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ANALYSES OF ROCKS AND STREAM SEDIMENTS FROM THE HUNTER-FRYINGPAN WILDERNESS AREA AND THE PORPHYRY MOUNTAIN WILDERNESS STUDY AREA, PITKIN COUNTY, COLORADO By Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File Report 80- 880 1980 This report is preliminary and has not been reviewed for conformity with Geological Survey standards and nomenclature.

Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

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Page 1: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

ANALYSES OF ROCKS AND STREAM SEDIMENTS

FROM THE

HUNTER-FRYINGPAN WILDERNESS AREA

AND THE

PORPHYRY MOUNTAIN WILDERNESS STUDY AREA,

PITKIN COUNTY, COLORADO

By

Elwin Mosier, Steve Ludington, and R. A. Yeoman

Open-File Report 80- 880

1980

This report is preliminary and has not been reviewed

for conformity with Geological Survey standards and

nomenclature.

Page 2: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

CONTENTS

Page

Introduction...................................................... 1

Sample preparation................................................ 1

Analytical procedures............................................. 2

References cited.................................................. 3

TABLES

Table 1. Emission Spectrographic data for rocks.................. 4

2. X-ray fluorescence data for selected rocks.............. 20

3. Emission spectrographic data for various fractions of

stream sediment-samples............................... 22

4. Statistical summaries of data from stream-sediment samples 41

Page 3: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

INTRODUCTION

The geochemical investigation of the Hunter-Fryingpan Wilderness Area and

the Porphyry Mountain Wilderness study area consisted of the collection and

analysis of 434 samples. These include 166 rocks and stream sediments from 50

localities which yielded 90 fine-sediment samples, 89 magnetic heavy-mineral

samples, and 89 non-magnetic heavy-mineral samples. The sample localities and

analytical results are listed in this report.

The analytical data were entered into a computer storage system (RASS II)

by S. K. McDanal and C. M. McDougal.

Geochemical sampling was carried out by field parties of the U.S.

Geological Survey which included Steve Ludington, R. A. Yeoman, Bert Coxe,

G. N. Green, and W. A. Rudolph.

Emission spectrographic analyses were made by Elwin Hosier. X-ray

fluorescence analyses were made by R. A. Yeoman.

Sample Preparation

Rock samples were crushed and pulverized to -140 mesh ( 0.105 mm) in a

grinder with ceramic plates. Samples for X-ray fluorescence analysis were

further pulverized to ca. 300 mesh (~50 ym) in a ball mill.

At each stream-sediment site, approximately 1 liter of material, screened

to -18 mesh (<1.0 mm) was collected from active stream sediment. In the

laboratory, this material was dried and sieved to -200 mesh (<.074 mm). This

material made up the fine fraction. The coarser material was then processed

with a Wilfley table to obtain a concentrate made up largely of minerals with

a specific gravity of >2.8. The less dense material was discarded. These heavy minerals were then further separated with a hand magnet, and the fractions were analyzed.

Use of brand names is for descriptive purposes only and does not constitute endorsement by the U.S. Geological Survey

Page 4: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Analytical Procedures

Each sample was analyzed semiquantitatively for 31 elements by a six-step D.

C. arc optical emission spectrographic method (Grimes and Marranzino, 1968).

The semiquantitative spectrographic values are reported as six steps per

order of magnitude (steps 1, 0.7, 0.5, 0.3, 0.2, 0.15) and are approximate

geometric midpoints of the concentration ranges. The precision of this method

has been shown to be one reporting interval 83% of the time and 2 reporting

intervals 96% of the time (Motooka and Grimes, 1976). When an element is

present in concentrations below, but near the detection limit, it is reported

in the tables with an "L" after the value of the detection limit. Similarly,

the suffix "G" denotes a value greater than the maximum limit of

determination. An "N" signifies the element was not detected.

X-ray fluorescence analyses were done on pressed pellets of the material

using a lithium-drifted silicon detector and a multichannel analyzer.

109 Excitation was by the radioisotope, Cd . Standards were a mixture of

synthetically prepared and well-analyzed natural materials (Rb and Sr).

Precision is a function of concentration, but is generally better than 5% of

the amount present, except at very low values. Accuracy is also on the order

of 5% of the amount present, owing largely to uncertainty about the

composition of the standards used.

Page 5: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

REFERENCES CITED

Grimes, D. J., and Marranzino, A. P., 1968, Direct-current arc and

alternating-current spark emission spectrographic field methods for the

semiquantitative spectrographic analyses: U.S. Geological Survey

Circular 591, 6 p.

Motooka, J. M., and Grimes, D. J., 1976, Analytical precision of one-sixth

order semiquantitative spectrographic analyses: U.S. Geological Survey

Circular 738, 25 p.

VanTrump, George, Jr., and Miesch, A. T., 1977, The U.S. Geological Survey

RASS-STATPAC System for management and statistical reduction of

Geochemical Data: Computers and Geosciences, v. 3, no. 3, p. 475-488.

Page 6: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Table 1.—Emission spectrographic data for rocks

In addition to the values reported in this table, all rocks were analyzed

for Ag, As, Au, Bi, Cd, Sb, W, Zn, and Th. These elements were not found,

with the following exceptions:

1. 79HF250 (quartzite) contained 1 ppm Ag.

2. 79HF706 (bio. gneiss) contained 0.5 (L) ppm Ag.

3. 79HF220, 223, 329, 515b, 522, and 721 (granite) contained 100 (L) ppm Th.

4. 79HF228 (diorite) contained 200 ppm Zn.

5. 79HF237 (Tertiary hbl. qtz. diorite), 512 (Tertiary hbl. latite), 243, and

279 (bio. gneiss) contained 200 (L) ppm Zn.

Detection limits for these elements were:

Ag - 0.5 ppm Sb - 100 ppm

As - 200 ppm W - 50 ppm

Au - 10 ppm Zn - 200 ppm

Bi - 10 ppm Th - 100 ppm

Cd - 20 ppm

Abbreviations in table 1:

alt. - altered

ppy. - porphyritic

Hbl. - hornblende

Bio. - biotite

Qtz. - quartz

Page 7: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Precambrian granitic rocks

Field Mo. Rocktype Lat. Long . Fe Mq Ca Ti

79HF?01

79HF20079HF21070HF21279HF21479HF21879HF22079HF2227°HF?2370HF2247QHF225479HF22679HF22 779HF23279HF23479HF73679HF2417QHF24479HF247

79HF262 79HF263 79HF265 79HF270 79HF27? 79HF276 70HF277 79HF283 7 9HF285 79HF288 79HF291 79HF 292 79HF293

79HF 79HF 79HF 79HF 79HF 79HF 79HF 79HF 79HF 79HF 79HF 79HF 79HF 79HF

309310312314316320321322323324325 32* 329 330A

Grani te(a 11 • ) Grani t e G rani te(ooy. ) G rani te(ooy•) Grani te(ooy .) Gran i te Granite Grani te Granite Grani te G rani te Granite Grani te Grani t e Grani te Granite(alt.) Grani te Grani te Granite Grani te(poy. > Grani te Cpoy . ) Grani t e Grani te Grani te G rani te Granite(a It.) G rani te(poy . ) Granite(ooy.) Peqma t i te Granite Granite Granite Grani t e Granite(ooy.) Grani te(poy.) Grani te G rani te Grani te(Poy.> Grani te(a11.) Grani te Grani te Grani te G rani te(ooy . ) Granite Granite Granite G rani te Granite(oov•5 G rani te Gran i t e

^9.195?9.1«939.26??<5.2M

39.24539.24839.14430.12439.12139.12139.11939.11939.12339.12639.?1739.21839.18439.33839.32839.24139.2t73^.20539.20139.19739.13839.24439.26039.25539.31039.30439.16539.14339.14639.12839.14439.13439.15639.18539.18439.19239.18539.20939.20739.24339.26439.22639.24339.26539.23239.?83

-106.774-106.770-106.749-106.743-106.746-106.740-106.772-106.731-106.718-106.714-106.700-106.690-106.674-106.662-106.759-106.750-106.755-106.687-106.573-106.746-106.746-106.715-106.712-106.720-106.687-106.734-106.713-106.724-106.685-106.664-106.757-106.748-106.731-106.568-106.558-106.592-106.568-106.744-106.735-106.737-106.722-106.624-106.616-106.619-106.629-106.568-106.574-106.562-106.581-1(16.705

15.002.003.002.005.005.002.003.002.003.007.003.002.002.002.003.002.001.500.705.005.003.003.003.005.002.003.003.001.501.002.001.005.002.001.002.003.003.001.002.005.005.002.001.005.005.001.503.003.007.00

1 .500.301 .000.501.501.000.700.700.500.701 .500.700.500.500.300.700.500.150.200.700.700.500.500.501.001.501.500.700.070.200.300.201.003.300.300.200.703.500.150.500.701.000.200.301.00 '1.000.200.700.702.00

10.000.300.150.500.301.501.001.000.501.000.200.700.501.000.700.070.500.050.500.701.000.500.501.001.500.200.501.000.050.500.500.501.501.001.001.000.700.500.500.501.001.500.700.301.001.500.301.000.703.00

0.500.150.200.150.500.500.200.500.200.300.500.200.300.200.200.200.200.100.051.000.500.300.200.300.500.100.500.200.020.100.200.150.500.200.100.200.150.200.050.200.500.500,200 . •: '-.0.3G0.500.100.200.300.50

Page 8: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Precambrian granitic rocks (cont.)

Field \ o. Rocktype Lat. Long Fe Mg Ca Ti

79HF33379HF33479HF33579HF33879HF33979HF34179HF34279HF34379HF343A79HF34479HF35G79HF503A79HF503B79HF50679HF50779HF50879HF51079HF51179HF51379HF51479HF515A79HF51 5879HF51679HF52279HF52479HF52579HF52779HF71 179HF71279HF71379HF71 579HF71779HF71879HF71979HF72079HF72179HF72379HF72679HF72779HF72879HF72979HF730

GraniteGranite(alt.)Granite (ppy. )GraniteGraniteGrani t eGraniteG rani t eG rani te (a 1 1 . )Grani t eGraniteGranite (ppy. )Ap I i teGrani t eGraniteG rani t eGraniteGrani t eGraniteGranite (ppy. )Grani t e (ppy. )GraniteGraniteG rani t eGraniteGraniteGraniteGraniteGraniteGrani t e(ppy . )GraniteGranitePegiflat i teGraniteGraniteG rani t e(ppy . )G-r a n i t eGrani te(ppy.)Granite (ppy. )Granite (ppy. )Granite (ppy . )G rani t e (ppy. )

39.28739.28039.28439.28239.26639.23939.22439.22239.22239.22539.14639.29639.29639.24939.24639.26439.11839..13239.15039.23139.19539.19539.13839.16339.23839.15839.17439.11139.11239.12239.11339.12339.31739.28539.27539.26439.24039.29539.28639.27839.26739.259

-106.702-106.689-106.674-106. 668-106.699-106.700-106. 663-106.688-106.688-106. 706-106.667-106. 581-106.581-106.495-106.496-106.513-106.559-106.536-106.536-106.581-106. 577-106.577-106.594-106.530-106.528-106.538-106. 546-106.562-106.572-106.573-106.61 7-106.627-106. 660-106. 614-106.610-106.599-106.593-106.591-106.586-106.568-106.552-106-539

1 .001.505.001.501 .502.002.001.505.002.007.007.001.502.003.005.002.002.001.003.003.002.002.002.001.505.002.00

• 3.002.000.301.501 .501 .005.000.507.005.003.005.003.002.005.00

0.100.051.500.500.300.100.500.300.700.501.500.700.200.200.701.500.501.000.201 .001 .000.500.200.700.300.100.101.000.500.020.300.200.051 .000.051.001.001 .001 .000.500.501.00

0.200.050.200.300.500.500.500.301.000.502.001.501 .000.501 .003.001.501.000.701.001 .001.000.200.700.500.300.501.001.000.100.500.500.101.501 .001.001.001.501.000.700.701.00

E •» f= — .

0.070.010.500.200.150.100.200.100.200.1 51 .000.700.150.100.200.700.300.300.100.500.300.500.100.300.100.500.070.300.1 50.010.050.100.010.700.050.300.500.200.500.200.1 50.50

Page 9: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Precambrian granitic rocks (cont.)

Field NO. Mn 9 3a 9e Co Cr Cu LaSSSSSSS3=5S

79HF20179HF20379HF20979HF21079HF21279HF21479HF21*79HF22079HF22279HF22379HF22479HF225A79HF22679HF22779HF23279HF23479HF23679HF24179HF24479HF24779HF26079HF26279HF26379HF26579HF27T79HF27279HF27679HF27779MF28379HF28579HF?SS70HF29179HF2°279HF29379HF2°979HF3H57QHF3QO79HF31079HF31279HF31479HF31679HF32079HF32179HF32270HF32379HF3247QHF32579HF32873HF32079HF330A

700200300300700

1000200500200300

100020015015015010050070mosoo7003003002007002003007002003on300200500200100100200200300300300300150200500300200500300

1000

20101101ini1010110110110110110110110110110101101501011010101101101101101101101010110n1011011011?l10n10110110110110110110n10110110110nmi10L10

505007007in

100010002000700700100030001000200100070010001000300

15QO150015001000700

10002000ion300

150020

200700300700ioon1500700

1000500

1000700

150020003007TO

iono10002007005?01500

2.01.51.3n2.01.53.01.01.0L1.011.01.51.311.01.0n1.52.01.51.0n1.312.03.01.01.011.01.5

• 2.01.52.37.05.01.51.52.01.01.0n1.01.0n1.51.01.51.02.01.011.0n2.02.03.02.01.012.0

1551

105n7

1051

1055

155755n755n5n

20105n515

155

10105n5n515n

205n5n51

1555n57

10515n7

205n77

20

7010151030302020153050205010n10150101510n20151010105020202010110n10110n50101101015101011010151010n2070101501570

5557m205

30102030205151551

152051

205

1010

5201051

107515151

151555

15105

10155055

10505

30107

sss= sssss

20010010050503050

1001502007015020

1002050

1502020n

20050

15010020020070

2005020n30

15020

2003002 On70

10015020

1001507050

100707050

200150200

5n5n5n5n5n5n515n5n5n5n5n5n5n5n5n5n5n5n5n5n515515n55n5n5n5n5n5n5n515n5n5n5n5n5n5n5n5n5n515155n5n5n

Page 10: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Precambrian granitic rocks (cont.)

Field Mo. Mn T 3a 9e Co Cr Cu La

7QHF33379HF33479HF3357QHF33*79HF33979HF34179HF"*4279HF3437QHF343A79HF34470HF 350

79HF503A70HF503B79HF50679HF5077QHF50879HF51079HF51179MF5137QHF51479HF515A79HF515*79HF51679HF52279HF52479HF52579HF52779HF71179HF71279HF71370HF71579HF71779HF71879HF71979HF72079HF72170HF72379HF72679HF72779HF72879HF72979HF730

20020H500mo1005002003on1000200

1000100020020030050020020010050020015020020020050070

20015020

2001001005on70

700500300500300200500

101101011010101101101101101101101101101101'101

10110n10n10110110n10110110n1010110110n10n101101101 •10110n10110110n101101101101

10020

200050070050070070010001000300010001500700700

200050003000500

100010001000150010001000

5010005000200050030050050

1000300

10001500100010002000700500

7.01.0n1 .On1.01.52.01.01.011.01.51.02.02.01.01.01.01.51.01.011.51.01.011.0rt1.0n1.51.01.0n1.12.01.0n5.91.31.0n1.01.52.01.02.02.01.011.01.5

5n5n

105n5n5n55155

1555n5n5

10575n

1075157

51205n755n55n5n

155n

20101015515n

10

10110120101010101010105050101015501010101152015201010

200151010110n1010152010130151520151520

51551575

1557

10207

107

2030101051

205010

20020557

3010517517

5051

301001520107

10

:ZSS5 3S3

20n20n

2001007020n

1003070

1502005020n5070

2001507050

10030

20030

20070

1502030

15020n20n5020n7020n

10010010010015070

100

5n5n55n55n5n5n5n5n5n5n5n5n5n5n5n5n5n75n5n515n5n5n5n5n5n5n5n5n5n5n5n5n5n51

105n5n5n

Page 11: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Precambrian granitic rocks (cont.)

Field No. Nb Ni Pb Sc Sn Sr Zr

79HF20179HF2C379HF20979HF21079HF21279HF21479HF21879HF22079HF22279HF22379HF22479HF225A79HF22679HF22779HF23279HF23479HF23679HF24179HF24479HF24779HF26079HF26279HF26379HF26579HF27079HF27279HF27679HF27779HF28379HF28579HF28879HF29179HF29279HF29379HF29979HF30579HF30979HF31079HF'31 279HF31479HF31679HF32079HF32179HF32279HF32379HF32479HF32579HF32879HF32979HF330A

2020120n20n2020n20n2020n20120120n20120n20n20120120n20n20120120120120120120n20120n70202020n2020n20n20n20n2020n202020n20n20n2020120120n2020n

1051

107

10107

105

10207

205n5n

1 55n75n

10105n5n51

15101010515n5n5n

205n551

1055n55

10515n

10305n

105

50

205030302020

10050705020701550301550101

10020205050503010n1013010n503070305050507050105050155050302050305020

105177

15155

157

1010107751

10515n5n

1510575

1551

20105n55•5n

15105n5555n51

101051517

105n77

20

1 5I0n10n10n1010n10n10n10n10n10n10n10n10n10n10n10n10n10n10n10n101101Qn10nIQn1010n10n10110n10n10n10n10n10n10n10L10n1011010n1010n10n10n10n10n10I0n

S33SSS

1 500100100200150300500200200200700200100200150150100100n300200300200200200500200100300100n10011501002003005002002001005001502005001502003003001001300150

1000

sssssss

1 5020505070

10050503070

1005050502050302010

10070505050

10015705010n10L2015

100201550505010n50

1001005015

100100157050

200

50152020501510

5003050303020201520202010n503020302050101502010n203010n505010n152020102030151010305015205050

50015070

1003002001003001502001002002002001502001503001502003003001505003001503001002070

1 5015050020010010020030050

20050020070

300300200100200200150

Page 12: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Precambrian granitic rocks (cont.)

Field \o.===SS35SS5S

79HF33379HF33479HF33579HF33879HF33979HF34179HF34279HF34379HF343A79HF34479HF35079HF503A79HF503379HF50679HF50779HF50879HF51079HF51 179HF51379HF51479HF515A79HF515879HF51679HF52279HF52479HF52579HF52779HF71 179HF71279KF71379HF71 579HF71779HF71879HF71979HF72079HF72179HF72379HF72679HF72779HF72879HF72979HF730

Nb5SSS

5020n20120120120n20120-120n2012012020n20n2020n20n2Qn20n2020120120n20120n20120n20n20n20n20n20120n2020n20n20n20120120n20n201

Ni

5n5n

105n5n555157

1 5105515

10575n

1075n

1 55151

70515515n

1 55n5

1 55n

1 557

1075

10

Pb

1510n30505020505020303020505070303030503050

10050502010703050

100105050302020302020505010

Sc

5n5n

1551515n55155

20105n5n7

107

105

101055n551

155n

1075n515n5n

155n

1051

10105151

15

Sn

10n10n10n10110n10n1510n10n10n10n10n10n10n10110n 110n10n10n10n1010n1Cn10n10n10n10n10n10n10n10n10n10n1510n ,1Cn10n10n10n10n10n10n

Sr

100n10Cn150150150150150100700300700200500100200000500500150200300200500300300100200500500200200100100n200200300500300200300200200

V

10110n

10030501050207050

200100151550

100505020

10010070305030

10030703010n302010n

100101

1007070

100503070

Y

1010n7020101515102020705010n155020202015202020

20030152010n201510n10301Qn3010n152050302010130

Zr

5020

30020020070

20010015015030030010015050050050050010010020030030

30010030050

5002003010

10010

15050

500500150300300150300

10

Page 13: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Precambrian mafic intrusive rocks

Field No. Rocktype Lat. Long. Fe Mg Ca Ti

79HF22879HF228A79HF28179HF306B79HF31 779HF31879HF33179HF722

Field Mo.

79HF22*79HF??8A79HF28179HF3H6R

79HF317

79HF31*79H FT;T 179HF 72?

DiDiOiDiGrDiMeOi

Mb

2 On?°n

?0n20n201?0n20n?n n

o ri teori t eo ri teo ri t eanod i oo ri t et adi oro r i t e

Mi

7050

1 50100

50100

7050

rite

i te

Pb

2030101515?010|1 5

39.39.39.39.39.39.39.39.

i

122122316145180214283256

Sc

1 57

30201 ?50501 5

-106.-106.-106.-106.-106.-106.-106.-106.

Sn

10n10n10n1 Dn10n10n10n10n

68468567458373661 9708596

Sr

5001 500

2002000

1501000

1 nn,1000

10.005.00

10.005.005.00

10.0010.0010.00

V

3001002001 5010050030n200

2.001 .505.003.001.503.002.002.00

Y

3030205070503030

2.007.005.002.001 .50

10.000.705.00

Zr

150200

50POO200

5050

700

10000101

.00

.30

.30

.30

.50

.00

.50

.00

Field No. Mn 8 3a Be Co Cr Cu La Mo

79HF22879HF228A7 9 H F 2 3 179HF306Q79HF31779HF31879HF33179HF7?2

1500soo

1000700

1000150015001000

10110110101101101101101

15002000300

5000700

300030

2000

1.012.01.01?.n1.01.01.0n1.0

2020503020705020

300100

100050070

200200150

10010050517

5010010

20010020n

100303020n150

5n155n75n5n75n

11

Page 14: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Precambrian metamorphic rocks

Field Mo Sock type Lat Long. Fe Ca Ti

79HF20*79HF72179MF225B70MF?4379HF?6179HF2677QHF27979HF2S279HF28479HF29479HF29S79HF30079HF306A79HF30?79HF33279HF33779HF34679HF34079HF50479HF510A79HF52079HF52379HF52679HF70670HF7Q779HF70879HF70979HF71079HF71479HF71679HF72470HF725

Hb 1 . Gnei ss0 10. GneissM i amat i t eBio. Schist'Bio. Gnei ssMi qmat i t e8i o. Gnei ssBio. GneissBio. Gnei ssfl io . Gnei ss3io» SchistQio. GneissBio. Gnei ssWigmat i t eBio . Gnei s sMigmat i teBio. Gnei ssBio. Gnei ssBio. Gnei ssBio. Gnei ssBio. Gnei ssMigmat i t eMi amat i teBio. Gnei ssBio. Gnei ssBio. GneissBio. Gnei ssBio. GneissBio. Gnei ssBio. GneissBio . Gnei ssBio. Gneiss

TO. 26839.12130.11039.3273^.20639.12839.31739.31239.30039.13039.13539.12439.14539.15530.30239.25339.14239.14239.32139.11 739.16639.?0039.16339.07939.08?39.10139.11639.10839.12439.11830.32739.127

-106.754-106.719-106.690-106.676-106.715-106.681-106.675-106.686-106.683-106.562-106.563-106.583-106.583-106.575-106.720-106.669-106.657-106.646-106.608-106.589-106.541-106.507-106.547-106.529-106.540-106.542-106.540-106.548-106.579-106.620-106.664- 1 Q6.651

10.003.005.00

10.005.003.005.005.007.003.005.005.003.005.007.005.007.003.002.005.005.005.003.005.00

10.005.0010.005.005.005.005.005.00

3.000.701 .001.501.000.501.500.701.000.700.701.000.701.501.501.501.000.501.001.001.001.000.701.002.000.301.501.001.001.001 .501.00

3.000.200.700.100.700.500.501.000.301.000.500.700.500.300.200.100.300.500.300.070.200.301.001.003.001.500.501.500.500.100.300.30

0.500.200.500.500.700.300.700.300.300.200.300.300.300.500.500.500.500.200.200.500.500.200.300.301.000.150.500.500.200.300.300.50

12

Page 15: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Precambrian metamorphic rocks (cont.)

