delwyn s. cki 'ibanas w....
TRANSCRIPT
SOBSORFACE WATER AND SOn. QUALITY DATA BASE FOR STATE OF HAWAI I I
Part 1
Delwyn S. Cki
'Ibanas w. Giarnbelluca
July 1985
SPECIAL REroRT 7: 85
PREPARED FOR
Hawaii State Legislature
and
Office of Environmental Quality Control State of Hawaii
SUbsurface water Quality: Pesticides Contamination
Project Principal Investigator: L. stephen Lau
WATER RESOORCES RESFARClI CENTER Uni versi ty of Hawaii at Manoa
Honolulu, Hawaii 96822
SUBSURFACE WATER QUALITY: PESTICIDES CONTAMINATION
PERSCmlEL
Dr. L. Stephen Lau, Director, water Resources Research Center; and Professor, Department of Civil Engineering (Project Principal Investigator)
Dr. G.L. Dr. P.C. Dr. R.S. Mr. H.K. Dr. T.W. Dr. R.E. Dr. J.W. Dr. R.C. Dr. F.D.
Mre J.F. Mr. E.T. Dr. F.L.
Dugan, Professor and ChaiDIlan, Civil Engineering Ekern, Hydrologist, WRRC; Professor, Agronany and Soils Fuj ioka, Virologist, WRRC Gee, Environmental Engineering Specialist, WRRC Giambelluca, Assistant Hydrologist, WRRC Green, Professor, Agronomy and Soils Hylin, Professor, Agricultural Biochemistry Jones, Associate Professor of Soils Miller, Associate Researcher, WRRC; Associate Professor,
Public Health Mink, Elydrologist-Geologist; Research Affiliate, WRRC Murabayashi, Land-Use Specialist, WRRC Peterson, Professor and Chaiman, Geology and Geophysics
Federal
U. S. Department of the Navy U.S. Geological SUrvey
State of Hawaii
Department of Health
City and County of Honolulu
Board of water SUpply
iii
PREFACE
This report is part of the "Subsurface Water Quality: Pesticides Con
tamination" project authorized in Act 285, Section 38F, by the Twelfth Legis
lature, State of Hawaii, and supported by the Office of Environmental Quality
Control with the cooperation of several data collecting agencies. other proj
ect activities rurrently in progress focus on the following topics: geologic
factors, mineralogic parameters, chronology of deep water percolation through
pineawle fields, leaching properties of ftnnigants from soils, temporal and
spatial distributions of contaminants in basal grOlD'ldwaters, well and aquifer
rehabilitation, and methods of contaminant reooval. Forthcoming reports will
present the results of these activities.
The Data Base is a COITpilation of available data, specifically, results
of laboratory tests for the presence of DBCP, EDB, and TCP in the groundwaters
and soils of the State. When tests for other water quality factors were per=
formed for the sample, those results were also included. The data canpiled
herein were provided by the Hawaii State Department of Health, City and Cotmty
of Honolulu Board of Water Supply, u.S. Navy Environmental Branch, and the
U.S. Geological SUrvey Water Resources Division who have reviewed the report.
This report is intended for the use of contributing agencies and com
panies, and others involved in grotmdwater contamination research in Hawai' i.
No interepretation of the data is made in this report, nor is conment made on
the accuracy or precision of the test results other than inclusion of the
stated detection limits of each test. Laboratory equipnent and test proce
dures vary. Thus, the users of this report are advised to exercise caution
when examining the data.
v
In recent years, various chemical contaminants have been detected in
Hawai' i' s grolD'ldwater sources. Sev'eral agencies in Hawai' i have been IOOni
toring the grolD'ldwater quality for the contaminants, dibroroochloropropane
(DBCP), ethylene dibranide (FDB), and trichloropropane (TCP). In addition,
several agencies have investigated the IOOvement of these conp:>unds in the soil
at various sites on 0' ahu and Maui. The Data Base which accatq?aIlies this
reJ:X)rt represents an effort to compile all available results fran these
agencies and to organize than into a lD'liform, COIIplter-readable system in
order to facilitate research on the extent, rrovement, and persistence of
contaminants in the soil and grOlD'lclwater of Hawai' i. Results fran analyses
performed on water samples taken from wells, springs, and fran J:X)ints within
various water distribution systems throughout the state, as well as results
fran analyses performed on soil samples taken at sites on O'ahu and Maui are
included herein. The primary anphasis of the Data Base is on the carp>unds
DBCP, EDB, and TCP, but other pertinent COIIIIX>lD'lds are also included. A data
surmnary table of the maximum concentrations of these three carp>unds present
in well and spring water samples is included as a part of this report.
vi
Several agencies were extremely helpful in providing data and informa
tion necessary for the canpletion of this report and accoq>anying Data Base.
'nle staff of the Hawaii State Department of Health, Drinking water Program
was especially cooperative, and we would like to especially thank Mr. Melvin
Hamano who provided many hours of invaluable assistance. 'nle expertise of
Mr. Chester Lao of the City and County of Honolulu Board of Water SUpply was
also greatly awreciated.
PREFACE
ABSlRACT.
~
INTRCDUCrION. •
•
•
• •
•
•
CHOONQLCX;Y OF REX:ENl' OONI'AMINATION IN HAWAI I I
DATA BASE • •
REFEREtaS CITED. •
APPENDICES. • • •
•
•
• •
•
vii
iii
v
vi
1
1
5
6
9
In recent years, various chemical contaminants have been detected in
Hawai' i' s groundwater supplies. Three compounds, dibrcmochloropropane (DBCP),
ethylene dibranide (EDB), and trichloropropane (TCJ?), have been of particular
concern because of their associated health effects, both known and unknown.
Various agencies and companies 1 in Hawai' i have been mnitoring the ground
water quality with regard to these three contaminants. In addition, the
roovement of these compounds through the soil at various sites on 0' ahu and
Maui have been investigated (Mink 1981; Department of Agriculture 1983;
Williams and Williams 1983) •
The Data Base provided with this report represents an effort to compile
all available results fran these agencies and to organize the data into a
uniform, computer-readable format to facilitate research on the extent, rove
ment, and persistence of contaminants in the soil and groundwater of Hawai' i.
The primary focus of this Data Base is on the compounds DBCP, EDB, and TCJ?
When results fran analyses for other pertinent compounds were provided, these
data were also included.
Results from analyses performed on water sanples taken fran wells,
springs, and fran points within various water distribution systems throughout
the state, as well as results fran analyses performed on soil sanples taken at
sites on 0' ahu and Maui are herein included. This report includes (1) a brief
chronological summary of the recent water contamination problem in the state
of Hawai' i; (2) a detailed description of the Data Base variables; (3) maps
indicating the locations of the wells, springs, and soil bores sampled; and
(4) a data SUI'llIlary.
cmoa..c:x;y OF REX:ENl' CONl'AMINATION IN BAWAI I I
On 7 April 1977, a major incident occurred which foreshadowed Hawai'i's
current groundwater contamination problan. en that day, a spill of awroxi
mately 495 gal of EDB occurred within 60 ft of the Del z.t>nte Kunia Well
No. 2703-01 on the island of 0' ahu. The well water was sampled approximately
lBoard of Water SUfply, City arrl County of Honolulu; Hawaii state Department of Health; u.s. Geological SUrvey; University of Hawaii at Manoa; u.s. Navy, Enviromnental Branch; Del Monte Corp.; Maui Land arrl Pineapple Co.
2
one week after the spill and analyzed for IDB. However, laboratory analyses
failed to detect EDB at the SOO-ppt (parts per trillion, as used throughout
this re{X>rt) limit of detection. Although no contamination was imnediately
detected, the spill focused attention for the first time on the possibility of
pesticide contamination of groundwater in the state of Hawai' i.
In response to the discovery of DBCP contamination in california wells,
the u.s. Environmental Protection Agency (EPA) in May 1979 ,asked the five
states in which DBCP was used (Arizona, Florida, Georgia, Hawai' i, South
Carolina) to test their water supplies for the comp:>und. As a result, the
state of Hawai' i initiated its first DBCP sanpling program in June 1979.
Water sauples were taken fran 16 sites on 0' ahu, Maui, Moloka' i, and ~'i,
chosen on the basis of proximity to pineapple fields with a history of DBCP
awlications. Initial analyses by two laboratories (Hawaii State Department
of Health, california State Department of Food and Agriculture) were negative
at all 16 sites. At the time of the analyses, the Department of Health (DOH)
laboratory had a detection limit of 130 ppt for DBCP.
tater in June 1979, the DOH also sanpled the Maui High SChool Well
No. 5420-01. Analyses by the OOH laboratory indicated the presence of 200 ppt
of DBCP. Maui Land and Pineapple canpany independently tested the Maui High
SChool well water and also sanpled several other sites on Maui in 1979. '!heir
analyses for DBCP were positive at four sites. The Maui High School well sample contained 300 wt of DBCP, while two spring samples, one fran P£aeltzer's
Cove <Aw. Fig. F.5 .6) and one fran Ka' ~a Spring <Aw. Fig. F.5 .2), showed
respectively 2230 and 260 ppt of DBCP. In addition, a perched water sauple
(site 1) fran M!liko Gulch (App. Fig. F.5.5) was positive at 1740 ppt.
en O'ahu, Del ~e Corporation independently sanpled its Kunia Well
No. 2703-01 in June and August of 1979. en both occasions, duplicate analyses
shCNed one positive quantitated result and one oon-detectable level for DBCP.
The results were deemed anbiguous and no action was taken.
Then, in April 1980, several laboratories confiIIIled the presence of both
DBCP and EDB in the Del z.t>nte Kunia well. DBCP concentrations ranged fran 500
to 11,000 ppt, while Eta levels ranged fran 92,000 to 300,000 ppt. As a re
sult of the contaminants found, the Department of Health ordered the closure
of the well on 25 April 1980 (Honolulu Advertiser, 26 April 1980). Residents
of the Kunia plantation canp subsequently received their water fran the nearby
3
u.s. Navy Kunia Battery well (2803-05).
Contamination of wells in the Waialua area of 0' ahu was discovered in May
1980 • waialua SUgar Company Pump 24 water was fotmd to contain 20 ppt DBCP,
and Waialua SUgar Company Pump 25 water fran 33 to 37 ppt DBCP. Neither of
the two Waialua wells was closed since they were used for irrigation am not
as potable water sources. No potable water wells sarrpled in the central 0' ahu
area, with the exception of the Del Monte Kunia well, showed signs of contami
nation during 1980. However, some perched water wells near the 1977 spill
site did contain 1l3CP and EDB. The roH laboratory detection limits were
50 ppt for DBCP and 100 ppt for EDB in April 1980. These detection limits for
DBCP am EIB .ini>roved respectively to 20 I;Pt and 50 ppt in May 1980.
DBCP was found in the groundwater of Kaua' i in July 1981. Analyses con
ducted by the roH laboratory on sarrples taken from Moloaa TUImel 1120-01 were
positive at approximately 200 ppt for DBCP. EDB was not detected. The detec
tion limits used by the OOH laboratory for DBCP and EDB in July 1981 were
respectively 20 ppt and 50 ppt.
Mililani Wells II Pump 5 (2859-01) was the next site on O'ahu to be
affected by contamination. In Septenber 1982 the City and County of Hooolulu
Board of Water SUpply (BWS) and the Hawaii State Department of Health decided
to shut down the well as a precautionary rreasure (Honolulu Star-Bulletin,
30 Septeni:ler 1982). Prior to the closure of the well, DBCP had been fotmd at
levels of 10 ppt in June 1981 and 97 ppt in September 1982 in water sanples
taken at the Mililani II well site. other sources in the area were able to
meet drinking water needs when the well was closed.
In July 1983 the problem of groundwater contamination on O'ahu became
roost evident. <il 5 July 1983, the Waipahu Wells, Pumps 3 (2400-04) and
4 (2400-03) were closed by the BWS after IDS was found in concentrations
ranging fran 50 to 70 ppt in the two wells. Two days later, the Waipahu
Wells, Pumps 1 (2400-02) and 2 (2400-01) were also closed without announcanent
by the BWS after EDB was found in concentrations of 18 to 26 ppt. Although
the wells had already been closed, the OOH called for the closing of the four
Waipahu wells on 11 July 1983 (Honolulu Adyertiser, 12 July 1983) •
The Kunia Wells II, Pumps 1 (2402-01) and 2 (2402-02), were closed by the
BWS on 14 July 1983 as a precautionary rreasure when DBCP was found at trace
levels of approximately 20 ppt (Honolulu Advertiser, 15 July 1983). Mililani
Wells I, PuI'Ip3 2 (2800-02) and 4 (2800-04), were also shut down in July
4
1983 as a result of DBCP contamination. Pump 2 was shut down on 19 JUly 1983
after 30 ppt DBCP was discovered in its water (Honolulu Advertiser, 20 July
1983) • DBCP was actually first detected in Pump 2 in Septenber 1982 at
12 wt. PuIrp 4 was closed on 20 July 1983, after the discovery of 40 wt DBCP
in the sampled water (Honolulu Advertiser, 21 July 1983). The chenical was
first detected in Pump 4 in September 1982 at 20 ppt. A final count shows
that with the eight wells closed during July 1983, a total of 10 wells in the
central 0' ahu area were closed as a result of contamination. In addition,
several other wells, such as the 0.5. Navy waiawa Shaft (2558-10>, were re
FOrted in July as being contaminated by DBCP. Although the 0.5. Navy was
aware of the contamination since February 1983, the shaft was not closed
because of its role as a major source of water for the Navy. Similarly,
Mililani Wells I, Pumps 1 (2800-01) and 3 (2800-03), remained open despite
evidence of trace amounts of DBCP since the Mililani area could not be served
by any other wells.
