SWRHL-37r
OFF-SITE SURVEILLANCE ACTIVITIES OF THE
SOUTHWESTERN RADIOLOGICAL HEALTH LABORATORY
from January through June 1966
by the
Southwestern Radiological Health Laboratory
U. S. Department of Health, Education, and Welfare
Public Health Service
Environmental Health Service
January 1970
This surveillance performed under a Memorandum of
Understanding (No. SF 54 373)
for the
U. S. ATOMIC ENERGY COMMISSION
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LEGAL NOTICE
This report was prepared as an account of Government sponsored
work. Neither the United States, nor the Atomic Energy Commission,
nor any person acting on behalf of the Commission:
A. makes any warranty or representation, expressed or implied,
with respect to the accuracy, completeness, or usefulness of the in-
formatiqn contained in this report, or that the use of any information,
apparatus, method, or process disclosed in this report may not in-
fringe privately owned rights; or
B. assumes any liabilities with respect to the use of, or for damages
resulting from the use of any information, apparatus, method, or pro-
cess disclosed in this report.
As use^ in the above, "person acting on behalf of the Commission"
includes any employee or contractor of the Commission, or employee
of such contractor, to the extent that such employee or contractor of
the Compiission, or employee of such contractor prepares, dissemin-
ates, or provides access to, any information pursuant to his employ-
ment or contract with the Commission, or his employment with such
contractpr-
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SWRHL-37r
OFF-SITE SURVEILLANCE ACTIVITIES OF THE
SOUTHWESTERN RADIOLOGICAL HEALTH LABORATORY
from January through June 1966
by the
Southwestern Radiological Health Laboratory
Department of Health, Education, and Welfare
Public Health Service
Consumer Protection and Environmental Health Service
Environmental Control Administration
Bureau of Radiological Health
January 1970
This surveillance performed under a Memorandum of
Understanding (No. SF 54 373)
for the
U. S. ATOMIC ENERGY COMMISSION
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ABSTRACT
The Southwestern Radiological Health Laboratory of the Public
Health Service performed off-site radiological surveillance for
twenty-nine announced events and nine reactor experiments during
the period from January through June 1966. This surveillance is con-
ducted in the public areas surrounding the Nevada Test Site under a
Memorandum of Understanding with the U. S. Atomic Energy Com-
mission.
During the six month period, three announced nuclear events and six
reactor experiments released radioactivity which was detected off-
site.
Analysis of all sampling and surveillance performed during the six
month period indicates that the safety criteria established by the
Atomic Energy Commission for the off-site population were not ex-
ceeded.
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TABLE OF CONTENTS
ABSTRACT i
TABLE OF CONTENTS ii
LIST OF TABLES iv
I. INTRODUCTION 1
II. OPERATIONAL PROCEDURES 3
A. Ground Monitoring 3
B. Exposure Rate Recorders 3
C. Aerial Cloud Tracking 4
D. Air Sampling 4
E. Milk and Water Sampling 4
F. Vegetation Sampling • 5
G. Film Badges 5
H. Community Relations 6
I. Medical and Veterinarian Services 6
J. Bioenvironmental Research 6
III. ANALYTICAL PROCEDURES 7
IV. RESULTS 11
A. Underground Tests 11
1. Red Hot 11
2. Pin Stripe 12
3. Double Play 21
B. Reactor Experiments 23
1. NRX-A4/EST 23
a. EP-IIB Test, February 3, 1966 23
b. EP-III Test, March 3, 1966 2<
c. EP-IV Test, March 16, 1966 2l>
d. EP-IVA Test, March 25, 1966 25
ij
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TABLE OF CONTENTS (continued)
2. NRX-A5 ' 31
a. EP-III, June 8, 1966 32
b. EP-IV, June 23, 1966 35
3. Six Months Summary • 40
V. CONCLUSIONS 42
APPENDIX
DISTRIBUTION
IJ.T
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LIST OF TABLES AND FIGURE
Table 1. Threshold detectability at time^of count of several 8
radionuclides in various samples (90% confidence
level).
Table 2.
Table 3.
Table 4.
Table 5.
Table 6.
Table 7.
Table 8.
Table 9.
Air sampling results for the Red Hot Event,
March 1966.
Air sampling stations with concentrations of 131I
in excess of 50 pCi/m3 on prefilters, Pin Stripe
Event, April 1966.
Milk samples containing maximum levels of 131I
from each location that showed fresh fission
products, Pin Stripe Event.
13
16
19
Number of people within a given range of computed 21
thyroid dose, Pin Stripe Event.
Air samples containing fresh fission products from 22
, the Double Play Event.
NRX-A4/EST test series data.
Analyses of air samples collected following
EP-IV, March 1966.
Analyses of air samples collected following
EP-IVA, March 1966.
Table 10. Analysis of milk samples collected following
EP-IVA.
Table 11. NRX-A5 experimental plans.
Table 12. NRX-A5, EP-TII air sample results, June 1966.
Table 13. NRX-A5, EP-IV gross beta air sample results,
June 1966.
Table 14. NRX-A5, EP-IV air sample results, June 1966.
23
26
28
30
31
33
37
38
IV
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LIST OF TABLES AND FIGURE (continued)
Table 15. NRX-A5, EP-IV milk results. 39
Table 16. Ten highest potable water sample results, Pin 40
Stripe Event.
Figure 1. Sampling and exposure rate recorder locations
around the Nevada Test Site.
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I. INTRODUCTION
During the period January through June 1966, twenty-nine announced
underground nuclear tests were conducted by the U. S. Atomic Energy
Commission at their Nevada Test Site as a part of Operation Flintlock.
In addition, five full-power and four low-power reactor experiments
were conducted at the Nuclear Rocket Development Station. The
U. S. Public Health Service carried out a program of radiological
surveillance of the public areas off-site for the Operational Safety
Division of the AEC's Nevada Operations Office under a Memorandum
of Understanding between the U. S. Atomic Energy Commission (AEC)
and the Public Health Service (PHS).
The Southwestern Radiological Health Laboratory (SWRHL) conducted
its program of radiological monitoring and environmental sampling
in the off-site areas surrounding the restricted area enclosed within
the Nevada Test Site and the Nellis Air Force Range. This overall
complex of >he Nevada Test Site (NTS) and the Nellis Air Force
Range includes the Nuclear Rocket Development Station (NRDS) and
the Tonopah Test Range (TTR) and for simplicity will be called the
test range complex throughout this report. Although routine sampling
and monitoring was done within a 300-mile radius around the test
range complex, surveillance was extended as necessary to provide
adequate coverage.
This report describes the methods and equipment used and sum-
marizes the data collected during the six month period.
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ARIZONA
CALIFORNIA
SAMPLINS AND EXPOSURE'RATE RECORDER LOCATIONS
AROUND THE NEVADA TEST SITE
• AIR SAMPLER/CHARCOAL CARTRIDGE
A OPEN WATER
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II. OPERATIONAL PROCEDURES
A. Ground Monitoring
Mobile monitoring teams were deployed in the off-site area before
each event to locations most likely to be affected by a release of
radioactive material. If a release did occur, the teams conducted
a ground monitoring program directed from Control Point head-
quarters on two-way radio communications. Ground monitoring
continued until activity levels became too low to necessitate further
monitoring.
Each monitor was equipped with an Eberline E-500B, a Precision
Model 111 Standard "Scintillator", and a Victoreen Radector
Model No. AGB-50B-SR. The Eberline E-500B has a range of
0 to 200 milliroentgens per hour (mR/hr) beta-gamma detection
in four scales with an external halogen filled GM tube and a 0 to
2000 mR/hr range gamma detection from an internal Anton 302 GM
tube. The Precision Model 111 Standard "Scintillator'' was used
primarily for low level detection since it provides a range of 0 to
5 mR/hr in six scales. The Radector has a range of 0. 05 to
50,000 mR/hr over two logarithmic scales. This instrument has
an inert gas ionization chamber as the detector. These instruments
are accurate to + 20% as calibrated with 137Cs, and readings can be
taken to two significant figures.
B. Exposure Rate Recorders
To supplement the ground monitoring program, Eberline RM-11
exposure rate recorders were utilized to document cloud passage at
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fixed locations, thereby allowing mobile monitoring teams to con-
tinue following any release of radioactivity as it moved through off-
site areas. These recorders have a Geiger tube detector and operate
on 110V AC. They have a 0. 01 to 100 mR/hr range and are accurate
to + 20%. Gamma exposure rate is recorded on a 30-hour strip chart.
C. Aerial Cloud Tracking
An Air Force U3-A aircraft with pilot and two Public Health Service
monitors equipped with portable instruments identical to those of
the ground monitors, tracked the airborne radioactivity to aid in
positioning ground monitors. Public Health Service cloud sampling
aircraft were also used as aids in cloud tracking. However, their
primary purpose was cloud sampling in order to determine cloud size
and inventory. The results of their sampling are reported separately.
D. Air Sampling
During this six-month period the SWRHL Air Surveillance Network
consisted of 106 stations operating in every state west of the
Mississippi except Montana and North Dakota. The air sampler used
i
in the Air Surveillance Network is a Gelman "Tempest" which consists
of a Gast Model 1550 vacuum pump driven by a General Electric
1/2 horsepower motor. The pump runs at 1440 rpm with an average
flow rate of approximately 10 cfm. The sampler is equipped to use a
4 -inch diameter Whatman 541 filter paper and an MSA charcoal cartridge.
The total volume of air sampled is calculated from the total sampling
time and an average of vacuum readings taken at the beginning and the
end of the sampling period.
E. Milk and Water Sampling
The previously established milk sampling program from both
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commercial dairies and private producers continued throughout the
six-month period. About 20 sources were routinely sampled during
this period, generally on a monthly basis. A total of 135 samples
was collected from these locations. In the event of cloud passage
over a specific area, intensified sampling within the area was con-
ducted to document changes in activity.
Water samples were collected on a routine basis, unless circum-
stances dictated special source sampling. Both potable and non-
potable water supplies were sampled. During this period 358 water
samples were collected from 76 sources. Most of these sources
were sampled on a monthly basis.
F. Vegetation Sampling
Normally, vegetation samples were collected only in the event of a
release of radioactive material. The analytical results of these
samples were used to delineate the fallout pattern.
G. Film Badges
Approximately 150 residents in the off-site area wore film badges
throughout this period. These film badges were changed each month
and were processed by the Radiological Sciences Department of
Reynolds Electrical and Engineering Company, Inc. Approximately
1900 station badges were also utilized to provide more complete
coverage. The badge used is made of Du Pont type 555 film. Dose,
as determined from this film, is accurate to + 50% in the 30 to
100 mR range and + 10% in the 100 to 2000 mR range. In addition,
approximately 20 stations were each equipped with three EG&G
Model TL-12 Thermoluminescent Dosimeters (TL.D). The TLD's
have a low energy response cutoff at 50 keV and are not energy
dependent in the range from 50 keV to several MeV. According to
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past TLD data, a reading of lOmR above the previous month's back-
ground constitutes a detectable exposure.
H. Community Relations
Frequent contacts with the off-site population, schools and civic
groups provided the opportunity to explain the role of the Public
Health Service with respect to the programs of the Atomic Energy
Commission. As a result of favorable community relations, a
number of off-site residents took part in the environmental sampling
program; all routine air sampling stations except Las Vegas were
operated by local citizens, and many people volunteered to wear
film badges.
I. Medical and Veterinarian Services
A Public Health Service medical officer was available in the event
any cases of a medical nature arose as a result of the test series.
No such cases were brought to the attention of the PHS. Veterinarian
services were also provided. Public Health Service veterinarians
maintained liaison with livestock producers in the area and the
program of wildlife and cattle investigation was continued. Semi*-
annual slaughter of cattle from the NTS herd and the Knoll Creek
and Delamar Valley herds was accomplished in cooperation with the
University of Nevada. Specimens from these animals were analyzed
for radionuclide content.
J. Bioenvironmental Research
Another program of the Southwestern Radiological Health Laboratory
is bioenvironmental research. The mission of this program, in
part, is to investigate the inter-relationships among the levels of
radionuclide contamination of air, soil, water, vegetation and milk.
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in. ANALYTICAL PROCEDURES
All environmental samples collected by the PHS were returned to
the Southwestern Radiological Health Laboratory in Las Vegas for
radiological analyses. The methods used in analyzing these
samples are briefly described below.
Air sample prefilters were counted for gross beta activity in a
Beckman "Wide Beta" low background (6 + 1 cpm beta) proportional
system which has an efficiency of approximately 45% for 0. 54
MeV betas. After an initial count, if no significant activity was
detected, the prefilters were counted at 5 and 12 days after col-
lection. In all other cases, prefilters were recounted a minimum
of three times in the first 48 hours folio-wing collection. The compu-
tational procedure employed depends upon the assumption that a
decay constant can be determined for each individual sample and
that this constant can then be used to extrapolate the activity to the
end of the collection period.
Selected prefilters and all charcoal cartridges were analyzed for
gamma isotopes by placing them directly on a 4- by 4-inch Nal(Tl)
crystal coupled to a TMC Model 404C gamma pulse height analyzer
viewing energies from 0 to 2 MeV.
Detection capability of the system as shown in Table 1 is an empiri-
cal estimate obtained from previous data collected under the follow-
ing conditions:
a. Count time in days after fissioning as indicated by footnotes.
b. Prefilters collect unfractionated fission products resulting
in a complex spectrum.
c. MSA charcoal collects gaseous fission products only
(primarily iodines).
7
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d. Analysis is performed using an eight isotope matrix. If
isotopes are present in the sample, their relative proposition
is small compared to those eight.
e. Natural activity on air samples is approximately five times
system background.
Table 1. Threshold detectability at time of count of several radionu-
clides in various samples (95% confidence level).
Sample Type
Whatman No. 541
(pCi)
MSA Charcoal
(pCi)
3. 5 liter water*
(pCi/1)
3. 5 liter milk*
(pCi/1)
Ulj
500
200
200
100
20
20
132Te-I
1000
. __
400
--
40-50
133l
500
200
200
100
20-30
20-30
135l
1000
--
400
--
40-5
140Ba-La
500
200
200
100
3 20
20
Length
of Count
10 min.
10 min.
10 min.
10 min.
40 min.
40 min.
Notes
1
2
1
2
4
3
''-Counted in 3. 5 liter inverted well (Marinelli) aluminum beakers.
1 - counted at less than 3 days after formation.
2 - counted at 3 days or more after formation.
3 - with l37Cs < 100 pCi/1.
4 - assuming insignificant amounts of other nuclides, and all given
isotopes at about detection limits to approximately 10 times the
lower limit.
Although the minimum detectable levels for water samples involve the
limitations listed in (d) above, the situation is usually simplified by
having no background other than that of the system. For a sample con-
taining all of the isotopes of iodine, the error term on threshold values
at the 95% confidence level is approximately equal to + 50%.
Biological discrimination will limit the number of isotopes present
in a milk sample to relatively few. Under normal sampling proce-
dures, this discrimination coupled with the short physical half-life
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will tend to eliminate 132I and 13*I from the sample by the time it
is counted. At the 95% confidence level reported values for milk
are +10 pCi/1 or 10% at the time of count whichever is greater for
a 40-minute count.
After any release of activity from the NTS, milk samples are col-
lected from dairies (processing plants), producing dairy farms,
and farms producing milk for their own consumption. Each sample
is counted for 40 minutes. No attempt is made to recount samples
having low positive values. The lower limit of detection for gamma
emitters in milk samples is 20 picocuries per liter (pCi/1) at the
time of count, and all results below that value are reported
as <20 pCi/1.
All liquid samples are counted in 3. 5 liter inverted well aluminum
beakers which are placed on top of a 4- by 4-inch Nal(Tl) crystal
coupled to a 400-channel gamma pulse height analyzer. Overall
detection efficiency for the 0. 364 MeV photopeak of 131I is 6.4%. A •
matrix technique is employed to compute the interference due to the
presence of other isotopes. The input to this matrix is variable,
allowing for the simultaneous determination of any eight nuclides
for which detection efficiencies and interference factors have been
obtained. Actual computation is performed by an IBM 1620 computer.
After gamma analysis of milk samples was completed, certain
samples were analyzed for strontium-89 and-90. After addition of
strontium carrier, milk proteins are removed by trichloroacetic
acid precipitation. Following several purification steps, the purified
strontium is stored for at least one week to allow for ingrowth of
yttrium-90. Strontium and yttrium are separated by nitric acid
precipitation and both fractions are counted in a low-background beta
counter. The strontium-89 activity is the calculated difference
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between the total strontium activity and the strontium-90 (as
yttrium-90 activity).
Water samples are analyzed for gross beta activity by slowly evapo-
rating an aliquot to dryness in a 2-inch diameter stainless steel planchet
and counting the beta activity in a low background counter.
10
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IV. RESULTS
A. Underground Tests
Three of the twenty-nine announced underground nuclea^r tests
resulted in releases of radioactive effluent which was detected in
off-site populated areas. These were the Red Hot Event, con-
ducted on March 5; the Pin Stripe Event, conducted on April 25;
and the Double Play Event, conducted on June 15.
1. Red Hot
The Red Hot Event was conducted at the Nevada Test Site
on March 5, 1966 at 1015 hours PST. Venting occurred
shortly after detonation and seepage continued for
several hours. Wind's on shot day were light and variable,
moving the radioactive effluent very slowly to the north-
northeast. By the time the cloud had penetrated into the
off-site populated areas, it was diffused over a large
area, and most of the very short-lived isotopes were not
detected.
Small, but detectable, amounts of radioiodines were found
on filters collected, at thirteen off-site air sampling stations.
These stations are located both north and south of the test
range complex. Since radioiodines were found on filters
as late as March 7, 1966, and since a wide area was af-
fected, it is assumed that seepage of gaseous fission pro-
ducts continued for some time after the event and that
wind directions during this time varied considerably. The
11
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maximum activity on a filter medium was found at Lathrop
Wells, Nevada. Table 2 shows the activity at each station
where fresh fission products were detected.
Six milk samples and three water samples collected following
this event contained no fresh fission products. Film badges
and TLD's did not indicate exposures that could be attributed
to the Red Hot Event. Twenty-seven vegetation samples were
collected off-site following this event. Only one sample,
collected at Battle Mountain, Nevada, on March 7, showed
the presence of fresh fission products (131I and 133I). Ground
monitoring personnel were unable to detect any gamma exposure
rates above background.
2. Pin Stripe
The Pin Stripe Event was detonated at 1138 hours PDT on
April 25, 1966, at the Nevada Test Site. Radioactive
effluent was accidently released. A cloud rise of about
5500 feet occurred within 9 minutes after H-hour, and by
H + 1 hour, the cloud had risen to about 10, 500 feet mean sea
level. Southwesterly winds carried the radioactive effluent
northeast into the off-site area. Seepage of gaseous effluent
continued for several days following this event. The wind dir-
ection shifted approximately 180° by April 27 and small amounts
(less than 10 pCi/m3) of fresh fission products were found on
air sampling filters as far south as Indio, California. By
May 4 all air sampling filters were at background levels.
Pin Stripe effluent •was first detected off-site by ground
monitors, just northeast of NTS at 1355 hours and at
Highway 25, 6. 5 miles W of Hancock Summit at 1435.
By 1630 hours, gamma exposure rates above background
were detected from Coyote Summit on Highway 25
12
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Table 2. Air sampling results for the Red Hot Event. March 1966.,
Location
Battle Mtn. , Nev.
Beatty, Nev.
Beatty, Nev.
18 mi W of Clark
Stn on US6(unpop. )
Clark Station, Nev.
Goldfield, Nev.
Elko, Nev.
Lathrop Wells, Nev.
Lathro'p Wells, Nev.
Pahrump, Nev.
Scotty's Jet. , Nev.
Scotty's Jet. , Nev.
Tonopah, Nev.
Tonopah, Nev.
Death Valley Jet. ,
Cal.
Death Valley Jet. ,
Cal.
Twin Falls, Idaho
Worland, Wyoming
Sampling
Start
Day Hr
06 1635
05 0748
06 0810
05 2055
06 0730
05 0800
06 1927
05 0635
06 1130
06 1001
05 1700
06 1105
05 1700
06 0830
05 0700
06 0700
06*0900
06 2110
Period
Stop
Day Hr
07
06
07
06
07
06
07
06
07
07
06
07
06
07
06
07
07
07
0645
0805
0810
0810
0730
0800
0645
1130
1255
1000
1105
1700
0830
1540
0700
0645
0830
1745
Collection
Total Sample Col-
Time Volume lector
(Hr) (m3)
14. 2
2'4. 3
24.0
11.25
24. 0
24.0
11.3
28.9
25.4
24.0
18. 2
29.8
15.5
31. 17
24.0
23.8
23. 5 PF
9.5 CC
20.6
318
318
478
478
474
474
152
152
476
476
472
472
217
217
595
595
513
513
472
480
354
354
573
573
289
289
566
566
485
485
479
479
451
265
410
410
P
C
P
C
P
C
P
C
P
C
P
C
P
C
P
C
P
C
P
P
C
P
C
P
C
C
P
C
C
P
C
P
C
Beta
Activity
(PCi/m3)
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
055
31
096
41
17
088
69
059
049
065
066
11
15
11
07
11
11
088
Beta
Exposure 131I
(pCi-hr/m3) pCi/m3 pCi-hr/m3
0.8
7.5
2. 3
4.6
4. 1
2. 1
7.8
1.7
1.2
1.6
1.2
3.3
2.3
3.4
1.7
2.6
2.6
1.8
ND
0.56
ND
1.93
0.46
3.74
1.25
6.22
ND
1.02
ND
0.96
ND
ND
ND
18.5
ND
1. 33
1.4
NO
0.53
2.63
ND
0.81
ND
8.44
NO
1.94
ND
ND
NO
2.18
ND
0.88
ND
0.41
ND
8.0
ND
47
11
90
14
70
ND
24
ND
23
ND
ND
ND
540
ND
34
34
CHARCOAL,
9.6
48
ND
24
ND
130
Results
133I
pCi/m3 pCi-hr/m3 pCi/m3
ND
0.9
ND
15.0
ND
15.0
ND
31.4
ND
5.37
ND
3. 5
ND
3.59
0. 31
80.8
ND
3.64
ND
13
ND
360
ND
360
ND
350
ND
130
ND
84
ND
41
0.31
2300
ND
92
6.4 150
CAR TRIDGE
ND
9.75
ND
3.7
0.64
36.8
GAMMA SCAN
60 8.79
ND
ND
GAMMA SC
52
ND
8.4
ND
8.4
ND
0.52
AN
11.8
ND
ND
ND
ND
ND
180
ND
110
9.9
570
270
ND
12
280
ND
ND
ND
ND
ND
0.74
ND
6.95
ND
3.67
ND
79.5
ND
ND
ND
3.0
ND
1.68
ND
50.9
ND
0.79
ND
ND
6.74
ND
ND
ND
29.4
ND
ND
ND
ND
ND
ND
ND
ND
H5l
pCi-hr/m3
ND
11
ND
170
ND
88
ND
890
ND
ND
ND
72
ND
19
ND
1500
ND
20
ND
ND
120
ND
ND
ND
460
ND
ND
ND
ND
ND
ND
ND
ND
P - Prefilter
C - Charcoal cartridge
*Charcoal cartridge on 3/06-2300 off 3/07-0830.
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to Alamo, Nevada. Cloud arrival at various locations
indicate the cloud was moving at about 15-17 miles
per hour. The furthest north th^t effluent was detected
by a ground monitor was at Pioche, 112 miles north-
east of ground zero. The cloud reached this location
at about 1800 hours. Gamma exposure rates along Highway 25
ranged from 0. 07 to 6.0 mR/hr with the majority of
the readings around 1. 0 mR/hr. The maximum reading
at a populated area was 1. 5 mR/hr at Hiko at 1600 hours
PDT.
RM-11 recorder charts collected after the Pin Stripe
Event showed gamma exposure rates above background at Alamo,
Caliente and Pioche. Only one film badge collected
after the Pin Stripe Event showed an exposure above
the detection limit. This badge was taken from a
film badge station at Hancock Summit, an unpopulated
location on Highway 25. This badge showed a total
exposure of 30 mR and was exposed from March 31 to
May 10; however, this exposure is questionable because thermo-
luminescent dosimeters from Hancock Summit showed no detect-
able exposures above normal background levels, nor did TLD's
from any other location show net exposures above background.
No personnel badges showed exposures above the detection
limit.
Nineteen permanent air sampling stations and five tem-
porary portable stations in the off-site area showed
detectable amounts of fresh fission products (primarily
radioiodines) on prefilters, cartridges, or both. The
area in which fresh fission products were found by air
14
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sampling extended to Indio, California on the south,
Ridgecrest, California on the west, Salt Lake City, Utah to
the northeast, and Denver, Colorado to the east.
Wind direction on the day of the event was from the south-
west; therefore, the highest concentrations were found to the
northeast of ground zero. Comparison of radioiodine con-
centration on prefilters and charcoal cartridges suggests
that the radioiodines were mostly particulate.
o
Wind direction changed approximately 180 late on April 26
or early on April 27. Seepage of gaseous material from
surface zero continued for several days. This material was
carried to the south and was detected by air samplers as far
south as Indio, California. A small amount (0. 5 pCi/m3) of
131 I was detected on a charcoal cartridge collected at Alamo,
Nevada as late as May 3. Examination of air filters was
limited to gamma pulse height analysis and gross beta count-
ing. It is not possible, therefore, to definitely determine
whether such a small amount of radioiodine was gaseous
material from continuing seepage or resuspension of par-
ticulate material deposited earlier. By May 4 no stations
showed detectable amounts of fresh fission products.
1 3 1
Table 3 lists eight stations where concentrations of I were
in excess of 50 pCi/m3 . Filter results from all other stations,
where gamma pulse height analysis was done on filters, were
below 10 pCi/m3 I3ll.
A total of 187 water samples was collected for the Pin
Stripe surveillance. Two samples from one domestic tap
showed measurable concentrations of 131I.
15
-------�
Table 3. Air sampling stations with concentrations of 131I in excess of 50 pCi/m3 on prefilters. Pin Stripe Event, April 1966.
Location
6. 5 mi W Hancock
Summit
18 mi NE Groom
Lake
Hancock Summit
Ash Springs ,
Nevada
Hiko-
C rystal Springs
Hiko, Nevada
Pioche, Nevada
Alamo, Nevada
Sampling Period Total
Start Stop Time
Day Hr Day Hr (Hr)
25
25
25
25
25
25
25
25
1413
1400
1435
1430
1430
0810
1525
0730
25
25
25
25
25
.25
25
26
1700 2.8
1535 1.6
1745 3.1
1755 3.4
1810 3.7
1800 10.9
1925 3.9
0725 23.8
Collection
Sample Col-
(m3)
26
32
32
35
35
226
81
407
P
C
P
C
P
C
P
C
P
C
P
C
P
C
P
C
Beta
(pCi/m3)
50,000
. 45,000
34,000
25,000
21,000
3,500
2,200
710
Beta
Exposure
(pCi-hr/m3)
140,000
72,000
110,000
85,000
78,000
38,000
9,000
17,000
131 j 13Z
pCi/m3 pCi-hr/m3 pCi/m3
3,500
150
5, 100
290
2,600
170
5, 300
130
1, 600
400
510
39
1, 100
53
57
19
9,700
420
8, 200
460
8, 100
530
18.000
430
5,900
1,500
5,600
430
4,300
210
1,400
450
12,000
1, 200
38,000
2,600
8,900
1,500
18,000
950
6,800
1,200
1,900
330
200
40
140
86
Results
I 133I
pCi-hr/m3 pCi/m3 pCi-hr/m3
34,000
3,400
61,000
4,200
28,000
4,600
61,000
3,200
25,000
4,400
21,000
3,600
800
160
3,300
2,000
4, 100
500
12,000
880
3,000
660
5,600
290
1,900
800
650
150
350
250
110
75
11,000
1,400
19,000
1,400
9,300
2,000
19,000
990
7,000
3,000
7, 100
1,600
1,400
970
2,600
1,800
135I
pCi/m3 pCi-hr/m3
19,000
7,800
78,000
16,000
17,000
10,000
32,000
6,300
10,000
7,000
3,600
1,700
ND
600
220
/ 100
53,000
22,000
120,000
26,000
53,000
31,000
110,000
21,000
37,000
26,000
39,000
19,000
ND
2,300
5,200
2,400
P - Whatman 541 Filter (prefilter)
C - MSA Charcoal cartridge
Gross beta and radionuclide data extrapolated to end of collection period
pCi-Hr was computed using the actual sampling time, which in some cases will differ from the total time
In3 between time on and time off, which may be only approximate.
-------�
These samples were taken from a domestic dwelling,
the Davis Ranch at Hiko. The 131I was due to the
completely open supply from which the domestic water
is taken.
Five hundred and seventy-one vegetation samples from
123 locations were collected and analyzed for gamma
emitting isotopes. Of these, fresh fission products were
found at 95 separate locations.
Six hundred and fifty-five milk samples from 80 separate
dairies, processing plants, or individual ranches, were
collected for the Pin Stripe Event. All milk samples
were analyzed for gamma emitting isotopes and selected
samples were analyzed for 89Sr and 90Sr. Of the
650 samples with complete gamma information, 187
contained detectable amounts of 131I. The maximum con-
centration of 131I was found in a sample from the Schofield
Dairy at Hiko, Nevada. This sample had a concentration
of 4800 pCi/1 and was collected April 27, 1966. Four
other locations had peak 131I concentrations above 1000 pCi/1.
These were the L. Lee Dairy at Alamo (1400 pCi/1); the
Sharp Ranch at Alamo (2100 pCi/1); the Davis Ranch at Hiko
(3500 pCi/1); and the Donahue Ranch at Ursine (1100 pCi/1).