Field NoS3SS 3SSS

79HF70*7QHF22179HF225979HF24379HF 26179HF26770HF27979HF23279HF23479HF29479HF29879HF30079HF306A79HF30379HF33279HF33770HF34679HF^4979HF50470HF510A79HF52079HF52379HF52679HF70679HF70779HF70879HF7D979HF71079HF7147QHF71670HF72479HF725

Mn3535SS3S

moo200500700300500

1000300500200300300300300SOO?00500200500300500200300500

1500300700moo1000300300500

833333

10101mi1010110110110110110110110110110120

20010110110110101101101101201011010110110150101

3assssssss

3000700500700500700700500700300200500700700700700700700

15003007005002005007001*010001000700

1000700500

3e

1.01.01.011.011.31.31.01.51.01.31.011.01.01.51.32.01.3n1.0n1.0n1.0n2.01.0n1.02.01.32.01.0n1.31.3n1.0n1.0n2.0

Co

30102020

1005

20' 151510101510152020207520 '

20101015507

201515152020

Cr

50070

1502002020

20070

100507070

1001003001501005010

10015050703070501503070

100100150

Cu3S3S3S33S3

5075

20751

150302055575

2010515

305757 '

500505

1020515151

10

La

2003050505020n30205030703030

10020n503050

150505020n50502 On20n703050705020

Mo

5n5n5n55n5n5n55n5n5n5n5n5n5n5n5n

105n5n5n5n5n5t

105n55n5n5n5n5n

13

Page 16: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Precambrian metamorphic rocks (cont.)

FieM Mo. Nb ui pb sc Sn Sr V Y Zr

79HF?o"

70MF?2179HF ??5370HF 74-579HF26179HF76779HF ?797QHF?*?70HF ?«£79HF29479HF?Q#79H.fT7Qf)79HF706A70HF "*0*79HF33279HF *3779HF34679HF34979HFSOA79HFS19A79HF52079HF52379HF52679HF7067O HF ?077?HF 70*79HF7QQ70HF71H70HF71479MF ?1 679HF72479HF 7 ?5

S== "nn =

20n?*"H

2 n i?n i20120120n•>0n

2012020120120n2012 n l2020120n202012012012HI20120 n201201201201?0ri2 n

150205070307

5050301520203030705030157

50302015203010501520203030

201030102030202015'20

202030151520205070101510151520202015?050103D

20102030in101510157

1 510151 5152015102015205

1015505

20207

1 5101 5

10n 11 On1510n10n10n10n10n10n10n10110n10n10r»10n10n1510n10n10n'10n

10n10n10n10n10n10n1 On10n10n10n10

5001 0010 n1001100100150300100200100120020010010Hmen100200100n100n150100100150300200100200150200150100

15070

10020015030

10070

10050707070

1001001001005020

1001005050

10030010020010070

1 00100100

503015T 0201015303020

300305020502050505030501520305010n50

• 2030202020

200300200150500150100200150200300200200150200150200300500200200100200200300100300200150200100200

14

Page 17: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Tertiary igneous rocks

Field No, Roc ktype Lat. Mg Ca Ti

79HF20479HF23779HF23979HF25279HF25379HF25979HF26879HF26979HF27579HF28779HF29579HF29679HF297A79HF30279HF30479HF30779HF31379HF34C79HF34879HF50279HF50979HF51 279HF519B79HF521

QtzD i oQtzVi tAshQtzQtzQtzDi oQtzQtzQtzQtzQtzQtzQtzQtzLatQtzQtzQtzLatQtzQtz

. Porphyryri te. Porphyryrophy re-flow Tuff. Porphyry. Porphyry. Porphyryrite. Porphyry. Porphyry. Porphyry. Porphyry. Porphyry. Porphyry. Porphyry. Porphyryi te. Porphyry. Porphyry. Porphyryi te. Porphyry. Porphyry

39.19339.18739.17839.11039.11339.10939.12939.14039.24839.17539.13039.13139.13439.12639.13439.14639.18939.24139.14639.11239.12139.12539.11739.161

sss aaas

-106.-106.-106.-106.-106.-106.-106.-106.-106.-106.-106.-106.-106.-106.-106.-106.-106.-106.-106.-106.-106.-106.-106.-106.

77375675961 161 161 1681689724758562563564592592581737713667549558536605531

210

1212115111112325512322

aaaaaa :

.00

.00

.50

.00

.50

.00

.00

.50

.00

.50

.50

.50

.50

.50

.00

.00

.00

.00

.00

.50

.00

.00

.00

.00

saaaaa

0.202.000.100.500.500.100.100.101 .000.200.100.100.200.100.100.200.201.000.300.100.070.700.100.10

a aaa

1

21110100010000102100000

ssa ssa

.00

.00

.00

.50

.00

.50

.00

.50

.70

.15

.00

.50

.30

.50

.05

.00

.50

.00

.00

.70

.50

.50

.50

.70

= 3SS5

0.070.500.030.150.150.020.030.020.300.050.020.020.050.020.020.050.070.300.050.020.020.200.050.01

15

Page 18: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Tertiary igneous rocks (cont.)

Field NO.sssssssssss

79HF?0479HF?3?79HF73079HF25270HF25379HF25979HF26879HF26979HF27579HF28779HF2°S79HF29679HF297A79HF30279HF30A79HF30779HF31379HF34079HF34*79HF50279HF50979HF51279HF519B79HF521

Mn

?nnmoo5m500500300500300700500500500200500200500500

10005005on500700200500

q

101m1011011011011011011011010110n101101101101101mi1011010120101101

3a

15001000150020002000150020002000700

10002000200020002000500

2000200015001500700

1000100020001000

Be

1.51.01Ud1.01.01.01.01.5uot1.51.01.01.01.01.51.01.01.011.51.01.0 '2.01.01.5

Co

5n205n515n515n5n

155n5n515n5n5n5n5n5155n5n55n5n

Cr! •• •• •• • m* «M •» >

1010110101012010151010110ro1011020301010301520102020

Cu• •• «•• •• •»•

10020

510

515

710

75

10751

101515101020

710

71020

La

203020n707020n20n20n202Qn20n20n2020n20n20n2020n20n20n2 On20n20n20n

Mo:ss:

5n5n5n5n5n55n5n5n5n5n55n7555n5n55n55n5151

16

Page 19: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Tertiary igneous rocks (cont.)

Fie La No. Nb Ni P-b Sc Sn Sr V Y Zr

79HF2CA79HF23779HF23979HF25279HF25379HF25979HF26879HF26979HF27579HF23779HF29579HF29679HF297A79HF30279HF3Q479HF30779HF31379HF34079HF34879HF50279HF50979HF51 279HF519879HF521

20n20n20120n20n20120n2012012020120120120120n20 I20120n2012020120201201

555515n

1 55157517515n5

1 510551

155

105

1010

20100503030302015151530503030101301520305050302050

5n205n555n5n5n

105n5n5n5n5n5n5n5n5 .5515n55n5n

1010n10n10n10n10n10n10n10n10n10n10n10n10n10n10n10n10n10n

. 10n10n10n10n10n

1000100010007005005005005007003007007005005001001

100010001000700500500200500500

10n20010n201510n10n10n

1001Qn10n10n10n10n10n10110n501010n10n5010n10n

1530202020'1010101202010110n10n10n10110n10102010101510110

7010050

1001005030

10020050

100505030507070

100705030505050

17

Page 20: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Paleozoic sedimentary rocks

Field No. Socktyoe Lat. Long. Fe Mg Ca Tissss ssss sss ssss satsssssss sssssssssss ssss sssssssss

79HF229A 79HF245

79HF749 79HF?50

Dol onii te Quartzi te Quartz i te Quartzi te Quartzi te

39.332

39^223

-106.776-116.677-106.677-106.749-106.746

1.503.005.000.501.50

1.000.050.070.100.03

10.000.050.050.300.05

0.100.050.050.100.03

Field No. 3a Se- Co Cr Cu La Mossssssssssssssssssssssssssssssssssssssssss:

79HF229A

79HF24579HF24679HF24079HF250

7002005005070

50101015101

202nn

50020

On0 ,0 On

1.0n

7575n51

30202010101

1020305

20

2 On ?0n 2 On 20n 20n

5n 5 55n

15

Field No. Nb Ni Pb Sc Sn Sr ZrSSSSSSSSSS3

79HF229A79HF24579HF246

20n20n20n

102020

2010n20

75n5n

10n10n10n

1001100n100n

502050

3010n20

10070

20079HF249 79HF250

20n 20n

5n 10n15

5n 5n

10n 10n

100n 100n

1010

15 10n

20050

18

Page 21: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Twin Lakes Granite (Tertiary)

Field No. Rocktyqe lat Lonq. Fessssssssssssssssssssssssssssssasssssssssssssssssssssssssssss:

Ca Ti

79HF7H1 70HF702 70HF7H3 79HF7Q4 70HF705

Granite Granite Grani te Grani te Grani te

3°. 07139.07139.07239.07039.069

-106.450-106.471-106.47*-106.494-106.510

2.003.003.002.005.00

0.500.500.700.500.50

1 .on1.001.002.001.00

0.200.100.300.200.15

Field No. Mn

79HF701 79HF7D2 79HF703 79HF70A 79HF705

5003nn500500700

101mi10110n101

5005HO

iono700500

1.51.01.31.01.0

Ba 9e Co Cr Curssssssssssssssssssssssssssssss:

51010551

La

10n10201010n

10555151

7030302050

Mo:ss:

5515n5n5n

Field No. No

79HF701 79HF7Q2 79HF703 79HF704 79HF705

2020n2020120n

Ni:sss:

51 5

10 51 5n

Pb:ss:

3030203020

Sc Sn Sr

51515551

10n10n10n10n10n

500500

1 0001000

700

5070

1007070

1010303015

Zrsss:

100150150100150

19

Page 22: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Table 2.—X-ray fluorescence data for selected rocks

20

Page 23: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Field No,

Tertiary igneous rocks

Rb Sr Y Zr Nb

79HF25979HF23979HF50979HF31379HF30479HF25279HF23779HF26979HF26879HF34079HF50279HF297A79HF29579HF34879HF52179HF30279HF51279HF28779HF30779HF29679HF25379HF20479HF519B79HF275

Field No.

79HF72679HF32879HF72179HF52479HF32379HF30579HF27079HF29179HF28879HF22879HF33979HF72379HF73079HF52279HF30979HF34279HF513

11313113413083

13195

1841216813610813312212210813015210712711110310076

Rb

211186200197226159200235292103291249151220207319137

59684836469280

645993630646897396381684603539659322438628749429896515919

Precambrian

Sr

35923130027928017652482124768140449186237200124109

<511<595

1723<566756

<56588

<5<51412<518

granites

Y

268

127

2210217

17206

1313201487

3549418832

201154354075403637562533525851341529151

252

Zr

296240247214341117473125160340190448245529266215119

11121615128

101886

138

15141312211313149

131110

Nb

138

12<521<520<51716101310199

145

21

Page 24: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Table 3.—Emission spectrographic data for various

fractions of stream sediment samples

"S" and "T" suffixes in the sample numbers refer to two samples taken at

the same site.

"N", "M", and "F" suffixes, respectively, refer to non-magnetic,

magnetic, and -200 mesh fractions of the samples.

In addition to the data in the table, all samples were analyzed for Ag,

As, Au, Bi, Cd, Sb, and W. These elements were not found with the following

exceptions:

1. 79HF104TG contained 50 ppm W.

2. 79HF112TN contained 300 ppm W.

3. 79HF113TM contained 5 ppm Ag.

4. 79HF112TF contained 20 (L) ppm Cd.

Detection limits were the same as those given in the explanation of

Table 1.

22

Page 25: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Nonmagnetic

Fraction

SAMPLE

Lat

.Long,

Fe(X)

N)

8HF004SN

8HFOQ4TN

8HF005SN

8HF005TN

8HF006SN

8HF006TN

8HF007SN

8HF007TN

8HF012SN

8HF012TN

8HF013SN

8HF013TN

8HF014SN

8HF014TN

8HF015SN

8HF015TN

8HF016SN

8HF016TN

8HF017SN

8HF017TN

8HF018SN

8HF018TN

8HF019SN

8HF019TN

8HF020SN

8HF020TN

8HF021SN

8HF021TN

8HF023SN

8HF023TN

8HF024SN

8HF024TN

8HF025SN

8HF026SN

8HF026TN

8HF027SN

8HF027TN

8HF028SN

8HF028TN

8HF029SN

8HF029TN

8HFQ30SN

8HF030TN

8HF031SN

8HF032SN

39 07 34N

39 07 34N

39 07

48N

39 07

48N

39 07 34N

39 07 34N

39 07 26N

39 07 26N

39 11 20N

39

11 20N

39

11 20N

39 11

20N

39 14

06N

39 14

06N

39 15 47N

39 15

47N

39 15

29

N39 15

29N

39 17

31N

39 17

31N

39 17 28

N39

17 28

N39 17 28

N39

17 28N

39 17

31

N39 17 31N

39 18 SO

N39

18 SO

N39 19

55N

39 19 55

N39

20 28N

39 20 28

N

39

2,0

56N

39 16

23

N39 16 23N

39 20

13

N39 20 13

N39

11 13

N39

11 13

N39 14

06

N

39 14 06N

39 11 49N

39 11

49

N39 11 56N

39 12

25

N

106

34 44

U106

34 44

U10

6 36 SO

U106

36 SOU

106

36 47

U10

6 36 47

U106

34 26U

106

34 26U

106

41 10

U106

41 10U

106

41 06U

106

41 06

U10

6 35 38

U106

35 38U

106

38 20U

106

38 20U

106

37 23

U106

37 23

U10

6 37

34

U106

37 34

U10

6 38

35U

106

38 3SU

106

38 35

U106

38 35

U

106

39 07

U10

6 39 07

U10

6 39

14

U106

39 14

U10

6 43

16

U106

43 16

U106

42 40

U10

6 42 40U

106

42 29

U10,6 34 37U

106

34 37

U106

39 54U

106

39 54

U10

6 30

47

U10

6 30

47U

106

31 19

U

106

31 19

U106

32 31

U106

32 31U

106

32 38

Ut06

32 31

U

10.0 7.0

15.0

15.0

10.0

10.0

15.0 7.0

15.0

15.0 S.O

10.0 5.0

3.0

10.0 7.0

10.0

10.0 5.0

7.0

10.0

10.0

7.0

10.0

10.0 7.0

15.0

10.0

15.0

15.0

20.0

1S.O

20.0

3.0

10.0

15.0

15.0

10.0

15.0

15.0

15.0

10.0

10.0

10.0

20.0

Mg(X)

1.00

0.30

0.15

0.20

1.00

0.50

0.50

0.30

0.10

0.15

0.20

0.05

0.20

0.50

0.30

0.15

0.50

0.20

0.15

0.20

0.10

0.07

0.10

0.15

0.50

0.50

0.10

0.15

0.10

0.10

0.10

0.30

0.15

0.30

0.07

0.20

0.07

1.00

0.70

0.70

0.30

0.20

0.20

0.15

0.30

CaU)

0.50

0.15

0.07

0.07

0.10

0.10

0.07

0.15

0.05

0.05

0.30

0.10

0.50

1.00

0.30

0.70

0.50

0.30

0.50

0.50

0.20

0.07

0.15

0.30

0.30

1.00

0.07

0.15

0.05

0.07

0.05

0.05

0.05

0.70

0.15

0.10

0.07

0.10

0.10

0.20

0.10

0.70

0.50

0.10

0.10

Ti(X)

Mn(ppn)

B(ppm)

Ba(ppm)

0.70

0.70

1.00

61.

006

0.50

0.50

0.30

0.70

1.00

61.006

1.00

61.006

1.006

1.00

61.

001.

006

1.00

61.

006

1.006

1.006

1.00

61.

006

1.00

61.

006

1.006

0.70

1.006

1.00

60.

150.

200.

300.20

0.20

1.006

1.006

0.70

0.20

0.50

0.70

1.00

1.006

1.00

61.00G

1.006

1.00

6

5000

2000

1500

1500

3000

3000

3000

2000

1000

1500

1000

1000 500

1000

1500

2000

1500

2000

1000

1000

1500

1500

3000

3000

1500

1000

1000

1500 300

500

300

300

300

1000

1000 700

300

2000

1500

2000

1500 700

3000

2000

1000

10 N

10 10 N

10 N

10 IS 10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 10 N

10 N

10 L

10 10 N

10 15 15 10 15 10 N

10 30 30 2Q 15 20 10 N

10 N

15 20 10 N

10 N

10 N

10 N

10 N

15 10 N

10 N

300

300

100

150

100

200

150 70 50 70

300 70

200

700

300

300

100

200

300

500

100 50 70

150

200

500 70

150

300

150

200

500

500

500

100

100

100 50

300

100 70

100

100

100 50

Be(ppn) .ON

.OL

.OL

.ON

.ON

.0 .OL

.0 ,ON

, ON

,ON

,ON

,0 ,0 ,02.0

1.5

1.5

1.0N

2.0

1.0L

1.0N

2.0

3.0

2.0

2.0

1.0L

1.0

1.0

1.5

2.0

2.Q .OL

.0 .OL

.0 .ON

.ON

.0 .ON

OL

,OL

,0 0 1.0N

Page 26: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

No

nm

ag

neti

c

fracti

on

-co

nti

nu

ed

ho

SAMPLE

8HF004SN

8HF004TN

8HF005SN

8HF005TN

8HF006SN

8HF006TN

8HF007SN

8HF007TN

8HF012SN

8HF012TN

BHF013SN

8HF013TN

8HFOUSN

8HFOUTN

8HF015SN

8HF01STN

8HF016SN

8HF016TN

8HF017SN

8HFQ17TN

8HF018SN

8HF018TN

8HF019SN

8HF019TN

8HF020SN

8HF020TN

8HF021SN

8HF021TN

8HF023SN

8HF023TN

8HF024SN

8HF02UN

8HF025SN

8HF026SN

8HF026TN

8HF027SN

8HF027TN

8HF028SN

8HF028TN

8HF029SN

8HFQ29TN

8HF030SN

8HF030TN

8HF031SN

8HF032SN

Co(ppm)

15 10 10 10 15 15 15 10 10 10 15 20 15 10 30 20 15 15 15 505 5

10 15 10 10 50 15 20 15 20

15 20 10 10 20 20 10

1 15 15 15 15 15 10 15

C r(ppm)

150

150

200

200

150

200

150

150

200

150

ISO

1SO

150

150

150

200

200

200

200

150

200

200

ISO

ISO

300

200

200

200

1500

1000

1000

700

1500

150

150

300

1SOO

1SO

300

200

200

300

200

200

200

Cu(ppm)

La<pp«)

Mo(ppm),

Mb(PPM)

Ni(ppa)

Pb(pp«)

10 15 105 7 7

20 10 10 10 10 10 10 15 15 10 15 510 205

L5 5 5

10 15 305

30 30 10 15 107

107

307

10 10 15 107 7 5

L

700

SOO

700

700

700

SOO

700

700

1000 700

500

700

SOO

SOO

700

700

700

SOO

700

1000

1000

1000

6

1000

6

1000 700

SOO

700

500

SOO

SOO

300

300

300

SOO

300

700

300

1000

1000

G

700

1000

G

700

1000

G

1000

G

700

S N

S N

S N

5 N

S N

5 N

5 N

S N

S N

S N

S N

5 N

S N

5 N

S N

S N

S N

S N

S N

S N

S N

5 N

5 N

S N

S N

5 N

S N

S N

S N

S N

S N

S N

S N

S N

5 N

S N

S N

S N

S N

S N

ISS

NS

N5

N5

N

30 20 20 10 L

30 10 L

10 L

10 L

30 50 20 20 SO SO 20 50 30 30 20 30 20 20 100 30 SO 10 N

30 30 10 N

20 10 L

10 N

10 N

50 SO 10 L

10 L

50 70 20 10 L

20 30 20 30

155 7 S

15 305

L5 5 5 5

LS S

L10 10S 7 S 5

L105

L5

LS 5

L

20 30 205

50 30 30 30 20 10 S N

30 SO 15 20 IS

5 S 5 5 10

70 70100

ISO 70 70 30 70 70 70

100 70 70 70

100

100 70 70

150

100

ISO

ISO

100

ISO 70

100

500 70 SO 70 30 70 10 N

70 70 50 SO100 70

ISO

150 70 70

150

100

SC(PPM)

7070

20 15 7070

70 70

15 20 10 10

30

30

1020

15

IS

20

10

IS

15

15

IS 15

15

10

20 S10

10 S

10

20

30 155

70

5030

30

SO

20

15

30

Sn(ppm)

20

10

30

30

10 N

10 N

10 N

10

50

SO

50

30

30

15

20

SO

50

30

30

30

30

SO

20

20

10

300

50

30

IS

15

20

IS IS 30

5020

20 10

10 N

30

30 30

30 30 30

Page 27: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Nonmagnetic Fraction-continued

SAMPLE

8HF004SN

8HF004TN

8HF005SN

8HF005TN

8HF006SN

8HF006TN

8HF007SN

8HF007TN

8HF012SN

8HF012TN

8HFOUSN

8HFQ13TN

8HF014SN

8HFOUTN

8HF01SSN

8HF015TN

8HF016SN

^ 8HF016TN

Ln 8HF01 7SN

8HF017TN

8HF018SN

8HF018TN

8HF019SN

8HF019TN

8HF020SN

8HF020TN

8HF021SN

8HF021TN

8HF023SN

8HF023TN

8HF024SN

8HF024TN

8HF025SN

8HF026SN

8HF026TN

8HF027SN

8HF027TN

8HF028SN

8HF028TN

8HF029SN

8HF029TN

8HF030SN

8HF030TN

8HF031SN

8HF032SN

Sr (ppn)

Th(ppn)

V(ppn)

Y(ppn)

Zn(ppn)

Zr(ppn)

