSODIUM METHANEARSONATE
1267
12030109
COTTON
OXYDEMETON-METHYL
2598
12030109
COTTON
PARAQUAT
5768
12030109
COTTON
PENDIMETHALIN
1267
12030109
COTTON
PHOSPHAMIDON
2078
12030109
COTTON
PROFENOFOS
5196
12030109
COTTON
PROMETRYN
11764
12030109
COTTON
PROPARGITE
2421
12030109
COTTON
SETHOXYDIM
1039
12030109
COTTON
THIDIAZURON
3969
12030109
COTTON
THIODICARB
13894
12030109
COTTON
TRIFLURALIN
10420
57
-------�
Appendix B. Acre treatments of agricultural pesticides used in 1990 in
the Trinity River Basin (TRB) by hydrologic unit (HU) and by crop.* (continued)
HU NUMBER
CROP
PESTICIDE | ACRE TREATMENTS
12030109
HAY (GRASS)
2,4-D
3399
12030109
HAY
DICAMBA
2000
12030109
HAY
PICLORAM + 2,4-D
3333
12030109
OATS
CHLORSULFURON
88
12030109
OATS
DIMETHOATE
88
12030109
OATS
METHYL PARATHION
60
12030109
PEANUTS
ALACHLOR
81
12030109
PEANUTS
TRIFLURALIN
218
12030109
PECANS
CARBARYL
500
12030109
PECANS
DIMETHOATE
500
12030109
PECANS
PHOSALONE
500
12030109
PECANS
TRIPHENYLTIN HYDROXIDE
50
12030109
WHEAT
2,4-D
1474
12030109
WHEAT
BROMOXYNIL
1333
12030109
WHEAT
CHLORSULFURON
37213
12030109
WHEAT
DICAMBA
3673
12030109
WHEAT
DICLOFOP-METHYL
666
12030109
WHEAT
DIMETHOATE
36375
12030109
WHEAT
DISULFOTON
13472
12030109
WHEAT
PARATHION
4036
12030109
WHEAT
MANCOZEB
1333
12030109
WHEAT
METHYL PARATHION
973
12030109
WHEAT
METSULFURON METHYL
2667
12030109
WHEAT
PROPICONAZOLE
5845
12030109
WHEAT
TRIADIMEFON
5439
12030201
COTTON
ACEPHATE
28
12030201
COTTON
ALDICARB
28
12030201
COTTON
ARSENIC ACID
97
12030201
COTTON
AZINPHOS-METHYL
48
12030201
COTTON
BUTIFOS
34
12030201
COTTON
CYHALOTHRIN
11
12030201
COTTON
CYPERMETHRIN
45
12030201
COTTON
DICROTOPHOS
68
12030201
COTTON
DISULFOTON
34
12030201
COTTON
DIURON
11
12030201
COTTON
ESFENVALERATE
34
12030201
COTTON
FLUAZIFOP-P-BUTYL
34
12030201
COTTON
GLYPHOSATE
34
12030201
COTTON
METHOMYL
48
12030201
COTTON
METHYL PARATHION
48
12030201
COTTON
METOLACHLOR
28
12030201
COTTON
MONOCROTOPHOS
11
12030201
COTTON
MONOSODIUM METHANEARSONATE
5
12030201
COTTON
PARAQUAT
14
12030201
COTTON
PENDIMETHALIN
5
12030201
COTTON
PROMETRYN
34
12030201
COTTON
PROPARGITE
8
12030201
COTTON
THIDIAZURON
34
12030201
COTTON
THIODICARB
48
12030201
COTTON
TRIFLURALIN
80
58
-------�
Appendix B. Acre treatments of agricultural pesticides used in 1990 in
the Trinity River Basin (TRB) by hydrologic unit (HU) and by crop.* (continued)
+ + ; + +
| HU NUMBER | CROP | PESTICIDE | ACRE TREATMENTS
+ + + + '
12030201
12030201
12030201
12030201
HAY (GRASS)
HAY
HAY
HAY
2,4-D + DICAMBA
CARBARYL
MALATHION
PICLORAM + 2,4-D
34936
5337
6666
5365
12030201
12030201
12030201
MELONS
MELONS
MELONS
CAPTAN
CHLOROTHALONIL
MALATHION
7
7
7
12030201
12030201
12030201
12030201
12030201
12030201
12030201
12030201
12030201
PECANS
PECANS
PECANS
PECANS
PECANS
PECANS
PECANS
PECANS
PECANS
AZINPHOS-METHYL
BENOMYL
CARBARYL
CHLORPYRIFOS
MALATHION
PETROLEUM OIL
PHOSALONE
PROPICONAZOLE
TRIPHENYLTIN HYDROXIDE
25
46
21
21
21
46
25
14
21
12030201
12030201
12030201
12030201
12030201
12030201
12030201
12030201
WHEAT
WHEAT
WHEAT
WHEAT
WHEAT
WHEAT
WHEAT
WHEAT
2,4-D
CHLORSULFURON
DIMETHOATE
DISULFOTON
PARATHION
METHYL PARATHION
PROPICONAZOLE
TRIADIMEFON
52
126
52
42
63
21
52
21
12030202
12030202
12030202
12030202
CORN
CORN
CORN
CORN
CARBARYL
DIAZINON
PENDIMETHALIN
PERMETHRIN
28
39
33
33
12030202
12030202
12030202
COTTON
COTTON
COTTON
DIMETHOATE
SULPROFOS
TRIFLURALIN
900
900
900
12030202
12030202
12030202
12030202
HAY (GRASS)
HAY
HAY
HAY
2,4-D + DICAMBA
CARBARYL
CLOPYRALID
PICLORAM + 2,4-D
8480
443
160
5209
12030202
12030202
OATS
OATS
MALATHION 1 50
MANCOZEB 45
59
-------�
Appendix B. Acre treatments of agricultural pesticides used in 1990 in
the Trinity River Basin (TRB) by hydrologic unit (HU) and by crop.* (continued)
| HU NUMBER
CROP
PESTICIDE | ACRE TREATMENTS
12030202
RICE
ACIFLUORFEN
19
12030202
RICE
BENOMYL
19
12030202
RICE
BENTAZON
48
12030202
RICE
CARBARYL
97
12030202
RICE
CARBOFURAN
78
12030202
RICE
FURORE
9
12030202
RICE
IPRODIONE
29
12030202
RICE
METHYL PARATHION
117
12030202
RICE
MOLINATE
146
12030202
RICE
PENDIMETHALIN
9
12030202
RICE
PROPANIL
292
12030202
RICE
PROPICONAZOLE
48
12030202
RICE
THIOBENCARB
48
12030202
SOYBEANS
ACIFLUORFEN
21
12030202
SOYBEANS
ALACHLOR
10
12030202
SOYBEANS
BENTAZON
21
12030202
SOYBEANS
CARBARYL
10
12030202
SOYBEANS
FLUAZIFOP-P-BUTYL
10
12030202
SOYBEANS
FOMESAFEN
5
12030202
SOYBEANS
IMAZAQUIN
10
12030202
SOYBEANS
LINURON
5
12030202
SOYBEANS
MALATHION
75
12030202
SOYBEANS
METHYL PARATHION
32
12030202
SOYBEANS
METOLACHLOR
32
12030202
SOYBEANS
METRIBUZIN
10
12030202
SOYBEANS
PERMETHRIN
32
12030202
SOYBEANS
SETHOXYDIM
16
12030202
VEGETABLES
BENOMYL
39
12030202
VEGETABLES
CARBARYL
10
12030202
VEGETABLES
CHLOROTHALONIL
26
12030202
VEGETABLES
DIAZINON
68
12030202
VEGETABLES
GLYPHOSATE
63
12030202
VEGETABLES
MALATHION
52
12030202
WHEAT
CARBARYL
50
12030202
WHEAT
DIMETHOATE
75
12030202
WHEAT
TRIADIMEFON
50
12030203
CORN
CARBOFURAN
104
12030203
HAY (GRASS)
2,4-D
227
112030203
HAY
PICLORAM + 2,4-D
76
60
-------�
Appendix B. Acre treatments of agricultural pesticides used in 1990 in
the Trinity River Basin (TRB) by hydrologic unit (HU) and by crop.* (continued)
j HU NUMBER | CROP | PESTICIDE | ACRE TREATMENTS
+ + + +
12030203
RICE
ACIFLUORFEN
1416
12030203
RICE
BENOMYL
1417
12030203
RICE
BENTAZON
3543
12030203
RICE
CARBARYL
7087
12030203
RICE
CARBOFURAN
5237
12030203
RICE
FURORE
708
12030203
RICE
IPRODIONE
2125
12030203
RICE
METHYL PARATHION
8504
12030203
RICE
MOLINATE + PROPANIL
11091
12030203
RICE
PENDIMETHALIN
492
12030203
RICE
PROPANIL
19098
12030203
RICE
PROPICONAZOLE
3543
12030203
RICE
THIOBENCARB
3326
12030203
SOYBEANS
ACIFLUORFEN
4832
12030203
SOYBEANS
ALACHLOR + TRIFLURALIN
3415
12030203
SOYBEANS
BENTAZON
4832
12030203
SOYBEANS
CARBARYL
2416
12030203
SOYBEANS
FENVALERATE
799
12030203
SOYBEANS
FLUAZIFOP-P-BUTYL
2416
12030203
SOYBEANS
FOMESAFEN
1208
12030203
SOYBEANS
IMAZAQUIN
2416
12030203
SOYBEANS
LINURON
1208
+ + + +
* Data taken from Holloway et al. 1990. Melons and watermelons have been
combined. Parathion and ethyl parathion estimates have been combined.
61
-------�
Appendix C. Application rates of agricultural pesticides reported from the
Trinity River Basin in Texas by crop.*
h + +
MEAN
CROP
PESTICIDE
APPLICATION RATE
(LBS./ACRE)
BARLEY
CHLOROSULFURON
0.25
BARLEY
PARATHION
0.50
CORN
ALACHLOR
2.37
CORN
ATRAZINE
1.92
CORN
BROMOXYNIL
0.17
CORN
CARBARYL
1.37
CORN
CARBOFURAN
1.55
CORN
CHLORPYRIFOS
1.39
CORN
CYANAZINE
2.67
CORN
DIAZINON
0.36
CORN
DICAMBA
0.36
CORN
METHOMYL
0.36
CORN
METOLACHLOR
2.15
CORN
METOLACHLOR + ATRAZINE
1.09
CORN
PENDIMETHALIN
0.58
CORN
PERMETHRIN
0.11
CORN
TERBUFOS
1.79
CORN
TRIFLURALIN
0.33
COTTON
ACEPHATE
0.62
COTTON
ALDICARB
1.65
COTTON
ARSENIC ACID
1.13
COTTON
AZINPHOS-METHYL
0.07
COTTON
BIFENTHRIN
0.07
COTTON
BUTIFOS
1.05
COTTON
CARBARYL
1.11
COTTON
CARBOFURAN
1.00
COTTON
CYANAZINE
2.08
COTTON
CYFLUTHRIN
0.04
COTTON
CYHALOTHRIN
0.03
COTTON
CYPERMETHRIN
0.06
COTTON
DICROTOPHOS
0.30
COTTON
DIMETHOATE
0.19
COTTON
DSMA
2.25
COTTON
DISULFOTON
0.59
COTTON
DIURON
1.50
COTTON
ENDOTHALL
0.07
COTTON
ESFENVALERATE
0.03
COTTON
ETHEPHON
1.25
COTTON
FENVALERATE
0.13
COTTON
FLUAZIFOP-P-BUTYL
1.89
COTTON
FLUOMETURON
1.50
COTTON
GLYPHOSATE
0.88
COTTON
LAMDACYHALOTHRIN*
0.03
COTTON
MEPIQUAT-CHLORIDE
0.03
COTTON
METHOMYL
0.42
COTTON
METHYL PARATHION
0.81
COTTON
METOLACHLOR
1.75
COTTON
MONOCROTOPHOS
0.62
COTTON
MONOSODIUM METHANEARSONATE
0.84
COTTON
OXAMYL*
0.49
62
-------�
Appendix C. Application rates of agricultural pesticides reported from the
Trinity River Basin in Texas by crop.* (continued)
CROP
PESTICIDE
MEAN
APPLICATION RATE
(LBS./ACRE)
COTTON
OXYDEMETON-METHYL
0.19
COTTON
PARATHION
0.63
COTTON
PARAQUAT
0.14
COTTON
PENDIMETHALIN
1.00
COTTON
PHOSPHAMIDON
0.16
COTTON
PROFENOFOS
0.75
COTTON
PROMETRYN
1.77
COTTON
PROPARGITE
1.23
COTTON
SETHOXYDIM
2.09
COTTON
SODIUM CHLORATE*
3.67
COTTON
SULPROFOS
0.88
COTTON
THIDIAZURON
0.15
COTTON
THIODICARB
0.40
COTTON
TRALOMETHRIN*
0.02
COTTON
TRIFLURALIN
0.75
GRAPES
BENOMYL
0.75
GRAPES
CAPTAN
1.50
GRAPES
CARBARYL
1.50
GRAPES
COPPER HYDROXIDE
0.76
GRAPES
GLYPHOSATE
0.88
GRAPES
MALATHION
1.87
GRAPES
MANCOZEB
2.16
GRAPES
ORYZALIN
4.00
GRAPES
PHOSMET
1.25
GRAPES
SETHOXYDIM
0.38
GRAPES
TRIADIMEFON
0.10
HAY (GRASS)
2,4-D
2.37
HAY
2,4-D + DICAMBA
1.11
HAY
ATRAZINE
1.50
HAY
CARBARYL
1.19
HAY
CLOPYRALID
0.99
HAY
DICAMBA
0.38
HAY
MALATHION
0.87
HAY
METHYL PARATHION
0.69
HAY
PICLORAM + 2,4-D
NOT AVAILABLE
HAY
TRICLOPYR: 2,4-D 1/2
2.30
MELONS
CHLORTHAL DIMETHYL
7.50
MELONS
AZINPHOS-METHYL
0.44
MELONS
BENOMYL
0.19
MELONS
BENSULIDE
5.50
MELONS
CAPTAN
NOT AVAILABLE
MELONS
CARBARYL
0.77
MELONS
CHLOROTHALONIL
1.69
MELONS
DIAZINON
0.79
MELONS
DISULFOTON
2.00
MELONS
ENDOSUFAN
0.76
MELONS
ESFENVALERATE
0.04
MELONS
FENVALERATE
0.15
63
-------�
Appendix C. Application rates of agricultural pesticides reported from the
Trinity River Basin in Texas by crop.* (continued)
MEAN
CROP
PESTICIDE
APPLICATION RATE
(LBS./ACRE)
MELONS
MALATHION
0.87
MELONS
METALAXYL
1.50
MELONS
METHYL PARATHION
0.44
MELONS
MEVINPHOS
0.19
MELONS
OXYDEMETON-METHYL
0.40
MELONS
SETHOXYDIM
0.24
MELONS
TRIADIMEFON
0.10
MELONS
TRIFLURALIN
0.75
OATS
2,4-D
0.83
OATS
BROMOXYNIL
0.44
OATS
CARBARYL
0.41
OATS
CHLOROSULFURON