By the second day after the event, several factors had
modified the normal disposition of milk from the five
locations mentioned above. All the milk being produced
by family cows at the Davis, Donahue, and Sharp Ranches
was taken for sampling purposes. Uncontaminated milk
and dairy products were substituted in lieu of cash pay-
ments. At the Schofield Dairy at Hiko, stored hay from
17
-------�
Utah was purchased by the Government and substituted
for the green chop being fed at that time.
Milk from the L. Lee Dairy and the Schofield Dairy was
diluted with uncontaminated milk from dairies outside
the affected areas. Sampling of milk from the tank truck
at the processing plant showed a maximum of 100 pCi/1
131 I. Milk collected at the retail outlets from this pro-
cessing plant showed no detectable radioiodines. Table 4
lists milk samples with the highest 3 I concentrations
from each location sampled. Appendix A lists the results
of all milk samples collected for this event.
The decision to substitute dry hay was prompted by vege- .
tation sampling of green alfalfa feed from the Schofield
Dairy. By 0300 on the morning of April 26, results from
gamma analysis of these samples indicated the possibility
of l31 I levels in milk reaching 5 x 104 pCi/1. AEC-PHS
officials decided to substitute dry hay to keep radioiodine
levels as low as possible, and to provide experimental
information under actual field conditions for future
planning purposes.
The Pin Stripe Event provided the first opportunity to
use the SWRHLi thyroid dose assessment trailer under actual
field conditions. The trailer is a commercially available
travel trailer equipped with a 5-inch by 2-inch Nal crystal
detector, multi-channel analyzer and proper shadow
shielding. The trailer along with a pick-up and generator make
up a completely self contained unit and it is possible to deter-
mine actual thyroid doses in the field. Based on inform-
ation derived from aircraft measurements and reported
18
-------�
Table 4.
Milk samples containing maximum levels of 131I from each location that showed fresh fission
products, Pin Stripe Event.
Collection Data
Location
Alamo, Nevada
Wright Dairy
Leo Stewart Dairy
M. K. Stewart Dairy
Sharp Ranch
L. Lee Dairy
Frehner Dairy
Caliente, Nevada
Young Ranch
Charlton Ranch
Raymond Ranch
Tennille Ranch
Hiko, Nevada
Davis Ranch
Schofield Dairy
Las Vegas, Nevada
Anderson Dairy #4
(Milk from Alamo)
Panaca, Nevada
E. Deck Ranch
K. Lee Ranch
Date of
Milking
4-26-66
4-27-66
4-28-66
4-28-66
4-28-66
5-09-66
5-10-66
4-27-66
4-28-66
4-30-66
4-28-66
4-30-66
5-01-66
4-27-66
4-27-66
5-16-66
5-19-66
4-27-66
4-30-66
Analytical Data
Activity (pCi/1)
131j I33j 137Cs
-L .L N^r O
50
270
590
2100
1400
60
60
30
30
30
130
100
50
3500
4800
100
100
70
170
330
850
770
5100
1800
ND
ND
90
70
ND
ND
500
ND
7800
12,000
ND
ND
220
60
45
45
ND
ND
ND
20
25
30
30
15
85
ND
45
ND
ND
15
20
60
40
89:Sr 90Sr
ND* 3
ND
ND
5
ND
NO
ND
NO
NO
ND
NO
ND
ND
15
10
ND
ND
NO
ND
6
4
3
6
CHEMISTRY
2
CHEMISTRY
CHEMISTRY
4
CHEMISTRY
10
3
4
3
5
5
CHEMISTRY
8
-------�
Table 4. Milk samples containing maximum levels of 131I from each location that showed fresh fission
products, Pin Stripe Event (continued)
Collection Data
Location
Pioche, Nevada
Delmue Ranch
Ursine, Nevada
Donahue Ranch
Fredonia, Arizona
Button Ranch
Mt. Trumbull, Arizona
O. Bundy Ranch
Spanish Fork, Utah
Town Pride Dairy
Idaho Falls, Idaho
Wallace Dairy
Analytical Data
Date of Activity (pCi/1)
Milking 131I 133I 137Cs 89Sr 90Sr
4-27-66 30 ND 60 NO CHEMISTRY
4-28-66 1100 1200 45 ND 15
5-02-66 70 ND 45 ND 10
5-02-66 20 ND 35 ND 6
4-28-66 60 ND 85 ND 10
4-29-66 70 ND 30 ND 10
*ND = Not Detected. Minimum detectable levels are: 8'Sr, 5 pCi/l;*"!, 20 pCi/1; 137Cs, 10 pCi/1.
Note: The strontium results listed are, for the most part, composites of 3 or 4 days samples. Compositing
was necessary because of the large num.ber of samples processed following this event.
-------�
iodine measurements in some milk samples, the thyroid
analysis trailer was moved to the Alamo area. The first
measurements were made, 50 hours following the venting.at
a ranch 15 miles north of Alamo; however, high backgrounds
and extremely low thyroid burdens necessitated moving the
thyroid trailer into the town of Alamo for most of the measure-
ments. A summary of all the information obtained is shown
in Table 5. The information in the table represents the maxi-
mum upper limits of possible thyroid doses.
Table 5. Number of people within a given range of computed thyroid
dose, Pin Stripe Event.
Location
Alamo
Hiko
Ursine
Pioche
Panaca
Back-
ground
10
5
4
1
5
Bkg-50 mrad
17
19
1
0
0
50-150 mrad
6 -
8
0
0
0
150-300 mrad
0
2
0
0
0
Total
33
34
5
1
5
Male children - 37
Female children - 33
Female adults - 8
3. Double Play
The Double Play Event was conducted at 1000 hours PDT on
June 15, 1966. Following detonation, a venting occurred forming
a radioactive effluent which moved in a northerly direction.
Twenty-three air samples, one water sample, four milk samples,
and eighteen vegetation samples were collected for this event.
Ground monitors in the off-site area detected no radiation levels
above normal background. The only positive identification of
radioactivity in an off-site populated location was on two air
filters collected at Hiko and Alamo, Nevada. (See Table 6.)
21
-------�
Table 6. Air samples containing fresh fission products from the Double Play Event.
Location Air Date
(Nevada) Volume Time
(m3) On
Alamo 414
Hiko 242
1966
6/15
0710
6/15
1720
Date Gross Beta Activity
Time Prefilter at End of Col-
Off Collection lector ^
1966 c'/m3
$£ -•«
S£ «•«
\ /P \ / _/- i / __ 3 \
) ( -3 — ) (p<^.i/m )
. . n P ND
14'° C 0.87
.n n P ND
10'° C 1.9
Radionuclide Analysis
Activity at end of collection
L j 133j 135 j
,pCi-hrx
( m3
ND
18.97
ND
22.8
s -
(pCi/m3)|
ND
0.57
ND
1.2
, pCP-hr,
l- m3 ''
ND
12.43
ND
14.4
(pCi/m3}
ND
2.2
ND
5.6
,pCi-hi;
( m3 ^
ND
47.96
ND
67.2
ND - not detectable
P - prefilter
C - charcoal cartridge
-------�
B. Reactor Experiments
1. NRX-A4/EST
The NRX-A4/EST reactor run consisted of a series of experi-
mental plans (EP's) conducted at Test Cell A, NRDS. The
following Table 7 lists the operating times and integral powers
of each of the experiments.
Table 7. NRX-A4/EST test series data.
IP ' * Date
Experiment ^^
EP-IIB
EP-IIC
EP-III
EP-IV
EP-IVA
2/03
2/11
3/03
3/16
3/25
Time of
Operation
PST
1116-1123
1459-1510
1220-1230
1422-1443
1310-1316
1550-1605
1004-1020
0933-0948
Mw-sec
3.9 x
4.3 x
8.7 x
1.0 x
105
105
105
106
1.05 x 106
Radiation
Detectable
Off -Site
Yes
No
Yes
Yes
Yes
a. EP-IIB Test, February 3, 1966
Due to the wind shear which existed on the test day, environ-
mental samples, e.g. vegetation, air and milk were obtained
from an azimuth of 270° to 45°. There were no detectable
exposure rates in the off-site area measured by ground
monitors nor were there detectable exposure rates in the
off-site area measured by remote exposure rate recorders.
Film badges and TLD's exposed during February indicated
no exposures above the detection limit (30 mR and 10 mR
respectively) that could be attributed to EP-IIB effluent.
23
-------�
The air sampler prefilters obtained from Twin Springs
Ranch, Diablo and Hiko, Nevada, contained less than
0. 2 pCi/m3 133I. These were the only air samples that
contained fresh fission products.
Milk was sampled at four different locations following
EP-IIB. None of the samples contained radioiodine.
Vegetation samples collected following EP-IIB contained
no activity above background levels.
b. EP-m Test, March 3, 1966
As a result of aerial cloud tracking, ground monitoring
was performed for this test along the eastern side of the
Amargosa Valley along a hot line of 160°. A monitor on
Highway 95 located 17 miles ESE of Lathrop Wells, meas-
ured intensities of less than 0.01 mR/hr above background
during the interval of 1505 to 1540 hours PST. Gamma ex-
posure rates above background were not measured at other
monitored locations. No increase in radioactivity above
background was indicated on any of the exposure rate re-
corders.
Film badges and TLD's exposed during March indicated no
exposures above the detection limit (30 mR and 10 mR respet
tively) that could be attributed to EP-III effluent.
Air samples from two locations contained 133I on the pre-
filters and cartridges. A sampler located at the Ash
Meadows road and Highway 95 (unpopulated) contained
2. 2 pCi/m3 133I on the prefilter and 2. 0 pCi/m3 on the
charcoal cartridge. The other sampler contained 0.57 and
0. 79 pCi/m3 133I on the filter and cartridge, respectively.
This sampler was located at Pahrump.
24
-------�
Milk and feed samples were obtained from two locations
following the EP-III test. The samples indicated no radio-
activity above background levels.
c. EP-IV Test, March 16, 1966
Highway 93 was monitored between Glendale and Alamo during
the approximate time of cloud passage. Levels of less than
0. 03 mR/hr above background were detected from 36 miles
NE of Glendale to Alamo.
Gamma exposure rate recorders at Warm Springs Ranch,
Caliente, Alamo, Pioche and St. George did not indicate an
exposure on March 16 or 17 above the local background levels
(<0.02 mR/hr).
Film badges and TLD's exposed during March indicated no
exposures above the detection limit (30 mR and 10 mR respec-
tively) that could be attributed to EP-IV effluent.
Air samples containing radioiodines were obtained from
Alamo, Butler Ranch turnoff and Highway 93, Warm Springs
Ranch, Glendale and Caliente, Nevada, and Cedar City and
Parowan, Utah. Table 8 presents the results of air filter
analyses.
Milk and feed samples were obtained in the area of the effluent
path on March 17. All results were negative. At all sampled
locations the cows were not yet on pasture.
d. EP-IVA Test, March 25, 1966
Monitors located on Highway 95 detected EP-IVA cloud pas-
sage with survey instruments. Monitoring was performed
along highways in a south-southwesterly quadrant from the
25
-------�
Table 8. Analyses of air samples collected following EP-IV, March 1966.
tSJ
Collection
Sampling Period Total Sample Col- Beta Beta
Start Stop Time Volume lector Activity Exposure
Day Hr Day Hr (Hr) (m3) (pCi/m3) (pCi-hr/m
Alamo, Nevada 16 0750 17 0800 24.2 489
Butler Ranch turn- 16 1350 16 1600 2.2 20
off 8c Hwy 93, Nev.
Glendale Jet. , Nev. 16 1230 16 1718 4.8 96
Caliente, Nevada 16 1600 17 0835 16.6 348
Warm Springs, 16 0800 17 1010 26.2 502
Nevada
Cedar City, Utah 16 1515 17 1250 21.6 372
Parowan, Utah 15 2230 16 2230 24.0 448
P 0.64 15
C
P 110 240
C
P 74 360
C
P 0.79 13
C
P 0.26 6.8
C
P 0.36 7.8
C
P 0.25 6.0
C
Results
131j 132j 133j 135j
3) pCi/m3 pCi-hr/m3 pCi/m3 pCi-hr/m3 pCi/m3 pCl-hr/m3 pCi/m3 pCi-hr/m3
0.35
--
25
ND
2.4
1.6
0.57
0.58
0. 21
ND
0.30
0.37
0. 18
--
8.5
--
54
ND
12
7.7
9.5
9.6
5.5
ND
6.5
8.0
4.3
--
ND
--
75
ND
4.6
1.2
1.6
0.47
0.42
ND
ND
ND
ND
--
ND
--
160
ND
22
5.8
27
7.8
11
ND
ND
ND
ND
--
..0.82
--
24
6.1
.73
1.7
1.2
0.98
0. 34
ND
0.35
0.85
0.41
--
20
--
52
13
3.5
8.2
20
16
8.9
ND
7.6
18
9.8
--
ND
--
ND
7.9
9.6
1.7
0.91
ND
ND
ND
ND
ND
ND
--
ND
--
ND
17
46
8.2
15
ND
ND
ND
ND
ND
ND
--
ND - not detectable
P - prefliter
C - charccial cartridge
-- - sample not obtained
-------�
test site. A monitor located 14 miles SE of Beatty, along
Highway 95, detected an external gamma exposure of 2.7 mR
(integrated exposure from E-500B) due to cloud passage. The
peak exposure rate at this location was 2 mR/hr measured at
1145 hours. The infinite exposure at this unpopulated location
is estimated to be 17 mR. Ground monitors were able to
locate activity (<0. 03 net mR/hr) in the area between Lone
Pine, California and Stovepipe Wells.
The RM-11 exposure rate recorder at Beatty, Nevada indi-
cated an exposure rate of up to 0. 02 mR/hr above background
between 1330 and 1830 hours on March 25. A gamma exposure
of 0. 05 mR above background was calculated by integration of
the exposure rate with time. The other recorders did not
show a significant exposure above background.
Film badges and TLD's exposed during March indicated no
exposure above the detection limit (30 mR and 10 mR respec-
tively) that could be attributed to EP-IVA effluent.
Air samples containing fresh fission products were obtained
at several locations. The peak concentrations in air were
detected at Lone Pine, California where the maximum poten-
tial thyroid exposure was estimated to be 3. 6 mR, primarily
due to inhalation of 131I and 133I. (Based on the International
Committee on Radiation Protection "Standard Man," the dose
to an infant would be three times this value.) This assumes
that all the 131I and 133I as collected on the prefilter and
charcoal cartridge are biologically available for thyroid uptake
from inhalation. A summary of the air sampling data is
presented in Table 9.
27
-------�
Table 9. Analyses of air samples collected following EP-IVA, March 1966.
Collection Results
. Sampling Period Total Sample Col- Beta Beta
oca ion start gtop T.me Volume lector Activity Exposure 131I I32I 133I 135I
Day Hr Day Hr (Hr) (m3) (pCi/m3) (pCi-hr/m3) pCi/m3 pCi-hr/m3 pCi/m3 pCi-hr/m3 pCi/m3 pCi-hr/m3 pCi/m3 pCi-hr/m3
Beatty, Nevada 25 0753 26 0733 23.7 442
Hwy 95, 15 mi 25 1130 25 1545 4.2 34
NW of Lathrop
Wells, Nevada
Hwy 95, 25 mi 25 1055 25 1540 3.8 48
NW of Lathrop
Wells, Nevada
Lathrop Wells, 25 0640 26 0605 23.6 473
Nevada
Scotty's Jet, 25 1705 26 0905 16.0 299
Nevada
Stovepipe Wells, 25 1140 26 0930 21.8 386
t>j C alif o rnia
00
Lone Pine, 25 0948 26 0940 23.8 432
California
Bishop, 25 1010 26 0624 20.2 398
California
Barstow, 25 0700 26 1315 30.2 546
California
P 17
C
P 64
C
P 140
C
P 7. 1
C
P 29
C
P 31
C
P 650
C
P 6.7
C
P 4.7
C
400 ND
1.2
270 ND
ND
520 ND
ND
170 1.9
ND
460 ND
ND
680 6.7
2.4
15,000 61
25
140 ND
ND
140 ND
ND
ND
28
ND
ND
ND
ND
45
ND
ND
ND
150
52
1500
600
ND
ND
ND
ND
ND
ND
ND
6. 1
ND
6.0
ND
ND
ND
ND
ND
1.2
ND
12
ND
ND
ND
ND
ND
ND
ND
26
ND
22
ND
ND
ND
ND
ND
26
ND
290
ND
ND
ND
ND
0.87
ND
5.6
16
7.9
11
ND
0.56
1.5
0.56
ND
6.8
70
74
0.86
ND
0.50
ND
21
ND
24
68
30
41
ND
13
24
9.0
ND
150
1700
1800
17
ND
15
ND
ND
ND
ND
1.6
ND
23
ND
0.63
ND
ND
ND
3.0
ND
ND
ND
ND
ND
ND
ND
ND
ND
6.8
ND
86
ND
15
ND
ND
ND
65
ND
ND
ND
ND
ND
ND
ND - not detectable
P - prefilter
C - charcoal cartridge
-------�
Milk and feed samples were obtained at several locations
in California and Nevada. Radioiodine was detected in
milk from Lone Pine, Independence, and Big Pine,
California. The peak concentration was 140 pCi of l31 I/liter
and 230 pCi of 133I/liter; this occurred in Lone Pine milk col-
lectpd from the evening milking on March 27. Milk sampling
results are presented in Table 10. The potential thyroid
dosq to an infant's thyroid from 131I ingestion at Lone Pine is
estipnated to be 22 millirad. The 133I ingestion dose is estimated
to bp 3 mrad. The cows' feed at the three locations was pri-
marily made up of dry feed (hay), and less than 10% of the total
intake was grass.
Vegetation samples were collected along Highway 95 north and
southeast of Beatty to determine a hot line and cloud profile at
that distance. The peak occurred at 10 miles SE of Beatty, or
24 miles at 260° from Test Cell A.
Vegetation samples containing fresh fission products, other
than the samples previously mentioned (milk results and
Highway 95), were also obtained at Barstow, Independence
(Loden Ranch), Olancha (Hayhurst Ranch), and Stovepipe Wells,
California; these samples were both natural vegetation and
representative cows' feed. Milk samples were not available
fron> Stovepipe Wells, but milk from the other locations did
not 3jhow the presence of fresh fission products because the
cows were not on fresh feed.
Thyroid in vivo counting was performed on two ground monitors
who were located on Highway 95 during cloud passage. In
both cases the thyroid doses were negligible.
29
-------�
Table 10. Analysis of milk samples collected following EP^IVA.
Location
Lone Pine, Calif.
Independence,
California
Zucco Ranch
Big Pine, Calif.
Date
Collected
3/ 26 -am
3/27 -am
3/27-pm
3/28 -am
3/28-pm
3/29 -am
3/30-pm
3/31-am
3/31-pm
4/01-am
4/02-am
4/03-am
4/04-am
4/11 -am
3/29-pm
3/30
3/31-am
4/01-am
3/26-am
3/27
3/28 -am
3/28-pm
3/29 -am
3/30-am
3/30-pm
3/31-am
Presence of Gamma pulse
Radioiodine height analysis
in Feed (pCi/liter)
X
X
--
X
X
X
X
X
X
X
--
--
X
ND
X
X
X
ND
X
X
ND
--
--
ND
ND
ND
ND
110
140
100
100
60
70
50
90
60
50
50
30
ND
ND
20
ND
ND
ND
30
40
ND
20
ND
50
180
230
70
40
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND - not detectable
x - radioiodine present
-- - sample not collected
30
-------�
Water samples containing fresh fission products were
obtained from Lone Pine and Olancha, California. The
maximum concentration of 131I at Lone Pine was 750
pCi/1 while the maximum at Olancha was 110 pCi/1.
Both samples were collected on March 28.
2. NRX-A5
The NRX-A5 was the fourth fueled reactor in the NRX
series of the Rover Program. The reactor was placed
so that the hydrogen coolant and escaping fission products
were exhausted upwards. The series was conducted at
Test Cell A.
The reactor was operated at full power for an accumu-
lated time of about 30 minutes, resulting in an integral
power of about 2. 1 x 106 Mw-sec. The peak power was
1200 Mw. The experimental plans are outlined in Table 11.
Table 11. NRX-A5 experimental plans.
Experiment
EP-I
EP-II
EP-III
EP-IV
Date
1966
5/26
6/08
6/08
6/23
Time of
Operation
PDT
AM
1402-1418
1035-1050
Integral Power
Mw-secs
Criticality
and drum
calibration
Low power
test
1. 1 x 106
(full power)
1.0 x 106
(full power)
Radio-
activity
Detected
Off -Site
No
No
Yes
Yes
31
-------�
a. EP-III, June 8, 1966
Experimental Plan III was the first full power run of the
NRX-A5 reactor. Based on the aerial cloud tracking
results, ground monitoring was performed in the south-
west quadrant off-site. PHS aerial monitoring results
indicated that the effluent cloud was split into two sec-
tions at about 8000 and 9000 feet MSL by the large wind
shear which existed at test time. The low altitude
section of the cloud went towards CP-1 at a bearing of
o
about 40 . The main cloud went in a westerly direction
with an initial bearing of about 270 for about 25 miles
and later in a more southerly direction.
Ground monitors were located on U S 95 at the time
and location of cloud passage. The monitors did not
detect gamma exposure rates above background. The
RM-11 recorders did not indicate any exposure rates
above background.
The film badge and TLD results gave no indication of
exposures above background due to the reactor effluent.
Fresh fission products were detected on air samples
as. shown in Table 12. Gross beta results which were
above background are included, if they coincide with
the date and area of effluent cloud passage, even if
fresh fission products were not detected on the sample.
These high gross beta results are due to several
causes:
(1} Reactor effluent - even those samples with fresh
fission products were near the limit of detectability.
Thus, the samples marked NFFP may have contained
32
-------�
Table 12. NRX-A5, EP-III air sample results, June 1966.*
Location
Beatty, Nevada
Death Valley Jet. , Cal.
Death Valley Jet. , Cal.
Furnace Creek, Cal.
Furnace Creek, Cal.
Furnace Creek, Cal.
Lathrop Wells, Nevada
Pahrump, Nevada
Pahrump, Nevada
Pahrump, Nevada
UJ Shoshone, Cal.
00
Barstow, Cal.
Ridgecrest, Cal.
Ridgecrest, Cal.
10 mi S. of Beatty, Nev.
(Hwy. 95)
Springdale, Nevada
(Hwy. 95)
Sampling
Start
Day Hr
08
08
09
08
09
10
08
07
08
09
09
09
08
09
08
08
0742
0645
0645
1130
1030
1125
0755
1200
1200
1200
1435
0700
1308
1425
1545
1540
Pe riod
Stop
Day Hr
09
09
10
09
10
11
09
08
09
10
10
10
09
10
09
09
0826
0645
0645
1020
1125
1155
0620
1200
1200
1200
1843
0700
1422
1315
0930
1156
Total
Time
(Hr)
24.6
24.0
23.9
22.8
25.0
24.6
22.3
24.0
24.0
24.0
28.2
24.0
25.3
22.9
17.3
20.3
Sample
. Volume
-------�
fresh fission products, but below levels of detection.
(2) Fallout from the foreign weapons test of May 9, 1966
it was detected in environmental samples in the
vicinity of the site around June 7 and 8.
(3) High natural background levels due to normal fall-
out and dust, etc. - the general background level during
June 1966 was about 0.5 pCi/m3 and occasionally values
of about 1 pCi/m occurred.
The positive results found to the south and south-
southeast of the site are possibly due to the release of
fission products during cool down of the reactor and the
northerly flow of surface drainage winds at night. They
also could have resulted from the large wind shear and
changing wind direction after testing.
Milk and feed samples were obtained from Dansby's
Ranch and Springdale, Nevada. The only milk samples
with a detectable level of radioiodine were from Dansby's
Ranch, southwest of Lathrop Wells, which had 40 pCi/1
of 131I on June 13 and 50 PCi/l of 131 I on June 17. Two
samples prior to this (June 9 and 10) did not have detect-
able levels of radioiodine, although vegetation from the
pasture did show the presence of radioiodine. Peak
levels do not usually occur in milk until 2 to 6 days
after deposition on the pasture. There are two poten-
tial sources of the 131I: fallout from the non-U.S.
nuclear detonation of May 9, 1966, which was observed
in air samples about this time and/or the reactor
effluent.
34
-------�
Vegetation samples were taken at five mile intervals
on U S 95 between Springdale and Lathrop Wells,
Nevada on June 9. No fresh fission products were
detected in these samples except for those collected
10 miles south of Springdale and 5 miles south of
Beatty. Vegetation samples were also taken at Pea-
Ranch near Springdale and at Dansby's Ranch.
Ffesh fission products were not detected in water
samples collected from Dansby's Ranch and near
Springdale, Nevada.
b,, EP-IV, June 23, 1966
The EP-IV was the second and final full power run on
th,e NRX-A5 reactor. Ground monitoring and environ-
mental surveillance was performed in the northeast
quadrant of the off- site area based on aerial monitoring
results and initial ground monitoring. An initial hot
line of about 25 changing to about 30 beyond 60 miles
was indicated. Fresh fission products were detected
in off- site samples of air, vegetation, and milk; gamma
•exposure rates were recorded by portable survey meters
the RM-11 recorders.
Mpnitors on Highway 25 between Queen City Summit
ar^d Coyote Summit detected the cloud passage with
portable survey instruments. The highest off-site
ground level external gamma exposure detected was
at Goss's Ranch (60 miles from the reactor at an
azimuth of 25 ) where a measurement of 1.2 mR/hr
was recorded at 1300 hours. Cloud passage was also
indicated by RM-11 recorders at Sunnyside and Lund,
Nevada.
35
-------�
Film badge and TLD results gave no indication of the
reactor effluent passage.
Positive air sample results were obtained from the
locations given in Tables 13 and 14. The results from
Utah, except Garrison, indicated the absence of fresh
fission products. The gross beta results from Garrison
and Geyser Maintenance Station were above background,
bij,t specific isotope analysis is not available.
Milk samples containing fresh fission products were
obtained at the locations indicated in Table 15. Samples
were also obtained from the standby network in Utah.
A complete list of milk samples is given in Appendix A.
The samples from Utah did not have detectable levels
of fresh fission products.
Natural vegetation samples were taken on Highway 25
between Hancock Summit and Queen City Summit on
Ju.ne 23, to help delineate the hot line. The vegetation
samples south of Coyote Summit did not show the
presence of fresh fission products. High results were
found near Queen City Summit and are possibly due to
the increased elevation in this area. The hot line was
estimated to be 5 to 10 miles from Coyote Summit on
the basis of aerial monitoring and other surveillance
results.
Vegetation samples were taken from Sacramento Pass,
Nevada to Garrison, Utah on July 1 to detect the area of
cloud passage. Fresh fission products were not detected on
aiiy of the samples. The time delay between the possible
deposition of radioactivity and the collection of samples would
36
-------�
Table 13. NRX-A5, EP-IV gross beta air sample results, June 1966. *
Sampling Period Total Sample Beta Beta
Location Start Stop Time** Volume Activity Exposure Notes
Day Hr Day Hr (Hr) (m3) (pCi/m3) (pCi-hr/m3)
Coss Ranch 23 1314 23 1500 01.8
(NW of Coyote
Summit)
17 14,400 26,000
Coyote Summit
(Hwy 25)
Sunny side,
Nevada
Geyser Maint.
Station, Nevada
Garrison, Utah
23
23
23
23
1135
0730
1602
0800
23
24
24
24
1540
0726
1610
0800
04.
23.
24.
22.
1
9
6
7
40
470
446
458
527
138
10.1
3.1
2,160
3,320
247
71
NGS
NGS
* - Results extrapolated to end of collection time.
** - Based on running time indicator rather than time on and off.
NGS - Not gamma scanned.
37
-------�
Table 14. NRX-A5, EP-IV air sample results, June 1966.*
Location
Goss
Ranch
Coyote
Summit
Sunny -
side
Sampling Period Total Results Potential Adult
Start Stop Time ,' 131I 132I 133I 135I Inhalation
Day Hr Day Hr (Hr) eCt°r pCi/m3 pCi-hr/m3 pCi/m3 pCi-hr/m3 pCi/m3 pCi-hr/m3 pCi/m3 pCi-hr/m3 Dose (mrad)
P 910
23 1314 23 1500 01.8 _ ."
U ocO
P ND
23 1135 23 1540 04.1
23 0730 24 0726 23.9 ^ '' '
1600
1100
ND
160
240
110
ND
1200
ND
50
ND
5. 1
ND
2100
ND
210
ND
120
1600
1700
70
80
23
17
2800
3100
280
330
56
420
1600
1100
80
100
ND
4.8
2800
1900
330
420
ND
120
^Results extrapolated to end of collection.
P - Prefilter. C - Charcoal cartridge. ND - Not detectable.
132I is not reported on the prefilter because of interference from97Zr.
U>
00
-------�
Table 15. NRX-A5, EP-IV milk results. *
Location
3 mi. N. of Shoshone
(Kirkeby Ranch)
3 mi. N. of Shoshone
(Kirkeby Ranch)
3 mi. N. of Shoshone
(Kirkeby Ranch)
3 mi. N. of Shoshone
(Kirkeby Ranch)
3 mi. N. of Shoshone
(Kirkeby Ranch)
3 mi. N. of Shoshone
(Kirkeby Ranch)
3 mi. S. of Baker, Nev.
(Baker Ranch)
3 mi. S. of Baker, Nev.