500

100

L10

0 N

100

L500

100

N100

L100

N

300

100

100

100

N100

300

700

100

N

100

100

100

100

100

L100

N ,

100

N10

0 N

100

L100

100

N100

N100

N10

0100

N100

N

100

100

100

N100

N100

L10

0 N

100

L10

0 N

100

L100

L10

0 N

100

L300

500

200

500

300

200

100

100

200

1500

1000

300

SOO

500

300

300

100

N

700

1SOO

1000

1000

1000

1SOO

2000

1000

300

100

NSOO

SOO

100

N100

100

N100

N

100

N300

500

100

100

N300

700

SOO

1000

SOO

100

N2000

700

100

100

ISO

100

100 70 70

100

ISO

200

100

200

150

100

100

ISO

ISO

200

100

1SO

100

150

150

ISO

300

100

100

200

300

300

300

300

300

1SO

200

300

300

ISO

100

150

100

100 50

100

300

200 6

200 6

200 G

200 6

200 G

200 G

200

200 G

200

150

200

200 G

100 70

200 G

200

100

100

ISO

150

200 G

200 G

200 G

200

200 G

200

200

200 G

200

200

150

ISO

150

-100

100

200

200

200 G

200 G

200 G

200 G

200 G

200 G

200 G

150

200 N

200 N

200 L

200

200 N

200 N

200 N

200 N

200

300

200 N

200 L

200 W

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 L

200 L

200

200 L

300

200

200

200 L

300

300

200

200

300

200 N

200

200 L

200

200

200

200

200 N

200 L

200 N

200 L

200 N

700

700

SOO

SOO

700

300

700

1000 G

700

200

1000

700

1000 G

700

700

300

700

700

1000 G

1000 G

1000 G

1000

1000

SOO

700

SOO

1000 G

SOO

700

700

300

300

200

700

700

SOO

200

1000

700

700

1000

1000 G

1000 G

1000 G

1000

Page 28: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

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26

Page 29: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Nonmagnetic Fraction-continued

SAMPLE

8HF033SN

8HF034SN

8HF035SN

8HF036SN

8HF036TN

8HF037SN

8HF037TN

8HF03BSN

8HF03BTN

8HF039SN

8HF039TN

8HF04QSN

8HFQ40TN

8HF041SN

BHF041TN

8HF042SN

8HF043SN

9HF101SN

9HF101TN

9HF102SN

9HF102TN

9HF103SN

9HF103TN

9HF104TN

9HF105SN

9HF10STN

9HF106SN

9HF106TN

9HF107SN

9HF1Q7TN

9HF10BSN

9HF10BTN

9HF109SN

9HF110SN

9HF111SN

9HF111TN

9HF112SN

9HF112TN

9HF113SN

9HF113TN

9HF115SN

9HF11STN

9HF116SN

9HF116TN

Co

(pp

a)

15

15

15

15

IS

10

10

15 15 50 50 20 15 15 20 10 30 15 15 70 70 50 50 20 30 20 15 20 30 50 10 15 15 10 20 20 20 20 20 20 15 10 15 20

,

Cr(

pp

«)

200

200

15

01

50

300

200

15

01

50

200

150

150

150

200

10

01

50

150

300

300

300

200

200

200

200

200

300

300

15

0150

150

200

100

200

15

020

030

020

01000

700

300

500

300

200

200

150

Cu

(pp

n)

La

(pp

«)

No

(pp

»)

Nb

(pp

«)

Ni(

pp

«)

Pb

(pp

m)

5 L

7157

105 5

L5 7

15 207

20 20 10 15 157

10 20 30 15 30 10 10 107 7

10 207

10 10 155

10 10 157 7 5 5

10 10

1000

6

SOO

700

700

1000

G

1000 300

500

SOO

500

SOO

700

700

1000

1000

6

1000

1000

6

1000 6

1000 6

1000

6

1000

G

1000

G

1000

G

1000

G

1000

G

1000

G

1000 G

1000

6

1000 G

1000

G

1000

G

1000

G

1000

G

1000 G

1000 G

1000

G

1000

G

1000

G

1000

G

1000

G

1000

G

1000

1000 700

5 N

S N

5 N

S N

5 N

5 N

5 N

5 N

5 N

5 N

5 N

S N

5 N

5 N

5 N

5 N

5 N

S N

5 N

5 N

S N

5 N

S N

5 N

5 N

5 N

S N

5 N

5 N

5 N

5 N

5 N

S N

5 N

5 N

5 N

S N

155

N5

N

5 N

S N

5 N

S N

50 20 20 SO 20 30 7010

0 50 20 30 SO 20 SO 70 30 20 50 SO 70 50 SO 50 SO 50 SO SO SO SO 70 SO 50 50 70 70 50 30 30 50 50 70 70 20 30

155

105

155

N5

N5

L

510 20 105 5 5 5

L

10 10 15 15 20 15 15 10 15 10 107

10 107

10 105 7

10 30 20 15 10 15 105 5

100 70 70

100

ISO 70 50 70 70 50 70

100

100

200

100

100

150 SO

200 70

150

100

150 50

100

100

ISO

150 70

100

100

100 70 70 70 70

150

150

100

100 70 70 70 70

S c(p

pn

)

20 20 30 20 20 30 20 30 20 15

20 20 20

10

15

10

10

10

10

10

10 10

15

10

10

10 7 7 7

10

10

10 15

10 20 20 15

15

15

15 70 70 20 20

Sn

(pp

n)

50 30 30 50 50 70 50 50 50

30

30

50

30

50

SO

70 10 2030

0 50 50 20 30 50 50

50

, SO

70

30

30

20

30 20

SO

30

50

30

30

SO

50 10

N

10

N

50

5

0

Page 30: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

No

nm

ag

ne

tic

F

racti

on

-co

nti

nu

ed

ho

oo

SAMPLE

8HF033SN

8HFQ34SN

8HF03SSN

8HF036SN

8HF036TN

8HF037SN

8HF037TN

8HF038SN

8HF038TN

8HF039SN

8HF039TN

8HF040SN

8HF040TN

8HF041SN

8HF041TN

8HF042SN

8HF043SN

9HF101SN

9HF101TN

9HF102SN

9HF102TN

9HF103SN

9HF103TN

9HF104TN

9HF105SN

9HF105TN

9HF106SN

9HF106TN

9HF107SN

9HF107TN

9HF108SN

9HF108TN

9HF109SN

9HF110SN

9HF111SN

9HF11 UN

9HF112SN

9HF112TN

9HF113SN

9HF113TN

9HF11SSN

9HF115TN

9HF116SN

9HF116TN

Sr (ppin)

Th(ppm)

100

N10

0 N

100

200

100

L10

0 L

100

N100

100

N10

0 N

100

100

200

100

L100

N100

L

100

N100

N10

0 N

100

N100

N15

0100

N10

0 N

100

N -

100

N100

N100

N10

0 N

100

N150

100

N

100

N10

0 N

100

N100

N10

0 N

100

N10

0 N

100

N

100

N100

N10

010

0

1000 500

700

1500

1000 100

300

200

200

100

500

1000 500

1000 500

300

1500 300

500

700

1000 500

700

200

500

500

500

300

300

500

300

500

500

500

500

300

500

500

500

500

500

500

150

150

V(pp«)

150

200

150

200

100

100

300

150

150

300

200

150

200

100

200

100

150

150

150

150

150

150

150

150

150

150

150

150

150

150

100

150

150

200

150

150

200

150

150

200

150

150

150

300

Y (ppin)

Zn(ppm)

Zr (ppin)

200 6

200 6

200

ISO

200

G10

0100 70 70

100

100

150

150

200

200

200

200

G30

0200

200

200

200

200

200

500

300

500

200

200

500

200

300

300

200

200

200

1000

1500 700

700

200

G200

G150

150

200

200

200

200

200

L200

200

200

200

L200 N

200

N20

0 N

200 N

500

200

200

200

200 N

200

N200

200 N

200

N20

0 N

200 N

200

200

N200

N200 N

200

N20

020

0 N

200

N

200 N

500

200

N200

N20

0200 N

200

200

N

200

N200

N20

0200

1000

1000 500

700

1000

G

700

300

700

700

1000

G

700

700

1000

300

300

700

1000 500

500

500

1000

1000

1000

G

200

500

500

500

500

300

700

1000

1000 700

200

1000

1000

500

500

500

500

500

300

700

700

Page 31: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

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Page 32: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

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Page 33: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

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8HFOCKTM

8HFOOSSM

8HF005TM

8HF006SM

8HF006TM

8HF007SM

8HF007TM

8HF012SM

8HF012TM

8HF013SM

8HF013TM

8HFOUSM

8HFOUTM

8HF015SM

8HF015TM

8HF016SM

8HF016TM

8HF017SM

8HF017TM

8HF018SM

8HF018TM

8HF019SM

8HF019TM

8HF020SM

8HF020TM

8HF021SM

8HF021TM

8HF023SM

8HF023TM

8HF024SM

8HF024TM

8HF025SM

8HF026SM

8HF026TM

8HF027SM

8HF027TM

8HF028SM

8HF028TM

8HF029SM

8HF029TM

8HF030SM

8HF030TM

8HF031SM

8HF032SM

Sr(ppm)

Th(pp«)

V(ppm)

100

N10

0 N

100

N100 N

100

N10

0 N

100

N10

0 N

100

N100 N

100

N10

0 N

100

N100 N

100

N100 N

100 N

100

N100

N10

0 N

100

N10

0 N

100

N10

0 N

100

N10

0 N

100

N100

N10

0 N

100 N

100

N100 N

100

N100

N100

N100

N100

N100

N10

0 N

100

N

100

N100

N100

N100

N10

0 N

100

N100

N100

N10

0 N

100

N100

N100

N10

0 N

100

N100. N

100

N10

0 N

100

N100

N100

N10

0 N

100

N10

0 N

100

N100 N

100

N10

0 N

100

N100 N

100

N10

0 N

100

N100 N

100

N10

0 N

100

N100

N

100

N10

0 N

100

N10

0 N

100 N

100

N100

N100

N

100

N100

N10

0 N

100

N100

N

300

300

300

300

200

300

300

300

300

300

300

200

500

300

300

200

300

300

300

300

300

300

300

300

300

300

300

300

300

300

300

300

200

200

200

300

300

200

300

200

300

200

300

300

300

Y(ppm)

10

10

10

10

20

100

50

SO 10

20 10 20 10 10 50 20 10 10 10 10 20 20 70 50 50 50 1010

0 50 50 20 20 10 20 10 10 50 20 7010

20 20 20

20 20

In(ppa)

300

300

500

700

500

500

500

300

300

300

300

300

300

300

300

300

300

300

300

300

300

300

300

200

300

700

500

300

300

500

300

500

300

300

300

500

300

700

1000

300

500

300

500

500

500

Zr(pp«)

100

200

100

100

100

300

1000 300

100

200

100

300

100

300

200

300

100

200

200

300

300

100

1000 700

300

300

100

300

100

200

200

200

200

200

200

100

300

100

200

300

i200

300

300

700

300

Page 34: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Ma

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,

8HF033SM

8HF034SM

8HF03SSM

8HF036SM

8HF036TM

8HF037SM

8HF037TM

BHF038SM

BHF038TM

8HF039SM

8HF039TM

8HF040SM

8HF040TM

8HF041TM

8HF042SM

BHF043SM

9HF101SM

9HF101TM

N3 9HF102SM

9HF102TM

9HF103SM

9Hf 103TM

9HM04SM

9HF104TM

9HM05SM

9HF10STM

9HF106SM

9HF106TM

9HF107SM

9HF107TM

9HF108SM

9HF108TM

9HF 109SM

9HF110SM

9HF11 ISM

9HF111TM

9HF112SM

9HF112TM

9HF113SM

9HF113TM

9HF11SSM

9HF115TM

9HF116SM

9HF116TM

39 13

16

N39 13

34N

39 13

52N

39 11 35N

39 11

35N

39 11

35N

39 11 35N

39 11 S6N

39

11 56

N39 12 54N

39 12

SA

N39 13

16N

39 13 16N

39 12

25N

39 12 07N

39 12

29N

39 14 38N

39 U 38N

39 08 20N

39 08

20N

39 07 59N

39 07 59N

39 07 26N

39 07 26N

39 07 OSN

39 07 OSN

39 09 04N

39 09 04N

39 09

43N

39 09 43N

39 U 38

N39

U 38N

39 U 3SN

39 11

46N

39 16 26

N39

16

26N

39 07 37N

39 07 37N

39 07

34N

39 07 34N

39 06 36N

39 06

36N

39 12

07N

39 12

07N

106 32 13U

106 32

06U

106

31 59U

106

34 4ly

106

34 4l

y10

6 34 44y

106

34 44U

106

34 44W

106

34 44U

106 34

52

U10

6 34 52W

106

34 52W

106

34 52U

106 44 S3U

106

43 52

U10

6 44 02U

106

43 30W

106

43 30W

106

45 S4W

106

45 54U

106

45 11U

106

45 11U

106

40 55W

106

40 55W

106

42 22

U106 42 22U

106

47 02W

106

47 02U

106

47 13W

106 47 13U

106

43 37U

106

43 37U

106

44 06U

106

43 08U

106

33 40W

106

33 40W

106

38 06U

106

38 06W

106

39 OOU

106

39 OOW

106

35 35

U10

6 35 3SU

106

41 20

W10

6 41 20W

Fe

(X)

20

.020.0

20.0

20.0

20

.02

0.0

15.0

20.0

20

.02

0.0

15.0

15.0

10

.02

0.0

15

.02

0.0

20.0

6

20.O

G

20.O

G

20

.0

20.O

G

20. O

G 20.0

20

.OG

20.O

G

20.O

G

20.0

20

.OG

2

0.0

20

.OG

20

.OG

20.0

6

20

.020.0

620.0

62

0.0

620.0

620.0

620.0

61S

.O

15.0

15.0

15.0

15

.0

Mg

(X)

0.0

50.0

20.0

30.0

70.0

50.0

20.0

50.0

3

0.0

20

.10

0.1

00.1

00.0

50.0

50.0

50.0

5

0.1

00.1

50.1

00.0

50

.03

0.0

50.0

20.0

3

0.0

20.0

20.

02L

0.0

50

.05

0.0

70.0

70.0

5

0.0

5

0.0

2

0.0

3

0.0

2

0.0

5

0.0

7

0.0

2

0.0

2L

0.1

00.0

50.0

50.0

2

Ca(

*>

0.0

50.0

50.0

70.0

50.0

50.0

50.0

50

.05

0.0

7

0.1

0

0.0

7

0.0

7

0.1

0

0.0

5

0.0

5

0.0

5L

0.0

70.1

00

.10

0.1

00.0

70

.10

0.0

50

.07

0.0

50.0

50.0

50.0

50

.10

0.1

00.0

70

.07

0.0

70.0

70.0

70

.10

0.0

50.1

00.0

50

.05

0.0

5

0.05

L

0.0

5

0.0

5

TU

X)

Mn

(pp

m)

1.006

1.006

1.006

0.50

0.30

1.006

1.006

1.00

6

1.00

61.006

1.00

61.

006

1.006

1.00

61.006

0.20

1.00

1.00

61.006

1.006

1.006

1.006

1.00

61.006

1.00

61.006

1.00

61.006

1.006

1.00

61.00

1.00

6

1.00

1.00

61.

006

1.006

0.70

1.00

1.006

1.00

6

0.20

0.20

1.00G

1.00G

1000

1000

1000

1000 700

1500

1500

1000

1000

700

1000

1000

1000 700

1000 500

700

700

1000

1000 700

700

700

700

700

700

700

700

500

500

500

700

500

1000

700

1000

300

300

700

700

300

500

1000

1500

B(p

pm

)

10

N

10

N

10

N

10

N 10

N 10

N 10

N 1

0

N

10

N 10

N IO

N

10

N

10

N 1

0

N 10

N 1

0

N

10

N 10

N 1

0

N 10

N 10

N 1

0

N 1

0

N 10

N

10

N 1

0

N IO

N-

10

N

10

N

10

N

10

N

10

N

10

N

10

N

10

N

10

N

10

N

1

0

N 10

N 10

N

10

N 10

N 1

0

N 1

0

N

Ba

(pp

m)

20 20

N 20

N

SO

SO

20 20

N 20 20 70 50

100 50 20 20 20 30

30

50

20

20 20

N 20

N

20

N

20

N20

N20

N

20

N 20 20

N20

N

20

N

20

N 20

N

20

N 20

N

20

N 30 20

N

20

N

70 50 20 20

Be(p

pm

)

1.0

N

1.0

N

1.0

N

1.0

L

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

L

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

Nno 1

.0N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

N

1.0

L

1.0

1.0

N

1.0

N

Page 35: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

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8HF034SM

8HF035SM

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8HF036TM

8HF037SM

8HF037TM

8HF038SM

8HF038TM

8HF039SM

8HF039TM

8HF040SM

8HF040TM

8HF041TM

8HFOA2SM

8HF043SM

9HF101SM

9HF101TM

9HF102SM

9HF102TM

9HF103SM

9HF103TM

9HF104SM

9HF104TM

9HF105SM

9HF105TM

9HF106SM

9HF106TM

9HF107SM

9HF107TM

9HF108SM

9HF108TM

9HF109SM

9HF110SH

9HF111SM

9HF111TM

9HF112SM

9HF112TM

9HF113SM

9HF113TM

9HF115SM

9HF115TH

9HF116SM

9HF116TH

Co(ppn)

20

IS

15

IS

15

15

10

15 15 15 20 15 15 15 15 70 20 15 20 20 30 2Q*

20 20 20 20 15 20 10 15 20 15 15 20 20 20 20 30 20 15 20 15 15 15

Cr(ppm)

700

200

300

200

300

150

200

300

150

150

150

700

300

200

300

300

500

200

500

300

700

500

700

1000

1000

500

300

SOO

150

200

300

500

200

500

1000

1000

1000

1500

1000

300

1500

700

300

200

Cu(ppm) 5 L

5 L

5 L

10 5 5 5 L

15

5 L

7 205 7 7 5

IS 10 50 20 15 15 15 10 10 10 10 10 30

20 20 10 10 20 107 7

10 105 5 7 5

107

La(pp«)

150

150

200

200

150

150

100

100

100

100

100

200

ISO

200

150

100

70

15

0 70100

200

300

150

100

200

500

15

01

00

200

100 70 70 20

150

100 70 50

10

0 30 20

150

150

200

100

Ho

(pp

a) 5 5 5 5 5 5 5 5 5

N5

N5

N5

N

Nb

(pp

oi)

20

50

20

20 10

L 50

10

0 30 50

SO

SO

50

50

50

50

10

N

30 2010

0 70 70 70 50 50 70 50 70 50 70 50 20 30 20 70 70 50 20

L20 50 30 1

0

N

10

N

70

70

Ni(

pp

»)

20 20 20 30 50 20 20 30 20 20 20 15 30 15 20 30 20 20 20 15 20 20 20 20 20 20 15 20 15 15 20 20 15 20 20 30 30 30 20 20 50 30 20 20

Pb

(pp

m)

15 15 20 10 20 15 15 15 10

L

15 10 15 10 20 15 20 10

L20 15 15 15 20 1

010

L

10

20

30

20

20

20

10

10

L

10

10

10

10 10 15 10

10

10

15 10 15

ScC

pp

n)

15 10

15 10

10

15 20 10

10

15 15

15 20 10

15 5

10 10

10

10 10

10 10

10

10

10 7 7 7 7 7 7 7

10 10

10 5 7

10

10

10 5

15

10

Sn

(pp

n)

10 10

N10 10 10 30 30 10 15 15 20 20 20 15 20 10 10

N

10

N30 30 20 20 20 30 30

30

30

10

0 20

20 10

N 10 10 30 20 15 20 15 30 20 20 20 20 20

Page 36: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

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8HF006TF

8HF007SF

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8HF01 2TF

8HF013SF

8HF013TF

8HF01 ASF

8HF01 ATF

8HF015SF

8HF015TF

8HF016SF

8HF016TF

8HF01 7SF

8HF017TF

8HF018SF

8HF018TF

8HF019SF

8HF019TF

8HF020SF

8HF020TF

8HF021SF

8HF021TF

8HF023SF

8HF023TF

8HF02ASF

8HF02ATF

8HF025SF

8HF026SF

8HF026TF

8HF027SF

8HF027TF

8HF028SF

8HF028TF

8HF029SF

8HF029TF

8HF030SF

8HF030TF

8HF031SF

8HF032SF

39 39

39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39

07 07 07 07 07 07 07 07 11 11 11 11 1A 1A 15 15 15 15 17 17 17 17 17 17 17 17 18 18 19 19 20 20 20 16 16 20 20 11 11 1A 1A 11 11 11 12

3 AN

3 AN

A8N

48N

3 AN

3AN

26N

26N

2 ON

2 ON

20N

2 ON

06N

06N

A7N

A7N

29N

29N

31N

31N

28N

28N

28N

28N

31N

31N

5 ON

SON

55N

55N

28N

28N

56N

23N

23N

13N

13N

13N

13N

06N

06N

A9N

A9N

56N

25N

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

1U6

3A 3A 36 36 36 36 3A 3A A1 A1 A1 A1 35 35 38 38 37 37 37 37 38 38 38 38 39 39 39 39 A3 A3 A2 A2 A2 3A 3A 39 39 30 30 31 31 32 32 32 32

AAE

AAE

50E

50E

A7E

A7E

26E

26E

10E

10E

06E

06E

38E

38E

20E

20E

23E

23E

3AE

3AE

35E

35E

35E

35E

07E

07E

1AE

1AE

16E

16E

AOE

AOE

29E

37E

37E

5AE

5AE

A7E

A7E

19E

19E

31 E

31E

38E

31E

Fe(

%)

2.0

3

.0

3.0

2

.0

3.0

3.0

3.0

3

.0

3.0

3

.0

3.0

5

.0

3.0

3.0

3.0

2.0

3.0

2.0

2.0

3

.0

3.0

2

.0

2.0

1.5

2.0

3.0

3.0

3

.0

3.0

2.0

2

.0

2.0

3.0

2.0

3

.0

2.0

3.0

5.0

3.0

3

.0

3.0

3.0

5.0

3

.0

5.0

Mg(%

)

0.7

00.5

00.5

00.3

00.7

00.5

00.5

00.5

0

0.3

0

0.5

0

0.7

0

0.7

U

0.7

0

0.7

0

0.3

0

0.3

0

0.5

00.5

00.5

00.3

00.3

00.3

00.5

00.5

0

0.7

00.7

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01

.00

0.7

00.7

00.5

00

.50

0.7

00.5

00.7

00

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0.5

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0.5

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0.5

0

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0

0.5

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0.7

00.5

00.7

00.5

00.5

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00.5

0

0.7

00

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0.7

00

.70

1.0

01

.00

0.7

00.3

0

1.0

00

.70

0.7

00

.70

0.5

00.5

00.7

00.5

0

0.5

00

.50

0.5

00.5

00

.70

0.5

01

.00

0.7

0

1 .5

00

.50

1 .0

00.5

00.5

00.3

00.3

00.7

0

0.7

00

.50

0.5

00

.50

1.0

0

Ti

<%>

Mn(p

pm

)

0.30

0.30

0.70

0.50

0.20

0.50

0.20

0.30

0.50

0.20

0.50

0.70

0.70

0.30

0.50

0.20

0.70

0.20

0.20

0.30

0.50

0.30

0.70

0.30

0.30

0.50

0.70

0.20

0.30

0.20

0.50

0.30

0.50

0.20

0.50

0.30

0.50

0.30

0.20

0.20

0.30

0.30

0.50

0.30

U.70

1000

700

500

500

700

500

700

700

500

700

700

700

700

700

700

500

700

1000

1500

1000

500

500

500

500

700

500

300

500

700

700

700

700

500

500

500

700

500

700

700

1000

1000

1000

700

500

1000

B(p

pm

)

