Li-1

Table B.Trace elements and carbon concentrations Inbottom sediment analyzed by methods other than
inductively coupled plasma method (Severson and others, 1987)

[Site No.: D, duplicate sample; 5, split sample. Concentrations: Firstline shows concentration for bottom sediment less than
0.062-millimeter size fraction; Second line shows concentration for bottom sediment less than 2.0-millimeter size fraction.
<, actual value is less than value shown. --, no data]

Microgramper gram Total ~~~~Total

Site Date Mirgrmrebra ota organic
No.
Arsenic Boron Mercury Selenium Uranium (ecn) carbon

(percent) (percent)

1 8-24-88 6.8 0.8 0.22 0.4 0.70 7.10 7.08
.4 .40 5.80 5.78
5.5 1.0 .26

3 8-17-88 2.6 <.4 .06 .2 .55 1.36 1.32

2.8 <.4 .10 .1 .15 .26 .23

4 8-23-88 6.3 .7 .04 .7 .55 7.27 6.08

5.8 1.1 .06 .6 .55 7.08 5.70

5 8-23-88 S.8 1.7 .06 .6 .50 7.76 7.37
1.0 .02 .5 .60 8.87 8.43
5.2

6 8-23-88 6.7 1.2 .04 .6 .8.5 9.71 7.68
1.7 .04 .6 1.10 9.79 8.08
6.8

6S 8-23-88 6.8 1.8 .04 .6 1.10 9.66 7.65
6.7 1.2 .04 .6 .75 9.74 8.00

8 8-24-88 14 2.7 .04 .6 .SS 10.9 8.01
2.3 .02 .5 .65 12.4 9.94
11

8D 8-24-88 iS -- .04 .6 .90 11.4 8.56

12 3.4 .04 .6 .55 12.9 10.6

13 8-17-88 16 2.5 .06 .6 .45 6.99 6.73
15 2.4 .04
.6 .50 7.50 7.24

17 8-19-88 1.0 <.4 .04 .1 .75 1.39 1.38
.1 .35 1.04 1.02
1.0 <.4 <.02

18 8-19-88 .6 <.4 <.02 .1 .25 .97 .97
.1 .15 .33 .33
1.0 <.4 <.02

24 8-26-88 5.1 .9 .06 .4 .40 5.89 5.78

5.2 --. 12 .4 .50 6.61 6.61

25 8-26-88 8.S .8 .04 .6 .70 7.15 7.14

8.6 --. 02 .5 .70 8.14 8.14

Table B 49

W Table C. Trace elements in bottom sediment analyzed using indu

a [Site No.: D, duplicate sample; S. split sample. Trace-element concentrations
0 bottom sediment less than 0.062-millimeter size fraction; Second line shows co

value is less than value shown]

aC

- SNiote. Date Aluminum Arsenic Barium Beryllium Bismuth Cadmium

0gQ.

3 1 8-24-88 4.7 <10 330 <1 <10 <2
(t 73 <10 520 <1 <10 <2

a- <2

3 3 8-17-88 7.4 <10 520 1 <10 <2
a 9.2 <10 490 1 <10

a. 4 8-23-88 5.0 <10 240 <1 <10 <2
<1 <10 <2
UT 5.3 <10 230
<1 <10 <2
55.. 5 8-23-88 5.5 <10 250 1 <10 <2
<10 280
5.8

8 6 8-23-88 4.3 <10 190 <1 <10 <2

a 4.5 <10 240 <1 <10 <2

ato 6S 8-23-88 4.3 <10 200 <1 <10 <2
4.5 <10 240 <1 <10
<2

0 8 8-24-88 2.6 20 170 <1 <10 <2
10 170 <1 <10
a 2.7 <2
20 170 <1 <10
0 10 160 <1 <10 <2

8D 8-24-88 2.5 <2

2.5

13 8-17-88 2.7 20 140 <1 <10 <2
<1 <10 <2
2.7 20 150

3a 17 8-19-88 9.4 <10 340 I <10 <2
9.3 1 <10
<10 380 <2
a0tao 19 8-19-88 9.5 <1 <10
w 8.7 <10 340 1 <10 <2
<10 340 <2

24 8-26-88 2.1 <10 87 <1 <10 <2
<1 <10 <2
2.3 <10 94
<1 <10 <2
40 10 67 <1 <10 <2

25 8-26-88 2.0 10 89

2.8

0

-n

uctively coupled plasma method (Severson and others, 1987)

are in micrograms per gram. Concentrations: Firstline shows concentration for
oncentration for bottom sediment less than 2.0-millimeter size fraction. <, actual

m Calcium Cerium Chromium Cobalt Copper Europium Gallium Gold

1.6 13 55 12 44 <2 10 <8

2.8 17 63 19 51 <2 14 <8

2.5 23 78 22 36 <2 15 <8

3.9 27 61 15 16 <2 18 <8

5.3 13 49 12 48 <2 10 <8
6.0 13 50 12 43 <2 11 <8

3.1 14 58 12 51 <2 12 <8
3.2 16 55 13 45 <2 12 <8

7.7 12 43 10 36 <2 10 <8
5.6 11 44 10 37 <2 9 <8

7.6 11 43 10 38 <2 9 <8

6.8 12 44 10 37 <2 9 <8

11 9 21 10 24 <2 5 <8
8 20 8 20 <2 6 <8
9.5
9 21 9 21 <2 6 <8
10
7 19 8 17 <2 5 <8
9.3
11 27 11 30 <2 6 <8
2.2 10 27 11 30 <2 5 <8
2.3
30 120 31 63 <2 18 <8
3.2 31 53 <2 18 <8
24 120
3.7 38 67 <2 18 <8
17 170 37 44 <2 18 <8
4.8 25 180
4.7 4 19 <2 4 <8
6 25 5 20 <2 5 <8
.51 7 27
.56 5 21 <2 5 <8
7 23 7 35 <2 6 <8
.53 8 30
.97

Table C. Trace elements in bottom sediment analyzed using induct
Continued

SNiote. Date Holmium Iron Lanthanum Lead Lithium Magnesium Ma

1 8-24-88 <4 25 8 46 17 0.77
<4 2.8 11 33 23 1.6

3 8-17-88 <4 3.9 14 16 22 .86
<4 3.0 17 10 20 1.3

4 8-23-88 <4 2.8 10 8 23 .74
.80
<4 2.8 10 6 23

5 8-23-88 <4 3.1 11 8 26 .71
.89
<4 3.3 11 8 26

6 8-23-88 <4 25 10 5 24 1.2
1.1
<4 2.5 10 5 24

6S 8-23-88 <4 25 10 4 24 1.1
<4 2.5 9 <4 24 1.1

8 8-24-88 <4 1.6 8 <4 18 1.6
<4 1.4 8 <4 16 1.2

8D 8-24-88 <4 15 8 <4 17 15
<4 1.4 8 <4 15 1.2

13 8-17-88 <4 1.9 7 <4 16 59
<4 1.9 7 5 17 .59

17 8-19-88 <4 4.9 16 8 18 1.4
1.7
<4 4.7 16 7 17

19 8-19-88 <4 5.3 11 <4 13 2.4 1

<4 6.3 18 <4 15 2.8 1

24 8-26-88 <4 1.2 4 <4 11 .20
<4 1.3 4 <4 11 .22

25 8-26-88 <4 1.2 3 <4 11 .20
4 4 12 .41
<4 1.6

a-I

0
C"

tively coupled plasma method (Severson and others, 1987)-

anganese Molybdenum Neodymium Nickel Niobium Phosphorus Potassium

320 4 7 29 <4 0.11 0.35
470 <2 11 41 <4 .12 .57

700 <2 14 39 4 .08 55
520 <2 15 26 7 .05 1.1

470 4 10 36 10 .10 .46
440 3
10 35 <4 .11 .51
530 2
510 <2 10 42 10 .1 51
10 41 <4 .1 .57
480 2
440 <2 9 33 <4 .13 .37
.13 .40
470 <2 7 33 <4
450
<2 8 32 7 .13 .37
640 10 33 9 .13 .40
480 3
2 7 18 <4 .14 .39
600 7 15 <4 .15 A3
480 2
2 7 16 <4 .14 .38
340 7 15 <4 .14 .40
350 <2
<2 6 19 <4 .11 .26
720 5 19 <4 .11 .26
740 <2
<2 16 29 <4 .06 .48
1,600 15 71 <4 .05 .62
1,400 <2
<2 13 93 <4 .05 .64
85 18 85 4 .05 .85
96 <2
<2 <4 12 <4 .06 .14
66 <4 13 <4 .06 .15
130 <2
<2 5 14 7 .05 .12
<4 18 <4 .06 .15