(Baker Ranch)
13 mi. N. of Shoshone
(Harbecke Ranch)
13 mi. N. of Shoshone
(Harbecke Ranch)
5 mi. S. of Baker
(E. J. Gumming s Ranch)
5 mi. S. of Baker**
(E. J. Cummings Ranch)
Nyala
Date
6/24
6/25
6/26
6/27
6/30
7/01
6/30
7/01
6/26
6/27
6/26
6/27
6/24
Milk
I3lj:.
20
80
240
90
ND
ND
50
20
50
60
pCi/1 Pasturs^ge pCi/kg
133j 131r 133j
1.3 x 103
20
310 830 2.7 x 103
60 640 1 x 103
ND
ND ND ND
ND
ND ND ND
50 680 1.5 x 103
ND 420 ND
not available 770 2xl03
/
!
110
30
30 ND ND
ND ND ND
- Activity extrapolated to end of collection time.
** - Samples were not available after this date.
ND - Not detectable.
-------�
have allowed a decay factor of .about four which may
explain the absence of fresh fission products.
Water samples from near Alamo, Hiko, Warm Springs,
and Shoshone, Nevada area did not show detectable
levels of fresh fission products.
3. Six-Month Summary
The highest air filter results collected during the six-month period
were taken following the Pin Stripe Event and the NRX-A4/EST
and NRX-A5 reactor runs. These results are listed with the
summaries of these experiments.
Some samples of water used for human consumption collected
during this period contained 3 I. These samples were col-
lected following the Pin Stripe Event and are listed in Table 16.
The positive water samples collected following NRX-A4/EST
were from stock tanks.
Table 16. Ten highest potable water sample results, Pin
Stripe Event.
Collection
Location _
Date
Hiko, Davis Ranch
Ursine, McCrosky Ranch
Panaca, K. Lee Ranch
Ursine, Lytle Ranch
Caliente, Oxborrow Rn.
Caliente, Tennille Rn.
Hiko, Davis Ranch
Panaca, K. Lee Ranch
Hiko, Davis Ranch
Hiko, Davis Ranch
4/26
5/02
5/03
5/02
5/03
5/03
4/27
5/06
4/30
4/28
131I pCi/liter
3860
360
140
140
120
110
50
50
40
30
40
-------�
The highest radioiodine content found in milk during this
period was a result of the Pin Stripe Event and was discussed
in the summary of that event. Complete milk results for
the six-month period are listed in Appendix A.
There were no positive exposures on personnel film badges
during the six-month period.
41
-------�
V. CONCLUSIONS
Results obtained through environmental radiation surveillance during
this period indicate that no individual in the off-site area received
an exposure, resulting from Nevada Test Site operations, which
exceeded the guides established by the AEC and/or recommended
by the FRC and the NCRP.
42
-------�
APPENDIX A
Milk sample results for the six-months period.
Note:
The first line of each sample listing gives the location of the sample
source, the identification number assigned to the sample when it
arrives at the laboratory, and the date the sample was collected.
The remaining lines show the isotopes present in the sample in units
of picocuries per liter, except for calcium and potassium which are
given in units of grams per liter.
Routinely, analysis is made for the following eight isotopes: 141Ce,
131I, 106Ru, 137 Cs, 95Zr, 54Mn, 40K, and 140Ba. These isotopes
are listed only when they are present in detectable quantities. When
samples are collected for particular events, analysis is generally
done for 1331 in place of 106Ru.
The isotopes which are processed by radiochemistry methods--Ca,
89Sr, 90Sr--are listed if radiochemistry is performed, even if they
are not detectable. If 89Sr is not detectable, it is listed as "B",
which signifies < 5 pCi/1. If 90Sr is not detectable, it is listed as
"D", which signifies <0.1 pCi/1.
Some of the values are listed in exponential form:
3. OE01 = 3. 0 x 101 = 30; 5. 5E02 = 5.5 x 102 = 550, etc.
-------�
APPENDIX - Milk sample results
ARIZONA HILK-JANe 018 1966 TO JUNE 30, 1966
FRETON*A ARIZONA BUTTON RANCH
K=1.2
FREDONIA ARIZONA BUTTON RANCH
K=i«,4 89SR=B
FREDONIA ARIZONA BUTTON RANCH
131I=^OE01 1.37CS=4.5£01
90SR=10
FREDONIA ARIZONA BUTTON RANCH
137CS=5«OEOO K=1.1EOO
FREDONIA ARIZONA BUTTON RANCH
137CS=loOE01 K=1.4EOO
MOCCASIN ARIZONA JOHNSON RANCH
137CS=4.0E01 K=1.4
MOCCASIN ARIZONA JOHNSON RANCH
K=1.2
MOCCASIN ARIZONA JOHNSON RANCH
137CS=5e5£01 K^l.SEOO-
HT TRUMBEITL ARIZONA BUNDY RANCH
131I=2bOE01 137CS=3e5E01
90SR=6
520H100502913009196 04 30 66
NOTE--4.TfXl DENOTES A RESULT LESS THAN X.
PAGE
000
52011100502913009205 05 01 66 000
90SR=9 - _
52011100502913009469 05' 02 66 000
K=2p2EOO 89SR=B
PM 52011100502913009763 05> 04 .66 * 000
52011100502913009753 05 05-66** ^000
PM 52017501502913009204 04 30 66 000
52017501502^13009195 05 01 66 > 000
52017501502913009465 05^ 02 66 ' 000
52017801502913009467^ 05^ 02 66 , 000
K=lc7EOO 89SR=B
-------�
APPENDIX - Milk sample results
CALIFORNIA MILK-JAN. J0181966 TO JUNE 30r 1966
COLLECTED
BAKER5FIELD CALIF CHALLENGE CREAMERY
137CS=B ,K=1.5EO
BAKERSFIELO CALIF CHALLENGE CREAMERY
K=1.2 89SR=8
BAKERS.FIELD CALIF CHALLENGE CREAMERY
137CS-1WOE01 K=1.5
#
BAKERSFIELD CALIF CHALLENGE CREAMERY
137CS=2^0E01 K=1.5
BAKERSFIELD CALIF CHALLENGE CREAMERY
137CS=1.5E01 K=l.5
BAKER5FIELO CALIF (CHALLENGE CREAMERY
Ml-. I. 89SR=8
BAKERSFIELO CALIF CHALLENGE CREAMERY
137CS*UQ!1 K-1.2EO
BARSTOW CALIFORNIA HILLS DAIRY
137CS=1.5E01 K=1.5
BARS TOM CALIFORNIA HILLS DAIRY
137CS*liOEOI K=l.4
BARSTOW CALIFORNIA HILLS DAIRY I
K=1.2EOO
530240029O4912008J550 03 28 66 0002341
89SR=B 90SR=3
530240029049120O8E90 03 30 66 0002341
90SR-4
53024002904912008191i03 30 66 0002341
89SR=B 90SR=3
53024002904912008234 03 31 66 O002341
53024002904912008241 04 !02 66 OO02341
53024002904912008227 04 03 66 OO02341
90SR=2
53024002704912008278 ^04 03 66 0002341
89SR=S 90SR=4
530270029O4gi2OO8064 03 26 66 EP4A344
89SR=8 90SR=4
530270029049120D8096 03 27 66 EP4A344
89SR=B 90SR=4
520270029D4912009829 05 04 :66 344
BARSTOM CALIFORNIA HILL-S DAIRY
137CS=2»5E01 K=1.3EOO
NQTE^^LT(X) DENOTES A RESULT LESS THAN X,
PAGE
520270029O49J.2009817 05 05 66 344
-------�
APPENDIX - Milk sample results
CALIFORNIA MILK-JAN. 101»1966 TO JUNE 30r
BARSTOW CALIFORNIA HILLS DAIRY :
137CS=5.0EOO K=1.0EOO
BARSTOW CALIFORNIA HILLS DAIRY:
137CS=UOE01 K=1.2EOO-
BARSTOW CALIFORNIA HILLS DAIRY
137CS=1.0E01 K=1.2EOO
BARSTOW CALIFORNIA HILLS DAIRY
137CS=5.0£00 K=lc8EOO
BARSTOW CALIFORNIA HILLS DAIRY
137CS=5.0EOO K=1.2EOO
BARSTOW CALIFORNIA HILLS DAIRY
137CS=5.0EOQ K=l.l
BIGiPINE CALIFORNIA SIMMONS DAIRY
89SR-B
1966 COLLECTED
52027002904912009813 05 06 66 344
52027002904912009918 05 08 66 344
52027002904912009915 05 09 66 344
52Q27002904912O09916 05 10 66 344
89SR=B 90SR=1
PM 52027002904912009970 05 16 66
344
AM
BIG rPINE CALIFORNIA SIMMONS DAIRY
K=1.3 89SR=B
BIG PINE CALIORNIA SIMMONS DAIRY
1311=3.OE01 137CS=i.5E01
90SR=8
BIGiPINE CALIORNIA SIMMONS DAIRY
131I-4.0E01 137CS=2.5E01
90SR=7
BIG,PINE CALIORNIA SIMMONS DAIRY
1C=1.4 89SR=B
NOTE—LTfX) DENOTES A RESULT LESS THAN X,
PAGE
51027002904912010621 ,06 16 66 7390006
89SR=B 90SR=3
53036502704912008030 ^03 26 66 EP4A022
90SR=8
53036502704912008101 03 28 66 EP4A022
90SR=8
530365027a4912008E10-03 28 66 2932022
K=l«5 89SR=B
53036502704912008111 103 29 66 2932022
K=1.2 89SR=B
53036502704912008133 03 30 66 4402022
90SR=8
-------�
APPENDIX - Milk sample results
CALIFORNIA MILK-JAN. i01,1966 TO JUNE 30r 1966 COLLECTED
BIGIPINE CALIQRNIA SIMMONS DAIRY 53036502704912008169 03 30 66 4402022
13ll=S^Oll 137CS=2.SE1 K=1.3EO 89SR=8
90SR=6
BIG ^PINE CALIQRNIA SIMMONS DAIRY 53036502704912008209 03 31 66 4302022
K=1W3 ...-- - ... . •. . ........ ...... _ ......
BIGIPINE CALIQRNIA SIMMONS DAIRY AM 51036502704912009979 05 tU 66 1 .} 022
137CS=2«5E01 K=1.2EOO 89SR*B _ 90SR=9
BIGIPINE CALIFORNIA SIMMONS DAIRY AM 510365027t»4912Qt0624^06 16 667 8290022
137CS41.5E01 K=1.5 89SR-B 90SR=9
BISHOP CALIFORNIA SIERRA FARMS DAIRY 53037002704912008032 03 26 66 EP4A021
K=1.1EO 89SR=B 90SR=6
BISHOP CALIFORNIA SIERRA FARMS DAIRY AM 51037002704912009978 05 c!7 66 J 021
137CS=2iOE01 K=1.3EQO 89SR=8 90SR=9
BISHOP CALIFORNIA SIERRA FARMS DAIRY ; AM 510370O27Q49 120*062 5 06 17 667 829DO21
131I=€4,OE01 137CS=2.5EOl K=1.3 89SR=10
9QSR=7
BRAWLEY CALIFORNIA DATELAND DAIRIES 52040007504912009779 05 04 !66 347
K=1.3EOO
BRAWLEY CALIFORNIA DATELAND ^DAIRIES 52040007504912009800 05 05 66 347
K=1.3EOO
BRAWLEY JCALIFORNIA DATELAND ^DAIRIES 52040007504912009844 05 €07 66 347
137CS=B K=1
ESCONOIDO CALIFORNIA BERNARD DAIRY 52113007304912009732 05 04 ;66 346
137CS=liOEOl K=1.3EOO 89SR=8 90SR=2
NOTEt-^LTIXl DENOTES A RESULT LESS THAN X.
PAGE 4
-------�
APPENDIX - Milk sample results
CALIFORNIA MILK-JAN. 01,1966 TO JUNE 30,
ESCONDIDO ^CALIFORNIA BERNARD DAIRY
137CS=l.5E01 K=1.3EOO
ESCONOIDO CALIFORNIA BERNARD DAIRY
137CS=l4,OE01 K=1.2EOO
FRESNO CALIF HARPAINS DAIRY
137CS=2eSEi K=1.4EO
FRESNO CALIF HARPAINS DAIRY
137CS=3i,OE01 K=1.5
FRESNO -CALIF HARPAINS DAIRY
137CS=le5£01 K=l.4
FRESNO CALIF HARPAINS DAIRY
K=1.5
FRESNO CALIF HARPAINS DAIRY
137CS=UOE01 K=l.l
FRESNO CALIF HARPAINS DAIRY :
137CS=2o5E01 K=1.6
FRESNO CALIF HARPAINS DAIRY FARMS
137CS=3.021 K=1
1966 COLLECTED
52113007304912009775 05 05 66 346
52113007304912009846 05 <£07 66
346
FRESNO CALIF sSTATE COLLEGE CREAMERY
137CS=2.0E01 K=1.5
FRESNO CALIF STATE COLLEGE CREAMERY
K-1.2
NOTE--LTtX) DENOTES A RESULT LESS THAN X,
PAGE
531300019049120081:54 103 28 66 9002338
89SR=B 90SR=4
53130001904912008130 03 29 66 9002338
53130001904912008197 03 30 66 3002338
89SR-B - 90SR=4
53130001904912008230^03 31 66 0002338
53130001904912008232 04 01 ,66 0002338
89SR=8 .. 90SR=4
531300019049120a8243 04 02 66 0002338
53130001904912008279 04 03 66 0002338
89SR=B ; ._ _90SR=4
53130001904912008194 03 30 66 0002339
89SR=B 90SR=3
53130001904912aO8236 03 31 66 0002339
-------�
APPENDIX - Milk sample results
CALIFORNIA MILKMAN* 101,1966 TO JUNE 30r 1966 COLLECTED
FRESNO CALIF STATE COLLEGE CREAMERY 53130001904912008242 304 01 66 0002339
137CS=lo5EOl K=1.4 89SR=B 90SR=4
FRESNO CALIF STATE COLLEGE CREAMERY 53130001904912008231 04 02 ^66 0002339
K=i.7 , ..,,:'...• , „.. ........ '. . ........... :...._ ..... - - . .......
FRESNO CALIF STATE COLLEGE CREAMERY 53130001904912008270 04 03 66 0002339
137CS=li,0£l K=1.7EO 89SR=B . .. 90SR=3
FRESNO CALIF STATE COLLEGE CREAMERY 53130001904912008277 04 04 66 0002339
137CS=1«,OE1 K==l.3EO_ 89SR=8 90SR=4
FRESNO CALIFORNIA i STATE COLLEGE CREAMERY 53130001904912008285? 04 05 66 0002339
lwO«l K=1.3EO 89SR=B 90SR=4
INDEPENDENCE CALIF I LODER RANCH 5315650270*913008033 03 26 66 EP4AOOO
137CS=6.5SE1 K=1.6EO ? 89SR=B 90SR=8
INDEPENDENCE CALIF LOOER RANCH 53156502704913008094 03 27 66 EP4AOOO
137CS=7«5E01 K=1.8 89SR=B 90SR=6
INGERENOENCE CALIF LODER RANCH 5315650^704913008099 03 28 66 EP4AOOO
137CS=5.5EOl K=l«4- 89SR=B 90SR=7
INDEPENDENCE CALIF 4913008144 03 30 66 4902000
137CS=4iOE01 K-1.2 89SR=B 90SR=6
INDEPENDENCE CALIF LODER RANCH 5 31 5650270*91 3008 MO 03 31 66 1302000
137CS=6.Sgl K=1.4EO
NQTE--LT(XJ DENOTES A RESULT LESS THAN X.
PAGE 6
-------�
APPENDIX - Milk sample results
CALIFORNIA MILK-JAN. :0l*1966 TO JUNE 30* 1966
COLLECTED
INDEPENDENCE CALIF Cf£l 137CS=3.OE1
INDEPENDENCE CALIF ZUCCO RANCH _.
137CS=1WOE01 K=1.7
INDEPENDENCE CALIF ZUCCO RANCH
137CS=5.5EOl K=2.2
INDEPENDENCE CALIF ZUCCO RANCH
137CS=1.0E01 K=l.l
INDEPENDENCE CALIF ZUCCO RANCH
K=1.4
LONE: PINE CALIFJLONEJ PINE DAIRY
133I=S.OE01 137CS=1.0E01
90SR=5
LONEJ PINE CALIF LONE! PINE DAIRY
K=1.5 89SR-B
LONE? PINE CALIF iLONE PINE DAIRY :
131I=1.1E02 : 1331=1.8E02
89SR=8 90SR=5
NOTE--LTIX) DENOTES A RESULT LESS THAN X.
PAGE
531565027.04913008206 04 01 66 1302000
89SR=B 90SR=7
53156502704913008138 03 29 66 4202012
89SR=B 90SR=9
5315650270^913008173 03 31 66 4202012
K-le5EO . . .
53156502704913008208 04 01 66 4202012
89SR=B 90SR=11
5315650210^913008255 04 02 66 4002012
53156502704913008252 04 03 66 4002012
89SR=10 90SR=5
53156502T04913008251 04 :04 566 4002012
53185502703*912008027 03 26 66 EP4A023
K=1.5 89SR=8
53185502704912008095 03 26 66 EP4A023
90SR=5 _
53185502704912008098 03 27 66 EP4A023
137CS=1»5E01 K=1.2
-------�
APPENDIX - Milk sample results
CALIFORNIA MILK-JAN. J01»1966 TO JUNE 30,
LGNEI PINE CALIF LONEi PINE DAIRY
L3iF*l.'«E02 : 133I=2.,3E02
90SR=3
LONEIPINE CALIF LONEi PINE DAIRY
131I*il.O£02 133I=*7iQE01
89SR=B 90SR=4
LONE) PINE CALIF LONE? PINE DAIRY
131I=4«0E02 : 133I=4oOE01
90SR=4 - .........
LQNE1PINE CALIF LONE? PINE DAIRY
K=1.5
1966
COLLECTED
LONE! PINE CALIF LONE) PINE DAIRY
LONEiPINE CALIF LONEl PINE DAIRY
226RA=?DETECTED RACl)=
LONE3 PINE CALIF
-------�
APPENDIX - Milk Sample results
LONE? PINE CALIF LONEJ PINE DAIRY
1311*9.OE01 137CS=2*OE01
LONE?PINE CALIF LONE) PINE DAIRY
131I=6*OE01 137CS=2.0EOl
90SR=3
LQNEJ PINE CALIF LONEiPINE DAIRY
131I=5eOE01 137CS=1.5E01
LONEiPINE CALIF LONE? PINE DAIRY
131I=5«,OE01 137CS=2~5E01
90SR=2
LONE1 PINE CALIF LONE!PINE DAIRY :
137CS=i.5E01
LQNEJPINE CALIF LONE PINE DAIRY
144CE=2^0£1 137CS=1.5£1
90SR=5
LONEPINE CALIF LONEPINE DAIRY :.
137CS=4.0E01 K=1.1EOO
LONE: PINE CALIF LONE PINE DAIRY
1311=2.OEOl 137CS=4o5E01
LOS ANGELES CALIFORNIA JESSUP FARMS
137CS=l.>5EOi K=1«IEOO
LOS ANGELES CALIFORNIA JESSUP FARMS
137CS*2.5E01 K=1
53185502704912008214 03 31 66 4302023
K=1.6
53t«550270]4912008210 04 :01 66 "4302023
K=l«4 89SR=B
53W5502T04912008256 04 02 66 4002023
K=l«4
5318550270:4912008254 04 03 66 4002023
K=1.3 89SR=5
531r855Q270JW!12008253 04 04 :66 4002023
K=le6
53185502704^11008288; 04 11 66 4002023
89SR=B
PM 511855027:04912009980) 05 16 66 J 023
89SR=8 90SR=4
AM 511855027CT4912010620 06 16 66-8390023
K=l«,3 89SR=B
52190003704912009730 05 05 66 343
89SR=8 90SR=2
5219000370*912009831 .05 06 66 343
DENOTES A RESULT!LESS THAN X.
PAGE
-------�
APPENDIX - continued
LOS ANGELES CALIFORNIA JESSUP FARMS
137CS=2wOE01 K~l
LOS ANGELES CALIFORNIA JESSUP FARMS
137CS=?2iOE01 K=1.3EOO
LOS ANGELES CALIFORNIA JESSUP FARMS
137CS=2.5E01 K=1.4EOO
LOS ANGELES CALIFORNIA JESSUP FARMS
137CS=liOEQl K=1.1EOO
LOS ANGELES CALIFORNIA JESSUP FARMS
137CS=2VOE01 K=1.4EOO
RIVERSIDE CALIFORNIA ORANGE C 'DAIRY
137CS=1.5E01 K=1.3EOO
RIVERSIDE CALIFORNIA ORANGE C DAIRY
I37CS=liOE01 K=1.3EOO
MADERA CALIFORNIA QUALITY DAIRY FARMS
137CS=2%ttll K=1.5EO
MAOERA CALIF QUALITY DAIRY FARMS
137CS48 K=liOEO
MAOERA CALIF sQUALITY DAIRY-FARMS
137CS=l.OEl K=i.4EO
MADERA CALIF QUALITY ;OAIRY FARMS
137CS=1.5E01; K=l.5
DENOTES A RESULT aESS THAN X,
PAGE
5219000370*912009818 05 107 66 343
52190003704912009874 ;05 08 66 343
52190003704912009875 05 09 66 343
52190003704912009909 05 10 66 343
52190003704912009920 05 11 66 343
52190003704912009842 O5 06 66 345
52190003704912009845 05/07 66 345
53194003904912008127 03 28 66# OO00337
89SR=8 90SR=4
531940039049l2ffi08151 103 29 66 0002337
89SR=8 90SR=4
53194003904913O08167 .03 30 66 0002337
89SR=8 90SR=3
53194003904912008228 03 31 66 0002337
10
-------�
APPENDIX - continued
MADERA CALIF 'QUALITY DAIRY FARMS
137CS-1.5E01 K=l.6
MADERA CALIF QUALITY IOAIRY FARMS
137CS=2.0:E1 K=1.3EO
MADERA CALIFORNIA QUALITY DAIRY FARMS
137CS=2.0E1 K=1.3EO
SALINAS CALIF PATTEE DAIRY
137CS=2«0;E1 K=1.2EO
NEHHALL CALIFORNIA BURBANK CREAMERY
137CS=5i.OiOO K=l.6
NEWHALL CALIF BURBANK CREAMERY
137CS=5iOEOO K=1.5
NEWHALL CALIF BURBANK CREAMERY
137CS=1W011 K=l.5EO
NEHHALL CALIF BURBANK CREAMERY
137CS=1.0E01 K*1.5-
NEHHALL CALIF BURBANK CREAMERY
137CS=5i.OEOO K=1.5
NEWHALL CALIFORNIA BURBANK CREAMERY
137CS=6.0E01 K=1.3EOO
NEWHALLXALIFORNIA BURBANK CREAMERY
i37CS=5i.OEOO K=1.5EOO
NOTEr--LT(X) DENOTES A RESULT LESS THAN X,
PAGE
53194003904912008229 04 01 66 0002337
89SR=B 90SR=4
53194003904912008282*^)4 !03 66 0002337
89SR=B 90SR=4
5319400370*9120082891 04 05 66 0002337
89SR=B 90SR=3
53215005304912008280 04 !02 66 0002000
89SR=B 9QSR=4
5322600370J4912008107 03 28 66 0002342
89SR=B 90SR=C
53226003704912008131 103 29 66 0002342
5322600370:4912008152 03 30 66 0002342
89SR=B 90SR=4
532260037O*9120O8195 03 31 66 0002342
53226003704912008237 ;04:01 66 0002342
89SR=B 90SR=2
522260037034912009778 05 05 66 342
5222600370:4912009774 05 06 66 342
11
-------�
APPENDIX - continued
OLANCHA CALIFORNIA HAYHURST RANCH
l37CS=2iT0£l K*1
OLANCHA CALIFORNIA HAYHURST RANCH
137CS=1.5E01 : K=1.5
OLANCHA CALIFORNIA HAYHURST RANCH
137CS=UOE01 K=1.6
OLANCHAl CALIFORNIA HAYHURST 'RANCH
137CS=1.5E01 K=i.5
OLANCHAi CALIFORNIA HAYHURST RANCH 1
137CS=l5.0EOl K=1.5
OLANCHA CAL I FORNI A HAYHURST RANCH
137CS=lW0El K=l.*EO
OLANCHA CALIFORNIA HAYHURST RANCH
137CS=1»5E01 ; K=l.5
OLANCHA CALIFORNIA HAYHURST RANCH
137CS=I.5EOI K=1.5EOO
OLANCHA CALIFORNIA HAYHURST RANCH
l37CS=li.OE01 K=1.5
RIVERSIDE CALIFORNIA GRANGE C DAIRY
K=1.7EOO
RIVERSIDE CALIFORNIA ORANGE C DAIRY
137CS=1.5EOI K=l
AM
AM
5323750270^913008031 :O3 26
89SR=8 90SR=7
532375O37O?*913008093 03 27
89SR=8 90SR=7
5323750^70*913008092 03 28
89SR=8 90SR=7
5323750270C*9130O8114:03 29
89SR=8 90SR=5
532375057O4913008139 03 30
89SR=8 90SR=4
5323750270*91300816* 03 31
5323750270*9130082II 20* 101
89SR=8 90SR=*
5123750270*913009977 05 16
89SR=B 90SR=5
512375027:0*913010619 06 16
89SR=B 90SR=3
5228700650*912009733? «5 0*
89SR=8 90SR=2
5228700650*91200978a 05' 05
66 EP*A020
66 EP*A020
66 EP*A020
66 1302020
66 J.902020
66 1902020
66 1302020
66 020
6& 6370020
^6 3*5
66 3*5
NOTE^r-LTf XI OENOfES A RESULT LESS THAN X,
PAGE
12
-------�
APPENDIX - continued
RIVERSIDE CALIFORNIA ORANGE C DAIRY 7
137CS42WOE01 K=1.2EOO
RIVERSIDE CALIFORNIA ;QRANGE C DAIRY
137CS=5*OEOO K=1.4EOO
SALINAS CALIF tPATTEE DAIRY
K=U5
SAHNAS1 CALIF PATTEE DAIRY
137CS=UOE01 K=lo4
SAN LUIS OBISPO CALIF FOREMOST DAIRY
K=1.5
SAN LUIS OBISPO CALIF FOREMOST DAIRY
137CS=B K=l.5EO
SAN LUIS OBISPO CALIF FOREMOST ^DAIRY
K=lo5 •_ . .. 89SR=B
SAN LUIS OBISPO CALIF FOREMOST DAIRY
K=i.6
SAN LUIS OBISPO CALIF FOREMOST ^DAIRY
137CS=1«,OE01 K-l.5
SAN LUIS OBISPO CALIF FOREMOST DAIRY
137CS=1.0E01 K=1.5
SAN LUIS OBISPO CALIF FOREMOST 'DAIRY
NOTE--LTCX) DENOTES A RESULT LESS THAN X.
PAGE
522870065049120^9876 05 08 66 345
52Z87006504912009912 05 09 66 345
532^5005304912008233 03 29 66 0002000
53295005304912008196 03 30 66 O002000
89SR=8 90SR=4
533100079049120A8129 03 28 66 0002335
53310007904912008153 03 29 66 0002335
53J100O7904912008188? 03 30 66 0002335
90SR=4
53310007904912008240 03 31 66 0002335
53310007904912008239 04 01 66 0002335
89SR=B 90SR=7
53310007904912008235 04 02 66 OOO2335
53310007904912OO»268 04>03 66 0002335
89SR=8 « 90SR=2
13
-------�
APPENDIX - continued
SAN'.tUitS OBISPO CALIF FOREHOST DAIRY ; 53310007904912008276 04* 04 i6fr OO02335
I37CS=l%.01l K=IW3EO 89SR=8 90SR=3
DENOTES A RESULT LESS THAN X.
PAGE 14
-------�
APPENDIX - continued
COLORADO FMILK-JAN.
ALAMOSA COLORADO ALAMOSA MILK CO
1 3 7CS= 2 WOeO 1 K= 1 . 8EQO •-
ALAMOSA COLORADO ALAMOSA MILK CO
137CS=2.0E01 K=1.5EOO
ALAMOSA COLORADO ALAMOSA MILK CO
137CS=2<,OE01 K=1.3EOO
ALAMOSA COLORADO ALAMOSA MILK CO
K=i.2EOO
1966 TO JUNE 30r 1966
5200100030581-2008972 04 29 66
BRUSH COLORADO MCLAGEN BROS CREAMERY
137CS=1.0E01 K=1.2EOO
BRUSH COLORADO MCLAGAN BROS CREAMERY
137CS45.5E01 K=2.1
BRUSH COLORADO MCLAGEN BROS CREAMERY
BRUSH COLORADO MCLAGAN BROS CRHY
137CS=540EOO K=UO
BRUSH COLORADO MCLAGAN BROS CRMY
137CS==B_ K=1.6EOO
BRUSH COLORADO MCLAGEN BROS CRMY
137CS=3i,OE01 K^1
CANON CITY COLORADO -MONARCH DAIRY
137CS=1.5EOl K=1.4EOO
211
5200100030581:2009326 04 30 66 211
52001000305812009691 ,05 03 66 211
52001000305812009687J,05 04 166 211
520070087058120089,80? 04 27 66 203
52007008705812009111:04 ;28 66 203
52007008705812009114 04 29 66 203
520070087058t200958je 04 30 66 203
520070087058120O9583I 05 01 66 203
520070087058120D9686* 05 02 66 203
520080043058120O8945 04 f26 66 207
NOTE—O.TCX) :DENOTES A RESULT LESS THAN x.