10

15

15 10 20 15 10 10

10

I

10

15 10

10

10

20 15 10

1 5

20 10

30 30 20 30

30 20 10

I

30

100

50

15

01

00 70 20 20 30 50

10

15 10 10

20 15 20 20

B a(p

pm

)

70

05

00

500

500

50

0700

300

500

300

500

700

700

700

700

500

500

500

500

50

0700

700

70

07

00

70

0

500

70

05

00

700

50

0300

50

0500

500

50

0700

500

700

700

300

500

50

0700

50

05

00

70

0

Be

(pp

m)

2.0

1.5

3.0

2.0

1

.5

2.0

1.5

2.0

1

.5

1.5

2.0

2.0

2

.0

1.5

2.0

1.5

2.0

1.5

2.0

1.5

2

.0

3.0

2.0

2.0

1.0

2.0

1

.5

3.0

2

.0

1.5

1.5

2.0

2.0

2.0

2

.0

1.5

1.5

3.0

1.0

3.0

1

.53.0

2.0

Page 38: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

<200

me

sh

Fra

ction-c

ontinued

U)

SAMPLE

8HFOCKSF

8HF004TF

8HF005SF

8HF005TF

8HF006SF

8HF006TF

8HF007SF

8HF007TF

8HF012SF

8HF012TF

8HF013SF

8HF013TF

8HF014SF

8HF014TF

8HF015SF

8HF015TF

8HF016SF

8HF016TF

8HF017SF

8HF017TF

8HF018SF

8HF018TF

8HF019SF

8HF019TF

8HF020SF

8HF020TF

8HF021SF

8HF021TF

8HF023SF

8HF023TF

8HF024SF

8HF024TF

8HF025SF

8HF026SF

8HF026TF

8HF027SF

8HF027TF

8HF028SF

8HF028TF

8HF029SF

8HF029TF

8HF030SF

8HF030TF

8HFU31SF

8HF032SF

Co(ppm)

10 10 10 10 10 15 10 15 10 10 15 15 15 10 10 10 15 105 10 105

105

10 15 10 10 105

10 10 10 10 15 10 10 10 10 10 10 10 105

15

C r(ppm)

100

100

150

100

100

150

150

150

100 70

150

150

150

150 50 50 70 50 20 50 50 50 70 50

100

150

150

150

150 70

150

100

100 50 70

100

150

200

150

150

150

150

100

100

150

Cu(ppm)

30

20 30

20

20

20 50 70 20 20 30 30 30 30 20 15 20 15 15 20 15 15 15 15 20 30 15 20 30 20 30 20 20 30 50 20 20 30 20 20 20 20 20 20 15

La(ppm)

500

300

500

300

150

200

200

200

300

200

150

300

300

150

200

150

200

150

500

150

200

300

300

200

150

150

150

150

100

100

150

150

100

150

300

150

200

300

150

300

200

200

200

150

500

Mo(ppm) 5 5 5 5 7 5 5 5 5 7 5 5

205 7 5

155 5

105 5 5 5

10

5 5 5 5 5 5 5 55 N

5 L

10 5 N

5 N

5 N

5 N

5 5 N

10 5 N

5 N

Nb(ppm)

10 N

10 N

10 L

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10

L10

N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10

L10

N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

30 10 N

10 N

10 N

10 N

Ni(ppm)

30

30 20 15 30 20 20 20 10 15 20 20 30 20 157

155

10 20 15 155

15 15 30

30 20 20 20 15 30 20 15 10 20 20 15 30 20 30 20 20 15 20

Pb(ppm)

70 70 70 70 70 70 70 70 70 70 70 70 50 50 70 70 50 70 30 70 50 50 70 50 50 50 50 70 70 50 70 70 70 50 70 50 50 70 50

200 70 50 70

50 70

S c(

ppm) 20 10 10 10 10 15 10 15 105

15 15 15 10 105

105 5 5

10 10 15 10 10 15 10 10 10 10 10 10 105

105 15 20 10 10 10 15 10 10 15

Sn(p

pffl

)

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 L

50 10 N

10 N

10 N

10 N

15 10 N

15 10 N

10 N

10 N

10 N

10 N

20 10 10 N

10 N

10 N

10 N

10 N

10

10 N

10 N

10 N

10 10 N

10 N

10

10

10 L

10 N

20 10 N

10 L

10 N

Page 39: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

<200

mes

h

Fra

cti

on

-co

nti

nu

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(jO

SAMPLE

8HF004SF

8HF004TF

8HFOU5SF

8HF005TF

8HF006SF

8HF006TF

8HF007SF

8HF007TF

8HF012SF

8HF012TF

8HF013SF

8HF013TF

8HF014SF

8HF014TF

8HF015SF

8HF015TF

8HF016SF

8HF016TF

8HF017SF

8HF017TF

8HFQ18SF

8HF018TF

8HF019SF

8HF019TF

8HF020SF

8HF020TF

8HF021SF

8HF021TF

8HF023SF

8HF023TF

8HF024SF

8HF024TF

8HF025SF

8HF026SF

8HF026TF

8HF027SF

8HF027TF

8HF028SF

8HF028TF

8HF029SF

8HF029TF

8HF030SF

8HF030TF

8HF031SF

8HF032SF

S r(ppm)

3UO

100

2UO

200

100

2UO

100

200

200

100

200

200

500

300

200

100

200

100

100

300

100

100

200

100

1UO

200

200

200

100

100

100

100

100

100

300

100

200

200

100

200

200

200

200

200

200

Th(ppm)

V(ppm)

100

10

0

N100

N1

00

N

100

N1

00

N

10

0

N100

N

15

01

00

N

100

N100

N1

00

N

100

N100

N1

00

N

10

0

N1

00

N

100

N100

N100

N1

00

N

15

01

00

N

20

01

00

N

100

N1

00

N

100

N100

N1

00

10

0

N

10

0

N100

N100

N1

00

N

10

0

N1

00

N

10

0

N1

00

N

100

N1

00

N

100

N1

00

N

20

0

70

70

10

07

070

10

070

10

0

70

70

10

0100

15

01

00

70

70

10

070

70

70

70

70

70

70

100

10

0100

70

70

70

15

07

0

10

07

01

50

70

150

10

07

01

00

100

10

0100

100

150

Y(ppm)

10070

1507020

70

70

100

70 20 50

100 50 50 50 20 50 10 10 10 50

150

100 50 70 50 20 50 20 10 50 20 20 10

70 10 70

150 20

100 70

70

70

2U

100

Zn(ppm)

Zr(ppm)

200 N

200 L

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

•200 N

200 N

200

N200 N

200 N

200 N

200 N

200 N

200

N200 N

200 N

200

N

200 N

200 N

200 N

200

N200 N

200 N

200 L

200

N

200 N

200 N

200

N200 N

200 N

1000

500

1000 6

700

300

700

1000

700

1000 6

300

700

1000

1000 6

700

500

700

1000

100

100

300

1000

1000 G

1000 6

700

300

500

1000 6

500

200

500

1000 300

1000

300

1000 G

300

1000

1000

700

1000

700

1000 G

1000 G

700

1000 G

Page 40: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

<2

00

m

esh

F

raction-c

ontinued

SA

MP

LE

La

t.L

on

g.

8HF033SF

8HF034SF

8HF035SF

8HF036SF

8HF036TF

8HF037SF

8HF037TF

8HF038SF

8HF038TF

8HF039SF

8HF039TF

8HF040SF

8HF040TF

8HF041SF

8HF041TF

8HF042SF

8HF043SF

9HF101SF

9HF101TF

9HF102SF

9HF102TF

9HF103SF

9HF103TF

9HF104SF

9HF104TF

9HF105SF

9HF105TF

9HF106SF

9HF106TF

9HF107SF

9HF107TF

9HF 108SF

9HF108TF

9HF1 10SF

9HF111SF

9HF111TF

9HF112SF

9HF112TF

9HF113SF

9HF113TF

9HF11 5SF

9HF11 5TF

9HF116SF

9HF116TF

39 39 39 39 39 39

39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39

13 13 13 11 11 11 11 11 11 12 12 13 13 12 12 12 30 14 14 C8 08 07 07 07 07 07 07 09 09 09 09 14 14 11 16 16 07 07 07 07 06 06 12 12

16N

34N

52N

35N

35N

35N

35N

56N

56N

54N

54N

16N

16N

25N

25N

07N

1 IN

38N

38N

2 ON

2 ON 59N

59N

26N

26N

05N

05N

04N

04N

43N

43N

38N

38N

46N

26N

26N

37N

37N

34N

34N

36N

36N

07N

07N

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

106

32 32 31 34 34 34 34 34 34 34 34 34 34 44 44 43

44 43 43 45 45 45 45 40

40 42 42 47 47 47 47 43 43 43 33 33 38 38 39 39 35 35 41 41

13E

06E

59E

41E

41E

44E

44E

44E

44E

52E

52E

52E

52E

53E

53E

52E

38E

30E

30E

54E

54E

11E

11E

55E

55E

22E

22E

02E

02E

13E

13E

37E

37E

08E

40E

40E

06E

06E

00 E

00 E

35E

35E

20E

20E

Fe(

%)

3.0

3.0

5.0

3,0

5.0

3.0

2.0

3.0

1.5

3.0

3

.0

3.0

3.0

3.0

3.0

3.0

3.0

3

.0

3.0

5.0

7.0

5.0

5.0

5

.0

7.0

7.0

7.0

3.0

3.0

5

.0

3.0

3.0

3.0

5

.0

5.0

3.0

3.0

3.0

3

.0

3.0

MgU

)

0.7

00.3

00.5

00.5

00.3

00.5

00.7

00.3

0

0.5

00.7

00.5

00.5

00,7

00.3

00.7

00.2

0

0.5

01

.00

1.5

01.0

01.0

00.5

00.5

00.7

0

1.0

01.0

00

.70

0.5

00.5

00.5

00.5

00.7

0

0.7

00.7

01

.00

0.7

01.0

01

.50

0.5

00

.50

0.5

00.7

00.5

00.7

0

Ca

U)

0.5

00.3

01.0

00

.50

0.7

00.7

00

.50

0.7

0

0.5

01.0

00.7

00

.70

0.5

00.5

00.5

00.5

0

0.7

00

.70

0.7

01.5

01

.50

1.0

01.0

00

.70

1.0

01.0

01

.00

0.7

00.7

00.7

00.7

00.7

0

0.7

01.0

01

.00

0.7

00

.50

0.5

00.5

00.7

0

0.5

01

.00

0.5

01

.00

Ti

(%>

Mn(p

pm

)B

(pp

m)

B a(p

pm

)B

e(p

pm

)

0.30

0.20

0.70

0.50

0.50

0.70

0.30

0.30

0.20

0.50

0.30

0.30

0.30

0.30

0.30

0.30

0.50

0.50

0.50

0.70

1.00

0.70

0.50

0.50

0.50

1 .0

01.00

0.50

0.50

0.50

0.50

0.30

0.50

1.00

0.50

0.50

0.30

0.50

0.20

0.30

0.50

0.70

0.30

0.70

700

1000

700

1000

1000

700

500

500

500

500

500

700

500

500

500

1000

500

300

300

500

500

300

300

700

700

500

500

200

200

500

500

500

500

700

500

500

500

500

500

500

700

500

700

500

15

10

20

10

15

10

20

10

15

10

20

10

15

10

20

20

15

15

10

10

L

10

L10

L10

L10

10

10

10

10

L1

0

L1

0

L1

0

N1

5

10

10

10

10

10

10

10

10

L

20

10

L

10

30

50

0300

700

70

0700

500

300

50

0

300

50

07

00

500

50

0500

500

500

50

05

00

500

700

70

05

00

500

50

0

50

05

00

50

03

00

50

0300

300

500

500

50

05

00

50

03

00

50

03

00

30

0

700

70

0500

50

0

2.0

2.0

1.5

1

.5

1.5

2

.0

2.0

3

.0

2.0

2.0

1

.5

1.5

2.0

2.0

5

.0

1.5

2.0

2

.0

2.0

1.0

1.5

1

.5

1.5

2.0

2.0

1.0

1.5

1.5

1.5

1

.5

1.5

2

.0

2.0

1

.5

1.5

2

.0

1.0

1

.0

1.0

1.0

1.5

2.0

2.0

3

.0

Page 41: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

<200

me

sh

Fra

ction-c

ontinued

SA

MP

LE

8HF033SF

8HF034SF

8HF035SF

8HF036SF

8HF036TF

8HF037SF

8HF037TF

8HF038SF

8HF038TF

8HF039SF

8HF039TF

8HF040SF

8HF040TF

8HF041SF

8HF041TF

8HF042SF

8HF043SF

9HF101SF

9HF101TF

9HF102SF

9HF102TF

9HF103SF

9HF103TF

9HF104SF

9HF104TF

9HF105SF

9HF1U5TF

9HF106SF

9HF106TF

9HF1G7SF

9HF107TF

9HF108SF

9HF108TF

9HF110SF

9HF111SF

9HF111TF

9HF112SF

9HF112TF

9HF113SF

9HF113TF

9HF115SF

9HF115TF

9HF116SF

9HF116TF

Co(ppm)

105

15 10 10 15 10 10

510 10 10 10 105

10 10 10 10 15 15 10 10 15 20 20 15 105 7 7

10 10 15 20 15 15 15 10 10 10 10 10 10

C r(ppm) 70 20

150

100 70 70 70 50 30 70 50 70 50 50 70 70

150 50 50 50 50 50 50 70 70

150

150 20 20 50 20 50 50 50 70 70

100

100 50 70

100

100

1 50

100

Cu (pp

m) 20 15 20 20 20 30 30 15 15 30 30 30 30 15 15 20 20 15 10 20 30 15 10 50 50 50

100 107

10 15 10 10 20 30 20 30 30

30 20 10

I 20

30

30

La(ppm)

200

150

500

200

300

150

150

200

200

150

200

300

200

200

300

200

500

100

200

500

700

300

150

500

200

700

500

500

300

300

300

150

200

500

200

150

150

100

200

150

300

500

300

500

Mo(ppm) 5 5 5 5 5 5 5 5 5 5 5 5"

5 5 5 5

155 5 5 5 5 5 7

105 5 5 5 5 5 5 5 5

1 5

105 5 5

Nb(ppm)

Ni (ppm)

5 N

5 N

715 5 L

10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10

20 20

30 30

20 20

20 20 20 20 20 20 20 20

20 20 30 20 20 20

20

20 20 10 10 10 10

N N N N N N N N N N N N N N L N N L L L L L L L N L N N N L N L

15

10

15 15 15 10

15 5

15 10 5

10

15 10

15 10 20 20

10 15

15 10

10

10

0

20 50

20 7 5 5 5

15 10 7

20 15 30

30

15 20

20 15 30

30

Pb(ppm)

50

2070

70

70

50

70

70

70 5050

50

50

50

50

30

70

20

30 50

50

30

3020

30

50

50

70

100 50 50 30

3050

5030

3030

5050 7070

70 70

S c(ppm) 5 5

20 10 10 10 10 10

5 N

10

10

105 5 5

10 10 10 10 107 7 5

10 10 107 5 5 7 5 7 7 7

10 10 10 157 7 10 105

10

Sn(ppm)

10 N

10 N

10 N

10 N

5010 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10 N

10

10 N

10 N

10

10 10 N

15 10 N

10 L

20

100

15

20

10 L

15 10 L

10

10 10 N

10

50 10 N

10

15 10 N

20 10 N

10 N

10 N

10 L

Page 42: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

<200

me

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Fra

ctio

n-c

on

tin

ue

d

SA

MP

LE

8HF033SF

8HF034SF

8HF035SF

8HF036SF

8HF036TF

8HF037SF

8HF037TF

8HF038SF

8HF038TF

8HF039SF

8HF039TF

8HF040SF

8HF040TF

8HF041SF

8HF041TF

8HF042SF

8HF043SF

9HF101SF

9HF101TF

9HF102SF

9HF102TF

9HF103SF

9HF103TF

9HF104SF

9HF104TF

9HF105SF

9HF105TF

9HF106SF

9HF106TF

9HF107SF

9HF107TF

9HF108SF

9HF108TF

9HF110SF

9HF111SF

9HF111TF

9HF112SF

9HF112TF

9HF113SF

9HF113TF

9HF115SF

9HF115TF

9HF116SF

9HF116TF

Sr(ppm)

Th(ppm)

V(ppm)

100

100

N300

200

300

300

100

200

100

200

100

200

200

100

100

100

100

150

150

150

200

2UO

200

150

150

150

200

100

100

100

100

200

150

200

200

200

150

150

100

150

200

300

200

3UO

100

N10

0 N

100

N10

0 N

100

N100

N100

N10

0 N

100

N10

0 N

100

N100 N

100

N100 N

100 N

100 N

100

N10

0 N

100 N

100

100

100 L

100

100 N

100 N

150

150

150

100

100

100

100

N

100 N

150

100 N

100 N

100

N100 N

100

N10

0 N

100

N100 N

100 N

100 N

100 70

150

100 70

100 70

70

70

100 707070

7070

70

100 70

70

100

100

100 7070

100

100

100 50

50 705070

50

70

10070

70 70

50 50

100

100 70

100

Y(ppm)

20 10

100 70

150 20 10 20 10 20 50 70 50 20 50 20

200 50 70

1 50

150

100 70

70 70

300

200 70 70

100

100 50 70

200 50 50

200 50

100

100 70 70 70

100

Zn(ppm)

Zr(ppm)

200 N

200 N

200 N

200 N

200 L

200 N

200 N

200 N

200 N

200 N

200 N

200"N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 N

200 L

200 N

200 N

200 N

200 N

200 N

200 N

300

300

1000

1000

1000

700

700

700

300

1000

1000

1000

300

500

500

500

1000

1000

1000

1000

1000

1000

1000

700

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

1000

500

1000

300

300

700

700

1000

500

1000

G G G G 6 G G G G G G G G G G G G G

Page 43: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

Table 4.—Statistical summaries of various fractions of stream-

sediment samples

These pages are output from the computer program a470, part of the

STATPAC system of the U.S. Geological Survey (VanTrump and Miesch, 1977).

The frequency distributions and histograms on the following pages are on

logarithmic scales, and employ the same class intervals as used in reporting

6-step semiquantitative spectrographic analyses. The statistics given below

the histograms are derived only from data values within the ranges of

analytical determination, and are, therefore, biased if data values that are

qualified with N, L, or G are present. See the end of each section for

statistical estimates that are unbiased in this regard. The geometric mean is

an estimate of "central tendency," or of a characteristic value, of a

frequency distribution that is approximately symmetrical on a log scale, and

is therefore useful for characterizing many geochemical distributions. The

geometric mean is not an estimate of geochemical abundance, and is of no value

in estimating total amounts of elements present.

41

Page 44: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

GFOCMFMC/a SUMMARY -

U S

6 S

ST4TP«C (01/?^/78)

DATE

1/16/80

TITLF

Fraction of

Se

rts

THF

M«X

AND

MIN

n.is

nnnF

+n?

FOR

VARIARLF NO

. is

ARF

THE

SAME.

THER

EFOR

E TH

IS VA

RIAB

LE WI

LL BE SK

IPPE

D. ,

N>

Page 45: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHE*ICAL SUGARY - U S (? S STATPAC (01/23/7*)

TITLE Frac t i on of Seds

FRE9UEMCY TA3LE COLUMN

LIMITSLOWER - UPPER

3.85-0? - 5.65-025.6E-H2 - 8.3E-0?8.3E-0? - 1.25-011.25-01 - 1.8E-01t.85-01 - 2.6E-01

3.8F-01 - 5.65-01 -

1.2F+00 -

3.5E+00 -5.6E+00 -8.3E+00 -

5.6E-01 8.35-01 1.25*00 1.85*00

3 (

1.8F+01 - 2.6E+01

FREQ

00a00000aa0238

263713

FREQCUMn00000an00n25

13397639

sfe*)

PERCEMTFREQ0.000.000.000.000.000.000.000.000.000.000.002.253.378. 99

29.2141.5714.61

PERCENTFREQ CU*mo.nnTOO. 00100.00100.00mn.nnmn.nnmn.nn100.00mn.nnmn.nnmo.nnmo.nn97.7594.3885.3956.1814.61

HISTOGRAM FOR COLUMN 3 ( sf?*)

7.0E+nn1.0E*01i.5E+m 2.0E*m

xxxxxxxxxxxxxxXXXXXXXXXXXXXXXXXXXXXXXXXXXXXxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxx

^fn

n.noLn

n.nn

Tn

0.00

Sn

0.00

AMALYTICAL VALUES

89

2.onnooe+oi

GEOMETRIC MEAN s 1 . 2060^E^•01 GEOMETRIC DEVIATION s 1.5n203E*00

43

Page 46: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

2G-300000*£

6800*0

0 9

1VDIIA1VNV

00*0

D1

00*0 Q 1

00*0

uN

XXX 00+30*1XX 1,0-30*^

XXXXXXXX lu-3l"SXXXXXXXXXXXXXXXX iO-30*£

XXXXXXXXXXXXXXXXXXX L0-3l^XXXXXXXXXXXXXXXX 10-3^*1

XXXXXXXXXXXXXXXXXXX tU-3L*lXXXXXXX ZO-30*Z

XXXXXXXXX ^0-BfSX <iO-30*£

)

• S t

00*001

wflD Oadd

66*6

00*0

6898

LL£9

6 I 0

Zl98I0

00+32*1

10-3VStO-38*£

10-38*1

20-39*5

- 10-32*1

- 20-39*S

- 20-39*2- 20-38*1- 63M01 kl 1

UOLiQEJJ

311U

OtalVIS S 9 S 0 - AdV^wHS

Page 47: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A473 6EOCHE*ICAL SUMMARY - U S 5 S STATPAC (01/23/73)

TITLEFrac t i on of Seds

F&E3UENCY TA9LE FOR COLUWN 5

LIMITS FREQLOWER - UPPER

3.9E-02 - 5.6E-02 75.6F-12 - **3E-02 99.3E-12 - T.2E-01 201.2F-11 - 1.36-01 111.«F.-11 - 2.6E-01 92.6E-11 - 3.9E-11 143.9E-01 - 5.6E-01 105.6E-11 - 8.3E-01 79.36-01 - 1.2E+00 3

HISTOGRAM FOR COLUMN 5 (

5.0E-02 XXXXXXXX7. IE-02 XXXXXXXXXX

(

FREQCUM7

1636475569799689

scaX)

sea*)

PERCENTFRE37.97

13.1122.4712.369.99

15.7311.247.973.37

"ERCENTFREQ CU M100.0092.1392.0259.5547. T939.2022.4711.243.37

1.0E-01 XXX XXX XX XXX XXX XX XXX XXX1.5E-01 XXXXXXXXXXXX2.0E-01 XXXXXXXXX3. IE-01 XXXXXXXXXXXXXXXX5.0E-01 XXXXXXXXXXX7.0E-01 XXXXXXXX1.1E+00 XXX

M L W000

1.01 o. oo

90

T0

1.00

ANALYTICALG VALUES0 99

0.00

GEOMETRIC GEOMETRIC

1 .OOOOOF+005.00000E-02

MEAN = 1.93336E-01 DEVIATION = 2. 32544E+00

45

Page 48: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

GF.OCHEMICAL SUGARY - U S G S STATPAC (01/23/7?)

