SWRHL-38r
OFF-SITE SURVEILLANCE ACTIVITIES'OF THE
SOUTHWESTERN RADIOLOGICAL HEALTH LABORATORY
from July through December 1966
by the
Southwestern Radiological Health Laboratory
Department of Health, Education, and Welfare
Public Health Service
National Center for Radiological Health
December 1968
This surveillance performed under a Memorandum of
Understanding (Nq,. 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- •
formation 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 used 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 Commission, 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
contractor.
012
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SWRHL-38r
OFF-SITE SURVEILLANCE ACTIVITIES OF THE
SOUTHWESTERN RADIOLOGICAL HEALTH LABORATORY
from July through December 1966
by the
Southwestern Radiological Health Laboratory
Department of Health, Education, and Welfare
Public Health Service
National Center for Radiological Health
December 1968
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 ten
announced events during the period from July through December 1966.
This surveillance is conducted in the public areas surrounding the
Nevada Test Site under a Memorandum of Understanding with the
U. S. Atomic Energy Commission. No reactor experiments were
conducted during this time.
During the six-months period there was one event, Derringer, con-
ducted on September 12, 1966, which released radioactive effluent
that was detected only in an unpopulated location off the Nevada
Test Site. Also during this period an underground test, Project
Sterling, was conducted in Mississippi on December 3, 1966 as
part of the Vela Uniform program. No radioactivity attributable
to this detonation was detected in the off-site area.
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
exceeded.
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TABLE OF CONTENTS
ABSTRACT i
TABLE OF CONTENTS ii
LIST OF FIGURES AND TABLE iii
I. INTRODUCTION 1
II. OPERATIONAL PROCEDURES 2
A. Ground Monitoring 2
B. Exposure Rate Recorders 2
C. Aerial Cloud Tracking 3
D. Ajr Sampling 3
E. Milk and Water Sampling 3
F. Vegetation Sampling 6
G. Dosimetry 6
H. Community Relations 7
I. Medical and Veterinarian Services 7
J. Bioenvironmental Research 7
III. ANALYTICAL PROCEDURES 9
IV. RESULTS 12
V. CONCLUSIONS 14
APPENDIX
DISTRIBUTION
11
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LIST OF FIGURES AND TABLE
Figure 1. Air Surveillance Network. Stations in Nevada 4
Figure 2. Air Surveillance Network Stations Other
than Nevada. 5
Table 1. Threshold detectability at time of count of several
radionuclides in various samples (90% confidence
level). 10
111
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I. INTRODUCTION
During the period July through December 1966, ten announced under-
ground nuclear tests were conducted by the .U. S. .Atomic Energy
Commission at their Nevada Test Site as a part of Operation Latchkey.
In addition, Project Sterling was conducted underground in Mississippi
as part of the Vela Uniform program. The Public Health Service
conducted a program of radiological environmental surveillance of
the off-site area for the Safety Evaluation Division of the AEC's
Nevada Operations Office under a Memorandum of Understanding be-
tween the U. S. Atomic Energy Commission (AEC) and the Public
Health Service (PHS).
The Southwestern Radiological Health Laboratory (SWRHL) conducted
this program of radiological monitoring and environmental sampling
in the off-site areas surrounding the restricted area enclosed within
the Nevada Test Site, NRDS, and tjie Nellis Air Force Range. The
overall complex of the Nevada Tesf 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 summar-
izes the data collected during the six-month period.
1
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II. OPERATIONAL PROCEDURES
A. Ground Monitoring
Prior to each event, mobile monitoring teams were deployed in the
off-site area 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 the AEC Control Point head-
quarters via two-way radio communications. Ground monitoring
continued until activity levels essentially returned to background.
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 as. an indicator of the presence of low levels of radio-
activity 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 loga-
rithmic scales. This instrument has an inert gas ionization chamber
as the detector. These instruments are accurate to + 20% as
calibrated with 137Cs.
B. Exposure Rate Recorders
To supplement the ground monitoring program, Eberline RM-11
exposure rate recorders were utilized to document cloud passage at
fixed locations, thereby allowing mobile monitoring teams to
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continue following the release as it moved through the off-site area.
These recorders have a Geiger tube detector and operate on 110VAC.
They have a 0. 01 to 100 mR/hr range and are calibrated to ±20%
with a 137Cs source. 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 was used to track the effluent
to assist in positioning ground monitors. Public Health Service
cloud sampling aircraft were also used as aids in cloud tracking.
D. Air Sampling
During this six-month period the S »VRHL. Air Surveillance Net-
work consisted of 108 stations operating in every state west of
the Mississippi except Montana and North Dakota. See Figures 1
and 2. The air sampler used in the Air Surveillance Network is
a Gelman "Tempest1.1. The "Tempest" Air Sampler consists of a
Gast Model 1550 vacuum pump driven by a 1/2 horsepower electric
motor. The pump runs at 1440 rpm with an approximate flow rate
of 10 cfm. The sampler uses a 4-^nch diameter Whatman 541 filter
paper. An MSA, Part No. 46727. charcoal cartridge can be
added as necessary. The total volume of air sampled is cal-
culated from an average vacuum reading and the total sampling
time.
E. Milk and Water Sampling
The previously established milk sampling program from both
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AIR SURVEILLANCE NETWORK STATIONS IN
NEVADA.
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AIR SURVEILLANCE NETWORK STATIONS
OTHER THAN NEVADA
Figure 2.
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commercial dairies and private producers continued throughout the
six-month period. See Appendix A. About 30 sources were routinely
sampled during this period, many on a monthly basis. A total of
100 samples were collected from these locations. In the event of
cloud passage over a specific area, intensified sampling within the
area was conducted to document changes in activity.
Water samples were collected on a routine basis. Water sampling
is increased when a release occurs; however, because there was
only one slight release during this period, only one non-routine
sample was collected. Both potable and non-potable water supplies
were sampled routinely. During this period 330 water samples
were collected from about 70 sources.
F. Vegetation Sampling
Normally, vegetation samples were, collected only in the event of a
release of radioactive material and analyzed for gross gamma
radioactivity to delineate the fallout pattern.
G. Dosimetry
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. In addition,
65 film badge stations, each with five badges, were located around
the test range complex to provide more complete coverage. These
badges were also exchanged monthly. The badge used is made of
DuPont type 555 film. The gamma exposure, 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.