PAGE 15
-------�
APPENDIX - continued
COLORADO JMILK-JAN^ 301, 1966 TO JUNE 30r 1966
5200800430581S2009500 04
CANON CITY COLORADO MONARCH DAIRY
137CS=l»5£Ol K=1,5EOO
COLORADO SPRINGS COLORADO SEN TON DAIRY
137CS=f3iO£Ol K=1.6EOO
COLORAD0 1 SPR I NGS COLORADO SE NTON DA 1 RY
137CS=1WOE01 K-1.5EOO
COLORADO SPRINGS COLORADO SENTON DAIRY
K=1.5EOO
COLORADO SPRINGS COLORADO SENTQN DAIRY
137CS=2.5E01 K*1.6EOO
CRAIG COLORADO
137CS*3,0£01
K=1.1EOO
CRAIG COLORADO YAMPA VALLEY DAIRY
137CS=1.QE01 K=1.2
CRAIG COLORADO YAMPA CVALLEY DAIRY
K=l.4EOO
CRAIG COLORADO YAMPA :VALLEY :DAIRY
137CS=1.5EOi K=l
CRAIG COLORADO YAMPA CVALLEY DAIRY
137CS=2i.OE01 K=1.3EOO
CRAIG COLORADO YAMPA VALLEY DAIRY
137CS=2iOEOt K=1.1EOO
NOTE^tTtX) DENOTES A RESULT
520090041058E2008976 04
5 200900^105812009511 04
520O90Q41058K20O9505 05
89SR=8 90SR=
52009004K058152009518 05
5201200810581:2009924 05
520120081058K20O9126? 04
520120081058 K2Q09690 ^05
52012Q081058E2009816* 05
520l2Q08t058120O9921^05
52012008105812009922' 05
29
28
^3O
01
= 10
02
11
28
01
04
08
09
66
66
66
66
66
66
66
66
!366
66
66
207
208
208
208
208
201
201
201
201
201
201
THAN X.
PAGE 16
-------�
APPENDIX - continued
COLORADO IM1LK-JAN. :0i, 1966 TO JUNE 30, 1966
52013002905812008721 04
DELTA COLORADO ARDEN MEADOW GOLD i
137CS=5.0EOO K=l.l
DELTA COLORADO ARDEN MEADOW GOLD
137CS=3eOE01 K=1.5
DELTA COLORADO ARDEN MEADOW GOLD
137CS=2.5EOl K=1.6EOO
DURANGO COLORADO CLOVER RICH DAIRY
137CS=1.5E01 K=1.5
DURANGO COLORADO CLOVER RICH DAIRY
137CS=2«>OE01 K=l*4
DURANGO COLORADO CLOVER RICH DAIRY
137CS=1.5E01 K=1.4EOO
DURANGO iCOLOR ADO CLOVER RICH DAIRY
137CS=2.0E01 K=1.4EOO
DURANGO COLORADO CLOVER RICH DAIRY
K=1.2 89SR=B
DURANGO COLORADO JCLOVER RICH DAIRY
137eS=2.5E01 K=1.6EOO
FT COLLINS COLORADO ^POUDRE VAln CRM
137CS=3«,5EOl K=l.5EOO
FT-COLLINS COLORADO PQUDRE
137CS=4«OE01 K=l;
CR«
27 66
28 66
29 66
28 66
520130029058E2Q09115 04
520130029058K2009328 04
5201600670581:20;09112 104
52016006705812009176 04
52016006705812009573 04
5201600670581:2009499 05
89SR=B 90SR
PM 52016006705812009619 05 02 66
90SR=14
52C16006705812009688I 05 03 66
52020006905812008551 04 27 66
52020006905812008947 04 28 66
NOTE--LTCX) DENOTES A RESULT LESS THAN X.
PAGE 17
206
206
206
209
29
30
01
= 11
66
66
66
209
209
209
209
209
202
202
-------�
APPENDIX - continued
COLORADO mILK-JAN. 101, 1966 TO JUNE 30r 1966
52020006905812009508 04 29 66
FT COLLINS COLORADO PQUDRE VALLEY CRM
137CS=4iOE01 K=1.6EOO
FT COLLINS COLORADO PQUDRE VALLEY CRH
137CS=8 K=1.6EOO
FT COLLINS COLORADO fPQUDRE VALLEY CRM
137CS=2.5E01 K=1.4EOO
FT COLLINS COLORADO POUDRE VALLEY :CRM
137CS=3.5E01 K=1.2EOO
FT COLLINS COLORADO POUORE VALLEY CRM
FT COLLINS COLORADO POUDRE VALLEY CRM
K=1»2EOO
GLENHOQO SPRINGS COLORADO _
137CS=4i061 K-1.5EO
GLENWOOO SPRINGS COLORADO GLEN SPRGS CR
137CS=3,5EOl K=U4
GLENWOOD SPRINGS COLORADO GLEN SPGS CR
137CS=4yOEOl K=l
GLENWOOD SPRINGS COLORADO GLEN SPGS D
137CS=3.5E01 K=1.3EOO
GLENWOOD SPRINGS COLORADO CREAMERY
137CS=4iOEOi K=1.6EOO
NOTE—LTfX) DENOTES A RESULT;!LESS THAN X,
PAGE
202
520200069058^2009501 04 30 66 202
52020006905812009516 05 01 66 202
89SR=B 90SR=10 :
52020006905^12009514 05 02 66 202
89SR=8 _... . 90SR=10
52020006905812009623 05 03 66 202
52020006905812009768 05 04 *6 202
52022004505812008537 04 526 66 204
52022004505812008715 04 i27 66 204
52022004505812009348 04 28 66 204
52022004505812009327 04 29 66 204
520220045058^2009727f 05 03 66 204
18
-------�
APPENDIX - continued
COLORADO ?MILK-JAN. 101, 1966 TO JUNE 30f 1966
GRAND JCT COLORADO CLYMER ROSE DAIRY:
K=1.5
GRAND JCT COLORADO CLYMER ROSE DAIRY
137CS=2oOE01 K=1.1EOO
GRAND JCT iCOUORADO CLYHER ROSE DAIRY
137CS=1.5E01 K=1.2
GRAND JCT COLORADO CLYMER ROSE DAIRY
K=1.2
GRAND JCT COLORADO CLYMER ROSE DAIRY
137CS=UOE01 K=1.1EOO
MONTE VISTA COLORADO SUNRISE CREAMERY
137CS==1.0E01 K=l.l
ROCKYEORD COLORADO ROCKYFORD CREAMERY
K=1.5EOQ . _89SR=B...
52524007705812008717 04
52024007705812008982)304
52024007705812009629 04
89SR=B : 90SR=
52024007705812009628 05
52024007705812009626 05
52038010505812009123 04
52042Q08905812Q0S553 04
90SR=6
ROCKY FORD COLORADO ROCKY 1F0RD .CREAMERY : 520420089058E2Q0873Q 04
137CS=2.pE01 K=1.4 ..;,..
ROCKY FORD COLORADO ROCKY FORD; CR€AMERY 52042008905812009178 04
K-1.4
ROCKY FORD COLORADO ROCKY FORfr iCREAMERY 520420089058120091803 04
K=1.6
ROCKYTFORD COLORADO ROCKY FORD CRM
137CS=1.5E01 K=1.3EOO
52042008905812Q09351 04
:26
27
29
= 10
01
02
29
27
28
29
30
:30
66
66
66
66
66
66
66
66
66
66
66
205
205
205
205
205
210
213
213
213
213
213
NOTE~LTfX) DENOTES A RESULT LESS THAN X.
PAGE 19
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APPENDIX - continued
COLORADO iJULK-JAN^JOl, 1966 TO JUNE 30, 1966
ROCKY FORD COLORADO ROCKY FORD CRM 5204200S9058t2O09504 05 02 66 213
137CS=240E01 K=?U3EOO
ROCKY FORD COLORADO ROCKY FORD CRM 52042008905812009685^ 05 02 66 213
137CS=5^0EOO K-1.4EOO
TRINIDAOUCOLORAOQ PEJRAMALA DAIRY 52048007105812008546 04 27 66 212
K=1.5EOO
TRINIDAD1 COLORADO PETRAMALA DAIRY 52048007105812008983? 04 28 66 212
K=1.8EOO
TR IMIOAOl COLORADO PEIRAMAL A DAIRY 52048007105812009107 04 29 66 212
I37CS=liOE01 K=l.4
TRINIOAOJ COLORADO ;P6JRAMALA DAIRY 52048007105811200^329 04 30 66 212
137CS=B K=1.5EOO
TRINIOADJ COLORADO IPETRAMALA DAIRY 520480071058152009479^050166 212
K=1.4EOO
TRINIDAOJ COLORADO PEJRAHALA DAIRY 52048007105812009635? 05 03 66 212
137CS=3iOE01 K=l.4EOO
DENOTES A RESULT LESS THAN X.
PAGE 20
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APPENDIX - continued
IDAHO iMlLK-JAN. 101 1966 TO ?JUNE 30, 1966
BLACKFOOT !» IDAHO ICAMMACK DAIRY:
137CS=liOEOl 5=1.6EOO
BLACKFOOT IDAHO CAMMACK DAIRY
137CS=2.5E01 K=1.2EOO
BLACKPOOL IDAHO CAMMACK DAIRY
1 3 7C S= 6 . 5 E 0 1 K= 1 „ 4
BUHL IDAHO SMITH DAIRY:
137CS«2,5E1 K=1.6EO
BUHL IDAHO SMITH DAIRY
137CS=4.:5E01 K=1.7EOO
BUHLilDAHO SMITH DAIRY
137CS=2.5E01 K41.-2EOO
BUHL IDAHO SMITH DAIRY
K=1.5
BUHLilDAHO SMITH DAIRY
137CS=2i060t K=1.4EOO
BUHL-IDAHO SMITH DAIRY . .. . .
137CS=2«OEOt K=1.6EOO •
BURLEYKIDAHO WYMORE DAIRY
137CS=2.5E01 K=1.5EOO
BURLEYMDAHO WYMORE DAIRY
K=1.4;
COLLECTED
5200200U118r2008539 04 26 66 230
52002001111812008544 04 27 66 230
520020011118M008727 04 28 66 230
520040083118M008548/ 04 126 66 226
520040a83118120A8614 04 27 66 226
52004008311812008942 104 28 66 226
52004008311812009171,04:29 66 226
52004008311812009421 04 130 66 226
52004008311812009528* 05 02 66 226
520050003118£2008550 ^04 !26 66 228
520050003118L2008728 04 27 66 228
NOTE— 'LTtX) DENOTES A RESULT LESS THAN X.
PAGE
21
-------�
APPENDIX - continued
IDAHO ftlLK-tfAN. J01 1966 TO JUNE 30* 1966
BURLEYiJDAHO HYMQRE DAIRY I
137CS=5.5EQl K=l.6EOO
BURtEYLlOAHO HYMORE DAIRY
137CS=4i/OE01 K=1.3£00
BURLEYLIOAHO HYMORE DAIRY
137CS=4iOE01 K=1.2EOO
BURLEYt IDAHO HYMORE DAIRY .
137CS*5*5EQ1 K=1.4EOO
BURLEYriDAHO MYMORE DAIRY
COEUR D«/Ali£NE IDAHO D*ALENE DAIRY
CQEUR O'ALENE? IDAHO D'ALENE DAIRY
K=1.5
COEUR D'AliENE IDAHO 0*ALENE DAIRY
K=1.4EOO
COEUR D*ALENE IDAHO iD'ALENE DAIRY
137CS=8ifOE01 K=1
COEUR OftAliENEi IDAHO D^ALENE ;DAIRY
GRANGE¥Il.LE; IDAHO SGRANGEVILLEiCO
K=1.4EO
COLLECTED
5200500031181200898B;Q4 28 66 228
52005000311812009324 04 29 66 228
52005000311812009463 04 30 66 228
520050003115120095811 05 02 66 228
52005000311812009621 05 03 66 228
52007005511812009168 04 ;26 66 221
52007005511812009170 04 27 66 221
52007005511812009639 04 28 66 221
520070O551E812009637 04 29 66 221
52007005511812009636 04-30 66 221
51012004911812007550 02 214 366 203
89SR=8 90SR=11
DENOTES A RESULT LESS THANi X.
PAGE 22
-------�
'APPENDIX - continued
IDAHO MILK-JAN. :01 1966 TO JUNE 30, 1966
GRANGEVILLE IDAHO GRANGEVILLE CO
137CS=loOE01 K=1.1EOO'
GRANGEVILLE IDAHO GRANGEVILLE CO
137CS=7«5E01 K=1.2
GRANGEVILLE IDAHO GRANGEVILLE CO ',
137CS=7.5E01 K=1.5
GRANGEVILLE IDAHO GRANGEVILLE CO
137CS=7wOE01 K=1.5
GRANGEVILLE IDAHO .GRANGEVILLE CO
137CS=6o5E01 K=1.6EOO
GRANGEVILLE IDAHO GRANGEVILLE CO
137CS-7.0E01 K=1.4EOO
GRANGEVILLE IDAHO GRANGEVILLE CO
137CS*8«OE01 K=1.4EOO
IDAHO FALLS IDAHO WALLACE DAIRY
137CS-5.QEQ1 . K»1.6 .
IDAHO FALLS IDAHO WALLACE DAIRY
141CE=UOE02 :
COLLECTED
520120049118152008997 04 27 66 203
89SR=8 * 90SR=29
520120049118120091840:04 29 66 203
89SR=8 90SR=15
52012004911812008718 04 27 66 223
52012004911812009630 05 01 66 203
89SR=B 90SR=20
520120049ITS 12009689? 05 02 66 283
5201200491181S2O09752 05 04 :66 203
IDAHO FALLSriOAHO WALLACE DAIRY
131t=3^,OE01 137CS=5.5E01
. 90SR=10 ,
IDAHO FALLS IDAHO WALLACE DAIRY ....
137CS=3iOEOl K-1,2EOO:
NOTE— LT1X) DENOTES A RESULT LESS THAN X,
PAGE
520120049118E2Q[O9756r05 04 !66 203
520130019118E2008720 04 126 66 231
520130019118*2009368 04 29 66 231
137CS=3*OE01 K=1.5EOO
52013001911812O09586r05 02 66 231
89SR=B.
231
52013001911812009923^05 10 66
23
-------�
APPENDIX - o&htinued
IDAHO rMlltK-JAN. 301 1966 TO JUNE 30 ,-
IDAHO FALLS IDAHO SWALLACE DAIRY
137CS^3.5E01 , K=1«OEOO
IDAHO FALLS IDAHO WALLACE DAIRY
137CS=2.5E01 K=i.4iOO
IDAHO FALLS IDAHO WALLACE DAIRY
137CS=4i,OEQl K=1.2EOO
IDAHO FALLS;IDAHO WALLACE DAIRY
137CS=1«5E01 K=l.i _...
JEROME! IQAHOtflOA GEM DAIRYMEN
K=1.6EOO
JEROME! IDAHO?: IDA GEM DAIRYMEN
JEROMEl IDAHO IDA GEM DAIRYMEN
K=1.1EOO
JEROME! IDAHO IDA GEM DAIRYMEN
137CS=I2»5E01 K=lw3
JEROMEi'IDAHQi IDA GEM DAIRYMEN
137CS=3.5E01 K=l
LEHISTON IDAHO GOLDEN GRAIN
K=1.7
LEWISTQN IDAHO GOLDEN GRAIN
137CS=8 K=1.6EOO
1966 COLLECTED
PM 52013001911812009941 05 11 66 231
PM 52013001911812009940 05 13 66 231
AM 52013001911812010012 05 #17 66 231
520130019118120,10011 05 18 66 231
89SR=8 90SR=13
520140053118120085*0 =04 :26 66 227
52O1400531C8120A8616 04 27 66 227
52014005311812008944 104 28 66 227
520*4a053118!20O9182?I04 !29 66 227
89SR=B 90SR=10
520140053118E2009323 04 130 66 227
52016006911812008716 04 :25 66 222
52016006911812008975 04 28 66 222
NOTE—fLTCX) DENOTES A RESULT LESS THAN X.
PAGE 24
-------�
APPENDIX - continued
IDAHO HILK-JAN.]01? 1966 TO JUNE 30* 1966
LEWISTON' IDAHO -GOLDEN7 GRAIN
137CS=B K=1.8EOO
LEWISTON IDAHO GOLDEN GRAIN
137CS=3«5E01 K=1.6EOO
LEWISTQN IDAHO GOLDEN GRAIN
137CS=1.5E01 K=U5EOO
LEHISTQN IDAHO GOLDEN GRAIN
137CS=4.5E01 K=U5EOO
MTN HOME IDAHO CLOVER HOLLOW DAIRY
137CS=3.5E01 K=1.1EOO
PQCATELLO IDAHO WARDS DAIRY :
K==1.6
POGATELLO IDAHO WARDS DAIRY
137CS=i.5EOl K=1.3EOO
POCATELHQ IDAHO WARDS DAIRY
137CS=lo5E01 K=1.5
POCATELUO IDAHO HARDS DAIRY :
137CS=5bOEOi K=l.6EOO
POCATELLO IDAHO WARDS DAIRY
137CS=3.5E01 K=1.7EOO
NOTE-^-LTIX) DENOTES A RESULT: LESS THAN X,
PAGE
COLLECTED
520160069118120089^0-04 29 66 222
52016006911812009512 104 29 66 222
52016006911812009498 05 01 66 222
52016006911812009706 05 02 66 222
5202000391181i2Q08552 :04 :26 66 225
52024000511812008423 04 i26 66 229
NOCHEM
52024000511812008545 04 :27 66 229
52024000511812008724 ?04 :28 66 229
520240005118120089843 04 :29 66 229
52024000511812009325 04 30 66 229
89SR=B 90SR=10
25
-------�
APPENDIX - -continued
NEVADA MILK-JAN.; 301* 1966 TO JUNE 30, 1966
COLLECTED
ALAMO NEVADA
137CS=2.3E1
K=l.5EO
53014001T23T912007440 02 :04 566 ^IR2B050
89SR=8 90SR=2
ALAMO NEVADA SHARP RANCH
l31I=a»6E03 133I=*7.3£03
90SR=5
ALAMO NEVADA SHARP RANCH
5 201400 172*9 130083:77 04^26 66
89SR=8
52C440017I27913008432 04 526 66
135I=*2.4E03
ALAMO NEVADA SHARP RANCH
133I=s7o8E03
ALAMO SNEVADA SHARP RANCH
141CE=i2kQ7EQ3
000
OOO
000
OOO
520*4Q0172jZ91300878S» 04 28 66 i 000
137CS=4»5EOi K=1.6
5201400172^913008431 04 27 66
132I=€.3E02 135I=sl*7E03
520S?400172if913008625^ 04 27 66
ALAMO NEVADA SHARP RANCH
131T=SV7E02
89SR*5 90SR=3
ALAMO NEVADA SHARP RANCH
90SR=3
ALAMO NEVADA SHARP? RANCH 520140017229130087863 04 :29 66
5 201400172?m 3009001 04 30 66
90SR=3
ALAMO-NEVADA SHARP; RANCH
K=2.2EOO
NOTEr~LT{X) DENOTES A RESULT LESS THAN X.
PAGE 26
ALAMO NEVADA SHARP RANCH
14*CE=?.l£02 :
K==2s.OEOO 89SR=5
520t400172ir913008«20 04 28 66 i 000
89SR=5
000
OOO
OOO
52014001721913009008 04 30 66
133I=«7i.OE02 137CSr=9.0EOi
-------�
APPENDIX - continued
NEVADA MILK-JANo .01s 1966 TO JUNE 30, 1966
COLLECTED
ALAMO NEVADA SHARP RANCH
13ir*t.46E03 . 133I='4«,8£02
89SR=5 90SR=3
ALAMO NEVADA SHARP RANCH
141CE=5.2E02 131I=1«24E03
K=1.9
ALAMO NEVADA SHARP RANCH
141CE=1.2E02 131I=7.8E02
K=1.7EOO
ALAMO NEVADA SHARP RANCH
141CE»2.'7E02 131I=S»0£02
K=l«9EQO 89SR=5
ALAMO NEVADA SHARP RANCH
141C£=1.2E02
ALAMO NEVADA SHARP RANCH
141CE=8.7E02 131I=5
89SR=5 90SR=4
ALAMO .NEVADA SHARP RANCH
14ICE=8iOEOl 1311^5. 2E02
5 90SR=4
ALAMO NEVADA SHARP RANCH
141CE=l.7E02 13lI=e»7E02
ALAMO NEVADA SHARP RANCH
14lCE=2«OEOi 131I=4.33£02
520140017:27913009203 04 30 66
137CS=1.1E02 K=2.2_
520140017257913009206 05 01 66
133I3«2E02 137CS=1.6E02
52014001727913009364 05 01 66
133I=sl,8E02 I 137CS=5^0E01
520140017217913009359 05 02 66
133I=1.1E021 137CS=8.0E01
90SR=5
52014001727913009534 05 03 66
137CS=5»5E02 I K=1.7EOO
L . . . . . .
52O14001T237913009535 05 03 66
137CS=3oOE01 : K=1,9EOO
52014001727913009642 05 04 1566
K=1.5EOO
52014001727*13009745; 05 05 66
137CS=5oOEOl K=1.2EOO
5201400172^913009T17u05 05 66
137CS=6.5E01 K=1.4EOO
i 000
000
/ 000
3 000
000
000
•:.» ooo
> 000
.< 000
DENOTES A RESULT LESS THAN X.
PAGE 27
-------�
APPENDIX - continued
NEVADA MILK-JAN^ »!„ 1966; TO JUNE 30,
ALAMO fNEVADA ) SHARP RANCH
141CE=1.7E02 131I=€.5E02
ALAMO NEVADA SHARP RANCH
141CE=li5£02 : 131l»1.9£02
ALAMO NEVADA SHARP RANCH
141CE=5l,OE01 13U=5l.9E02 :-.
ALAMO ;N£VAOA SHARP RANCH
141CE=9iOEOl 13ir«1.2E02
ALAMO ^NEVADA SHARP RANCH
137CS=2.5E01 K=i.2EOO
ALAMO NEVADA SHARP RANCH
K=1.4EOO
1966
COLLECTED
ALAMO NEVADA SHARP RANCH
131I=56i.aE01 137CS=2.5EOt
90SR=6
ALAMO NEVADA SHARP RANCH
131I=*^OE01 137CS=3iO£Ol
90SR-7
ALAMO NEVADA SHARP RANCH
131I^5«OE01 137CS=2kOE01
90SR=5
ALAMO NEVADAJMANN RANCH
520§4001721T913009742 3)5 06 66
137CS=7*OE01
000
5201400172ir913009786r05i07 66 #000
137CS==3*OE01 K=1.0EOO
520S400 172^91 300981^ !0 5 08 66 000
137CS=4wOE01 K=1.3EOO
5201400172^913009870 05 09 66 =* 000
137CS=2^0E01 K=1.2EOO
52014001727913009885* 05 10 566 * 000
89SR=8 90SR=5
AM 520140017237913009951 TO 5 11 66 ? 000
89SR=B 90SR=5
AM 52014001727913009949 05 12 66 OOO
K=1.1EOO 89SR=B
AM 52014QO172i7913009944 05 13 66 000
K=?1«,3EOO 89SR=8
AM 520440017279130*0024105 25 66 -I OOO
K=lo4EOO 89SR=25
52014001727913009207 04 30 66 '. ? 001
NOTE—-LTfX'f DENOTES A RESULT LESS THAN X.
PAGE 28
-------�
APPENDIX - continued
NEVADA MILK- JAN. 104, 1966; TO JUNE
ALAMO NEVADA MANN RANCH
137CS=3.0EQ1 K=1.6
ALAMO NEVADA MANN RANCH
137CS=2.0E01 K=1.2EOO
ALAMO NEVADA MANN RANCH
137CS=3«,OE01 K=l.8EOO
ALAMO NEVADA MANN RANCH
137CS=8 K=1.4EOO
ALAMO NEVADA MANN RANCH :
137CS=3.5E01 K=1.5EOO
ALAMO NEVADA .MANN RANCH
137CS=2kOE01 K
ALAMO NEVADA MANN RANCH
137CS=2.5E01 K=1.5£00
ALAMO NEVADA MANN RANCH
i37CS=2i,OE01 K=i.6EOO
ALAMO NEVADA MANN RANCH
137CS=B K-1.1EOO =
ALAMO NEVADA STEWARTS DAIRY
K=i.8EO 89SR=B
ALAMO NEVADA STEWARTS DAIRY
K=1.5EO SR89=B
NOTE-^LTtXl DENOTES A RESULT LESS
30, 1966 COLLECTED
5 201400 1727913009 188> 05 01 66 001
5203:4001727913009363 X)5# 01 66 001
5201400172^7913009360-05 02 66 001
52014001727913009543 05 02 66 001
5 2O14OO 17279 13009 540 05 03 66 * 001
520*4001727913009644 05 03 66 .001
52014001727913009721^05 04 166 .* 001
52014001727913009640 05 04 166 1
52014001727913009718 05 05 66
51013001723912007410 =01 :26 66
90SR=4
001
078
530140017279120:07906 03 17 66 NRXTEP4
SR90=3
THAN X.
PAGE 29
-------�
APPENDIX - continued
NEVADA MILK-JAN. 101, 1966 TO JUNE 30, 1966
COLLECTED
ALAMO NEVADA STEWARTS DAIRY
K=1.2EO
ALAMO NEVADA STEWARTS DAIRY
137CS=3-SE1 K=1.3EO
ALAMO NEVADA SfEWARTS DAIRY
K=1.4
ALAMO NEVADA LEO STEWART DAIRY
1311=7. OE01 1331*2. 4E02
K=1.5 89SR=B
ALAMO NEVADA LEO STEWART DAIRY
13U=6i,0£01 133I=2«8E02
ALAMO NEVADA LEO STEWART DAIRY
ALAMO NEVADA LEO STEWART DAIRY I
131I=4bOE01 1331*1. IE02
ALAMO JNEVAOA LEO I STEWART DAIRY
131I=2»7E02 133I=
89SR=8 90SR=6
ALAMO NEVADA LEO STEWART DAIRY
131I=2.2E02 1331*2»7E02
ALAMO NEVADA LEO STEWART DAIRY
141CE=2.5E02 : 131I=»1.9E02
89SR=8 90SR=8
NOTE—LTIXJ DENOTES A RESULT LESS THAN X.
PAGE 30
530t400172;T9l200798E»J)3 21 66 EP4A
89SR=8 90SR=4
510t4QOl7279i200818«03 29 66
89SR=B 90SR=3_
AM 53014001727912010747 06 22 66
SR90=3
52014001727912008348 04 25 66 077
137CS=^4»OE01 135I=1.8E02
90SR=6
52034001727912008358 04 !26 66 « 077
137CS=4.5E01
520*4001727912008429 04 126 66 077
137CS=2»5E01 K=2.3
52014001727912008615 04 27 66 * 077
137CS=2.5EOi K=1.4
52^140017-27912008425 04 27 66 /077
137CS=4^5EOl K=1.9
52Ot4001723Wll2008787J 04 28 66 077
137CS=2.5EOl K=l,5
52014001727912008614:04:28 66 077
-------�
APPENDIX - continued
NEVADA MILK-JANi ;01, 1966 TO JUNE 30, 1966
COLLECTED
ALAMO NEVADA LEO ;STEWART DAIRY
141CE=4.0E01 131I=6i,OE01
K-1.5EOO
ALAMO NEVADA ^LEQ STEWART DAIRY
131I=sl. OE02 I.. 133I=1.0E02
ALAMO NEVADA LEO STEWART DAIRY
141CE=UOE02 1311*6*0601
89SR=8 90SR=7
ALAMO NEVADA LEO ^STEWART DAIRY
1311=3. OE01 137CS=5.0E01
90SR=7
ALAMO NEVADA LEO ^STEWART DAIRY
137CS=3.0E01 K=1.5
ALAMO NEVADA LEO STEWART DAIRY
137CS=3.5EOK K=1.6EOO
ALAMO NEVADA LEO STEWART DAIRY ;
137CS=B K=1.6EOO
ALAMO NEVADA LEO ^STEWART DAIRY
137CS==3.5E01 K=i.6EOO
ALAMO NEVADA LEO i STEWART DAIRY.
K=1.6EOO
ALAMO NEVADA LEO 1STEWART DAIRY
131I=d. OE02 137CS=3.5E01
520140017Z7912009009 04 29 66
1331=4.OE01 137CS=3.5E01
5201400172^912008788* 04 29 66
K=1.9
52014001727912008998 04 f30 66
137CS=4.0E01 K=1.6EOO
520:14001727912009136 04 30 66
K=1.6 89SR=8
520140017217912009208 05 01 66
52O140017279120093697 05* 02 66
52014001727912009S51 05 02 66
52014001727912009533 ^05 03 66
89SR=B 90SR=7
52014001727912009646 05 03 66
52014001727912009723^05 04^66
K=1.5EOO
* 077
077
077
077
t 077
077
077
• 077
077
, 077
NOTE—H.T1X) DENOTES A RESULT LESS THAN X.
PAGE 31
-------�
APPENDIX - continued
NEVADA MlbK-JAN.X)*, 1966 TO JUNE 30, 1966
COLLECTED
ALAMO NEVADA LEO sSTEWART DAIRY
1311=1. 3E02 137CS=5iOE01
ALAMO NEVADA M:K STEWART DAIRY
137CS=8 K*l.6EOO
ALAMO NEVADA LEO i STEWART DAIRY
131l^9»OEqi 137CS*3,5E01
90SR=4 ......