TTTLE Fraction o* Seds

FREQUENCY TA9LF FOP COLUMN

LIM;LOWER -

1.3E-93 -2.6E-93 -3.«E-93 -5.6E-93 -

U2E-T? -•1.«F-92 -?.6E-92 -

s!6F>9? -3.3E-0? -1.2P-91 -1.«E-01 -2.5E-31 -3.8E-91 -5.6E-91 -

7.6F.-95 5.«l?-0^ 5.6F.-03

2.6E-0? 3.8E--0? 5.6F.-0? ^.?E-02 1.2E-01 1.»E-01 2.6E-0-1 3.«6-Ot 5.6E-01 8. IE-0 t 1.2E*00

EQ

99999999999144363

FREQCU*99990999999159

121821

PERCEMTFRE39.099.003.399.999.393.393.339.330.003.393.331.124.494.493.376.743.37

PERCENTFREQ CU*»100.00100.00190.00100.00100.00100.00100.00100.00100.00100.00190.00100.0098.8894.38«9.8986.5279.78

HISTOGRAM FOR COLUMN

1.5E-91 2.0E-01 3.3E-91 S.nE-01 7.3E-91

Xxxxx xxxxXXXxxxxxxxXXX

6 C stiX)

o 9.09

L 0

0.00

ANALYTICALT G VALUES 9 68 21

3.00 76.4H

GEOMETRIC GEOMETRIC

1 .OOOOOE+001.50000E-01

^fEAN a 4.37292E-OT OEVIATION s 1.85196E*09

46

Page 49: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUGARY - U S S S STATPAC (01/23/78)

TITLE F pac t i on of Seds

FREQUENCY TA3LE FOR COLUMN

LIMITS LOWER - UPPE/R

1.2E+01 1.8F+OT 2.6F+01 3.8E+01

3E+00 2F.+01 3E + 016E+01

5.6E*01 -

5.6F.+T2 -1.2E+03

?!6E+03

smn)

REQ

000000000559

31191091

FREQCUM0000000005

10195069798839

PERCENTFREQ3.300.003.333.003.003.003.003.333.305.625.62

13.1134.8321.3511.2410.111.12

PERCENTFREQ CUM100,00100.00•130.00100.00100.00100.00100.00100.00100.00100.0094.3838.7678.654*.*222.4711.241.12

HISTOGRAM FOR COLUMN 7 C smn)

5.0E+02 7.1E+32 1.05*03 1.SE+03 2.0E+03 3.0E+03 5.0E+03

XXXXXX XXXXXXxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxX

M

00.00

L0

0.00

T0

cuoo

ANALYTICAL G VALUES 0 89

0.00

GEOMETRIC SE3METRIC

5.30000F+033.00000E+02

«EAN = 1.16297E+03 DEVIATION s 1.79554E+03

47

Page 50: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

01dJL3*C3S

UG'G GC'C Sa*E £G'£,y u o u z S9£> i 6 H 1 N

XX XXX

xxxxxxxx xxxxxxxxxxx

(qs

fe^*£t Z8*Z Zl ^E<L*V2 ^^*ll Gl G

MHO

dUd Bl&Vl ADN3HC3dd

DVdlVIS S 3 S n - AtiVMfcHS

Page 51: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUGARY - U S G S STATPAC (01/23/7*)

TITLE Fraction of Seds

FREQUENCY TA3LF FOR COLUMN Q ( sba)

LIMITS LOWER - 8E+01 - 6E+01 - 8E+01 - 6E+01 -

1.2E+02 U8E+02 2.6E+0?

1.2E+02

5.6E+02 -

REQ

318

17179

141361

FREQCUM34

1229465569828889

PERCENTFREQ3.371.128.9919.1019.1011.1115.7314.616.741.12

PERCENTFREQ CM'100.0006.6395.5186.5267.4248.3138.2022.477.871.12

HISTOGRAM FOR COLUMN 9 ( sba)

2.HE+01 XXX3.HE+01 X5.3E+DT XXXXXXXXX7.0E*OT XXXXXXXXXXXXXXXXXXX

xxxxxxxxxxxxx-xxxxxxXXXXXXXXXX XXXXXXXXXXXXXXXX

3.9E+02 XXXXXXXXXXXXXXX5.0E*02 XXXXXXX7.0E*02 X

M0

o.on

L 0

0.00

T 0

0.00

ANALYTICAL G VALUES 0 89

0.00

GEOMETRIC GEOMETRIC

2.00000E+01 ^EAN a 1.27464E+02 DEVIATION ^ 2 .1 7625E+00

49

Page 52: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

SUGARY - U S $ S STATIC (H1/23/7*)

TITLE Fraction of

FRE3UENCY T49LE FOR COLUMN 10 ( she)

LIMITS FREQ FREQ PERCENT PERCENTLOWER - UPPPR ( CUM FRE3 FREQ3E-01 - 1.2E+00 17 17 19.10 40.45

1.*E+OH 6 ?3 6.74 21.352.6E+00 10 35 11.24 14.613,«E+00 2 35 2.25 3.37

3.8E+00 - 5.6E+00 1 36 1.12 1.12

HISTOGRAM FOR COLUMN 10 ( sbe)

xxxxxxxxxxxxxxxxxxx1.5E+00 XXXXXXX 2.0E+OQ XXXXXXXXXXX 3.0E+00 XX 5.0E+00 X

M

39 43.8?

L 14

15..73

T 0

O.flO

ANALYTICAL VALUES

360.00

= 5.30000E-KOO* LOOOOOE+OOC ^EAf^I * 1.44175E+00

GEOMETRIC DEVIATION « 1.S1169E+00

50

Page 53: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GFOCHEMICAL SUMMARY - U S G S STATPAC (Ol/?3/7«)

TITLE Fraction of Seds

FREQUENCY TA3LE FOR COLUMN

LIMITSLOWER - UPPER

3.8E+00 - * 5.6E+00 - 8 8.3E+00 - 1.2F+01 1.2E+01 - 1

11 (

2.6E+01 -3.3E+01 -5.5E+01 —

5.6E+01

SCO)

REQ

20

203519472

FREQCUM27

2257T6808789

PERCENTFREO2 . 2 50.0022.4739.3?21.354.497»872.25

PERCENTFREO CU100.0097.7597.7575.2835^.9614.6110^112.25

HISTOGRAM FOR COLUMN

XX

11 ( SCO)

1.0E+01 XXXXXXXXXXXXXXXXXXXXXX1.5E+01 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX

xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx

7.n.E + 01 XX

N0

0.00

Ln

o.on

T 0

0.00

ANALYTICAL (? VALUES 0 39

0.00

MAXIMUM s 7.00000E+01MINIMUM * 5.nooonE+ooGEOMETRIC MEAN = 1.66786E+OT GEOMETRIC DEVIATION * 1.66898E+00

51

Page 54: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

2G+3GQGOO*l =

00*0 u9

OQ'GUU*G0

UG'G Gft

XXX XXXxx X

xxxxxxxxxxxxxxxXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX

XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX

( JDS

20+3G*t

66'*

trot

UU'ULHOG'GGlOO'OGi00*001,OU'OGl

GG'GGt

21*1

GO'G OG*C

00-G CC'C

££ 2G U G G G G

£ £ 21 £1

i£2G G G G G G

2G + 32M

iG+39'S

10+32 -

- IG+39'S

- lG+32'l

S 9 S 0 -

S ^o UOLdllli

> 1VDIK3HDC39

Page 55: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPflC (01/23/78)

NMaqTITLE

Frac 11on of Seds

FREQUENCY TA3L* FOR COLUMN

LIMITSLOWER - UPPER

3.8F+On - 5.6P+00 5.6E+00 - 8.3E+00 H.3E+00 - U2E+01 1.2F+01 - 1

2.6F+01

FREQ

1t1730U76

FREQCUM1128587?7985

scu)

PPRCEMTFREQ

1?»3619.1D33.7115.737.876.74

PERCENT

95.5183.1564.0430.3414.616.74

HISTOGRAM FOR COLUMN ( scu)

5.1E+03 XXXXXXXXXXXX7.0E-»-00 XXXXXXXXXXXXXXXXXXXr.^E+ni xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx1.5E+01 XXXXXXXXXXXXXXXX2.0E-»-01 XXXXXXXX3.0E+01 XXXXXXX

Nn

n.on

L 4

4.49

ANALYTICAL G VALUES 0 85

0.00

GEOMETRIC MEAN * 1 .04120F+OT GEOMETRIC DEVIATION * 1.63325E+00

53

Page 56: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUGARY - U S G S STATPAC (01/75/78)

TITLE Fraction of Seris

FRP.3UF-NCY TA^LE FOR COLUMN

LIMITSLOWER - UPPFiR

1.8E+01 - 2.6E*Q1 2.6E*01 - 3

5.6E+01 - 8.3 P*01 •* 1 ? E*02 ^ U8E*02 -

5.6E*0? -

8.3E*01 1.2E*02 1.«E"*02

8.3E+02 1.2E*03

REO

00000006

162310

FREQCD*

00000006

7?4555

sla)

FRET0.000.000.000.000.000.000.006.74

17^9825.8411.24

PERCENTFREa cu*100.00100.00100.00100.00100.00100.00100^00100.009T.2675.2849.44

HISTOGRAM FOR COLUMN 14 (

3.1E+02 5.0?*02 7.0E*02

sla)

XXXXXXXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXXXXXXXX XXXXXXXXXXX

Nn

0.00 n.on

ANALYTICALT G VALUES 0 54 55

0.00 38.20

.OODOOE+03

GEOMETRIC ^EAM = 6. 1 7461 E+02C DEVIATION » 1.41568E+00

54

Page 57: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A473 GEOCHE*ICAL SUGARY - U S G S STATPAC (01/23/78)

TITLE Fraction of Seds

FREQUENCY TA9LF FOR COLUMN

LIMITS LOWFR -

1.3E+01 - 2..6E + 01 2.6E+01 - 3.8E+01

5.6E>01

16 (

FRF0 FRE9 CUM

19 1917 ^630 669 752 77

snh)

PERCENTFRE3

21.3S 19.10 33.71 13.11 2.25

PERCENTFREQ CUM

86.5265.1746.0712.362.25

HISTOGRAM FOR COLUMN 16 C snb)

XXXXXXXXXXXXXXXXXXXXXxxxxxxxxxxxxxxxxxxx

5.0E+01 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX7.nE+ni xxxxxxxxxx1.0F+02 XX

N 4

4.AO 8.99

ANALYTICAL G VALUES 0 77

0.00

3EOMETRIC GEOMETRIC

2.00000E*01 ^F.AN = ?.77308E*01 DEVIATION « 1. 53*216+00

55

Page 58: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC C n 1/23/78)

TITLE Fraction of Seds

FREQUENCY TA3LE FOR COLUMN 17 (

LIMITSLOWER - UPPER

3.8E+00 - 5.6E>00 5.6E+00 - 3.3E+00 - 1.2P+01 - 1.8E+01 - 2.6F+01 - 3.8E+01 - 5.6E+01

1.2E+01

FREQ

235

2013772

FRE3CUM23284861687577

sni)

PERCENTFREQ2S.845.62

22.4714.617. 877.872.25

PERCENTFREO

86,52 60.67 55.06 32.58 17.98 10.11 2.25

HISTOGRAM FOR COLUMN 17 ( sni)

0E+00 0E+00 0E+01 55*01 0E+H1

XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXxx

3.37

L9

10.11 0.00

Ga

o.oo

ANALYTICAL VALUES

77

GEOMETRIC GEOMETRIC

5.00000E+015.00000E+00

ME«N s 1.04388E+01 OEVI^TION » 1.8^759E+00

56

Page 59: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A 4 70 6EOCHFMICAL SUGARY - U S S S STATPHC (01/23/7?)

TITLEFraction of Seds

FREQUENCY TA3LE FOR COLUMN

L LOWER3E+00 2E+01 8E + 01 6E+01 8E*01 6E*01 3E*01

1.2E*02 -

2.6E+02 -

FRE3

5.6E+02

00027

372316

201

00o20

466985878788

sob)

PERCENTFRE30.300.000.302.257.87

41.5725.8417..982.250.301.12

PERCENT FREQ CUM98.8898.8898.8898.8896.6388.7647.1921.353.371.121.12

HISTOGRAM FOR COLUMN 18 ( spb)

XXxxxxxxxxXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX

1.0E+02 XXXXXXXXXXXXXXXXXXXXXXXXXX 1.5E+02 XXXXXXXXXXXXXXXXXX 2.0E+02 XX 3.0E+02 5.0E+02 X

M1

1.120

o.on

T 0

0.00

ANALYTICAL G VALUES 0 88

n.oo

GEOMETRIC GEOMETRIC

5.000005+023.00000E*01

MEAN a R.82760E+01 DEVIATION * 1 . 53099E+00

57

Page 60: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

N011VIA30 01*13*035

ocro6fe U

sarnv/i 9TV3I1A1VNV

OG'u

G1

UO'U

uM

XXXXXXXXXX LG+3C*Zxx io+ays

XXXXXXXXXX lG+3L"ixxxxxxxxxxxxxxxxxxxxxxXXXXXXXXXXXXXXXXXXXXXX

XXXXXXXXXXXXXXXXXXXXXXXXXX IC+3C"1XXX OU*3L'Z XXX 00+30'S

(OSS) 6t

U'Oill'U

£9*96 UG'GGt

68Ob

69

6?91

6

6

£^£

ddddfi -

316V1

.31111

s a s n -

Page 61: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHE*ICAL SUMMARY - U S G S STATPAC (01/23/78)

TITLE Fraction of

FREQUENCY TA3LE FOR COLUMN

LIMITS LOWER - UPPER

1.2E+01 1.8E+OT 2.6E+01

8E+01 6F+01 3E+01 2E+02

1.3E+02 -

20 (

FREQ FREQ

55

1128293000

5102149788181818t

ssn)

8?

PERCENTFREQ5.625.6212.3431.46.32.583.370.000.000.002.25

PERCENTFREQ CUM

93.2687.6482.0269.6638.205.622.252.252.252.25

HISTOGRAM FOR COLUMN 20 ( ssn)

1.0E+01 1.5E+01 2.0E+01 3.0E+01

7.0E+01 1.0E*02 1.5F*02

3.0E*02

xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XXX

XX

N 6

6.74

Ln

0.00

T 0

0.00

ANALYTICAL 6 VALUES 0 83

0.00

GEOMETRIC

3.00000E*02I.OOOOOE+OI

MEAN * 3^32520E*01 DEVIATION * 1 »82529E*00

59

Page 62: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

09

QO+302GV**l - MOI1V1A3Q DIdl3kG33 &. 20+30QUUO' I =

UO'O 09

OO'u 01

XXX

XXXXXxx

XXXXXXXXXXXXXXXXXXX

(JSS)bud

66%

*n:>

/£'£

se-a S2-aCl'6i

(JSS

I

£ZzLi

2U+39

£'£

I' I

d3ddn -

tiOd BlbVi

•s'£

' I "I

31111

It) DvdlVIS S S S fl -lVDiK3h0033

Page 63: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

19

00+3660^0*2 = KGI1VIA3U DIdi3fcC3S

20+300000*1 = £0+300000*2 -

OO'U U9

OG*G

U1

uO*0 U1

06*8

XXXXXXXX

XXXXXXXXXXXX XXXXXXX

XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX

XXXXXXXXX

XXXXXXX

)

£0+30*1

£U+3f£

S2*2 29'S 9£*2l

18

£9

82

S2*2

10*16

) 22

2SU962Ul929

£0+39*2 £0+38*1

20+39*S 20+36*£ 20+39*2

20+32*1

NMniOD

- £0+32'l

- 20+3»*£- 20+39'2- 20+38*1- 20+32*1

Silkll

dlbVi

II

OvdiVlS S 9 S n -

Page 64: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL - !J S S S STATP«C (01/23/78)

TITLE fraction of Seds

FRE3UEMCY TA3LE FOP COLUM N 23 (

LLOWER

S.3E+OT

2.6E+01 3.8E+01 5.6E+01

1.2F+02 1.8E+02

TS UPPER

1.2E+01

3.8E+01

2.6E*02 3.8E*02

sv)

FREQ

000012

214Q1312

FRE9CU*

000013

24647?

89

PERCEMTFRE3X030.000.000.001.122.25

23.6044.9414.6113.48

PERCENTFRE9 CUW100*00100.00100*00100.00100.0098.8?96.6373.0328.0913.48

HISTOGRAM FOR COLUMN

XXX7.0E*01

1.0E+02 1 .5E>02 2.0E-I-02

23 ( sv)

XXXXXXXXXXXXXXXXXXXXXXXXXXX XXX XXXXXXXXXXXXX XXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX

M 0

0.00

L0

0.00

T0

0.00

G0

a.no

ANALYTICAL VALUES

89

SEO^ETRIC GEOMETRIC

5.00000E+01 MF.AN * 1 . 51 559F+02 DEVIATION » 1.4610 <'E*00

62

Page 65: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A473 GEOCHEMICAL SUMMARY - U S G 5 STATPAC (01/23/78)

TITLENMag Fraction o

FRE3UEMCY TA3LF

LIMITSLOWER - UP

8.3E+00 -1.2E+01 -1.8E+31 -2.6F+T1 -3.8E+01 -5.6E+01 -8.3E+01 -1.2E+02 -

2.6E+0? -3.«E+02 -

8.3E+02 -1.2E+03 -

f Seds

FOR COLUMN

1.2E*011. 8E+012.6E*at3.8E+015.6E*Ot8. 3F+011.2E*021.8E*02

3l«E*025.6E*0?

U2E + 031 . 8E*03

24 (

FREO

0000039

12

FREQ CUM000003

12 24 51 55

606162 :

sy)

PFRCENT

0.003.303*333*003.303.3713.1113.4830.344.403.37'2.251*121.12

PERCENTFREQ100.00lorr.ao ton.oo 100.00100.00100.0096.63 86.52 75.03 42.70 38.20 34.83 52*58 31.46

HISTOGRAM FOR COLUMN 24 (

7.3E+01 1.0E*02 1.5E*H22.0E*02

sy)

7.TE+02

XXXxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxXXXXXXX

N0

o.ooL 0

0.00

ANALYTICALT G VALUES 3 27 62

0*30 30.34

"fAXIMU* 1.50000E+03

GEOMETRIC MEAN » 1V92594E+02 GEOMETRIC DEVIATION * 1.81066E+00

63

Page 66: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S S S STAT&AC (01/23/78)

TITLE Fraction of Seds

FRE3UEMCY TABLE FOR COLUMN

LIMITS LOWER - UPPER

szn)

RE3CUM293436

PERCENTFREO

32.. 5 85.622.25

PERCENTFREQ CUM

40.457.872.25

HISTOGRAM FOR COLUMN ( szn)

2.r)E+H2 xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx3.TE+12 XXXXXX

XX

N42

47.19

L11

12.36 0.90

ANALYTICAL 6 VALUES 0 36

0.00

"AXIMU* * 5.00000E+02 MINIMUM = 2.30000E+02 GFOMFTRIC V EAN » 2.22636E+02 GEOMETRIC DEVIATION * 1.27660E+00

64

Page 67: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATIC (01/23/78)

TITLE Fraction of Seds

FREQUENCY TA3LE FOP COLUMN

LIMITSLOWER - UPPER

3.3E+00 - 1.2E+01 1.2E+01 - 1.8E+01

5.6E+01 -

2.6E+023.8E+0? 5.6F+0?

3.8E+01 5.6E+01 8.3E+01 1.2E*02 1.8E*02 2.6E*02

5.6E+02

26 (

0000000059

192816

FREOCUM

000000005

14316177

szr)

PERCENT FRE9 0.00o.oo0.000.00o.on0.00o.on o.oo5.6? 10.11 21.55 31.46

"ERCENTFREQ100.001QO.OO1-00.00100.00100.00100.00100.00100.00100.0094.38«4.2762.9231.46

HISTOGRAM FOR COLUMN 26 ( szr)

2.0E+02 XXXXXXT.OE>02 XXXXXXXXXX5.0E*02 XXXXXXXXXXXXXXXXXXXXX7.TE+02 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX1.0P+03 XXXXXXXXXXXXXXXXXX

Mn0.00

L0

0.00 0.00

ANALYTICAL G VALUES

12 7713.48

3E01ETRIC GEOMETRIC

2.00000E+02 MEAN »- 5.79280E+0? DEVIATION a 1.57621E+00

65

Page 68: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A4

7T

GF

OC

HF

MC

AL

S

- U

S 6

S S

TA

T»»C

(0

1/2

3/7

8)

DAT*

1/16/80

TITLE

NMaq Fraction of

IN THE COMMUTATIONS PERFORMED TO PRODUCE THE FOLLOWING TABLE OF GEOMETRIC MEANS

ANf)

DEVIATIONS/ ALL ELEMENTS ARE IGNORED WHERE

ONE OR MORE OF THF UNQUALIFIED DATA VALUES IS LESS THAN THF ANALYTICAL LIMIT OF DETECTION SPECIFIED ON INPUT OR WHERE ANY DATA

VALUES ARF (HIAtlFIEn WITH THE G

(GREATER THAN) CODF.

*)ATA

VALUES QUALIFIED WITH 8

OR H

ARE NOT USED IN THE COMPUTATIONS.

WHERE

NONE OF THF DATA VALUES FOR AN ELEMENT ARF QUALIFIED THE MEAN AND DEVIATION SHOULD 9E THE SAME AS THOSE GIVEN IN THE PRECEDING

SECTION.

WHFRF nATA ARE QUALIFIED WITH THE CODES N, I, OR 1, THE ESTIMATES OF GEOMETRIC MEAN AND DEVIATION ARE BASED ON A

METHOD

9Y A. J. COHFN FOR TREATING CENSORED DISTRIBUTIONS.

THE APPLICATION OF THIS METHOD TO GEOCHEMICAL PROBLEMS IS DESCRIBED IN

USGS PROFESSIONAL PA»FR 574-B.

THE ESTIMATES ARE UNBIASED IN A

STRICT SENSE ONLY WHERE THE DATA ARE DERIVED FROM

A LOGNORMAL

PARENT POPULATION, RUT EXPERIMENTS HAVE SH3JN THAT LARGE DEPARTURES FROM THIS REQUIREMENT MAY NOT GREATLY INVALIDATE THE RESULTS

ACCEPTANCE ANA |»

SF OF THF ESTIMATES, HOWEVER, IS THE RESPONSIBILITY OF THE INDIVIDUAL.