Table C. Trace elements in bottom sediment analyzed using indu

Continued

I0 SNiote. Date Scandium Silver Sodium Strontium Tantalum Th

1 8-24-88 9 <2 0.76 250 <40

13 <2 1.3 570 <40

3 3 8-17-88 15 <2 13 370 <40

w 12 <2 2.6 550 <40

a. 4 8-23-88 12 <2 59 280 <40
<2 .76 290 <40
w 12

E. 5 8-23-88 12 <2 .64 230 <40
<2 .76 340 <40
13
<2 .35 340 <40
a8 6 8-23-88 11 <2 .40 310 <40

11

6S 8-23-88 11 <2 .36 330 <40
.39 310 <40
11 <2

0

8 8-24-88 5 <2 .68 560 <40
0 4 <2 .78 460 <40

a 8D 8-24-88 4 <2 .67 530 <40
.70 440 <40
4 <2

3E 13 8-17-88 6 <2 .44 190 <40

a 6 <2 .43 190 <40

aw0 17 8-19-88 24 <2 1.3 280 <40
380 <40
0 25 <2 1.7
340 <40
a 19 8-19-88 29 <2 1.7 380 <40

a 30 <2 2.1

0 24 8-26-88 4 <2 .24 61 <40
<2 .27 69 <40
40 5

25 8-26-88 4 <2 .20 59 <40

6 <2 A4 110 <40

-7

uctively coupled plasma method (Severson and others, 1987)-

horium Tin Titanium Uranium Vanadiurn Ytterbium Yttrium Zinc

<4 <10 028 <100 100 1 8 77
<4 <10 .44 <100 160 2 11 86

<4 <10 .49 <100 150 2 15 66
<4 <10 .38 <100 76 2 17 48

<4 <10 .29 <100 130 2 10 53
<4 <10 .30 <100 120 2 11 64

<4 <10 32 <100 120 2 11 58
<4 <10 .35 <100 120 2 12 S5

<4 <10 .26 <100 130 1 10 44
<4 <10 .27 <100 130 1 9 44

<4 <10 .26 <100 130 1 10 45
<4 <10 .39 <100 130 1 9 45

<4 <10 .15 <100 92 <1 5 27
<4 <10 .13 <100 74 <1 5 23

<4 <10 .14 <100 86 <1 5 25
<4 <10 .13 <100 75 <1 5 23

<4 <10 .17 <100 110 <1 6 43
<4 <10 .17 <100 110 <1 6 43

<4 <10 55 <100 140 3 22 77
<4 <10 .57 <100 150 3 20 59

<4 <10 .69 <100 180 3 17 65
<4 <10 1.0 <100 220 3 17 75

<4 <10 .13 <100 53 <1 4 23
<4 <10 .14 <100 58 <1 5 25

<4 <10 .11 <100 64 <1 4 26
<4 <10 .16 <100 83 <1 5 34

Table D. Trace elements in biological tissue analyzed by methods other than inductively coupled plasma
method

[Trace-element concentrations in microgram per gram on a dry weight basis. <, actual value is less than value shown.
--, no data]

Sample type Site Date Sample Arsenic Antimony Mercury Selenium Thallium
No. No.
Pond weed <0.463
1 7-15-88 Aquatic Plants <.397
Chironomids 2 7-11-88 <.338
4 7-15-88 LRD-PL-01 2.74 <0.463 <1.9 <1.9
Clams 5 7-15-88 .448
8 7-15-88 AR-PL-01 4.25 <.397 .829 <1.6 <1.6
Crayfish 9 7-11-88 TL-PL-01 4.99 <.338 <.343 <1.4 <1.4
Damselflys 14 7-11-88 TL-PL-02 5.41 <.431 .625 <1.7 1.7
Damselflys, caddisflys LK-PL-01 25.1 <.610 <.439 <2.4 <2.4
Daphnia, water boatmen 17 7-14-88 <.264
Daphnia, water boatmen, 18 7-14-88 LK-PL-02 2.67 <.342 .382 <1.4 <1.4
24 7-14-88 KSD-PL-01 8.65 <.521 <.272 <2.1 <2.1
damselflys 26 7-13-88 KSD-PL-02 5.65 <.439 <.511 <1.8 <1.8
Daphnia LR-PL-01 .063 <.263 <1.1 <1.1
Daphnia, water boatmen, 1 7-12-88 MC-PL-01 2.22 <.368 .di VAQ <1.5 <1.5
UKL-PL-02 3.64 <.272 <1.1 <1.1
chironomids 2 6-23-88 UKL-PL-01 4.24 <.510 <.150 <2.0 <2.1
Daphnia, water boatmen 4 6-16-88 <.228
Dragonflys, dam selflys 5 6-15-88 Aquatic Invertebrates <.246
Dragonflys 8 6-22-88 <.214
9 6-20-88 LRD-C-01 0.381 <0-I R <.269 -en5 -A
18 7-14-88 <.230
24 7- 14-88 LRD-C-02 .347 <.150 <. 199 <.60 <.60
26 7-15-88 AR-C-01 4.36 <.227 <.272 <.91 <.91
2 6-23-88 TL-C-01 <.19 1 <.98 <.99
14 7-11-88 TL-C-02 1.57 <.269 .459 <.85 <.86
17 6-18-88 LK-C-01 <.417 <1.1 <1.10
18 6-17-88 LK-C-02 .389 <.198 .608 <.92 <.92
17 6-18-88 MC-C-01 .435 <.272 <.79 <.80
18 6-17-88 UKL-C-02 .611 <.19 1 <.117 <1.1 <1.1
4 6-16-88 UJKL-C-01 4.14 <.338 <.104 <.76 <.77
17 6-18-88 AR-CL-01 <.143 1.4 <1.4
1 7-13-88 KSD-CL-OIC 3.76 <.490 <.099 1.7 <1.7
8 8-23-88 LR-CL-01 <.305 <2.0 <2.0
MC-CL-01 .276 <.117 <1.7 <1.8
9 6-21-88 LR-CR-0 1 .835 <.103 .322 <.47 <.47
9 6-21-88 MC-CR-01 .625 <.142 .41 <.42
TL-D-01 .740 <.098 3.88 .57 <.57
24 7-15-88 LR-D-01 1.73 <.305 <.807 <.39 <.40
26 7-14-88 LRD-DA-01 4.37 <.287 <.582 <1.2 <1.3
2 6-23-88 LK-DA-01 <.313 1.1 <1.2
5 6-16-88 <.275
LK-DA-02 2.94 <.735 <2.9 <3.0
.242 <3.2 <3.3
LK-DA-03 2.58 <.806 .137 <2.3 <2.4
<1.2 <1.3
LK-DA-04 2.56 <.581 <1.1 <1.1
<.53
UKL-DA-02 1.80 <.312 .53 <.49
UKL-DA-01 .879 .495 .49
AR-DR-01
1.03 <.132
TL-DR-01
.629 <.122

Table D 53

Table D. Trace elements inbiological tissue analyzed by methods other than inductively coupled plasma
method--Continued

SatymppelSeite Date Sample Arsenic Antimony Mercury Selenium Thallium
No. ~~~No.