Analyses for TCP by local laboratories were not performed until September
1983. Results of these analyses iImnediately revealed TCP contamination at
nine of the ten previously closed well sites on 0' ahu (no test for TCP was
done at the Del Monte Kunia well (2703-01». In addition, water samples taken
fran Mililani Wells I, Pumps 1 and 3; the Kunia Wells I (2302-01 to -04); the
HO'ae' ae Wells (2301-34 to -39); the o.s. Navy Waiawa Shaft, and the Waipi '0
Heights Wells II (2500-01, -02) as well as several other less frequently
sampled sites were all found to have TCP.
On the island of Maui, TCP was first discovered in groundwater in Novem
ber 1983 at the Maui High SChool well site. Concentrations of TCP ranged fran
340 to 460 ppt based on analyses by the OOH laboratory. In March 1985 TCP was
fotmd at a level of 1200 ppt in a sample fran a Pa' uwela Spring and trace
amotmts were found at the HC&S Pt.Dnp No. 17 in upper Paia.
In addition to the TCP discoveries in March 1985, the IX)H laboratory de
tected EI:B in samples fran the Ma.ui High School well (65-67 ppt), the Pa'uwela
Spring <120 ppt), ani the HC&S Pt.Dnp No. 17 (28 ppt). This discovery of IDS
was the first time the chenical had been detected in state tests on Maui water
samples (Honolulu Advertiser, 14 March 1985) •
Concentrations of TCP on the order of 2000 ppt have been measured at the
Mililani well sites. These concentrations of TCP contrast sharply with the 20
to 100 ppt of DBCP or EDB typically found in 0' ahu wells. There are l'X) pres-
5
ent standards pertaining to the amounts of DBCP, IDa, or '!CP allowable in
drinking water in the state of Hawai 1 i. The Department of Health does, bar
eCJer, have a policy of closing any well with confirmed quantitated aIOOunts of
IDB or DBCP. (Present detection limits used by the OOH, BWS, arxl u.s. Navy
laboratories in the state of Hawai'i for IDB arxl DBCP are 20 ppt.) Yet if no
other water sources are available, such as at Mililani, the Department of
Health will, of necessity, allow the source to be used. The OOH does not have
an action limit for '!CP, based on the assumed lesser risk associated with its
constmlption. Generally, the OOH considers IDB to be the roost toxic of the
three chEmicals, followed by DBCP and then '!CP.
It should be etPlasized that the chronology outlined above is one of dis
covery and does not necessarily provide any information as to when each site
was actually first contaminated. In many cases, the date of contaminant dis
covery coincides with either the initial testing at the site or with an tID
provement in the testing procedure. Given that the leCJel of detection has
been reduced fran 500 ppt in April lm7 to 20 ppt at present for IDS and fran
130 ppt in June 1979 to 20 ppt at present for DBCP, it is likely that these
chemicals were present in the groundwater for many years prior to their dis
covery.
Jll\TA BASE
Included with this report is a computer printout of the Data Base. A
description of the Data Base variables for water analyses and a listing of
the notes pertaining to particular water analyses can be found in Appendix
Tables A.l and A.2, respectively, of this report. A description of the Data
Base variables for soil analyses and a listing of the soil analyses notes are
in Appendix Tables B.l and B.2, respectively. Listings and definitions of the
abbreCJiations for chemical caupounds, agencies and analytical results relevant
to the Data Base are respectively included in AR?endix Tables e.l, e.2, arxl
e.3. The inplt data for the Data Base is stored on a magnetic tape which may
be borrowed fran the water Resources Research Center Library. A description
of the contents arxl format of the tape is contained in AR?endix Table D.l.
Maps of the islands of Kaua 1 i, 0 1 ahu, ItDloka 1 i, Lanai i, Maui, and Hawai 1 i
are provided in AgJendix Figures F .1.1, F.2.l, F.3.l, F.4.l, F.5.l, and F.6 .1.
The grid pattern for each islarxl map corresponds to quadrangles of the u.s.
6
Geological SUrvey 7.S-minute series top:>graphic maps for that island, with the
exception of the single map for Lana'i. The wells, springs, and soil-bore
si tes ~led on each island for compounds pertinent to the Data Base are
represented on the computer-plotted maps by various syntlols: squares for
wells, circles for springs, and triangles for soil-bore sites.
The quadrangle layout map is followed by individual quadrangles at a
larger scale on which each sanpled site is labeled. Chly those quadrangles
containing a sanpled site are included. Wells within each minute grid of the
quadrangles are labeled with a sequential number identical to the scheme used
by the Hawaii State Department of Land and Natural Resources, Division of
Water and Land Developnent. Appendix Tables E.I to E.6 list the sanpled wells
by US:;S (or DLNR) number and descriptive name, while sampled springs are
listed by the minute grid number and descriptive name. Also shown in these
tables are the highest detected concentrations at the well and spring sites of
each of the COIIP>unds DBCP, IDS, and TCP, and the corresp:mding dates on which
they were sanpled. It should be noted that only well, spring, and soil-bore
sites sampled are shown on the maps. Thus, any samples taken fran p:>ints
within the various distribution systems throughout the state are not shown.
Furtherroore, it should be noted that the locations of several well and spring
sites sampled could not be determined. These sites, which are not shown on
the maps, are listed below.
Island
Kaua'i
O'ahu O'ahu O'ahu O'ahu O'ahu
Site Name Puhi Tunnel
Dillingham Military Reservation Well
Ishilooto Farm (Hale'iwa)
Nakama Well (Upper KIpapa)
Waikele Spring (Lower Waikele Gulch, waipahu)
Yosh:iJwra Well
Board of Water SU];p1y. 1982-1984. "Pesticide laboratory rep:>rts." City and County of Honolulu, Hawaii.
Del Monte Corporation. 1979-1980. "Laboratory results." Honolulu, Hawaii.
7
Department of Agricultural Biochemistry. 1981-1983. "Laboratory reports." College of Tropical Agriculture and Human Resources, university of Hawaii at Manoa, Honolulu, Hawaii.
Department of Agriculture. 1983. Preliminary report on soil sampling for EDB on Oahu. Pesticides Branch, Division of Plant Industry, State of Hawaii, Honolulu, Hawaii.
Department of Food and Agriculture. 1979-1982. "Laboratory reports." Chemistry-Worker Safety Laboratory, State of California.
Department of Health. 1979-1984. "Laboratory reports." State of Hawaii, Honolulu, Hawaii.
Department of Health Services. 1981-1983. "Laboratory reports." Sanitation and Radiation Laboratory Section, State of California.
Industrial Analytical Laboratory. 1983. "Laboratory reports." Hooolulu, Hawaii.
Maui Land and Pineapple Ccmpany. 1980-1984. "Laboratory reports." Maui, Hawaii.
Mink, J.F. 1981. DBCI? and EDB in soil and water at Kunia, oahu, Hawaii. Report prepared for Del Monte Corporation, Honolulu, Hawaii.
Stoner Laboratory. 1983. "Laboratory reports." Santa Clara, California.
u.S. Department of the Navy. 1983-1984. water semple test results. Environmental Branch, Pacific Division, u.S. Department of Defense.
u.S. Environmental Protection Agency. 1983. Laboratory report. Beltsville, Maryland.
u.S. Geological Survey. 1981-1983. "Laboratory results." water Resources Division, Hooolulu, Hawaii.
Williams, A.E.H., and Williams, D.D.F. 1983. "nBC!? IOOV'ement through Hawaiian soils and into groundwater." Maui Land and Pineapple Canpany, Haliimaile, Maui, Hawaii (draft copy) •
A.l.
A.2.
B.l.
B.2.
C.l.
C.2.
C.3.
D.l.
E.l.
E.3.
E.4.
E.5.
E.6.
APPEmIX CONl'Em'S
Tables
Description of Data Base Variables for Water · . . . . . . . . . . . Water Notes. • • • • • • • • • . . . . . . . . . . . . . . . . . . . Data Base Variables for SOils. . . . . . . . . . . . . . . . . . . . SOil Notes ••••••• · . . . . . . . . . . . . . . . . . . . . . Abbreviations~unds · . . . . . . . . . . . . . . . . . . . . . Abbreviations-Agencies • · . . . . . . . . . . . . . . . . . . . . . Abbreviations-Analytical Results. · . . . . . . . . . . . . . . . . Coop.tter Storage Specifications. • · . . . . . . . . . . . . . . . . Data Base SuImnary, Island of Kaua' i. · . . . . . . . . . . . . . . . Data Base SUmmary: Island of 0' a}m e
Data Base Summary, Island of ftk>loka' i. · · • · · · · • · · · · · · · Data Base SUmmary, Island of Lana' . 1.. · · · · · · · • · • · · · · · • Data Base SUmmary, Island of Maul. · · • • · · · · · • · · · · .. · Data Base SUmmary, Island of Hawai'i · • · · · · · · · · · · · · · ·
Figures
9
13
16
25
27
30
31
32
33
36
37
43
43
44
46
F .1.1. ()Jadrangle Layout with Well Site Locations, Kaua' i • • • • • • • • 47
F.l.2. Kekaha, Kaua' i Quadrangle (K-2). • 48
F .1.3. Hanapepe, Kaua'i Quadrangle (K-5). · . . . . . . . . . . . . . . . 49
F.l.4. Koloa, Kaua' i Quadrangle (K-8) . . . . . . . . . . . . . . . . . . 50
F.l.5. Anahola, Kaua' i Quadrangle (K-9) 51
F.l.6. Kapaa, Kaua' i Quadrangle CK-lO) . . . . . . . . . . . . . . . . . 52
F .1.7. Lihue, Kaua' i Quadrangle CK-ll) ••• 53
F.2.l. ()Jadrangle Layout with Well and SOil Bore Site Locations, O'ahu. • 54
F.2.2. Kaena, 0' ahu Quadrangle (0-1). • . . . . . . . . . . . . . . . . . 55
F.2.3. Waianae, 0' ahu Quadrangle (0-2). 56
10
· . . . . . . . . . . · . • • • • 57 F.2.4. Waimea, 0' ahu Quadrangle {(}-3).
F.2.5. Haleiwa, 0' ahu Quadrangle «}-4) · . . . . . . . . . . . . . . 58
• • 59 F.2.6. Schofield Barracks, 0' ahu Quadrangle «}-5). • · . . . . . · . F.2.7. Ewa, 0' ahu Quadrangle {(}-6) • • • • · . . . . . . . . . . . • • • 60
· . . . · . . . . • • • • 61 F.2.8. Kahuku, O'ahu Quadrangle «}-7).
F.2.9. Waipahu, 0' ahu Quadrangle «}-9)
F.2.l0. Puuloa, O'ahu Quadrangle {(}-lO)
F.2.11. Kahana, O'ahu Quadrangle «}-11)
· . . . · . . · . . . . . • • 62
· . . . . . . · . . · . . . . . . . . . . . .
F.2 .12. Kaneohe, 0' ahu Quadrangle «}-12).
F.2 .13. Honolulu, 0' ahu Quadrangle «}-13)
. . . . . . .
. . . · . . . . · . . . .
• • 63
• • • • 64
· . • • 65
• • • • 66
F.2 .14. Koko Head, 0' ahu Quadrangle «}-15). · . . . . · . . . . . . . • • 67
F.3.1. Quadrangle La".iout with Well Site LocatioI"1S, ~loka Ii. 1:0 · . . . . . ""'"
F.3.2. Kaunakakai, z.k>loka' i Quadrangle (Mo-3).
F.3.3. Kamalo, z.k>loka' iQuadrangle (Mo-4). • • · . . · . . . . • •• 69
· . . . . . • • • • 70
F.4.l. QJadrangle Layout with Well Site Locations, Lana' i. . . . • • 71
F.4.2. Minute Grid System, Lana' i .•....... . . . . . · . • • • • 72
F.5.l. QJadrangle Layout with Well, Spring, and Soil Bore Site Locations, Maui. • • • • • · . · . . . . . • • • • 73
F.5.2. Honolua, Maui QJadrangle (M-l).
F.5.3. Lahaina, Maui Quadrangle (M-2).
F .5.4. Wailuku, Maui Quadrangle (M-5).
· . . . · . . . . · . . . . • • • 74
· . . . . · . . . . . . . . . 75
· . · . . . . . . • • • • • 76
F.5.5. Paia, Maui Quadrangle (M-7) • • • • · . • • · . · . . • • • 77
F.5.6. Haiku, Maui Quadrangle (M-lO) . . . . . . . . . . . . . . . . • • 78
F.5.7. Kilohana, Maui Quadrangle (M-11). . . . · . . . . . . . . • • • • 79
F.6.l. Quadrangle Layout with Well and Spring Site Locations, Hawai' i. • 80
· . . . · . . . • • • • 81 F .6.2. Kealakekua, Hawai I i Quadrangle (If-8).
F.6.3. Honaunau, Hawai I i Quadrangle (If-9). · . · . . . . . . . . . . 82
F.6.4. Hawi, Hawai' i Quadrangle (If-13) • • · . . . . . · . • • • • 83
F.6.5. Puu Hinai, Hawai' i Quadrangle (H-15).