ELEMENT

snot

sea*

sHt

smn

sha

she

SCO

scr

scu

sla

snb

sni

snb

ssc

ssn

ssr

sth

$v

sy

sin

s zr

n n n n n 2 n14 o n 4 n 8 o n o n

14n n n 11 n

3 3 368 0 3 3 3 3 3 0

34 3 0 3 3 3 f) 0 3

27 3

12

ANALYTICAL

VALUES

8989

89

89

2289

368989

85

5577

77 88 89

83 27

81 89

62 36

77

L

Page 69: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470

SUMMARY -

|| S

G S

STATPAC (T1/73/78)

DATE

1/16/80

FLEMFMT

sun*

scat

stir

smn sb

sba

sb«

SCO

sc r

scu

sla

snb

sni

sob

s sc

ssn

ssr

sth

s v

sy

4.749A87

0^690904

s zr

MEAN

DFVTATION

17.0

6074 R

1

.50

0.1

67707

?.1

40.1

83^

6

?.3

3********

******

1.6

7

1.7

7

1.7

?******

1.7

6

U64

1.9

?

?]7

7

1.4

6******

1.4

4******

RFM1RKS

9.8SA494

********

37.794053

R.6

45407

R5.9

0041?

17.4

?86*4

********

********

»9

68

»9

67

«9

515

H9

«9 4

^4

1?

1? 1 80 6

6? 889

77

S4H0LFS AMD

SA«IPLFS AND

SA1PLFS AND

GREATER THAN

SAMPLES AND

NOT DETECTFD,

SAHPLFS AND

NOT DFTFCTED,

AMD

AND

NOT DFTF.CTED*

GREATER THAN

NOT DETECTED,

NOT DETECTED*

NOT DETECTED*

SM«»LFS AND

NOT DETECTED*

NOT DETECTED*

NOT DETECTED*

SAMPLES AND

GREATER THAN

NOT DFTECTFD*

GREATER THAN

«9 ANALYTICAL VALUES.

89 ANALYTICAL VALUES.

89 ANALYTICAL VALUES.

VALUES. NO COMPUTATIONS.

89 ANALYTICAL VALUES.

LESS THAN* OR TRACE VALUES,

89 ANALYTICAL VALUES.

LESS THAN* OR TRACE VALUES,

89 ANALYTICAL VALUES.

89 ANALYTICAL VALUES.

LESS THAN* OR TRACE VALUES,

VALUES. NO COMPUTATIONS.

LESS THAN* OR TRACE VALUES,

LESS THAN* 3R TRACE VALUES,

LESS THAN* 3R TRACE VALUES,

89 ANALYTICAL VALUES.

LESS THAN*

Oft

TRACE VALUES,

LESS THAN* OR TRACE VALUES,

LESS THAN* DR TRACE VALUES,

89 ANALYTICAL VALUES.

VALUES. NO COMPUTATIONS.

LESS THAN* OR TRACE VALUES,

VALUES. NO COMPUTATIONS.

?? REPORTED VALUES.

36 REPORTED VALUES.

85 REPORTED VALUES.

77 REPORTED VALUES.

77 REDORTED VALUES.

88 REPORTED VALUES.

83 REPORTED VALUES.

27 REPORTED VALUES.

81 REPORTED VALUES.

36 REPORTED VALUES.

J

Page 70: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470

GEOCHEMICAL SUMMARY -

U S

6 S

STATPAC (01/23/78)

DATE

1/15/80

TITLE

Mag

Fraction of Se

ds

THE 1AX AND MfN

0.10000E+02 FOR VARIABLE NO.

8 ARE THE SAME.

THEREFORE THIS VARIABLE WILL BE SKIPPED.

VARIABLE NO.

IS CONTAINS NO VALID DATA POINTS.

THEREFORE THIS VARIABLE WILL BE SKIPPED.

VARIABLE NO.

21 CONTAINS NO VALID DATA POINTS.

THEREFORE THIS VARIABLE WILL BE

SKIPPED.

VARIABLE NO.

22 CONTAINS NO VALID DATA POINTS.

THEREFORE THIS VARIABLE WILL BE SKIPPED.

00

Page 71: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY -US G S STATPAC (01/23/78)

TITLE *ag Fraction of Seds

FREQUENCY TABLE FOR COLUMN 3 C sfe%>

LIMITS FREQ FREQLOWER - UPPER CUM

3.8E-02 —5.65-02 -5.3E-02 -••1.2E-01 -t.SE-OT -2.6E-01 -3.8E-OT -5.6E-OT -*.3E-01 -1.2F.+00 -1.SE+00 -2.6E+00 —3.8E+00 -5.6E+00 —8. 3E*00 —1.2E+01 -1.8F*01 -•

5.6E-Q28.3E-02T.2E-OT1 .8E-012.6E-OT3.8E-OT5.6E-OT8". 3E-011 . 2E+00t. 8E*002.6F*003.8E+OC5.6E*008. 3E*00T. 2E"+ 0 1t> . 8E+ 0 T2.6E*01

0000000000a0001

3534

00000000000or001

3670

PERCENTFREOcr.ooO.OQ

, 0.000.000.000.0 aa. ooo.trao^; oo0.000.000.00ovoua. ooT.I?

39.3338.20

PERCENTFREQ CUMTOO. 00TOO. 00TOO. 00100.00100.00100.00100.00TOO. 00100.00100.00100.00100.00TOO. 00100.00100.009^.8859.55

HISTOGRAM FOR COLUMN 3 < sfeX)

1.0E+01 X1.SE^OT XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX2.0E+01 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX

N0

0.00 0.00

ANALYTICALr G VALUES 0~ 19 70

0.00 21.35

MINIMUM*GEOMETRIC GEOMETRIC

2.000aOE+01T.OOOOOETOT

MEAN » t.ri49ST*Ot DEVIATION » 1.17117E+00

69

Page 72: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY -US G S STATPAC (31/23/78)

TITLE Mag Fraction of Seds

FREQUENCY TABLE FOR COLUMN

LIMITS LOWE* - UPPER

1.3E-CT2 2.6E-02 3.3E-02 5.6E-0? 8.3E-Q2 1.2E-01

2.6E-0? 3.&E-02 5.6E-02 «.3E-02 T.2E-OT

4 (

FREQ FRETT CUlf

T4 27 tT 17

3

smgX)

27

679487

PERCENTFREQ

14.6'T 15.75 37.34 14.61 19.1 Q 3.37

PERCENT FREfi CUM 97.75sr.1567.42 3T.OS 22.473.37

HISTOGRAM FOR COLUMN 4 ( smgt)

2.0E-02 XXXXXXXXXXXXXXX3.0E-02 XXXXXXXXXXXXXXXX5.0E-02 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXX7.QE-02 XXXXXXXXXXXXXXX1.0F-01 XXXXXXXXXXXXXXXXXXX1.5E-01 XXX

Na

o.ooL 2

2.25

T 0

0.00

G0

0.00

ANALYTICAL VALUES

87

MAXIMUM « 1.50000E-OT MINIMUM « 2.nOOOOE-02 GEOMETRIC MEAN a 5.02247T-OZ GEOMETRIC DEVIATION * 1.76619E+00

70

Page 73: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

TITLE Mag Fraction of Seds

FREQUENCY TABLE FOR COLUMN 5 ( ScaX)

LOWER 3.8E-G^ 5.6E-02 8.3E-02

UPPER5.6E-0^ 8.3F-02 U2E-01

REQ

413<J10

FREQCUM4t7t81

PERCENTFREQ

46. OT3T.7111.24

PERCENTFREQ CUM

9T.0144.9411.24

HISTOGRAM FOR COLUMN 5 ( scaX)

5.0E-02 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 7.0E-02 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 1.0E-01 XXXXXXXXXXX

N0

0.00

L 9

8.99

T 0

0.00

ANALYTICAL G VALUES 0 81

0.00

MINIMUM s SGEOMETRIC ME'AN « 6.T6958E-02GEOMETRIC DEVIATION » 1.27172E+00

71

Page 74: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A47T GEOCHEMICAL SUMMARY - US G S STATPAC C01/23/78)

TITLE Mag Fraction of Seds

FREQUENCY TA3LE FOR COLUMN

LIMITS I LOWER - UPPER

1.8E-03 - 2.6E-03 2.6E-03 — 3-.8F-OT 3.8F-03 - 5.6E-U3- 5.6E-03 - 8.3E-03

1.2E-021.8F-022.6E-0?3.8F-025.6E-Q?8.3F-021.2E-01 1.8E-012.6E-013.8F-015.6E-018.3F-01

-—•---••

-•• -— '----

t.8E-022.6E-023.SE-025.6E-028 . 3E-02t.2E-011.&E-01 2.6F-at3.8F-(Tt•s.de-ar8". 3F-OT1.2E+OQ

6 ( stiX)

REQ

0aa000a00a0r

TTrr46

FREQCUM

a0'

0a00a0000T

12T9222632

PERCENTFREQovaoa.ooa. ooo;ooo.ao0*00o.aoff'.OO-

0.00o-.oo0.00U12

T?.I67.STr.374.496.74

PERCENTFREQ CUMtao.oo100.00100.00100.00rao.oo100.00100.00tocr.oo100.00100.00100.00100.0098.588-6.5278.6?75. 2 870.79

HISTOGRAM FOR COLUMN 6 C

1.5B-OT-X"2.0E-01 XXXXXXXXXXXX 3.0E-01 XXXXXXXX 5.0E-01 XXX 7.06-01 XXXX" 1.0E+00 XXXXXXX

StiX)

N0

0.00

L0

0.00

T 0

0.00

G57

64.04

ANALYTICAL VALUES

32

MAXIMUM a t.QOOOOF+OtTMINIMUM » r.50ooo£-crrGEOMETRIC M?AN * 3.73266E-OrT' GEOMETRIC DEVIATION « 1.91627E+00

72

Page 75: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A473 GEOCHEMICAL SUMMARY ~U S G S STATPAC (01/23/78)

TITLE Wag Fraction of Seds

FREQUENCY TABLE FOR COLUMN 7 ( smn)

LIMITS FREQLOWER - UPPEfr

8.3E+00 —T.2E+01 •-•1.8E+01 ••2.6F+01 —3.8E+01 -5.6E+01 -8.3E+01 *T.2E+02 -1.8E+32 -2.6E+02 —3.8E+02 -5.6E+0/2 -8-.3E*02 -1.2E*03 -

r.2E+011.8E*012 . 6E"+013.8E*Ot5.6E+0-18.3F+0-11.2F+02t.8F*022.6E+0"23.8E^O?5.6E+0^2fr. 3E+0 21.2F+O51.8E*03

a0000000a6

202434"

5

FREQCUM

$0000 .0"

0006

26508489

PERCENTFREQ0.000.00a. oomoo0.00a. oo0.00o;oo0.006.74

22.4726.9738.20

5.62

PERCENTFREQ CUM

1 0CT. 00100.00100.00100.00100.00100.00roo.ooTOO. 00TOO. 00100.0093.2670.7943.82

5.62

HISTOGRAM FOR COLUMN 7 < smn)

XXXXXXX" 5.0F+tJ2 XXXXXXXXXXXXXXXXXXXXXX 7.0E*02 XXXXXXXXXXXXXXXXXXXXXXXXXXX 1.0E+03 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 1.5E+Q3 XXXXXX

N 0

0.00

L0

0.00

90

T 0

0.00

ANALYTICAL G VALUES 0 89

0.00

MAXIMUM = r.sootjar+arMINIMtJM « T.OOOOOE-KT?GEOMETRIC MEAN » 7.3320?r+OZGEOMETRIC DEVIATION * 1.48181E+00

73

Page 76: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY -US G £ STATPAC (01/23/78)

TITLE Mag Fraction of Seds

FREQUENCY TA9LE FOR COLUMN

LI MITT LOWER - UPPER '

r.8E*OT - 2.6e+at3.8E*OT5.

5. 6 6*01 •— 8. 8.3E+01 - 1.2E*02

FREQ

2fr3"

201t

7

9 C

FRE-ffCUM2831ST6269

sba)

PERCENTFR?Q

3T..463.37

22.4712.T67.87

PERCENTFRES CUM

7r.5346.074?. 7020^27.87

HISTOGRAM FOR COLUMN 9 < sba)

2.0E>Ot XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX3.0E+OT XXX5 . OEVffT XTX XTXX XTX^XKXX X X X XX X X X7.0E*OT XXXXXTXXXXXX1.06*02"XXXXXXXX

N20

22.47

L 0

0.00

T 0

0.00

ANALYTICAL 6 VALUES 0 69

0.00

2.000QOE>Ot MEAN * 3.81660T+OT-

GEOMETRIC DEVIATION * 1.80839E+OQ

74

Page 77: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

TITLE"

Mag Fraction of Seds

LIMITSLOWEfr - UPPEr

8.3E-01 - 1V2E+00 1.2E+00 — U8E+00

sbe)

EQ

62

FREQCUM1

68

PERCENTFREQ6.742.25

PERCENTFREQ CUM

fr.992.25

HISTOGRAM FOR COLUMN 10 ( sbe)

XTCXXXXX1.5E+00 XX

N68

76.40

Lrr

14.61

H 0

90

ANALYTICAL VALUES

80.00 0.00

MAXIMUM a t.50QOOE*00 MINTMUM a 1.OOOOOE*00 GEOMETRIC MEAN » T.10668r*0a * GEOMETRIC DEVIATION » 1.20646£*00

75

Page 78: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

TITLE Mag Fraction of Seds

FREQUENCY TABLE FOR COLUMN

LIMITSLOWER - UPPER

T.8E+00 - 5.6E+00 5.6E+00 - 8.3E+00

11 (

1.2F+01 — T.8E+01 -

5.66*01 -

FREQ

0a459"

2320t

FREQCUM004638683$389

seo)

PERCENTFREQ0.00a. oo4.49

66,2925.842.250.001.12

PERCENTFREQ CUM

TO 0.00100.00100.0095.5129. ?1

3.371.12U12

HISTOGRAM FOR COLUMN 11 ( SCO)

r.OE+OT XXXXT.5E+01 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX2.0E*01 XXXXXXXXXXXXXXXXXXXXXXXXXX3.0E*01 XX5.0E*017.0E*01 X

N

00.00

La

0.00

r0

0.00

ANALYTICAL G VALUES 0 89

0.00

GEOMETRIC GEOMETRIC

1.00000E+OT WHAN » T.63963F*OT' DEVIATION » 1.27488E+00

76

Page 79: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEWICAL SUWWARY - US G S STATPAC (01/23/78)

TITLE Mag Fraction of Seds

FREQUENCY TA3LE FOR COLUMN

LIWITSLOWER - UPPER

8.3E+00 - 1.2E+OT 1.2E+01 — USE*OT

12 (

2.6E+01 — 3.8E+Q1 - 5.6E+01 - 8.3E+01 — 1.2E+02 — 1.8E+92 -- 2.6E+02 —

SCP)

1.2E*03 - U8E+03

REQ

00aa00t6

20TS151496

FREUCUPt000000172T456074S3-

89

PERCENTFREQ(UOO0.000.00a. ooo;ooo.oaT.1^6.T42^.472o.2^16. S51 5. 7310^tT6.74

PERCENTFREQ CUM. 100.00100.00100.00100.00too. oo100.00100.0098.8892.1369.6649.4432.5816.856.74

HISTOGRAM FOR COLUMN 12 ( scr>

U5E*02 XXXXXXX"2.0E*02 XXXXXXXXXXXXXXXXXXXXXX 3.0E+02 XXXXXXXXXXXXXXXXXXXX 5.0^*02 XXXXXXXXXXXXXXXXX7.or*02 xxxxxxxxxxxxxxxxt.aE+03 XXXXXXXXXX 1.5E*03 XXXXXXX

N0

0.00 o.oo

T 0

0.00

ANALYTICAL G VALUES 0 89

0.00

GEOMETRIC GEOMETRIC DEVIATION U99459E*00

77

Page 80: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

004-389399*1NOI1V1A30 3I«A3«039

00+300£00*S '» iO+3.00GOO*S =

6Z00*0

09

00*0 ,01

•WOI1A1VNV

00*0 0 N

X X

XXXXXXXXXXXXXXXXXXXXXXXX

XXXXXXXXXXXXXXXXXXXXXX. .XXXXXXXXXXXXXXXXX 004-30 */

XXXXXXXXXXXXXXXXXXXXXXXX 00+30*5

(H3S

WOD 038:1

(HDS

9S

1 -Is91

- 1 0*3 9*^- lfl+38't

00+3£*8

318V1

$pa$

s n~

Page 81: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S 6 S STATPAC C01/23/78)

TITLE'

Fraction of Seds

FREQUENCY TABLE FOR COLUMN 14 (

LIMITS FREQ FREQ

sla)

PERCENT PERCENTLOWER - UPPER

i.8E+crr -2.6F+OT —3.8E+OT -5.6E+OT -8". 3"E>Ot — •1 .2E+02 -1.8E+02 -2.6E+Q2 *3.8E+02 -

HISTOGRAM FOR

2.0E+OT3.0E*OT5.0E+017.0E*Ott.OE>021.5E+022,OE+023.0E*025.0E*02

N

00.00

2. 6E1* 0 1.T.8F*Ot5V6E+CT^.3E"+01T. 2E*021V^E"*02"2.6E*023.8E*0?5.66*02

COLUMN

XXXXXXXXXX

2t1?

283415

21

14 f

CUMZT49

377186S$89

sla)

FREQ2V ?5t»T2T. 1'2S.62

3T.4638.20T6V&S2i25"1.12

FREQ CUM10TT.OO97.759-6. 6.T95V 51£9". 895"8". 4 32ff»2?y.371.12

XXXXXXXXXXXXXXXXXXXXXXXX XXXXXX XXXXXXX XXXXXXXXXXXXXXXX XX XX XXXXXXXXXXXXxxxxxxxxxxxxxxxxxXXX

L0

0.00

H0

30

T0

0.00

ANALYTICALG VALUES0 39

0.00

MINI-MOM * 2.00000E*OT * tSEOMETRIC MEAN «" T.26740E-KT2 GEOMETRIC DEVIATION » 1.62131E*00

79

Page 82: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A479 GEOCHEMICAL SUMMARY - U S 5 S STATPAC (01/23/78)

TITLE Mag Fraction of Seds

FREQUENCY TABLE FOR COLUMN 16 C $nb)

LIMITS' FREQ FRES PERCENT PERCENTLOWER - UPPER CUM FRE& FREQ CUM

1.5E*OT - 2.6E*0t 18~ T8~ 20.22 77.552.6F+Ot — 3.8E*Ot 13 ST 14.61 57.303.8E*01 — 5.6E*Ot 24 5* 26.97 42.705.6E*01 - 8.3E+01 1T 66 12.36 15.738.3E+Q1 - 1.2E*02 3 69 3.37 3.37

HISTOGRAM FOR COLUMN 16 ( snb)

2.0E+OT XXXXXXXXXXXXXXXXXXXX3.0E+01 XXXXXXXXXXXXXXX5.0F+01 XXXXXXXXXXXXXXXXXXXXXXXXXXX7.0E*Ot XXXXXXXXXXXX1.0E+02 XXX

N12

13.48

B 0

8.99

T 0

0.00

ANALYTICAL S VALUES* 0 69

0.00

1AXTMUM « 1.00000E+02 MINIMUM a 2.00000E+01 GEOMETRIC MEAN a 3.88818"E*Ot GEOMETRIC DEVIATION « 1.64453E+00

80

Page 83: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 6EOCHEMICAL SUMMARY - U S 6 S STATPAC <01/23/78)

*ag Fraction of Seds

FREQUENCY TA9LE FOR COLUMN 17 (

LIMITS LOWER - UPPER

3.SE+00- 5.6E+00 —

5.6E+00

U2T+OT

2.6E+01 - 3.8E+OT

FREQ FREQ CUM

sni)

PERCENT PERCENTFREQ FR€Q CUW

1009

44?510

rT1

TO547789

r;t20.000»ffO~

1 0'.TT47.4428.091t*24

100.009^.8898^889^.888ff. 7639.3311.24

HISTOGRAM FOR COLUMN

5.Of*00 X

sni)

1.5E*Ot XXXXXXXXXX" ~2.0E*01 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXX3.0E+01 XXXXXXXXXXXXXXXXXXXXXXXXXXXX5.QE+01 XXXXXXXXXXX

N 0'

0.00 0.00

r0

0.00

ANALYTICAL G VALUES 0 89

0.00

MAXIMUM s 5.00000E>01 ^INHUM a 5.00000E*oa GEOMETRIC MEAN » 2.r7579E*Ot GFOMETR1C DEVIATION s 1.45849E+00

81

Page 84: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - US 6 S STATPAC (01X23/78)

TITLE Mag Fraction of S«ds

FREQUENCY TABLE FOR COLUMN

LIMITS* I LOWER -• UPPE-R

S.3E+00 - 1.2E*at

U8E+01 - 2-!6r*OT

REG

243T14

1

18 (

I- FREQCUM24ST7T*

72

spb)

PERCENTFRE9

26;9r3T.O?T5.75

1.12

PERCENTFREQ CUM

TO.9Q53.9116.85

1.12

HISTOGRAM FOR COLUMN 18 C $pb)

r.or+or xxxxxxxxxxxxxxxxxxxxxxxxxxxt.5E*ai xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx2.0EfOt XXXXXXXXXXXXXXXX 3.0E*01 X

M

1.12t6

17^98

9 Ta

0*00

ANALYTICAL G VALUES a 72

0.00

MINIMUM » 1.00000E*tT1 SEOf?T»rC MEAN » 1.399T6T+<rr SEOMETRIC DEVIATION » 1.31202E*00

82

Page 85: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/25A78)

TITLE-Wag Fraction of Seds

FREQUENCY TABLE FOR COLUMN 19 (

LIMITS LOWER - UPPER"

3.8E*00 — 5.6E*00 -• 8.3E+00 - 1.2E+OT - 1.8E*01 —

5.6E+00

2.6E+01

FREQ FREQ CUM

7a

5*17

3

7 T5

8689

ssc)

PERCENT PERCENTFREQ

60.67T9.TO3.37

FREQ CUM

. 13 83.15 2?. 47 3.37

HISTOGRAM FOR COLUMN 19 ( SSC)

5".OE+00 XXXXXTXXXXTXTXXXXXXXXXXXXXXXXXXXXTXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX

1;5E*01 XXKXXXXXXXXXXXXXXXX2.0E*01 XXX

Na

0.00

La

0.00

ff 0

ff0

r(T

0.00

ANALYTICAL G VALUES 0 89

0.00

MAXIWJM *' 2.00000E>01 ^INI^IU^ * 5.00000E*00 GEOMETRIC WEAN s 1.01434T*af" GEOMETRIC DEVIATION » 1.36697E*00

83

Page 86: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A47T GEOCHEHICAL SUMMARY -US S S STATPAC (01/23V78)

TITLE Wag Fraction of Seds

FREQUENCY TA9LE FOR COLUMN 20 ssn)

LIMITS'LOWER --UPP

8.3E+03 —1.2E+01 -t. 86*0-1' -2.6E+01 -3.8E+01 -5.6E+OT — •S.3E+01 *

1 . 2E^+OT1 .8E"+0"1?.66+Ot3.8E*(T15.6E*OT8.3E*011 ^2E*02

FREQ

T418-

3411

001

FREQCUM143?6677rrrr78

PERCENTFREQ

T5.7T20. 2TIff. ?012.3-60.000.00U12

PERCENTFREff CUM

87.647T. 915T.69TT.48

1.-121.T21.12

HISTOGRAM FOR COLUMN 20 ( ssn)

i.OE>or xxxxxxxxxxxxxxxx1.5E+01 XXTXXXXXXX XXXXXXXXXX2.0E*Ot XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX3.0E+OT XXXXXXXXXXXX

1.0E+02 X

N11

12.36

L 0

0.00

T 0

0.00

ANALYTICAL G VALUESrr 78

o.oo

T.OOOOOE>0^r»ooooor*ot

GEOMETRIC I«IEAN » 1.78633l'*0f GEOMETRIC DEVIATION » 1.47470E*00

84

Page 87: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

TITLE Mag Fraction of Seds

FREQUENCY TABLE FOP COLUMN

LIMITSLOWER - UPPER

8.3E+00 - 1.2E*OT t.2E+01 - 1.8F+OT

23 C

2.6E+01 -3.8E+01 -5.6E+01 —B.3E+01 -

2.6E+02 - 3.8E*02'-

3..8E+01 5.6E+Ot 8-.3E+OT

3.8E*0? 5.6E*02

FREQ

a000000••<r

T8 61 10

FREQcu*

00

0 0 0 0"

a18

sv)

89

PERCENTFREQ0.000.000^000.000.000.000.00'0.00

20. 2268.54

. 11.24

PERCENTFREa CUMroa.oo100.00TOO. 00100.00100.00100.00100.00TOO.OOloa.oo79.7811.24

HISTOGRAM FOR COLUMN 23 ( sv)

?.OE*0? XXXXXXXXXXXXXXXXXXXX3.0E+02 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX5.0E*02 XXXXXXXXXXX

N0

0.00

L 0

0*00

Ta

o.oo

ANALYTICAL G VALUES 0 89

0.00

MINIMUM * GEOMETRIC GEOMETRIC

5.00000E+0?2.00000E*0?