0.01
OATS
DICAMBA
0.13
OATS
DIMETHOATE
0.31
OATS
MALATHION
0.02
OATS
MANCOZEB
1.60
OATS
METHYL PARATHION
0.62
OATS
PARATHION
0.63
PEANUTS
2,4-D
0.36
PEANUTS
2,4-DB
0.23
PEANUTS
QUINTOZENE
6.38
PEANUTS
ACEPHATE
0.63
PEANUTS
ACIFLUORFEN
0.25
PEANUTS
ALACHLOR
3.50
PEANUTS
ALDICARB
2.03
PEANUTS
BENTAZON
0.75
PEANUTS
CARBARYL
1.25
PEANUTS
CARBOFURAN
2.75
PEANUTS
CHLOROTHALONIL
0.94
PEANUTS
CHLORPYRIFOS
1.13
PEANUTS
DIAZINON
2.00
PEANUTS
DISULFOTON
1.50
PEANUTS
FLUAZIFOP-P-BUTYL
0.17
PEANUTS
GLYPHOSATE
0.88
PEANUTS
MANCOZEB
1.21
PEANUTS
METOLACHLOR
1.63
PEANUTS
PENDIMETHALIN
0.63
PEANUTS
PROPICONAZOLE
0.83
PEANUTS
SETHOXYDIM
0.23
PEANUTS
SULPHUR
1.47
PEANUTS
TRIFLURALIN
0.47
PEANUTS
VERNOLATE
2.34
PECANS
AZINPHOS-METHYL
0.47
PECANS
BENOMYL
2.88
PECANS
CARBARYL
1.75
PECANS
CHLORPYRIFOS
2.00
PECANS
CYPERMETHRIN
0.08
PECANS
DIMETHOATE
0.33
64
-------�
Appendix C. Application rates of agricultural pesticides reported from the
Trinity River Basin in Texas by crop.* (continued)
MEAN
CROP
PESTICIDE
APPLICATION RATE
(LBS./ACRE)
PECANS
DISULFOTON
2.25
PECANS
GLYPHOSATE
3.04
PECANS
MALATHION
5.08
PECANS
OIL
3.00
PECANS
ORYZALIN
4.00
PECANS
PHOSALONE
1.50
PECANS
PROPINCONZOLE
0.14
PECANS
TRIPHENYLTIN HYDROXIDE
0.27
RICE
ACIFLUORFEN
0.56
RICE
BENOMYL
0.75
RICE
BENTAZON
0.87
RICE
CARBARYL
1.25
RICE
CARBOFURAN
0.53
RICE
FURORE
NOT AVAILABLE
RICE
IPRODIONE
0.50
RICE
METHYL PARATHION
0.50
RICE
MOLINATE
3.50
RICE
MOLINATE + PROPANIL
2.63
RICE
PENDIMETHALIN
1.00
RICE
PROPANIL
5.00
RICE
PROPINCONAZOLE
0.22
RICE
THIOBENCARB
4.00
SOYBEANS
ACIFLUORFEN
0.43
SOYBEANS
ALACHLOR
1.50
SOYBEANS
ALACHLOR + TRIFLURALIN
0.53
SOYBEANS
BENTAZON
0.75
SOYBEANS
CARBARYL
1.33
SOYBEANS
FENVALERATE
0.13
SOYBEANS
FLUAZIFOP-P-BUTYL
1.89
SOYBEANS
FOMESAFEN
2.25
SOYBEANS
IMAZAQUIN
0.10
SOYBEANS
LINURON
1.25
SOYBEANS
MALATHION
0.58
SOYBEANS
METHYL PARATHION
0.63
SOYBEANS
METOLACHLOR
2.05
SOYBEANS
METRIBUZIN
0.67
SOYBEANS
PERMETHRIN
0.09
SOYBEANS
SETHOXYDIM
0.23
SOYBEANS
TRIFLURALIN
1.75
VEGETABLES
BENOMYL
2.81
VEGETABLES
CARBARYL
1.37
VEGETABLES
CHLOROTHALONIL
1.33
VEGETABLES
DIAZINON
2.00
VEGETABLES
GLYPHOSATE
0.37
VEGETABLES
MALATHION
1.09
VEGETABLES
SETHOXYDIM
0.07
jWHEAT j 2,4-D j 0.36 j
65
-------�
Appendix C. Application rates of agricultural pesticides reported from the
Trinity River Basin in Texas by crop.* (continued)
CROP
PESTICIDE
MEAN
APPLICATION RATE
(LBS./ACRE)
WHEAT
BROMOXYNIL
0.37
WHEAT
CARBARYL
1.30
WHEAT
CHLOROSULFURON
0.01
WHEAT
DICAMBA
0.13
WHEAT
DICLOFOP-METHYL
0.31
WHEAT
DIMETHOATE
0.12
WHEAT
DISULFOTON
1.01
WHEAT
GLYPHOSATE
0.11
WHEAT
MALATHION
0.39
WHEAT
MANCOZEB
1.60
WHEAT
METHYL PARATHION
0.50
WHEAT
METSULFURON METHYL
0.00
WHEAT
PARATHION
0.63
WHEAT
PROPICANOZOLE
0.11
WHEAT
TRIADIMEFON
0.16
+ + + +
* Application rates were taken from product labels in Crop
Protection Chemicals (1991). Median rates were reported when
a range of application rates was on the label. Means were
reported when multiple labels were available. Application
rates with an asterisk were taken from USDA (1992, 1993a, b).
All rates are rounded to two decimals places.
66
-------�
Appendix D. Annual total agricultural pesticide applied in the Trinity River
Basin by hydrologic unit (HU) and pesticide in 1990.*
TOTAL APPLIED
HU NUMBER PESTICIDE (lbs.)
12030101 2,4-D ACID 2558
12030101 2,4-DB 117
12030101 ATRAZINE 1014
12030101 AZINPHOS-METHYL 440
12030101 BENOMYL 97
12030101 BENTAZON 306
12030101 CAPTAN 9
12030101 CARBARYL 574
12030101 CHLOROTHALONIL 4137
12030101 CHLORPYRIFOS 243
12030101 CHLORSULFURON 125
12030101 COPPER HYDROXIDE 4
12030101 CYPERMETHRIN 0
12030101 DICAMBA 9
12030101 DIMETHOATE 673
12030101 DISULFOTON 0
12030101 ESFENVALERATE 3
12030101 GLYPHOSATE 63
12030101 MALATHION 11
12030101 MANCOZEB 996
12030101 METHYL PARATHION 1940
12030101 METOLACHLOR 830
12030101 METSULFURON-METHYL 23
12030101 ORYZALIN 80
12030101 PARATHION 300
12030101 PETROLEUM OIL 6
12030101 PHOSALONE 72
12030101 PHOSMET 7
12030101 PROPICONAZOLE 35
12030101 SETHOXYDIM 310
12030101 TRIADIMEFON 144
12030101 TRIFLURALIN 762
12030101 TRIPHENYLTIN 9
12030102 2,4-D ACID 2900
12030102 2,4-DB 117
12030102 ATRAZINE 1288
12030102 AZINPHOS-METHYL 18
12030102 BENOMYL 718
12030102 BENSULIDE 550
12030102 BENTAZON 39
12030102 BROMOXYNIL 24
12030102 CAPTAN 21
12030102 CARBARYL 1633
12030102 CARBOFURAN 220
12030102 CHLOROTHALONIL 973
12030102 CHLORPYRIFOS 680
12030102 CHLORSULFURON 115
12030102 COPPER HYDROXIDE 10
12030102 CYPERMETHRIN 3
12030102 DIAZINON 806
12030102 DICAMBA 68
12030102 DICLOFOP-METHYL 10
67
-------�
Appendix D. Annual total agricultural pesticide applied in the Trinity River
Basin by hydrologic unit (HU) and pesticide in 1990.* (continued)
TOTAL APPLIED
HU NUMBER
PESTICIDE
(lbs.)
12030102
DIMETHOATE
824
12030102
DISULFOTON
838
12030102
FENVALERATE
22
12030102
FLUAZIFOP-P-BUTYL
4
12030102
GLYPHOSATE
550
12030102
MALATHION
156
12030102
MANCOZEB
638
12030102
METALAXYL
225
12030102
METHYL PARATHION
64
12030102
METOLACHLOR
24
12030102
METSULFURON-METHYL
0
12030102
MEVINPHOS
28
12030102
ORYZALIN
24
12030102
PETROLEUM OIL
60
12030102
PHOSALONE
570
12030102
PHOSMET
17
12030102
PROPICONAZOLE
35
12030102
SULPHUR
563
12030102
TERBUFOS
550
12030102
TRIADIMEFON
109
12030102
TRIFLURALIN
630
12030102
TRIPHENYLTIN
70
12030102
VERNOLATE
177
12030103
2,4-D ACID
5998
12030103
2,4-DB
437
12030103
ACEPHATE
926
12030103
ACIFLUORFEN
46
12030103
ALACHLOR
9161
12030103
ALDICARB
3536
12030103
ARSENIC ACID
3576
12030103
ATRAZINE
4281
12030103
BENOMYL
6
12030103
BENTAZON
262
12030103
BROMOXYNIL
1537
12030103
CARBARYL
1963
12030103
CARBOFURAN
736
12030103
CHLOROTHALONIL
706
12030103
CHLORSULFURON
845
12030103
CYANAZINE
2276
12030103
CYHALOTHRIN
2
12030103
DICAMBA
411
12030103
DICLOFOP-METHYL
321
12030103
DICROTOPHOS
1846
12030103
DIMETHOATE
2491
12030103
DISULFOTON
19709
12030103
DIURON
1429
12030103
ENDOTHALL
27
12030103
ESFENVALERATE
1
12030103
ETHEPHON
992
12030103
FENVALERATE
99
12030103
FLUAZIFOP-P-BUTYL
149
12030103
FLUOMETURON
568
68
-------�
Appendix D. Annual total agricultural pesticide applied in the Trinity River
Basin by hydrologic unit (HU) and pesticide in 1990.* (continued)
TOTAL APPLIED
HU NUMBER
PESTICIDE
(lbs.)
12030103
GLYPHOSATE
13
12030103
MANCOZEB
896
12030103
MEPIQUAT
1
12030103
METHYL PARATHION
6228
12030103
METOLACHLOR
1691
12030103
METSULFURON-METHYL
43
12030103
ORYZALIN
20
12030103
PARAQUAT
56
12030103
PARATHION
2785
12030103
QUINTOZENE
6375
12030103
PENDIMETHALIN
5070
12030103
PROMETRYN
1473
12030103
PROPICONAZOLE
773
12030103
SETHOXYDIM
3524
12030103
TERBUFOS
1434
12030103
THIDIAZURON
11
12030103
THIODICARB
635
12030103
TRIADIMEFON
1060
12030103
TRIFLURALIN
2941
12030104
2,4-D ACID
178
12030104
ACEPHATE
190
12030104
ALDICARB
506
12030104
ARSENIC ACID
922
12030104
ATRAZINE
541
12030104
BROMOXYNIL
317
12030104
CARBARYL
275
12030104
CHLOROTHALONIL
1992
12030104
CHLORPYRIFOS
373
12030104
CHLORSULFURON
99
12030104
CYANAZINE
425
12030104
CYHALOTHRIN
0
12030104
DICAMBA
88
12030104
DICLOFOP-METHYL
51
12030104
DICROTOPHOS
196
12030104
DIMETHOATE
335
12030104
DISULFOTON
4132
12030104
DIURON
369
12030104
ENDOTHALL
7
12030104
ESFENVALERATE
10
12030104
ETHEPHON
256
12030104
FENVALERATE
19
12030104
FLUAZIFOP-P-BUTYL
37
12030104
FLUOMETURON
30
12030104
MANCOZEB
942
12030104
MEPIQUAT
0
12030104
METHYL PARATHION
2203
12030104
METSULFURON-METHYL
7
12030104
ORYZALIN
20
12030104
PARAQUAT
14
12030104
PENDIMETHALIN
410
12030104
PROPICONAZOLE
106
12030104
SETHOXYDIM
1011
69
-------�
Appendix D. Annual total agricultural pesticide applied in the Trinity River
Basin by hydrologic unit (HU) and pesticide in 1990.* (continued)
TOTAL APPLIED
HU NUMBER
PESTICIDE
(lbs.)
12030104
THIDIAZURON
3
12030104
THIODICARB
164
12030104
TRIADIMEFON
299
12030104
TRIFLURALIN
1012
12030105
2,4-D ACID
8670
12030105
ACEPHATE
3824
12030105
ALACHLOR
4219
12030105
ALDICARB
6746
12030105
ARSENIC ACID
16576
12030105
ATRAZINE
21018
12030105
AZINPHOS-METHYL
327
12030105
BIFENTHRIN
101
12030105
BROMOXYNIL
249
12030105
BUTIFOS
3971
12030105
CARBARYL
875
12030105
CARBOFURAN
2659
12030105
CHLORPYRIFOS
4051
12030105
CHLORSULFURON
146
12030105
CYANAZINE
555
12030105
CYFLUTHRIN
19
12030105
CYHALOTHRIN
35
12030105
CYPERMETHRIN
97
12030105
DICAMBA
451
12030105
DICLOFOP-METHYL
104
12030105
DICROTOPHOS
3817
12030105
DIMETHOATE
1605
12030105
DISULFOTON
9626
12030105
DIURON
582
12030105
ESFENVALERATE
72
12030105
ETHEPHON
2597
12030105
FLUAZIFOP-P-BUTYL
12024
12030105
GLYPHOSATE
3293
12030105
MANCOZEB
1065
12030105
METHOMYL
1500
12030105
METHYL PARATHION
8331
12030105
METOLACHLOR
3062
12030105
METOLACHLOR + ATRAZINE
3969
12030105
METSULFURON-METHYL
5
12030105
MONOCROTOPHOS
240
12030105
MONOSODIUM METHANEARSONATE 1035
12030105
OXYDEMETON-METHYL
487
12030105
PARAQUAT
802
12030105
PARATHION
591
12030105
PENDIMETHALIN
1233
12030105
PHOSALONE
750
12030105
PHOSPHAMIDON
324
12030105
PROFENOFOS
3877
12030105
PROMETRYN
20515
12030105
PROPARGITE
2903
12030105
PROPICONAZOLE
238
12030105
SETHOXYDIM
2174
12030105
TERBUFOS
17948
70
-------�
Appendix D. Annual total agricultural pesticide applied in the Trinity River
Basin by hydrologic unit (HU) and pesticide in 1990.* (continued)
TOTAL APPLIED
HU NUMBER
PESTICIDE
(lbs.)