Aquatic Invertebrates--Continued

Dragonflys, damselflys, 5 6-10-88 TL-DR-02 1.78 <0.140 0.191 0.56 <0.57
water boatmen
18 6-18-88 MC-DR-01 .482 <.147 <.148 <.59 <.59
Dragonflys, beetles 18 6-17-88 MC-M-01 .974 <.130 <.130 .52 <.52
Mayflies, caddisflys,
9 6-20-88 LK-MU-01 5.17 <.210 <.211 .84 <.85
stoneflys 14 7-11-88 KSD-MU-01 8.06 <.180 <.180 1.4 <.72
Mussels KSD-MU-02 8.73 <.176 <.177 1.4 <.71
6-10-88 TL-SN-01 3.10 <.132 <.133 <.53 <.53
Snails 5 7-14-88 MC-SN-01 4.88 <.250 <.250 <1.0 <1.0
18 6-17-88 TL-B-01 1.70 <.236 .94
Water boatmen, Daphnia 4 6-10-88 Th-B-02A .890 <.106 .264 .42 .95
Water boatmen, darnselflys, 5 TL-B-0213 .656 <.139 .195 <.56 <.43
6-23-88 LK-B-01 .912 <.137 .178 1.1 <.56
amphipods 8 7-12-88 KSD-B-01 1.48 <.205 .302 <.82 <.55
Water boatmen, damselflys 14 .295 <.82
Water boatmen, Daphnia

Fish

Bullhead 3 8-26-88 ARD-BLCF-01A <0.20 - 0.37 0.74 <4.0
Largemouth bass 16 9-08-88 --. 31 .72 <4.0
Pumpkinseed 16 9-08-88 LR-BLCF-01A <.20 --. 57 .72 <4.0
Rainbow trout 18 9-08-88 --. 16 .54 <4.0
Sacramento perch 9 9-09-88 LR-LMB-01A .20 --. 17 .49 <4.0
Tui chub 22 8-26-88 --. 19 .47 <4.0
4 9-09-88 MC-LMB-01 .20 --. 18 .70 <4.0
Yellow perch 12 8-23-88 --. 16 .59 <4.0
16 9-08-88 LKL-PCF-01 .30 --. 29 .80 <4.0
--.
1 8-22-88 UK-RTR-02 .20 --. 33 .63 <4.0
3 8-26-88 --. 34 .76 <4.0
4 9-09-88 TL-SP-01B <.20 --. 29 1.0 <4.0
5 9-08-88 --. 17 1.2 <4.0
9 9-09-88 KSD-SP-01 .30 --. 38 .52 <4.0
12 8-23-88 --. 32 .94 <4.0
18 9-08-88 LR-SP-01A .20 --. 19 .43 <4.0
22 8-26-88 --. 29 .67 <4.0
LRD-TCF-02 .30 --.
1 8-22-88 16 .49 <4.0
ARD-TCF-01B .20
2 8-26-88 30 .76 <4.0
TL-TCF-01B <.20

TL-TCF-03A .30

LKL-TCF-01 .20

KSD-TCF-01 .67

MC-TCF-01 .30

UKL-TCF-04 .30

LRD-YP-01 <.20

ARD-YP-01B <.20

Birds

Coot liver 7 6-21-88 TU-C-01L 0.389 <0.088 0.926 4.2 <0.36
10 6-21-88 LK-C-01L
1.00 <.088 .500 2.8 <.36
LK-C-02L
7-11-88 LK-CF-01L .656 <.097 .386 4.2 <.39

LK-CF-02L .637 <.093 .907 4.8 <.38

.571 <.114 1.37 3.2 <.46

54 Water Quality, Bottom Sediment, and Biota Associated with Irrigation Drainage, Klamath Basin, California, Oregon

Table D. Trace elements Inbiological tissue analyzed by methods other than inductively coupled plasma
method--Continued

SatmyppelSeite Date Sample Arsenic Antimony Mercury Selenium Thallium
Mallard liver No. ~~~No.
Western grebe liver
Coot egg 7 5-11-88 Birds--Continued
Mallard egg 10 5-12-88
TU-M-OlL 0.122 <0.090 0.989 2.9 <0.36
Western grebe egg 7-11-88 TL-MF-OIL .149 .095
7 7-11-88 TL-MF-02L .131 .324 3.8 <.39
10 7-11-88 <.093
10 6-22-88 LK-MF-OlL .307 .317 3.0 <.38
LK-MF-02L .384 <.104
7 5-11-88 .270 <.091 1.12 5.0 <.42
LK-M-011, .446 <.093
10 6-16-88 LK-M-02L 1.66 5.8 <.37
.930 .090
7 7-11-88 TL-G-011 .113 1.70 4.1 <.38
LK-G-011 .184 <.098
LK-G-021, <.088 .906 3.6 <.36
.398 <.092
LK-C-OlB .324 8.35 16 <.40
LK-C-02B <.104
.471 <.092 9.58 7.7 <.36
LK-C-03B .502
LK-C-04B .521 <.090 11.0 15 <.37
LK-C-05B .369 <.096
LK-C-06B <.097 .241 .83 <.42
.108 <.091
Th-M-OlB .091 .187 .74 <.37
TL-M-02B .149 <.077
TL-M-03B .190 <.076 .133 1.1 <.36
TL-M-04B .109 <.076
T'L-M-05B .173 <.080 .149 .77 <.39
LK-M-07B .181 <.088
LK-M-08B .199 <.076 .187 .78 <.39
LK-M-09B <.078
.080 <.078 .168 .73 <.37
LK-M-1013 .212
LK-M-11B .262 <.074 1.28 .31 <.31
LK-M-12B <.073
<.099 <.087 .100 1.2 <.31
TL-G-OlB .096
TL-G-02B .099 <.112 .191 1.2 <.31
Th-G-03B <.110
<.103 <.081 1.3 <.33

<.088 1.4 <.36

1.48 1.5 <.31

.533 1.3 <.32

1.65 1.6 <.32

.198 .59 <.30

2.38 1.2 <.30

1.08 .70 <.35

.395 2.2 <.45

.465 1.8 <.44

.550 1.7 <.42

Table D 55

C" Table E. Trace elements in biological tissue analyzed using induc

g [Trace-element concentrations in microgram per gram on a dry weight basis.

D Sample type Site Date Sample No. Percntage Alwnuinw

8 NoS of water

-7 1 7-15-88 LRD-PL-01 ~~~~
w 2 7-11-88 AR-PL-01
4 7-15-88 TL-PL-01 94.6 410
. Pond weed 5 7-15-88 TL-PL-02 93.7 4,100
3 8 7-15-88 LK-PL-01 92.6 1,400
9 7-11-88 LK-PL-02 94.2 1,000
3 14 7-11-88 KSD-PL-01 95.9 240
KSD-PL-02 92.7 220
0a.. 17 7-14-88 LR-PL-01 95.2 1,600
nw5. 18 7-14-88 MC-PL-01 94.3 1,800
24 7-14-88 UKL-PL-02 90.5 3,000
26 7-13-88 UKL-PL-01 93.2 4,400
90.8 2,500
95.1 1,900