F.6.6. Naalehu, Hawai'i Quadrangle (H-43) ••
F.6.7. Honokaa, Hawai' i Quadrangle (H-44). . . . F.6.8. Pahala, Hawai' i Quadrangle (H-51) •
F.6 .9 • Kukaiau, Hawai' i Quadrangle (H-52).
F .6.10. Papaaloa, Hawai' i Quadrangle (H-60)
. . . . . . . . . .
11
84
85
86
• • • • • • • • 87
• • • • 88
• • • • 89
F.6.11. Papaikou, Hawai'i Quadrangle (H-66) • • • • • • • • • • • • • 90
F.6.12. Bilo, Hawai'i Quadrangle (H-67) • • • • ••••••••••• 91
F.6 .13. Pahoa North, Hawai' i Quadrangle (H-72) • • • • • • • • • • • •• 92
13
APPENDIX TABLE A.l. DESCRIPl'ION . CF DATA BASE VARIABLES FOR WATER
HEADER VARIABLES DESCRIPl'ION
Site Name Place name of site sampled (assigned by sampling or testing
agency)
Location Latitude and longitude of site in degrees, minutes, and
seconds
UOOS Number
Source
SAMPLE VARIABLES
Date
Time
Agency
Name
~r
TEST VARIABLES
Date
Canpound
CAlso known as DLNR number)
Four- or six-digit number based on latitude and longitude
of sampled site; first two digits correspond to minute of
latitude and second two digits to minute of longitude; for
six-digit numbers, final two digits (follONing a dash)
indicate sequential site number within minute grid
Indicates sample source type, e.g., wellhead, spring or
distribution system (tap)
Date of sample collection
Time of sample collection
Agency involved with sample collection
Name of laboratory performing chenica1 analysis; see list
of agencies and laboratories in Abbreviations--Agencies
CApp. Table C.2)
Nl.tnt>er assigned to sample by laboratory
Date of laboratory analysis
Canpound analyzed; see list of Abbreviations---cant:ounds
CApp. Table C.l)
14
APPENDIX TABLE A.l--COntinued
DESCRIPrION
Concentration Concentration of compound found in Semple, expressed as numerical value (in y;:arts per billion or :tP:» or as one of
ai::breviations, NO, NJ, or LD (described below). Although
numerical results are reported as ppb, a weight per weight
unit, laboratory test procedures actually yield results in
weight per volume units (in llgll or micrograms/liter); but
in J'IlaIl¥ laboratory reports and in most written accounts of
contamination, these amounts are presented in:tP:>. In any
case, for the range of concentrations found in the data
base, the units are virtually interchangeable.
Detection Limit
Description of concentration abbreviation:
1. N) (none detected)-Indicates that 00 peak was detected
on chranatogram above ooise level of testing
equipnent
2. NJ (non-quantifiable)-Indicates a peak appeared on
chranatogram but this peak yielded a concentration
below stated detection limit of testing equipnent
3. ID (less than detection limit)-Indicates that either
of conditions 1 or 2 above exists; used whenever
existence of NJ or NO condition could not be
determined
Indicates sensitivity of testing equipnent in terms of :tP:>;
lower detection limits generally indicate greater equipnent
sensitivity
(It should be ooted that u.s. Navy provided UHM-WRRC with
results while its detection limits for 00Ci?, Em, and 'l'CP
were respectively 0.02, 0.02, and 0.06 ppb. In September
1984 the Navy revised its detection limit for 'l'CP by
increasing it to 0.2 PID in order to be consistent with
Hawaii State Department of Health's detection limit for
'lCP. '!he Navy then rEquested that the following changes J:e
made to its previously reported results:
15
APPENDIX TABLE A.l--COntinued
% Recovery
RJlES
Notes
DESClUPI'ION
1. That numerical readings for 'ICP between 0.06 and
0.2 IP:> be changed to NJ designation
2. That all 'ICP readings less than 0.06 Wb be changed to
nnon-detectableft designation
3. That all NJ 'ICP readings be changed to a ftnon
detectableft designation
4. 'lbat all NJ readings for J::I3CP and .ED3 be changed to
ftnon-detectable ft designation.
To comply with the Navy's r8:}Uests, an LD designation was
adopted for aI¥ numerical results below their detection
limits or aI¥ NJ readings rep:>rted by then prior to SeJr tember 1984. In addition, for J;UrpOses of the data base,
the Navy detection limit for 'ICP is rep:>rted as 0.2 IP:> throughout.)
Percent recovery represents laboratory quality control
measure used to give an indication of amount of compound
lost during analytical procedure
(It should be ooted that the Hawaii state Department of
Health laboratory applied this % recovery factor to their
rep:>rted results for ErB and OOCP fran 29 August 1983 to
8 October 1984. To COIWert back to original analytical
results, all rep:>rted values fran IXE laboratory for this
time period must be multiplied by % recovery. For J;UrpOses
of this data base, all results are rep:>rted as received
fran the various agencies; thus, IXE results were not
altered in any way.)
Notes written by sampling or testing agencies pertaining to
particular sample; each numbered note in data base defined
in Water Notes (App. Table A.2)
16
APPENDIX TPBLE A.2. WATER NOI'ES
No. ~te
MNJI
1 Nitrate determined by brucine method
2 Concentration expressed as nitrogen
3 pH 6.7
4 Unable to analyze for telone because of excessive organic interferences
5 Detection limit for IBCP, 0.05-0.1 ppb
6 pH 5.0
7 Flewing water in transnission tunnel
8 Concentration less than 50 ppb
9 Kapalua take-off; flew in tmmel
10 pH 6.7
11 Intake at 9S0-ft elevation; source located 2.8 miles inland fran Honokohau Bay (sample represents stream water form dikes and watershed areas)
12 1 qt mason jar of water fran Mr. Brockman's residence in Honokohau Valley
13 Flewing basal spring near coast
14 pH 7.2 15 Honolua Ditch located 2 miles inland fran Honokahua Bay; 778 ft intake
elevation
16 Flewing spring perched on ash stratum
17 pH 5.8 18 1 qt mason jar of water collected at Maliko Gulch off Halla Hwy.
19 AR;>roximate concentration
20 Fran sump at intersection of tunnels; pump not on
21 1 qt mason jar of water collected at Maliko Shaft No. 32; pump not working-sampled at sump
22 1 qt mason jar of water collected at Maliko TUnnel ~. 16 (5620-01)
23 PlInp on
24 Duplicate
25 1 qt mason jar of water sampled at Napili well; water ptmJped fran well ·e· since well "a· not operating
26 1 qt mason jar of water sampled at Nifta! Project; Maui High School well no. 5420-01 not operating
27 Sample collected at S1.IIlp of infiltration tunnels; PllnP not on
APPENDIX TABLE A.2-COntinued
No. Note
28 Spring flow; high-level perched water
29 Basal water seepage in pump roan; pumps not on
30 Flow in ditch 31 ~ mile east of Baldwin Avenue; ~ miles south of Maunaolu College
32 pH 6.8
33 1 qt mason jar of water
34 AWroximate concentration
35 Sample collected 7 min after J;QIIP on
36 Sample collected 10 min after J;UIIP on
HAWAI'I
1 Interfering peak
1 Duplicate
2 Interfering peak?
LANA'I 1 Concentration expressed as nitrogren
2 Detection lllnit for IBCP, 0.05-0.1 aX:> 3 pH 7.2
ML(EA'I
1 Concentration expressed as nitrogen
2 Free flow
3 Detection limit for IBCP, 0.05-0.1 aX:> 4 pH 6.6
5 water in pipeline
OAH'U
1 Concentration expressed as nitrogen
2 Sample collected at tunnel entrance, inside tap on pipe
3 Detection limit for IBCP, 0.05-0.1 ppb
4 pH 6.9
17
18
APPENDIX 'rnBLE A.2~ntinued
No. Note
5 5aq>les taken just after J;UlIP turned on after being off for a period of time
6 5aq>les taken when pump was off and represent last water IUnPed during previous pumping cycle
7 Pump started at 0830
8 Pump stogJed after saJrq?le collected
9 Pump started at 0715; pump off since 09 May 1980
10 Pump started at 1615
li Pmnp started 0715
12 Pump stogJed at 2115
13 Pump started at 0800; pump on continuously to 18 Aug. 1980
14 ED3 concentration less than 0.01 Wi' 15 Temperature 72°F
16 Temperature 70°F
17 5aq>le with sediment
18 Filtered sample
19 Interference occurred; Em concentration less than 0.24 pP::>
20 Sanp1e collected at 85-ft depth
21 5aq?le collected at liS-ft depth
22 Residual chlorine interfered with test
23 pH 7.0
24 Pump on
25 Temperature 71°F
26 Total chlorine residual, 0.025 ngl1
27 DigJed grab sample
28 Chlorine residual, 0.5 ngl1
29 Frontal peak not canpatible with EtB standard I s retention time
30 Duplicate
31 Without sodium thiosulfate addition
32 Inconclusive; interfering peaks present
33 With sodium thiosulfate addition
34 z.tlddy grab sample
35 Pump discharge rate, 10 gpn
36 Pumped gallon 00. 1
19
APPENDIX TABLE ~2--COntinued
No. Note
37 Pumped gallon no. 6
38 Pumped gallon no. 12
39 Pumped gallon no. 18
40 Pumped gallon no. 29
41 Pump in operation 24+ hrs
42 Inconclusive1 to be resampled
43 pH 7.5
44 Pump turned on for sample collection
45 Value verified l:!i solvent extraction and standard additions methods
46 Lab resUlt may be questionable (as per M. Hamaoo, IXE, Dec. 1984)
47 Pump was operating for about 2 hrs
48 Blended water fran Kunia well and Navy well
49 Lualualei' s tunnel and well waters
50 Peaks close to EOO, IECP, and TCP retention times, but not compatible with standards' retention times
51 Residual clorine, 0.35 mg/l
52 Addition of sodium thiosUlfate to sample resolved spurious peaks aQ;learing close to EOO, OOCP, and TCP
53 Analysis oone in duplicate
54 pH 7.221 tEq?erature 23.7°C
55 Water felt wann
56 Concentration estimated
57 Chlorine residual, 0.0 mg/l
58 Trailing peak not cx:mpatible with EIB standard's retention time
59 Free chlorine residual, 0.05 mg/11 total chlorine residual, 0.25 ngll
60 Free chlorine residual, 0.05 mg/11 total chlorine residual, 0.075 ngll
61 Free chlorine residual, 0.0 mg/11 total chlorine residual, 0.1 mg/l
62 Peak close to .EJ:B present
63 300-m[ sample
64 Free chlorine residual, trace~ total chlorine residual, 1.0 mgll
65 Trace chlorine
66 Chlorine residual, 0.05 mg/l
67 pH 7 .18~ tEq?erature 23.5°C
68 water chlorinated
20
APPENDIX TABLE A. 2--COntinued
No. N'Jte
69 Pump 3 used to fill reservoir 865; none of plIl1pS on; dust fran road in manhole
70 Free chlorine residual, 0.05 ngll; total chlorine residual, 0.1 1l¥3/1
71 Free chlorine residual, 0.05 1l¥3/1; total chlorine residual, 0.05 ngll
72 Free chlorine residual, 0 ngll; total chlorine residual, 0 ngll
73 Free chlorine residual, 0 ngll; total chlorine residual; 0.5 ngll
74 Flow rate, 55 gpm 75 Inlet water
76 After first tower
77 After second tower
78 Pump in operation for several days
79 Pump was on for about 15 min
80 Recovery greater than 50%
81 Recovery greater than 95%
82 QJantifiable ljmit of detection, 0.005 pP:'l
83 QJantitated relative to we 75, 1,2-Dichloropropene; identified t!{ ms match only (fit = 982)
84 Standard needed for tmambiguous coni innation
85 Benzene greater than 1.50 PJ:b; signal saturated at this concentration
86 pH 7.1; temperature 2l.8°C
87 Trace; less than quantifiable limit of detection
88 Small peak eluting close to EtB position was observed but believed to be sanething other than EtB due to consistent difference in retention time (6.82 vs 7.14 min)
89 Detection limit oot stated
90 Volatiles analysis
91 Grab closed loop stri];per
92 Methylene chloride extraction
93 ~ confinned t!{ State Depu=tment of Health
94 Could not be quantitated due to large neart!{ peak
95 Pump on for 64 hrs pcior to sample collection
96 Pump 3 on for couple of oours
97 pH 7.2
98 Pump operating for 4 hr prior to sample collection
99 ~ 7.13; temperature 22°
APPENDIX TABLE A.2--Gontinued
No. Note
100 To be rechecked
101 Detection limit less than 0.001 ppb
102 Detection limit less than 0.005 ppb
21
103 Concentration uncorrected for recovery: 90% recovery with 0.02 ppb DBCP spike: 46% recovery with 0.05 ppb DBCI? spike