12030105
THIDIAZURON
564
12030105
THIODICARB
5441
12030105
TRIADIMEFON
309
12030105
TRIFLURALIN
7106
12030105
TRIPHENYLTIN
13
12030106
2,4-D ACID
7886
12030106
ALACHLOR
17501
12030106
ATRAZINE
8463
12030106
BROMOXYNIL
200
12030106
CARBARYL
1785
12030106
CARBOFURAN
1020
12030106
CHLORSULFURON
134
12030106
CYANAZINE
800
12030106
DICAMBA
94
12030106
DICLOFOP-METHYL
73
12030106
DICROTOPHOS
679
12030106
DIMETHOATE
1310
12030106
DISULFOTON
16806
12030106
FLUAZIFOP-P-BUTYL
66
12030106
GLYPHOSATE
3
12030106
MALATHION
227
12030106
MANCOZEB
956
12030106
METHYL PARATHION
3138
12030106
METOLACHLOR
1323
12030106
METSULFURON-METHYL
9
12030106
PENDIMETHALIN
1857
12030106
PROMETRYN
1070
12030106
PROPICONAZOLE
93
12030106
SETHOXYDIM
2
12030106
TERBUFOS
13341
12030106
TRIADIMEFON
149
12030106
TRIFLURALIN
1172
12030107
2,4-D + DICAMBA
4329
12030107
ATRAZINE
119
12030107
BENOMYL
4
12030107
CARBARYL
2469
12030107
CHLOROTHALONIL
70
12030107
CHLORSULFURON
24
12030107
CHLORTHAL DIMETHYL
210
12030107
DIAZINON
39
12030107
DIMETHOATE
447
12030107
DISULFOTON
557
12030107
DIURON
750
12030107
DSMA
1237
12030107
ENDOSULFAN
76
12030107
FENVALERATE
37
12030107
FLUAZIFOP-P-BUTYL
567
12030107
GLYPHOSATE
218
12030107
MANCOZEB
52
12030107
METHYL PARATHION
325
12030107
METSULFURON-METHYL
3
71
-------�
Appendix D. Annual total agricultural pesticide applied in the Trinity River
Basin by hydrologic unit (HU) and pesticide in 1990.* (continued)
TOTAL APPLIED
HU NUMBER
PESTICIDE
(
lbs.)
12030107
OXYDEMETON-METHYL
40
12030107
PARATHION
65
12030107
PENDIMETHALIN
850
12030107
TRICLOPYR + 2,4-D
892
12030107
TRIFLURALIN
63
12030108
2,4-D ACID
26178
12030108
ACEPHATE
5878
12030108
ALACHLOR
425
12030108
ALDICARB
9373
12030108
ARSENIC ACID
25151
12030108
ATRAZINE
5779
12030108
AZINPHOS-METHYL
300
12030108
BENOMYL
60
12030108
BROMOXYNIL
83
12030108
BUTIFOS
12733
12030108
CARBARYL
2421
12030108
CARBOFURAN
4536
12030108
CHLORPYRIFOS
42
12030108
CHLORSULFURON
157
12030108
CYHALOTHRIN
25
12030108
CYPERMETHRIN
300
12030108
DICAMBA
1031
12030108
DICLOFOP-METHYL
34
12030108
DICROTOPHOS
2473
12030108
DIMETHOATE
2506
12030108
DISULFOTON
6492
12030108
DIURON
1542
12030108
ESFENVALERATE
170
12030108
FENVALERATE
259
12030108
FLUAZIFOP-P-BUTYL
11056
12030108
GLYPHOSATE
8746
12030108
MALATHION
106
12030108
MANCOZEB
622
12030108
METHOMYL
1827
12030108
METHYL PARATHION
4294
12030108
METOLACHLOR
4499
12030108
METOLACHLOR + ATRAZINE
16179
12030108
METSULFURON-METHYL
1
12030108
MONOCROTOPHOS
637
12030108
MONOSODIUM METHANEARSONATE
431
12030108
PARAQUAT
181
12030108
PARATHION
17865
12030108
PENDIMETHALIN
514
12030108
PETROLEUM OIL
63
12030108
PHOSALONE
1500
12030108
PROMETRYN
28783
12030108
PROPAR6ITE
3483
12030108
PROPICONAZOLE
1225
12030108
TERBUFOS
7560
12030108
THIDIAZURON
566
12030108
THIODICARB
1748
72
-------�
Appendix D. Annual total agricultural pesticide applied in the Trinity River
Basin by hydrologic unit (HU) and pesticide in 1990.* (continued)
TOTAL APPLIED
HU NUMBER
PESTICIDE
(lbs.)
12030108
TRIADIMEFON
1145
12030108
TRIFLURALIN
14730
12030108
TRIPHENYLTIN
32
12030109
2,4-D ACID
8567
12030109
ACEPHATE
4048
12030109
ALACHLOR
4017
12030109
ALDICARB
7029
12030109
ARSENIC ACID
17934
12030109
ATRAZINE
26136
12030109
AZINPHOS-METHYL
347
12030109
BIFENTHRIN
101
12030109
BROMOXYNIL
499
12030109
BUTIFOS
4187
12030109
CARBARYL
875
12030109
CARBOFURAN
2273
12030109
CHLORPYRIFOS
5893
12030109
CHLORSULFURON
429
12030109
CYANAZINE
808
12030109
CYFLUTHRIN
19
12030109
CYHALOTHRIN
37
12030109
CYPERMETHRIN
114
12030109
DICAMBA
1883
12030109
DICLOFOP-METHYL
209
12030109
DICROTOPHOS
4016
12030109
DIMETHOATE
4429
12030109
DISULFOTON
14353
12030109
DIURON
685
12030109
ESFENVALERATE
79
12030109
ETHEPHON
2597
12030109
FLUAZIFOP-P-BUTYL
12413
12030109
GLYPHOSATE
3472
12030109
MANCOZEB
2132
12030109
METHOMYL
1793
12030109
METHYL PARATHION
9167
12030109
METOLACHLOR
3641
12030109
METOLACHLOR + ATRAZINE
6376
12030109
METSULFURON-METHYL
10
12030109
MONOCROTOPHOS
283
12030109
MONOSODIUM METHANEARSONATE 1064
12030109
OXYDEMETON-METHYL
487
12030109
PARAQUAT
814
12030109
PARATHION
2522
12030109
PENDIMETHALIN
1267
12030109
PHOSALONE
750
12030109
PHOS PHAMIDON
324
12030109
PROFENOFOS
3877
12030109
PROMETRYN
20881
12030109
PROPARGITE
2965
12030109
PROPICONAZOLE
657
12030109
SETHOXYDIM
2174
12030109
TERBUFOS
20538
12030109
THIDIAZURON
595
73
-------�
Appendix D. Annual total agricultural pesticide applied in the Trinity River
Basin by hydrologic unit (HU) and pesticide in 1990.* (continued)
TOTAL APPLIED
HU NUMBER
PESTICIDE
(lbs.)
12030109
THIODICARB
5557
12030109
TRIADIMEFON
849
12030109
TRIFLURALIN
7917
12030109
TRIPHENYLTIN
13
12030201
2,4-D ACID
18
12030201
2,4-D + DICAMBA
38901
12030201
ACEPHATE
17
12030201
ALDICARB
46
12030201
ARSENIC ACID
109
12030201
AZINPHOS-METHYL
15
12030201
BENOMYL
132
12030201
BUTIFOS
35
12030201
CARBARYL
6387
12030201
CHLOROTHALONIL
11
12030201
CHLORPYRIFOS
42
12030201
CHLORSULFURON
1
12030201
CYHALOTHRIN
0
12030201
CYPERMETHRIN
2
12030201
DICROTOPHOS
20
12030201
DIMETHOATE
6
12030201
DISULFOTON
62
12030201
DIURON
16
12030201
ESFENVALERATE
1
12030201
FLUAZIFOP-P-BUTYL
64
12030201
GLYPHOSATE
29
12030201
MALATHION
5932
12030201
METHOMYL
20
12030201
METHYL PARATHION
49
12030201
METOLACHLOR
49
12030201
MONOCROTOPHOS
6
12030201
MONOSODIUM METHANEARSONATE 4
12030201
PARAQUAT
1
12030201
PARATHION
39
12030201
PENDIMETHALIN
5
12030201
PETROLEUM OIL
138
12030201
PHOSALONE
37
12030201
PROMETRYN
60
12030201
PROPARGITE
9
12030201
PROPICONAZOLE
7
12030201
THIDIAZURON
5
12030201
THIODICARB
19
12030201
TRIADIMEFON
3
12030201
TRIFLURALIN
60
12030201
TRIPHENYLTIN
5
12030202
2,4-D + DICAMBA
9442
12030202
ACIFLUORFEN
19
12030202
ALACHLOR
15
12030202
BENOMYL
123
12030202
BENTAZON
57
12030202
CARBARYL
778
12030202
CARBOFURAN
40
74
-------�
Appendix D. Annual total agricultural pesticide applied in the Trinity River
Basin by hydrologic unit (HU) and pesticide in 1990.* (continued)
TOTAL APPLIED
HU NUMBER
PESTICIDE
(lbs.)
12030202
CHLOROTHALONIL
34
12030202
CLOPYRALID
159
12030202
DIAZINON
150
12030202
DIMETHOATE
177
12030202
FLUAZIFOP-P-BUTYL
18
12030202
FOMESAFEN
11
12030202
GLYPHOSATE
23
12030202
IMAZAQUIN ACID
1
12030202
IPRODIONE
14
12030202
LINURON
6
12030202
MALATHION
101
12030202
MANCOZEB
72
12030202
METHYL PARATHION
78
12030202
METOLACHLOR
65
12030202
METRIBUZIN
6
12030202
MOLINATE
511
12030202
PENDIMETHALIN
28
12030202
PERMETHRIN
6
12030202
PROPANIL
1460
12030202
PROPICONAZOLE
10
12030202
SETHOXYDIM
3
12030202
SULPROFOS
787
12030202
THIOBENCARB
192
12030202
TRIADIMEFON
7
12030202
TRIFLURALIN
675
12030203
2,4-D ACID
536
12030203
ACIFLUORFEN
2910
12030203
ALACHLOR + TRIFLURALI
1792
12030203
BENOMYL
1062
12030203
BENTAZON
6724
12030203
CARBARYL
12076
12030203
CARBOFURAN
2911
12030203
FENVALERATE
103
12030203
FLUAZIFOP-P-BUTYL
4566
12030203
FOMESAFEN
2718
12030203
IMAZAQUIN ACID
253
12030203
IPRODIONE
1062
12030203
LINURON
1510
12030203
METHYL PARATHION
4252
12030203
MOLINATE + PROPANIL
29113
12030203
PENDIMETHALIN
492
12030203
PROPANIL
95490
12030203
PROPICONAZOLE
793
12030203
THIOBENCARB
13304
* Values were calculated from acre treatment estimates from
Holloway et al. (1990) and mean application rates from product labels.
Picloram and 2,4-D combinations for brush control in pastures were not
included because rates were dependent on brush intensity rather than
per acre. Numbers were truncated to nearest pound.
75
-------�
Appendix E. LCS0 for fish of agricultural pesticides used in EPA Region VI
(Pesticides were ranked from most toxic to least toxic).*
LC50 ^C50
PESTICIDE
50
fua/1. 96 hr.)
PESTICIDE
50
fua/1. 96 hr.)
ETHALFLURALIN
0.01
PROPANIL
3700.00
LAMBDACYHALOTHRIN
0.21
2,4-DB
4000.00
FENOXAPROP ETHYL
0.31
MANCOZEB
4000.00
BIFENTHRIN
0.35
ALACHLOR
4300.00
ENDOSULFAN
1.20
GLYPHOSATE
5000.00
CYFLUTHRIN
1.50
DICROTOPHOS
6300.00
QUIZALOFOP ETHYL
1.63
DIURON
7400.00
LINDANE
1.70
THIOPHANATE-METHYL
7800.00
PERMETHRIN
1.80
METOLACHLOR
8000.00
CYPERMETHRIN
2.00
VERNOLATE
8400.00
METHAZOLE
3.14
MALATHION
8650.00
DIETHATYL ETHYL
3.34
QUINTOZENE
9000.00
CYCLOATE
3.85
NICOSULFURON
10000.00
TRALOMETHRIN
4.30
OXYDEMETON-METHYL
10000.00
OXAMYL
5.60
PROMETRYN
10000.00
ETRIDIAZOLE
7.50
SULPROFOS
11000.00
ZIRAM
7.50
BROMOXYNIL
13800.00
CHLORPYRIFOS
10.00
PARAQUAT
15000.00
FLUAZIFOP-P-BUTYL
11.30
CYANAZINE
16000.00
TERBUFOS
13.30
LINURON
16000.00
PARATHION
20.00
TRIADIMEFON
17400.00
FURORE
27.40
CARBARYL
21300.00
NAPROPAMIDE
30.00
MONOCROTOPHOS
23000.00
SETHOXYDIM
30.00
MOLINATE
29000.00
SULFUR
30.00
PICLORAM SALT
29200.00
CLOMAZONE
34.00
PROPICONAZOLE
30000.00
PROPARGITE
35.00
DICAMBA SALT
40000.00
HEVINPHOS
41.00
METHAMIDOPHOS
46000.00
CHLOROTHALONIL
62.00
ACEPHATE
50000.00
BENEFIN
64.00
ACIFLUORFEN
62000.00
PHOSMET
70.00
ARSENIC ACID
64000.00
DISULFOTON
70.30
BROMACIL
71000.00
CYROMAZINE
87.10
METRIBUZIN
80000.00
DIAZINON
90.00
FLUOMETURON
80300.00
AZINPHOS-METHYL
100.00
CHLORIMURON ETHYL
100000.00
CAPTAN
141.00
METALAXYL
100000.00
CARBOFURAN
150.00
CLOPYRALID
125400.00
TRIFLURALIN
160.00
TRICLOPYR
148000.00
COPPER HYDROXIDE
180.00
BENSULFURON
150000.00
PROFENOFOS
300.00
METSULFURON-METHYL
150000.00
NAPTALAM
354.00
ETHEPHON
180000.00
PENDIMETHALIN
420.00
2,4-D ACID
263000.00
PHOSALONE
500.00
CHLORTHAL DIMETHYL
320000.00
METHOMYL
800.00
ENDOTHALL
320000.00
METHYL PARATHION
800.00
IMAZAQUIN ACID
410000.00
ATRAZINE
1000.00
BENTAZON
616000.00
BENSULIDE
1000.00
DSMA
1000000.00
DIMETHOATE
1000.00
MONOSODIUM METHANEARSONATE
! 1000000.00
OXYFLUORFEN
1000.00
PHOSPHAMIDON
1000000.00
THIOBENCARB
1400.00
THIDIAZURON
1000000.00
THIODICARB
1400.00
CHLORSULFURON
3000000.00
ALDICARB
1500.00
FOMESAFEN
6030000.00
BENOMYL
2000.00
DICLOFOP-METHYL
10000000.00
IPRODIONE
2250.00
ESFENVALERATE
10000000.00
ORYZALIN
2880.00
PETROLEUM OIL
10000000.00
* Chemicals listed were reported for EPA Region VI by USDA (1992, 1993a, b)
or for hydrologic units in the Trinity River Basin by Holloway et al. (1990).