Aquatic I

Q Chironomids 1 7-12-88 LRD-C-01 81.9 850

2 ~~~~~~~~~~LR8D3.3-C-02 930
2 6-23-88 AR-C-01 89.0 3,100

_ 4 6-16-88 TL-C-01 89.8 1,000

5 6-15-88 TL-C-02 88.3 3,000

_ 8 6-22-88 LK-C-01 90.7 2,100

2. 9 6-20-88 LK-C-02 89.1 710

o- 18 7-14-88 MC-C-01 87.4 3,800

3 24 7-14-88 UKL-C-02 90.8 <110

0 26 7-15-88 UKL-C-01 86.9 1,700

3i Clams 2 6-23-88 AR-CL-01 92.6 1,000
14 7-11-88 KSD-CL-01 94.0 1,600

40 17 6-18-88 LR-CL-01 94.9 1,800

X Crayfish 18 6-17-88 MC-CL-01 94.2 360
17 6-18-88 LR-CR-01
3 18 6-17-88 MC-CR-01 78.6 70
75.8 460
a Damselflys 4 6-16-88 TL-D-01 82.4
17 6-18-88 LR-D-01 74.6 62
i; Damselflys, caddisflys 91.8 790
1 7-13-88 LRD-DA-01 120
ow Daphnia, water boatmen

o Daphlnia, water boatmen, 8 6-23-88 LK-DA-01 91.3 <120
? damselflys

) Daphnia 9 6-21-88 LK-DA-02 96.6 <290

Daphnia, water boatmen, 9 6-21-88 LK-DA-03 96.9 <320
95.7 230
o chironomids LK-DA-04

n Daphnia, water boatmen 24 7-15-88 UKL-DA-02 92.0 <120
- 26 7-14-88 UKL-DA-01 90.9 <1 10
0

40
0

-n

ctively coupled plasma method

<, actual value is less than value shown. --, no data]