104 Concentration uncorrected for recovery; 93% recovery with 0.02 ppb Em spike; 59% recovery with 0.05 ppb EOO spike
105 Prelube water
106 Pump turned on at 0833: sample collected 15 seconds after IXJIIIP turned on
107 l-min sample
108 3-min sample
109 5-min sample
110 lo-min sample
III 20-min sample
112 3o-min sample
113 45-min sample
114 l-br sample
115 1.5-br sample
116 2-br sample
117 3-br sample
118 4-br sample
119 6-br sample
120 8-br sample
121 pH 7.34: temperature 22°C
122 pH 7.12; temperature 22°C
123 Sample oot cooled to 4°C
124 Insufficient sample volume to verify by standard additions method
125 Pump running for 20 min prior to collecting sample
126 Effluent after first barrel
127 Flow rate, 30 gpm 128 Effluent after second barrel
129 Aerated effluent water
130 Flow rate, 10 gpm
131 Flow rate, 20 gpm
22
APPENDIX TMLE A. 2--COntinued
No. Note
132 Flow rate, 60 gpm
133 Flow rate, 120 gpm
134 Flow rate, 170 gpm 135 Flow rate, 210 gpm
136 Flow rate, ISO gpm
137 Without fan
138 Lab aeration on second tower effluent
139 25 ft 3/min of air
140 50 ft 3/min of air
14l 100 ft 3/min of air
142 Tower effluent
143 Flow rate, 1450 gpm
144 With fan
145 Flow rate, 1000 gpm 146 Flow rate, 1200 gpm 147 Flow rate, 1400 gpm
148 Tower effluent with air filter and fan running
149 Tower effluent with air filter and fan running; 6 days continuous operation
ISO Source
151 Mter cooling tower
152 PlJnp started at 0850
153 Before aeration
154 Mter aeration
155 Fan off
156 Sample collected at 880-ft depth
157 Sample collected at 900-ft depth
158 Sanple collected at 930-ft depth
159 Sample collected at 980-ft depth
160 Sample collected at 71O-ft depth
161 Sample collected at 730-ft depth
162 Sample collected at 76o-ft depth
163 Sample collected at 81o-ft depth
164 Sample collected at 7SO-ft depth
APPENDIX TABLE A.2-<ontinued
No. Note
165 Sample collected at 800-ft depth
166 Sample collected at 7l5-ft depth
167 Sample appeared oily and turbid
23
168 MinimlUU detection level dependent on sensitivity of Hall electrolytic conductivity detector 7004 (nitrogen mode)
169 water fran Pump 4 only a standby source
170 Line seepage sample
171 Mauka well
172 Much entrained air fran tap
173 Chlorine residual, 0.3 JIg/I
174 Peak not c::aDIatible with standard's retention time
175 Inconclusive; masking peak
176 Subnersible p.mij?
177 Free chlorine residual, 0.4 JIg/I
178 pH 7.0
179 Sink in bottan of shaft
ISO Sample collected 7 min after PJIDP started
181 Could not be quantitated due to large peak close by
182 pH 8.2; temperature 21°C
183 pH 6.6; temperature 20°C
184 ~ 7.5; temperature 21°C'
185 Pump 1
186 Waialua Sugar Pump 3 (at Kawailoa Camp, Kawailoa Division Office)
187 Field spike bottle broke in cooler: possible contamination
188 water fran faucet
189 Pump 3, off main header tap
190 Wet print near site
191 Line experiencing air hammer
192 Concentration less than 0.023 ppb
193 Concentration less than 0.025 Ri> 194 Free flow artesian well
195 Free flow
196 Free flow spring
197 Pump motor leaks oil
24
APPENDIX TABLE A.2--COntinued
No. Note
198 Inconclusive; to be rechecked
199 Temperature 22.5°C
200 pH 6.86; temperature 22.5°C
201 pH 7.2; temperature 22.loC
202 In blank
203 Flow rate, 90 gpn
204 Pump 4
205 Flow rate, 100 gpn
206 Well not in service; high chlorides
25
APPENDIX TABLE B .1. DATA BASE VARIABLES FOR SOILS
HEADER VARIABLES DESCRIPrION
Site Name Place name of site ~led (assigned by sampling or testing
agency)
Wcation Latitude and longitude of site in degrees, minutes, and
seconds
Hole Nmnber
SAMPLE VARIABLES
Designation of hole fran which the soil sample taken; hole
numbers assigned by sampling agency to distinguish between
various oorings at particular site
Date Date of soil sample collection
Agency Agency involved with ~le collection
Nmnber Label number assigned to soil sample by sampling or testing
agency
Depthl-Depth2 Depth or depth range beneath surface fran which soil sample
taken; samples taken over certain length of soil column
labeled with the depths of the top and oottan of column
Name
TEST VARIABLES
% Solids
Caopound
Name of laboratory performing chemical analysis and soil
tests; see list of various ~ling agencies and labora~
des provided in Abbreviations-Agencies (App. Table C.2)
Percentage of solids by weight in soil sample; percentage
obtained by dividing oven-dried weight by as-received
weight of sample.
Caopound for which analysis perfonned; see list in Abbre
viations--Comp:lunds (App. Table C.ll
26
APPENDIX TABLE B.l~ntinued
TEST VARIABLES
Concentration As-Received Basis
Concentration DIY-Weight Basis
Detection Limit
lVl'&S
Notes
DESCRIPl'ION
Concentration of comp:>und in soil saq>le; may be ntmterical
value expressed in terms of parts of compound per billion
parts of soil on moist or as-received weight basis (Pfb) or
one of following:
(1) ID (none detected)
The NO designation indicates no peak detected on chro
matogran above mise level of testing equipnent
(2) NJ (non-quantifiable)
The N;l designation indicates that a peak appeared on
the chranatogram, but this peak yielded a concentration
below the stated detection limit of the testing equip
ment
(3) ID (less than the detection limit)
The LD designation indicates that either of the above
conditions 1 or 2 exists (this designation was used
whenever it coUld not be determined whether an N;l or an
NO condition existed)
Concentration of the canpound in the soil sample. '!he con
centration may be a mnerical value expressed in terms of
parts of compound per billion parts of soil on a dty weight
basis (Pfb) or one of the three designations listed above
Indicates the sensitivity of the testing equipnent in terms
of Ri>; lower detection limits generally indicate greater
8:IUipnent sensitivity
Notes written by the sampling agency or testing agency
pertaining to the particular sample; each IllIDbered note in
the soil Data Base is defined in the section of this rep:>rt
entitled SOil Notes <Aw. Table B.2)
27
APPENDIX TABLE B.2. SOIL 0C1!'ES
No. Notes
0 1 ABO
1 No sample for % solids
2 Concentration for Em on dry weight basis was estimated
3 A hole was drilled directly to 15 ft (4-in. auger) in Del fotmte Field 60 (non-detectable levels of Em in soil profile below first few feet) then sampled to 17 ft with two successive one-ft cores (background samples). '!he hole was then spiked to evaluate the effect of surface soil contamination. '!he hole was spiked with a quart of surface soil fran Del »Jnte Field 2 poured directly into the hole. '!his was followed by four successive one-ft core samples employing the standard coring and augering procedure. '!he procedure was repeated three consecutive times, the second spiking with two quarts rather than one quart of contaminated soil.
4 Soil added - one quart
5 Soil added - two quarts
6 Spiking soil fram Del »Jnte Field 2
7 Top 9 in. of sample
8 Bottan 9 in. of sample
9 Repeat analysis
10 No sample
11 Duplicate samples extracted and analyzed
12 Sample kept in frozen storage for 4 IOO prior to analysis
13 Presence of an unknown substance interfered with the analysis
14 Background interference - concentration less than 5.0 ppb
MAD!
1 3.37% organics (all organic contents reported as a percentage of field moist soil)
2 1.58% organics
3 0.49% organics
4 0.17% organics
5 3.44% organics
6 1.92% organics
7 0.44% organics
8 0.67% organics
9 Average concentration of two sanples fram three to four sites
28
APPENDIX TABLE B.2--COntinued
No. Notes
10 Composite of four sites
11 1.97% organics
12 0.73% organics
13 0.33% organics
14 0.32% organics
15 0.40% organics
16 2.22% organics
17 1.10% organics
18 0.73% organics
19 0.62% organics
20 0.42% organics
21 0.14% organics
22 1.15% orgatucs
23 0.62% organics
24 1.34% organics
25 1.34% organics
26 1.09% organics
27 0.39% organics
28 2.17% organics
29 0.62% organics
30 0.71% organics
31 0.20% organics
32 0.36% organics
33 0.76% organics
34 2.00% organics
35 1.24% organics
36 1.33% organics
37 0.37% organics
38 0.61% organics
39 0.62% organics
40 9.86% organics
41 0.09% organics
42 0.48% organics
29
APPENDIX TABLE B.2--COntinued
No. Notes
43 0.32% organics
44 0.22% organics
45 0.20% organics
46 6.94% organics
47 2.90% organics
48 0.61% organics
49 0.51% organics
50 0.24% organics
51 0.15% organics
30
APPENDIX TABLE C.l. ABBRE.VIATIONS--COMl?OON)S
Atbr~ viation
BRM:DICLMET CARB<:NImU. CIS/TRN OCE a..RCDIBRMET I:BCP ODD, total ODE, total OIJ!', total OIClJ?RPENES Em ENOOSULFN I ENOOSULF II HEPl' EPOX ME'lOXYOILCR mmLPARAm MmYL'lRI'lBN PCBs PCNs '10? TE'!cr.JmIENE TE'!cr.E.'I'YLEN '!RIQ,E1BENE TRIa.E.'I'YLEN XYLIETru3EN 1,1-DCE'lHAN 1,1-DCE'lLEN 1,2-DCE'lHAN 1,2-DCP 1,21l,3-DCP 2,3-DCPRPEN 2,4-0 2,4-DP 1,1,l-'OCE'm 2,4,S-T
Full Name
branodichloranethane carbon tetrachloride cis- & trans-l,2-dichlorethylene chlorodibrananethane 1,2-dibramo-3-chloropropane 1,1-dichlorcr2,2-bis (p-chlorophenyl> ethane dichlorodiphenyldichloroethylene dichlorodipheny ltrichloroethane 2,3-dichlorcrl-propene or 1,2-dichlorcrl-propene 1,2-dibranoethane (ethylene dibranide) endosulfan I, total endosulfan II heptachlor epoxide methoxychlor methyl parathion methyl trillion polychlorinated biJ;henyls polychlorinated r.apalene 1,2,3-trichloropropane tetrachloroethene tetrachloroethylene trichloroethene trichloroethylene xylene isaners and ethyl benzene l,l-dichloroethane l,l-dichloroethylene 1,2-dichloroethane 1,2-dichloropropane 1,2- & 1,3-dichloropropane 2,3-dichloropropene 2,4-dichlorophenoxyacetic acid 2-(2,4-dichloroJ;henoxy) propionic acid l,l,l-trichloroethane 2,4,S-trichloroJ;henoxyacetic acid
APPENDIX TABLE C.2. ABBRE.VIATION~JlGENCIFS
At£r~ viation
BWS
CAroFA
CADHS
OOA
OOH
EPA
FOREM)ST
INALAB
MLP
UH
USA
USGS
USN
Full Name
City and County of Honolulu Board of water Supply
State of california Department of Food and Agriculture Chemistry-WOrker Safety Laboratory
State of cal ifornia Department of Health Services, Sanitation and Radiation Laboratory Section
State of Hawaii Department of Agriculture
State of Hawaii Department of Health
Del Monte Corporation
United States Environmental Protection Agency
Foremost Dairies/Hawaii Ltd
Industrial Analytical Laboratory, Inc.
Maui County Department of water Supply
Maui Land and Pineapple Co.
Navy Public Works Center Environmental/Industrial Laboratory
Stoner Laboratory, Santa Clara, california
University of Hawaii
United States Army
United States Geological SUrvey
United States Navy
31
32
APPENDIX TABLE C.3. ABBRE.VIATlOO&-ANALYTlCAL RESULTS
AlX>r~ yiation
NO
Definition
none detected
The NO designation indicates that no peak was detected on the chranatogram above the noise level of the testing equipnent
non-quantifiable
The N'J designation indicates that a peak was detected on the chranatogram, but this peak yielded a concentration below the stated detection limit of the testing equipnent
LD less than the detection limit
'!he LD designation indicates that ei ther the NO or N'J condition exists
33
APPENDIX TABLE D.l. a::>MroTER S'IORlGE SPECIFICATIONS
'!he input data used for the Data Base are stored on an ASCII format mag
netic tape as follcws.
TAPE NO.: Xl3435 (No Label)
File No.1: Maui Soil Data
OON: '1'050320 .~.MASlE.DATA BLKSIZE: 6600 REx::FM: FB
File No.2: 0 1 ahu Soil Data
OON: '1'05032O.SSWQ.OASlE.DATA BLKSIZE: 6600 REx::FM: FB
File No.3: Hawai 1 i water Data
OON: '1'050320 .~.HAWlE.DATA BLKSIZE: 6600 REX:FM: FB
File No.4: Kaua • i water Data
OON: '1'050320 .~.KAWlE.DATA BLKSIZE: 6600 REX:FM: FB
File No.5: Lana • i water Data
OON: '1'050320 .SSWQ.~E.DATA BLKSIZE: 6600 REX:FM: FB
File No.6: Maui Water Data
OON: '1'050320 .S~.MAWlE.DATA BLKSIZE: 6600 RECFM: FB
File No.7: Moloka • i water Data
OON: '1'050320.SSWQ.lOUE.DATA BLKSIZE: 6600 RECFM: FB
File No.8: Olahu water Data (vol. la)
OON: '1'050320 .~. OAWlEl. .DATA BLKSIZE: 6600 REX:FM: FB
LREXL: 132 No. of m.c:x::KS: 7 DEN: 6250 BPI
LREXL: 132 No. of m.c:x::KS: 147 DEN: 6250 BPI
LREXI.: 132 No. of BLCCKS: 4 DEN: 6250 BPI
LREa,: 132 No. of BLCX:KS: 5 DEN: 6250 BPI
LREX:L: 132 No. of BLCX:KS: 4 DEN: 6250 BPI
LREX:L: 132 No. of BLCX:KS: 17 DEN: 6250 BPI
LRECL: 132 No. of BLCX:KS: 4 DEN: 6250 BPI
LRECL: 132 No. of BLCX:KS: 95 DEN: 6250 BPI
34
APPENDIX TMLE D.l-continued
File No.9: O'ahu water Data (vol. lb)
DSN: '1'050320 • ~.C\AWlE2.DATA LREa.: 132 BLKSIZE: 6600 No. of BLOCKS: 66 RECE'M: FB DEN: 6250 BPI
File No. 10: O'ahu water Data (vol. 2)
DSN: T05032O.~.~E.DATA LREa.: 132 BLKSIZE: 6600 No. of BLOCKS: 124 REO'M: FB DEN: 6250 BPI
FILE NO. 11: 0' ahu water Data (vol. 3)
DSN: '1'050320.~.~E.DATA LREX:L: 132 BLKSIZE: 6600 No. of BLOCKS: 101 REOM: FB DEN: 6250 BPI
The soil and water data each have separate formats. '!he soil data should
be read three lines at a time. Fach group of three statements corresponds to
one e:x:JI!};Ound analysis and contains all the appropriate site information. '!he
first two lines contain the site information. '!be third line contains the
sample information. Variable locations for soil data are given below.