MEAN « 2.92708E*Or DEVIATION » 1.28446E*00

85

Page 88: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S S S STATPAC (01/23/78)

TITLE Wag Fraction of Seds

FREQUENCY TABLE FOR COLUMN

LIMITSLOWER --UPPER

S.3E+00 - 1. 1.2E+Q1 - 1.8E*Ot - 2.6E+01 - 3.8E+G1 -••5.6E+01 -

t.ar-Krr2.6E+0T 3.5E+OT 5.6E+OTx.

1.2E+02 -

24 (

FREQ FREQ COM

25 25

TO 15451

5T-

61795T5839

sy)

PERCENTFRE«

3U46

25.54Tt.2420w224.495.621.12

PERCENTFREQ CUM100.Off68.5468.5442.7031.4611.246.741.12

HISTOGRAM FOR COLUMN 24 ( sy)

xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx

xxxxxxxxxxxxxxxxxxxxxxxxxx3.0E>Ot XXXXXXXXXTX5.0E>OT XXXXXXXXXXXXXXXXXXXX7.0E*OT XXXX1.0E*02 XXXXXX1.5E+02 X

N 0

0.00

L 0

0.00

K

0B 0

T 0'

0.00

ANALYTICAL VALUES'

89

MAXIMUM « T ->50QOflE'+a?MINIMUM » t.ooaQOE*0rGEOMETRIC MEAW * 2.39963¥>OT~ GEOMETRIC DEVIATION s- 2.13373E*00

86

Page 89: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A479 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

TITLE *ag Fraction of Seds

FRE3UENCY TABLE FOR COLUMN 25 (

LIMITSLOWER — UPPPIT

t.8E*02 — 2

3.8E+02 -5.6E+02 -S.3E+02 - 1.2E*03

FREQ

T?5018

41

CUM T2 6? SO8485

szn)

PERCENT

4.491.12

PERCENT CUM

25.845.621.12

HISTOGRAM FOR COLUMN 25 C szn)

2.0E+&2 XXXXXXXTXXXXX3.0F*02 XXXXXXXXXXXXTXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX5.QF+02 XXXXXXXXXXXXXXXXXXXXT-.OE*O? xxxx1.0E+03 X

N0

0.00

L 4

4.49 0.00

ANALYTICAL G VALUES (T 85

0.00

MINIMUM ar 2.00000E"*Or GEOMETRIC MEAN'* 3.3320'3'r-fa? GEOMETRIC DEVIATION » 1.41336E*00

87

Page 90: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY — U S S S STATPAC (01/23/78)

TITLE Mag Fraction of Seds

FREQUENCY TABLE FOR COLUMN 26 C

LIMITSLOWEff - UPPER

8.3E+00 — T.

T.SE+01 -

3V8E+0-T - 5.6E+OT - 3.3E+01 -

t.8E*02 - 2.6E+02 - 3.8E+02 - 5.6E+0? - 8.3E+02 -

FREQ

00a oTr

25ra^o r32

FREQ CUM

<Ja a o34

6T83"

8T 89

szr)

PERCENT FREfJ

a. doa^ao3V37r.r^

26.97

UT2

2^25

PERCENT FREQ CUM TOO.00

100.00100.00100.0096.63

29.216 . 74

2^25

HISTOGRA* FOR COLUMN 26 C

XXX X

r.OE+o? xxxxxxxrxxxxxxxxxxxxxxxxxxxxT.5E+0^ XXXXXXXXXXX2.0E+02 xxxxxxxxrxxxxxxxxxxxxxxxxxx3.0E+02 XXXXXXXXXXXXXXXXXXXXXX 5.0E+0? X 7.0E+02 XXX 1.0E*03 XX

Na-0.00

Lo-0.00 0.00

ANALYTICAL G VALUES 0 89

0.00

GEOMETRICMEAN » 1 DEVIATION 1^84014E+00

88

Page 91: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470

GEOCHEMICAL SUMMARY -

U S

G S

STATPAC (01/23/78)

DATE

1/15/80

TITLE

Mag Fraction of

Seds

IN THE COMPUTATIONS PERFORMED TO PRODUCE THE FOLLOWING TABLE OF GEOMETRIC MEANS AND DEVIATIONS, ALL ELEMENTS ARE IGNORED WHERE

ONE OR MORE OF

THE UNQUALIFIED DATA VALUES IS

LESS THAN THE ANALYTICAL LIMIT OF DETECTION SPECIFIED ON INPUT OR WHERE ANY DATA

VALUES ARE QUALIFIED WITH THE 6

(GREATER THAN) CODE.

DATA VALUES QUALIFIED WITH B

OR H

ARE NOT USED IN THE COMPUTATIONS.

WHERE

NONE OF THE DATA VALUES FOR AN ELEMENT ARE QUALIFIED THE MEAN AND DEVIATION SHOULD BE THE SAME AS THOSE GIVEN IN THE PRECEDING

SECTION.

WHERE DATA ARE QUALIFIED WITH THE CODES N,

L,

OR T, THE ESTIMATES OF GEOMETRIC MEAN AND DEVIATION ARE BASED ON A

METHOD

9Y A. J.

COHE1 FOR TREATING CENSORED DISTRIBUTIONS.

THE APPLICATION OF THIS METHOD TO GEOCHEMICAL PROBLEMS IS DESCRIBED IN

USGS PROFESSIONAL PAPER 574-B.

THE ESTIMATES ARE UNBIASED IN A

STRICT SENSE ONLY WHERE THE DATA ARE DERIVED FROM A

L06NORXAL

PARENT POPULATION/ BUT EXPERIMENTS HAVE SHOWN THAT LARGE DEPARTURES FROM THIS REQUIREMENT MAY NOT GREATLY INVALIDATE THE RESULTS

ACCEPTANCE AND USE OF THE ESTIMATES/ HOWEVER/ IS THE RESPONSIBILITY OF THE INDIVIDUAL.

ELEMENT

sfeX

00

VD

scat

stIX

sun

sba

she

SCO

sc r

scu

sla

snb

sni

spb

ssc

ssn

sv

sy

szn

szr

N 0 n o n o20

6ft o o o o

12n i o 11 n o n n

o 2 8 o o o13o o 10 o 8 0

16 n 0 0 0 4 n

190 0

570 a o o o o o o o o 0 0 0 0 0 0

ANALYTICAL

VALUES

70

87

81

52

89

69 8

89

79

89

69

89

72

89

78

89

89

85

89

L

Page 92: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470

6E9CHEMICAL SUMMARY -

U S

6 S

STATPAC (01/23/78)

DATE

1/15/80

TITLE

ENT

sfeX

smqX

scaX

stIX s«n

sba

she

SCO

ser

scu

sta

snb

sni

spb

ssc

ssn sv Sy

sin

s?r

GEOMETRIC

MEAN

********

0.0487

980.

0584

29********

733.

2029

6529

.059

727

0.37

3373

16.3

96315

404.

730999

8.00

4924

126.7403

1429

.903

762

23.75785

812

.174

692

10.143369

15.775738

292.

7077

6423.996306

321.5907

1717

9.93

0571

GEOMETRIC

DEVI

ATIO

N

****

**1.

811.34

****

**1.

482.

111.81

1.27

1.99

1.84

1.62

1.96

1.46

1.47

1.37

1.64

1.28

2.13

1.46

1.84

REMARKS

19 GREATER THAN

2 NOT DETECTED*

8 NOT DETECTED,

57 GREATER THAN

89 SAMPLES AND

20 NOT DETECTED,

81 NOT DETECTED,

89 SAMPLES AND

89 SAMPLES AND

10 NOT DETECTED,

89 SAMPLES AND

20 NOT DETECTED,

89 SAMPLES AND

17 NOT DETECTED,

89 SAMPLES AND

11 NOT DETECTED,

89 SAMPLES AND

89 SAMPLES AND

4 NOT DETECTED,

89 SAMPLES AND

VALUES. NO COMPUTATIONS.

LESS THAN/ OR TRACE VALUES.

LESS THAN, OR TRACE VALUES.

VALUES. NO COMPUTATIONS.

89 ANALYTICAL VALUES.

LESS THAN/ OR TRACE VALUES.

LESS THAN/ OR TRACE VALUES.

89 ANALYTICAL VALUES.

89 ANALYTICAL VALUES.

LESS THAN/ OR TRACE VALUES.

89 ANALYTICAL VALUES.

LESS THAN/ OR TRACE VALUES.

89 ANALYTICAL VALUES.

LESS THAN/ OR TRACE VALUES.

89 ANALYTICAL VALUES.

LESS THAN/ OR TRACE VALUES.

89 ANALYTICAL VALUES.

89 ANALYTICAL VALUES.

LESS THAN/ OR TRACE VALUES.

89 ANALYTICAL VALUES.

87 REPORTED VALUES.

81 REPORTED VALUES.

69 REPORTED VALUES.

8 REPORTED VALUES.

79 REPORTED VALUES.

69 REPORTED VALUES.

72 REPORTED VALUES.

78 REPORTED VALUES.

85 REPORTED VALUES.

Page 93: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470

GEOCHEMICAL SUMMARY -

U S

G S

STATPAC (01/23/78)

DATE

1/16/80

TITLE

Fine Fraction of Seds

VARIABLE NO.

25 CONTAINS NO VALID DATA POINTS.

THEREFORE THIS VARIABLE WILL BE SKIPPED.

Page 94: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

FineTITLE

Fract ion of Seds

FREQUENCY TABLE FOR COLUMN

LIMIT SLOWER - UPPER

3.8E-02 -5.6E-02 -8.3E-02 -1.2E-01 -1.8E-01 ~2.6E-01 -3.8E-01 -5.6E-01 -8.3E-01 -1.2E+00 -1.8E+00 -2.6E+00 -3.8E+00 -5.6E+00 -

5.6E-028.3E-021.2E-0.11.8E-012.6E-013.8E-015.6E-018.3E-011.2E+001.8E+002.6E+003.8E+005.6E+008.3E+00

3 (

FREQ

0000000002

1454164

FREQCUM0000000002

16708690

sfeX)

PERCENTFREQ0.000.000.000.000.000.000.000.000.002.22

15.5660.0017.784.44

PERCENTFREQ CUM100.00100.00100.00100.00100.00100.00100.00100.00100.00100.0097.7882.2222.22

4.44

HISTOGRAM FOR COLUMN sfeZ)

1.5E+00 XX2.0E+00 XXXXXXXXXXXXXXXX3.0E+00 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX5.0E+00 XXXXXXXXXXXXXXXXXX7.0E+00 XXXX

N 0

0.00

L 0

0.00

T 0

0.00

ANALYTICAL G VALUES 0 90

0.00

MAXIMUM = 7.00000E+00 MINIMUM s 1.50000E+00 GEOMETRIC MEAN = 3.15380E+00 GEOMETRIC DEVIATION » 1.40019E+00

92

Page 95: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/33/78)

TITLE Fine Fra-ction of Seds

FREQUENCY TABLE FOR COLUMN 4 ( smgX)

LIMITS FREQLOWER - UPPER

1.8E-02 - 2.6E-02 02.6E-02 - 3.8E-02 03.8E-02 - 5.6E-02 05.6E-02 - 8.3E-02 08.3E-02 - 1.2E-01 01.2E-01 - 1.8E-01 01.8E-01 - 2.6E-01 12.6E-01 - 3.8E-01 123.8E-01 - 5.6E-01 355.6E-01 - 8.3E-01 288.3E-01 - 1.2E+00 121.2E+00 - 1.8E+00 2

HISTOGRAM FOR COLUMN 4 (

2.0E-01 X3.0E-01 XXXXXXXXXXXXX

FREQCUM

0000001

1348768890

smgX)

PERCENTFREQ0.000.000.000.000.000.001.11

13.3338.8931.1113.332.22

5.0E-01 X XXX XX XX XXXXXXXXXXXXXXXXXXXXX XXX

PERCENTFREQ CUM100.00100.00100.00100.00100.00100.00100.0098.8985.5646.6715.56

2.22

xxxxxxx7.0E-01 XXXXXXXXXXXXX XXX XX XXXXXXXXXXXXX1.0E-»-00 XXXXXXXXXXXXX1.5E+00 XX

N L H000

0.00 0.00

MAXIMUM s 1 .500QOE+OQMINIMUM « 2.00000E-01GEOMETRIC MEAN * 5.76993E-01

80

-

T0

0.

G0

00 0.00

GEOMETRIC DEVIATION a 1 .47564E+00

ANALYTICAL VALUES

90

93

Page 96: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/33/78)

TITLE Fine Fraction of Seds

FREQUENCY TABLE FOR COLUMN

LIMITSLOWER * UPPER

3.8E-02 -5.6E-02 -8.3E-02 -1.2E-01 -1.8E-01 -2.6E-01 -3.8E-01 -5.6E-01 -8.3E-01 *1.2E+00 -

5.6E-028.3E-021.2E-011.8E-012.6E-013.8E-015.6E-018.3E-011.2E+001.8E+00

FREQ

000006

323217

3

5 (

FREQ CUM

0 0 0 0 0 6

38 70 87 90

scaZ)

PERCENTFREQ0.000.000.000.000.006.67

35.5635.5618.893.33

PERCENTFREQ CUM100.00100.00100.00100.00100.00100.0093.3357.7822.22

3.33

HISTOGRAM FOR COLUMN 5 C scaX)

3.0E-01 XXXXXXX5.0E-01 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX7.0E-01 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX1.06*00 XXXXXXXXXXXXXXXXXXX1.5E+00 XXX

N0

0.00

L 0

0.00

T 0

0.00

ANALYTICAL G VALUES 0 90

0.00

MAXIMUM s 1.50000E+00 MINIMUM = 3.00000E-01 GEOMETRIC MEAN » 6.44024E-01 GEOMETRIC DEVIATION * 1.42605E+00

94

Page 97: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

TITLE Fine Fraction of Seds

FREQUENCY TABLE FOR COLUMN 6 ( stiZ)

LIMITS FREQLOWER - UPPER

1.8E-03 -2.6E-03 -3.8E-03 -5.6E-03 -8.3E-03 -1.2E-02 -1.8E-02 -2.6E-02 -3.8E-02 -5.6E-02 -8.3E-02 -1.2E-01 -1.8E-01 -2.6E-01 -3.8E-01 -5.6E-01 -8.3E-01 -

2.6E-033.8E-035.6E-038.3E-031.2E-021.8E-022.6E-023.8E-025.6E-028.3E-021.2E-011.8E-012.6E-013,8E-015.6E-018.3E-011.2E-»-00

000000000000

14283113

4

FREQCUM

000000000000

1442738690

PERCENTFREQ .0.000.000.000.000.000.000.000.000.000.000.000.00

15.5631.1134.4414.444.44

PERCENTFREQ CUM100.00100.00100.00100.00100.00100.00100.00100.00100.00100.00100.00100.00100.0084.4453.3318.894.44

HISTOGRAM FOR COLUMN 6 ( StiZ)

2.0E-01 XXXXXXXXXXXXXXXX3.0E-01 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX5.06-01 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX7.0E-01 XXXXXXXXXXXXXX1.0E+00 XXXX

N 0

0.00

L 0

0.00

T 0

0.00

G 0

0.00

ANALYTICAL VALUES

90

MAXIMUM » 1.OOOOOE+00 MINIMUM » 2.00000E-01 GEOMETRIC MEAN s 4.00438E-01 GEOMETRIC DEVIATION » 1.56820E+00

95

Page 98: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

FineTITLE

Fracti on of Seds

FREQUENCY TABLE FOR COLUMN

LIMLOWER -3E+00 -2E+01 -8E+01 -6E+01 -8E+01 -6E+01 -3E+01 -2E+02 -8E+02 -6E+02 -

3.8E+02 -5.6E+02 -8.3E+02 -1.2E*03 -

ITS UPPER

1.2E*01 I.SE-^01

3.8E+01

8.3E+01

U8E+02

5.6E*02 8.3E*02

7 (

1.8E+03

FREQ

0000000025

422911

1

FREQCUM0000000027

49788990

smn)

PERCENTFREQ0.000.000.00Q.OO0.000.000.000*002.225.56

46.6732.2212.221.11

PERCENTFREQ CUM100.00100.00100.00100.00100.00100.00100.00100.00100.0097.7892.2245.5613.331.11

HISTOGRAM FOR COLUMN 7 < sron)

2.0E+02 XX3.0E+02 XXXXXX5.0E+02 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX7.0E+02 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX1.0E+03 XXXXXXXXXXXX1.5E+03 X

N 0

0.00

L 0

0.00

T 0

0.00

ANALYTICAL G VALUES 0 90

0.00

MAXIMUM » 1.50000E+03 MINIMUM * 2.00000E+02 GEOMETRIC MEAN » 5.84766E+02 GEOMETRIC DEVIATION s 1.41102E+00

96

Page 99: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

TITLE Fine Fraction of Seds

FREQUENCY TABLE FOR COLUMN 8 ( sb)

LIMLOWER -

8.3E+00 -1.2E+01 -1.8E+01 -2.6E+01 -3.8E+01 -5.6E+01 -8.3E+01 -1.2E+02 -

ITSUPPER

1.2E+011.8E+012.6E+013.8E+015.6E+018.3E+011.2E+021.8E+02

FREQ

331616

72121

FREQCUM3349657274757778

PERCENTFREQ

36*6717.7817.787.782.221.112.221.11

PERCENTFREQ CUM

86.6750.0032.2214.446.674.443.331.11

HISTOGRAM FOR COLUMN 8 ( Sb)

1.0E+01 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX1.56+01 XXXXXXXXXXXXXXXXXX2.0E+01 XXXXXXXXXXXXXXXXXX3.0E+01 XXXXXXXX5.0E+01 XX7.0E+01 X1.0E+02 XX1.5E+02 X

N 1

1.11

L 11

12.22

T 0

0.00

G 0

0.00

ANALYTICAL VALUES

78

MAXIMUM a 1.50000E+02 MINIMUM a 1.OOOOOE+01 GEOMETRIC MEAN a 1.62243E+01 GEOMETRIC DEVIATION a 1.81589E+00

97

Page 100: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

FineTITLE

Fract ion of Seds

FREQUENCY TABLE FOR COLUMN 9 <

LIMITSLOWER - UPPER

1.8E+01 -2.6E+01 -3.8E+01 -5.6E+01 -8.3E+01 -1.2E+02 -1.8E+02 -2.6E+02 -3.8E+02 -5.6E+02 -

2.6E+013.8E+015.6E+Q18.3E+011.2E+021.8E+022.6E+Q23.8E*025.6E+Q28.3E+02

FREQ

0000000

135126

FREQCUM0000000

136490

sba)

PERCENTFREQ0.000.000.000.000.000.000.00

14.4456.6728.89

PERCENTFREQ CUM100.00100.00100.00100.00100.00100.00100.00100.0085.5628.89

HISTOGRAM FOR COLUMN 9 ( sba)

3.0E+02 XXXXXXXXXXXXXX5.0E+02 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX7.0E+02 XXXXXXXXXXXXXXXXXXXXXXXXXXXXX

N

00.00

L 0

0.00

T 0

0.00

ANALYTICAL G VALUES 0 90

0.00

MAXIMUM * 7.0QOOOE-KJ2 MINIMUM * 3.0000QE+Q2 GEOMETRIC MEAN = 5.11847E+02 GEOMETRIC DEVIATION s 1.3Q442E+QO

98

Page 101: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

TITLE Fi ne Fraction of Seds

FREQUENCY TABLE FOR COLUMN 10 (

LIMITS LOWER - UPPER

8.3E-01 1.2E+00 1.8E+00 2.6E+00 3.8E+00

2E+00 8E+00 6E + 00 ,8E+00 6E+00

FREQ

8333991

FREQCUM8

41808990

sbe)

PERCENTFREQ8.8936.6743.3310.001.11

PERCENTFREQ CUM100.0091.1154.4411.111.11

HISTOGRAM FOR COLUMN 10 ( sbe)

1.0E+00 XXXXXXXXX1.5E+00 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX2.0E+00 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX3.0E+00 XXXXXXXXXX5.0E+00 X

N 0

0.00

L 0

0.00

r0

0.00

G 0

0.00

ANALYTICAL VALUES

90

MAXIMUM * 5.00000E+00 MINIMUM » 1.00000E+00 GEOMETRIC MEAN * 1.78029E+OQ GEOMETRIC DEVIATION * 1.34133E+00

99

Page 102: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

FineTITLE Fraction of Seds

FREQUENCY TABLE FOR COLUMN

LIMITSLOWER - UPPER

3.8E+00 - 5.6E+00 5.6E+00 - 8.3E+00 8.3E+00 - 1.2E+01 1.2E+01 - 1.8E+01

1 1 (

1.8E+01 - 2.6E+01

FREQ

92

57193

FREQCUM9

11688790

SCO)

PERCENTFREQ

10.002.22

63.3321.113.33

PERCENTFREQ CUM100.0090*0087.7824.44

3.33

HISTOGRAM FOR COLUMN 11 ( SCO)

5.0E+00 XXXXXXXXXX7.0E+00 XX1.OE+01 XX XX XX XXXXXXXXXX XX XX XXXX XX XXXXXXXXXXXXXXXXXXXXXXXXXXX XXXXXXXXXX1.5E+01 XXXXXXXXXXXXXXXXXXXXX2.0E*01 XXX