Barium Beryllium Boron Cadmium Chromium (Copper Iron Lead

~~~~Pl~an~t~s ~~~~~~~~~Aauatic 1,100 <180
4,100 <160
<93 <9.3 <93 <9.3 <18 <46 1,200 <140
<120
86 <7.9 <79 <7.9 <16 <40 830 <240
560 <140
<68 <6.8 <68 <6.8 <14 51 520 <210
2,300 <180
<86 <8.6 <86 <8.6 <17 <43 2,600 <100
3,300 <150
<120 <12 <120 <12 <24 <61 6,600 <110
2,100 <200
<68 <6.8 <68 <6.8 <14 <34 2,200
<55
<100 <10 <100 <10 <21 <52 1,400 <60
1,500 <91
100 <8.8 <88 <8.8 <18 <44 3,400 <98
1,700 <86
74 <5.3 <53 <5.3 <10 <26 3,500 <110
2,300 <92
170 <7.4 <73 <7.4 15 <37 1,200 <79
5,300 <110
<54 <5.4 <54 <5.4 <11 <27 1,100 <76
2,700 <140
<100 <10 <100 <10 <20 <51 1,100 <170
3,900 <200
Invertebrates 1,900 <170
1,100 <47
<28 <2.8 <28 <2.8 <5.5 22 <41
<30 <3.0 <30 290 <57
<46 <4.6 <46 <3.0 <6.0 16 410 <39
<49 <4.9 <49 210 <120
<43 <43 <43 <4.6 <9.1 <23 660 <120
230
60 <5.4 <54 <4.9 <9.8 <24 1,200 <290
48 <4.6 <46 <320
58 <4.0 <40 <43 <8.6 32 760 <230
<54 <5.4 <54 1,200 <120
<38 <3.8 <38 <5.4 <11 <27 <110
<68 <6.8 <68 770
<83 <8.3 <83 <4.6 <9.2 <23 350
<98 <9.8 <98 400
<86 <8.6 <86 <4.0 8.7 26
150 <2.3 <23
290 <2.1 <21 <5.4 <11 <27
<28 <2.8 <28
<20 <2.0 <20 <3.8 <7.6 25
<61 <6.1 <61
<58 <5.8 <58 <6.8 <14 38

<83 <17 <42

<9.8 <20 120

<8.6 <17 53

<23 <4.7 63

<2.1 <4.1 91

<2.8 <5.7 <14

<2.0 <3.9 22

<6.1 <12 <30

<5.8 <12 38

<150 <15 <150 <15 <29 <74
<160 <16 <160 <16 <32 <81
<120 <12 <120 <12 <23 <58
<62 <62 <12 <31
<55 <6.2 <55 <6.2 <11
<5.5 <5.5 46

Table E. Trace elements in biological tissue analyzed using inductiv

SamplSeamtley~p'p e SNi.te DDPtetn SSaammpleleNoN.o. Poefrewtaatgere Aluminum

Dragonflys, damselflys 2 6-23-88 AR-DR-01 Aquatic Invertebr
Dragonflys 5 6-16-88 TL-DR-01
Dragonflys, damselflys, 5 6-10-88 TL-DR-02 81.0 460
79.5 <49
water boatmen 18 6-18-88 MC-DR-01 82.2 <56
Dragonflys, beetles 18 6-17-88 MC-M-01
Mayflies, caddisflys 83.0 960
9 6-20-88 LK-MU-01 80.7 1,200
stoneflys 14 7-11-88 KSD-MU-01
Mussels KSD-MU-02 88.1 <84
TL-SN-01 86.1 <72
Snails 5 6-10-88 MC-SN-01 85.8 <70
18 7-14-88 TL-B-01 81.1 79
Water boatmen, Daphnia 4 6-17-88 TL-B-02A 90.0 1,100
Water boatmen, damselflys, 5 6-10-88 TL-B-02B 89.4 150
LK-B-01 76.4 <42
amphipods 8 6-23-88 KSD-B-01 82.0 <56
Water boatmen, damselflys 14 7-12-88 81.8 <55
Water boatmen, Daphnia 87.8 <82

Bullhead 3 8-26-88 ARD-BLCF-01A 74.2 Fis
Largemouth bass 16 9-08-88 LR-BLCF-01A 78.9
Pumpkinseed 16 9-08-88 LR-LMB-OlA 71.5 9.7
Rainbow trout 18 9-08-88 MC-LMB-01 72.2 500
Sacramento perch 9 9-09-88 LKL-PCF-01 75.2
Tui chub 22 8-26-88 UK-RTR-02 73.3 13
4 9-09-88 TL-SP-OlB 76.6 42
Yellow perch 12 8-23-88 KSD-SP-01 77.6 20
16 9-08-88 LR-SP-OlA 75.4 12
1 8-22-88 LRD-TCF-02 72.5 24
3 8-26-88 ARD-TCF-OlB 76.6 46
4 9-09-88 TL-TCF-01B 75.7 260
5 9-08-88 TL-TCF-03A 77.8 23
9 9-09-88 LKL-TCF-01 73.2 48
12 8-23-88 KSD-TCF-01 83.0 27
18 9-08-88 MC-TCF-01 77.7 80
22 8-26-88 UKL-TCF-04 73.6 9.8
1 8-22-88 LRD-YP-01 74.1 38
2 8-26-88 ARD-YP-01B 75.1 850
48
71
16

-4
a

am'

*M

vely coupled plasma method-Continued

Barium Beryllium Boron Cadmium Chromium Copper Iron Lead

rates--Continued

<26 <2.6 <26 <2.6 <53 24 550 <53
<24 <2.4 <24 <2.4 <4.9 24 110 <49
<28 <2.8 <28 <2.8 <5.6 28 180 <56

<29 <2.9 <29 <2.9 <5.9 33 1,700 <59
37 <2.6 <26 <2.6 <5.2 38 940 <52

77 <4.2 <42 <4.2 <8.4 27 640 <84
<36 <3.6 <7.2 <18 790 <72
94 <3.6 <35 <3.5 <7.0 <18 1,000 <70
<26 <2.6 <53 300 <53
100 <3.5 <50 <5.0 <10 22 1,200 <100
<26 <2.6 <47 <4.7 <9.4 93 1,100 <94
<21 <2.1 <4.2 37 110 <42
87 <5.0 <28 <2.8 <5.6 29 130 <56
<47 <4.7 <28 <2.8 <5.5 29 220 <55
<41 <4.1 <8.2 27 310 <82
22 <2.1 34
<28 <2.8 <3.0 <0.5
<28 <2.8 <3.0 <.5
<41 <4.1 <3.0 <.5
<3.0 <.5
sh <3.0 <.5
<3.0 <.5
1.4 <0.1 <2.0 <.5 <1.0 0.90 70 <4.0
14 .1 <3.0 <.5 <1.0 2.9 480 <4.0
<2.7 <3.0 <.5 <2.0 2.6 54 <4.0
33 <.1 <3.0 <.5 <.40 76 <4.0
<.1 <3.0 <.5 1.0 <.40 76 <4.0
1,6 <.1 <3.0 <.5 1.0 4.4 86 <4.0
.96 <.1 <3.0 <.5 <1.0 <4.0
.86 <.1 <3.0 <.5 <1.0 .70 81 <4.0
<.1 <3.0 <.5 2.0 1.4 100
2.1 <.1 <3.0 <.5 2.0 1.4 220 <4.0
9.3 <.1 <3.0 <.5 <1.0 6.0 140 <4.0
4.0 <.1 <3.0 <.5 <1.0 1.7 130 <4.0
5.0 <.1 <3.0 <.5 <1.0 2.8 94 <4.0
2.5 <.1 <1.0 5.5 140 <4.0
3.0 <.1 <1.0 2.5 92 <4.0
2.3 <.1 <1.0 3.3 120 <4.0
5.6 <.1 2.0 5.8 770 <4.0
38 <.1 <1.0 1.8 150 <5.0
3.5 <.1 2.0 1.0 83 <4.0
3.5 <.1 <1.0 1.0 58 <4.0
2.1

a" Table E. Trace elements in biological tissue analyzed using induct

* Sample type No. Date Sample No. of waPegr Aluminun

0 10 6-22-88 LK-C-OlB B

Coot egg 7 5-11-88 LK-C-02B 75.9 <42
w LK-C-03B 72.8 <37
10 6-16-88 LK-C-04B 72.2 <36
0 LK-C-05B 73.9 <38
7 7-11-88 LK-C-06B 74.3 <39
Mallard egg 7 6-21-88 TL-M-O1B 72.6 <36
10 6-21-88 TL-M-02B 67.5 <31
3 TL-M-03B 67.1 <30
7-11-88 TL-M-04B 67.1 <30
CL 7 5-11-88 TL-M-05B 68.9 <32
10 5-12-88 LK-M-07B 71.5 <35
a LK-M-08B 67.0 <30
7-11-88 LK-M-09B 67.9 <31
Q0. Western grebe egg 7 7-11-88 LK-M-1OB 67.8 <31
10 7-11-88 LK-M-l lB 66.2 <30
_ Coot liver LK-M-12B 65.6 <29
TL-G-OIB 71.4 <35
25 TL-G-02B 77.7 <45
TL-G-03B 77.2 <44
0 TUL-C-O1L 75.8 <41
LK-C-OlL 71.7 <35
0 LK-C-02L 71.6 <35
LK-CF-01L 74.1 <39
an Mallard liver LK-CF-02L 73.0 <37
TUL-M-01L 78.1 <46
0 TL-MF-OlL 72.2 <36
4400 TL-MF-02L 73.8 <38
LK-M-O1L 73.2 <37
Western grebe liver LK-M-02L 73.0 <37
LK-MF-OlL 72.2 <36
a LK-MF-02L 75.9 <42
TL-G-O1L 72.4 <36