Approximately 20 of the 65 stations were each equipped with three
CaF2, EG&G Model TL-12 Thermoluminescenl Dosimeters (TLD)
6
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which were exchanged monthly with the film badges. The TLD's
have a low energy photon response cutoff at 50 keV and are inde-
pendent of energy in the range from 50 keV to several MeV. .Ac-
cording to past TLD data, a reading at 10 mR above the previous
month's background 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 in support of the programs of the Atomic Energy
Commission. As a result of favorable community relations, a
number o.f off-site residents took pajft 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 badge dosimeters.
I. Medical and Veterinarian Services
A Public Health Service medical offiper 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 provided by PHS Veterinarians. Liaison was main-
tained with livestock producers in thp area and the program of wild-
life and cattle investigation was continued. Semiannual 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
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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.
The results from this program are published in separate reports.
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III. ANALYTICAL PROCEDURES
All air sample prefilters and charcoal cartridges were returned to
the Southwestern Radiological Health Laboratory in Las Vegas for
radiological analyses. 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. If significant fission product activity was indicated by the
first count, prefilters were recounted a minimum of three times in
the first 48 hours following collection. Results are then extrapolated
to the end of the collection period by use of a decay constant
empirically determined for each indi/idual sample.
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 gammu 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 unfractior,.ated fission products resulting
irn a complex spectrum.
c. MSA charcoal predominately collects gaseous fission products
(primarily iodines).
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d. An eight isotope matrix is employed for computation and
isotopes other than those examined are present in amounts
which are small relative 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 (90% confidence level).
Sample Type 131I 132Te-I
Whatman No. 541
MSA Charcoal
3. 5 liter water5'1
(pCi/1)
3. 5 liter milk*
(pCi/1)
500 1000
200
200 400
100
20 40-50
20
pCi
133I 135I 140Ba-La
500 1000
200
200 400
100
20-30 40-50
20-30
500
200
200
100
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 - counved at 3 days or more after formation.
3 - with 137Cs = 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 limits the number of isotopes present in a
milk sample. Under normal sampling procedures, this disci-imi-
nation coupled with the short physical half-life will tend to eliminate
132I and 135I 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
10
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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
giving 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 3-3 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 periormed by an IBM 1620 computer.
Water samples are analyzed for gross beta activity by slowly ;vapo-
rating an aliquot to dryness in a 2-inch diameter stainless ste^l planchet
and counting the beta activity in a low background counter.
11
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IV. RESULTS
Only one of the ten announced detonations at the Nevada Test Site
resulted in a release of radioactive effluent which was detected off-
site. This was the Derringer Event of September 12, 1966.
The only positive indication of Derringer effluent off-site was by
ground monitoring. Two readings slightly above background were
detected. Both radiation intensities were measured on a Model 111
"Scintillator" and were less than twice background. The readings
were measured at 1115 PDT at Hancock Summit on Highway 25
and at 1120 PDT, 10 miles southeast of Coyote Summit on Highway 25.
Both of these locations are unpopulated. None of the Eberline RM- 11
continuous exposure rate recorders located in areas off the Nevada
Test Site showed a reading above background.
Thirty air samples were collected for this event. None of these
samples showed an increase in gross beta activity and no fresh
fission products were detectable on the Whatman 541 filter or the
MSA charcoal cartridge. Other samples collected included five
milk samples, one water sample, and nine vegetation samples.
Short-lived fresh fission products were not detectable in any of
these samples.
All milk samples collected during this period are listed in the
Appendix. The Project Sterling underground test conducted in
Mississippi on December 3, 1966, did not release radioactivity
to the atmosphere.
One additional event 01 interest during this period was the Greeley
12
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Event, an underground nuclear detonation conducted at 0730 hoars
PST on December 20, 1966, in the Pahute Mesa area of the AEC's
Nevada Test Site. Although a release of radioactive effluent was
not expected following this detonation, the Public Health Service
provided additional personnel for ground motion studies because
the Greeley device was of relatively large yield and ground motion
was anticipated as far as 75 miles frc,-m ground zero.
Seventy-five personnel from the Soutti we stern Radiological Health
Laboratory participated in the surveillance activities for this event.
Community information centers were established in Tonopah,
Goldfield, Beatty, and Alamo in ordei; to inform the members of
these communities of the exact time qf the detonation and what
degree of motion could be expected. PHS personnel were also
available to answer questions in Ely, Caliente, Pioche, and
Las Vegas,
All active mines in the vicinity of the Nevada Test Site were
located and mining personnel were ad^vsed not to be underground
at the time of the detonation.
No release of radioactive effluent occurred as a result of this
detonation, either initially or in the follow-up operations. No
damage to off-site structures from ground motion was reported
to any of the community information centers.
13
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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.
14
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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 asgigned 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 J'or calcium and potassium
which are given in units of grams pei liter.
Routinely, analysis is made for the following eight isotopes: 144Ce,
13II, 106Ru, l37Cs, 95Zr, 54Mn, 40K, and I40Ba. These isotopes
are listed only when they are present, in detectable quantities. When
samples are collected for particular events, analysis is generally
done for U3I in place of 106Ru.
The isotopes which are processed by radiochemistry methods -- Ca,
89Sr, 90Sr--are listed if radiochemistry is performed.
For values less than a specified minimum sensitivity^the following
notations are used:
"B"1 for values less than 5 pC;./l
"DJt for values less than 0. 1 pCi/1
Some of the values are listed in exponential form:
3.0E01 = 3.0X101 = 30; 5.5E02 = 5.5xl02 = 550, etc.