CARD
1
2
3
COLUMNS
2-81
2-3
4-5 6-7
9-11
VARIABLE
Site Name
Latitude (degrees)
Latitude (minutes)
Latitude (seconds)
Longitude (degrees)
12-13 Longitude (minutes)
14-15 Longitude (seconds)
20-99 Hole Number
2-8
10-13 15-24
26-30
32-36
38-41
43-46 48-51
53-60
Sample Date
Sample AgenC¥
Sample Number
Sample Depth 1 (ft)
Sample Depth 2 (ft)
Laboratory Name
Percent SOlids
CooIpound
Concentration (as received basis1 aID)
APPENDIX T1IBLE 0.1 ~ntinued
COLUMNS
62-69
71-75
TI-8l
VARIABLE
Concentration (dry weight basis; Wb) Detection Limit (ppb)
~te Numbers
35
The water data should be read four lines at a time. '!he first three
lines contain the site information which corresponds to a particular analysis.
'!he fourth line contains the analysis information. Variable locations for the
water data are given below.
CARD
1
2
3
4
COLUMNS VARIABLE
2-81 Site Name
2-3 Latitude (degrees)
4-5 Latitude (minutes)
6-7 Latitude (seconds)
9-11 Longitude (degrees)
12-13 Longitude (minutes)
14-15 Longitude (seconds)
20-99 UEGS or DLNR Well. Nt.inber
2-81 SOurce
2-8 Sample Date
10-13 Sample Time
15-24 Sample Agency
26-35 Laboratory Name
37-48 Laboratory NUmber
50-56 Test Date
58-68 canpound
70-79 Concentration (ppb)
81-86 Detection Limit (ppb)
88-92 Percent Recovery
94-108 ~te Numbers
The tape may be borrowed fran the WRRC Reference Library at the following
address:
Water Resources Research Center University of Hawaii at Manoa 2540 Dole Street, Holmes Hall 283 Hooolulu, Hawaii 96822
APPEIDIX TABLE E.l.
WELL NO. SITE NAME
1020-02 AM FAC NO. 1 (MOLOAA WELL 1) 1020-03 AM FAC NO. 2 (MOLOAA WELL 2) 0919-03 ANAHOLA FARM LOTS A 5823-01 GARLINGHOUSE TUNNEL 5824-01 KAUAI COMMUNITY COLLEGE WELL 5842-02 KEKAHA SUGAR - KEKAHA 0245-02 KEKAHA SUGAR - MANA 5725-01 KOKOLAU TUNNEL 5530-03 LAWAI WELL 5534-04 MCBRYDE - ELEELE WELL 1120-01 MOLOAA TUNNEL 5635-01 OLOKELE SUGAR WELL 5942-01 PAUA VALLEY WELL
PUHI TUNNEL 0421-01 WAILUA HOMESTEAD WELL 5939-01 WAIMEA VALLEY SHAFT
DATA BASE 'SUMMARY, ISLAID CF KAUA I I
MAXIMUM CONCENTRATIONS ~PPT) AND SAMPLE DATES DBCP DATE EDB DATE TCP DATE
LD 30JUL81 LD 26JUL83 NO TEST LD 30JUL81 LD 26JUL83 NO TEST LD 18JUL83 LD 18JUL83 ND 26JUN84 LD 30JUL81 LD 18JUL83 NO TEST LD 20JUL83 LD 20JUL83 ND 21NOV83 LD 06SEP83 LD 06SEP83 NO TEST LD 06SEP83 LD 06SEP83 NO TEST LD 20JUL83 LD 20JUL83 ND 21NOV83 LD 30JUL81 LD 18JUL83 ND 21NOV83 LD 06SEP83 LD 06SEP83 NO TEST
I
211 13JUL81 LD 13JUL81 NO TEST LD 06SEP83 LD 06SEP83 ND 21NOV83 LD 06SEP83 LD 06SEP83 NO TEST LD 20JUL83 LD 20JUL83 NO TEST LD 13JUL81 LD 13JUL81 NO TEST LD 06SEP83 LD 06SEP83 NO TEST
W 0'\
APPEIDIX TABLE E.2. DATA BASE SUMMARY, ISLAID CF O· ABU
MAXIMUM CONCENTRATIONS ~PPT~ AND SAMPLE DATES WELL NO. SITE NAME DBCP DATE EDB DATE TCP DATE
2355-03 AlEA GULCH WELLS PUMP 1 LD 04AUG83 LD 04AUG83 NO TEST 2355-06 AlEA WELLS, WELL NO 1 LD 04AUG83 LD 04AUG83 NO TEST 1746-01 AINA KOA WELL LD 10AUG83 LD 10AUG83 NO TEST 2103-03 BARBERS POINT SHAFT 14 LD 14APR80 LD 14APR80 LD 270CT83 1851- BERETANIA PUMP STATION LD 29JUN83 LD 29JUN83 NO TEST 2255-35 C & H SUGAR-AlEA LD 02AUG83 LD 02AUG83 NO TEST 2600-02 DAIRY COMPANY (IGE) WELL LD 28JUL80 LD 28JUL80 NO TEST 2803-07 DEL MONTE KUNIA NEW WELL LD 28JUL80 LD 28JUL80 NO TEST 2703-01 DEL MONTE KUNIA WELL 14000 o 5MAY8 0 300000 24APR80 NO TEST 1952-12 DEL MONTE PLANT 29 DEEP WELL LD 25JUN79 LD 25JUN79 NO TEST
DILLINGHAM MILITARY RES WELL LD 25JUL83 LD 25JUL83 NO TEST 1952-20 DOLE PINEAPPLE WELL 1 LD 03FEB81 LD 03FEB81 NO TEST 1952-21 DOLE PINEAPPLE WELL 2 LD 03FEB81 LD 03FEB81 NO TEST 1952-11 DOLE PINEAPPLE WELL 3 LD 03FEB81 LD 03FEB81 NO TEST 1952-13 DOLE PINEAPPLE WELL 4 LD 03FEB81 LD 03FEB81 NO TEST 1952- DOLE PINEAPPLE WELL 5 LD 03FEB811 LD 03FEB81 NO TEST 2053- FORT SHAFTER WELL 1 LD 25JUL83 LD 25JUL83 NO TEST 2255-32 HALAWA PUMP STATION LD 15JUL83 LD 270CT83 LD 270CT83 2354-01 HALAWA SHAFT LD 22JUL83 LD 22JUL83 NO TEST 3405-03 HALEIWA WELLS PUMP 1 LD 27JUL83 LD 27JUL83 NQ 20AUG84 3405-04 HALEIWA WELLS PUMP 2 LD 27DEC82 LD 27JUL83 NQ 23AUG84 2603-01 HAWAII COUNTRY CLUB 15 05JUL83 LD 24APR80 NO TEST 2301-34 HOAEAE WELLS PUMP 1 LD 05MAY80 LD 05MAY80 260 03JUL84 2301-35 HOAEAE WELLS PUMP 2 LD 12JUL83 LD 12JUL83 210 03JUL84 2301-37 HOAEAE WELLS PUMP 3 LD 12JUL83 LD 12JUL83 110 130CT83 2301-36 HOAEAE WELLS PUMP 4 LD 2IDEC82 LD 29JUN83 112 28SEP83 2301-38 HOAEAE WELLS PUMP 5 LD 12JUL83 LD 12JUL83 145 28SEP83 2301-39 HOAEAE WELLS PUMP 6 LD 12JUL83 LD 12JUL83 130 28SEP83
ISHIMOTO FARM-HALEIWA LD 08SEP80 LD 08SEP80 NO TEST 2357-24 KAAHUMANU WELLS PUMP 1 LD 18JUL83 LD 18JUL83 NO TEST 2356-59 KAAMILO WELLS WELL NO. 2 LD 04AUG83 LD 04AUG83 NO TEST
(.oJ '-l
("rJ
APPEIDIX TABLE E.2-<olltinued co
MAXIMUM CONCENTRATIONS {PPT) AND SAMPLE DATES WELL NO. SITE NAME DBCP DATE EDB DATE TCP DATE
3314-03 KAENA POINT SATELLITE TRACKING STATION WELL LD 03AUG83 LD 03AUG83 NO TEST
3352-01 KAHANA STATE PARK LD 11AUG83 LD 11AUG83 NO TEST 3353-01 KAHANA WELLS I WELL NO. 1 LD 05AUG83 LD 05AUG83 NO TEST 4158-12 KAHUKU AIR BASE PUMP HOUSE LD 11AUG83 LD 11AUG83 NO TEST 4157-04 KAHUKU RANGE WELL LD 25JUL83 LD 25JUL83 NO TEST 4057-15 KAHUKU WELLS I PUMP 1 (LAIE) LD 27JUL83 LD 27JUL83 NO TEST 4057-16 KAHUKU WELLS I PUMP 2 LD 27JUL83 LD 27JUL83 NO TEST 1748- KAlMUKI BWS STATION LD 10AUG83 LD 10AUG83 NO TEST 2355-10 KALAUAO WELLS WELL NO. 2 LD 04AUG83 LD 04AUG83 NO TEST 1952- KALIHI BWS STATION LD 10AUG83 LD 10AUG83 NO TEST 2052-08 KALIHI SHAFT PUMP 1 LD 04AUG83 LD 04AUG83 NO TEST 2250-01 KALIHI WELL LD 10AUG83 LD 10AUG83 NO TEST 2712-30 KAMAILE WELLS I PUMP 2 LD 03AUG83 LD 03AUG83 NO TEST 2052- KAMEHAMEHA SCHOOL LD 08AUG83 LD 08AUG83 NO TEST 2356-55 KAONOHI WELLS I PUMP 2 LD 04AUG83 LD 04AUG83 NO TEST 2356-65 KAONOHI WELLS II WELL 3 LD 04AUG83 LD 04AUG83 NO TEST 3406-03 KAWAMATA WELL. HALEIWA LD 02MAR83 NO TEST NO TEST 2803-05 KUNIA BATTERY (U.S. NAVY) 43 3 OMAY8 0 480 31MAY80 NO TEST 2803-03 KUNIA TUNNEL WELL 2 t PUMP 2 ND 29MAY84 ND 29MAY84 ND 29MAY84 2803-06 KUNIA TUNNEL WELL 4, PUMP 1 LD 25JUL83 LD 25JUL83 ND 29MAY84 2302-02 KUNIA WELLS I PUMP 1 2 19FEB81 LO 02FEB81 345 06JUN84 2302-01 KUNIA WELLS I PUMP 2 NQ 09AUG83 LD 14APR80 440 06JUN84 2302-04 KUNIA WELLS I PUMP 3 NQ OlDEC83 NQ 09AUG83 490 06JUN84 2302-03 KUNIA WELLS I PUMP 4 NQ 09AUG83 LO 14JUL83 450 14NOV83 2402-01 KUNIA WELLS II PUMP 1 38 08NOV83 NQ 08NOV83 1050 130CT83 2402-02 KUNIA WELLS II PUMP 2 26 17JUL84 LD 17FEB81 1100 140CT83 3407-02 KUNIHIRO WELL (WAIALUA) LD 02MAR83 NO TEST NO TEST 2348-03 KUOU WELLS WELL 2 LD 05AUG83 LD 05AUG83 NO TEST 2808-01 LUALUALEI TUNNEL LD 22JUL83 LD 050EC83 LD 050EC83 2911-02 MAKAHA GLOVER TUNNEL LD 01SEP83 LO 01SEP83 NO TEST