Data taken from the Royal Society of Chemists (1991) and EXTOXNET (1989).
A few values were included from AQUIRE (1993). Values selected were from
bluegills in nearly all cases. A few values from other fish species were
selected when data fro« bluegills was not available. Values were not available
for BUTIFOS, FENVALERATE, SODIUM CHLORATE, and TRIPHENYLTIN.
76
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Appendix F. Oral LDS0 values for rats of agricultural pesticides used in EPA
Region VI (Pesticides were ranked from most toxic to least toxic).*
ORAL LD50 ORAL LD50
PESTICIDE (ma/kg> PESTICIDE (mg/kql
ALDICARB
1.00
BENTAZON
1100.00
TERBUFOS
1.30
METRIBUZIN
1100.00
CARBOFURAN
2.00
PENDIMETHALIN
1150.00
PARATHION
2.00
METOLACHLOR
1200.00
MEVINPHOS
3.00
QUINTOZENE
1200.00
AZINPHOS-METHYL
4.40
TRALOMETHRIN
1250.00
OXAMYL
5.40
ACIFLUORFEN
1300.00
METHYL PARATHION
6.00
THIOBENCARB
1300.00
DISULFOTON
7.00
PROPICONAZOLE
1310.00
MONOCROTOPHOS
8.00
ZIRAM
1400.00
DICROTOPHOS
17.00
LINURON
1500.00
METHOMYL
17.00
PERMETHRIN
1500.00
PHOSPHAMIDON
17.00
VERNOLATE
1500.00
ENDOSULFAN
18.00
FOMESAFEN
1625.00
METHAMIDOPHOS
20.00
QUIZALOFOP ETHYL
1670.00
PARAQUAT
20.00
DSMA
1800.00
ENDOTHALL
51.00
2,4-DB
2000.00
ARSENIC ACID
52.00
CYCLOATE
2000.00
LAMBDACYHALOTHRIN
79.00
CLOMAZONE
2077.00
CHLORPYRIFOS
96.00
DIETHATYL ETHYL
2300.00
LINDANE
105.00
FENOXAPROP ETHYL
2357.00
PHOSMET
113.00
ATRAZINE
2475.00
OXYDEMETON-METHYL
125.00
METHAZOLE
2501.00
PHOSALONE
147.00
PICLORAM SALT
2898.00
CYANAZINE
149.00
CHLORTHAL DIMETHYL
3000.00
SULPROFOS
154.00
CHLORSULFURON
3053.00
THIODICARB
166.00
SETHOXYDIM
3200.00
BROMOXYNIL
190.00
IMAZAQUIN ACID
3328.00
DIMETHOATE
215.00
CYROMAZINE
3387.00
PROPARGITE
220.00
FLUAZIFOP-P-BUTYL
3680.00
CARBARYL
250.00
ETHEPHON
3740.00
CYPERMETHRIN
250.00
PROMETRYN
3750.00
BENSULIDE
271.00
CHLORIMURON ETHYL
4000.00
PETROLEUM OIL
316.00
CLOPYRALID
4300.00
PROFENOFOS
358.00
GLYPHOSATE
4300.00
2,4-D ACID
375.00
MANCOZEB
4500.00
BIFENTHRIN
375.00
SODIUM CHLORATE
4950.00
FENVALERATE
451.00
BENSULFURON
5000.00
ESFENVALERATE
458.00
METSULFURON-METHYL
5000.00
MALATHION
480.00
NAPROPAMIDE
5000.00
MOLINATE
501.00
NICOSULFURON
5000.00
PROPANIL
560.00
OXYFLUORFEN
5000.00
DICLOFOP-METHYL
563.00
SULFUR
5000.00
TRIADIMEFON
568.00
BROMACIL
5200.00
METALAXYL
669.00
THIOPHANATE-METHYL
7500.00
TRICLOPYR
713.00
FLUOMETURON
7658.00
DIAZINON
720.00
NAPTALAM
8200.00
MONOSODIUM METHANEARSONATE
900.00
CAPTAN
8400.00
ALACHLOR
930.00
IPRODIONE
8900.00
ACEPHATE
945.00
BENEFIN
10000.00
COPPER HYDROXIDE
1000.00
BENOMYL
10000.00
THIDIAZURON
1000.00
CHLOROTHALONIL
10000.00
CYFLUTHRIN
1015.00
ETHALFLURALIN
10000.00
DIURON
1017.00
ORYZALIN
10000.00
DICAMBA SALT
1040.00
TRIFLURALIN
10000.00
ETRIDIAZOLE
1077.00
* Chemicals listed were reported for EPA Region VI by USDA (1992, 1993a, b) or
for hydrologic units in the Trinity River Basin by Holloway et al. (1990). Data
were taken from MSDS sheets, Crop Protection Chemicals Reference (1991), and Farm
Chemicals Handbook (1992). Lower values were selected when a range was reported.
Minimum values were reported when a > sign is used. Values for male rats were
reported when data was available by sex. No data was available for BUTIFOS,
FURORE, and TRIPHENYLTIN.
77
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Appendix G. Field half life of agricultural pesticides used in the EPA Region
VI (Pesticides were ranked from most persistent to least persistent).*
Half Life Half Life
PESTICIDE " (days) PESTICIDE (days)
ARSENIC ACID
10000.0
CYCLOATE
30.0
PARAQUAT
1000.0
CHLORPYRIFOS
30.0
MONOSODIUM METHANEARSONATE
1000.0
CHLOROTHALONIL
30.0
LINDANE
400.0
ALDICARB
30.0
CYROMAZINE
150.0
TRALOMETHRIN
27.0
SULPROFOS
140.0
TRIADIMEFON
26.0
BENSULIDE
120.0
BIFENTHRIN
26.0
PROPICONAZOLE
110.0
CLOMAZONE
24.0
ETRIDIAZOLE
103.0
THIOBENCARB
21.0
FOMESAFEN
100.0
PHOSALONE
21.0
CHLORTHAL DIMETHYL
100.0
QUINTOZENE
21.0
PICLORAM SALT
90.0
MOLINATE
21.0
PENDIMETHALIN
90.0
ORYZALIN
20.0
METOLACHLOR
90.0
DICROTOPHOS
20.0
DIURON
90.0
BENTAZON
20.0
FLUOMETURON
85.0
PHOSMET
19.0
TRIPHENYLTIN
75.0
PHOS PHAMIDON
17.0
NAPROPAMIDE
70.0
FLUAZIFOP-P-BUTYL
15.0
METALAXYL
70.0
ALACHLOR
15.0
MANCOZEB
70.0
PARATHION
14.0
BENOMYL
67.0
NAPTALAM
14.0
TRIFLURALIN
60.0
METHAZOLE
14.0
QUIZALOFOP ETHYL
60.0
IPRODIONE
14.0
PROMETRYN
60.0
DICAMBA SALT
14.0
LINURON
60.0
CYANAZINE
14.0
IMAZAQUIN ACID
60.0
ACIFLUORFEN
14.0
ETHALFLURALIN
60.0
VERNOLATE
12.0
BROMACIL
60.0
THIOPHANATE-METHYL
10.0
ATRAZINE
60.0
THIDIAZURON
10.0
PROPARGITE
56.0
PETROLEUM OIL
10.0
ENDOSULFAN
50.0
OXYDEMETON-METHYL
10.0
CARBOFURAN
50.0
ETHEPHON
10.0
GLYPHOSATE
47.0
CARBARYL
10.0
TRICLOPYR
46.0
AZINPHOS-METHYL
10.0
METRIBUZIN
40.0
2,4-DB
10.0
DIAZINON
40.0
2,4-D ACID
10.0
CLOPYRALID
40.0
FENOXAPROP ETHYL
9.0
CHLORSULFURON
40.0
PROFENOFOS
8.0
CHLORIMURON ETHYL
40.0
THIODICARB
7.0
BENEFIN
40.0
ENDOTHALL
7.0
OXYFLUORFEN
35.0
DIMETHOATE
7.0
FENVALERATE
35.0
BROMOXYNIL
7.0
ESFENVALERATE
35.0
METHAMIDOPHOS
6.0
PERMETHRIN
30.0
TERBUFOS
5.0
MONOCROTOPHOS
30.0
SETHOXYDIM
5.0
METSULFURON-METHYL
30.0
METHYL PARATHION
5.0
METHOMYL
30.0
BENSULFURON
5.0
LAMBDACYHALOTHRIN
30.0
OXAMYL
4.0
DISULFOTON
30.0
MEVINPHOS
3.0
DIETHATYL ETHYL
30.0
ACEPHATE
3.0
DICLOFOP-METHYL
30.0
CAPTAN
2.5
CYPERMETHRIN
30.0
PROPANIL
1.0
CYFLUTHRIN
30.0
MALATHION
1.0
* Chemicals listed were reported for EPA Region VI by USDA (1992, 1993a, b) or
for hydrologic units in the Trinity River Basin by Holloway et al. (1990).
Data were selected values taken from the Wauchope et al. (1992).
Values were not available for BUTIFOS, COPPER HYDROXIDE, DSMA, FURORE,
NICOSULFURON, SODIUM CHLORATE, SULFUR, and ZIRAM.
78
-------�
Appendix H. Solubility in water of agricultural pesticides used in the EPA Region
VI (Pesticides were ranked
from most soluble
to least soluble).*
SOLUBILITY
SOLUBILITY
PESTICIDE
(Domi
PESTICIDE
(vvm)
BENTAZON
2300000.00
TRIADIMEFON
71.50
MONOSODIUM METHANEARSONATE
1400000.00
TRALOMETHRIN
70.00
ETHEPHON
1239000.00
METHYL PARATHION
60.00
PHOSPHAMIDON
1000000.00
DIAZINON
60.00
OXYDEMETON-METHYL
1000000.00
ETRIDIAZOLE
50.00
MONOCROTOPHOS
1000000.00
DIURON
42.00
METHAMIDOPHOS
1000000.00
PROMETRYN
33.00
DICROTOPHOS
1000000.00
ATRAZINE
33.00
GLYPHOSATE
900000.00
AZINPHOS-METHYL
29.00
ACEPHATE
818000.00
THIOBENCARB
28.00
SODIUM CHLORATE
790000.00
PROFENOFOS
28.00
2,4-DB
709000.00
NICOSULFURON
28.00
FOMESAFEN
700000.00
DISULFOTON
25.00
PARAQUAT
620000.00
PARATHION
24.00
MEVINPHOS
600000.00
TRICLOPYR
23.00
DICAMBA SALT
400000.00
THIDIAZURON
20.00
CLOPYRALID
300000.00
PHOSMET
20.00
OXAMYL
282000.00
THIODICARB
19.10
DSMA
279000.00
IPRODIONE
13.90
ACIFLUORFEN
" 250000.00
FENVALERATE
0.002
NAPTALAM
231000.00
LINDANE
7.00
PICLORAM SALT
200000.00
MANCOZEB
6.00
IMAZAQUIN ACID
160000.00
BENSULIDE
5.60
CYROMAZINE
136000.00
CAPTAN
5.10
ENDOTHALL
100000.00
TERBUFOS
5.00
ZIRAM
65000.00
THIOPHANATE-METHYL
3.50
METHOMYL
58000.00
PHOSALONE
3.00
DIMETHOATE
39800.00
COPPER HYDROXIDE
2.90
ARSENIC ACID
17000.00
ORYZALIN
2.80
METSULFURON-METHYL
9500.00
FLUAZIFOP-P-BUTYL
2.00
METALAXYL
8400.00
BENOMYL
2.00
CHLORSULFURON
7000.00
METHAZOLE
1.50
ALDICARB
6000.00
TRIPHENYLTIN
1.00
SETHOXYDIM
4390.00
FENOXAPROP ETHYL
0.80
METRIBUZIN
1220.00
DICLOFOP-METHYL
0.80
CHLORIMURON ETHYL
1200.00
CHLOROTHALONIL
0.60
CLOMAZONE
1100.00
PROPARGITE
0.50
MOLINATE
970.00
CHLORTHAL DIMETHYL
0.50
2,4-D ACID
890.00
QUINTOZENE
0.44
BROMACIL
700.00
CHLORPYRIFOS
0.40
METOLACHLOR
530.00
ENDOSULFAN
0.32
CARBOFURAN
351.00
SULPROFOS
0.31
ALACHLOR
240.00
QUIZALOFOP ETHYL
0.31
PROPANIL
200.00
TRIFLURALIN
0.30
CYANAZINE
170.00
ETHALFLURALIN
0.30
MALATHION
130.00
PENDIMETHALIN
0.28
CARBARYL
120.00
OXYFLUORFEN
0.10
BENSULFURON
120.00
BIFENTHRIN
0.10
PROPICONAZOLE
110.00
BENEFIN
0.10
FLUOMETURON
110.00
BROMOXYNIL
0.08
VERNOLATE
108.00
PERMETHRIN
0.01
DIETHATYL ETHYL
105.00
LAMBDACYHALOTHRIN
0.01
PETROLEUM OIL
100.00
ESFENVALERATE
0.00
CYCLOATE
95.00
CYPERMETHRIN
0.00
LINURON
75.00
CYFLUTHRIN
0.00
NAPROPAMIDE
74.00
* Chemicals listed were reported for EPA Region VI by USDA (1992, 1993a, b)
or for hydrologic units in the Trinity River Basin by Holloway et al. (1990).
Data were selected values taken from the Wauchope et al. (1992).
Values were not available for BUTIFOS, FURORE, and SULFUR.
79
-------�
Appendix I. Octanol/water partition coefficients of agricultural pesticides used
in EPA Region VI (Pesticides were ranked from most likely to bioaccumulate
to least likely to bioaccumulate).