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CALIFORNIA MILK- JULY Dip 1966 TO DECEMBER 30, 1966
COLLECTED
BARSTOW CALIFORNIA HELL DAIRY
137CS«3oOEOl K=1.4
BARSIOW CALIFORNIA HILLS DAIRY
l37CS*lcOE01 K=lo2
BARSTOW CALIFORNIA HILLS DAIRY
I37CS«5»OEOO K=1.2
8ARSTOH CALIFORNIA HILLS DAIRY
K=i«4 89SR=B
BARSHOW CALIFORNIA HILLS DAIRY
K-1.2 89SR=B
BARSTOW CALIFORNIA HILLS DAIRY
l37CS^3e50E01 K-1.0
BIG PINE CALIFORNIA SIMMONS DAIRY
I37CS»2.5E01 K=l«3
BISHOP CALIFORNIA SIERRA FARMS
137CS=2oOE01 K=l»2
BISHOP CALIFORNIA SIERRA FARMS
137CS*loOE01 K=K3
BISHOP CALIFORNIA SIERRA FARMS
K=lo3 89SR=B
BISHOP CALIFORNIA SIERRA FARMS
K=i«3 89SR=B
NOTE—*LT«X? DENOTES A RESULT LESS
Appendix A
AM 51027002904912010893 07 14 66 7390006
89SR=B 90SR=2
AM 51027002904913011047 08 23 66 8390006
89SR=B 90SR=4
AM 51027002904912011197 09 15 66 8390006
89SR=8 90SR=2
AM 51027002904912011289 10 20 66 8390006
90SR=Oo2
AM 51027002904912020084 11 23 66 8390006
90SR=0.9
AM 51027002904912020139 12 14 66 8390006
89SR=8 90SR=0
AM 51036502704912010894 07 15 66 8Z90022
89SR=8 90SR=4
AM 51037002704913011053 08 25 66 829O021
89SR=B 90SR=5
AM 51037002704912011196 09 15 66 8290021
89SR-B 90SR=8
AM 51037002704912011303 10 19 66 8290021
90SR=3«,9
PM 51037002704912020082 11 22 66 8290021
90SR=7.2
THAN X.
PAGE 1
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CALIFORNIA MILK- JULY Olc 1966 TO DECEMBER 30, 1966 COLLECTED
BISHOP CALIFORNIA SIERRA FARMS AM 51037002704912020140 12 14 66 8290021
137CS-lo50E01 K=1.4 89SR=B 90SR=7.0
BISHOP CALIFORNIA SIERRA FARMS AM 51037002704912010904 07 15 66 8290026
137CS~io5E01 K=le3 89SR=5 90SR=6
LONE PINE CALIFORNIA LONE PINE DAIRY AM 51185502704912010896 07 14 66 8390023
137CS-4o5E01 K=i«,2 89SR=B 9QSR=3
LONE PINE CALIFORNIA LONE PINE DAIRY AM 51185502704912011045 08 24 66 8390023
137CSs4oOEOi K=ic2 89SR=B 90SR=5
LONE PINE CALIFORNIA LONE PINE DAIRY 51185502704912011193 09 15 66 8390023
137CS-8 K-lo2 89SR=B 90SR=3
LONE PINE CALFIORNIA LONE PINE DAIRY AM 51185502104912011313 10 20 66 8290023
137CSs5oOOEOO K^le2 89SR=B 90SR=1«4
LONE PENE CALIFORNIA LONE PINE DAERY PM 51185502704912020083 11 22 66 8390023
137CS = 1«,OOE01 K^104 89SR=B 90SR=4eO
LONE PINE CALIFORNIA LONE PINE DAIRY AM 51185502704912020138 12 14 66 8390023
137CS=5oOOEOO K-lc3 89SR=8 90SR=2e8
OLANCHA CALIFORNIA HAYHURST RANCH AM 51237502704913010890 07 14 66 6370020
137CS=loOEOl K=lo3 89SR=5 90SR=1
OLANCHA CALIFORNIA HAYHURST RANCH AM 51237502704913011051 08 24 66 6370020
137CS=5eOEOO K=104 89SR-B 90SR=3
OLANCHA CALIFORNIA HAYHURSI RANCH AM 51237502704913011200 09 15 66 6370020
137CS-loOE01 K=io3 89SR^B 90SR=4
NOTE-~LTfX) DENOTES A RESULT LESS THAN X.
-^d'.x A (continued) PAGE 2
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CALIFORNIA MILK- JULY Olc 1966 TO DECEMBER 30, 1966 COLLECTED
OLANCHA CALIFORNIA HAYHURST RANCH AH 51237502704913011123 10 20 66 6370020
K-1.3 89SR*B 90SR=le5
OLANCHA CALIFORNIA AN 51237502704913020085 11 23 66 6370020
E31I=6»OOE01 137CS=5.00EOO K=U2 89SR=B
OLANCHA CALIFORNIA HAYHURST RANCH AM 51237502704913020137 12 14 66 6370020
l37CS=loOOE01 K=lo2 89SR=5 90SR=3.8
NOTE— LTCXJ DENOTES A RESULT LESS THAN Xo
v
Appendix A(continued) PAGE 3
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NEVADA MELK-JULY 010 1966 TO DECEMBER 30,, 1966
ALAMO NEVADA
COLLECTED
ALAMO NEVADA STEWART DAIRY
137CS-2cOE01 Ksio3
ALAMO NEVADA STEWART DAIRY
i37CS~loOE01 K=I«,2
ALAMO NEVADA M K STEWART DAIRY
ALAMO NEVADA H K STEWART DAIRY
K=1.5 SR89-B
ALAMO NEVADA STEWART DAIRY
SPECTRUM
ALAMO NEVADA STEWART DAIRY
l37CS~3oOQEOQ K^i<,
ALAMO NEVADA STEWART DAIRY
52014001727912010895 07 14 66 3900049
89SR-5 90SR=1
AM 51014001727912010900 07 15 66 3900078
89SR-5 90SR-2
AM 51014001727912011035 08 18 66 8430078
B 90SR=3
AM 52014001727912011185 09 13 66 3400078
AM 52014001727912011176 09 15 66 3400078
ALAMO NEVADA i LEE
ALAMO NEVADA L LEE DAIRY