APPEIDIX TABLE E.2--COntinued
MAXIMUM CONCENTRATIONS (PPT) AND SAMPLE DATES WELL NO. SITE NAME DBCP DATE EDB DATE TCP DATE
2812-01 MAKAHA SHAFT PUMP 2 LD 03AUG83 LD 03AUG83 NO TEST 2912-01 MAKAHA WELL LD 03AUG83 LD 03AUG83 NO TEST 3956-01 MALAEKAHANA PUMP HOUSE LD llAUG 8 LD 11AUG83 NO TEST 2600-03 MILILANI WELL 7 20 25AUG83 LD 10AUG83 NO TEST 2857- MILILANI WELL 9 ND 27AUG84 ND 27AUG84 ND 27AUG84 2800-01 MILILANI WELLS I PUMP 1 39 27SEP83 25 070CT83 2900 14FEB84 2800-02 MILILANI WELLS I PUMP 2 42 16JAN84 20 12SEP83 1820 30AUG83 2800-03 MILILANI WELLS I PUMP 3 29 10JUL84 25 070CT83 2390 29SEP83 2800-04 MILILANI WELLS I PUMP 4 51 14FEB84 25 12SEP83 2500 24JUL84 2859-01 MILILANI WELLS II PUMP 5 97 13SEP82 20 18NOV83 2800 06MAR84 2859-02 MILILANI WELLS II PUMP 6 50 13DEC83 LD 13DEC83 2200 13DEC83 2153-12 MOANALUA WELLS PUMP 3 LD 04AUG83 LD 04AUG83 ND 23NOV83 3409-16 MOKULEIA SYSTEM LD 21SEP83 LD 21SEP83 NO TEST
NAKAMA WELL (UPPER KIPAPA) LD 16FEB83 NO TEST NO TEST 2456-02 NEWTOWN WELLS WELL 2 LD 04AUG83 LD 04AUG83 NO TEST 2301-01-10 OAHU SUGAR PUMP 1 LD 16JUN83 LD 12JUL83 ND 30NOV83 2301-11-20 OAHU SUGAR PUMP 4 LD 16JUN83 NO TEST NO TEST 2203-01-06 OAHU SUGAR PUMP 5 LD 05MAY80 LD 05MAY80 NO TEST 2459-01-14 OAHU SUGAR PUMP 6 LD 3lJAN83 LD 16NOV83 LD 16NOV83 2202-15-20 OAHU SUGAR PUMP 8 LD 16JUN83 LD 02AUG83 NO TEST 2006-01-11 OAHU SUGAR PUMP 10 (EWA) LD 05MAY80 LD 05MAY80 NO TEST 2202-21 OAHU SUGAR PUMP 15 (EWA) LD 05MAY80 LD 05MAY80 NO TEST 2658-01,02 OAHU SUGAR PUMP 17 LD 17JAN84 NQ 15NOV83 LD 17JAN84 2301-21-26 OAHU SUGAR WAIPAHU PUMP 2 LD 16JUN83 NO TEST NO TEST 2300-07-09, 12-14, 16-17, 21-23
OAHU SUGAR WAIPAHU PUMP 7 LD 12JUL83 LD 12JUL83 NO TEST 1851-07 PACIFIC CLUB LD 09AUG83 LD 09AUG83 NO TEST 1847-01 PALOLO WELL LD 10AUG83 LD 10AUG83 NO TEST 2458-01 PEARL CITY SHAFT LD 08SEP80 LD 08SEP80 NO TEST 2458-01 PEARL CITY SHAFT PUMP 1 LD 29JUN83 LD 29JUN83 LD 120CT83 2458-01 PEARL CITY SHAFT PUMP 2 LD 25FEB83 NO TEST NO TEST
w 1.0
~ APPEIDIX TABLE E.2--COntinued
~---~ --- - .. ~- -- ---- ----
MAXIMUM CONCENTRATIONS ~PPT~ AND SAMPLE DATES WELL NO. SITE NAME DBCP DATE EDB DATE TCP DATE
2458-04 PEARL CITY WELLS I, WELL 2 10 25FEB83 LD 04AUG83 NO TEST 2457-01 PEARL CITY WELLS II PUMP 1 LD 25FEB83 NO TEST NO TEST 2457-02 PEARL CITY WELLS II PUMP 2 10 14APR80 LD 14APR80 NO TEST 2457-03 PEARL CITY WELLS II PUMP 3 LD 22JUL83 10 22JUL83 10 120CT83 3553-02 PUNALUU WELL I WELL 1 10 05AUG83 LD 05AUG83 NO TEST 3553-03 PUNALUU WELL II WELL 4 10 05AUG83 10 05AUG83 NO TEST 3453-06 PUNALUU WELL III WELL 1 10 05AUG83 LD 05AUG83 NO TEST 2457-06 PUNANANI WELLS PUMP 1 10 25JUL83 LD 25JUL83 NO TEST 2457-09 PUNANANI WELLS PUMP 2 10 25JUL83 LD 25JUL83 NO TEST 2457-11 PUNANANI WELLS PUMP 3 LD 25JUL83 LD 25JUL83 NO TEST 2457-10 PUNANANI WELLS PUMP 4 LD 25JUL83 10 25JUL83 NO TEST 2457-12 PUNANANI WELLS PUMP 5 LD 25JUL83 LD 25JUL83 NO TEST 2457-05 PUNANANI WELLS PUMP 6 10 14APR80 10 14APR80 10 120CT83 2254-01 RED HILL PUMP STATION 10 15JUL83 LD 05DEC83 10 14NOV83 2901-07 SCHOFIELD ARMY SHAFT 14 LD 05JUN79 10 05MAY80 LD 210CT83 1749-19 SHERATON HOTELS LD 11AUG83 LD 11AUG83 NO TEST 4002- SUNSET BEACH WELLS LD 27JUL83 10 27JUL83 NO TEST 2153-07 TAMC WELL 1 LD 25JUL83 10 25JUL83 NO TEST 3406-08 WADSWORTH YEE WELL, HALEIWA LD 02MAR83 NO TEST NO TEST 2902-01 WAHIAWA EXPLORATORY WELL 1 10 17JAN84 LD 17JAN84 250 17JAN84 2901-11 WAHIAWA WELLS PUMP 1 NQ 270CT83 LD 05JUL83 10 120CT83 2901-09 WAHIAWA WELLS PUMP 2 10 14APR80 10 14APR80 10 10APR84 2901-08 WAHIAWA WELLS PUMP 3 NQ 270CT83 10 27MAY80 10 120CT83 1746-02 WAIALAE IKI WELLS 10 10AUG83 LD 10AUG83 NO 23NOV83 1747-02 WAIALAE SHAFT 10 10AUG83 LD 10AUG83 NO 29NOV83 4101-07 WAIALEE WELL I LD 27JUL83 LD 27JUL83 NO TEST 4101-08 WAIALEE WELL II LD 27JUL83 LD 27JUL83 NO TEST 3407-07-10, 13, 16, 17, 20, 21
WAIALUA SUGAR MILL PUMP 10 19MAY83 NO TEST NO TEST 3407-04-06, 14, 15
WAIALUA SUGAR PUMP 1 10 19MAY83 NO TEST NO TEST
APPEWIX TABLE E.2--COntinued ---_.- _._- --
MAXIMUM CONCENTRATIONS (PPT~ AND SAMPLE DATES WELL NO. SITE NAME DBCP DATE EDB DATE TCP DATE
3307-01-14 WAIALUA SUGAR PUMP 2 NQ 20AUG84 LD 15JUL83 NQ 20AUG84 3505-01-20 WAIALUA SUGAR PUMP 3 LD 24MAY83 LD 27JUL83 ND 20AUG84 3605-01-15 WAIALUA SUGAR PUMP 4 LD 08SEP80 LD 08SEP80 NO TEST 3407-01, 11, 12, 18, 19
WAIALUA SUGAR PUMP 7 LD 19MAY83 ND 20AUG84 NQ 20AUG84 3506-03,04 WAIALUA SUGAR PUMP 8 LD 24MAY83 NO TEST NO TEST 3406-02 WAIALUA SUGAR PUMP 9 LD 24MAY83 NO TEST NO TEST 3306-01-12 WAIALUA SUGAR PUMP 10 LD 19MAY83 NO TEST NO TEST 3404-02 WAIALUA SUGAR PUMP 17 10 24MAY80 LD 05MAY80 NO TEST 3102-01,02 WAIALUA SUGAR PUMP 24 22 28JUL80 LD 27MAY80 510 22MAY84 3203-01 WAIALUA SUGAR PUMP 25 115 07JUN83 LD 05MAY80 NO TEST 3203-02 WAIALUA SUGAR PUMP 26 20 24FEB83 LD 14APR80 430 20AUG84 3405-01 WAIALUA WELLS PUMP 1 LD 05JUN79 LD 14APR80 NQ 20AUG84 3405-02 WAIALUA WELLS PUMP 2 NQ 15JUL83 LD llAUG82 NQ 23AUG84 2357-14-18 WAIAU TUNNEL HE CO LD 07DEC83 LD 07DEC83 LD 07DEC83 2457- WAIAU WELLS PUMP 1 LD 25JUL83 LD 25JUL83 NO TEST 2457-15 WAIAU WELLS PUMP 3 LD 18JUL83 LD 18JUL83 NO TEST 2558-10 WAIAWA SHAFT 210 25APR83 LD 14APR80 210 200CT83 2359-16 WAIAWA SPRINGS ARTESIAN WELL
ASATO WATERCRESS WELL LD 05MAY80 LD 05MAY80 NO TEST 2652-04 WAIHEE INCLINED WELLS WELL 4 LD 05AUG83 LD 05AUG83 NO TEST 2651-02 WAIHEE TUNNEL LD 14APR80 LD 14APR80 NO TEST 2751-03 WAIHEE WELLS I WELL 2 LD 05AUG83 LD 05AUG83 NO TEST
WAIKELE SPRING LD 05MAY80 LD 05MAY80 NO TEST 2356-50 WAlMALU WELLS I PUMP 2 LD 04AUG83 LD 04AUG83 ND 23NOV83 2043-02 WAIMANALO WELL WELL 1 LD 05AUG83 LD 05AUG83 NO TEST 2557-01 WAlMANO HOME PUMP 1 NO TEST LD 09DEC83 NQ 23NOV83 2557-02 WAlMANO HOME PUMP 2 NO TEST LD 09DEC83 NQ 23NOV83 2400-05 WAIPAHU EXP WELLS II, WELL 1 LD 09MAY83 25 02DEC83 300 02DEC83 2400-06 WAIPAHU EXP WELLS II, WELL 2 LD 16MAR83 40 30NOV83 250 30NOV83 2400-02 WAIPAHU WELLS PUMP 1 LD 14APR80 58 08NOV83 320 03JUL84
"'" .....