PESTICIDE
loa Kow
PESTICIDE
loa Kow
CYFLUTHRIN
7.14
ETRIDIAZOLE
2.54
LAMBDACYHALOTHRIN
7.00
CLOMAZONE
2.54
CYPERMETHRIN
6.60
DICAMBA SALT
2.46
ESFENVALERATE
6.22
PROPANIL
2.28
PERMETHRIN
6.10
TERBUFOS
2.22
BIFENTHRIN
6.00
LINURON
2.19
PENDIMETHALIN
5.18
CARBOFURAN
1.98
ETHALFLURALIN
5.11
SETHOXYDIM
1.65
TRIFLURALIN
5.07
METRIBUZIN
1.65
TRALOMETHRIN
5.00
THIDIAZURON
1.43
QUINTOZENE
4.89
MANCOZEB
. 1.30
CHLORPYRIFOS
4.70
PHOSPHAMIDON
0.80
DICLOFOP-METHYL
4.58
DIMETHOATE
0.78
OXYFLUORFEN
4.47
ALDICARB
0.70
SULPROFOS
4.26
CHLORTHAL DIMETHYL
0.69
BENSULIDE
4.22
ACIFLUORFEN
0.69
FENOXAPROP ETHYL
4.12
BENSULFURON
0.61
CYCLOATE
4.11
CHLORIMURON ETHYL
0.36
ENDOSULFAN
3.83
CYANAZINE
0.35
BENTAZON
3.81
2,4-D ACID
0.27
PROPARGITE
3.73
PICLORAM SALT
0.25
OXYDEMETON-METHYL
3.73
THIODICARB
0.22
DIETHATYL ETHYL
3.60
IMAZAQUIN ACID
0.14
PARATHION
3.47
CARBARYL
0.14
PROMETRYN
3.46
METHOMYL
0.11
METOLACHLOR
3.45
CHLORSULFURON
0.04
THIOBENCARB
3.42
MEVINPHOS
0.02
NAPROPAMIDE
3.36
PROPICONAZOLE
0.00
IPRODIONE
3.10
PROFENOFOS
0.00
DIAZINON
3.01
PETROLEUM OIL
0.00
METHYL PARATHION
2.97
PARAQUAT
0.00
PHOSMET
2.91
ETHEPHON
0.00
MOLINATE
2.88
BROMOXYNIL
0.00
CHLOROTHALONIL
2.88
ARSENIC ACID
0.00
DIURON
2.81
MONOCROTOPHOS
-0.15
CAPTAN
2.79
DICROTOPHOS
-0.49
METALAXYL
2.77
BENOMYL
-0.52
MALATHION
2.77
ENDOTHALL
-0.87
ATRAZINE
2.68
ACEPHATE
-0.89
ALACHLOR
2.64
METSULFURON-METHYL
-1.85
AZINPHOS-METHYL
2.62
GLYPHOSATE
-3.25
METHAZOLE
2.59
* Chemicals listed were reported for EPA Region VI by USDA (1992, 1993a, b)
or for hydrologic units in the Trinity River Basin by Holloway et al. (1990).
Kow values were taken from-the AQUIRE-QSAR.
Values were not available for 2,4-DB, BENEFIN, BROMACIL, CLOPYRALID,
COPPER HYDROXIDE, CYROMAZINE, DISULFOTON, DSMA, FENVALERATE,
FLUAZIFOP-P-BUTYL, FLUOMETURON, FOMESAFEN, FURORE, LINDANE, METHAMIDOPHOS,
MONOSODIUM METHANEARSONATE, NAPTALAM, NICOSULFURON, ORYZALIN, OXAMYL, PHOSALONE,
QUIZALOFOP ETHYL, SODIUM CHLORATE, SULFUR, THIOPHANATE-METHYL, TRIADIMEFON,
TRICLOPYR, TRIPHENYLTIN, VERNOLATE, and ZIRAM.
80
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Appendix J. Land area by state in EPA Region VI and land area by hydrologic
unit (HU) for the Trinity River Basin in Texas.*
State Acres
AR 33,328,000
LA 27,882,240
NM 77,672,960
OK 43,954,560
TX 167,624,960
HU
number
12030101
12030102
12030103
12030104
12030105
12030106
12030107
12030108
12030109
12030201
12030202
12030203
12040201
12040202
12040203
Total
Acres
1,315,683
985,137
1,182,639
506,284
855,634
839,060
687,095
646,402
667,461
1,406,590
2,171,425
565,759
460,373
400,715
145,366
12,835,623
* Land area by State was taken from The Council of State Governments,
1992-1993, The Book of the States, Volume 29, Lexington, Kentucky, 707 pp.
Land area by hydrologic units was estimated using ARC/INFO software and
data from the TIGER files with Digital Line Graph data.
81
-------�
Appendix K. Normalized hazard rating coefficients emphasizing mobility (NHRCM)
for agricultural pesticides in the Trinity River Basin in Texas by hydrologic
unit (HU) and by pesticide.*
HU
PESTICIDE
NHRCM
12030101
BENTAZON
.000064
12030101
DIMETHOATE
.000051
12030101
METOLACHLOR
.000044
12030101
METHYL PARATHION
.000037
12030101
ATRAZINE
.000028
12030101
MANCOZEB
.000018
12030101
2,4-DB
.000016
12030101
CARBARYL
.000014
12030101
SETHOXYDIM
.000013
12030101
GLYPHOSATE
.000012
12030101
AZINPHOS-METHYL
.000008
12030101
CHLORSULFURON
.000008
12030101
PARATHION
.000006
12030101
TRIADIMEFON
.000004
12030101
CHLORPYRIFOS
.000002
12030101
METSULFURON-METHYL
.000001
12030101
PROPICONAZOLE
.000001
12030101
PHOSALONE
.000001
12030101
PHOSMET
.000000
12030101
CAPTAN
.000000
12030101
BENOMYL
.000000
12030101
CHLOROTHALONIL
.000000
12030101
CYPERMETHRIN
.000000
12030101
DISULFOTON
.000000
12030101
ESFENVALERATE
.000000
12030101
MALATHION
.000000
12030101
ORYZALIN
.000000
12030101
PETROLEUM OIL
.000000
12030101
TRIFLURALIN
.000000
12030101
2,4-D ACID
NA
12030101
COPPER HYDROXIDE
NA
12030101
DICAMBA
NA
12030101
TRIPHENYLTIN
NA
12030102
GLYPHOSATE
.000141
12030102
DIMETHOATE
.000083
12030102
CARBARYL
.000056
12030102
ATRAZINE
.000047
12030102
DIAZINON
.000032
12030102
METALAXYL
.000027
12030102
DISULFOTON
.000026
12030102
2,4-DB
.000022
12030102
BENSULIDE
.000017
12030102
MANCOZEB
.000016
12030102
CARBOFURAN
.000013
12030102
BENTAZON
.000011
12030102
PHOSALONE
.000011
12030102
CHLORSULFURON
.000010
12030102
CHLORPYRIFOS
.000009
12030102
TERBUFOS
.000008
12030102
VERNOLATE
.000006
12030102
TRIADIMEFON
.000004
12030102
MEVINPHOS
.000003
82
-------�
Appendix K. Normalized hazard rating coefficients emphasizing mobility (NHRCM)
for agricultural pesticides in the Trinity River Basin in Texas by hydrologic
unit (HU) and by pesticide.*(continued)
HU
PESTICIDE
NHRCM
12030102
PROPICONAZOLE
.000001
12030102
METOLACHLOR
.000001
12030102
METHYL PARATHION
.000001
12030102
AZINPHOS-METHYL
.000000
12030102
PHOSMET
.000000
12030102
CAPTAN
.000000
12030102
BROMOXYNIL
.000000
12030102
FLUAZIFOP-P-BUTYL
.000000
12030102
METSULFURON-METHYL
.000000
12030102
BENOMYL
.000000
12030102
CHLOROTHALONIL
.000000
12030102
CYPERMETHRIN
.000000
12030102
DICLOFOP-METHYL
.000000
12030102
MALATHION
.000000
12030102
ORYZALIN
.000000
12030102
PETROLEUM OIL
.000000
12030102
TRIFLURALIN
.000000
12030102
2,4-D ACID
NA
12030102
COPPER HYDROXIDE
NA
12030102
DICAMBA
NA
12030102
FENVALERATE
NA
12030102
SULPHUR
NA
12030102
TRIPHENYLTIN
NA
12030103
ARSENIC ACID
.001130
12030103
DISULFOTON
.000526
12030103
DICROTOPHOS
.000377
12030103
ALACHLOR
.000326
12030103
ALDICARB
.000282
12030103
DIMETHOATE
.000211
12030103
ETHEPHON
.000165
12030103
SETHOXYDIM
.000165
12030103
METHYL PARATHION
.000133
12030103
ATRAZINE
.000131
12030103
ACEPHATE
.000113
12030103
METOLACHLOR
.000101
12030103
CYANAZINE
.000075
12030103
1 2,4-DB
.000068
12030103
QUINTOZENE
.000068
12030103
PENDIMETHALIN
.000067
12030103
CHLORSULFURON
.000064
12030103
PARATHION
.000062
12030103
BENTAZON
.000061
12030103
CARBARYL
.000056
12030103
DIURON
.000051
12030103
PROMETRYN
.000043
12030103
CARBOFURAN
.000037
12030103
PROPICONAZOLE
.000035
12030103
TRIADIMEFON
.000033
12030103
PARAQUAT
.000023
12030103
MANCOZEB
.000019
12030103
FLUOMETURON
.000018
12030103
TERBUFOS
.000018
83
-------�
Appendix K. Normalized hazard rating coefficients emphasizing mobility (NHRCM)
for agricultural pesticides in the Trinity River Basin in Texas by hydrologic
unit (HU) and by pesticide.*(continued)
HU
PESTICIDE
NHRCM
12030103
THIODICARB
.000011
12030103
BROMOXYNIL
.000009
12030103
ACIFLUORFEN
.000006
12030103
METSULFURON-METHYL
.000003
12030103
ENDOTHALL
.000002
12030103
GLYPHOSATE
.000002
12030103
FLUAZIFOP-P-BUTYL
.000001
12030103
THIDIAZURON
.000000
12030103
BENOMYL
.000000
12030103
CHLOROTHALONIL
.000000
12030103
DICLOFOP-METHYL
.000000
12030103
ESFENVALERATE
.000000
12030103
ORYZALIN
.000000
12030103
TRIFLURALIN
.000000
12030103
2,4-D ACID
NA
12030103
CYHALOTHRIN
NA
12030103
DICAMBA
NA
12030103
FENVALERATE
NA
12030103
MEPIQUAT
NA
12030104
ARSENIC ACID
.000681
12030104
DISULFOTON
.000257
12030104
SETHOXYDIM
.000110
12030104
METHYL PARATHION
.000110
12030104
ETHEPHON
.000099
12030104
ALDICARB
.000094
12030104
DICROTOPHOS
.000093
12030104
DIMETHOATE
.000066
12030104
ACEPHATE
.000054
12030104
MANCOZEB
.000046
12030104
ATRAZINE
.000038
12030104
CYANAZINE
.000033
12030104
DIURON
.000031
12030104
TRIADIMEFON
.000022
12030104
CARBARYL
.000018
12030104
CHLORSULFURON
.000017
12030104
PARAQUAT
.000013
12030104
PENDIMETHALIN
.000012
12030104
PROPICONAZOLE
.000011
12030104
CHLORPYRIFOS
.000010
12030104
THIODICARB
.000007
12030104
BROMOXYNIL
.000004
12030104
FLUOMETURON
.000002
12030104
ENDOTHALL
.000001
12030104
METSULFURON-METHYL
.000001
12030104
FLUAZIFOP-P-BUTYL
.000001
12030104
THIDIAZURON
.000000
12030104
CHLOROTHALONIL
.000000
12030104
DICLOFOP-METHYL
.000000
12030104
ESFENVALERATE
.000000
12030104
ORYZALIN
.000000
12030104
TRIFLURALIN
.000000
12030104
2,4-D ACID
NA
84
-------�
Appendix K. Normalized hazard rating coefficients emphasizing mobility (NHRCM)
for agricultural pesticides in the Trinity River Basin in Texas by hydrologic
unit (HU) and by pesticide.*(continued)
HU
PESTICIDE
NHRCM
12030104
CYHALOTHRIN
NA
12030104
DICAMBA
NA
12030104
FENVALERATE
NA
12030104
MEPIQUAT
NA
12030105
ARSENIC ACID
.007243
12030105
DICROTOPHOS
.001078
12030105
GLYPHOSATE
.000971
12030105
ATRAZINE
.000966
12030105
PROMETRYN
.000840
12030105
ALDICARB
.000745
12030105
HONOSODIUH METHANEARSONATE
.000664
12030105
ACEPHATE
.000648
12030105
ETHEPHON
.000598
12030105
PARAQUAT
.000454
12030105
METOLACHLOR
.000441
12030105
DISULFOTON
.000355
12030105
TERBUFOS
.000323
12030105
METHOMYL
.000261
12030105
METHYL PARATHION
.000246
12030105
FLUAZIFOP-P-BUTYL
.000211
12030105
ALACHLOR
.000207
12030105
DIMETHOATE
.000188
12030105
CARBOFURAN
.000185
12030105
SETHOXYDIM
.000140
12030105
THIODICARB
.000138
12030105
OXYDEMETON-METHYL
.000118
12030105
PROFENOFOS
.000109
12030105
PHOS PHAMIDON
.000086
12030105
MONOCROTOPHOS
.000073
12030105
CHLORPYRIFOS
.000065
12030105
PROPARGITE
.000055
12030105
CARBARYL
.000034
12030105
MANCOZEB
.000031
12030105
DIURON
.000029
12030105