137CS=2oQE01 K=l,6
ALAMO NEVADA L LEE DAIRY
137CS-2o5E01 K-U2
NOTE-«LT«X) DENOTES A RESULT LESS THAN X,
A^rxdlx ^[•i:, T/ •'•'. -~~ a > PAGE
AM 51014001727912011280 10 13 66 5400018
NEGLIGIBLE 89SR=B
AM 51014001727912020043 11 16 66 1400078
89SR=8 90SR=4.3
AM 510l4QOi72?912020l61 12 22 66 1400078
079
AM 52014001727912010851 07 01 66
AM 52014001727912010869 07 07 66
SR89=B SR90-2
52014001727912010895 07 14 66 3900079
89SR=5 90SR=1
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NEVADA MKLK-JULY 01f 1966 TO DECEMBER 30, 1966
ALAMO NEVADA L LEE DAIRY
COLLECTED
ALAMO NEVADA L LEE DAIRY
ALAMO NEVADA L LEE DAIRY
ALAMO NEVADA WRIGHT DAIRY
AUSTIN NEVADA YOUNG RANCH
I37CS=205EOl K-io3
AUSTIN NEVADA YOUNG RANCH
AUSTIN NEVADA YOUNG RANCH
137CS=1»5E01 K-lo6
AUSTEN NEVADA YOUNG RANCH
AUSTEN NEVADA YOUNG RANCH
E37CS=2oOOE01 K^i<,
AUSTIN NEVADA GIVENS RANCH
lairaoOEOl 137C
90SR-9
AUSTEN NEVADA GIVENS RANCH
AM 5201400 112791201:0952 07 22 66
89SR=B 90SR=4
AM 5201^00 1727912010962 07 27 66
89SR-B 90SR=3
AM 52Q14001727912O10966 08 03 66
89SR-B 90SR=2
AM 51014001721912010932 07 20 66
89SR-B 90SR-1
AM 510187015279L3010979 08 04 66
89SR-B 90SR=5
PM 51018701527913011111 08 31 66
89SR=B
AM 51018701521913011251 09 28 66
B 90SR=7
51018701527913020028 11 03 66
89SR=8 90SR=7.6
AM 51018701527913020116 12 01 66
89SR=B 90SR=12o2
AM 51018701527913010960 07 21 66
K-lo7 89SR-5
079
079
079
080
4700010
1700010
470O010
1700010
0900010
8390071
AM 51018701527913010980 08 03 66 4300071
89SR=8
NOTE—LT6XJ DENOTES A RESULT LESS THAN
A-..-.ci:^: Atcarr-'-ued) PAGE
-------�
NEVADA MILK-JULY 01, 1966 TO DECEMBER 30, 1966
COLLECTED
BAKER NEVADA E J CUNNINGS
K=105 SR89=5
BAKER NEVADA BAKER RANCH
CALfENTE NEVADA YOUNG RANCH
tan^oOEOi i37cs^
90SR=2
CALIENTE NEVADA YOUNG RANCH
K=io3 89SR-B
CALKENTE NEVADA YOUNG RANCH
GAMMA SPECTRUM
90SR=2
CALfENfl NEVADA YOUNG RANCH
CALIENT E NEVADA YOUNG RANCH
l 89SR-B
CALBENTE NEVADA YOUNG RANCH
K=io3 89SR-B
CURRANT NEVADA BLUE EAGLE RANCH
137CS^3«5E01 K«lo6
CURRANT NEVADA BLUE EAGLE RANCH
O7CS=3o5E01 K=lo4
CURRANT NEVADA BLUE EAGLE RANCH
AH 53020403327913010871 ,07 05 66 124
SR90=3
AM 53020403327913010828 07 01 66 135
89SR=5 90SR=5
PM 51030401727913010926 07 19 66 067
K=l«>4 89SR=B
51030401727913011026 O8 18 66 1400067
90SR=1
PM 51030401727913011175 09 14 66 1400067
NEGLIGIBLE 89SR=B
PM 51030401727913011272 10 10 66 14OOO67
89SR=0 90SR=1.8
PM 510304Q172791302QO44 11 16 66 14QOO67
90SR=lol
PM 51030401727913020156 12 21 66 1400067
90SR=2.3
51038602327913011067 08 24 66 099
89SR=B 90SR=4
51038602327912023271 11 21 66 099
89SR=B 90SR=11.9
PM 51038602327913020187 12 19 66 4930099
89SR=B 90SR=10.6
NOTE-^LTOD DENOTES A RESULT LESS THAN X.
Appendix A(continued) PAGE
-------�
NEVADA MILK-JULY 01 „ 1966 TO DECEMBER 30, 1966
COLLECTED
DUCKNATER NEVADA HALSTEAO RANCH
K=l«,2
DUCKWATER NEVADA HALSTEAO RANCH
K=le7
DUCKHATER NEVADA HALSTEAO RANCH
K=1.4
OUCKMATER NEVADA HALSTEAO RANCH
OUCKWATER NEVADA BLUE EAGLE RANCH
K=l«4 89SR=5.5
DUCKMATER NEVADA HALSTEAD RANCH
K-l.l 89SR=B
DUCKWATER NEVADA HALSTEAO RANCH
5L03«Ufe3cOE01 137CS=lo5E01
90SR=5oO
EUREKA NEVADA MELLOWS RANCH
i37CS«s5oOEOO K=t,^
EUREKA NEVADA WILLOWS RANCH
EUREKA NEVADA MELLOWS RANCH
137CS-5.0EOO K-1.4
EUREKA NEVADA MELLOWS RANCH
137CS«5«OOEOO K=1.3
AM 51048002327913010946 07 19 66 105
89SR=5 90SR=7
PM 51048002327913011052 08 23 66 4900105
89SR=B 90SR=4
PM 510480023279130i£235 09 20 66 2900105
89SR=B 90SR=5
PM 51048002327913011311 10 18 66 4900105
89SR=B 90SR=lo8
PM 51048002327912011287 10 19 66 105
90SR=4.2
AM 51048002327913020128 11 18 66 1200105
90SR=4c8
PM 51048002327913020193 12 19 66 3200105
K=U4 89SR---B
AM 51058601127913010959 07 21 66 8390003
89SR=B 90SR=4
AM 51058601127913010978 08 04 66 1300003
89SR=B 90SR=D
51058601127913011109 08 30 66 8390003
89SR=B 90SR=4
AM 51058601127913011301 10 20 66 83900O3
89SR=B 90SR=D
» DENOTES A RESULT LESS THAN X.