N 0

0.00

L 0

0.00

T 0

0.00

ANALYTICAL G VALUES 0 90

0.00

MAXIMUM » 2.00000E+01 MINIMUM «• 5.00000E*00 GEOMETRIC MEAN = 1.03196E*01 GEOMETRIC DEVIATION = 1.37570E*00

100

Page 103: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

TITLE Fine Fraction of Seds

FREQUENCY TABLE FOR COLUMN 12 (

LIMLOWER -

8.3E+00 - 1.2E+01 - 1.8E+01 - 2.6E+01 - 3.8E+01 - 5.6E+01 - 8.3E+01 - 1.2E+02 - 1.8E+02 -

ITS UPPER

1.2E+01 1.8E+01 2.6E+01 3.8E+01 5.6E+01 8.3E+01 1.2E+02 U8E+02 2.6E+02

FREQ

0052

23181724

1

FREQCUM

0057

3048658990

scr)

PERCENTFREQ0.000.005.562.22

25»5620.0018.8926*67

1.11

PERCENTFREQ CUM100.00100.00100.00'94.4492.2266.6746.6727.78

1.11

HISTOGRAM FOR COLUMN 12 ( scr)

2.0E+01 XXXXXX3.0E+01 XX5.0E+01 XXXXXXXXXXXXXXXXXXXXXXXXXX7.0E+01 XXXXXXXXXXXXXXXXXXXX1.0E+02 XXXXXXXXXXXXXXXXXXX1.5E+02 XXXXXXXXXXXXXXXXXXXXXXXXXXX2.0E+02 X

N 0

0.00

L 0

0.00

T 0

0.00

ANALYTICAL G VALUES 0 90

0.00

MAXIMUM s 2.00000E+02 MINIMUM * 2.QOOOOE+01 GEOMETRIC MEAN a 7.79724E+01 GEOMETRIC DEVIATION * 1.75304E+00

101

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A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

FineTITLE Fraction of Seds

FREQUENCY TABLE FOR COLUMN 13 (

LIMITSLOWER

3.8E+005.6E+008.3E+001.2E+011.8E+012.6E+013.8E+015.6E+018.3E+01

- UPPER5.6E*008.3E+001.2E+011.8E+012.6E+013.8E+015.6E+018.3E+011.2E+02

FREQ

016

173424511

FREQCUM017

245882878889

scu)

PERCENT FREQ 0.001.116.6718.8937.7826.675.561.111.11

PERCENTFREQ CUM

98.8998.8997.7891.1172.2234.447.782.221.11

HISTOGRAM FOR COLUMN

7.0E+00 1.0E+01 1.5E+01 2.0E+01 3.0E+01 5.0E+01 7.0E+01

13 ( scu)

xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxX

1.QE+02 X

N1

1.11L 0

0.00

T 0

0.00

G 0

0.00

ANALYTICAL VALUES

89

MAXIMUM « 1.OOOOOE+02 MINIMUM = 7.00000E+00 GEOMETRIC MEAN = 2.16549E+01 GEOMETRIC DEVIATION * 1.55463E+00

102

Page 105: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

FineTITLE

Fract i on of Seds

FREQUENCY TABLE FOR COLUMN 14 (

LIMITS LOWER - UPPER

1.8E+01 -2.6E+01 -3.8E+01 -5.6E-M31 -8.3E+01 -1.2E+02 -1.8E+02 -2.6E+02 -3.8E+02 -5.6E+02 -

2.6E+013.8E+015.6E+018.3E+011.2E*021.8E+022.6E*023.8E+025.6E*028.3E*02

FREQ

00006

25251913

2

FREQCUM

00006

3156758890

sla)

PERCENTFREQ0.000.000.000.006.67

27.7827.7821.1114.442.22

PERCENTFREQ CUM100.00100.00100.00100.00100.0093.3365.5637.7816.67

2.22

HISTOGRAM FOR COLUMN 14 ( Sla)

1.0E+02 XXXXXXX1.5E+02 XXXXXXXXXXXXXXXXXXXXXXXXXXXX2.0E+02 XXXXXXXXXXXXXXXXXXXXXXXXXXXX3.0E+02 XXXXXXXXXXXXXXXXXXXXX5.0E+02 XXXXXXXXXXXXXX7.0E+02 XX

N 0

0.00

L 0

0.00

T 0

0.00

G 0

0.00

ANALYTICAL VALUES

90

MAXIMUM = 7.00000E+02 MINIMUM * 1.OOOQOE+02 GEOMETRIC MEAN « 2 .25425E+02 GEOMETRIC DEVIATION » 1.62238E+00

103

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A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

Fi neTITLE

Fract ion of Seds

FREQUENCY TABLE FOR COLUMN 15 (

LIMITS LOWER - UPPER

5.6E+00 8.3E+00 1.2E+01 1.8E+01

8E+00 6E+00 3E+00 2E+01 8E+01 2.6E+01

FREQ

75641

FREQ CUM7

12 182223

SfflO)

PERCENT FREQ 7.78 5.56 6,67 4.44 1.11

PERCENTFREQ CUM

25.5617.7812.225.561.11

HISTOGRAM FOR COLUMN

OE+00 OE+00 OE + 01 5E+01

2.0E+01

XXXXXXXX XXXXXXxxxxxxx xxxxX

15 ( smo)

N65

72.22

L 2

2.22

T 0

0.00

G 0

0.00

ANALYTICAL VALUES

23

MAXIMUM * 2.OOOOOE+01 MINIMUM * 5.00000E+00 GEOMETRIC MEAN * 8.28744E+00 GEOMETRIC DEVIATION = 1.55803E+00

104

Page 107: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

TITLE Fine Fraction of Seds

FREQUENCY TABLE FOR COLUMN

LIMITSLOWER - UPPER

1.8E+01 - 2.6E+01 2.6E+01 - 3.8E+01

16 (

FREQ FREQ CUM

9 9 4 13

snb)

PERCENTFREQ

10.004*44

PERCENT FREQ CUM

1 4.44 4.44

HISTOGRAM FOR COLUMN 16 (

2.0E+01 XXXXXXXXXX 3.0E+01 XXXX

snb)

N62

68.89

L15

16.67

T 0

0.00

ANALYTICAL G VALUES 0 13

0.00

MAXIMUM * 3.00000E+Q1 MINIMUM = 2.00000E+Q1 GEOMETRIC MEAN * 2.26575E+01 GEOMETRIC DEVIATION s 1.21504E+QO

105

Page 108: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

FineTITLE Fraction of Seds

FREQUENCY TABLE FOR COLUMN 17 (

LIMLOWER -

3.8E+00 - 5.6E+00 - 8.3E+00 - 1.2E+01 - 1.8E+01 - 2.6E+01 - 3.8E+01 - 5.6E+01 - 8.3E+01 -

ITS UPPER

5.6E+00 8.3E+QO 1.2E+01 1.8E+01 2.6E+Q1 3.8E+01 5.6E+01 8.3E+Q1 1.2E+02

sni)

FREQ

63

14262513

10' 1

FREQCUM

69

23497487888889

PERCENTFREQ6.673.33

15.5628.8927.7814.44

1.110.00U11

PERCENTFREQ CUM

98.8992.2288.8973.3344.4416.67

2.221.111.11

HISTOGRAM FOR COLUMN 17 ( sni )

5.0E+QO 7.0E+00 1.0E+Q1 1.5E+01 2.QE+01 3.0E+Q1 5.QE+Q1 7.0E+01 1.0E+02

xxxxxxxXXXxxxxxxxxxxxxxxxxXXXXXXXXXXXXXXXXXXXXXXXXXXXXXxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxX

N 0

0.00

L1

1.11T 0

0.00

G 0

0.00

ANALYTICAL VALUES

89

MAXIMUM s 1 .OQOQOE+02 MINIMUM = 5.0QOOQE+QQ GEOMETRIC MEAN * 1.58222E+01 GEOMETRIC DEVIATION » 1.69304E+OQ

106

Page 109: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

FineTITLE Fract ion of Seds

FREQUENCY TABLE FOR COLUMN 18 (

LLOWER

8.3E+001.2E+011.8E+012.6E+013.8E+015.6E+018.3E+011.2E+021.8E+02

IMI---------—

TSUPPER

1.2E+011.8E+012.6E*013.8E*015.6E*018.3E+011 .2E+021.8E*022.6E>02

FREQ

004

113439

101

FREQCUM004

154988898990

spb)

PERCENTFREQ0.000.004.44

12.2237.7843.331.110.001.11

PERCENTFREQ CUM100.00100.00100.0095.5683.3345.56

2.221.111.11

HISTOGRAM FOR COLUMN 18 (

2.0E+01 3.0E+01 5.0E+01 7.0E+01 1.0E+02 1.5E*02 2.QE+02

spb)

XXXXxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX X

N 0

0.00

L 0

0.00

T 0

0.00

ANALYTICAL G VALUES 0 90

0.00

MAXIMUM = 2 .OOOOOE+02 MINIMUM a 2.OOOOOE+01 GEOMETRIC MEAN = 5.33981E+01 GEOMETRIC DEVIATION * 1.45807E+00

107

Page 110: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

TITLE Fine Fraction of Seds

FREQUENCY TABLE FOR COLUMN

LIMITSLOWER - UPPER

3.8E+00 - 5.6E+00 5.6E+00 - 8.3E+00 8.3E+00 - 1.2E+01 1.2E+01 - 1.8E+01

19 C ssc)

1.8E+01 - 2.6E+01

FREQ

179

491 1

3

FREQCUM1726758689

PERCENTFREQ

18.8910.0054.4412.223.33

PERCENTFREQ CUM

98.8980.007Q.OO15.56

3.33

HISTOGRAM FOR COLUMN 19 ( ssc)

5.0E+00 XXXXXXXXXXXXXXXXXXX7.0E+00 XXXXXXXXXX1.0E+01 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX1 .5E+01 XXXXXXXXXXXX2.0E+01 XXX

N1

1.11L 0

0.00

T 0

0.00

G 0

0*00

ANALYTICAL VALUES

89

MAXIMUM * 2.00000E+01 MINIMUM ^ 5.00000E+00 GEOMETRIC MEAN « 9.09383E+00 GEOMETRIC DEVIATION = 1.44131E+00

108

Page 111: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

Fi neTITLE Fract ion of Seds

FREQUENCY TABLE FOR COLUMN

LIMITS I LOWER - UPPER

2E+01 ,8E+01 6E + 01 .8E+01

5.6E+01 8.3E+01

20 (

8.3E+00 -1.2E+01 -1.8E*01 -2.6E*01 -3.8E+01 -

11235

5.6E+01 - 8.3E+01 -

ssn)

1.2E+02

REQ

12650301

FREQCUM12182323262627

PERCENTFREQ

13.336.675*560.003.330.001.11

PERCENTFREQ CUM

30.0016.6710.00

4.444.441.111.11

HISTOGRAM FOR COLUMN 20 (

1.OE+01 1.5E+01 2.0E+01 3.0E+01 5.0E+01 7.0E+01 1.0E+02 X

xxxxxxxxxxxxxxxxxxxxxxxxxx

XXX

ssn)

N 55

61.11

L8

8.89

T 0

0.00

G0

0.00

ANALYTICAL VALUES

27

MAXIMUM « 1.OOOOOE+02 MINIMUM » 1.OOOOOE+01 GEOMETRIC MEAN = 1.62024E+01 GEOMETRIC DEVIATION s 1.86926E+00

109

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A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

Fi neTITLE

Fracti on of Seds

FREQUENCY TABLE FOR COLUMN

LIMITSLOWER - UPPER

8.3E+01 - 1.2E+02 1.2E+02 - 1.8E+02 1.8E+02 - 2,

21 ( ssr)

2.6E+02 - 3.8E+02 -

6E+02 3.8E+02 5.6E+02

FREQ

331036

91

FREQCUM3343798889

PERCENTFREQ

36.6711.1140.0010.001.11

PERCENTFREQ CUM

98.8962.2251.1111.11

1.11

HISTOGRAM FOR COLUMN 21 < ssr)

1.OE+02 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX1.5E-I-02 XXXXXXXXXXX2.0E+02 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX3.0E+02 XXXXXXXXXX5.0E+02 X

N1

1.11L 0

0.00

T 0

0.00

G 0

0.00

ANALYTICAL VALUES

89

MAXIMUM » 5.OOOOOE+02 MINIMUM « 1.00000E+02 GEOMETRIC MEAN = 1 .57635E-M32 GEOMETRIC DEVIATION s 1.48925E+00

110

Page 113: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S 6 S STATPAC (01/23/78)

FineTITLE Fraction of Seds

FREQUENCY TABLE FOR COLUMN 22 ( Sth)

LIMITS FREQ FREQLOWER - UPPER CUM

8.3E+01 - 1.2E+02 8 81.2E+02 - 1.8E+02 6 141.8E+02 - 2.6E+02 2 16

PERCENTFREQ CUM

17.788.892.22

HISTOGRAM FOR COLUMN 22 (

1.0E+02 1.5E+02 2.0E+02

xxxxxxxxx xxxxxxxXX

sth)

N73

81.11

L 1

1.11

T 0

0.00

G 0

0.00

ANALYTICAL VALUES

16

MAXIMUM » 2.00000E+02 MINIMUM * 1.OOQCOE+02 GEOMETRIC MEAN * 1.26959E+02 GEOMETRIC DEVIATION * 1.3Q053E+00

111

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A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

TITLE Fine Fract ion of Seds

FREQUENCY TABLE FOR COLUMN 23 (

LIMLOWER -

8.3E+00 -1.2E+01 -1.8E+01 -2.6E+01 -3.8E+01 -5.6E+01 -8.3E+01 -1.2E+02 -

ITSUPPER

1.2E+011.8E+012.6E+013.8E+015.6E*018.3E*01U2E+021.8E*02

FREQ

00006

46326

FREQCUM00006

528490

sv)

PERCENTFREQ0*000.000.000.006.67

51.1135.566.67

PERCENTFREQ CUM100.00100.00100.00100.00100.0093.3342.226.67

HISTOGRAM FOR COLUMN 23 ( sv)

5.QE+01 XXXXXXX7.0E+01 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX1.OE>02 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX1.5E+02 XXXXXXX

N 0

0.00

L 0

0.00

T 0

0.00

G 0

0.00

ANALYTICAL VALUES

90

MAXIMUM * 1.50000E+02 MINIMUM » 5.OOOOOE+01 GEOMETRIC MEAN s 8.17521E+01 GEOMETRIC DEVIATION = 1.29836E+00

112

Page 115: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S 6 S STATPAC (01/23/78)

TITLE Fine Fraction of Seds

FREQUENCY TABLE FOR COLUMN 24 (

LIMITSLOWER - UPPER

8.3E+00 -1.2E+01 -1.8E+01 -2.6E+01 -3.8E+01 -5.6E+01 -8.3E+01 -1.2E+02 -1.8E+02 -2.6E+02 -

1.2E+011.8E+012.6E+013.8E+015.6E+018.3E+01U2E+021.8E+022.6E+023.8E*02

FREQ

90

150

182413641

FREQCUM99

2424426679858990

sy)

PERCENTFREQ

10.000.00

16.670.00

20.0026.6714.446*674.441.11

PERCENTFREQ CUM100.0090.0090.0073.3373.3353.3326.6712.22

5.561.11

HISTOGRAM FOR COLUMN 24 (

OE+01,5E + 01OE+OT,OE+01

sy)

OE + 01

,5E*02 ,OE + 02

3.0E*02

XXXXXXXXXX

xxxxxxxxxxxxxxxxx

xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxX

N 0

0.00

L 0

0.00

T 0

0.00

60

0.00

ANALYTICAL VALUES

90

MAXIMUM » 3.00000E+02 MINIMUM = 1.OOOOOE+Q1 GEOMETRIC MEAN * 5.15717E+01 GEOMETRIC DEVIATION » 2.31829E+00

113

Page 116: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470 GEOCHEMICAL SUMMARY - U S G S STATPAC (01/23/78)

FineTITLE Fract ion of Seds

FREQUENCY TABLE FOR COLUMN

LIMITSLOWER - UPPER

8.3E+00 - 1.2E+011.2E+01 - U8E+011.8E+01 -2.6E+01 -3.86+01 -5.6E+01 -8.3E+01 -1.2E+02 -1.8E+02 *2.6E+02 -3.8E+02 -5.6E+02 -8.3E+02 -

26 (

8.3E+01 1.2E+02

8.3E+02

szr)

REQ

000000201

13101620

FREQCUM

000000223

16264262

PERCENTFREQ0.000*000.000.000.000*002.220.001 .11

14*4411 .1117 .,7822.22

PERCENTFREQ CUM100.00100.00100.00100.00100.00100.00100.0097.7897.7896.6782.2271.1153.33

HISTOGRAM FOR COLUMN

1.0E+02 U5E + 02 2.0E+02 3.0E+02 5.0E+02 7.0E+02 1.0E+03

XX

26 ( szr)

xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxXXXXXXXXXXXXXXXXXXXXXX

N 0

0.00

L 0

0.00

ANALYTICALT G VALUES 0 28 62

0.00 31.11

MAXIMUM » 1.QOOOOE+03 MINIMUM » 1.OOQOOE+02 GEOMETRIC MEAN * 5.73T98E+02 GEOMETRIC DEVIATION » 1»76462E*00

114

Page 117: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

AA70

GEOCHEMICAL SUMMARY -

U S

G S

STATPAC (01/23/78)

DATE

1/16/80

TITLE

Fine

Fraction of

Se

ds

IN THE COMPUTATIONS PERFORMED TO PRODUCE THE FOLLOWING TABLE OF GEOMETRIC MEANS AND DEVIATIONS/ ALL ELEMENTS ARE IGNORED WHERE

ONE OR MORE OF THE UNQUALIFIED DATA VALUES IS

LESS THAN THE ANALYTICAL LIMIT OF DETECTION SPECIFIED ON INPUT OR WHERE ANY DATA

VALUES ARE QUALIFIED WITH THE

G (GREATER THAN) CODE.

DATA VALUES QUALIFIED WITH B

OR H

ARE NOT USED IN THE COMPUTATIONS.

WHERE

NONE OF

THE DATA VALUES FOR AN ELEMENT ARE QUALIFIED THE MEAN AND DEVIATION SHOULD BE TH

E SAME AS THOSE GIVEN IN

THE PRECEDING

SECTION.

WHERE DATA ARE QUALIFIED WITH THE CODES N/ I, OR T, THE ESTIMATES OF GEOMETRIC MEAN AND DEVIATION ARE BASED ON A

METHOD

BY A. J. COHEN FOR TREATING CENSORED DISTRIBUTIONS.

THE APPLICATION OF THIS METHOD TO GEOCHEMICAL PROBLEMS IS DESCRIBED IN

USGS PROFESSIONAL PAPER 574-8.

THE ESTIMATES ARE UNBIASED IN A

STRICT SENSE ONLY WHERE THE DATA ARE DERIVED FROM A

LOGNORMAL

PARENT POPULATION/ BUT EXPERIMENTS HAVE SHOWN THAT LARGE DEPARTURES FROM THIS REQUIREMENT MAY NOT GREATLY INVALIDATE THE RESULTS

ACCEPTANCE AND USE OF THE ESTIMATES/ HOWEVER/ IS

THE RESPONSIBILITY OF THE INDIVIDUAL.

ELEMENT

sfeX

smgX

scaX

stiX smn sb

sba

sbe

SCO

scr

scu

sla

smo

snb

sni

spb

ssc

ssn

ssr

sth sv

sy

szr

N 0 0 0 0 0 1 0 0 0 0 1 065 620 0 1

551

73 0 0 0

0 0 0 0 0 11 0 0 0 0 0 0 215

1 0 0 8 0 1 0 0 0

0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 028

ANALYTICAL

VALUES

90

9090

9090 78

90 9090

90 89 90 23 13 89 90 89 27 89 16 90

90 62

Page 118: Elwin Mosier, Steve Ludington, and R. A. Yeoman Open-File

A470

GEOCHEMICAL SUMMARY -

U S

6 S

STATPAC (01/23/78)

DATE

1/16/80

TITLE

EN

T

sfe

Xsm

gXscaX

stiX

smn

sb

sb

ash

eS

CO

scr

scu

sla

Sff

lO

sn

bsn

isp

bssc

ssn

ssr

sth sv sy

Sir

GE

OM

ET

RIC

G

EO

ME

TR

ICM

EA

N

DE

VIA

TIO

N

3.1

53799

1.4

00

.57

69

93

1

.48

0.6

44024

1.4

30

.40

04

38

1

.57

584.7

65671

1.4

114.0

906

18

1

.96

511.8

47130

1.3

01

.78

02

93

10

.31

96

25

77.9

72433

21.2

171

65

225.4

24795

1.8

33

99

722.6

58587

15.5

45038

53.3

98067

8.9

93

90

6

.34

.38

.75

.62

.62

.21

.22

.73

.46

.46

4.5

13

76

3

3.0

6156.2

040

52

1.5

042.2

77738

2.0

98

1.7

52

08

4

1.3

05

1.5

71

74

3

2.3

2********

******

REMARKS

90 SAMPLES AND

90 SAMPLES AND

90 SAMPLES AND

90 SAMPLES AND

90 SAMPLES AND

12 NOT DETECTED/

90 SAMPLES AND

90 SAMPLES AND

90 SAMPLES AND

90 SAMPLES AND

1 NOT DETECTED/

90 SAMPLES AND

67 NOT DETECTED/

77 NOT DETECTED/

1 NOT DETECTED/

90 SAMPLES AND

1 NOT DETECTED/

63 NOT DETECTED/

1 NOT DETECTED/

74 NOT DETECTED/

90 SAMPLES AND

90 SAMPLES AND

28 GREATER THAN

90 ANALYTICAL VALUES.

90 ANALYTICAL VALUES.

90 ANALYTICAL VALUES.

90 ANALYTICAL VALUES.

90 ANALYTICAL VALUES.

LESS THAN/ OR TRACE VALUES.

90 ANALYTICAL VALUES.

90 ANALYTICAL VALUES.

90 ANALYTICAL VALUES.

90 ANALYTICAL VALUES.

LESS THAN/ OR TRACE VALUES.

90 ANALYTICAL VALUES.

LESS THAN/ OR TRACE VALUES.

LESS THAN/ OR TRACE VALUES.

LESS THAN/ OR TRACE VALUES.

90 ANALYTICAL VALUES.

LESS THAN/ OR TRACE VALUES.

LESS THAN/ OR TRACE VALUES.

LESS THAN/ OR TRACE VALUES.

LESS THAN/ OR TRACE VALUES.

90 ANALYTICAL VALUES.

90 ANALYTICAL VALUES.

VALUES. NO COMPUTATIONS.

78 REPORTED VALUES.

89 REPORTED VALUES.

23 REPORTED VALUES.

13 REPORTED VALUES.

89 REPORTED VALUES.

89 REPORTED VALUES.

27 REPORTED VALUES*

89 REPORTED VALUES.

16 REPORTED VALUES.


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