CYANAZINE
.000025
12030105
PENDIMETHALIN
.000022
12030105
PARATHION
.000018
12030105
PHOSALONE
.000016
12030105
CHLORSULFURON
.000015
12030105
THIDIAZURON
.000015
12030105
PROPICONAZOLE
.000015
12030105
TRIADIMEFON
.000013
12030105
AZINPHOS-METHYL
.000009
12030105
BROMOXYNIL
.000002
12030105
BIFENTHRIN
.000001
12030105
METSULFURON-METHYL
.000000
12030105
CYFLUTHRIN
.000000
12030105
CYPERMETHRIN
.000000
12030105
DICLOFOP-METHYL
.000000
12030105
ESFENVALERATE
.000000
12030105
TRIFLURALIN
.000000
12030105
2,4-D ACID
NA
85
-------�
Appendix K. Normalized hazard rating coefficients emphasizing mobility (NHRCM)
for agricultural pesticides in the Trinity River Basin in Texas by hydrologic
unit (HU) and by pesticide.*(continued)
HU
PESTICIDE
NHRCM
12030105
BUTIFOS
NA
12030105
CYHALOTHRIN
NA
12030105
DICAMBA
NA
12030105
TRIPHENYLTIN
NA
12030106
ALACHLOR
.000878
12030106
DISULFOTON
.000632
12030106
ATRAZINE
.000366
12030106
TERBUFOS
.000245
12030106
DICROTOPHOS
.000195
12030106
DIMETHOATE
.000156
12030106
METOLACHLOR
.000112
12030106
METHYL PARATHION
.000094
12030106
CARBARYL
.000072
12030106
CARBOFURAN
.000072
12030106
PROMETRYN
.000044
12030106
CYANAZINE
.000037
12030106
PENDIMETHALIN
.000034
12030106
KANCOZEB
.000028
12030106
CHLORSULFURON
.000014
12030106
TRIADIMEFON
.000006
12030106
PROPICONAZOLE
.000006
12030106
BROMOXYNIL
.000001
12030106
GLYPHOSATE
.000001
12030106
FLUAZIFOP-P-BUTYL
.000001
12030106
METSULFURON-METHYL
.000001
12030106
SETHOXYDIM
.000000
12030106
DICLOFOP-METHYL
.000000
12030106
MALATHION
.000000
12030106
TRIFLURALIN
.000000
12030106
2,4-D ACID
NA
12030106
DICAMBA
NA
12030107
CARBARYL
.000122
12030107
GLYPHOSATE
.000080
12030107
DIMETHOATE
.000065
12030107
DIURON
.000046
12030107
DISULFOTON
.000025
12030107
PENDIMETHALIN
.000019
12030107
TRICLOPYR
.000014
12030107
FLUAZIFOP-P-BUTYL
.000012
12030107
OXYDEMETON-METHYL
.000012
12030107
METHYL PARATHION
.000012
12030107
ATRAZINE
.000006
12030107
CHLORTHAL DIMETHYL
.000005
12030107
CHLORSULFURON
.000003
12030107
PARATHION
.000003
12030107
DIAZINON
.000002
12030107
MANCOZEB
.000002
12030107
ENDOSULFAN
.000002
12030107
METSULFURON-METHYL
.000000
12030107
BENOMYL
.000000
12030107
CHLOROTHALONIL
.000000
86
-------�
Appendix K. Normalized hazard rating coefficients emphasizing mobility (NHRCM)
for agricultural pesticides in the Trinity River Basin in Texas by hydrologic
unit (HU) and by pesticide.*(continued)
HU
PESTICIDE
NHRCM
12030107
TRIFLURALIN
.000000
12030107
2,4-D ACID
NA
12030107
DICAMBA
NA
12030107
DSMA
NA
12030107
FENVALERATE
NA
12030108
ARSENIC ACID
.014548
12030108
GLYPHOSATE
.003416
12030108
PROMETRYN
.001561
12030108
METOLACHLOR
.001505
12030108
ALDICARB
.001371
12030108
ACEPHATE
.001319
12030108
DICROTOPHOS
.000925
12030108
PARATHION
.000738
12030108
ATRAZINE
.000718
12030108
METHOMYL
.000421
12030108
CARBOFURAN
.000418
12030108
DIMETHOATE
.000389
12030108
MONOSODIUM METHANEARSONATE
.000367
12030108
DISULFOTON
.000317
12030108
MONOCROTOPHOS
.000259
12030108
FLUAZIFOP-P-BUTYL
.000257
12030108
TERBUFOS
.000180
12030108
METHYL PARATHION
.000168
12030108
PARAQUAT
.000136
12030108
CARBARYL
.000127
12030108
DIURON
.000102
12030108
PROPICONAZOLE
.000102
12030108
PROPARGITE
.000088
12030108
TRIADIMEFON
.000066
12030108
THIODICARB
.000059
12030108
PHOSALONE
.000044
12030108
ALACHLOR
.000028
12030108
MANCOZEB
.000024
12030108
CHLORSULFURON
.000022
12030108
THIDIAZURON
.000020
12030108
PENDIMETHALIN
.000012
12030108
AZINPHOS-METHYL
.000012
12030108
BROMOXYNIL
.000001
12030108
CHLORPYRIFOS
.000001
12030108
METSULFURON-METHYL
.000000
12030108
BENOMYL
.000000
12030108
CYPERMETHRIN
.000000
12030108
DICLOFOP-METHYL
.000000
12030108
ESFENVALERATE
.000000
12030108
MALATHION
.000000
12030108
PETROLEUM OIL
.000000
12030108
TRIFLURALIN
.000000
12030108
2,4-D ACID
NA
12030108
BUTIFOS
NA
12030108
CYHALOTHRIN
NA
12030108
DICAMBA
NA
12030108
FENVALERATE
NA
12030108
TRIPHENYLTIN
NA
87
-------�
Appendix K. Normalized hazard rating coefficients emphasizing mobility (NHRCM)
for agricultural pesticides in the Trinity River Basin in Texas by hydrologic
unit (HU) and by pesticide.*(continued)
HU
PESTICIDE
NHRCM
12030109
ARSENIC ACID
.010046
12030109
ATRAZINE
.001574
12030109
DICROTOPHOS
.001454
12030109
GLYPHOSATE
.001314
12030109
PROMETRYN
.001096
12030109
ALDICARB
.000996
12030109
ACEPHATE
.000880
12030109
MONOSODIUM METHANEARSONATE
.000875
12030109
METOLACHLOR
.000773
12030109
ETHEPHON
.000767
12030109
DISULFOTON
.000680
12030109
DIMETHOATE
.000666
12030109
PARAQUAT
.000592
12030109
TERBUFOS
.000474
12030109
METHOMYL
.000400
12030109
METHYL PARATHION
.000348
12030109
FLUAZIFOP-P-BUTYL
.000280
12030109
ALACHLOR
.000254
12030109
CARBOFURAN
.000203
12030109
THIODICARB
.000181
12030109
SETHOXYDIM
.000180
12030109
OXYDEMETON-METHYL
.000152
12030109
PROFENOFOS
.000140
12030109
CHLORPYRIFOS
.000122
12030109
MONOCROTOPHOS
.000112
12030109
PHOSPHAMIDON
.000111
12030109
PARATHION
.000101
12030109
MANCOZEB
.000080
12030109
PROPARGITE
.000073
12030109
CHLORSULFURON
.000058
12030109
PROPICONAZOLE
.000053
12030109
CYANAZINE
.000047
12030109
TRIADIMEFON
.000047
12030109
CARBARYL
.000044
12030109
DIURON
.000044
12030109
PENDIMETHALIN
.000029
12030109
PHOSALONE
.000021
12030109
THIDIAZURON
.000020
12030109
AZINPHOS-METHYL
.000013
12030109
BROMOXYNIL
.000005
12030109
BIFENTHRIN
.000001
12030109
METSULFURON-METHYL
.000001
12030109
CYFLUTHRIN
.000000
12030109
CYPERMETHRIN
.000000
12030109
DICLOFOP-METHYL
.000000
12030109
ESFENVALERATE
.000000
12030109
TRIFLURALIN
.000000
12030109
2,4-D ACID
NA
12030109
BUTIFOS
NA
12030109
CYHALOTHRIN
NA
12030109
DICAMBA
NA
12030109
TRIPHENYLTIN
NA
88
-------�
Appendix K. Normalized hazard rating coefficients emphasizing mobility (NHRCM)
for agricultural pesticides in the Trinity River Basin in Texas by hydrologic
unit (HU) and by pesticide.*(continued)
HU
PESTICIDE
NHRCM
12030201
CARBARYL
.000154
12030201
ARSENIC ACID
.000029
12030201
GLYPHOSATE
.000005
12030201
DICROTOPHOS
.000003
12030201
ALDICARB
.000003
12030201
METOLACHLOR
.000002
12030201
METHOMYL
.000002
12030201
ACEPHATE
.000001
12030201
MONOSODIUM METHANEARSONATE
.000001
12030201
PROMETRYN
.000001
12030201
DISULFOTON
.000001
12030201
MONOCROTOPHOS
.000001
12030201
METHYL PARATHION
.000000
12030201
PARATHION
.000000
12030201
FLUAZIFOP-P-BUTYL
.000000
12030201
PARAQUAT
.000000
12030201
PHOSALONE
.000000
12030201
DIURON
.000000
12030201
DIMETHOATE
.000000
12030201
CHLORPYRIFOS
.000000
12030201
PROPICONAZOLE
.000000
12030201
THIODICARB
.000000
12030201
AZINPHOS-METHYL
.000000
12030201
PROPARGITE
.000000
12030201
CHLORSULFURON
.000000
12030201
TRIADIMEFON
.000000
12030201
THIDIAZURON
.000000
12030201
PENDIMETHALIN
.000000
12030201
BENOMYL
.000000
12030201
CHLOROTHALONIL
.000000
12030201
CYPERMETHRIN
.000000
12030201
ESFENVALERATE
.000000
12030201
MALATHION
.000000
12030201
PETROLEUM OIL
.000000
12030201
TRIFLURALIN
.000000
12030201
2,4-D ACID
NA
12030201
BUTIFOS
NA
12030201
CAPTAN
NA
12030201
CYHALOTHRIN
NA
12030201
DICAMBA
NA
12030201
TRIPHENYLTIN
NA
12030202
CLOPYRALID
.000014
12030202
MOLINATE
.000014
12030202
CARBARYL
.000012
12030202
DIMETHOATE
.000008
12030202
BENTAZON
.000007
12030202
SULPROFOS
.000006
12030202
GLYPHOSATE
.000002
12030202
DIAZINON
.000002
12030202
THIOBENCARB
.000002
89
-------�
Appendix K. Normalized hazard rating coefficients emphasizing mobility (NHRCM)
for agricultural pesticides in the Trinity River Basin in Texas by hydrologic
unit (HU) and by pesticide.*(continued)
HU
PESTICIDE
NHRCM
12030202
METOLACHLOR
.000002
12030202
ACIFLUORFEN
.000001
12030202
FOMESAFEN
.000001
12030202
CARBOFURAN
.000001
12030202
METHYL PARATHION
.000000
12030202
MANCOZEB
.000000
12030202
ALACHLOR
.000000
12030202
PROPICONAZOLE
.000000
12030202
METRIBUZIN
.000000
12030202
PENDIMETHALIN
.000000
12030202
TRIADIMEFON
.000000
12030202
FLUAZIFOP-P-BUTYL
.000000
12030202
LINURON
.000000
12030202
IPRODIONE
.000000
12030202
SETHOXYDIM
.000000
12030202
IMAZAQUIN ACID
.000000
12030202
PERMETHRIN
.000000
12030202
BENOMYL
.000000
12030202
CHLOROTHALONIL
.000000
12030202
MALATHION
.000000
12030202
PROPANIL
.000000
12030202
TRIFLURALIN
.000000
12030202
2,4-D ACID
NA
12030202
DICAMBA
NA
12030202
FURORE
NA
12030203
BENTAZON
.003274
12030203
MOLINATE
.001552
12030203
FOMESAFEN
.001207
12030203
ACIFLUORFEN
.000848
12030203
CARBARYL
.000726
12030203
THIOBENCARB
.000686
12030203
CARBOFURAN
.000306
12030203
METHYL PARATHION
.000190
12030203
FLUAZIFOP-P-BUTYL
.000121
12030203
LINURON
.000117
12030203
ALACHLOR
.000115
12030203
IMAZAQUIN ACID
.000086
12030203
PROPICONAZOLE
.000075
12030203
IPRODIONE
.000028
12030203
PENDIMETHALIN
.000013
12030203
BENOMYL
.000000
12030203
PROPANIL
.000000
12030203
TRIFLURALIN
.000000
12030203
2,4-D ACID
NA
12030203
FENVALERATE
NA
12030203
FURORE
NA
* NA means that one or more of the data elements needed to calculate NHRCM
for the pesticide was not available.
Picloram and 2,4-D combinations for hay and pasture application were not
included because rates were dependent on brush intensity rather than per acre.
Pesticides not included in the table had no use reported.
Numbers were truncated to six decimal places.