= LK-G-01L 74.6 <39
LK-G-02L 71.6 <35
Q 72.8 <37

a

CE

0o

0
0

0

- - 7-

tively coupled plasma method-Continued

n Barium Beryllium Boron Cadmium Chromium Copper Iron Lead

Birds <2.1 <21 <2.1 <4.2 <10 66 <42
<1.8 <18 <1.8 88 <37
<21 <1.8 <18 <1.8 <3.7 <9.2 86 <36
<18 <1.9 <19 <1.9 <3.6 <9.0 84 <38
<18 <2.0 <20 <2.0 <3.8 <9.6 70 <39
<19 <1.8 <18 <1.8 <3.9 <9.7 58 <36
<20 <1.5 <15 <1.5 150 <31
<18 <1.5 <15 <1.5 <3.6 12 97 <30
<15 <1.5 <15 <1.5 <3.1 <7.7 76 <30
<15 <1.6 <16 <1.6 <3.0 8.5 110 <32
<15 <1.8 <18 <1.8 100 <35
<16 <1.5 <15 <1.5 <3.0 7.9 100 <30
<18 <1.6 <16 <1.6 <3.2 8.0 150 <31
<15 <1.6 <16 <1.6 <3.5 <8.8 120 <31
<16 <1.5 <15 <1.5 <3.0 <7.6 140 <30
<16 <1.4 <14 <1.4 <3.1 11 110 <29
<15 <1.8 <18 <1.8 <3.1 <7.8 130 <35
<14 <2.2 <22 <2.2 <3.0 8.3 99 <45
<18 <2.2 <22 <2.2 <2.9 <73 100 <44
<22 <2.1 <21 <2.1 <3.5 <8.7 140 <41
<22 <1.8 <18 <1.8 <4.5 <11 1,200 <35
<21 <1.8 <18 <1.8 <4.4 <11 2,200 <35
<18 <1.9 <19 <1.9 <4.1 <10 1,900 <39
<18 <1.8 <18 <1.8 <3.5 43 1,600 <32
<19 <23 <23 <23 <3.5 28 2,300 <46
<18 <1.8 <18 <1.8 <3.9 34 2,500 <36
<23 <1.9 <19 <1.9 <3.7 52 1,400 <38
<18 <1.9 <19 <1.9 <4.6 57 930 <37
<19 <1.8 <18 <1.8 <3.6 140 2,500 <42
<19 <1.8 <18 <1.8 <3.8 56 2,200 <36
<18 <2.1 <21 <2.1 <3.7 51 2,900 <37
<18 <1.8 <18 <1.8 <3.7 40 4,500 <36
<21 <2.0 <20 <2.0 <3.6 18 6,100 <39
<18 <1.8 <18 <1.8 <4.2 24 880 <35
<20 <1.8 <18 <1.8 <3.6 43 3,300 <37
<18 <3.9 35
<18 <3.5 18
<3.7 24

Table E. Trace elements in biological tissue analyzed using inductiv

Sample type SNiote. Date Sample No. Magnesium Mangane

Aquatic

Pond weed 1 7-15-88 LRD-PL-01 4,400 880
2 7-11-88 AR-PL-01 8,100 3,600
4 7-15-88 TL-PL-01 4,000
5 7-15-88 TL-PL-02 4,100 470
8 7-15-88 LK-PL-01 7,300 170
9 7-11-88 LK-PL-02 5,100 1,400
670
14 7-11-88 KSD-PL-01 3.500
KSD-PL-02 4,700 2,500
2,600 2,800
17 7-14-88 LR-PL-01 2,200
18 7-14-88 MC-PL-01 3,500 430
24 7-14-88 UKL-PL-02 6,700 2,300
26 7-13-88 UKL-PL-01
500
430

Aquatic Inv

Chironomids 1 7-12-88 LRD-C-01 1,200 52
LRD-C-02 1,200 62
Clams 2 6-23-88 AR-C-01 240
4 6-16-88 TL-C-01 1,700 57
Crayfish 5 6-15-88 TL-C-02 2,200 230
8 6-22-88 LK-C-01 2,600 110
Damselflys 9 6-20-88 LK-C-02 3,100 99
Damselflys, caddisflys 18 7-14-88 MC-C-01 1,700 400
Daphnia,water boatmen 24 7-14-88 UKL-C-02 1,400 <16
Daphnia,water boatmen, 26 7-15-88 UKL-C-01 1,200 130
2 6-23-88 AR-CL-01 1,900 95
14 7-11-88 KSD-CL-01 <1,400 110
17 6-18-88 LR-CL-01 2,800 220
18 6-17-88 MC-CL-01 <2,000 140
17 6-18-88 LR-CR-01 <1,700 100
18 6-17-88 MC-CR-01 2,100 970
4 6-16-88 TL-D-01 3,200 87
1 6-18-88 LR-D-01 96
1 7-13-88 LRD-DA-0 970 <18
8 6-23-88 LK-DA-01 910 45
1,200
4,800 140
170
damselflys 150
36
Daphnia 9 6-21-88 LK-DA-02 <2,900 31
50
Daphnia, water boatmen, 9 6-21-88 LK-DA-03 <3,200
<7.
chironomids LK-DA-04 <2,300

Daphnia, water boatmen 24 7-15-88 UKL-DA-02 <1,200

26 7-14-88 UKL-DA-01 1,200

8r_.. Dragonflys, damselflys 2 6-23-88 AR-DR-01 790
Dragonflys 5 6-16-88 TL-DR-01 630

0

m

*C0'

vely coupled plasma method-Continued

ese Molybdenum Nickel Silver Strontium Tin Vanadium Zinc

Plants <74 <93 57 <93 <93 <37
<64 <79 <100 <79 <79 75
0 <93 <54 <68 <68 <68 46
0 <79 <69 <86 78 <86 <86
0 <68 <98 <120 28 <120 <34
0 <86 <55 <68 80 <68 <120 <49
0 <120 <83 <100 86 <68 <27
0 <68 <70 <88 <100 <42
0 <100 <42 <53 73 <88 <100
0 <88 <58 <74 110 <53 <88 44
0 <53 <44 <54 57 <74 <53 52
0 <74 <82 <100 62 <54 <74 <22
0 <54 53 <100 <54 <41
0 <100 <22 <28 86 <100
<24 <30
vertebrates <36 <46 8.8 <28 <28 90
<39 <49 10 <30 <30 100
2 <28 <34 <43 19 <46 <46 86
2 <30 <43 <54 30 <49 <49 69
0 <46 <37 <46 44 <43 <43 90
7 <49 <32 <40 46 <54 <54 110
0 <43 <44 <54 28 <46 <46 62
0 <54 <30 <38 17 <40 <40 80
9 <46 <54 <68 <11 <54 <54 42
0 <40 <67 <83 14 <38 <38 59
6 <54 <78 <98 160 <68 <68 120
0 <38 <69 <86 100 <83 <83 210
<19 <23 220 <98 <98 400
<68 <16 <21 120 <86 <86 220
0 <83 <23 <28 540 <23 <23 83
0 <98 <16 <20 840 <21 <21 89
<48 <61 5.6 <28 <28 85
<86 <46 <58 6.3 <20 <20 82
<23 110 <61 <61 61
0 <21 <120 <150 650 <58 <58 240
7 <28 <130 <160
6 <20 <120 250 <150 <150 130
<61 <93 <62 310 <160 <160 130
<58 <50 <55 240 <120 <120 170
<44 <62 <62 110
0 <150 <21 <26 82 <55 <55 170
0 <160 <20 <24 50 <26 <26 90
0 <120 5.3 <24 <24 75
<4.9
<62
<55
0 <26
.3 <24

0O Table E. Trace elements in biological tissue analyzed using induc

9 ~~~~~~~~~Site

F Sample type No. Date Sample No. Magnesit ium Mang

8 Aquatic Inverte

: Dragonflys, damselflys, 5 6-10-88 TL-DR-02 960
w water boatmen,

. Dragonflys, beetles 18 6-18-88 MC-DR-01 940 4
1,400 3
3 Mayflies, caddisflys, 18 6-17-88 MC-M-01

stoneflys

* Mussels 9 6-20-88 LK-MU-01 840 2,6
4,2
14 7-11-88 KSD-MU-01 1,400 4,7
1,600
* KSD-MU-02 3
1,100 4
=. Snails 5 6-10-88 TL-SN-O1
a 2,400
18 7-14-88 MC-SN-01 2,400

3 Water boatmen, Daphnia 4 6-17-88 TL-B-01 930
1,200
coi Water boatmen, damselflys, 5 6-10-88 TL-B-02A 1,400
1,400
amphipods, TL-B-02B
5. Water boatmen, damselflys 8 6-23-88 LK-B-01

> Water boatmen, Daphnia 14 7-12-88 KSD-B-01

F

e Bullhead 3 8-26-88 ARD-BLCF-O1A 1,200

Largemouth bass 16 9-08-88 LR-BLCF-OlA 1,400
:: Pumpkinseed
16 9-08-88 LR-LMB-O1A 1,300
o Rainbow trout
18 9-08-88 MC-LMB-01 1,300
Sacramento perch
9 9-09-88 LKL-PCF-01 1,500
ii Tum chub
22 8-26-88 UK-RTR-02 950