Appendix A{continued) PAGE
-------�
NEVADA MILK-JULY 01* 1966 TO DECEMBER 30, 1966
HIKO NEVADA DAVIS RANCH
COLLECTED
HIKO NEVADA DAVIS RANCH
137CS=3«OE01 14QBA=3«OE01
90SR=3
HIKO NEVADA DAVIS RANCH
I31I»7.0E01 13ICS=2e5E01
90SR=4
HIKO NEVADA DAVIS RANCH
HIKO NEVADA DAVIS RANCH
137CS-1.0E01 K*l.l
HIKO NEVADA SCHOFIELO DAIRY
K=io4
HIKO NEVADA SCHOFIELO DAIRY
137CS^loOE01 K=lc3
HIKO NEVADA SCHOFIELD DAIRY
137CS*loOEOi MU4
HIKO NEVADA SCHOFIELD DAIRY
K=ie6 SR89-6
HIKO NEVADA SCHOFIELD DAIRY
GAMMA SPECTRUM
90SR=3oO
AM 52083*01727913010870 07 05 66
89SR=5 90SR=3
PM 520834017a7913010892 07 12 66
K=l«3 89SR=5
PM 52083401727913010929 07 18 66
K=i<,4 89SR=5
PM 52083401727913010961 07 26 66
89SR=B 90SR=4
PM 52083401727913010965 08 03 66
89SR-B 90SR=2
AM 51083401727912010897 07 14 66
8 90SR=2
AM 510834O1727912011O33 08 18 66
89SR-B 90SR=2
AM 52083401727912011189 09 13 66
SR89=B SR90=3
AM 52083^01727912011173 09 15 66
SR90=3
AM 51083401727912011274 10 13 66
NEGLIGIBLE 89SR=8
031
3900031
031
031
031
3900057
3400057
3900057
3400057
5400057
NOTE—^LTfX! DENOTES A RESULT LESS THAN X.
Appendix A(continued) PAGE
8
-------�
NEVADA MILK-JULY 01, 1966 TO DECEMBER 30. 1966
COLLECTED
HIKO NEVADA SCHOFIELD DAIRY
AM 51Q8340172791202O049 li 16 66
89SR=B
HIKO NEVADA SCHOFEELD DAIRY
89SR=B
LAS VEGAS NEVADA ANDERSON DAIRY
GAMMA SPECTRUM
90SR=3
LAS VEGAS NEVADA ANDERSON DAIRY
LAS VEGAS NEVADA ARDEN DAIRY
137CS=5.0EOO K=104
LAS VEGAS. NEVADA AROEN DAIRY
137CS^5«OOEOO K=l«,l
LATHROP WELLS NEVADA DANS8Y RANCH
LATHROP HELLS, NEVADA DANSBY RANCH
K»l.l 89SR-B
LOGANDALE NEVADA VEGAS VALLEY DAIRY
T37C S*5. Oi 00 K= 1 o 4
LOGANDALE NEVADA VEGAS VALLEY FARMS
137CS~2«OE01 K=l«4
LOGANDALE NEVADA VEGAS VALLEY DAIRY
K=l«,4 89SR=B
140OO57
AM 51083401727912020151 12 22 66 1400057
90SR=3«,5
AM 51120700327911010883 07 06 66 302
NEGLIGIBLE 89SR=B
AM 51120700327911020014 11 02 66 0000302
89SR=B 90SR=4.5
AM 51120700327911010862 07 06 66 303
89SR=5 90SR=4
AM 51120700327911020015 11 02 66 OOO0303
89SR=B 90SR=5.0
51120902327913011066 08 30 66 5300065
89SR=5 90SR=1
PM 51120902327913020184 12 27 66 5300065
90SR=0.3
AM 51125200327912010902 07 13 66 0000301
89SR=5 90SR=1
AM 51125200327912011016 08 17 66 301
89SR=B 90SR=6
AM 51125200327912011143 09 09 66 0000301
90SR=4
NOTE—*LT«X» DENOTES A RESULT LESS THAN X,
Appendix A(continued) PAGE
-------�
NEVADA MULK-JULY Olc 1966 TO DECEMBER 30* 1966
COLLECTED
LOGANOALE NEVADA VEGAS VALLEY FARMS
137CSsloOE01 K=lo3
LOGANDALE NEVADA VEGAS VALLEY FARMS
LOGANDALE NEVADA VEGAS VALLEY DAIRY
LUND NEVADA
LUND NEVADA MCKENZEE DAIRY
137CS^2o5E01 K^io
LUND NEVADA HCKENZEE DAIRY
!37CS^2oOEOl K^lo
LUND NEVADA MCKENZIE DAIRY
LUND NEVADA MCKENZSE DAIRY
GAMMA SPECTRUM
90SR-2
LUND NEVADA MCKENZIE DAIRY
LUND NEVADA MCKENZIE DAIRY
K-102
LUND NEVADA MCKENZIE DAIRY
AM 51125200327911011336 10 25 66 0000301
89SR=B 90SR=Ao6
AM 51125200327912020086 11 28 66 0000301
89SR=B 90SR=2»6
AM 51125200327912020163 12 29 66 0001301
89SR-B 90SR=1.7
51128503327912023<»69 12 22 66
89SR=B 90SR=2«8
51128503327912010873 07 08 66
B 90SR=3
51128503327912010889 07 14 66
89SR=5 90SR=5
51128503327912010958 07 22 66
B 90SR=3
51128503327912010963 07 29 66
NEGLIGIBLE 89SR=B
51128503327912010993 08 08 66
89SR=B 90SR=3
51128503327912011039 08 18 66
89SR=8
NOTE—LT«XS DENOTES A RESULT LESS THAN X.