ALAMO NEVADA LEO fSTEWART DAIRY I
K=1.3EOO
ALAMO NEVADA LEO rSTEWART DAIRY :
137CS=4yQE01
ALAMO NEVADA LEO ^STEWART DAIRY
131i=*«,OE01 137CS*5iQE01
ALAMO NEVADA LEO STEWART DAIRY
137CS=1.5E01
ALAMO NEVADA LEO ISTEWART DAIRY
137CS=5.5E01
ALAMO NEVADA] LEO STBWART DAIRY I -
137CS=3%OE01
ALAMO NEVADA LEO 3STEWART DAIRY
137CS=3.5E01
ALAMO NEVADA I LEO STEWART DAIRY
137CS=1.5E01 K=iiOEOO
520*4001723912009649 05 04 566
K=1.6EOO
5201400172^912009713^05 04 !66
52014001727912009715 05 05 66
K=1»9EOO 89SR=8
52014001721912009739 05 05 66
520*4001727912009741* 05 06 66
K=1,2EOO
520140017279120097720)5 436 66
K=1«1EOO
520*40017217912009832 05 0)7 66
K=liOiOO .
520*400 172791 200978 5J 05 ^X)7 66
520*40017279120098*9 05 08 66
K-1.5EOO
520*400172^912009864 !05 08 66
K?=l.4EOO
520*4Q01723r9i2a09866 05^09 66
NOTE--LT(X) DENOTES A RESULT LESS THAN X.
PAGE 32
' °77
* 077
077
J 077
/ 077
077
J077
077
077
.« 077
077
-------�
APPENDIX - continued
NEVADA MILK-JAM. ;0l, 1966 TO JUNE 30, 1966
COLLECTED
ALAMO NEVADA LEO STEWART DAIRY
137CS=2.0E01 K=1.2EOO
ALAMO NEVADA LEO STEWART DAIRY
131I=2i>OE01 137CS=3.0E01
ALAMO NEVADA LEO STEWART DAIRY
137CS=2e5E01 K=1.3EOO
ALAMO NEVADA LEO STEWART DAIRY ,
137CS=2i.OE01 K=1.2EOO
ALAMO NEVADA LEO STEWART DAIRY
137CS=4oOE01 K=1.2EOO
ALAMO NEVADA STEWARTS DAIRY,
137CS=2«5£1 -
ALAMO NEVADA M. K,
133I=*9oOE01
89SR=B
ALAMO NEVADA M. K.
-_. K=1.4EO;
STEWART DAIRY
137CS=3,5E01
90SR=4
STEWART DAIRY
133I=1.3E02
ALAMO NEVADA M K STEWART DAIRY
133I=6iOEQl K?*1.5
ALAMO NEVADA M K STEWART DAIRY
141CE=1.5E02
K=1.8
ALAMO NEVADA M K STEWART DAIRY:
131I=4.7E02 1331*6. 3E02
520114001727912009886? 05 09 66 077
52014001727912009889/ 05 10 66 .1 077
K=1.4EOO . . '
AM 520140017257912009956 05 11 66 ^077
AM 52014001727912009948 05 12 66 3 077
AM 52014001727912009947 05 13 66 077
89SR=8 90SR=9
5 101400 172i79 12007662 03? 01 667 «43O078
89SR=B 90SR=3
5201400 1T2^912008345 04 25 66
135I«1.2E02 K=1.6
52014001727912X108359 04 :26 66
137CS=lo5E01 K=1.7
52014001727912008424 04 i26 66
52014Q01727912008619 04 127 66
137CS=4«OEOl
52014001727912008434 04 27 66
137CS=5.0EOi K=1.4
-• 078
078
) 078
..< 078
078
NOTE--LTIX) DENOTES A RESULT LESS THAN X.
PAGE 33
-------�
APPENDIX — continued
NEVADA ?MILK^JAN.iJ01r 1966 TO JUNE 30» 1966
COLLECTED
ALAMO NEVADA M K STEWART DAIRY
1311=5, 9E02 133I*7i»7E02
ALAMO NEVADA M K STEWART DAIRY :
ALAMO NEVADA M K STEWART DAIRY
141CE*6*OE02
ALAMO NEVADA M K STEWART DAIRY
ALAMO NEVADA M K STEWART DAIRY
141CE=61,OE01 1311-1. 9E02
K=1,7E06 89SR=8
ALAMO NEVADA M K STEWART DAIRY
131I=il.5E02
90SR-4
ALAMO NEVADA M K ^STEWART DAIRY
ALAMO NEVADA H K STEWART DAIRY
K=1.6EOO
ALAMO NEVADA MK STEWART DAIRY
137CS=5*OEO* K=1.6EOO
ALAMO NEVADA MK STEWART DAIRY :
137CS~3bOE01
ALAMO NEVADA M K STEWART DAIRY
137GS^3i.OE01 K-1.5EOO
52014001127912008801 (K 28 66
137CS=7.5E02 K=l.6
52014001727912008624 104 28 66
133I=6.1E02 K=1.6
52014001727912008999 04:29 66
137CS=5*OE01 K=1.6EOO
52014001721Z912008792 304 129 66
K=1.4 .
52014001727912009007 04 30 66 ',
133I=4iiOE02 : 137CS=7.5E01
90SR=4 .....
52014001727912009137 J04 30 66
K=1.6 89SR-8
5201400172379120091871*05 01 166
K=1.6
52O140017279120O9336 05 01 ,66
52014001727912009367 05? 02 66
52014001727912009548 05 02 66
K=1.4EOO
520140017257912009545 05 03 66
NOTE—fLTfXJ DENOTES A RESULT LESS THAN X.
PAGE 34
•j 078
078
078
/ 078
•J 078
r078
078
078
078
078
078
-------�
APPENDIX - continued
NEVADA MILK-JAN. lOls 1966 TO JUNE 30, 1966
COLLECTED
ALAMO NEVADA M K STEWART DAIRY I
137CS=5eOE01 K=1.1EOO
ALAMO NEVADA M K STEWART DAIRY
137CS=8 K=1.1EOO
ALAMO NEVADA M K STEWART DAIRY
137CS=B K=1.6EOO
ALAMO NEVADA M K STEWART DAIRY
137CS=3.5EOl K=1.2EOO
ALAMO NEVADA M K STEWART DAIRY
137CS=2.0EOl K=1.1EOO
ALAMO NEVADA M K STEWART DAIRY :
137CS=3«OE01 K=1.5EOO
ALAMO NEVADA M K STEWART DAIRY
131I=3.0E01 137CS=3.5E01
ALAMO NEVADA M K STEWART DAIRY
137CS=1.5EOt K=1.3EOO
ALAMO NEVADA M K STEWART DAIRY :
137CS=1,5E01 : K=1.3EOO
ALAMO NEVADA M K STEWART DAIRY
137CS=2.5E01 K-1.4EQO
ALAMO NEVADA M K STEWART DAIRY
137CS=li,OE01 K=1.0EOO
520i4001727912009641 ,05 .03 66 j 078
89SR=B 90SR=3
5201^001727912009654 05 04 :66 078
52014001727912O09716 05 05 66 i 078
89SR=8 90SR=3
52014QO1727912009740-05 05 66 078
520140017217912009737 ;05 06 66 078
52014OO1727.912009789) 05 06 66 .f 078
52014001727,912009788^ 05 <07 66 078
K==1.6EOO
52014001727912009830 05 £O7 66 078
52O140017227912009815 05 08 66 078
520!4O0172!7912009860-O5^ 08 66 078
52014001727912009892 05 09 66 / 078
NOTE—LTtXJ DENOTES A RESULT LESS THAN X.
PAGE 35
-------�
APPENDIX - continued
NEVADA MILK-JAN. 01, 1966 TO JUNE 30, 1966
COLLECTED
ALAMO NEVADA M K STEWART DAIRY !
137CS=1.5E01 K=1.3EOO
AHAMO NEVADA M K STEWART DAIRY ;
137CS=2VOE01 K=1.1EOO
ALAMO NEVADA M ;K STEWART DAIRY ;
137CS=2>5E01 K=1.3EOO
ALAMO NEVADA M K STEWART DAIRY I
131I"8*QE01 137CS=2O)EOl
ALAMO NEVADA M K STEWART DAIRY ;
13lI=4i,OE01 137CS=1.5E01
90SR=4
ALAMO NEVADA M SK STEWART DAIRY
13ir=s6^OEOt 137CS=l%OEOl
90SR=3 ,
ALAMO NEVADA M >K STEWART DAIRY :
ALAMO NEVADA LL LEE DAIRY
1331=2. 8E02
89SR=&
ALAMO NEVADA LEE DAIRY
131l=*iOE02 :•
ALAMO NEVADA L LEE DAIRY
52014001727912009857 05 09 66
520*4001727$ 120098&m 05 10 66
AM 52014001727912009952 05 11 66
AM 520*40017217912009953 OS 12 66
AM 52014001727912009946 05 13 66
89SR=B
AM 51014001721912010106 05 24 ^66
K?1.4 89SR=5
078
078
078
078
078
078
PM 51014001727912010636 O6 20 66 140O078
SR89=8 SR90=7
520*4001727912008346 04 25 66 J079
137CS=5i,OEOl 1351*2.5E02
90SR=5
52O14001127912008410 04 !26 66 079
1321=1.4E02 135I=*.3E02
52Q;140017279120083J6O =04 f26 66 079
137CS=6.5E01
NOTE--LTIX) DENOTES A RESULT LESS THAU X.
PAGE 36
-------�
APPENDIX - continued
NEVADA MILK-JAN. 101, 1966 TO JUNE 30* 1966
ALAMO NEVADA FL LEE DAIRY
COLLECTED
ALAMO NEVADA .L LEE DAIRY
r31?I=«l»lB03 1-3
89SR-B 90SR=5
ALAMO^NEVAft:?L LEE DAIRY
133I=<1-79E03
NEVADA ?L LEE DAIRY
ALAMO NEVADA 1L LEE DAIRY
1
ALAMO NEVADA ?L LEE DAIRY
ALAMO NIVAD/T L LEE
131I=4~4E02 :
1331=2. 6E02
ALAMO
DAIRY
: 133 1 =€. 1E02
ALAMO^NEVADA L LEE DAIRY
13if=i6b3Ed2 1331=4.9E02
5201400 lT2i7912Q08532 :04 27 66
ff9SR=*B 90SR=5
52014001727912008426 04 27 66
135I=9.6E02
5201^00-1727912008692 04 :28 66
Si9SR=8 90SK=6
52014001727912008622 04 28 66
52014001727912008965 i04 29 66
8 90SR=!6
5201400172^9120087945 04 29 66
89SR=8 90SR=6
301 66
89SR=8 90SR=4
04 30 66
90SR=4
52014001727912009193 ^05 01 66
ALAMO-NEVADA L; LEE DAIRY
iOEOt 13
90SR=5
V DENOTES A RfSUliF CBS'S TftAN *.
PAGE 37
52014001727912009332 05 01 66
079
079
079
079
079
079
079
079
079
-------�
APPENDIX - continued
NEVADA MILK-JAN. 01, 1966 TO JUNE 30, 1966
ALAMO NEVA0ACJL ?LEE DAIRY
141CE*1;.OE02 :
89SR=B i 90SR-7
ALAMO NEVADA =L tEE DAIRY .;
141CE*4WOEO1 1311=5. 2E02
895R=8 J 90SR=7
ALAMO 'NEVADA !L LEE DAIRY
14ICE*le7E02 : 13
89SR=B ; - 90SR=6
AllAMO NEVADA L* LEE DA IRY
1^1CE«1.9E02 131I^4
89SR48 ,.-. 90SR=6
ALAMO INE V ADA EL LEE DAIRY
|31D*3
90SR=5
ALAMO NEVADA SL • LEE DAIRY
141CE=?3.9E02 r3
89SR=8; 90SR*5
ALAMO NEVADA1IL3LEE DAIRY
13?CS=6J.QE01
ALAMO NEVADA IL;L££DA2RY
ALAMO NEVADA JL LEE DAIRY ______
141CE*1*1E02 1311=2. OE02
COLLECTED
05 02 66
K=1.6EOO
5201400172^912009542 05 02 66
520*400172S912009550-05^03 66
137CS=3.5E01J K=1
520*400172^912Ot>9656? 05^ 03 66
K=1.6EOO =
520*40017217912009698? 05^ 04
137CS»6bOEO1;. .. K* 1. 5EOO
520*400172^7912^09650 =05 04 566 '<
137CS=5.5E01 K=1.6EOO
52Oa40O17i2Jr9120Q9697 05 05 66
K=1.4EOO
520140O172i?912009792# 05 05 66
137CS=5.5E01 K=1.3EOO
520a40O17^79120097?O^O5>06 66
137CS=5.5E01;
DENOTES A RESULT;LESS THAN! X.
PAGE 38
^O79
/079
? 079
? O79
J 079
^079
^079
J 079
J 079
-------�
APPENDIX - continued
NEVADA MILK-JAN. SOI, 1966 TO JUNE 30, 1966
COLLECTED
ALAMO NEVADA L LEE DA IRY
14ICE=1.1E02 : 1311-2. 2E02
ALAMO NEVADA L LEE DAIRY
137CS=5iOE01
ALAMO NEVADA iL LEE DAIRY
131I=2.2E02 ; 137CS=4.5E01
ALAMO NEVADA L LEE DAIRY
141CE=1«,5E02 131I«i'. 3E02
ALAMO NEVADA L LEE DAIRY
137CS=4*OE01
ALAMO NEVADA !L LEE DAIRY
13iI=2viE02 137CS=4.5E01
90SR=8
ALAMO NEVADA L LEE DAIRY
131I=6iOEOl 137CS=1.5E01
90SR=4
ALAMO NEVADA iL LEE DAIRY
1311=^.0601 137CS=1.5E01
90SR=5
ALAMO NEVADA ;L LEE DAIRY
K=l.l 89SR=15
ALAMO iNEVADAIL LEE DAIRY
K-1.2: 89SR=B
5201:4001727912009795 05 06 66 079
137CS=5eOEOi ; K=1.3EOO
5201400172^7912009790-05 C07 66 079
K=1.4EOO
52O14001722Z912009828 05 fO7 66 ', 079
K=1.4EOO
52014001727912009822 105 08 66 / 079
137CS=4.0E01 K=1.1EOO
52014001727912009856 05 08 66 079
K=1.2EOO .......
52014001727912009867^05 09 66 079
K=1.3EOO
PM 520*4001727912010023 435 25 66 J 079
K=1.3EOO 89SR=5
PM 520140017279I2O10457 06 07 66^5902079
K=l.1 89SR=5
AM 52O1400172J7913010531 .06 13 66 079
90SR=2
AM >520*40017279120*0597 06 17 66 079
90SR=5
NOTE--LTCX) DENOTES A RESULT LESS THAN X.
PAGE 39
-------�
APPENDIX - continued
NEVADA MILK-^JAN. X>lf 1966 TO JUNE 30, 1966
COLLECTED
ALAMO NEVADA WRIGHT
133I**
90SR=3
ALAMO NEVADA IL1LEE DAIRY
137CS=2iOE01
DAIRY
137CS=1.0E01
DAIRY
133I=3.3E02
DAIRY
133IMV7E02
ALAMO NEVADA WRIGHT
131I=5iOEOl
90SR=3
ALAMO JNEVApA WRIGHT
131I>3*OEOi
ALAMO ;NEVAOA MR IGHT DAIRY
K*1.7
ALAMO NEVADA WRIGHT
1331*1.1602
ALAMO NEVADA WRIGHT
DAIRY
137CS=2iOEOt
DAIRY
137CS=i.5EOt
ALAMO NEVADA WRIGHT DAIRY
137CS=l,OEOl K*l
ALAMO NEVADA WRIGHT
137CS=3,5EOt
ALAMO NEVADA WRIGHT
137CS=2.5E01
DAIRY
K=1.6
DAIRY
K=1.7EOO
PM 5201400172^9120*0650-06 20 66 11900Q79
K-1.4 SR89==B
52014001727912008357 04 25 66 080
K=l.3 89SR=B
52044001727912008354 04^26 66 080
89SR=8
i26 66 080
137CS=2.0E01 K=1.6
52O1400172379120O8621 04 27 66 J 080
5201400172^912008427 04 27 66 080
K=1.3
52O14001T217912O08789? 04 2B 66 1 080
K=1.6
52014001T2279 1200862 3 04 28 66 f 080
52O14QOi7,22912008784i 04 29 66 080
52014001727912008996 04 29 66 -.i 080
NOTE-^LTfXl DENOTES A RESULT LESS THAN X
PAGE
40
-------�
APPENDIX - continued
NEVADA MILK-JAN- 101, 1966 TO JUNE 30r 1966
COLLECTED
ALAMO NEVADA WRIGHT DAIRY
K=1.4 89SR=B
ALAMO NEVADA WRIGHT DAIRY
137CS=2.5E01 K=1.7EOO
ALAMO NEVADA WRIGHT DAIRY
52014001T27912009132 O4 '30 66 t 080
90SR=3
5201400172:7912009010 =04 !30 66 * 080
520140017217912009191 05 01 66 > 080
ALAMO NEVADA WRIGHT DAIRY
137CS=1.5E01 K=1.9EOO
ALAMO NEVADA WRIGHT DAIRY
141CE=5iOE01 131I=2«OE01
ALAMO NEVADA WRIGHT DAIRY
137CS=1.0EOl K=1.3EOO
ALAMO NEVADA WRIGHT. DAIRY J
137CS=B K=U5EOO
ALAMO NEVADA; FREHNER DAIRY
133I=^OEOl 137CS=3*OE01
90SR=5
ALAMO NEVADA:! FREHNER DAIRY
1311=5. OEOl 133I=*o3E02
ALAMO NEVADA: FREHNER DAIRY
131I=«.OE01 133I^3
89SR=B , 90SR=5
ALAMO NEVAOAf FREHNER DAIRY
133I=«;,OE01
NOTE--LT(X) DENOTES A RESULT LESSTHAN X
PAGE
52014001727912009335 05 01 66 080
5201400172,7912009361 05 02 66 ^080
137CS=30QE01 K=1.7EOO
52014001727912009655 05 03 66 ' 080
52014001727912009643 ^05 04 566 ? 080
5201400172^912008356 04 25 66 ', ,* 081
K=1.6 89SR=8
5201400172iZ912008428 04 ^26 66
K=il.5 NOCHEM
52014001727912008361 04 :26 66 ' 081
137CS=3.0E01 K=1.9
52014001723912008617 04 :27 66 '081
137CS=2»OE01 K=1.4
41
-------�
APPENDIX - continued
NEVADA MILK-JAN. 01, 1966 TO JUNE 30, 1966
COLLECTED
ALAMO NEVADA: FREHNER DAIRY :
131I=4i>QEOl 1331*1.1E02
ALAMO ^NEVADA: FREHNER DAIRY
131I*3.0EQ1 1331*1. 9E02
NOCHEMf
ALAMO NEVADA: FREHNER DAIRY
K-1.2
ALAMO NEVADA: FREHNER DAIRY
133i=4i,OE01
ALAMO NEVADA: FREHNER DAIRY
137CS=2*OE01 K-1.6EOO
ALAMO NEVADA: FREHNER DAIRY
137CS=2i,OE01 K=1.8
ALAMO NEVADA -i FREHNER DAIRY:
137CS=3iOE01 K=1.6EOO
ALAMO NEVADA::FREHNER DAIRY
I37CS=1.5E01
ALAMO NEVADA: FREHNER DAIRY
137CS=1.5E01 K=1.6
ALAMO NEVADA: FREHNER DAIRY
137CS=8 K-1.4EOO
ALAMO NEVADA: FREHNER DAIRY
137CS=B K=1.1EOO
52O14001727912008618 04 27 66 / 081
137CS=2.5E01 K*1.5
520140017217912008435 04 27 66 081
137CS=3.0E01 K=1.5
52014001727912008790^04 28 66 T 081
52014001727912008791 ,04 :29 66 ? 081
137CS=3*OEOl K=1.2
520140017279120089^92 104 !29 66 081
52O14O017279120O9130-04 30 66 :f 081
5201400172:7912008990-04 30 66 #081
520140017237912009333 O5 01 66 081
K=1.5EOO
52O140017279120O9189J 05 01 66 j 081
52014Q0172J791200936Z 05 02 66 081
5201400172s7912ff095A6 05 02 66 j 081
NOTE—LTCX) DENOTES A RESULT LESS THAN X.
PAGE 42
-------�
APPENDIX - continued
NEVADA MILK-JAN. 01, 1966 TO JUNE 30» 1966
COLLECTED
ALAMO NEVADA: FREHNER DAIRY
137CS=B K=1.5EOO
ALAMO NEVADA FREHNER DAIRY
137CS=4<,OE01 K=1.4EOO
ALAMO NEVADA FREHNER DAIRY
137CS=2.5EOt K=1.7EOO
ALAMO NEVADA- FREHNER DAIRY
137CS=3.5E01 K=1.7EOO
ALAMO NEVADA FREHNER DAIRY
137CS=2.0E01 K=1.7EOO
ALAMO NEVADA FRJEHNER DAIRY :
137CS=1.5E01 K=1.3EOO
ALAMO NEVADA: FREHNER DAIRY :
13iI=5.0E01 137CS=1.0E01
ALAMO NEVADA FREHNER DAIRY
14iCE=6eOE01
ALAMO NEVADA FREHNER DAIRY
137CS=2.0E01
ALAMO NEVADA! FREHNER DAIRY
137CS=2oOE01 K=1.2EOO
ALAMO NEVADA FREHNER DAIRY
1311=5. OE01 137CS=2«OE01
52014001727912009547,05-03 66 081
89SR=B 90SR=5
52014001727912009647 ,05 03 66 081
520140017Z7912009714 05 04 :66 081
52014001727912009645 05 04 r66 081
520t40ai72^9120097l9 05 05 66 081
5201400172J7912009736 05 05 66 081
52014001727912009738 05 06 66 081
K=1.4EOO
52014001727912009771 05 06 66 081
137CS=2.0E01 K=1.1EOO
52014001727912009773 05 B7 66 081
K=1.3EOO
52014001727912009823 05 i07 66 081
52014001727912009811 05 08 66 081
K=1.8EOO
MOTE-^LTIXl DENOTES A RESULT LESS THAN X.
PAGE 43
-------�
APPENDIX - continued
NEVADA MILK-JANiJOt, 1966 TO JUNE 30» 1966
COLLECTED
ALAMO NEVADA FREHNER DAIRY
1311=3. OEOl 137CS=1.0£01
ALAMO NEVADA: FREHNER DAIRY
K=1.4EOO
ALAMO NEVADA" FREHNER DAIRY
137CS=2iOEQl
ALAMO NEVADA! FREHNER DAIRY
131I*6«,OE01 137CS=2.5E01
ALAMO NEVADA. FREHNER DAIRY
137CS=8 K=1.5EOO
ALAMO NEVADA FREHNER DAIRY
!37CS=5iOEOO K=UOEOO
ALAMO NEVADA- FREHNER DAIRY
137CS=1.5£01 K=1.1EOO
AUSTIN NEVADA GIVENS RANCH
137CS=9iOE01 K=1.6
AUSTIN NEVADA YOUNGS RANCH
K=1.5EO
AUSTIN NEVADA^ IOWA CANYON RANCH
137CS=2.SE1 K=1.3EO
520*4001727912009861 Q5l 08 66 j081
K=1.1EOO
52044001727912009854 05 09 66 #081
52014001727912009893 05 09 66 081
K=1.3EOO
52014001727912009887> 05 10 66 .» 081
K=U1£00
AM 52014001727912009943 45 11 66 ^081
AM 52014001727912009955 05 12 66 1 * 081
AM 52014001727912009945 05 13 66 081
89SR«B 90SR=2
51018701527913010200 05 25 66
89SR=8 90SR=29
510187015127913007653 03 02 66 010
89SR=8 90SR=9
54018701527913007872 03 12 66 CABR
89SR»B 90SR=10
BAKER NEVADA E J CUMMINGS
13ir==l.lE02 133
SR89=8 SR90=5
NOTE--LTCX1 DENOTES A RESULT LESS THAN X.
PAGE 44
AM 53020403327913010794 06 27 66
137CS=3.5E01 K=l.4
124
-------�
APPENDIX - continued
NEVADA MILK-JAN. 101, 1966 TO JUNE 30t 1966
COLLECTED
BAKER NEVADA BAKER RANCH
131I*5«OEOl K=1.4
CALIENfE NEVADA CHARLTON RANCH
131l=*l«,3E02 137CS=8«5E01
CALIENTE NEVADA CHARLTON RANCH
137CS=1.0E01 K=1.8EOO
CALIENfE NEVADA iCHARLTON RANCH
137CS=1.5E01 K=1.8EOO
CAU1ENTE NEVADA CHARLTON RANCH
137CS=2e5E01 K=1.5EOO
CALIENTE NEVADA. CHARLTQN RANCH
137CS=2.0E01 K=1.6EOO
CALIENTE NEVADA CHARLTON RANCH
137CS=li.OE01 K=1.6EOO
CALIENTE NEVADA RAYMOND tRANCH I
133I=5«OE02:
CALIENTE NEVADA RAYMOND 'RANCH
137CS=4oOE01 K=1.6EOO
CALfENf E NEVADA RAYMOND IRANCH
131I=7oOE01 137CS=1.5E01
CALIENfE NEVADA RAYMOND RANCH
137CS=3*5E01
AM 53020403327913010827 06 30 66 135
89SR=5 90SR=5
5203040172J7913008809 04 28 66 \ 001
520304017Z7913009069 04 29 66 001
52030401727913009225 04 30 66 f 001
5203040172791300946If 05 01 66 001
52030401727913009668= 05} 04 66 •> 001
52030401727913009802:05 06 66 -001
52030401727913009075 04 30 66 .) 023
137CS=5«OE02 K=1.6
52030401727913009234 05 01 66 - 023
52030401727913009466 055 Q2 66 .» 023
K=l.6EOO
520304017279130A9574 05 03 66 ~, :t 023
K=1.7EOO
NOTE—LTIX) DENOTES A RESULT LESS THAN X.
PAGE 45
-------�
APPENDIX - continued
NEVADA MILK-JAN. 01, 1966 TO JUNE 30, 1966
COLLECTED
CALIENTE NEVADA RAYMOND LRANCH
137CS=8? K=i.4EOO
CALtENTE NEVADA RAYMOND RANCH
137CS=1.5E01 K=1«1EOO
CALIENTE NEVADA RAYMOND LRANCH
137CS=1.5E01 K=1.4EOO
CALIENTE NEVADA OXBORROW RANCH
137CS=2«5E01 K=1.6EOO
CALIENTE NEVADA OX80RROW RANCH
137CS=2.5E01 K=1.8EOO
CALfENTE NEVADA OXBORROW RANCH
137CS=8 K=l.2EOO
CALIENTE NEVADA OXBORROW RANCH
137CS=8 K=1.4EOO
CALIENTE NEVADA OXBORRO« RANCH
137CS=3.0E01 K=1.2EOO
CALIENTE NEVADA OX80RROW RANCH
137CS=1.5E01 K=1.4EOO
CALIENTE,NEVADA RAYMOND iRANCH
137CS=1.OE1 K=1.5EO
CALIENTE NEVADA TENN1LLE) RANCH
89SR=8 90SR=5
NOTE--LT*X) DENOTES A RESULT LESS
5203040 17279130&966* 05L 04 66
89SR=B 90SR=10
52030401727913009903 05 08 66
89SR=B
52030401727913009904 05 10 66
52030401727913009070 04 30 66
5203040172791S009220 05 01 66
52030401727913009570 05 03 66
5203040172:7913009702 05 05 66
89SR=8 90SR=4
5203040172791BOO9896 05 CO7 66
52O3040l72Jr913009898 05 09 66
53030401727913007976 03 21 66
89SR=B 90SR=10
52030401727913009074 04 29 66
137CS=1.5 EO1 K=1.2EOO
023
023
023
:• 025
t 025
.; 025
025
.;> 025
t 025
EP4A
065
THAN X.
PAGE 46
-------�
APPENDIX - continued -
NEVADA MILK-JAN. X)lt 1966 TO JUNE 30, 1966
COLLECTED
CALIENTE NEVADA TENNfLLE? RANCH
GAMMA SPECTRUM
CALIENTE NEVADA TENNILLE RANCH
131I=5-OE01 137CS=4.5E01
CALf ENTE NEVADA TENNILLE RANCH
137CS=B K=1.0EOO
CALIENTE NEVADA TENNILLE RANCH
137CS=1.0E01
CALIENTE NEVADA TENNILLE RANCH
137CS=1.5E01 K=1.0EOO
CALIENTE NEVADA TENNILLE^RANCH
137CS=1.5E01 : K=1.1EOO
CALIENJE NEVADA TENNILLE RANCH
137CS=i.5E01 -K-UOEOO
CALIENTE NEVADA YOUNGS RANCH
137CS=2«5E1 K=l.6EO
CALIENTE NEVADA YOUNGS RANCH
1 37CS=3 . 5E 1 K=l . 3EO
CALIENTE NEVADA YOUNG RANCH .
137CS=2.5E01 K=l.6
CALIENJE NEVADA YOUNG RANCH
13lI=«3i,OE01 1331*9. OEOl
52030401727913009238 04 :30 66 065
NEGLIGIBLE
52030401727913009459 05 01 66 . 065
K==1.3EOO
52030401727913009571 .05 03 66 065
89SR=B 90SR=3
52030401727913009669 05- 04 ;66 , 065
K=1.1EOO
52030401723913009777';05 06 66 > 065
52030401T27913009895 05 08 66 065
52030401727913009902 05 10 66 065
51030401727913007514 02 09 66 1 ?067
89SR=B 90SR=17
51030401727913007663 03* 01 66 » 067
89SR=B 90SR=5
52030401727913008378 04 ;25 66 067
5203040172^913008470 04 27 66 > 067
137CS=3.0EOl K=1.6
NOTE--^LTtXJ DENOTES A RESULT LESS THAN X.