-
4 9-09-88 TL-SP-OlB 1,300
25
12 8-23-88 KSD-SP-01 1,400
3
16 9-08-88 LR-SP-O1A 1,800
a
1 8-22-88 LRD-TCF-02 1,300
Yellow perch
3 8-26-88 ARD-TCF-OlB 1,700
_
4 9-09-88 TL-TCF-OlB 1,600
0
5 9-08-88 TL-TCF-03A 1,600

9 9-09-88 LKL-TCF-01 1,400

12 8-23-88 KSD-TCF-01 1,700

18 9-08-88 MC-TCF-01 1,700

22 8-26-88 UKL-TCF-04 1,300

1 8-22-88 LRD-YP-01 1,300

2 8-26-88 ARD-YP-01B 1,300

3

P0
B

0

ctively coupled plasma method-Continued

ganese Molybdenum Nickel Silver Strontium Tin Vanadium Zinc

ebrates--Continued <22 <28 73 <28 <28 98

44 <28 <24 <29 12 <29 <29 120
<21 <26 24 <26 <26 91
480 <29
380 <26 <34 <42 100 <42 <42 120
<29 <36 180 <36 <36 240
600 <42 <28 <35 210 <35 <35 240
200 <36 <21 <26 330 <26 <26 41
700 <35 <40 <50 52 <50 <50 77
300 <26 <38 <47 160 <47 <47 220
480 <50 <17 <21 <21 <21 120
67 <47 <22 <28 7.2 <28 <28 180
43 <21 <22 <28 28 <28 <28 170
67 <28 <33 <41 37 <41 <41 250
31 <28 49
70 <41 2.0 <2.0 0.70 62
2.0 <2.0 87 2.3 63
Fish 2.0 <2.0 84 <.40 48
<2.0 <2.0 64
24 <1.0 <2.0 <2.0 86 .50 51
20 <1.0 <2.0 <2.0 98 .90 90
4.6 <1.0 <2.0 <2.0 <.30 110
12 <1.0 3.0 <2.0 25 .40 55
7.9 <1.0 2.0 <2.0 91 .60 73
2.9 <1.0 <2.0 <2.0 100 1.5 83
2.0 <1.0 2.0 <2.0 160 .50 100
8.4 <1.0 <2.0 <2.0 80 1.3 91
18. <1.0 2.0 <2.0 85 .60 70
5.7 <1.0 2.0 <2.0 85 .60 120
23 <1.0 2.0 <2.0 72 .40 81
7.6 <1.0 <2.0 <2.0 73 1.1 140
13 <1.0 <2.0 <2.0 78 2.4 170
6.7 <1.0 2.0 <2.0 70 .40 75
6.2 <1.0 <2.0 <2.0 68 1.1 66
57 <1.0 69 1.1 65
8.1 <1.0 43
18 <1.0
51 <1.0

Table E. Trace elements in biological tissue analyzed using inducti

Sample type SNiote. Date Sample No. Magnesium Mangan
Coot egg
Mallard egg 10 6-22-88 LK-C-OlB 500 Bi

Western grebe egg 7 5-11-88 LK-C-02B 520 <
Coot liver LK-C-03B 540 <
Mallard liver 10 6-16-88 LK-C-04B 420 <
Western grebe liver LK-C-OSB 540 <
7 7-11-88 LK-C-06B 510 <
7 6-21-88 TL-M-OlB 800
10 6-21-88 460 <
TL-M-02B 360
7-11-88 TL-M-03B 580 <
7 5-11-88 TL-M-04B 350 <
10 5-12-88 TL-M-OSB 460 <
LK-M-07B 490 <
7-11-88 LK-M-08B 440 <4
7 7-11-88 LK-M-09B 590 <4
10 7-11-88 LK-M-1OB 410 <4
LK-M-1 B 590 <4
LK-M-12B 450 <5
TL-G-O1B <6
440 <6
TL-G-02B 410 <6
TL-G-03B 670 1
TL-C-O1L 11
630 12
LK-C-01L 730 11
LK-C-02L 740 11
LK-CF-OIL 820 11
LK-CF-02L 610 16
TL-M-O1L 13
920 17
TL-MF-OIL 820 31
TL-MF-02L 910 14
LK-MF-01L 800 16
LK-MF-02L 850 17
LK-M-O0L 860 14
LK-M-02L 830 18
TL-G-O1L
740
LK-G-O1L 770
LK-G-02L

-_4

or

m

0-

ively coupled plasma method-Continued

nese Molybdenum Nickel Silver Strontium Tin Vanadium Zinc

irds <17 <21 83 <21 <21 53

<6.2 <21 <15 <18 11 <18 <18 64
<14 <18 10 <18 <18 66
<5.5 <18 <15 <19 8.4 <19 <19 61
<5.4 <18 <16 <20 13 <20 <20 56
<5.8 <19 <15 <18 9.1 <18 <18 73
<5.8 <20 <12 <15 36 <15 <15 68
<12 <15 8.2 <15 <15 62
7.3 <18 <12 <15 5.5 <15 <15 48
<4.6 <15 <13 <16 17 <16 <16 79
<14 <18 5.6 <18 <18 63
8.5 <15 <12 <15 12 <15 <15 59
<4.6 <15 <12 <16 34 <16 <16 67
<4.8 <16 <12 <16 12 <16 <16 62
<53 <18 <12 <15 42 <15 <15 64
<4.6 <15 <12 <14 13 <14 <14 53
4.7 <16 <14 <18 27 <18 <18 66
4.7 <16 <18 <22 <4.5 <22 <22 48
4.4 <15
4.4 <14 <18 <22 <4.4 <22 <22 50
5.2 <18 <16 <21 <4.1 <21 <21 61
6.7 <22 <14 <18 <3.5 <18 <18 180
6.6 <22 <14 <18 <3.5 <18 <18 120
6.2 <21 <15 <19 <3.9 <19 <19 130
13 <18 <15 <18 <3.7 <18 <18 140
1 <18 <18 <23 <4.6 <23 <23 240
2 <19 <14 <18 <3.6 <18 <18 140
1 <18
1 <23 <15 <19 <3.8 <19 <19 210
1 <18 <15 <19 <3.7 <19 <19 200
<17 <21 <4.2 <21 <21 180
6 <19 <14 <18 <3.6 <18 <18 150
3 <19 <15 <18 <3.7 <18 <18 120
7 <21 <14 <18 <3.6 <18 <18 120
1 <18 <16 <20 <3.9 <20 <20 200
4 <18
6 <18 <14 <18 <3.5 <18 <18 96
7 <20 <15 <18 <3.7 <18 <18 120
4 <18
8 <18

Table F. Organochlorine compounds in bottom sediment
[Organochlorine compounds in microgram per kilogram, wet weight. <, actual value is less than value shown]

NSiote. Date Time Aldrin Chlordane DDD DDE DDT Dieldrin Endosulfan Endrin

1 8-24-88 1530 <0.1 13 2.7 6.6 <0.1 <0.1 <0.1 <0.1
<1.0 <.1 <.1 <.1
3 8-17-88 1400 <.1 <1.0 <.1 .3 <.1 <.1 <.1 <.1
<1.0 <.1 <.1 <.1
4 8-23-88 1230 <.1 <1.0 1.4 <.1 <.1 <.1 <.1 <.1
<1.0 <.1 <.1 <.1
5 8-23-88 1345 <.1 <1.0 <.1 <.1 <.1 <.1 <.1 <.1
<1.0 <.1 <.1 <.1
6 8-23-88 0900 <.1 <1.0 1.3 1.7 <.1 <.1 <.1 <.1
<1.0 <.1 <.1 <.1
6S 8-23-88 0905 <.1 <1.0 1.2 1.9 <.1 <.1 <.1 <.1
<1.0 <.1 <.1 <.1
8 8-24-88 0900 <.1 <1.0 .4 .7 <.1 <.1 <.1 <.1
<1.0 <.1 <.1 <.1
8D 8-24-88 0905 <.1 .5 .6 <.1
PCBs PCN Toxaphene
13 8-17-88 1100 <.1 <.1 1.3 <.1

17 8-19-88 1200 <.1 <.1 <.1 <.1

19 8-19-88 1430 <.1 <.1 .2 <.1

23 8-26-88 1200 <.1 <.1 .8 <.1

24 8-26-88 0930 <.1 <.1 1.5 .4

25 8-26-88 1500 <.1 .8 .8 <.1

Site Date Time Hleptachlor MMeh-LindaneMirex
No. Dae Lnneoxychlor
Tm etcir epoxide

1 8-24-88 1530 <0.1 <0.1 <0.1 <0.1 <0.1 19 <1.0 <10
3 8-17-88 1400 <.1 <.1
4 8-23-88 1230 <.1 <.1 <.1 <.1 <.1 <1 <1.0 <10
5 8-23-88 1345 <.1 <.1
6 8-23-88 0900 <.1 <.1 <.1 <.1 <.1 180 <1.0 <10
6S 8-23-88 0905 <.1 <.1
8 8-24-88 0900 <.1 <.1 <.1 <.1 <.1 27 <1.0 <10
8D 8-24-88 0905 <.1 <.1
13 8-17-88 1100 <.1 <.1 <.1 <.1 <.1 <1 <1.0 <10
17 8-19-88 1200 <.1 <.1
19 8-19-88 1430 <.1 <.1 <.1 <.1 <.1 <1 <1.0 <10
23 8-26-88 1200 <.1 <.1
24 8-26-88 0930 <.1 <.1 <.1 <.1 <.1 <1 <1.0 <10
25 8-26-88 1500 <.1 <.1
<.1 <.1 <.1 <1 <1.0 <10

<.1 <.1 <.1 <1 <1.0 <10

<.1 <.1 <.1 <1 <1.0 <10

<.1 <.1 <.1 <1 <1.0 <10