App-ndi* A(c-/rr:inu-dj> PAGE
51128503327912011065 08 30 66
89SR=B 90SR=4
10
009
077
077
077
077
077
077
077
-------�
NEVADA MILK-JULY 01 c 1966 TO DECEMBER 30, 1966
COLLECTED
LUND NEVADA MCKENZIE DAIRY
I37CS-2«,5E01 K=1C4
LUND NEVADA MCKENZIE DAIRY
K=io4
LUND NEVADA MCKENZIE DAIRY
LUND NEVADA MCKENZIE DAIRY
137CS=io5E01 K^io
LUND NEVADA MCKENZIE DAIRY
DAERY
DAIRY
K=1.2
DAIRY
K=l«,3
DAIRY
89SR=B
DAIRY
89SR-8
LUND NEVADA MCKENZIE
I37CSfeioOOE01
LUND NEVADA XCKENZIE
LUND NEVADA MCKENZIE
LUND NEVADA MCKENZIE
K-i-4
LUND NEVADA MCKENZIE
K=l«3
LUND NEVADA MCKENZIE DAIRY
51128503327912011116 09 05 66
89SR-B 90SR=3
5il285033279120iHi47 09 12 66
89SR=B 90SR=4
51128503327912011190 09 17 66
89SR-15 90SR=3
51128503327912011242 09 30 66
89SR=B 90SR=3
51128503327912011268 10 06 66
B 9QSR=2
51128503327912011286 10 19 66
89SR=B 90SR=3.6
51128503327912011335 10 26 66
89SR=B 90SR=4.0
51128503327911023111 11 07 66
89SR=B 90SR=3«,8
51128503327912023247 11 16 66
90SR-2o8
51128503327912023310 11 29 66
90SR=4o7
51128503327911023394 12 12 66
89SR=B 90SR=3.1
NOTE— =LT«XJ DENOTES A RESULT
Appendix A (continued)
LESS THAN X.
PAGE 11
077
0?7
0?7
077
077
077
077
077
077
077
077
-------�
NEVADA MILK-JULY 01« 1966 TO DECEMBER 30, 1966
LUND NEVADA MCKENZIE DAIRY
COLLECTED
HANHATTEN NEVADA PEAVINE RANCH
137CS-le5EOl K-1,,4
MANHATTEN NEVADA PEAVINE RANCH
MANHATTEN NEVADA PEAVINE RANCH
137CS-loOE01 K=l«,2
MANHATTEN NEVADA PEAVINE RANCH
137CS=5eOEOO K»1.2
MESQUITE NEVADA HUGHES BROS DAIRY
MESQUITE NEVADA HUGHES BROS DAIRY
137CS^5oOEOO K^io3
MESQUITE NEVADA HUGHES BROS DAIRY
K-l*5 89SR-B
MESQUITE NEVADA HUGHES BROS DAIRY
K=ie2 89SR=B
MESQUITE NEVADA HUGHES BROS DAIRY
MESQUITE NEVADA HUGHES BROS DAIRY
137CS^loOOEOl K^loS
51128503327912023507 12 30 66
90SR=1«8
PM 51130502327913010977 08 03 66
89SR=B 90SR=2
AM 51130502327913011105 08 31 66
89SR-B 90SR=3
PM 511305023279130ii253 09 27 66
89SR-8 90SR=4
51130502327913020027 11 03 66
8 90SR=2o9
AM 51131600321912010891 07 13 66
89SR-B 90SR=5
AM 51131600327912011018 08 17 66
89SR=B 90SR=3
51131600327912011144 09 07 66
90SR=2
AM 51131600327912011337 10 26 66
90SR=2eO
PM 51131600327912020105 11 30 66
89SR=B 90SR=4,7
AM 51131600327912020141 12 18 66
89SR=B 90SR=1.6
077
4700002
6390002
6390002
6200002
6410062
062
6490062
6990062
5910062
9090062
NOTE-*-LT«XJ DENOTES A RESULT LESS THAN
Appendix A ifc 01 "'na^dj; PAGE
12
-------�
NEVADA MILK-JULY 01, 1966 TO DECEMBER 30, 1966
COLLECTED
MOAPA NEVADA SEARLES DAIRY
137CS=loOE01 K-1.0
MOAPA NEVADA SEARLES DAIRY
K=l.2
MOAPA NEVADA SEARLES RANCH
K=l«2
NY ALA. NEVADA SHARP RANCH
K=l«2
NY ALA NEVADA SHARP RANCH
137CS^5.0E01 K=
NYALA NEVADA SHARP RANCH
NYALA NEVADA SHARP RANCH
!37CS=5oOEOl K-1.6
NYALA: NEVADA SHARP RANCH
1311=1. OOE01 137CS=4»50EOi
90SR=7.2
PAHRUMP NEVADA ISHMAEL RANCH
K=1.3 89SR-B
PIOCHE NEVADA HORLACHER RANCH
137CS=2«OE01 K=1.2
PIOCHE NEVADA HORLACHER RANCH
137CS=3«,OE01 IC=1«4
AN 51135000327912010927 07 20 66 071
89SR=8 90SR=3
AM 51135000327912011030 08 19 66 5900071
89SR=B 90SR=3
AH 51135000327913011342 10 28 66 1400071
89SR=B 90SR=3ol
AM 511^9002327913010901 07 14 46 2300054
89SR=B 90SR=11
AM 51149002327913010995 08 10 66 4300O54
89SR=8 90SR-8
AM 521490O2327913011172 09 15 66 054
SR89=B SR90=8
PM 51149002327913011262 10 05 66 »054
89SR=B 90SR-11
AM 51149002327913020136 12 07 66 1300O54
K=1.3 89SR=B
AM 51160202327913020185 12 30 66 5300076
90SR=2.5
AM 51163502327913010899 07 14 66 1900075
89SR=10 90SR=4
AM 51163501727913011029 08 17 66 1400075
89SR=B 90SR=5
NOTE—LTJX) DENOTES A RESULT LESS THAN X,
Appendix A(continued) PAGE
13
-------�
NEVADA MILK-JULY 01„ 1966 TO DECEMBER 30p 1966
COLLECTED
PIOCHE NEVADA HORLACHER RANCH
PIOCHE NEVADA HORLACHER RANCH
137CS^5»OOEOO K-l.10
PIOCHE NEVADA HORLACHER RANCH
I37CS*2.'5E01. K=i«4
PIOCHE NEVADA HORLACHER RANCH
137CS^2oOEOO K^l.,3
SHOSHONE NEVADA KIRKIBY RANCH
131I=&oOE01 137CS^2
90SRsJLO
SHOSHONE NEVADA KIRK6BV RANCH
137CS-U5E01 K^loS
SHOSHONE NEVADA KIRKiBY RANCH
13-7CSsloOOE01 K^l.,3
SHOSHONE NEVADA KIRKEBY RANCH
K*i«l 89SR^B
SHOSHONE NEVADA KIRKEBY RANCH
SPRINGDALE NEVADA PEACOCK RANCH
K=1.3 89SR=5
TONOPAH NEVADA SHARPS RANCH
K=le5 89SR=B
AM 511635017279130H273 10 12 66
89SR=B 90SR-4.4
AM 51163501727913020051 11 16 66
89SR=B 9QSR=8.3
AM 51L63501727913020154 12 23 66
89SR=6
AM 51163501727913011187 09 14 66
89SR=B 90SR=6
51192500327913010956 07 23 66