PAGE 47
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APPENDIX - continued
NEVADA MILK-JAN. 101, 1966 TO JUNE 30, 1966
COLLECTED
CALfEWTE NEVADA YOUNG RANCH
131EN3.QE01 1331*7*0601
CAUfENTE NEVADA 5YQUNG RANCH •
137CS=8 K=l.5£00
CAUfENTE NEVADA YOUNG RANCH
141CE=5*QE01 131E=3.OEOl
CAUIENfE NEVADA YOUNG RANCH
137GS=B K=1.5EOO
CAlil ENTE NEVADA YOUNG RANCH
137CS=8 K=?1.1EOO
CALIENTE NEVADA YOUNG RANCH
137CS=2.5E01 K=1.1EOO
CALIENTE NEVADA YOUNG RANCH
137CS=1.5E01 K=1.3EOO
CALIENTE NEVADA YOUNGS RANCH
131I*7iOE01 137CS=i.5E01f
90SR=3
CALIENfE NEVADA YOUNGS RANCH
137CS=UOE01 K=i.5
CALIENTE NEVADA YOUNGS RANCH
K=U7 89SR=B
CAL1ENJE NEVADA RAYMOND?RANCH
137CS=1.SE1 K=1
520304017279130086S3 04 28 66 067
137CS=3.0E01 K=1.5
52030401727913009071 04 29 66 067
52Q3040172791300922I 04 30 66 i 067
137CS=1.5E01 K=1.5EOO
520304017279130O9566 05y 03 66 067
89SR=8 90SR=4
52030401727913009704 05 05 66 ^067
520304017279130O9907 05 £07 66 \ 067
52030401727913009906 05 10 66 067
89SR=5 90SR=4
PM 51030401727913010105 05 25 66 J067
K=1.3 89SR=8
PM 510304017279130403633 06 20 66 1400067
SR89=8 SR90=3
AH 53030401727913010744 306 24 :66 -j. 067
90SR=3
53030401727913007930 03 17 66 NRXTEP4
SR89=8 SR90=4
NOTE-^LTIX) DENOTES A RESULT LESS THAN X.
PAGE 48
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APPENDIX - continued
NEVADA MILK-JAN. 01, 1966 TO JUNE 30, 1966
COLLECTED
CALIENJE .NEVADA YOUNGS RANCH
l37CS=2i.OEl K=
CURRANT NEVADA BLUE EAGLE RANCH
137CS=9.00E01 K=1.6
CURRANT NEVADA BLUE EAGLE RANCH
137CS=1.30E02 K=1.6
CURRIE NEVADA LEAR RANCH
137CS=2.0£l K=1.9EO
CLARK STATION NEVADA
K=1«7EO
CLARK STATION NEVADA
137CS»7.5E01 K=1.4EOO
CURRANT NEVADA BLUE EAGLE RANCH
137CS=7.Om K=2.0EO
CURRANT NEVADA .BLUE EAGLE RANCH
137CS=9.SE1 K=1,5EO
CURRANT NEVADA BLUE EAGLE RANCH
l37CS=7.ffiEl K=1.9EO
CURRANT NEVADA BLUE EAGLE RANCH
137CS=5«OE01 : K=1
CURRANT NEVADA BLUE EAGLE RANCH
137CS=1.0E02 K=1.6
51032001727913007407 01 26 66 067
89SR=B 90SR=7
51034002327912007323 01 05 66 099
89SR=5 90SR=12
51034002327912007332 01 13 66 099
89SR=B 90SR=16
54038800727913007874 03 10 66 CABR047
89SR=B 90SR=11
53034002327913007480 02 :04 66 NR2B101
89SR=B 90SR=10
52034002327913007718 03 08 66 RHOT101
89SR=B 90SR=20
51038602327913007513 02 10 66 > 099
89SR=B 90SR=16
51038602327913007558 02 M7 66
89SR=B 90SR=18
51038602327913008212 :04 :01 66
89SR=B 90SR=9
099
5000099
51038602327912009843 05 05 66 099
PM 53038602327913010772 06 24 66 099
SR89=20 SR90=7
NOTE--LTIX) ..DENOTES A RESULT LESS THAN X.
PAGE 49
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APPENDIX - continued
NEVADA MILK-JAN^ 301, 1966 TO JUNE 30r 1966
COLLECTED
CURRANT NEVADA MANZONIE RANCH
137CS=2.5E01 K=1.8
CURRANT ^NEVADA ;19 HI W OF CURRANT
137CS=5;.Q11 K=1»1EO
DUCKWATER NEVADA HALSTEAD JRANCH
K=1.2
DUCKWATER NEVADA HALSTEAD 'RANCH
137CS=2.5EOt K=1.3EOO
DUCKWATER NEVADA HALSTEAD iRANCH
13ir=3%OE01 137CS=3iOE01
9QSR=6
ELGIN NEVADA iBLUE RANCH
137CS=3.5E01 K*1.6
ELGIN NEVADA BLUE RANCH
137CS=4«,OE01 K=1.5EOO
ELGIN NEVADA BLUE RANCH
137CS=4.0E01 K=1.2EOO
ELGIN NEVADA BLUE RANCH
K=1.7EOO
ELGIN NEVADA BLUE RANCH
137CS=5,5E01 K=l.5EOO
EL YUNEVADA GEYSER RANCH
K=2.7 SR89=B
AM 53038602327913010725 06 24 :66 188
SR89=5 SR90=5
51038602327913008213 03 31 66
89SR=B 90SR=11
51048002327912007333 01 12 66 105
89SR=B 90SR=14
51048002327913009750 05 04 66 105
AM 51048002327913010631 06 16 66 105
K=1.4 89SR=10
52054201727913008810-04 28 66 > 064
52054201727913009078 04 29 66 064
52054201727913009233 04 30 66 ^064
520542017279130A9458 05 01 66 064
52054201727913009666 05? 04 166 > 064
AM 53054903327913010793 06 27 66
SR90=8
NOTE^-LTIX) DENOTES A RESULT LESS THAN X.
PAGE 50
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APPENDIX - continued
NEVADA MILK-JAN. >01, 1966 TO JUNE 30, 1966
COLLECTED
ELY,.NEVADA ROGER BROS RANCH
137CS=5.0EOO K=1.5
ELY :NEVADA YELLAND RANCH
137CS=6.05E1 K=1.5EO
•ELYLNEVADA YELLAND 5RANCH
137CS=6.5EOi K=1.2
ELY NEVADA YELLAND RANCH
137CS=2.0E01 K=1.2
ELY-NEVADA GEORGETOWN RANCH
137CS=4.5E1 K=1«7EO
• EUREKA NEVADA WILLOWS RANCH
137CS=3.0E01 K=1.5
< EUREKA NEVADA WILLOWS RANCH
137CS=3.GE1 K=1.4EO
EUREKA NEVADA WILLOWS RANCH
137CS=3o5;El K=1.4EO
* EUREKA NEVADA WILLOWS RANCH
137CS=2«5E01 K=l.l
EUREKA NEVADA WILLOWS RANCH
137CS=2.5E01 K=l.2
EUREKA NEVADA SEGURAS RANCH
106RU=2.0€1 137CS=l.50E2
90SR=2l
AM 53054903327913010790 06 27 66
SR89=8 SR90=4
54054903327913007873 03 10 66 CABROOO
89SR=B 90SR=13
AM 53054903327913010777 06 26 66 000
SR89=15 SR90=12
AM 53054903327913010791 06 27 66
SR89=5 SR90=18
51054903327913007525 02 X>9 66 105
89SR=B 90SR=12
51058001127912007329 01 05 66 003
89SR=B 90SR=9
51058601127913007554 02 17 66 003
89SR=B .. . . 90SR=11
51058601127913008303 04 13 66 003
89SR=B 90SR=9
51058601127913010181> 05 24 66 003
89SR=?B 90SR=12
AM 51058601127913010503 06 07 66 8910003
89SR=B 90SR=13
51058601127913007564 02 117 66
K=1.5EO 89SR=B
022
NOTE-^LT{X> DENOTES A RESULT LESS THAN X.
PAGE 51
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APPENDIX - continued
NEVADA MILK-JAN. J01, 1966 TO JUNE 30, 1966
COLLECTED
EUREKA NEVADA SEGURAS RANCH
137CS=2*OEQl K=2.3
EUREKA NEVADA CIRCLE RANCH
137CS=1.511 K=1.1EO
HALLECK NEVADA GLASSER CD RANCH
137CS=1.20E2 K=1.4EO
HIKO NEVADA DAVIS RANCH
131l=5l.aE03 133I=7.1E03
89SR=5 90SR=3
HIKO NEVADA DAVIS RANCH
131C=3.5E03 1331=7. 8E03
HIKO NEVADA DAVIS RANCH
131I=2.87E03 133I=3»53E03
HIKO NEVADA DAVIS RANCH
131I=>I.99E03 1331-1. 16E03
90SR=4
HIKO NEVADA DAVIS RANCH
133I*1.1E03
HIKO -NEVADA DAVIS RANCH
141CE-1.37E03 131I=1.70E03
HIKO NEVADA DAVIS RANCH
14CE=6.73E03 131I=»2.98E03
51058601127913010178 05 24 66 022
89SR=B 90SR=7
54058601127913007875.03 11 66 CA8R
89SR=B 90SR=13
54080000727913007878 03 10 66 CA8R
89SR=B 90SR=43
520834017217913008411 04 ^6 66 031
132I*6^0E02 1351=31.5E03
52083401727913008533 04 27 66 ^031
1321*1. 9E03 135I=^.5E02
52083401727913008690 04 28 66 031
89SR=15 90SR=4
52083401727912008968 04 29 66
1321=1. 39E03 89SR=20
52083401727913009133 04 30 66 031
52083401727913009334 05 01 66 031
133I=6.2E02
52014001727913009549 05 02 66 031
133I=6.5E02
NOTE--LTCX) DENOTES A RESULT LESS THAN X.
PAGE 52
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APPENDIX - continued
NEVADA MILK-JAN. JO** 1966 TO JUNE 30» 1966
COLLECTED
HIKO NEVADA DAVIS RANCH
141CE=1.12E03 131I-2.34E03
90SR=7
HIKO NEVADA DAVIS RANCH
141CE=3.83E03 131I=1.80£03
90SR=5
HIKO NEVADA DAVIS RANCH
141CE=1.3E02 1311=9. 7E02
HIKO NEVADA DAVIS RANCH
141CE=9.5E02 1311-7. OE02
HIKO NEVADA DAVIS RANCH
141CE=6«,OE01 131I=s5.1E02
HIKO NEVADA DAVIS RANCH
141CE=3oOE02 131F=3«5E02
HIKO NEVADA DAVIS RANCH
141CE=3,7E02
89SR=20 90SR=5
HIKO NEVADA DAVIS RANCH
131I=2.4E02 137CS=7.5E01
90SR=7
HIKO NEVADA DAVIS RANCH
141CE=4wOEOt 1311=?!. 3E02
89SR=10 90SR=6
5208340172^7913009648 05 03 66 031
133I=5i.7E02 89SR=50
520834Q1T27913009696 05 04 66 ~, 031
133I=2.6E02 89SR=35
52083401727913009735 05 05 66 031
132TE-I=*3.7E02 I
52083401727913009820 05 06 66 031
52083401727913009826 05 3)7 66 031
52083401727913009858 05 08 66 031
52083401727913009894 05 09 66 031
137CS=4.5E01 K=1.7EOO
PH 52083401727913009950 05 10 66 031
K=1.4EOO- 89SR=15
PM 52083401727913009954 05 11 66 031
137CS=6.0E01 K=1.4EOO
NOTE—LTtX) DENOTES A RESULT LESS THAN X.
PAGE 53
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APPENDIX - continued
NEVADA MILK-JAhU JO*, 1966 TO JUNE 30, 1966
COLLECTED
HIKO NEVADA OAVIS RANCH
141CE=4VOE01 131I=4.3E02
89SR=10 90SR=5
HIKO NEVADA DAVIS RANCH
131I«8*OE01 137CS=4.5E01
90SR=5 .. . ..
HIKO NEVADA OAVIS RANCH
89SR=15 90SR=2
HIKO NEVADA DAVIS RANCH
K=1.8 89SR=20
HIKO NEVADA DAVIS RANCH
137CS=UQE01 K=l.l
HI1KO NEVADA DAVIS RANCH
K=l.5 89SR=10
HIKO NEVADA SCHOFIELD DAIRY
K=1.5EO
HIKO NEVADA SCHOFIELD DAIRY
K=1.6EO 89SR=8
HIKO NEVADA iSCHOFIELO DAIRY
137CS=5*OEO K=1.4EO
HIKO NEVADA sSCHOFIELO DAIRY
3wOEl K=1.3EO
PH 52083401727913009942 05 12 66 J 031
137CS=8^0EOl K=1.3EOO
52083401T27913010025 05 25 66 J 031
K=1«OEOO 89SR=80
PM 5208340l72J79130t0455 06 07 66 4902031
031
031
031
057
NR2B057
057
J 057
52083401727913010532 06 14 66
90SR=8
PM 520834017279130106^7 06 ^0 66
SR89=15 SR90=6
AM 52083401727913010852 06 29 66
90SR=5
51084001727912007404012666
89SR=B 90SR=2
53083401727912007442 02 B4 !66
90SR=8
510834017279120O7664 03 01 66
89SR==B 90SR=7
51083*01727912008176 03 29 66
89SR=B 90SR=6
NOTE—LTCX) DENOTES A RESULT LESS THAN X.
PAGE 54
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APPENDIX - continued
NEVADA MILK-JAN. X)l» 1966 TO JUNE 30t 1966
COLLECTED
HIKO NEVADA CSCHQFIELD DAIRY
1310=3. 2E02 133I=1.0E03
89SR=B 90SR=4
HIKO NEVADA rSCHOFIELD DAIRY
1311=3. 3E03 1331=2. OE04
89SR=5 90SR=4
HIKO NEVADA SCHOFIELD DAIRY
1311=4. 9E03 133I=6.1E03
89SR=5 90SR=4
HIKO NEVADA SCHOFIELD DAIRY
1311=*. 4E03 1331*1. 5E04
89SR=10 90SR=3
HIKO NEVADA SCHOFIELD DAIRY
1311=*. 8E03 133I=4o2E04
HIKO NEVADA 3CHQFIELD DAIRY
141CE=9.89E03 131I=4«OOE03
90SR=3 ........
HIKO NEVADA tSCHOFIELD DAIRY
133I=4.68E03
HIKO NEVADA SSGHOFIELD DAIRY
131I=4«80E03 1331=4. 64E03
HIKO NEVADA SCHOFIELD DAIRY
131I=4.5E02 l33I=i.5E02
HIKO :NEVADA rscHOFiELD DAIRY
131I=Si.OE02 133I=2.9E02
52083:401727912008347 04 25 66 057
135I=8«OE02 K=1^7
52083401727912008412 04 :26 66 057
1321=3.1E03 135I=4.1E04
52083401727912008355 04 26 66 057
132t=4.9E02 1351=4.3E03
52083401727912008433 04 27 66 057
1321=1.1E03 135I=-2.5E03
520834017^7912008534 04 27 66 057
132I«li.9E03 1351-1. OE03
5208340172-7912008616 04 28 66 057
133I=*.66E03 89SR=10
52083401^27912008691 04 28 66 057
89SR=10 90SR=3
52083401727912009138 04 30 66 ; >057
89SR=5 90SR=3
52083401727912009135 04 30 66 > 057
89SR=B 90SR=5
52083401727912009003 04 30 66 t 057
89SR=8 90SR=5
NOTE—LTCX) DENOTES A RESULT LESS THAN X.
PAGE 55
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APPENDIX - continued
NEVADA MILK-JAN. 01, 1966 TO JUNE 30, 1966
COLLECTED
HIKO! NEVADA I5CHOF1E11D DAIRY
1311=2. 5E02 1331^7. OE01
89SR=& 90SR=5
HIKO NEVADA SCHOFIELD DAIRY
141CE*4.1E02 1311=1. 4E02
89SR*B 90SR=5
HIKO NEVADA SCHOFIELD DAIRY
141CE=7.0E01 1311^1. 3E02
89SR=8 90SR=5
HIKO NEVADA ISCHOFIELO DAIRY
141C£=1»5E02 131I=>UOE02
89SR=B 90SR=5
HIKO NEVADA SCHOFiELD DAIRY
137CS^6%OE01 131I*8
89SR=B 90SR=5
HIKO! NEVADA rSCHOFlELD DAIRY
141CE=1.2E02 131I=7
89SR=B 5 90SR=5
HIKO NEVADA iSCHOFIELD DAIRY
131I1=3*OE01 137CS=2.0E01
9QSR=5
HIKO NEVADA [SCHOFIELD DAIRY
137CS=3i,OE01 K=1
HIKO NEVADA CSCHOFIELD DAIRY
1311=1. OE01 137CS=l.5E01
5208340O2i?912Q09194 05 01 66
137CS=1.6E02 K=1.7
52Q83401727912009331 05 01 66
K=1.5EOO
520834Q1727912009365 05 02 66
137GS=5.0E01 K=1.8EOO
52083401727912009541 05 02 66
137CS=4wOE01 K=1.2EOO
52083^01727912009532 05 03 66
141CE=1.7E02 K=1.7EOO
52083401727912009651 05 03 66
137CS=3.0E01 K=1.6EOO
52083401723912009699 05 04 J66
K=1.1EOO 89SR=B
520834017^7912009652 05 04 ^66
89SR=B 90SR=5
5208340172^912009700 05 05 66
K=1.5EOO
./ 057
057
* 057
057
057
057
057
j 057
J 057
NOTE~LT«XJ DENOTES A RESULT LESS THAN X.
PAGE 56
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APPENDIX - continued
NEVADA MILK-JAN. !0i» 1966 TO JUNE 30f 1966
COLLECTED
HIKO NEVADA SCHOFIELD DAIRY
141CE=4.0E01 131I=4.0E01
HIKO NEVADA SCHOFIELD DAIRY
1311=6.0601 137CS=3^0E01
HIKO NEVADA ISCHOFIELD DAIRY
141CE=UOE02 131l=4oOEOl
HIKO NEVADA SCHOFIELD DAIRY
131I=3oOE01 137CS=3.5E01
90SR=ll
HIXO NEVAD SCHOFIELD DAIRY
137CS=2.5E01 K=1.4£00
HIKO NEVADA :SCHQFIELD DAIRY
1311=^.0101 137CS=2.0E01
HIKO NEVADATSCHOFIELD DAIRY
131I=5bOE01 137CS=3.5E01
HIKO NEVADA SCHOFIELD DAIRY :
137CS=2.5E01 K=1.2EOO
HIKO NEVADA ISCHOFIELD DAIRY
131I=i.5E02 137CS=2.5E01
90SR=5 .......
HIKO NEVADA SCHOFIELD DAIRY
K=U4 89SR=B
HIKO NEVADA CSCHOFIELD DAIRY
137CS=UO!1 K=1.3EO
52083401727912009791 05 05 66 057
137CS=3oOE01 K=1.3EOO
52083401T27912009793 05 06 66 057
K=i.5EOO
52083401T2J912009796 05 06 66 057
137CS=2.5E01 K=1.1EOO
52083401T27912009794 05 i07 66 « 057
K=1.4EOO 89SR=B
52083*01727912009827 05 O7 66 057
52083401727912009868 05 08 66 057
K=l.5EOO
52083401727912009812 05 08 66 ', ? 057
K=1.4EOO
PM 52083401727912009968 05 13 66 057
89SR=B . 90SR=5
AM 51083^01727912010434 06 03 66 057
K=1.5EOO 89SR=10
52083401T27912010598 06 17 661 057
90SR=4
53083401722912007908 03 17 66 NRXTEP4
89SR=B 90SR=3
NOTEr—LTtX-l DENOTES A RESULT LESS THAN X.
PAGE 57
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APPENDIX - continued
NEVADA MILK-JAN. 01, 1966 TO JUNE 30, 1966
COLLECTED
HIKQrNEVAOA LSCHOFIELD DAIRY.:
131I>i,47EQ3 133r=4.37E03
HIKO NEVADA ISCHQFIELD DAIRY
131I«1*D3E03 1331*7.3E02
HIKQ NEVADA 3CHQFIELD DAIRY ;
K^1.6. .. . . SR89=8
HIKQ NEVADA tSCHQFIELD DAIRY
137CS=5^0EOQ K=l.4
LAS VEGAS NEVADA
137CS=?2.5EQ1
K=i.iEOO
LAS VEGAS NEVADA VEGAS VALLEY FARMS
137CS=lo5EOl K=1.5
LAS VEGAS NEVADAs VEGAS VALLEY FARMS
137CS=3.0E01 K=1.6
LAS VEGAS NEVADA ANDERSON DAIRY
137CS=1.511 K=1.5EO
LAS VEGAS NEVADA ANDERSON DAIRY
K=1.6EO
LAS VEGAS NEVADA ANDERSON DAIRY
137CS=2.SE1 K=1
LAS VEGAS NEVADA ANDERSON DAIRY NO 3
137CS=1.0EOt K=1.7
520B4001727912008793 04 29 66 057
89SR=B 90SR=4
52084001727912008966 04 29 66 3057
89SR=B 90SR=4
AH 53083SO1727912010745 06 23 66 j057
SR90=4
AM 530835Q1727912010742 06 24:66 ^057
SR89=5 SR90=3
51I2Q7003279110O9972 05 3.7 66
89SR=8 90SR=5
52120700327912008463 04 :26 66 301
NOCHEM
52120700327911008807 04 28 66 301
51120700327911007529 02 :18 66 302
89SR=B 90SR=7
51120700327911007818 03 11 66 0000302
89SR=8 90SR=6
51120700327912008291 04 ill 66 0000302
89SR=8 90SR=6
52120700327911008420 04 25 66
NOCHEM
302
DENOTES A RESULT LESS THAN X.
PAGE 58
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APPENDIX - continued
NEVADA MILK-JAN. X)tt 1966
LAS VEGAS NEVADA ANDERSON
137CS=2«5E01 K=l.
TO JUNE 30r 1966
DAIRY NO 1;
COLLECTED
LAS VEGAS NEVADA ANDERSON DAIRY NO 2
137CS=5.0EOO K=l.l
LAS VEGAS NEVADA ANDERSON
137CS=3i>OE01 K-1
LAS VEGAS NEVADA ANDERSON
137CS=1*OE01 K=1
LAS VEGAS NEVADA ANDERSON
137CS=2eOE01 K=1
LAS VEGAS NEVADA ANDERSON
137CS=2i,OE01 K=1
LAS VEGAS NEVADA ANDERSON
137CS=3^0E01 K=1
LAS VEGAS NEVADA ANDERSON
137CS=2.0E01 K=1
LAS VEGAS NEVADA ANDERSON
137CS*2o5E01 K=1
LAS VEGAS NEVADA ANDERSON
137CS=B K-1
DAIRY ;NO 3
3EOO
DAIRY NO 2
2EOO
DAIRY NO ;3
6
DAIRY
0EOO
DAIRY
6EOO
DAIRY
5
DAIRY
5EOO
DAIRY NO 2
6EOO
LAS VEGAS NEVADA ANDERSON DAIRY NO 3
52120700327912008421 04 26 66 302
NOCHEM
52120700327912008422 04 :26 66 302
NOCHEM
52120700327912008693 04 28 66 302
NOCHEM
52120700327912008694 04 28 66 302
NOCHEM
52120700327912008795 04 28 66 302
52120700327912008991 .04 28 66 302
52120700327912008993 04 28 66 302
52120700327911008803 04 29 66 302
52120700327912008988? 04 29 66 302
52120700327912009354 04 29 66 302
52120700327912009350 04 29 66 302
NOTE—rLTIX) DENOTES A RESULT LESS THAN X.
PAGE 59
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APPENDIX - continued -
NEVADA MILK-JAN* JQ1, 1966 TO JUNE 30, 1966
COLLECTED
LAS VEGAS NEVADA ANDERSON DAIRY NO 1
137CS=2.5E01 K=1.5EOO
LAS VEGAS NEVADA ANDERSON DAIRY NO 4
137CS=B K=1.1EOO
LAS VEGAS NEVADA ANDERSON DAIRY
K=i.6EOO
LAS VEGAS NEVADA ANDERSON DAIRYING 1
137CS=3«,QE01 K=i
LAS VEGAS NEVADA ANDERSON DAIRY NO 3
137CS=2i,QE01 K=l.6EOO
LAS VEGAS NEVADA ANDERSON DAIRY
131l=6*0£01 137CS=4iOE01
LAS VEGAS NEVADA ANDERSON DAIRY
137CS==1.0E01 K=1
LAS VEGAS NEVADA ANDERSON DAIRY NO 3
137CS=3.5E01 K=1.8EOO
LAS VEGAS NEVADA ANDERSON DAIRY
137CS=1.5E01 K=1.6EOO
LAS VEGAS NEVADA -ANDERSON DAIRY
137CS=2.5E01: K=1.5EOO
LAS VEGAS NEVADA ANDERSON DAIRY NO 4 :
137CS=8 K=i.4EOO
NOTE-^LTtX) DENOTES A RESULT LESS THAN X.
PAGE
52120700327912009352 04 30 66 302
52120700327912009355 04 30 66 302
52120700327912009527 05 01 66 302
52120700327912009522 05 01 66 302
52120700327912009531 05 01 66 302
52120700327912009526 05 02 66 302
K==1.7EOO
52120700327911009356 05 02 66 302
52120700327912009638 05 02 66 302
89SR=8 90SR=7
52120700327912009709 05 03 66 302
52120700327912009710 05 03 66 302
52120700327912009634 05 03 66 302
89SR=8 90SR=5
60
-------�
APPENDIX - continued • • •
NEVADA HILK-JAN. X)18 1966 TO JUNE 30r 1966
COLLECTED
LAS VEGAS NEVADA ANDERSON DAIRYING 1
131I=5«OEOl 137CS=3.0E01
LAS VEGAS NEVADA ANDERSON DAIRY NO 2
137CS=3«5E01 K=1.4EOO
LAS VEGAS NEVADA ANDERSON DAIRY
137CS=8 K=1.1EOO
LAS VEGAS NEVADA ANDERSON DAIRY INO 3
137CS=30OE01 K=1.3EOO
LAS VEGAS NEVADA ANDERSON DAIRY :
137CS=2.0E01 K=1.1EOO
LAS VEGAS NEVADA ANDERSON DAIRY :
137CS=2wOE01 K=1.2EOO
LAS VEGAS NEVADA ANDERSON DAIRY
137CS=2«,OE01 - K=1.3EOO
LAS VEGAS NEVADA ANDERSON DAIRY
137CS=2.5E01 K=1.3EOO
LAS VEGAS NEVADA ANDERSON DAIRY
137CS=3.QE01 K=1.2EOO
LAS VEGAS NEVADA ANDERSON DAIRY
137CS=lo5E01 K==i.3EOO
LAS VEGAS NEVADA ANDERSON DAIRY
137CS=2«5E01 K=1.4EOO
52120700327912009784y 05 04 166 302
K=1.4EOO
5212070032791200978L 05 04 ^66 302
52120700327912009711 05 04 66 302
89SR=8 90SR=4
52120700327-912009780/05 05 66 302
5212070032791Z009852 05 05 66 302
52120700327912009853 05 05 66 302
52120700327912009850 05 06 66 302
52120700327912009851 05r07 66 302
52120700327912009859 05
-------�
APPENDIX - continued -
NEVADA MILK-JAN. 301, 1966 TO JUNE 30, 1966
COLLECTED
LAS VEGAS NEVADA ANDERSON DAIRY
137CS=2«5E01 K=1.1EOO
LAS VEGAS NEVADA ANDERSON DAIRY
131I=6<.OE01 137CS=i.OE01
90SR=5
LAS VEGAS NEVADA ANDERSON DAIRY
137CS*3iOE01 K=1.2EOO
LAS :;VEGAS NEVADA ANDERSON DAIRY
137CS*3«QEOl K=1.1EOO
LAS VEGAS NEVADA ANDERSON DAIRY
137CS=2^0EOl K=1.3EOO
LAS VEGAS NEVADA ANDERSON DAIRY
137CS=3*OE01 K=1.6EOO
LAS VEGAS NEVADA ANDERSON DAIRY
137€S-2o5E01 K=1.4EOO
LAS VEGAS NEVADA SANDERSON DAIRY :
137CS=2.5E01
LAS VEGAS NEVADA ANDERSON DAIRY
137CS=2*OE01 K=1.1EOO
LAS VEGAS -NEVADA ANDERSON DAIRY
137CS=2iOE01 K=1.3EOO
LAS VEGAS NEVADA ANDERSON DAIRY
13U«1%OE02 137CS=1.5E01
90SR=5
52120700327912009865 05^ 08 66 302
52120700327912009919 05 08 66 302
K=1.1EOO 89SR=8
52120700327912009911 05 08 66 302
52120700327912009913 05 09 66 302
52120700327912009914 05 09 66 302
52120700327912009917 05 09 66 302
52120700327912009910 05 10 66 302
89SR=B 90SR=5
52120700327912009925 05 10 66 302
K=1.2EOO
PMi52120700327912009967 05 12 66 302
PM 52120700327912009966 05 14 T66 302
PH 52120700327912009982? 05 16 66 302
K=1.2EOO 89SR=8
NO?E™LTfX) OENOfES A RESULT LESS THAN X.