<.1 <.1 <.1 <1 <1.0 <10

<.1 <.1 <.1 <1 <1.0 <10

<.1 <.1 <.1 <1 <1.0 <10

62 Water Quality, Bottom Sediment, and Blota Associated with Irrigation Drainage, Klamath Basin, California, Oregon

Table G. Organochlorine compounds in biological tissue

[Organochlorine compounds in microgram per gram, wet weight; nd, compound

Sample type Site Date Sample Percentage Lipid BH
NSaom. ple vDipaetewaterof water (pcoerncteenntt) HCB alp

Aquatic I

Mussels 14 7-11-88 KSD-MU-O1 87.2 0.752 ad n
KSD-MU-02 86.6 .722 ad n

F

Klamath sucker 1 8-22-88 LRD-KSF-01 69.8 11.4 nd n
16 9-08-88 LR-KSF-OlA 72.6 7.93 ad n
Rainbow trout 18 9-08-88 MC-KSF-01 74.4 5.88 nd n
Sacramento perch 22 8-26-88 UKL-RT-01 71.4 7.57 nd n
Tui chub 8 9-09-88 LKL-SP-01 74.5 5.77 nd n
4 9-09-88 TL-TCL-02B 76.0 2.98 ad n
5 9-08-88 TL-TCL-02A 80.0 1.98 nd n
14 8-23-88 KSD-TCF-02 86.0 1.43 nd a
22 8-26-88 UKL-TCF-03 71.4 5.58 nd a

B

Coot egg 10 6-22-88 LK-C-O1A 78.4 7.61 ad a

LK-C-02A 73.8 10.1 ad a

LK-C-03A 72.5 10.8 ad a

LK-C-04A 75.0 10.4 ad a

LK-C-05A 74.5 9.70 ad n

LK-C-06A 74.5 10.8 ad n

Mallard egg 7 5-11-88 TL-M-OlA 68.8 11.50 nd n

TL-M-02A 67.0 16.30 nd a

TL-M-03A 67.0 17.40 0.01 a

TL-M-04A 69.8 11.20 ad a

TL-M-05A 69.0 19.20 ad n

10 6-16-88 LK-M-07A 69.5 14.60 nd a

LK-M-08A 73.0 11.00 nd a

LK-M-09A 68.0 15.50 nd a

LK-M-1OA 65.8 12.40 .05 a

LK-M-1 1A 71.0 13.50 .01 n

LK-M-12A 72.2 9.89 nd a

Western grebe egg 7 7-11-88 TL-G-OlA 75.5 11.1 .01 a

TL-G-02A 78.5 8.82 .01 n

° TL-G-03A 77.5 8.79 .01 n
Mallard carcass 7 5-11-88 TL-M-04 69.4 5.24 nd n

10 5-12-88 LK-M-02 76.2 2.09 nd n

LK-M-06 69.8 6.46 nd n

d not detected at the applicable reporting level]

HC BHC BHC BHC Oxychlor- Heptachlor Chld T-nona-
pha gamma beta delta dane epoxide chlor

Invertebrates ad
ad
nd nd nd ad nd nd ad ad
0.02 ad
nd ad nd nd nd nd ad nd
nd nd
Fish ad ad
nd ad
nd nd nd nd nd nd 0.03 nd nd
nd ad nd nd nd nd ad nd nd
nd nd nd nd nd ad nd nd nd
nd nd nd nd nd nd ad nd ad
nd nd nd nd nd ad nd ad
nd nd nd ad nd ad nd nd nd
nd nd nd nd nd ad ad ad
ad ad nd ad nd ad ad ad nd
ad nd ad nd nd ad ad nd ad
nd nd
Birds nd nd
0.02 nd
ad nd ad nd nd ad nd nd ad
.01 ad
ad nd nd nd nd nd ad ad nd
ad ad
ad ad nd ad ad ad nd ad nd
ad nd
ad ad nd nd nd ad nd ad nd
nd nd
nd ad ad nd ad nd nd ad nd
nd nd
nd ad nd ad ad nd nd .03 nd
.05 nd
nd ad ad nd 0.01 0.01 nd .04 ad
nd nd
ad ad ad nd nd nd nd nd nd
nd nd
ad nd ad nd .01 .01 ad nd
nd
ad nd nd nd ad ad nd

nd ad nd nd ad ad nd

ad nd nd nd ad ad nd

ad ad nd nd nd ad ad

ad nd nd nd nd nd ad

ad nd ad nd ad nd nd

nd nd nd nd nd ad nd

ad ad nd nd nd ad nd

ad nd 0.01 nd ad ad 0.03

nd nd nd nd .01 nd .01

nd nd .01 nd .01 nd .01

nd nd nd nd nd nd nd

nd nd nd nd nd nd nd

nd nd nd nd nd nd nd

Table G. Organochlonne compounds in biological tissue--Contin

a

Sample typSite Date Sample PCBs 0°PP''
No. DDE DDE
No.

w Aquati

0 14 7-11-88 KSD-MU-01 nd 0.01 nd
KSD-MU-02 nd rid rid
5. Mussels
3

a. Klamath sucker 1 8-22-88 LRD-KSF-01 nd 0.05 rid
nd .02 rid
3 16 9-08-88 LR-KSF-OlA nd .02 nd
18 9-08-88 MC-KSF-01 nd .01 nd
nd nd nd
Rainbow trout 22 9-09-88 UKL-RT-01 nd .01 nd
nd nd nd
w Sacramento perch 8 8-26-88 LKL-SP-01 nd nd nd
4 9-09-88 TL-TCL-02B nd .01 nd
5. Tui chub

5. 5 9-08-88 TL-TCL-02A

14 8-23-88 KSD-TCF-02

8 22 8-26-88 UKL-TCF-03

Coot egg 10 6-22-88 LK-C-01A nd 0.02 rid
nd .01 nd
LK-C-02A rid .03 rid
rid .06 nd
LK-C-03A nd .01 nd
nd .03 nd
LK-C-04A 0.05 .19 0.02
nd .04 nd
LK-C-05A nd .85 .01
nd .03 nd
LK-C-06A nd .09 nd
nd .03 nd
a Mallard egg 7 5-11-88 TL-M-OlA nd .05 rid
nd .02 rid
= TL-M-02A nd .05 nd
nd .03 rid
a TL-M-03A nd .02 rid
.76 1.2 .04
CD TL-M-04A .31 2.3 .08
.37 2.5 .10
Za TL-M-OSA rid .02 rid
z3 rid .04 rid
G) a 10 6-16-88 LK-M-07A nd .01 nd

m- LK-M-08A

(0 LK-M-09A

o0 LK-M-10A

- LK-M-l1 A
-
LK-M-12A

Western grebe egg 7 7-11-88 TL-G-OlA

TL-G-02A

TL-G-03A

Mallard carcass 7 5-11-88 LK-M-04

10 5-12-88 LK-M-02

LK-M-06

nued

Unknown

Dieldrin 0PD Endrin nonch0or Mirex DDMU DDD
nonachlor DDT
DDD DDD DDT isomer

ic Invertebrates nd nd nd nd nd nd nd rid
rid rid nd rid nd rid nd rid
nd rid
rid nd rid nd nd 0.02 nd rid nd nd
nd nd nd nd rid nd rid rid
Fish nd rid nd nd nd nd nd nd
nd nd nd nd nd nd nd rid
0.01 0.02 nd nd nd nd nd nd nd rid
nd rid nd nd nd nd nd nd nd rid
nd nd rid rid nd nd nd nd nd nd
nd nd nd rid nd nd nd nd nd nd
nd nd nd nd nd nd nd nd nd nd
rid nd
nd nd nd nd nd nd nd nd nd nd
nd nd rid nd nd nd nd nd nd
nd rid nd rid nd nd rid nd nd nd
nd rid nd nd rid nd rid nd
Birds nd rid nd nd nd nd nd nd
nd nd nd nd rid nd nd nd
rid rid nd rid nd nd 0.02 nd nd nd
nd rid nd nd nd nd nd rid nd nd
nd rid 0.05 nd rid 0.03 .09 rid nd nd
nd nd rid nd nd nd nd nd nd rid
nd nd .06 rid nd .02 .14 nd rid nd
nd nd rid nd nd nd rid nd nd rid
0.01 nd nd nd nd nd nd nd rid nd
rid rid nd nd nd nd nd rid nd nd
.04 rid rid nd nd nd .01 nd nd nd
rid rid rid rid nd nd nd rid nd nd
.12 rid nd rid rid rid nd rid rid nd
nd nd nd rid nd .11 .03 nd 0.26 nd
nd rid rid rid nd 3.60 .01 nd
rid rid nd rid nd 3.60 .02 nd .42
nd rid nd nd nd nd .01 nd .39 2.60
nd nd nd rid nd nd nd nd nd 2.50
nd nd nd nd nd nd nd rid rid
nd rid nd nd nd
.01 rid nd
rid nd
nd rid nd
nd rid
nd nd