90
-------�
Appendix L. Normalized hazard rating coefficients emphasizing bioaccumulation
(NHRCB) for agricultural pesticides in the Trinity River Basin by hydrologic
unit (HU) and by pesticide.*
HU
PESTICIDE
NHRCB
12030101
METHYL PARATHION
.000256
12030101
MANCOZEB
.000221
12030101
ATRAZINE
.000220
12030101
METOLACHLOR
.000194
12030101
DIMETHOATE
.000104
12030101
CARBARYL
.000098
12030101
AZINPHOS-METHYL
.000069
12030101
BENTAZON
.000051
12030101
PARATHION
.000049
12030101
CHLORPYRIFOS
.000042
12030101
SETHOXYDIM
.000040
12030101
CHLORSULFURON
.000025
12030101
GLYPHOSATE
.000014
12030101
PROPICONAZOLE
.000009
12030101
METSULFURON-METHYL
.000004
12030101
PHOSMET
.000001
12030101
CAPTAN
.000000
12030101
CYPERMETHRIN
.000000
12030101
BENOMYL
.000000
12030101
CHLOROTHALONIL
.000000
12030101
ESFENVALERATE
.000000
12030101
MALATHION
.000000
12030101
PETROLEUM OIL
.000000
12030101
TRIFLURALIN
.000000
12030101
2,4-DB
NA
12030101
TRIADIMEFON
NA
12030101
PHOSALONE
NA
12030101
DISULFOTON
NA
12030101
ORYZALIN
NA
12030101
2,4-D ACID
NA
12030101
COPPER HYDROXIDE
NA
12030101
DICAMBA
NA
12030101
TRIPHENYLTIN
NA
12030102
CARBARYL
.000374
12030102
ATRAZINE
.000373
12030102
DIAZINON
.000221
12030102
MANCOZEB
.000189
12030102
BENSULIDE
.000177
12030102
DIMETHOATE
.000171
12030102
GLYPHOSATE
.000170
12030102
CHLORPYRIFOS
.000160
12030102
TERBUFOS
.000100
12030102
METALAXYL
.000069
12030102
CARBOFURAN
.000067
12030102
CHLORSULFURON
.000030
12030102
PROPICONAZOLE
.000013
12030102
METHYL PARATHION
.000011
12030102
BENTAZON
.000008
12030102
METOLACHLOR
.000007
12030102
BROMOXYNIL
.000005
12030102
MEVINPHOS
.000004
12030102
PHOSMET
.000004
12030102
AZINPHOS-METHYL
.000003
91
-------�
Appendix L. Normalized hazard rating coefficients emphasizing bioaccumulation
(NHRCB) for agricultural pesticides in the Trinity River Basin by hydrologic
unit (HU) and by pesticide.*(continued)
HU
PESTICIDE
NHRCB
12030102
CAPTAN
.000002
12030102
CYPERMETHRIN
.000000
12030102
METSULFURON-METHYL
.000000
12030102
BENOMYL
.000000
12030102
CHLOROTHALONIL
.000000
12030102
DICLOFOP-METHYL
.000000
12030102
MALATHION
.000000
12030102
PETROLEUM OIL
.000000
12030102
TRIFLURALIN
.000000
12030102
DISULFOTON
NA
12030102
2,4-DB
NA
12030102
PHOSALONE
NA
12030102
VERNOLATE
NA
12030102
TRIADIMEFON
NA
12030102
FLUAZIFOP-P-BUTYL
NA
12030102
ORYZALIN
NA
12030102
2,4-D ACID
NA
12030102
COPPER HYDROXIDE
NA
12030102
DICAMBA
NA
12030102
FENVALERATE
NA
12030102
SULPHUR
NA
12030102
TRIPHENYLTIN
NA
12030103
ARSENIC ACID
.002799
12030103
ALACHLOR
.001726
12030103
PENDIMETHALIN
.001165
12030103
QUINTOZENE
.001116
12030103
ATRAZINE
.001034
12030103
METHYL PARATHION
.000917
12030103
ALDICARB
.000844
12030103
SETHOXYDIM
. .000508
12030103
PARATHION
.000506
12030103
CYANAZINE
.000466
12030103
METOLACHLOR
.000440
12030103
DIMETHOATE
.000431
12030103
DICROTOPHOS
.000419
12030103
DIURON
.000386
12030103
CARBARYL
.000375
12030103
PROMETRYN
.000330
12030103
BROMOXYNIL
.000272
12030103
PROPICONAZOLE
.000238
12030103
MANCOZEB
.000221
12030103
TERBUFOS
.000218
12030103
CHLORSULFURON
.000189
12030103
CARBOFURAN
.000186
12030103
ETHEPHON
.000173
12030103
ACEPHATE
.000132
12030103
THIODICARB
.000112
12030103
BENTAZON
.000048
12030103
PARAQUAT
.000027
12030103
METSULFURON-METHYL
.000009
12030103
ACIFLUORFEN
.000009
12030103
ENDOTHALL
.000005
12030103
GLYPHOSATE
.000003
92
-------�
Appendix L. Normalized hazard rating coefficients emphasizing bioaccumulation
(NHRCB) for agricultural pesticides in the Trinity River Basin by hydrologic
unit (HU) and by pesticide.*(continued)
HU
PESTICIDE
NHRCB
12030103
THIDIAZURON
.000002
12030103
BENOMYL
.000000
12030103
CHLOROTHALONIL
.000000
12030103
DICLOFOP-METHYL
.000000
12030103
ESFENVALERATE
.000000
12030103
TRIFLURALIN
.000000
12030103
DISULFOTON
NA
12030103
2,4-DB
NA
12030103
TRIADIMEFON
NA
12030103
FLUOMETURON
NA
12030103
FLUAZIFOP-P-BUTYL
NA
12030103
ORYZALIN
NA
12030103
2,4-D ACID
NA
12030103
CYHALOTHRIN
NA
12030103
DICAMBA
NA
12030103
FENVALERATE
NA
12030103
MEPIQUAT
NA
12030104
ARSENIC ACID
.001686
12030104
METHYL PARATHION
.000758
12030104
MANCOZEB
.000544
12030104
SETHOXYDIM
.000340
12030104
ATRAZINE
.000305
12030104
ALDICARB
.000282
12030104
DIURON
.000232
12030104
PENDIMETHALIN
.000220
12030104
CYANAZINE
.000203
12030104
CHLORPYRIFOS
.000171
12030104
DIMETHOATE
.000135
12030104
BROMOXYNIL
.000131
12030104
CARBARYL
.000122
12030104
ETHEPHON
.000104
12030104
DICROTOPHOS
.000104
12030104
PROPICONAZOLE
.000076
12030104
THIODICARB
.000067
12030104
ACEPHATE
.000063
12030104
CHLORSULFURON
.000051
12030104
PARAQUAT
.000016
12030104
METSULFURON-METHYL
.000003
12030104
ENDOTHALL
.000003
12030104
THIDIAZURON
.000001
12030104
CHLOROTHALONIL
.000000
12030104
DICLOFOP-METHYL
.000000
12030104
ESFENVALERATE
.000000
12030104
TRIFLURALIN
.000000
12030104
DISULFOTON
NA
12030104
TRIADIMEFON
NA
12030104
FLUOMETURON
NA
12030104
FLUAZIFOP-P-BUTYL
NA
12030104
ORYZALIN
NA
12030104
2,4-D ACID
NA
12030104
CYHALOTHRIN
NA
12030104
DICAMBA
NA
12030104
FENVALERATE
NA
12030104
MEPIQUAT
NA
93
-------�
Appendix L. Normalized hazard rating coefficients emphasizing bioaccumulation
(NHRCB) for agricultural pesticides in the Trinity River Basin by hydrologic
unit (HU) and by pesticide.*(continued)
HU
PESTICIDE
NHRCB
12030105
ARSENIC ACID
.017932
12030105
ATRAZINE
.007592
12030105
PROMETRYN
.006352
12030105
TERBUFOS
.003778
12030105
ALDICARB
.002227
12030105
METOLACHLOR
.001916
12030105
METHYL PARATHION
.001696
12030105
THIODICARB
.001325
12030105
DICROTOPHOS
.001197
12030105
GLYPHOSATE
.001172
12030105
CHLORPYRIFOS
.001099
12030105
ALACHLOR
.001099
12030105
PROFENOFOS
.000976
12030105
PROPARGITE
.000955
12030105
CARBOFURAN
.000933
12030105
ACEPHATE
.000757
12030105
ETHEPHON
.000628
12030105
PARAQUAT
.000548
12030105
METHOMYL
.000504
12030105
SETHOXYDIM
.000433
12030105
PENDIMETHALIN
.000392
12030105
DIMETHOATE
.000384
12030105
MANCOZEB
.000364
12030105
CARBARYL
.000231
12030105
DIURON
.000217
12030105
CYANAZINE
.000157
12030105
PARATHION
.000149
12030105
THIDIAZURON
.000138
12030105
OXYDEMETON-METHYL
.000112
12030105
PROPICONAZOLE
.000102
12030105
PHOSPHAMIDON
.000093
12030105
MONOCROTOPHOS
.000081
12030105
AZINPHOS-METHYL
.000080
12030105
BROMOXYNIL
.000061
12030105
CHLORSULFURON
.000045
12030105
BIFENTHRIN
.000023
12030105
CYPERMETHRIN
.000019
12030105
METSULFURON-METHYL
.000002
12030105
CYFLUTHRIN
.000000
12030105
DICLOFOP-METHYL
.000000
12030105
ESFENVALERATE
.000000
12030105
TRIFLURALIN
.000000
12030105
MONOSODIUM METHANEARSONATE
NA
12030105
DISULFOTON
NA
12030105
FLUAZIFOP-P-BUTYL
NA
12030105
PHOSALONE
NA
12030105
TRIADIMEFON
NA
12030105
2,4-D ACID
NA
12030105
BUTIFOS
NA
12030105
CYHALOTHRIN
NA
12030105
DICAMBA
NA
12030105
TRIPHENYLTIN
NA
94
-------�
Appendix L. Normalized hazard rating coefficients emphasizing bioaccumulation
(NHRCB) for agricultural pesticides in the Trinity River Basin by hydrologic
unit (HU) and by pesticide.*(continued)
HU
PESTICIDE
NHRCB
12030106
ALACHLOR
.004649
12030106
ATRAZINE
.002882
12030106
TERBUFOS
.002864
12030106
METHYL PARATHION
.000652
12030106
PENDIMETHALIN
.000602
12030106
METOLACHLOR
.000486
12030106
CARBARYL
.000481
12030106
CARBOFURAN
.000365
12030106
PROMETRYN
.000338
12030106
MANCOZEB
.000333
12030106
DIMETHOATE
.000320
12030106
CYANAZINE
.000231
12030106
DICROTOPHOS
.000217
12030106
BROMOXYNIL
.000050
12030106
CHLORSULFURON
.000042
12030106
PROPICONAZOLE
.000041
12030106
METSULFURON-METHYL
.000003
12030106
GLYPHOSATE
.000001
12030106
SETHOXYDIM
.000001
12030106
DICLOFOP-METHYL
.000000
12030106
MALATHION
.000000
12030106
TRIFLURALIN
.000000
12030106
DISULFOTON
NA
12030106
TRIADIMEFON
NA
12030106
FLUAZIFOP-P-BUTYL
NA
12030106
2,4-D ACID
NA
12030106
DICAMBA
NA
12030107
CARBARYL
.000812
12030107
DIURON
.000349
12030107
PENDIMETHALIN
.000336
12030107
DIMETHOATE
.000133
12030107
CHLORTHAL DIMETHYL
.000102
12030107
GLYPHOSATE
.000097
12030107
METHYL PARATHION
.000082
12030107
ATRAZINE
.000050
12030107
ENDOSULFAN
.000030
12030107
MANCOZEB
.000022
12030107
PARATHION
.000020
12030107
DIAZINON
.000016
12030107
OXYDEMETON-METHYL
.000011
12030107
CHLORSULFURON
.000010
12030107
METSULFURON-METHYL
.000001
12030107
BENOMYL
.000000
12030107
CHLOROTHALONIL
.000000
12030107
TRIFLURALIN
.000000
12030107
DISULFOTON
NA
12030107
TRICLOPYR
NA
12030107
FLUAZIFOP-P-BUTYL
NA
12030107
2,4-D ACID
NA
12030107
DICAMBA
NA
12030107
DSMA
NA
12030107
FENVALERATE
NA
95
-------�
Appendix L. Normalized hazard rating coefficients emphasizing bioaccumulation
(NHRCB) for agricultural pesticides in the Trinity River Basin by hydrologic
unit (HU) and by pesticide.*(continued)
HU
PESTICIDE
NHRCB
12030108
ARSENIC ACID
.036015
12030108
PROMETRYN
.011797
12030108
METOLACHLOR
.006530
12030108
PARATHION
.005942
12030108
ATRAZINE
.005642
12030108
GLYPHOSATE
.004121
12030108
ALDICARB
.004096
12030108
TERBUFOS
.002106
12030108
CARBOFURAN
.002106
12030108
ACEPHATE
.001540
12030108
PROPARGITE
.001517
12030108
METHYL PARATHION
.001157
12030108
DICROTOPHOS
.001027
12030108
CARBARYL
.000847
12030108
METHOMYL
.000812
12030108
DIMETHOATE
.000794
12030108
DIURON
.000762
12030108
PROPICONAZOLE
.000692
12030108
THIODICARB
.000564
12030108
MONOCROTOPHOS
.000285
12030108
MANCOZEB
.000281
12030108
PENDIMETHALIN
.000216
12030108
THIDIAZURON
.000183
12030108
PARAQUAT
.000164
12030108
ALACHLOR
.000147
12030108
AZINPHOS-METHYL
.000097
12030108
CYPERMETHRIN
.000080
12030108
CHLORSULFURON
.000064
12030108
BROMOXYNIL
.000027
12030108
CHLORPYRIFOS
.000015
12030108
METSULFURON-METHYL
.000001
12030108
BENOMYL
.000000
12030108
DICLOFOP-METHYL
.000000
12030108
ESFENVALERATE
.000000
12030108
MALATHION
.000000
12030108
PETROLEUM OIL
.000000
12030108
TRIFLURALIN
.000000
12030108
MONOSODIUM METHANEARSONATE
NA
12030108
DISULFOTON
NA
12030108
FLUAZIFOP-P-BUTYL
NA
12030108
TRIADIMEFON
NA
12030108
PHOSALONE
NA
12030108
2,4-D ACID
NA
12030108
BUTIFOS
NA
12030108
CYHALOTHRIN
NA
12030108
DICAMBA
NA
12030108
FENVALERATE
NA
12030108
TRIPHENYLTIN
NA
12030109
ARSENIC ACID
.024870
12030109
ATRAZINE
.012369
12030109
PROMETRYN
.008288
12030109
TERBUFOS
.005542
12030109
METOLACHLOR
.003355
12030109
ALDICARB
.002974
96
-------�
Appendix L. Normalized hazard rating coefficients emphasizing bioaccumulation
(NHRCB) for agricultural pesticides in the Trinity River Basin by hydrologic
unit (HU) and by pesticide.*(continued)
HU
PESTICIDE
NHRCB
12030109
METHYL PARATHION
.002393
12030109
CHLORPYRIFOS
.002050
12030109
THIODICARB
.001735
12030109
DICROTOPHOS
.001615
12030109
GLYPHOSATE
.001585
12030109
DIMETHOATE
.001359
12030109
ALACHLOR
.001342
12030109
PROFENOFOS
.001251
12030109
PROPARGITE
.001251
12030109
ACEPHATE
.001027
12030109
CARBOFURAN
.001022
12030109
MANCOZEB
.000934
12030109
PARATHION
.000812
12030109
ETHEPHON
.000806
12030109
METHOMYL
.000772
12030109
PARAQUAT
.000714
12030109
SETHOXYDIM
.000555
12030109
PENDIMETHALIN
.000516
12030109
PROPICONAZOLE
.000360
12030109
DIURON
.000328
12030109
CARBARYL
.000296
12030109
CYANAZINE
.000294
12030109
THIDIAZURON
.000187
12030109
CHLORSULFURON
.000170
12030109
BROMOXYNIL
.000157
12030109
OXYDEMETON-METHYL
.000143
12030109
MONOCROTOPHOS
.000122
12030109
PHOSPHAMIDON
.000119
12030109
AZINPHOS-METHYL
.000108
12030109
CYPERMETHRIN
.000029
12030109
BIFENTHRIN
.000029
12030109
METSULFURON-METHYL
.000004
12030109
CYFLUTHRIN
.000000
12030109
DICLOFOP-METHYL
.000000
12030109
ESFENVALERATE
.000000
12030109
TRIFLURALIN
.000000
12030109
MONOSODIUM METHANEARSONATE
NA
12030109
DISULFOTON
NA
12030109
FLUAZIFOP-P-BUTYL
NA
12030109
TRIADIMEFON
NA
12030109
PHOSALONE
NA
12030109
2,4-D ACID
NA
12030109
BUTIFOS
NA
12030109
CYHALOTHRIN
NA
12030109
DICAMBA
NA
12030109
TRIPHENYLTIN
NA
12030201
CARBARYL
.001026
12030201
ARSENIC ACID
.000071
12030201
PROMETRYN
.000011
12030201
METOLACHLOR
.000010
12030201
ALDICARB
.000009
12030201
CHLORPYRIFOS
.000006
12030201
GLYPHOSATE
.000006
97
-------�
Appendix L. Normalized hazard rating coefficients emphasizing bioaccumulation
(NHRCB) for agricultural pesticides in the Trinity River Basin by hydrologic
unit (HU) and by pesticide.*(continued)
HU
PESTICIDE
NHRCB
12030201
METHYL PARATHION
.000006
12030201
PARATHION
.000006
12030201
METHOMYL
.000004
12030201
DICROTOPHOS
.000003
12030201
DIURON
.000003
12030201
THIODICARB
.000002
12030201
AZINPHOS-METHYL
.000002
12030201
ACEPHATE
.000002
12030201
PROPICONAZOLE
.000002
12030201
PROPARGITE
.000002
12030201
MONOCROTOPHOS
.000001
12030201
PENDIMETHALIN
.000001
12030201
DIMETHOATE
.000000
12030201
PARAQUAT
.000000
12030201
THIDIAZURON
.000000
12030201
CYPERMETHRIN
.000000
12030201
CHLORSULFURON
.000000
12030201
BENOHYL
.000000
12030201
CHLOROTHALONIL
.000000
12030201
ESFENVALERATE
.000000
12030201
MALATHION
.000000
12030201
PETROLEUM OIL
.000000
12030201
TRIFLURALIN
.000000
12030201
MONOSODIUM METHANEARSONATE
NA
12030201
DISULFOTON
NA
12030201
FLUAZIFOP-P-BUTYL
NA
12030201
PHOSALONE
NA
12030201
TRIADIMEFON
NA
12030201
2,4-D ACID
NA
12030201
BUTIFOS
NA
12030201
CAPTAN
NA
12030201
CYHALOTHRIN
NA
12030201
DICAMBA
NA
12030201
TRIPHENYLTIN
NA
12030202
SULPROFOS
.000118
12030202
CARBARYL
.000081
12030202
MOLINATE
.000056
12030202
THIOBENCARB
.000020
12030202
DIAZINON
.000018
12030202
DIMETHOATE
.000016
12030202
MANCOZEB
.000009
12030202
METOLACHLOR
.000009
12030202
METHYL PARATHION
.000006
12030202
BENTAZON
.000005
12030202
CARBOFURAN
.000005
12030202
PENDIMETHALIN
.000003
12030202
GLYPHOSATE
.000003
12030202
ACIFLUORFEN
.000002
12030202
PROPICONAZOLE
.000001
12030202
ALACHLOR
.000001
12030202
IPRODIONE
.000000
12030202
METRIBUZIN
.000000
12030202
LINURON
.000000
98
-------�
Appendix L. Normalized hazard rating coefficients emphasizing bioaccumulation
(NHRCB) for agricultural pesticides in the Trinity River Basin by hydrologic
unit (HU) and by pesticide.*(continued)
HU
PESTICIDE
NHRCB
12030202
PERMETHRIN
.000000
12030202
SETHOXYDIM
.000000
12030202
IMAZAQUIN ACID
.000000
12030202
BENOMYL
.000000
12030202
CHLOROTHALONIL
.000000
12030202
MALATHION
.000000
12030202
PROPANIL
.000000
12030202
TRIFLURALIN
.000000
12030202
CLOPYRALID
NA
12030202
FOMESAFEN
NA
12030202
TRIADIMEFON
NA
12030202
FLUAZIFOP-P-BUTYL
NA
12030202
2,4-D ACID
NA
12030202
DICAMBA
NA
12030202
FURORE
NA
12030203
MOLINATE
.006144
12030203
THIOBENCARB
.005373
12030203
CARBARYL
.004825
12030203
BENTAZON
.002608
12030203
CARBOFURAN
.001544
12030203
METHYL PARATHION
.001309
12030203
ACIFLUORFEN
.001202
12030203
LINURON
.000797
12030203
ALACHLOR
.000608
12030203
PROP I CON A Z OLE
.000512
12030203
IPRODIONE
.000264
12030203
PENDIMETHALIN
.000236
12030203
IMAZAQUIN ACID
.000135
12030203
BENOMYL
.000000
12030203
PROPANIL
.000000
12030203
TRIFLURALIN
.000000
12030203
FOMESAFEN
NA
12030203
FLUAZIFOP-P-BUTYL
NA
12030203
2,4-D ACID
NA
12030203
FENVALERATE
NA
12030203
FURORE
NA
* NA means that one or more of the data elements needed to calculate NHRCB
for the pesticide was not available.