PAGE 62
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APPENDIX - continued
NEVADA MILK-JAN- X)l, 1966 TO JUNE 30, 1966
COLLECTED
LAS VEGAS NEVADA ANDERSON DAIRY
131I=4bOE02 137CS=2.0E01
90SR=5
LAS VEGAS NEVADA ARDEN DAIRY
137CS=1.SE1 K=1.7EO
LAS VEGAS NEVADA ARDEN DAIRY
137CS=5.0EO K=1.7EO
LAS VEGAS NEVADA ARDEN DAIRY
137CS=1.0E01 K-1,4
LAS VEGAS NEVADA ARDEN DAIRY
.137CS=5.0EOQ K=1.5
LAS VEGAS NEVADA ARDEN DAIRY
137CS=5.0EOO K=1.5EOO
LAS VEGAS NEVADA ARDEN DAIRY ,
137CS=3.0E01 K=1.6EOO
LAS VEGAS NEVADA ARDEN DAIRY ;
137CS=2o5E01 K=1
LAS VEGAS NEVADA MEADOW GOLD .DAIRY
137CS=1WOE01 K=1.3EOO
LAS VEGAS NEVADA MEADOW GOLD DAIRY
K=1.5
LAS VEGAS NEVADA ARDEN DAIRY
137CS=1.5E01 K=1.6EOO
AM 5212070032791200998105 19 66 302
K=1.1EOO 89SR=B
51120700327911007528 02 118 66 303
89SR=B 90SR=10
511"20700327912008292 04 11 66 0000303
89SR=8 90SR=2
PM 52120700327912008468 04 ,26 66 303
52120700327912008649 04 28 66 303
52120700327912009353 05 01 66 303
52120700327911009357 05 02 66 303
52120700327912009523 05 03 66 303
89SR=B 90SR=5
52120700327911009358 05 02 66 305
52120700327911008804 04 29 66 310
52120700327911008808 04 29 66 311
NOTE—^LT*XT DENOTES A RESULT'LESS THAN X.
PAGE 63
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APPENDIX - continued
NEVADA MILK^JAN. £1, 1966 TO JUNE
LAS VEGAS NEVADA ARDEN DAIRY
137CS=1.5EOl K=1.7
LAS VEGAS NEVADA ARDEN DAIRY
137CS=3-OE01 K=1.5EQO
LATHROP WELLS NEVADA OANSBY RANCH
137CS=5*OEO K=1.5
LATMROP WELLS NEVADA DANSBY RANCH
K=1.2EO
30, 1966 COLLECTED
52120700327911008805 04 29 66 311
LATHRQP WELLSl NEVADA OANSBY RANCH
137CS=1.011 K=1.3EO
LATHROP WELLS NEVADA DANSBY RANCH
K-1.3EO 89SR=8
LATHROP WELLS NEVADA DANSBY RANCH
137CS=8.5E01 K=l.4
LATHROP WELLS NEVADA DANSBY RANCH
K=1.4 89SR=B
LATHROP WELLS NEVADA DANSBY RANCH
137CS=UOE01 K=1.2
LATHROP WELLSi NEVADA DANSBY RANCH
K=1.3
LATHROP WELLS NEVADA DANSBY RANCH
K=1.2 89SR=B
52120700327912009077 04 30 66
311
53120902327913007501 ,02
89SR=B 90SR=
51120902327913007549 02
89SR=B 90SR=
53120902327913007593 03
89SR=8 . 90SR=
52120902327913007708 03
90SR=5
53120902327913008055 03
89SR-B 90SR=
53120902327913008097 03
90SR=5
511209023279130A8311 04
89SR=B 90SR=
AM 53120902327913010490-06
89SR=B 90SR=
AM 53120902327913010508 06
90SR=5
12 66 065
11
'16 66
3
04 66
6
065
065
07 66 RHOT065
26 66
4
065
28 66 EP4A065
20 66 ^5300065
2
09 66
6
10 66
065
065
NOTE--LTtX) DENOTES A RESULT LESS THAN X.
PAGE 64
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APPENDIX - continued
NEVADA MILK-JAN. iOt, 1966 TO JUNE 30* 1966
COLLECTED
LATHROP WELLS NEVADA DANSBY RANCH
131I=4,OE01 137CS=2.5EOl
90SR=6
LATHROP WELLS NEVADA DANSBY RANCH
131I=5«OE01 137CS=l.OE01
90SR=6 -
LAS VEGAS NEVADA ANDERSON DAIRY
144CE=6.0;£1 137CS=2.5E1
90SR=7
LAS VEGAS NEVADA ARDEN DAIRY
137CS=3.ttEl K=1.6EO
LATHROP HELLS: NEVADA DANSBY :RANCH
137-l^OEOl K=1.5EOO
LOGANDALE NEVADA VEGAS VALLEY DAIRY
137CS-3*0:El K=U5EO
LQGANDALE NEVADA VEGAS VALLEY DAIRY
131l=6.0E01 137CS=i*OE01
90SR=3 ., .
LUND NEVADA 1MCKENZIE DAIRY
137CS=2.50E01 K=1.6
LUND NEVADA MCKENZIE DAIRY I
137CS=3.50E01 K=1.4
LUND NEVADA IMCKENZIE DAIRY
137CS=2o5E01 K=1.8EOO
53120902327913010530^06 13 66 / 065
K=lo2 89SR=B
AM 53120902327913010588^06 17 66 065
K=1.2 89SR=B
51121000327911007398 01 25 66 001
K=lc5EO 89SR=B
51121000327911007359 01 25 66 303
89SR=B 90SR=9
51121502327913007I89>01 19 66 1*13065
89SR=B 90SR=3
51125000327912007437 02 01 66 301
89SR=B 90SR=6
51125200327911010454 ;06 05 66 301
K=1.3 89SR=5
51128003327912007331 ,01 07 66 077
89SR=B 90SR=6
51128003327912007348 01 07 66 077
89SR=8 90SR=10
51128003327912007390 ^01 22 66 14163077
89SR=B 90SR=6
NOTE^-LTCX) DENOTES A RESULT LESS THAN X.
PAGE 65
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APPENDIX - continued
NEVADA MILK-JAN. lOli 1966 TO JUNE 30* 1966
COLLECTED
LUND NEVADA MCKENZIE DAIRY
137CS=3.5JE1 K=1.3EO
LUND NEVADA MCKENZIE DAIRY
137CS=3.7E1 K=i.8EO
LUND NEVADA MCKENZIE DAIRY
137CS=3«5E1 K=l.5EO
LUND NEVADA MCKENZIE DAIRY
137CS=3.5E1 K=1.3EO
LUND NEVADAfMCKENZIE DAIRY
137CS=?3*O£1 K=1.6£0
LUND NEVADA MCKENZIE DAIRY
137CS=4iOEl K=1.7EO
LUND NEVADA MCKENZIE DAIRY
137CS=2.O£1 K=1.4EO
LUND NEVADA iMCKENZIE DAIRY
137CS=3.SE1 K=1.4EO
LUND NEVADA MCKENZIE DAIRY
137CS=3*O£1 K=l«2EO
LUND NEVADA IMCKENZIE DAIRY
137CS=3,5E1 K=l.9EO
LUND NEVADA IMCKENZIE DAIRY
K=l.3EO
51128003327912007422 01 29 66 J 077
89SR=B 90SR=7
5ir285033279l20Q7482K02 304 66 O004077
89SR=8 90SR=10
51128503327912007512 :02 10 66 0004077
89SR=8 90SR=13
51128503327912QO7527 02 14 :66 077
89SR=8 90SR=7
5ir285O33279120075Tl 02^20 66 077
89SR=B 90SR=7
51128503327912007573^02:27 66 J077
89SR=B 90SR=8
51128503327912007871 103 11 66 J 077
89SR=8 90SR=6
51128503327912007950 03 18 66 * 077
SR89=8 SR90=9
51128503327912008068 03 25 66 077
89SR=B 90SR=5
51128503327912008271 04 03 66 077
89SR=B 90SR=7
51128503327912O08296 O4 10 66 077
89SR=B 90SR=6
NOTE--LT*X) DENOTES A RESULT LESS THAN X.
PAGE 66
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APPENDIX - continued
NEVADA MILK-JAN» 201, 1966 TO JUNE 30, 1966
COLLECTED
LUND NEVADA MCKENZIE DAIRY
137CS=3«,OE01 K=1.6
LUND NEVADAiMCKENZIE DAIRY
137CS=2»OE01 K=1.3
LUND NEVADA iMCKENZIE DAIRY
137CS=3*OE01 K=l,5
LUND NEVADA iMCKENZIE DAIRY
137CS=3.5EQ1 K=1.5EOO
LUND NEVADA WCKENZIE DAIRY
137CS=2iOE01 K=1.6
LUND NEVADA iMCKENZIE DAIRY
137CS=3.0E01 K=1.3EOO
LUND NEVADA iMCKENZIE DAIRY:
137CS=2.0E01 K=1.3EOO
LUND NEVADA IMCKENZIE DAIRY
137CS=2^.0g01 'K-1.2EOO
LUND NEVADA iMCKENZIE DAIRY
137CS=le5E01 K=1.2EOO
LUND 1NEVADA IMCKENZIE DAIRY
137CS=3iOE01 K^l.5
LUND NEVADA IMCKENZIE DAIRY
137CS=2bOE01 K=1.
52L28503327912008419 04 24 i66 > 077
NOCHEM
52128503327912008665 04 126 66 077
52128503327912008731 04 27 66 i 077
52128503327912009000 04 28 66 077
52r28503327912009185> 04 29 66 J 077
52128503327912009754 05 05 66 >077
AM 51128503327912009939 05 13 66 077
89SR=B 90SR=6
AM 511285033279120*0014:05 19 66 077
89SR=B 90SR=7
AM 51L2850332T912010228 05 31 66 077
89SR=B 90SR=5
511285033279120*0506 06 i08 66 077
89SR=B 90SR=5
5112850332:7912Q40586r06 16 66 .* 077
89SR=5 90SR=2
NOTE--LTIX) DENOTES A RESULTaESS THAN X.
PAGE 67
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APPENDIX - continued
NEVADA MILK-JAN. X>19 1966 TO JUNE 30, 1966
COLLECTED
LUND NEVADA MCKENZIE DAIRY
K=1.8 SR89=B
LUND NEVADA IMCKENZIE DAIRY
K=l,4 SR89=B
LUND NEVADA iUCKENZIE DAIRY
137CS=?lkOE01 K=1.2
LUND NEVADA MCKENZIE DAIRY
131I=2»OE01 137CS=2bO£01
90SR=5
MANHATTEN NEVADA PEAVINE RANCH
137CS^2.5QE01 K=1.9
MANHATTEN NEVADA PEAVINE RANCH
137CS=4i,OJEl K-1.7EO
MANHATTEN NEVADA PEAVINE RANCH
137CS=1.5E1 K-1.7EO
HANHATTEN NEVADA PEAVINE RANCH
137CS=2WOE01 K=1.7EOO
MANHATTAN NEVADA PEAVINE RANCH
K=1.3EO
MANHATfEN NEVADA PEAVINE RANCH
137CS=1.5E01 K=1.5
MANHATTEN NEVADA PEAVINE RANCH
K=1.2
AM 53128503327912010726 06 24 :66 99O2077
SR9Q=5
AM 53128503327912010771 06 25 66 .) 077
SR90=3
511285033279120107841:06 27 66 ) 077
SR89=B SR90=24
511285Q3327912S1O853 06 29 66 * 077
K-1.2 89SR=B
51131002327912007324 :01 06 66 002
89SR=B 90SR=3
51130502327913007S32 02 16 f>6 ? OO2
89SR=B 90SR=4
51130502327913007637 03 01 66 002
89SR=B 90SR=4
521305023279130077:17 *03 07 66 RHOTOO2
89SR=8 90SR=2
511305O2327913008aOl 04 13 66 i 002
89SR=B _. 90SR=4
51130502327913010179 05 25 66 002
89SR=B 90SR=7
AM 51130502327913010493 06 07 66 002
89SR=B 90SR=11
NOTE-^LTfX) DENOTES A RESULT LESS THAN X.
PAGE 68
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APPENDIX - continued
NEVADA MILK-JAN* .01. 1966 TO JUNE
MANHATTEN NEVADA PEAVINE RANCH
137CS=2.0E01 K=1.4
MANHATTiN NEVADA LEE HIATT RANCH
137CS46»5:E1 K=1.7
MANHATTEN NEVADA LEE HIATT RANCH
137CS=5«5E01 K=1.8EOO
MESQUITE NEVADA HUGHES BROS DAIRY
137CS=2.5E1 K=1.4EO
MESQUITE NEVADA iHUGHES BROS DAIRY
137CS=3oOE01 K=1.3
MESQUITE NEVADA HUGHES BROS DAIRY
137CS=2.5;E1 K=l.2EO
30, 1966 COLLECTED
AM 51130502327913010839 06 29 66
MOAPA NEVADA
137CS=1«OE01
K=1.4
MOAPA NEVADA SEARLES DAIRY
137CS=2.5€l K=1.
MOAPA NEVADA SEARLES DAIRY
137CS=3.5EQ1 K=1.3EOO
MOAPA NEVADA SEARtES DAIRY :
137CS=2.5E1 K=1.8EO
MOAPA NEVADA SEARLES DAIRY
137CS-5.0EO K=lc4EO
NOTE — LT(X) DENOTES A RESULT LESS
51131002327912007322 01 05
89SR=B 90SR=15
521305023279130077.16 03 07
89SR=B 90SR=18
51131600327912007805 03 08
89SR=B 90SR=8
PM 51131600327912010651 06 20
89SR=B 90SR=6
51131800327912007438 01 31
89SR=B 90SR=9
AM 53135000327912O10686r06 23
SR89=B SR90=4
51135000327912007441 02 :03
89SR=5 90SR=3
PM 51135000327912010:433 06 02
89SR=B 90SR=5
53t35000327912007904 03 16
SR89=B SR90=7
53135000327912007905 03 17
SR89=B SR90=8
66
002
018
66 RHOT018
66 .) 062
66 69^^062
66 062
66
66 071
66 071
66 NRXTEP4
66 NRXTEP4
THAN X.
PAGE 69
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APPENDIX - continued
NEVADA MILK-JAN. 01, 1966 TO JUNE 30* 1966
COLLECTED
MOAPA NEVADA SEARLES DAIRY
137CS=2.5;E1 K=1.5EO
MOAPA NEVADA HIDDEN VALLEY DAIRY
137CS=3.011 K=1.2EO
HOAPA NEVADA HIDDEN VALLEY DAIRY
137CS=3.S£1 K=1.4EO
NYALA1 NEVADA
137CS=7«5E01
K=1«7EOO
NYALA NEVADA SHARP RANCH
137CS=6«QI1 K-1.4
NYALA NEVADA SHARP RANCH
137CS=9.OE1 K=1.3EO
NYALA: NEVADA SHARP RANCH
137CS=4,5E01 K=1.2EOO
NYALA NEVADA
137CS=i*5EOO
K=1.3
NYALAi NEVADA SHARP RANCH
13H=3*OE01
PAHRUMP NEVADA BOWMAN RANCH
137CS==2.5E1 K=l.4EO
PAN^CA NEVADA _C+G RANCH
K=1.2
53135000327912007977 03 21 66 EP4A071
89SR=B 90SR=7
51135000327912008186* 03 29 66
89SR=B 90SR=2
51135000327912008185) 03 31 66
89SR=8 90SR=4
52149002327913007T19 03 07 66 RHOT054
89SR=B 90SR=14
51149002327912007321 ;01 05 66 054
89SR=B 90SR=10
511490023279120082BO -04 05 66 1000054
89SR=B 90SR=12
51149002327913009926 05 11 66 J054
89SR=B 90SR=6
AM 52149002327913010562 06 16 66 0000054
89SR=B 90SR=7
53149002327913010724 L06 24 566 1902054
K=1.9
53160202327911007578 03 04 :66 169
89SR=B 90SR=10
52160601727913008652 104 28 66 000
NOTE—LT(X) DENOTES A RESULT LESS THAN X.
PAGE 70
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APPENDIX - continued
NEVADA MILK-JANo ;01 » 1966 TO JUNE
PANACA NEVADA C+G RANCH
137CS=3.5E01 K=1.7EOO
PANACA NEVADA OG RANCH
137CS=7.0E01 K=1«6EOO
PANACA NEVADA C+G RANCH
137CS=9oOE01 K=1.8EOO
PANACA NEVADA DECK RANCH
133I=*o6E02
PANACA NEVADA DECK RANCH
131I-7i,OEOl 133I=*.2E02
NOCHEM
PANACA NEVADA DECK RANCH
137CS=3o5E01 K=1.3
PANACA NEVADA DECK RANCH
137CS=3.5E01 K=?1.7
PANACA NEVADA DECK RANCH
137CS=3s.QE01 K=1.2EOO
PANACA NEVADA DECK RANCH
137CS=4.0E01 K=1.6EOO
PANACA NEVADA DECK RANCH
137CS=6bOE01 K=1.7EOO
PAN^ACA NEVADA K LEE RANCH :
L37CS-1.5E01 K=l»7
NOTE-^LTCXJ DENOTES A RESULT LESS.
30, 1966 COLLECTED
52160601727913009080* 04 29 66 J 000
52160601727913009226 04 30 66 ?000
52160601727913009471 05 02 66 000
521606017!279130083B0^04 i26 66 068
137CS=5.5E01 K=1.5
5216060172^913008473 04 27 66 068
!37CS=6cOE01 K=1.5
52160601727913008650 04 28 66 068
52160601T27913008812 04 29 66 068
52160601727913009079 04 30 66 J 068
52160601727913009227 :05 Ot 66 "? # 068
52160601727913009476 05 02 66 068
52I606O1727913008379 04 :26 66 069
NOCHEM
THAN Xo
PAGE 71
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APPENDIX - continued
NEVADA MILK-JAN^ St, 1966 TO JUNE 30, 1966
COLLECTED
PANACA NEVADA K LEE RANCH
1311=2^0101 133I=2.1E02
PANACA NEVADA K LEE RANCH
141CE=2WOE01 131I=5*OE01
K=l.7£QO K
PAMACA NEVADA K LEE RANCH
141CE=5i,QEOt 131I=*<,7£02
K=1,2EOO 1
PANACA NEVADA K LEE RANCH
13H=?i«6E02 137CS=6.5E01
PANACA NEVADA K LEE RANCH
13 1 1=1 . 2EO 2 1 37C S=4 . OE 0 1
PANACA NEVADA IK LEE RANCH
137CS=5iOE01
PANACA NEVADA X LEE RANCH
137CS=liOE01 K=1.1EOO
PANACA NEVADA K LEE RANCH
131I=5.0E01 137CS=3.0E01
PANACA NEVADA K LEE RANCH
137CS==2c5E01 K=1.3EOO
PANACA NEVADA K LEE RANCH
137CS=1»5E01 K=1.4EOO
PANACA NEVADA KILEE RANCH
137CS=3iOE01 K=1.2EOO
5216060172sZ913008469 04 27 66
K=1.8
52160601727913009076 O4 130 66
133I=)2.0E01 137CS=3.5EOl
5216060172^913009230 04 30 66
137CS=4«,OE01
52160601727913009464 05 02 :66
K=1.8EOO
5216060172I79130A9572 05 03 66
K==1,2EOO
52160601727913009670 05 04 566
K=1.3EOO
52160601727913009705 05 05 66
52160601T27913009797 05 06 66
K=1.3EOO
52160601727913009899 05 3)7 66
52160601727913009901J05 08 66
52160601727913009897 .05 09 66
89SR=B 90SR=8
I 069
* 069
» 069
* 069
069
069
i 069
* 069
> 069
' 069
j 069
NOTE--LTfX) DENOTES A RESULT-LESS THAN X.
PAGE 72
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APPENDIX - continued . . . .
NEVADA MILK-JAN« JQ1» 1966 TO JUNE 30, 1966
COLLECTED
PANACA NEVADA K LEE RANCH
137CS=lo5EOl K=1.6EOO
PAHRUMP NEVADA ISHMAEL RANCH
137CS=li,OOE01 K=i.4EOO
PIOCHE NEVADA DELMUE RANCH
1311=8.OE01 137CS=6.0E01
PIOCHE NEVADA ROSE VALLEY RANCH
137CS=1«»5E01 K==1.2
PIOCHE NEVADA HORLACHER RANCH
137CS=2«0£1 K=i.2EO
PIQCHE NEVADA HORLACHER RANCH
137CS=5wOE01 K=lo4
PIOCHE NEVADA HORLACHER RANCH
137CS=2i>OEOl K=1.5
PIOCHE NEVADA HORLACHER RANCH
137CS-5i,OE01 K=1.4
PIOCHE NEVADA HORLACHER RANCH
137CS=2.5E01 K=1.2EOO
PIOCHE NEVADA HORLACHER RANCH
137CS=2«,OEOt K=1.6EOO
PIOCHE NEVADA HQRLACHER RANCH
137CS=4.5E01 K=1.6EOO
52160601TZ7913009900 05 10 =66 069
AH 51160202327913011302 10 21 66 5700
89SR=0 90SR=0
5216350:1727913008471 04 27 66
K=1.5 NOCHEM
52163501727913008381^,04 i26 66
NOCHEM
51163001727913007400 ^01 25 66 075
89SR=B 90SR=8
52163501727913008472:04 :27 66 075
NOCHEM
52163501727913008651104 28 66 075
52163501727913008811 J04 29 66 075
52163501727913009072 :04 30 66 j 075
52163501727913009222 05 01 66 ', » 075
521635ai7279130B9573-05 03 66 »075
NOTE-r-LTlX) DENOTES A RESULT LESS THAN X.
PAGE 73
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APPENDIX - continued
NEVADA MILK-JAN. X)l, 1966 TO JUNE 30r 1966
COLLECTED
PIQCHE NEVADA HQRLACHER RANCH
137CS=3wOE01 K=1.3
PIOCHE NEVADA HORLACHER RANCH
K=1.6 . . . SR89=15
ROUND MOUNTAIN NEVADA TTT RANCH
137CS=4.5£1 K=1.5EO
ROUND .MOUNTAIN NEVADA TTT RANCH
137CS=2bOEl K=1.6E089SR=B
ROUND MOUNTAIN NEVADA TTT RANCH
137CS=2wOEl K=l.5EO
ROUND MOUNTAIN NEVADA TTT RANCH
2bO€l K=1.5EO
ROUND MOUNTAIN NEVADA TTT RANCH
137CS=2.5E01 K=1.3 .._..
ROUND MOUNTAIN NEVADA TTT RANCH
131I=3*OE01 137CS=UOEOl
90SR=6
ROUND MOUNTAIN NEVADA TTT RANCH
137CS=1.5E01 K=1.7
SHOSHONE NEVADA HARBEKE RANCH
131I=S.OE01 1331=5.OEOl
89SR=2Q 90SR=10
PM 51t635ai7279130t0^56 06 06 66 140003T5
89SR-5 90SR=8
AM 53163501T2J913010743 06 24 46 ..* 075
SR90=4
51185802327913007555 02 16 66 * 005
89SR=8 . __ 90SR=12
51185802327913007645 03 02 66 016
90SR=6 .
54185802327913007877 03 12 66 CABR016
89SR=B 90SR=10
51185802327913008300 04 12 66 J 016
89SR==B 90SR=8
51185802327913010180*05 25 66 016
89SR=8 90SR=14
51185B02327913010495 06 06 66 4310O16
K=1.6 89SR=5
51185802327913010838 06 29 66? 83^0016
AM 5319250332I9130i077a> 06 26 66 003
137CS=2.0E01 K=1.4
NOTE—*LT(X) DENOTES A RESULT LESS THAN X.
PAGE 74
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APPENDIX - continued
NEVADA MILK-JAN. .01, 1966 TO JUNE 30, 1966
COLLECTED
SHOSHONE NEVADA HAR8ECKE RANCH
131I=*.3E01 137CS=2.0EOl
SR90=17
SHOSHONE NEVADA KIRKEBY RANCH
131I=203E01 133I=1«3E03
SR89=5 SR90=8
SHOSHONE NEVADA KIRKEBY RANCH
131I=8«?OEOl 1331=2.4E01
SR89=10 SR90=6
SHOSHONE NEVADA KIRKEBY RANCH
1311=2.4E02 1331=3.IE02
SR89=B SR90=i5
SHOSHONE NEVADA KIRKEBY RANCH :
1311=9.OE01 133I=6^0E01
SR89=1Q SR90=6
SHOSHONE NEVADA KIRKEBY RANCH
137CS=4i,OE01 K=1.3
SPRINGDALE NEVADA PEACOCK RANCH
137CS=2i.OE01 K=1.2EOO
SPRINGDALE; NEVADA PEACOCK RANCH
137CS=1.511 K=1
SPRINGDALE' NEVADA PEACOCK RANCH
137CS=3^0;E1 K=1.5EO
90SR=6
AM 53192503327913010792 06 27 66 #003
K=1.5 SR89=10
AH 53192503327913010775 06 24 66 106
137CS=2.0E01 K«1.4.
AM 53192503327913010776 06 25 66 106
137CS=3.0E01 K=1.4
AM 53192503327913010774 06 26 66 106
137CS=4.0E01 K=1.4
AM 53192503327913010789> 06 27 66 106
137CS=1.5EOl K=1.4
AM 53192500327913010829 06 30 66 106
89SR=B 90SR=16
5ir950023279l3007391 01 18 66 1520174
89SR=B 90SR=C
53196402327913007439 02 :04 66 NR2B174
89SR=B 90SR=5
51196402327913007543 02 17 66
89SR=B
174
NOTE—LT(X) DENOTES A RESULT LESS THAN X.
PAGE 75
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APPENDIX - continued
NEVADA HILK-rJAN. J01» 1966 TO JUNE 30t 1966
COLLECTED
SPRINGDALf NEVADA PEACOCK RANCH
137CS=6.0E01 K*1.2EQ
SPR I NGDALE NEVADA PEACOCK RANCH
137CS=5*OE1 K=1.1EO
SPRINGDALE NEVADA PEACOCK RANCH
137CS=5i.OEQO ; K=1.3
SPRINGDALE NEVADA PEACOCK RANCH
137CS=4i.QEQl K = 1.5
SPRINGOALE! NEVADA PEACOCK RANCH
137CS=2.0E02 K=l.l
SPRINGDALE NEVADA PEACOCK RANCH
13iD»3*OEOt... 137CS=2.5E01
90SR=4
SPRINGDALE NEVADA PEACOCK RANCH
137CS=2*5E01 Kali." 9
URSINE NEVADA DONAHUE RANCH
141CE=U66E03 131I=1«06£03
URSINE NEVADA DONOHUE) RANCH
1311=3. 2E02 137CS=2iO£01
90S«=15
URSINE NEVADA -DONAHUE: RANCH
137CS=4iOE01 K=1.4EOO
521964023279130077,09 03 07 66 RHOT174
89SR=8 90SR=5
51196402327913007820 03 10 66
89SR=B 90SR=5
174
53196402327913008056 03 26 66 EP4A174
89SR=8 90SR=10
53196402327913008109 03 28 66 11721T4
89SR=8 90SR=7
51196402327913008312304 20 66 5700174
89SR=10 90SR=6
PM 53196402327913010492 06 07 66 174
K=1.4 89SR=8
AM 5319640232791301048a> 0& 09 66 174
89SR=8 90SR=4
52216701727913008806 04 28 66 008
133I=1.:23E03 137CS=4.5E01
5221670172^913009565 05 03 66 OO8
K-1.9EOO 89SR=8
52216701727913009667 05' 04 6& 008
89SR=8 90SR=19
NOTE-^-LTlXI DENOTES A RESULT LESS THAN X.
PAGE 76
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APPENDIX - continued
NEVADA MILK-JAN. :01B 1966 TO JUNE 30, 1966
COLLECTED
URSINE NEVADA DONAHUE1 RANCH
13U=si«,7E02 137CS=2.5EQ1
URSINE NEVADA DONAHUE! RANCH
1311=1. 4E02 137CS=loOE01
URSINE NEVADA DONAHUE? RANCH
131 l=7,OEO 1 137CS=1 .5E01
90SR=14
URSINE NEVADA mCROSKY RANCH
137CS=6o5E01 K=2.2EOO
URSINE NEVADA IMCCROSKY RANCH
137CS=5iOE01 K=2iOEOO
URSINE NEVADA ^MCCROSKY RANCH
137CS=4*OE01 K=1.9EOO
URSINE NEVADA LYTLE RANCH
137CS=2*OE01 K=1.6
URSINE NEVADA LYTLE RANCH
K=1.5
URSINE NEVADA fLYILE RANCH
K=l.3
URSINE NEVADA LYTLE RANCH
K=1.7EOO
URSINE NEVADA LYTLE RANCH
137CS=3.0E01 K=1.6EOO
522167017:27913009707 05 05 66 < 008
K=l.8EOO
522167017Z7913009801 ,05 06 66 '; 008
K=1.2EOO
52216701727913009905 05 10 66 008
K=lolEOO 89SR=B
522I67OlT2im3QA9474 05 01 66 ? 013
52216701T2T913009A80^05 02 66 013
52216701727913009663 05^ OA 66 013
5221670172179130A8468 04 27 66 > 073
522I67017Z7913008654 !04 28 66 073
5221670172J7913008802 04 :29 66 * 073
52216701727913009073 04 30 66 / 073
52216701727913009229 05 01 66 j 073
NOTE—LT(X) DENOTES A RESULT LESS THAN X.