~
APPENDIX TABLE E.2--COntinued l\)
MAXIMUM CONCENTRATIONS (PPT~ AND SAMPLE DATES WELL NO. SITE NAME DBCP DATE lIIDB DATE TCP DATE
2400-01 WAIPAHU WELLS PUMP 2 LD 06JUL83 75 08NOV83 300 08NOV83 2400-04 WAIPAHU WELLS PUMP 3 LD 05JUL83 100 03JUL84 350 03JUL84 2400-03 WAIPAHU WELLS PUMP 4 2 27SEP83 190 08NOV83 300 270CT83 2459-23 WAIPIO HTS WELLS I PUMP 1 ND 04APR84 ND 04APR84 ND 04APR84 2459-24 WAIPIO HTS WELLS I PUMP 2 LD 12JUL83 LD 12JUL83 ND 04APR84 2500-01 WAIPIO HTS WELLS II PUMP 1 LD 02FEB81 LD 02FEB81 250 13JAN84 2500-02 WAIPIO HTS WELLS II PUMP 2 LD 27APR84 LD 27APR84 200 27APR84 2459-20 WAIPIO HEIGHTS WELLS PUMP 1 LD 20DEC82 LD 27JUL83 ND 04APR84 2459-19 WAIPIO HEIGHTS WELLS PUMP 2 LD 21SEP83 LD 21SEP83 NQ 23NOV83 2300-11 WATANABE WELL #238 LD 01FEB83 NO TEST NO TEST 2300-20 WATANABE WELL #238-1 LD 01FEB83 NO TEST NO TEST 1849- WILDER WELLS PUMP 4 LD 10AUG83 LD 10AUG83 NO TEST
YOSHIMURA WELL LD 05MAY83 NO TEST NO TEST 3855-10 ZION'S SECURITIES LAIE LD llAUG83 LD llAUG83 NO TEST 3855-07 ZION'S SECURITIES LAIE
BOOSTER PUMP STATION LD 11AUG83 LD 11AUG83 NO TEST 3956-03 ZION'S SEC. LAIE TEMPLE WELL LD llAUG83 LD 11AUG83 NO TEST
APPENDIX TABLE E.3. D.Z\.TA BASE SUMMARY, ISLAND CF ftI)L(({A' I
MAXIMUM CONCENTRATIONS {PPT~ AND SAMPLE DATES WELL NO. SITE NAME DBCP DATE EDB DATE TCP DATE
0901-01 KALUAKOI WELL LD 07MAY80 LD 07MAY80 NO TEST 0700-01 KALUALOHE WELL 17 LD 05JUN79 LD 05JUN79 NO TEST 0801-01 KAULUWAI WELL 1 LD 07MAY80 LD 07MAY80 NO TEST 0801-02 KAULUWAI WELL 2 LD 26JUL83 LD 26JUL83 NO TEST 0449-01 UALAPUE WELL LD 26JUL83 LD 26JUL83 ND 22NOV83 0855-01 WAIKOLU TUNNEL LD 16APR80 LD 16APR80 NO TEST
APPENDIX TABLE E.4. D.Z\.TA BASE SUMMARY', ISLAND CF LANA'I
MAXIMUM CONCENTRATIONS (PFT) AND SAMPLE DATES WELL NO. SITE NAME DBCP DATE EDB DATE TCP DATE
4953-01 KAPAHAKU - WELL NO. 2 LD 17APR80 LD 17APR80 NO TEST 4954-01 KAPANO GULCH - WELL NO. 3 LD 17APR80 LD 17APR80 NO TEST 5053-01,02; 5154-01
MAUNALEI PUMP HOUSE COMPOSITE LD 17APR80 LD 17APR80 NO TEST 4853-01 PALAWAI - WELL NO. 1 LD 17APR80 LD 17APR80 NO TEST 4852-02 WAIAKEKUA BEACH - WELL NO. 5 LD 25JUL83 LD 25JUL83 NO TEST 4952-01 WAIAPAA GULCH - WELL NO. 4 LD 17APR80 LD 17APR80 NO TEST
".. W
~ ~
APPEtI>IX TABLE E.5. DATA BASE SUMMARY, ISLl\tI) CF MAUl
MAXIMUM CONCENTRATIONS ~PPT~ AND SAMPLE DATES WELL NO. SITE NAME DBCP DATE EnB DATE TCP DATE
5615 AKINAKA WELL ND 23DEC83 NO TEST NO TEST 5738-01 AMFAC PUMP 5 ND 00OCT84 NO TEST NO TEST 5739-02 AMFAC PUMP 6 ND 00OCT84 NO TEST NO TEST 5619 ARAKAKI SPRING NQ 00AUG79 LD o 6MAY8 0 NO TEST 5519-02 BENHKE WELL LD 01AUG80 LD 01AUG80 NO TEST 5616 FEEHAN'S WELL 40 00OCT84 NO TEST NO TEST 5519-01 HAIKU ELEMENTARY SCHOOL WELL 10 10AUG81 NO TEST NO TEST 0136 HONOKOHAU BAY (BASAL SEEP) ND 00AUG79 NO TEST NO TEST 5640-01 HONOKOWAI WELL LD 25JUL83 LD 25JUL83 NO TEST 0038 HONOLUA BAY SPRING LD 06MAY80 LD 06MAY80 NO TEST 5332-02 lAO TUNNEL LD 26JUL83 LD 26JUL83 ND 21NOV83 5339-03 KANAHA WELL A LD 25JUL83 LD 25JUL83 NO TEST 5339-04 KANAHA WELL B LD 25JUL83 LD 25JUL83 NO TEST 5839 KAOPALA (PUUHEWALE) SPRING 350 15APR80 LD 15APR80 NO TEST 5332-05 KEPANIWAI WELL LD 19JUL83 LD 19JUL83 NO TEST 5620 MALIKO GULCH - SITE 1 PERCHED
WATER PAIA SIDE OF GULCH 1740 00AUG79 100 16APR80 NO TEST 5620-01 MALIKO GULCH - SITE 2 GARTHOFF
SPRING (MALIKO TUNNEL 16) 72 08SEP80 LD 20JUN80 ND 21NOV83 5520 MALIKO GULCH - SITE 3 LD 20JUN80 LD 20JUN80 NO TEST 5520 MALIKO GULCH - SITE 4 LD 20JUN80 LD 20JUN80 NO TEST 5520 MALIKO GULCH - SITE 5 2700 01AUG80 LD 01AUG80 NO TEST 5520-01 MALIKO PUMP 11 (SHAFT 32) 9 00OCT84 LD 16APR80 NO TEST 5420-01 MAUl HIGH SCHOOL WELL 300 00AUG79 LD 16APR80 460 21NOV83 5330-10 MOKUHAU WELLS 2 LD 19JUL83 LD 19JUL83 NO TEST 5330-11 MOKUHAU WELLS 3 LD 19JUL83 LD 19JUL83 NO TEST 5838-01 NAPILI WELL A LD 15APR80 LD 15APR80 NO TEST 5838-02 NAP ILl WELL B LD 25JUL83 LD 25JUL83 NO TEST 5838-04 NAPILI WELL C ND 30JUN82 NO TEST NO TEST 5422-01 PAIA MILL SHAFT 29 LD 16APR80 LD 16APR80 NO TEST 5423-02 PAIA SHAFT 30 LD 06MAY80 LD 06MAY80 NO TEST
APPEmIX TABLE E.S--continued
MAXIMUM CONCENTRATIONS ~PPT~ AND SAMPLE DATES WELL NO. SITE NAME DBCP DATE EDB DATE TCP DATE
5619 PFAELTZER'S COVE (SPRING) 2230 00AUG79 LD 16APR80 NO TEST 5641-02 PIONEER MILL SHAFT 2 PUMP F LD 06MAY80 LD 06MAY80 NO TEST 5430-01 WAIEHU HEIGHTS WELL A LD 19JUL83 LD 19JUL83 NO TEST 5430-02 WAIEHU HEIGHTS WELL B LD 19JUL83 LD 19JUL83 NO TEST 5431-02 WAIHEE WELL 1 LD 19JUL83 LD 19JUL83 NO TEST 5339-01 WAIPUKA WELL A LD 25JUL83 LD 25JUL83 NO TEST 5339-02 WAIPUKA WELL B LD 25JUL83 LD 25JUL83 NO TEST 0137 WINDMILL BEACH (SPRING) LD 15APR80 LD 15APR80 NO TEST
~
APPEWIX TABLE E.6.
WELL NO. SITE NAME
7347-01 BOND TUNNEL 6528-01 HAINA WELL 3185-01 HAWAIIAN BEACHES WELL 7449-02 HAWI WELL 3557-05 KAHALUU SHAFT - NORTH KONA 5611 KAIAAKEA SPRING 2753-01 KEEL WELL A 5946-02 LALAMILO WELL 5814-01 LAUPAHOEHOE NO. 1 0335-01 NAALEHU WELL 6117-01 OOKALA TUNNEL 6321-02 PAAUILO TUNNEL 1229-01 PAHALA 4003-02 PANAEWA WELL 5813 PAPAALOA SPRING 5006-01 PEPEEKEO WELL 4306-01 PIIHONUA WELL
mTA BASE SUMMARY, ISIAND <F HAWAI I I
MAXIMUM CONCENTRATIONS {PPT~ AND SAMPLE DATES DBCP DATE EDB DATE TCP DATE
LD 16AUG83 LD 16AUG83 NO TEST LD 31AUG83 LD 31AUG83 NO TEST LD 31AUG83 LD 31AUG83 NO TEST LD 16AUG83 LD 16AUG83 NO TEST LD 31AUG83 LD 31AUG83 NO TEST LD 31AUG83 LD 31AUG83 NO TEST LD 31AUG83 LD 31AUG83 NO TEST LD 16AUG83 LD 16AUG83 NO TEST LD 24AUG83 LD 24AUG83 NO TEST LD 16AUG83 LD 16AUG83 NO TEST LD 24AUG83 LD 24AUG83 NO TEST LD 24AUG83 LD 24AUG83 NO TEST LD 16AUG83 LD 16AUG83 NO TEST LD 24AUG83 LD 24AUG83 NO TEST LD 31AUG83 LD 31AUG83 NO TEST LD 24AUG83 LD 24AUG83 NO TEST LD 24AUG83 LD 24AUG83 NO TEST
,po. 0'1
N
f KAUA'I
o W.II
K-1
o
B
K-2
o Location Mop Scal. 10 Mil •• I I o 15 Kilom.t ...
o QUOd,oOIiI. Scol. 2 Mil .. I ' o 1 Kilome.eu
K-3 K-6
K-4 K-7
o
o
K-5 K-8
K-10
DO o
o
o
o em
Afpmdix Figure F .1.1. OJadrangle layout with well site locations, Kaua 'i
K-9
o
K-ll
"'" .....,J
48
03 /
02
01
\ "" 00
59
58
57
56
21°56 159°47'30"
47
I KEKAHA, KAUA I /(-J l
02 0
1\ \ 01
0 "-
~ 0 02
r-------~ ~ ----~
46 45 44 43 42 41 40
AWendix Figure F.l.2. Kekaha, Kaua'i quadrangle (K-2)
59 IJ 01
58
57 ~
56 h 55
54
53
52
. 21·52 159·40'
'1\ "l
39 38
I HANAPEPE, KAUAI
0 01
04 0
~ -.......,. )h U ~
~
37 36 35 34 33
AWendix Figure F.1.3. Hanapepe, Kaua'i quadrangle CK-S)
49
K-5 l
'-
32
50
59
58
57
56
55
54
53
~
52
21°52 159°3230"
32
I KOLOA, KAUA I K-8 l
0 01
0 03
~ ~ ~ ( ......
~ v----
~ / 31 30 29 28 27 26 25
~ Figure F .104. Koloa, Kaua' i quadrangle <K-8)
14
13 P 12
11
10
09
08
07
22·07' 159"25'
24
'---( ~ ~
23 22 21
51
I ANAHOLA, KAUAI K-9 1
~ (
~ 01 0
03 ) 0 0 02
\
03 ~ n ~ i\
I~ 20 19 18 17
AWendix Figure F.1 .. 5. Anahola, Kaua'i quadrangle CK-9)
52
06 I KAPAA I KAUA 1
05
04
03
02
01
00
59 ,
21"59'30' 159"25'
24 23
K-l0 1
22
(
/ /
0 ( 01
/'
[7
/
r!/' 21 20 19 18
A};:pendix Figure F .1.6. Kapaa, Kaua' i quadrangle CK-10)
~
~
17
53
59 r'
0 01 \ 0
58 01
57 /" ~ 56 (
r--
/ ,--J
55
r;
-t /"
54
53 / 52
~ L.I HUE: 1 KAUA 1 K-ll I
24 23 22 21 20 19 18 17
AR?endix Figure F.l.7. Lihue, Kaua l i quadrangle CK-ll)
0-1
0-2
N 10-3 10-7 O'AHU
0 location Map Scale 10 Mil •• I i
I t 5 08\ I 0 15 Kilomete"
0 Quadrangl. Scale 2 Mil •• I i
I
0 3 Kilometer.
0-8 0-11
0 r~
~Well
A. Soil bore
00 0
00 A 0-9 I !.., 0-12 I 0 tJ A 0
0 mP 0 ~ A
0 0 DC 0
o
o
0-6
AJ;pendix Figure F.2.l. ()ladrangle layout with well and soil-bore site locations, O' ahu
0-14
U1 ,c:..
37
36
35
I---
34
~
33
32
31
30
, 21°30
158°16'30"
16
55
I KAENA} OAHU 0-1 1
v-:--
0 16
"" ~ 0 03
~ ~
15 14 13 12 11 10 09
AgJenclix Figure F.2.2. Kaena, Q'ahu qUadrangle (0-1)
56
29
28
27
26
25
24
23
22 1 WAIANAE, OAHU 21°22'30"
158°16'30"
16 15
( '\.,.
14
0 02
0 01
\ 0 01
<rc 1'\
\ \
1\
~
~ 0-2 J
13 12 11 10 09'
A{:pendix Figure F.2.3. Waianae, Olahu, quadrangle (0-2)
44
43
42
41
40
39
38
37 ,
21"37'30' 158"09'
J
08 07 06 os
57
I WAIMEA, OAHU 0-3 I
/ V
V / 0
04 or 05*
V )
/'
\
I V
04 03 02 0'11
*It could not be determined whether well 4002-04 or 4002-05 was sampled.
AJ;pmdix Figure F.2.4. Waimea, O'ahu quadrangle <0-3)
58
37
36
35 -----34
33
32
31
30
, 21"30
lSS"09'
08
/ I HALE 1 WA, OAHU O-<i
l
( 1/
0 01-15
S /
03,04 01-20 0 0
07-10,13, DO~D03 ~03
16, ~O,21 02 [ 02
01 04
~2 0
04-06 02 14,15 01,11,12,
r-. [ -18 19-
0 0 01-14 01-12
)
02 C
0 01
0 01,02
07 06 05 04 03 02 01
AI:Pendix Figure F. 2.5. Haleiwa, O' ahu quadrangle <0-4)
29 I SCHOfIELD BARRACKS,
28
27
26
25
24
23
22 \ 21·22' 30" 15S"09'
08
01 C
07
0-5 I OAHU
Del Monte t:. Fld.60
06 05 04
59
09 11 0 't§I 01 08
0 07
06 0
05~03 07
Del Monte Fld.2
~unia Spill -=-
01£3 t:. \ Del Monte
Fld.13
0 01
01 1802
01,02@ 0 03,04 34-39
0 1~-06 21
03 02 01
AR?endix Figure F.2.6. Sdlofield Barracks, Q'ahu quadrangle (0-5)
60
22
21
20
19
18
17
16
15
21'15' 15S'09
\ \
,
08
15~20
" 003
\ 0 01-11
\ \ ~ ---~ -
I EWA, OAHU 0-6 I 07 06 05 04 03 02 01
Appendix Figure F.2.7. &la, O'ahu quadrangle (0-6)
44
43
42
/ V
08
cP 41
07
40
39
38
37 21·37'30'
158·01 30
, , .. 01
61
I KAHUKU, OAHU 0-7 1
J- --~
1rJ ~ ~
0
\ 12 0 04
015,16 C £7 0
(? 01
O~
0 07
0 10 ( .~
00 59 58 57 56 55 54
~ix Figure F.2.8. Kahuku, O'ahu, quadrangle (0-7)
62
29
28
27
26
25 1:1-
24
21r!-23
22 ,/ 21°22'30'
1511°01'30"
01
02 Mililani t;i01 Well \
01-04 In 1:1 Dole Fld.