K~lo6 89SR-B
AM 51192500327913011234 09 22 66
89SR-8 90SR=4
AM 51192500327913011328 10 20 66
89SR-B 90SR=1«,5
51192500327913020126 U 17 66
90SR=lo5
AM 53192500327913010831 07 01 66
SR89=B SR90-9
AM 51196402327913020073 11 16 66
90SR=1.5
AM 51205502327913011145 09 08 66
90SR=15
1400O75
1400O75
1400075
075140O
106
1300106
1900106
0900106
144
5700174
5430131
NOTE—-LTOJ DENOTES A RESULT LESS THAN X,
Appendix A (continued) PAGE
14
-------�
NEVADA MILK-JULY 01 „ 1966 TO DECEMBER 30 v 1966 COLLECTED
HINNEMUCCA NEVADA PM 51233501327912023184 11 10 66
K=l,, i 89SR=8 90SR=2«9
HINNEMUCCA NEVADA PM 51233501327912023180 11 08 66
K=U2 89SR=8
HINNEMUCCA NEVADA P MARCUERQUIAGO 51233501327912023183 11 09 66
K=1.3 89SR=8 90SR=5.4
HINNEMUCCA NEVADA 3V DAIRY 51233501327912023182 11 10 66
K=le2 89SR=B
NOTE*->LT|XJ DENOTES A RESULT LESS THAN X*
Appendix A (continued) PAGE 15
-------�
UTAH MILK-JULY 010 1966 TO DECEMBER 30S 1966
COLLECTED
GARRISON UTAH GONOERS RANCH
137CS~lo5EOi K~lo5
GARRISON UTAH GONDERS RANCH
137CS^lo§OEOi K=l»5
GARRISON UTAH GONDERS RANCH
137CS^lo50£Oi K=l.4
NEW CASTLE UTAH NEW CASTLE DAIRY
137CS-loOE01 K-ie4
NEW CASTLE UTAH NEW CASTLE DAIRY
137CS~loOE01 K^3U2
NEW CASTLE UTAH NEW CASTLE DAIRY
PM 51070602743813011232 09 20 66
89SR=B
NEW CASTLE UTAH NEW CASTLE DAIRY
137CS^loOEOi K=103
NEW CASTLE UTAH NEW CASTLE DAIRY
137CS«ieOOE01 K~l«2
NEW CASTLE UTAH NEW CASTLE DAIRY
137CS^5cOEOO K=l«,2
MT PLEASANT UTAH BROOKLAHN CREAMERY
137CS=2oOE01 K=1.6
MT PLEASANT UTAH BROOKLAWN CREAMERY
K=ie^ SR89=10
PM 51070602743813011332 10 19 66
B 90SR=lo9
PM 51070602743813020127 11 17 66
B 90SR=505
AM 51141802143812010903 07 14 66
5 90SR=4
AM 51141802143812011017 08 17 66
89SR=8 90SR=5
AM 51141802143812011142 09 08 66
B 90SR=3
AM 51141802143812011338 10 26 66
89SR-B 90SR=4.6
51141802143812020101 12 01 66
89SR=B 90SR=4»1
AM 51141802143812020145 12 17 66
89SR=B 90SR=2.3
AM 53135803943812010859 07 01 66
SR89=10 SR90=9
AM 53135803943812010860 07 02 66
SR90=12
1900006
1900006
1900006
6410001
001
6470001
9990001
0010001
6470001
264
264
NOTE—LTCX1 DENOTES A RESULT LESS THAN X,
Appendix Afcon^nued; PAGE
16
-------�
UTAH MILK-JULY Oi„ 1966 TO DECEMBER 30v 1966
COLLECTED
MT PLEASANT UTAH BROOKLAMN CREAMERY
K=1.4 .89SR=15
HT PHEASANT UTAH BROOKLAWN CREAMERY
K=l«3 89SR=15
MT PLEASANT UTAH BROOKLAMN CREAMERY
137CS=2oOE01 K=1.3
OGDEN UTAH MAPLE LEAF DAIRY
OGDEN UTAH MAPLE LEAF DAiRY
K=lo4 SR89=B
OGDEN UTAH MAPLE LEAF DAIRY
K=1.6 89SR=5
OGDEN UTAH MAPLE LEAF DAIRY
137CS^2oOE01 K=i<,5
ST GEORGE UTAH COX DAIRY
137CS*1«,5E01 K=1.4
ST GEORGE UTAH COX DAIRY
137CS=ioOE01 K=l«4
ST GEORGE UTAH COX DAIRY
I37CSs5oOEOO K=l«4
ST GEORGE UTAH COX DAIRY
AM 5313580394381.2010868 07 03 66
90SR=9
AM 53135803943812010867 07 04 66
90SR=10
AM 53135803943812010864 07 05 66
SR89=10 SR90-11
AM 53152105743812010857 07 01 66
SR89=5
AM 53X52105743812010856 07 02 66
SR90=12
53152105743812010863 07 05 66
90SR=9
AM 53152105743812010865 07 06 66
89SR=B 90SR=10
264
264
264
262
262
262
262
AM 51190005343812010898 07 15 66 4414001
89SR=B 90SR=4
51190005343812010964 07 29 66 OO1
89SR=5 90SR=5
51190005343812010976 08 06 66 001
89SR=B 90SR=3
51190005343812010994 08 12 66 001
89SR=B 90SR=5
NOTE»*LT«XJ DENOTES A RESULT LESS THAN X,
Appendix A(continued) PAGE
17
-------�
UTAH MILK-JULY Olc 1966 TO DECEMBER 309 1966
COLLECTED
ST GEORGE UTAH COX DAIRY
137CS=loO£01 K=i,3
ST GEORGE UTAH COX DAIRY
137CS=1.5£01 K-l»3
ST GEORGE UTAH COX DAIRY
137CS-U5EOI K=1.3
ST GEORGE UTAH COX DAIRY
K=U2 89SR=B
ST GEORGE UTAH COX DAIRY
K=l«,3 89SR=B
ST GEORGE UTAH COX DAIRY
137CS*l»5E01 K=1.3
ST GEORGE UTAH COX DAIRY
K=le3 89SR=B
ST GEORGE UTAH COX DAIRY
I37CS*5.0EOO K=1.3
ST GEORGE UTAH COX DAIRY
137CS-l«,OOEOl K=l.4
ST GEORGE UTAH COX DAIRY
I37CS^5«OEOO K=1.4
ST GEORGE UTAH COX DAIRY
137CS*l«,OE01 K=l«4
51190005343812011040 08 19 66 001
89SR=B 90SR=5
511900053438U011044 08 26 66 001
89SR=B 90SR=3
51190005343812011101 09 02 66 8400001
89SR=8 90SR=3
AM 51190005343812011146 09 12 66 6494001
90SR=8
51190005343812011243 09 30 66 001
90SR=6
51190005343812011267 10 07 66 001
89SR=B 90SR=6
51190005343812011288 10 21 66 001
90SR=3«2
51190005343812011339 10 28 66 001
89SR=B 90SR=4.0
51190005343812023293 11 25 66 OO1
89SR=B 90SR=3.9
51190005343812023415 12 16 66 001
89SR=B 90SR=4.0
51190005343811023475 12 23 66 001
89SR=2 90SR=3.2
MOTE—LT«X? DENOTES A RESULT LESS THAN X.