PAGE 77
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APPENDIX - continued
NEVADA MILK^JAN.:01, 1966 TO JUNE 30 t 1966 COLLECTED
URSINE NEVADA LYTLE RANCH 52216701727913009468^05*02 66' / 073
137CS=3*OE01 K=1
URSINE NEVADA .LYTLE RANCH 52216701727913009567 05/ 03 66 073
137CS=5.0E01 _- K*1.3EQO --
WELLS: NEVADA G08EL RANCH 54231600727913007876 03 10 66 CABR109
137CS=6kOEI K=lo7EO 89SR=8 90$R=15
MINNEHUCCA NEVADA 3V DAIRY 54233501327912007879 03 12 66 CABR
2»5£1 K=1.3EO 89SR=B 90SR=4
NOTE— LTIX) DENOTES A RESULT LESS THAN X.
PAGE 78
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APPENDIX - continued
UTAH MILKB4AN. :0ttl966 TO -JUNE 30 1 1966
BEAVER UTAH GORDON ROBERTS
137CS=8.5E01 K=1.9
BEAVER UTAH GORDON ROBERTS
137CS=4«5E01 5=1.6
CEDAR] CITY UTAH MATHESON DAIRY ;
K=1.8EO 89SR=B
CEDARS CITY UTAH MATHESON DAIRY
137CS=4.0E01 K=1.7
CEDAR: CITY ;UTAH MATHESON DAIRY
137CS=UOE01 K=l.i
CEDAR: CITY ;UTAH MATHESON DAIRY .
137CS=3«5E01 K*i.6
CEDARJ CITY JUTAH MEADOW GOLD
137CS=1.5E01 K=l,l
CEDAR- CITY UTAH MEADOW -GOLD
l37CS=2iOE01 K=1.5EOO
CEDAR- CITY UTAH MEADOW GOLD . .. .
137CS=UQE01 K=1.5EOO
CEDARi CITY iUTAH MEADOW GOLD
137CS=1WOEOI K=1.3EOO
CEDAR: CITY UTAH .MEADOW GOLD
137CS=5.5E01 K=1
COLLECTED
52021200143812008467* 04 126 66 J 001
NK3CHEM i
52021200143812008462 04 :27 66 001
NOCHEM . . .
53031102143812007980^03 21 66 EP4A003
90SR==9
52031102143812008464 04 £26 66 A 003
NOCHEM
52031102143812008732 04 27 66 003
5203110214381:2008466 04 :27 66 * 003
89SR=B 90SR=10
52031102143812009174 04 ;29 66 267
89SR=B 90SR=6
52031102143812009506 05 02 66 267
52031102143ai20ff9712? 05 03 66 267
52031I021438I2009729 05 03 66 267
52031102143812009783> 05 04566 267
NOTE— 4.T1-X) DENOTES A RESULT LESS THAN X,
PAGE
79
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APPENDIX - continued
UTAH HILK-JAN «,£!?» 1966 TO JUNE 30» 1966
CEDARS CITY UTAH MEADOW GOLD
137CS=2.5E01 K=1.3EOO
CE0ARJ CITY .UTAH MEADOW GOLD
137CS=4.5E01 K=1.1EOO
CEOARlCITY UTAH MATHESON DAIRY
137CS=2«0;E1 K=1.7EO
GARRISON UTAH GONDERS RANCH
137CS=6.SE1 K-1.5EO
GARRISON UTAH GONDERS RANCH
4*0E1 K=1.2EO
GARRISON UTAH GONDER RANCH
137CS-2*OE01 K-1.2EOO
GARRISON UTAH GONDER RANCH
137CS=4«,OE01 K=1.5EOO
GARRISON UTAH GONDER RANCH
137CS=4i,OE01 K=1.4EOO
GARRISON UTAH GONDER RANCH
K=1.4EOO
GARRISON UTAH GONDERSrRANCH
137CS=3,OE01 K=1.5.
COLLECTED
52031102143812009871 105 05 66 267
89SR=B 90SR=8
52031102143812009873 05 06 66 267
530311021438120B7931 :03 17 66 NRXTEP4
SR89=8 SR90=10
51070602743812007511 02 ?09 66
89SR=8 90SR=19
5K0706027438r3008207 03 29 66
89SR=8 90SR=4
52070602743813009662 05 03 66
89SR=8 90SR=8
AM 52070602743813009660-05? 04 :6fr
52070602743813009751 05 05 <66
5207060274381:3009761? 05? 06 66
AM
GARRISON UTAH GONDERS RANCH
144CE=5*OOE01
90SR=10
NOTE-^LTtX) DENOTES A RESULT LESS THAN X.
PAGE
53O?0602743«130*0B30-06 30 66
89SR=8 90SR=9
51072002743812007347 01 3.3 66
K-1.6 89SR=B
006
006
006
006
006
006
006
006
80
-------�
APPENDIX - continued
UTAH MILK-JAN. ;01,1966 TO JUNE 30, 1966
KANAB UTAH J JOHNSON RANCH
137CS=4.5EOi K=1.6
KANAB UTAH J JOHNSON RANCH
137CS=4o5E01 K=l.7
KANAB 'UTAH J JOHNSON RANCH
137CS=6.5E01 K=1.8EOO
MINERSVILLE UTAH MINERSVILLE DAIRY
137CS=2.5E01 K=1.8
MINERSVILLE UTAH MINERSVILLE DAIRY
137CS=5«>OE01 K=le8EOO
MXNERSVILLE UTAH MINERSVILLE DAIRY
137CS=l.5E01 K=1.2EOO
MINERSVILLE UTAH MINERSVILLE DAIRY ,
137CS=2.5E01 K=1.5EOO=
MT PLEASANT UTAH BROOKLAWN CRM
137CS=3«5E01 K=1.4EOO
MT PLEASANT .UTAH BROOKLAWN CRM
137CS=2.0E01 K=-liO .
MT=PLEASANT UTAH BROOKLAMN-CRM
137CS=1.0EOl K=1«5EOO
MT PLEASANT UTAH BROOKLAWN CRM
137CS=5.0E01 K=1.2EOO
NOTE--LTIXJ DENOTES A RESULT LESS THAN X.
PAGE
COLLECTED
52110402543813009202 04 ^30 66 • 000
89SR=B . 90SR=7 1
52110402543813009198 05 01 66 000
89SR-B 90SR=8
52110402543813009481) 05 02 66 - 000
89SR=B 90SR=10
5213340014381^009169 04 30 66 266
5213360014381^2009525 05 01 66 266
52133600143812009633 05 02 66 266
52133600143812009708 05 04 166 266
521358039438MOA8615 04 27 66 264
5205803943812009179 04 29 66 264
5213580394381:2009503 05 01 66 264
52I358039438t2009502 05 02 66 264
89SR=B 90SR-17
81
-------�
APPENDIX - continued
UTAH MILK-JAN. 301,1966 TO JUNE 30* 1966
MTnPLEASANT UTAH BROQKLAWN CRM
137CS=4*OE01 K=1.6EOQ
MT PLEASANT iUTAH BROQKLAHN CRM
137CS=1WOE01 K=1.4
MT PLEASANT^UTAH 8ROOKLAWN CRM
137CS=4.5E01 K*1«6EOO
MT PLEASANT UTAH 8ROOKLAWN CREAMERY AM
137CS=2«5£01 K=l.4
MT PLEASANT UTAH BROOKLAHN CREAMERY AM
K=1.5 SR89=10
MT PLEASANT IUTAH BROQKLAHN CRM
137CS=2i,OE01 K=l*6
NEW CASTLE UTAH NEH CASTLE DAIRY
137CS=2*011 K=1.8EO
NEW CASTLE UTAH NEH CASTLE DAIRY
137CS=5.5E1 K=1.9EO
NEH CASTLE UTAH NEH CASTLE DAIRY AM
137CS=2iOEOt K=1^3
NEWCASTLE UTAH NEWCASTLE DAIRY
137CS=3.SEl K=l.5EO?
OGDEN UTAH MAPLE -LEAF DAIRY
K=l.6EOO
COLLECTED
52135803943812009517 05 02 66
89SR=B 90SR=17
521358039438L20O9620 05 03 66
521358039438£2009720 05 04 t66
531358039438120108O6 06 29 66
SR89=15 SR90=11
53t358039438t20t08I8 06 30 66
SR90=12
521385039438^2008733 04 28 66
51141802143815007660? 03) 02 66
89SR=B 90SR=8
51I41802I438K2008178 03 30 66
89SR==8 90SR=5_
51I41802r438t2Gt0109 05 25 66
89SR=8 90SR=8
51143002143812007402 :01 25 66
89SR=B 90SR=9
52152105743812008977 04 27 66
264
264
264
264
264
264
} 001
j 001
001
262
NOTE—-LTtXJ DENOTES A RESULT LESS. THAN X.
PAGE 82
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APPENDIX .- continued : .
UTAH HILKKJAN. 101,1966 TO JUNE 30, 1966
OGDEN UTAH MAPLE LEAF DAIRY
K=1.5 89SR=8
OGDEN UTAH MAPLE LEAF DAIRY
137CS=4«,OBOl K=1.2EOO
OGDEN UTAH MAPLE LEAF DAIRY I . .
137CS=4.5E01 K=1.5
ORDERVILLE UTAH! CHAMBERLAIN RANCH
137CS=2.5EOl K=1.4
ORDERVILLE UTAH; CHAMBERLAIN RANCH
137CS=l.OE01 K=1.3
PAROWAN UTAH HYATT DAIRY 1
K=1.7EO SR89=B
PAROWAN UTAH HYATT DAIRY
137CS=1.5E1 K=lo7EO?
RICHFIELD UTAH; IDEAL DAIRY
137CS=3oOE01 K=1.0EOO
RICHFIELD UTAH IDEAL DAIRY
137CS-4i,OEOl K=1.5EOO
ST GEORGE UTAH COX DAIRY
137CS=3.50E01 K=1.5
ST 'GEORGE UTAH
AM
COLLECTED
521521057438112009631 04 30 66 262
90SR=4
521:52105143812009765? Q5f 03 66 262
5315210574381L2010858 06 30 66 262
SR89=8 SR90=10
52156102543813009190 ^05 01 66 > 000
52156102543813009192 05 01 66 * 000
89SR=?B 90SR=5
5316070214381201)7932 03 17 66 NRXTEP4
SR90=9
53160702143812007978 03 21 66 EP4A
89SR=8 90SR=9
52183001443812009321.04 29 66
89SR=B 90SR=5
52183001443812009722 05 04 166
K=1.6
NOTE--LTIX) DENOTES A RESULT LESS THAN X
PAGE
51L98005343812007330 =01 07 66
89SR=?B 90SR=7
51198005343812QO7355 01 21 66
89SR=B 90SR=6
83
265
265
001
004
-------�
APPENDIX - continued
UTAH HILK-nJAN. »t,1966 TO JUNE 30, 1966
ST GEORGE UTAH
137CS=2^011 K=l.9EO
ST GEORGE UTAH COX DAIRY
137CS=3.SE1 K=l.4EO
ST GEORGE UTAH
137CS=3-5E1
ST GEORGE UTAH
137CS=1.5E1
K=1.4EO
K=1,7EO
ST GEORGE UTAH COX DAIRY
l37CS=2k0£l K=
ST GEORGE UTAH: COX DAIRY
106RU=3s.OiEi 137CS=4.5£1
SR90=6
STiGEORGE UTAH R COX DAIRY
2^0El K=l.7EO
STiGEORGE UTAB COX DAIRY
4w01l K=1.3EO
ST GEORGE UTAH R COX DAIRY
K=1.5EO
ST GEORGE UTAH R COX DAIRY
137CS=3iOEOl 5=1.3
ST GEORGE^ UTAH R COX DAIRY
137CS=2.5EQl K=l.5
COLLECTED
511:980053438*2007411 01 28 66 * 004
89SR=B 90SR=23
51t900053438fc2O07526 02 -11 66
89SR=8 90SR=12
5 1 19800534381200748^02 #4 !66 004
89SR=B 90SR=5
51198005343812007567 02 :18 66 ? 004
89SR==8 90SR=8
511:900053438*2007840 03 11 66 001
89SR=8 90SR=6
511980053438120:07951 i03 18 66 004
K=1.4EO SR89=B
531900053438L2007979 03 21 66 EP4A001
89SR=B 90SR=3
5ir90005343812008065 03 25 ;66
89SR=B 90SR=7
001
5319000534381S20S7907 03 17 66 NRXTEP4
89SR=B 90SR=6
521900053438*2008465 04 26 66 f 001
NOCHEM
521900053438E2009172 304 29 66 001
XI DENOTES A RESULT LESS* THAN X.
PAGE
84
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APPENDIX - continued
UTAH MILK-JAN. 304,1966 TO JUNE 30, 1966
STsGEQRGElUTAH R COX DAIRY
137CS=2-5E01 K=1.4
ST^GEORGE UTAH ST GEORGEUCE
K=1.6
ST GEORGE UTAH
137CS=1.5JE1
ST GEORGE UTAH
ST LT(XJ DENOTES A RESULT LESS YTHAN X.
PAGE
COLLECTED
521900053438E2009183? 04 30 66 > OOl
52190005343812Q09175 04 30 66 002
51i:900053438120A8227 -04 01 66 , > 004
89SR=B - 90SR=6
51190005343811I008286? 04 08 66 004
89SR=B 90SR=6
5ir9000534381200831l 04 15 66 004
89SR=B 90SR=7
52I900053438r2009519 05 01 66 001
521900053438t2009627 05 03 66 001
89SR=B 90SR=8
52190005343812009693 05 04 166 001
52190005343812009776 05 06 66 > 001
51190005343812010013 05 20 66 001
89SR=B 90SR=7
511900053438120*0194 i05 <27 66 > 001
89SR=B 90SR=8
85
-------�
APPENDIX - continued
UTAH MILK-JAN, »1,1966 TO JUNE 30, 1966
ST-GEORGE UTAH ST GEORGE^ ICE
137CS=2*0£Ol K=1.2EOO
ST GEORGE UTAH ST GEORGEilCE
13?CS=2o5E01 K=l.6EOO
STtGEORGE UTAH, COX DAIRY -
137CS=3.5EOl K=1.4EOO
COLLECTED
ST GEORGE UTAHi COX DAIRY
137CS=i.5E01 K=l.5
ST GEORGE UTAH COX DAIRY
137CS=1.5E01 K=1.3
ST GEORGE /UTAH
ST -GEORGE UTAH
137CS=2«5EOl
K=1.2
K=1.2
AM
SALT LAKE CITY UTAH DAIRY POOL
137CS=l.5E01 K=1.3EOO
SALT LAKE CITY UTAH DAIRY POOL
137CS=4.5EOl K=i.7
SALT LAKE CITY UTAH DAIRY POOL
137CS=2«OEOl : K=1.2EOO
SALT LAKE CITY UTAH DAIRY POOL
137CS=3.5E01 K=1.5
NOTE-^LTCX) DENOTES A RESULT LESS THAM X.
PAGE
5219000 53A38 £200^510 05 01
521900053438K2009515 05 02
5ir90O053438l!2009938 05 13
89SR=8 90SR=7
52190005343812010608 06 17
89SR=B 90SR=4
51I900t)53438K20I0785? 06 24
SR89=8 SR90=5
5ir90O05343ai£Ot0435 06 02
89SR=B 90SR=7
51I90O05343812010SQ9 06 10
89SR=B 90SR=7
52190403543812008547 04 25
89SR=8 _ 90SR=10
5219040354381E2008726 04 28
89SR-8 90SR=14
521904035438 12008978 04 29
89SR=8 90SR=12
521904035438L20a9108 04 29
66
66
66
66
i66
66
66
66
66
66
66
002
002
004
i 001
001
•j 004
* OO4
000
000
i 000
t 000
86
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APPENDIX - continued
UTAH MILK-JAN. 501,1966 TO JUNE 30, 1966
SALT LAKE CITY UTAH DAIRY POOL
137CS=5*OEQ1 K=1.6EOO
SALT LAKE CITY UTAH DAIRY POOL
137CS=3.0E01 K-1.4 .
COLLECTED
52190403543812009520 '05 02 66 000
52190403543812009616 05 03 66 t 000
SALT LAKE CITY UTAH DAIRY POOL PM
137CS=4.5EOi K=1«2EOO
SALT LAKE CITY UTAH DAIRY POOL
131D*3.0EOl 137CS=3.0E01
90SR=10
SMITHFIELD UTAH; CACHE VALLEY DAIRY
137CS=3.0E01 K=1.6
SMITHFIELD UTAH. CACHE VALLEY DAIRY :
137CS=4.0E01 K=1.6
SMITHFIELO UTAH CACHE VALLEY DAIRY
K=l»5 , 89SR=B t . . .
SMITHFIELD UTAH CACHE VALLEY DAIRY
137CS=2«5E01 K=i.4EOO
SMITHFIELD UTAH CACHE VALLEY DAIRY
137CS=4.5E01 K=1.3EOO
SPANISH FORK UTAH TOWN PRIDE
137CS=5*OEOO -- K=1.4EOO
SPANISH FORK UTAH TOWN PRIDE
137CS=4.GE1 K=1.5EO
NOTE-^LTIX).DENOTES A RESULT LESS THAN X.
PAGE 87
521904O35438t2009983?-05 «17 66 '000
89SR=8 90SR=13
51190403543812010226 05 ^27 66 000
K=1.5 89SR=5
52194300543812009622 ;O4 :26 66 261
52194300543812009625 04 29 66 261
52194300543812009618 05 02 66 261
90SR=17
52194300543812009728 05 03 66 261
52194300543812009759 05 04 ;66 261
5219600494381^008549 04 25 66 263
89SR=B 90SR=9
52196004943812008538 04 27 66 263
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APPENDIX - continued ' - -
UTAH MILK-JAN. J01t 1966 TO JUNE 30* 1966 COLLECTED
SPANISH FORK UTAH TOWN* PRIDE 521960049438 120E089863 04 28 66 263
137CS=8.5E01 K=1«6EOQ
SPANISH FORK UTAH TOWN PRIDE 52196004943812008971 04 29 66 263
131I=2»0EOi 137CS=3.0E01 K=1.6EOO 89SR=B
SPANISH FORK UTAH TOWN PRIDE 521960049438152009497 05 01 66 263
137CS=2»OE01 K=?1.2EOO . .
SPANISH FORK UTAH TOWN PRIDE 52196004943812009509 05 01 66 263
137CS*3«OE01 K==1.6EOO
SPANISH FORK UTAH TOWN PRIDE 52196004943812009513 C5 02 66 263
137CS=3e5E01 K=1.6EOO _1
SPANISH FORK UTAH TOWN PRIDE - 52196004943812009798 05 04 366 263
137CS=4«5E01 ,-. K=1.6EOO
SPANISH FORK UTAH TOWN PRIDE 52196004943812009799 05 06 66 263
137CS=4«5E01 K=l.2EOO
NQTE-^LTIX) DENOTES A RESULT LESS THAN X«
PAGE 88
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APPENDIX - continued
WASHINGTON MILK-JAN. ;01t 1966 TO JUNE 30t 1966 COLLECTED
BELLEVUE WASHINGTON SAFEWAY STORES 51004003346912007414 01 ,27 66 0005000
137CS=2e5!Ei K=1.9EO 89SR=8 90SR=17
BREMERTON WASHINGTON KITSAP DAIRY 51006000046912007421 ;0i 28 66 0005000
137CS=3.0E1 K=1.7EO 89SR=B 90SR=12
CHEHALIS WASHINGTON PAC DAIRYMENS ASSOC 51011004L46912007416 01 28 66
137CS=6.Q€1 K=1.5EO 89SR=B 90SR=15
LONGVIEW WASHINGTON STANDARD DAIRY 51035001546912007415 01 28 66 0005000
8«,OE1 K=1.5EO 89SR=B 90SR=23
PESHASTIN WASHINGTON SKOOKAM DAIRY 51052500046912007412 01 28 66 0005000
137CS=2.5!E1 K=1.2EO 89SR=B 90SR=6
PORT ANGELES WASH ANGELES COOP CRHY 51054000946912007413 01 128 66 0005000
137CS=3oOBl K=1.2EO 89SR-B 90SR=14
SEATTLE WASHINGTON ARDEN FARMS 51065003346912007417 01 :27 66 O005000
137CS=5«,5E1 K=io5EO 89SR=5 90SR=16
SEATTLE WASHINGTON DARIGOLD FARMS 51065003346912007418 01 ;27;66 0005000
137CS=8.SE1 K=1.5EO 89SR=B 90SR=30
SEATTLE WASHINGTON FOREMOST DAIRY 51065003346912007419 01 :27 66 0005000
137CS=3.O€1 K=1.5EO 89SR=B 90SR=12
TACOMA WASHINGTON FLETT DAIRY 51075005346912007420 01 :28 66 0005000
137CS=3«OJ£1 K=1.5EO 89SR=B 90SR=8
NOTE— rLTtX) DENOTES A RESULT LESS THAN; X.
PAGE 89
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APPENDIX - continued
WYOMING MILK-JAN. 01, 1966 TO JUNE 30, 1966
CASPER WYOMING MEADOW GOLD
K=i.5
CASPER WYOMING MEAOOH GOLD
K=1.5
CASPER WYOMING MEADOW GOLD
137CS=l.OEOl K=U4EOO
CASPER WYOMING MEADOW GOLD
CASPER WYOMING MEADOW GOLD
137CS=l.QEQl K=l,5
CASPER WYOMING MEADOW GOLD
137CS=3%OE01 K=1.2EOO
CASPER WYOMING MEADOW GOLD
137CS=3«5E01 K=1.2EOO
CHEYENNE WYOMING DAIRY GOLD FOODS
137CS=2.0E01 K=1.6EOO
CHEYENNE WYOMING DAIRY GOLD FOODS
137CS=1.5E01 K=1.7EOO
CHEYENNE !WYOM ING DAIRY GOLD iFOODS
137CS=2.5E01 K=1.4EOO
CHEYENNE JWYOMING DAIRY :GOLD FOODS
8 K=i.6EOO
520020025498^2008725 04 28 66 284
52002002549812008729 04 29 66 284
52002002549812008974 04 29 66 284
5200200254981200918 TB 04 30 66 284
520020025498E2009617 05 02 66 284
520O20O25498 12009787* 05 04 L66 284
5200200254981:2009872 05 06 66 284
520030O214981i2QO8541 ;04 25 66 286
89SR=B 90SR=11
52003002149812008543 04 126 66 286
52Q030021498£2008979 04 27 66 286
52003002149812008985? 04 28 66 286
NOT£--LTtX) DENOTES A RESULT LESSrTHAN X.
PAGE 90
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APPENDIX - continued
WYOMING MILK-JAN, lot, 1966 TO JUNE 30, 1966
52003002149812009330
CHEYENNE WYOMING DAIRY GOLD FOODS
137CS=2»0£01 K=1.1EOO
CHEYENNE -WYOMING DAIRY GOLD FOODS
137CS=B K=1.6EOO
CHEYENNE WYOMING DAIRY GOLD FOODS
137CS=2.0EOi K=U6
CHEYENNE WYOMING DAIRY GOLD FOODS
137CS=2.0E01 K=U7EOO
POWELL WYOMING VALLEY DAIRY
137CS=5cOE01 K=1.6EOO
POWELL WYOMING VALLEY DAIRY .
137CS=1.5EOl K=1.1EOO
POWELL WYOMING VALLEY DAIRY
137CS=3«5E01 K=U7EOO
POWELL WYOMING VALLEY :DAIRY
137CS=3.0E01 K=1.6EOO
POWELL WYOMING VALLEY DAIRY
137CS=3.0E01 K=l
POWELL WYOMING VALLEY DAIRY
137CS=1.5E01 K=1.5
POWELL WYOMING VALLEY DAIRY
137CS=1.5E01 K=l>.6
52003002149812009507
52003002149812009624
52003002149812009731
52012002949812008943
52012002949812008989?
52Q12Q02949812009011
52012002949812008994
52012002949812009002
52012002949812009177
520120029498 E2009173
=04
05
05
05
04
04
;04
04
04
04
04
29
01
02
03
26
26
26
27
27
27
29
66
66
66
66
66
66
66
66
66
66
66
286
286
286
286
281
281
281
281
281
281
281
NOTE^-LTCX) DENOTES A RESULT LESS THAN X.
PAGE 91
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APPENDIX - continued
WYOMING MILK-JAN* X)lt 1966 TO JUNE 30t
POWELL WYOMING VALLEY DAIRY
137CS=2VOE01 K=1.5EOO
POWELL WYOMING VALLEY DAIRY
137CS=3«5E01 K=1.5EOO
POWELL WYOMING VALLEY DAIRY
137CS=li,OE01 K=1»7EOO
POWELL WYOMING VALLEY DAIRY
137CS=B K*1
RAWL INS WYOMING WYOMING DAIRY PROD
137CS=3iOE01 K=1.5 . .
RAWL INS WYOMING WYOMING DAIRY PROD
K=1.6EOO
RAWL INS WYOMING WYOMING DAIRY PROD
137CS=3*OE01 K=1.3EOO
RAWLINS WYOMING DAIRY PROD
RAWLINS WYOMING WYOMING DAIRY PROD
137CS«2.'5EOt : K=1
RAWLINS WYOMING DAIRY PROD
137CS=3,5E01 K=1.2EOO
RAWLINS WYOMING WYOMING DAIRY PROD
137CS=4.5£Ol K==1.1EOO
1966
5201200294981:2009521 04 29 66
52012002949812009530 04 30 66
52012002949812009529 05? 01 66
52012002949812009632 05 02 66
52013000749812008722 :04 36 66
520130007498I2O08995 04 27 66
52013000749812009582?04 29 66
52013000749812009585^ 04 30 66
520130007498120095805 05 01 66
52013000749812009692 05 02 66
52013000749812009734 ;05 03 66
89SR-B 90SR=13
281
281
281
281
285
285
285
285
285
285
285
NOTE^-HLTtX) DENOTES * RESULT LESS THAN X.
PAGE 92
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APPENDIX - concluded!
WYOMING MILK-JAN. iOli 1966 TO JUNE 30* 1966
RIVERTON WYOMING MORNING STAR DAIRY 52014001349812QA8617 04 25 66 283
K=l.6EOO
RIVERTON WYOMING MORNING STAR DAIRY 52014001349812008946 04 27 66 283
137CS=3.0£01 K=1.4EOO
RIVERTON WYOMING MORNING STAR DAIRY 52014001349812009524 04 !29 66 283
137CS=2.0E01 K=1~2EOO
SHERIDAN WYOMING JERSEY CREAMERY 52016003349812008542 04 26 66 282
137CS=4«OE01 K=1.5EOO
SHERIDAN WYOMING JERSEY CREAMERY 52016003349812008719 04 27 66 282
137CS-4.5E01 K=1.6;
SHERIDAN WYOMING JERSEY CREAMERY 520160033498£20Q8723 04 27 66 282
137CS=3.0E01 K=l.5 ._....
i
;
SHERIDAN WYOMING JERSEY CREAMERY 520*600334981200*125 04 28 66 282
137CW=2.5E01 -K=l.(4
tt
SHERIDAN WYOMING JERSEY CREAMERY 52016003349812009322 B4 :30 66 282
137CS=1.5E01 K=li3EOO
NOTE-^LTtX) DENOTES A RESULT LESS THAN X.
PAGE 93
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DISTRIBUTION
1-15 Southwestern Radiological Health Lab., Las Vegas, Nevada
16 Robert E. Miller, Manager, AEC/NVOO, Las Vegas, Nevada
17 Robert H. Thalgott, AEC/NVOO, Las Vegas, Nevada
18 - 19 Chief, NOB/DASA, AEC/NVOO, Las Vegas, Nevada
20- 22 D. W. Hendricks, .AEC/NVOO, Las Vegas, Nevada
23 Henry G. Vermillion, AEC/NVOO, Las Vegas, Nevada
24 Philip W. Allen, ARL/ESSA, AEC/NVOO, Las Vegas, Nevada
25 Robert E. Loux, AEC/NVOO, Las Vegas, Nevada
26 Mail and Records, AEC/NVOO, Las Vegas, Nevada
27 Mai-tin B. Biles, Director, DOS, USAEC, Washington, D. C.
28 Test Branch, DMA, USAEC, Washington, D. C.
29 John S. Kelly, DPNE, USAEC, Washington, D. C.
30 Ralph S. Decker, SNPO, USAEC, Washington, D. C.
31 John A. Harris, PI, USAEC, Washington, D. C.
32 Director, DASA, Sandia Base, Albuquerque, New Mexico
33 Byron F. Murphey, Sandia Corp. , Albuquerque, New Mexico
34 Gilbert Ferber, ARL/ESSA, Silver Springs, Maryland
35 R. S. Davidson, Battelle Memorial Inst. , Columbus, Ohio
36 John C. Villforth, Director, PHS, BRH, Rockville, Md.
37 JohiT! Bailey, PHS, BRH, Rockville, Maryland
38 - 39 Charles L. Weaver, PHS, BRH, Rockville, Maryland
40 L. Crooks, LRL, Mercury, Nevada
41 W. C. King, LRL, Mercury, Nevada
42 Victor M. Milligan, REECo. , Rad. Safe. , Mercury, Nevada
43 Herbert T. Knight, LASL, Jackass Flats, Nevada
44 Tom A. Gibson, LRL, Livermore, California
45 William E. Ogle, LASL, Los Alamos, New Mexico
46 Harry S. Jordan, LASL, Los Alamos, New Mexico
47 Charles I. Browne, LASL, Los Alamos, New Mexico
48 Harry L. Reynolds, LRL, Livermore, California
49 - 50 DTIE, Oak Ridge, Tennessee (USAEC)
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