4213
~
Dole Fld. 1:14107
,,02
Dole Fld. 4111
0 01,02
Waipahu 2019
01-14 [ Well II
0 IZ1 2423
05,06 01-04 OHO
11 r-1l-20 f3
r\ 21-23 20 B
07-09,12-14, 16 17
\~ \ 00 59
I WA 1 PAHU ) OAHU 0-9
U Dole Fld. u 2857 t 4201
01~2
10 02[ 01 0
POl-03 04-12
0104 130r14* \ 02
00 C 0 0
15
50 0 14-18 0 ~:J10 ~- H 55
0
\ ~ 65 59[ 06 03[ 0 01
~ 0
'\ J ~ t1 35 32
)
58 57 56 55 54
*It could not be deteImined whether well 2457-13 or 2457-14 was sampled. tNamed Mililani Well 9 by Hawaii state Department of Health.
AJ;pendix Figure F.2.9. Waipahu, Q'ahu quadrangle (0-9)
I
22 > '-.....-
21
20
19
18 ~
17
16
15
21°15' 158°01'30"
01
63
( ~ "-/
/~ I ~ h /
~ KZ- \~ ~ ~ '" ( ""'\
1\( l)~
I~ V --- /
~ --- rJ \
\
I PUULOA, OAHU 0-10 I
00 59 58 57 56 55 54
AJ;pmdix Figure F.2.10. Puuloa, O'ahu quadrangle (<rIO)
64
37
36
\
D~ 02
35
0 06 34
33
32
31
30
, 21°30
157°54'
53
I KAHANA, OAHU 0-11 l
"-.
"'" U-1\ 0
0 01
\ 01
\
r ~ 52 51 50 49 48 47 46
~ Figure F.2.11. Kahana, Q'ahu quadrangle (o-ll)
29
28
27
26
25
24
23
22 ,
21-22'30' 157-54'
53
"'-( I KANEOHE} OAHU
'-,
\ ~\
~ 03 ,...,
61
~ 0 04
0 "'-)~
0 03
52 51 50 49 48 47
AJ;:pendix Figure F.2.l2. Kaneohe, Q1ahu quadrangle <(r12)
65
0-12 I
I ~
"---
46
66
22 0 I HONOLULU 1 OAHU 0-1'3 l
01
21 12 DO
07
0 0 10 or 11* 08
20
0 ,......-.., 070r 11*
G 0
06-08,16-19, 22 l; 21, 20 1~~JL 32 or 33*
19
\ ~~ 0
< 07 0 0 01
/ 12,13,24,25, 16
31-35,67 0
18
"" " ------
19 0 J03-11
<~ 0 01 02 0
17
, h
V 16
15 ~ 1'--._ ~
. 53 52 51 50 49 48 47 46
*5ampled well number coUld not be determined.
AgJendix Figure F.2.13. HooolUlu, Q'ahu quadrangle (0-13)
22
21
20
19
18
17
02 0
16 ~
15
, 21°15
157°46'30"
46
67
I I KOKO HEAD, OAHU 0-15 l
\ \
02 ~ 0 /""\
~
~ U
()
~
~
) V
/ r ~ --~ ,-- \ b// ~
< I~ -V
45 44 43 42 41 40 39
AJ;pmdix Figure F.2.14. Koko Head, Q'ahu quadrangle (0-15)
68
o I o
Mo-l
location Map Seal. 10 Mil •• I '
o Quadrangl. Seal. 2 Mil •• ~I----------------~i ! o JKilo"' .....
N
Mo-2 Mo-3 f MOLOKA'I
o o
DWell
Appendix Figure F.3.l. ()ladrangle layout with well site locations, ltDloka Ii
Mo-S
13 H KAUNflKAKAI, MOl.OKA I
12
r--r--11
10
09
08
07
06
1-.-r-----05
04
03 .. . 21·03'45 157·04'30" .
04 03
--
~
02
1t.-3 I
I
r--
~ c-01
~
01
69
.....-.-
V """'"
1\ ~
) \ "'-
O2
010
~ ......
~ ~ ~
00 59 58 57
Appendix Figure F.3.2. Katmakakai, z.t>loka I i quadrangle (Mo-3)
70
11
10 ~ 09
08
07
06
05
04
03
02 00 21·02'45
156'57
---56
~ ~
'-
01 C
~ I---
55 54
I I I
I KRMALO, NOLOKAI ~I
h ~ L r----... F - "- ,.,.. "\...-r--
h01
V l--/ r-'u ~ /
53 52 51 50 49
AQ;lendix Figure F.3.3. Kamalo, ltDloka' i quadrangle (Mo-4)
LANA'I 0
I> locotion Map Scale I
5 Mile.
o
o I o
,
Quadrangle Scale
i 10 Kilometers
5 Mile. , 10 Kilom"ters
N
f 0
0 0
o 0 0 0
DWell
AI:Pendix Figure F.4.1. ()ladrangle layout with well site locations, LanaI i
71
72
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42 , 20°42' 30'
157°05'
V ( ( \ \
'"
..... J"..,.. -
~ 1"\
\ \
\
(
I \
r\
\ -
r-.., ~
~
'" ~ '" ~
"\
01 [ \ 001 \ 020
a \ 01 ~ Sl I
a 02 I 01 a
I
/ V
V V ./
rur- c::7 ~
04 03 02 01 00 59 58 57 56 55 54 53 52 51 50 49 48 47
l\g?endix Figure F.4.2. Minute grid system, Lanai i
MAUl M-l M-4 I
N
~Well i o Spring
A Soil bore
M-5 I M-7 ~-------.. M-lO I M-13
\ l!J
c5l I.1P 0
M-2
M-8 A
M-ll M-14
M-3 M-6
M-12 M-15
o Location Map Scal. 10 Mile. I I I
o 15 Kilo",et."
o Quadrangl.Scol. 2 Mil •• I I I o 3 K ilom.t."
Appendix Figure F.S.l. Quadrangle layout with well, spring, and soil-bore site locations, Maui
M-16
M-17
-...l W
74
04
03
02
01
00
59
58
57 ,
20·57'30' 156°42'30"
42
I HONOLUA, MAU 1 11-1 I
~ ~ l/ \ Honokohau Beach Spr. Basal Seep
~olua
Jv-/ Bay Spr.
r !
V 04 0
o 0 0 01 02
/ Kaopala Spr.
/ 02 C
41 40 39 38 37 36 35
AWendix Figure F.S.2. Honolua, Maui quadrangle CM-l)
57
56
55
54
53
52
51
50
, 20·50
156°42'30"
42
75
I IJ 01 I LAHAINA, MAUl 11-2 t
I 0 0 02 01
V II
\ 03 Cb
02 04
( Id 01
~
\ ~ ~
\ ~
41 40 39 38 37 36 35
~ Figure F.5.3. Lahaina, Maui quadrangle <M-2)
76
57
56
55
54
53
52
51
50
, 20-50
156-35'
34
'\ I H 1 ~I WAILUKU, MAUl
~
~ 02 [ 02 ~ §
01
.A
11 V'
iI:i1 02 05 o 0
10
33 32 31 30 29 28 27
AJ;:pendix Figure F _S.4. Wailuku, Maui quadrangle CM-S)
57
56
55
54
53
52
51
50
, 20"50
156"27'30'
27
,
I PArA, MAUl
~
~ /
......... 0
V 02
~ 0 01
26 25 24 23 22 21
AJ;:pendix Figure F .5.5. Paia, Maui quadrangle (M-7)
77
11-7
t MalikV Site\ 1
0 001
001 MalikoQ Site 5 Maliko
M I"k Site 3 010 0
Site 4--0 ID 01 A
MlP Fld, 234
20
78
57 Pfaeltzer Spr. \
I ,/u ~
Arakaki Spr. 56
J02 0 01
55
54
53
52
51
50
. 20'50 156°20'
19
I HAIKU, MAUl t1-10 l
---------~ ~ Akinaka
Well
k 0 "" MlP Fld. "-210 1\
l
1 ~
18 17 16 15 14 13 12
lq:pendix Figure F.S.6. Haiku, Maui quadrangle CM-IO)
49
48
47
46
45
44
43
42 ,
20-42'30' 156·20'
19
79
I KILOHANA, MAUl 11-11 1
MLP Fld. 275
18 17 16 15 14 13 12
.AWendix Figure F.5. 7. Kilohana, Maui quadrangle CM-ll)
80
H-3
I ~ [J
~ HAWAI'I {
H-4 H-13
\ ~ H-14 H-25 ~
H-52 N
~ H-35
f ~ H-5 ;{-1~ H-26 H-36 H-45 H-53
~ j H-66
H-l ~ H-16 H-27 H-37 H-46 H-54 H-61 "'" D
I H-\, H-7 H-17 H-28 H-38 H-47 H-55 H-62 [J~ 1 H-71
C rH-a H-18 H-29 H-39 H-48 H-56 H-63 H-68 H-~
C
~-74 H-19 H-30 H-40 H-49 H-57 H-64 H-69 H-73 H-9 C
/ H-l0 \ H-20 H-31 H-41 H-50 H-58 H-65 / - .,..---H-ll J H-21 H-32 H-42 H-51 V / ~Well
H-59 o Spring
H-12 \ H-22 H-33 H~r ~ 0 location Map Scale 20 Mil ••
I i i
~ V 0 30 Kila .... t ...
0 Quadrangl. Seal. 2 Mil ••
H-23 H-34 I i i
0 3 Kilom.ten
AJ;pendix Figure F.6.1. Quadrangle layout with well and spring site locations, Hawai' i
37
36
35
34
33
32
31
30
. 19°30 156°00'
59
81
~ I KEALAKEKUA, HAWAll H-B l \
)
\ 05 Cl
"\
)
"'-.
\ (
\ 58 57 56 55 54 53 52
AJ;pendix Figure F.6 .2. Kealakekau, Hawai' i quadrangle (H-8)
82
29
28
27
26
25
24
23
22 1 HONAUNAU, ,
19-22'30' 156-00'
59
D
l I---
HAWAII H-9 I 58 57
"'--D ( 01
0
\ ~
) \.
)
\ \ ~
56 55 54 53
AR;lendix Figure F _6 _3 _ Honatmau, Hawai' i quadrangle (H-9)
52
76
75 V
74
73
72
71
70
69
68
67 ,
20-0.1'30.' 155"52'30.·
52
83
I HAWI., HAWAII H-13 l --..---i'--
~ ~
'\
"-~ 0
~ 02
\ ~
51 50 49 48 47 46 45
Appendix Figure F.6.4. Hawi, Hawaii i quadrangle (&-13)
84
59
58
57
56 L/
55
54
53
52 ,
19·52'30' 155·52'30"
52
) 02 0
)
v /
I PUU HINAI J HAWAII H-15 I 51 50 49 48 47 46 45
.Appendix Figure F.6.S. Pull Sinai, Hawai'i quadrangle (H-lS)
07 J NAALEHU, HAWA11
06
05
04
03
02
01
00
, 19"00
155°37'30"
37
0 01
36
i
) 35
/ H-i3 I
/
V /
r ~ (
I) V
34 33 32 31
AWendix Figure F" 6.6. Naalehu, Hawai' i quadrangle (&-43)
85
30
86
67
66 ~
65
64
63
62
61
60
20-00' 1.55°30'
29
----01 ~ 0
28 27
I HONOKAA J HAWA 11 H-H l
~ ~ -----. ~
~
"--~
26 25 24 23 22
Ag?endix Figure F.6. 7. Honokaa, Hawai' i quadrangle (&-44)
14
13
12
11
10
09
08
07 19-07'30"
155-30'
"~ ..
I PAHALA, HAW A I I tt-51 I
01 0
--
~ V
/'
/ V
,
/ J
~
r ~
29 28 27 26 25 24 23 22
~ Figure F _6.8. Pahala, Hawai' i quadrangle (H-51)
88
67
66
65
64
63
~
62
61
60
, 20·00
1.55·22'30"
22
I KUKAIAU, HAWA1I H-52 l
~ ----...
~ ,
'-.... ~
~ ~
~ ~
21 20 19 18 17 16 15
AI;pendix Figure F.6.9. Kukaiau, Hawai' i quadrangle (H-52)
59
~ 58
57
56
55
54
53
52
19"52'30" lSS"IS'
0"'" 01
14
~ ~ Papaaloa
o Spr.
'\
13 12
89
I PAPAALOA, HAWA I I H-60 I
I~ u
~ Kaiaakea
Spr.
"-
~ "-
'\ '" \
11 10 09 08 07
AaJendix Figure F.6.l0. Papaaloa, Hawai'i quadrangle (H-60)
90
53
~ " 52
51
50
49
48
47
46
45
, 19·"5
155·07'30"
07
I PAPAIKOU, HAWAII H61
~ 1\
01 [J ~ j
/ \ I }
\ 06 05 04 03 02 01 00
.AWendix Figure F.6.11. Papaikou, Hawai'i quadrangle (H-66)
44
43
42
41
40
39
38
37 , 19·37'30'
155·07'30"
07
91
\ ~ 1----/ ~
~ v v "-
01 0
02 0
I HILO, HAWAII H-67r
06 05 04 03 02 01 00
AJ;:pendix Figure F.6 .12. Hilo, Hawai' i quadrangle (H-67)
92
37
36
35
34
33
32
31
30
, 19"30
1.5.5°00'
""" h I PAHOA NORTH, HAWAII H-72 1 V
I~ ~
~ .............
~ ~
'" pOl
89 88 87 86 85 84 83 82
AB?endix Figure F.6.13. Pahoa North, Hawai' i quadrangle (5-72)