Picloram and 2,4-D combinations for hay and pasture application were not
included because rates were dependent on brush intensity rather than per acre.
Pesticides not included in the table had no use reported.
Numbers were truncated to six decimal places.
99
-------�
Appendix M. Maps of the Trinity River Basin in Texas generated with ARC/INFO.
The surface water or hydrology was available as a data set or theme for the
area (Appendix K) from the TIGER files which originate from USGS Digital Line
Graphs. These files number each hydrologic unit (HU) as a segment of a river
system. The HU's in the Trinity River basin and the associated numbers are
presented here. A few small HU's near the mouth of the river have been included
besides those delineated as the Trinity River by TWC (1990) because the HU's have
been associated at least in part with the Trinity.
Maps included:
Hydrologic Units in the Trinity River Basin with County Boundaries in Central and
East Texas
Hydrology of the Trinity River Basin
Normalized Hazard Rating Coefficients emphasizing Mobility by Hydrologic Unit in
the Trinity River Basin for the following pesticides:
Normalized Hazard Rating Coefficients emphasizing Bioaccumulation by Hydrologic
Unit in the Trinity River Basin for the following pesticides:
atrazine
bentazon
carbaryl
dicrotophos
acephate
alachlor
aldicarb
arsenic acid
diuron
ethephon
fluometuron
metolachlor
parathion (ethyl)
parathion (methyl)
prometryn
terbufos
acephate
alachlor
aldicarb
diuron
ethephon
fluometuron
metolachlor
parathion (ethyl)
parathion (methyl)
prometryn
terbufos
arsenic acid
atrazine
bentazon
carbaryl
dicrotophos
100
-------�
Hydrologic Unit Areas in the Trinity River Basin
with County Boundaries in Central and East Texas
v-1203010?
&030104 :
120301Q1
12.0301Q2,
12030108
1'2030?01
12^30202'
101
-------�
Hydrology in the Trinity River Basin
102
-------�
Normalized Hazard Rating emphasizing Mobility for Acephate
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
0.000000-0.000001
0.000001 - 0.000050
^1
0.000051 - 0.000100
0.000101 - 0.000150
0.000151 - 0.000200
0.000201 - 0.000250
1!
d
ET3
-H-
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
0.000451 - 0.000500
Greater than 0.000500
103
-------�
Normalized Hazard Rating emphasizing Mobility for Alachlor
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
CD
EZ3
-H-
0.000000-0.000001
0.000001 - 0.000050
0.000051-0.000100
^ 0.000101 - 0.000150
0.000151-0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351-0.000400
0.000401 • 0.000450
0.000451 - 0.000500
Greater than 0.000500
104
-------�
Normalized Hazard Rating emphasizing Mobility for Aldicarb
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
0.000000-0.000001
0.000001 - 0.000050
0.000051 - 0.000100
0.000101 - 0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
EZ3
0.000401 - 0.000450
-H-
0.000451-0.000500
Greater than 0.000500
105
-------�
Normalized Hazard Rating emphasizing Mobility for Arsenic Acid
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
77.
&
0.000000- 0.000001
0.000001 - 0.000050
0.000051-0.000100
0.000101 - 0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
EZ3 11
000401 - 0.000450
0.000451 -0.000500
Greater than 0.000500
106
-------�
Normalized Hazard Rating emphasizing Mobility for Atrazine
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
0.000000-0.000001
0.000001 - 0.000050
0.000051-0.000100
0.000101 - 0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
H
Em
EZ3
-H-
0.000301 - 0.000350
0.000351-0.000400
0.000401 - 0.000450
0.000451 - 0.000500
Greater than 0.000500
107
-------�
Normalized Hazard Rating emphasizing Mobility for Bentazon
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
0.000000 - 0.000001
0.000001 - 0.000050
0.000051-0.000100
0.000101-0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
|a ¦ ¦ | 0-'
000401 - 0.000450
-H-
0.000451 - 0.000500
Greater than 0.000500
108
-------�
Normalized Hazard Rating emphasizing Mobility for Carbaryl
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
in
re
0.000000 - 0.000001
0.000001 - 0.000050
0.000051 - 0.000100
0.000101-0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351-0.000400
Q *
000401 - 0.000450
0.000451-0.000500
Greater than 0.000500
109
-------�
Normalized Hazard Rating emphasizing Mobility for Dicrotophos
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
0.000000-0.000001
0.000001 - 0.000050
in]
EZ3
0.000051 - 0.000100
0.000101 - 0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
0.000451 -0.000500
Greater than 0.000500
110
-------�
Normalized Hazard Rating emphasizing
by Hydrologic Unit in the Trinity
Mobility for Diuron
River Basin
Normalized Hazard Rating
0.000000-0.000001
0.000001 - 0.000050
0.000051-0.000100
0.000101 - 0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
E3
EZ3 °J
0.000351 - 0.000400
000401 - 0.000450
0.000451 - 0.000500
Greater than 0.000500
111
-------�
Normalized Hazard Rating emphasizing Mobility for Ethephon
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
v?.
m
EC
EZ3
0.000000 - 0.000001
0.000001 - 0.000050
0.000051 - 0.000100
0.000101 - 0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
0.000451 - 0.000500
Greater than 0.000500
112
-------�
Normalized Hazard Rating emphasizing Mobility for Fluometuron
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
VS
Em
EZ3
-H-
0.000000-0.000001
0.000001 - 0.000050
0.000051 - 0.000100
0.000101 - 0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
0.000451 - 0.000500
Greater than 0.000500
113
-------�
Normalized Hazard Rating emphasizing
by Hydrologic Unit in the Trinity
Mobility for Methyl Parathion
River Basin
Normalized Hazard Rating
22
Em
F~"1
-H-
0.000000- 0.000001
0.000001 - 0.000050
0.000051 -0.000100
0.000101 - 0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
0.000451 -0.000500
Greater than 0.000500
114
-------�
Normalized Hazard Rating emphasizing Mobility for Metolachlor
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
EH
0.000000 - 0.000001
0.000001 - 0.000050
0.000051 -0.000100
0.000101 - 0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
F~"1
0.000401 - 0.000450
4f
0.000451 - 0.000500
Greater than 0.000500
115
-------�
Normalized Hazard Rating emphasizing Mobility for Parathion
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
* ** »
0.000000-0.000001
0.000001 - 0.000050
• •
• •
0.000051-0.000100
0.000101 - 0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
EH
0.000451 - 0.000500
Greater than 0.000500
116
-------�
Normalized Hazard Rating emphasizing Mobility for Prometryn
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
22
m
cm
F77!
EH
0.000000 - 0.000001
0.000001 - 0.000050
0.000051 - 0.000100
O 0.000101-0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
0.000451 - 0.000500
Greater than 0.000500
117
-------�
Normalized Hazard Rating emphasizing Mobility for Terbufos
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
mi
EZ3
0.000000-0.000001
0.000001 - 0.000050
0.000051 - 0.000100
0.000101-0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
0.000451 - 0.000500
Greater than 0.000500
118
-------�
Normalized Hazard Rating emphasizing Bioaccumulation for Acephate
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
11
cm
Em
0.000000 - 0.000001
0.000001 - 0.000050
0.000051 - 0.000100
0.000101-0.000150
0.000151-0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
0.000451 - 0.000500
Greater than 0.000500
119
-------�
Normalized Hazard Rating emphasizing Bioaccumulation for Alachlor
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
0.000000 - 0.000001
0.000001 - 0.000050
O.O0OO51 - 0.000100
0.000101 - 0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
a a m 0.000401-0.000450
+1-
0.000451 - 0.000500
Greater than 0.000500
120
-------�
Normalized Hazard Rating emphasizing Bioaccumulation for Aldicarb
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
0.000000-0.000001
0.000001 - 0.000050
<>"«W
* (i
• •
• •
0.000051-0.000100
0.000101-0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
0.000451-0.000500
Greater than 0.000500
121
-------�
Normalized Hazard Rating emphasizing Bioaccumulation for Arsenic Acid
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
VP.
cm
Em
-H-
0.000000-0.000001
0.000001 - 0.000050
0.000051 - 0.000100
0.000101 - 0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 ¦ 0.000450
0.000451 - 0.000500
Greater than 0.000500
122
-------�
Normalized Hazard Rating emphasizing Bioaccumulation for Atrazine
by Hydrologic Unit in the Trinity River Basin
m
Normalized Hazard Rating
HI
cn
0.000000 - 0.000001
0.000001 - 0.000050
0.000051 - 0.000100
^ 0.000101-0.000150
Em
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
0.000451 - 0.000500
Greater than 0.000500
123
-------�
Normalized Hazard Rating emphasizing Bioaccumulation for Bentazon
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
» » V« A
0.000000-0.000001
0.000001 - 0.000050
0.000051-0.000100
0.000101 - 0.000150
0.000151-0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
F"1
0.000401 - 0.000450
-1+
0.000451 - 0.000500
Greater than 0.000500
124
-------�
Normalized Hazard Rating emphasizing Bioaccumulation for Carbaiyl
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
X
0.000000-0.000001
0.000001 - 0.000050
i
• •
• •
0.000051 - 0.000100
0.000101 - 0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
+H
0.000451-0.000500
Greater than 0.000500
125
-------�
Normalized Hazard Rating emphasizing Bioaccumulation for Dicrotophos
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
0.000000-0.000001
0.000001 - 0.000050
0.000051-0.000100
0.000101-0.000150
0.000151 - 0.000200
EH
G3
EZ3
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
0.000451 - 0.000500
Greater than 0.000500
126
-------�
Normalized Hazard Rating emphasizing Bioaccumulation for Diuron
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
HI
eh
EZ3
0.000000 - 0.000001
0.000001 - 0.000050
UK
0.000051 - 0.000100
0.000101-0.000150
0.00015! - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
0.000451 - 0.000500
Greater than 0.000500
127
-------�
Normalized Hazard Rating emphasizing Bioaccumulation for Ethephon
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
E3
EZ3
eh
0.000000 - 0.000001
0.000001 - 0.000050
0.000051-0.000100
0.000101 - 0.000150
0.000151-0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
0.000451 - 0.000500
Greater than 0.000500
128
-------�
Normalized Hazard Rating emphasizing Bioaccumulation for Fluometuron
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
0.000000- 0.000001
0.000001 - 0.000050
0.000051 -0.000100
0.000101-0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
;u 0.000451 - 0.000500
Greater than 0.000500
129
-------�
Normalized Hazard Rating emphasizing Bioaccumulation for Methyl Parathion
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
* *
0.000000-0.000001
0.000001 - 0.000050
0.000051 - 0.000100
O 0.000101 - 0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
E5S
0.000451 - 0.000500
Greater than 0.000500
130
-------�
Normalized Hazard Rating emphasizing Bioaccumulation for Metolachlor
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
•\S1
0.000000-0.000001
0.000001 - 0.000050
0.000051-0.000100
0.000101-0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
0.000451 - 0.000500
Greater than 0.000500
131
-------�
Normalized Hazard Rating emphasizing Bioaccumulation for Parathion
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
Em
El3
0.000000 - 0.000001
0.000001 - 0.000050
0.000051 - 0.000100
0.000101 - 0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
1.000301 - 0.000350
0.000351-0.000400
0.000401 - 0.000450
0.000451-0.000500
Greater than 0.000500
132
-------�
Normalized Hazard Rating emphasizing Bioaccumulation for Prometryn
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
22
r-
b u o
0.000000 - 0.000001
0.000001 - 0.000050
0.000051 - 0.000100
0.000101-0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
EZ3
0.000401 - 0.000450
+1-
0.000451 - 0.000500
Greater than 0.000500
133
-------�
Normalized Hazard Rating emphasizing Bioaccumulation for Terbufos
by Hydrologic Unit in the Trinity River Basin
Normalized Hazard Rating
sS
'0«v>
A. AT X A
o •
• •
0.000000-0.000001
0.000001 - 0.000050
EZ3
E3
0.000051-0.000100
0.000101 - 0.000150
0.000151 - 0.000200
0.000201 - 0.000250
0.000251 - 0.000300
0.000301 - 0.000350
0.000351 - 0.000400
0.000401 - 0.000450
0.000451 - 0.000500
Greater than 0.000500
134
-------� |