Appendix A(continued) PAGE 18
-------�
UTAH MILK-JULY 01« 1966 TO DECEMBER 30, 1966
COLLECTED
ST GEORGE UTAH
I37CS*lo5EOl
ST GEORGE UTAH
ST GEORGE UTAH COX DAIRY
137CS=2o5E01 K=lo3
ST GEORGE UTAH COX DAIRY
K=1.2
ST GEORGE UTAH
ST GEORGE UTAH
137CS*i«,0£Ol
ST GEORGE UTAH
137CS-1..5E01
ST GEORGE UTAH
K-1.3
ST GEORGE UTAH
137CS=i»OOE01 K=1.3
ST GEORGE UTAH
137CSfci«,OOE01 K=1.4
ST GEORGE UTAH
137CS=loOE01 K=l,4
NOTE—>LT«X) DENOTES A RESULT LESS THAN X
Appendix A (continued) PAGE
51190005343812010854 07 01 66 004
89SR=5 90SR=3
51190005343812010957 07 22 66 004
89SR=B 90SR=5
51190005343812011191,09 16 66 004
89SR=B 90SR=6
51190005343812011231 09 23 66 004
89SR=8 90SR=4
51190005343811011285 10 14 66 004
89SR=B 90SR=3.5
51190005343811023025 11 03 66 004
89SR=B 90SR=3«9
51190005343811023198 11 11 66 004
89SR=B 90SR=5«4
51190005343811023262 II 18 66 004
89SR=B 90SR=3.7
51190005343811023325 12 02 66 004
89SR=B 90SR=2.5
51190005343812023366 12 09 66 004
89SR=B 90SR=3.5
51190005343812023505 12 30 66 004
89SR=B 90SR=4.3
19
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UTAH MILK-JULY 01» 1966 TO DECEMBER 30B 1966 COLLECTED
SMITHFIELO UTAH 53194300543812010875 07 05 66
K=lc6 89SR=10 90SR=il
SMITHFIELO UTAH 53194300543812010876 07 06 66
137CS=5»OEOO K=106 89SR=5 90SR=11
SMITHFIELO UTAH 53194300543812010874 07 07 66
137CS=l«,OE01 K=l»6 SR89=5 SR90=ii
SMITHFIELD UTAH CACHE VALLEY DAIRY AM 53194300543812010866 07 01 66 261
137CS=3oOF01 K*l,5 SR89=8 SR90=13
SMITHFIELO UTAH CACHE VALLEY DAIRY AM 53194300543812010861 07 02 66 261
K=l«4 SR89=15 SR90=10
NOTE — LTIX) DENOTES A RESULT LESS THAN X»
Appendix A (continued) PAGE 20
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DISTRIBUTION
1-15 Southwestern Radiological Health Lab., Las Vegas, Nevada
16 Robert E. Miller, Manager, NVOO/AEC, Las Vegas, Nevada
17 Robert H. Thalgott, NVOO/AEC, Las Vegas, Nevada
18 Chief, NOB/DASA, NVOO/AEC, Las Vegas, Nevada
19 Martin B. Biles, DOS, USAEC, Washington, D. C.
20 Ralph S. Decker, SNS, USAEC, Washington, D. C.
21 Donald H. Edwards, NVOO/AEC, Las Vegas, Nevada
22 Henry G. Vermillion, NVOO/AEC, Las Vegas, Nevada
23 Philip W. Allen, ESSA/ARL, Lae Vegas, Nevada
24 Test Branch, DMA, USAEC, Washington, D. C.
25 John S. Kelly, DPNE, USAEC, Washington, D. C.
26 Byron F. Murphey, Sandia Corp. , Albuquerque, N. Mex.
27 Harry L. Reynolds, LRL, Liverrriore, California
28 William E. Ogle, LASL, Los Alamos, N. Mex.
29 Harold L. Rarrick, Sandia Corp. , Albuquerque, N. Mex.
30 Harry S. Jordan, LASL, Los Alamos, N. Mex.
31 William C. King, LRL, Mercury,, Nevada
32 John P. Jewett, SNPO-N, Jackass Flats, Nevada
33 Commander, Test Command, DA5A, Sandia Base, N. Mex.
34 Gilbert Ferber, ARL, ESSA, Silver Spring, Maryland
35 - 39 Charles L. Weaver, PHS, NCRH, Rockville, Maryland
40 Thomas A. Gibson, LRL, Livermore, California
41 Arthur J. Whitman, NTSSO, Mercury, Nevada
42 Donald W. Hendricks, NVOO/AEC, Las Vegas, Nevada
43 Mail and Records, NVOO/AEC, Las Vegas, Nevada
44 DTIE, Oak Ridge, Tennessee
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