United States Office of E PA/600/M 86/007
Environmental Protection Ground-Water Protection (WH-550G) March 1986
Agency Washington DC 20460
Water
Ground-Water Data
Management With
STORET
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Ground-Water Data Management With STORET
Compiled by the
Office of Ground-Water Protection
Wendy Rlake-Coleman
Norbert Dee, Ph.D.
with Assistance from
Client Services Branch
Office of Solid Waste
Region IX Water Management Division:
Office of Ground Water, Permits and Compliance Branch
Office of Ground-Water
Version 1.0 March
Protect ion
1986
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ACKNOWLEDGEMENTS
The Office of Ground-Water Protection would likp to give a
special thanks to Dan Parker of the Client Services Branch who
spent many hours developing retrieval request examples for the
manual and who provided the bulk of the technical assistance in
compiling the document. We would also like to thank the rest of
f °f Client Services Branch, especially Louis Hoelman,
and Phil Lindenstruth, as well as Bob April, Amy Zimpfer,
Eric Wilson, Darlene Denson, Carolyn Acklin and Cheryl Clark for
their assistance in compiling and typing this manual.
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PREFACE
The Manual Methods for the Storage and Retrieval of RCRA-
Ground-Water Monitoring Data on Storet Users Manual (March 1985)
produced by the RCRA program served as the prototype for this
current manual. The format has been changed and the scope
expanded to make the manual more relavant to all ground-water
programs.
This manual has been designed to address both ground-water
quality data and the related well site characteristics. For
non-USGS wells, appropriate fields have been added to include
this information on site characteristics. Much of this infor-
mation has been adopted from the site characteristics informa-
tion found in the USGS Ground-Water Site Inventory (GWSI). See
Section 5.6 for additional information on this system.
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TABLE OF CONTENTS
PAGE
ACKNOWLEDGEMENTS i
PREFACE ii
1.0 INTRODUCTION AND PURPOSE
1.1 Ground-Water Data Management at EPA 1-1
Brief Background on STORET 1-2
STORET Revisions 1-5
1.2 Why Use STORET 1-5
1.3 Who Might Benefit From Use of This Manual 1-6
2.0 HOW TO GET STARTED ON STORET
2.1 Getting Computer Access Codes 2-1
2.2 Assuring Equipment Compatibility 2-3
2.3 Set-Up Modifications for Accessing STORET 2-4
2.4 Training 2-5
2.5 Documentation 2-5
2.6 Contacts 2-6
3.0 THE STORET SYSTEM FOR GROUND-WATER MONITORING DATA
3.1 Terminology for Ground-Water/STORET Users 3-1
3.2 STORET as a Data Base 3-2
Station Header 3-4
Descriptive Paragraph 3-5
Parametric Data Field 3-6
3.3 STORET as an Analytical System 3-8
Data Analysis Programs 3-8
STORET Retrieval Logic 3-9
4.0 GROUND WATER DATA STORAGE FORMATS
4.1 Data Needs 4-1
Station Descriptors 4-1
Sample Descriptors 4-2
Analytical Findings 4-3
4.2 Data Formatting 4-3
4.3 Station Header 4-3
Agency Code 4-6
Station Code 4-9
Primary Station Codes 4-9
Secondary Station Codes 4-11
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(con* t)
TABLE OP CONTENTS
PAGE
Station Naming Conventions 4-11
Station Location Identification 4-13
Latitude/Longitude and Precision Codes 4-14
Major/Minor/Sub-Basin Codes and Names 4-14
FIPS State/County Codes 4-14
Station Type Codes 4-15
Station Depth 4-16
Hydrolic Unit Code 4-16
Unlocking Key and Dates 4-20
4.4 Descriptive Paragraph 4-20
4.5 Parametric Data Field 4-21
Formatting Information 4-21
Inputting Data 4-22
Station Descriptors 4-23
Sample Descriptors 4-25
Expanded Sample Key 4-25
Media Key 4-26
System Multi-Purpose Key 4-26
Users Multi-Purpose Key 4-30
Analytical Findings 4-32
4.6 Qualifying "Remarks" 4-32
4.7 Quality Assurance/Quality Control 4-34
5.0 DATA RETRIEVAL AND ANALYSIS
5.1 Purpose of Retrievals 5-1
5.2 Non Analytical Data Listings 5-3
STA 5-3
INDEX 5-5
RET 5-7
ALLPARM 5-9
5.3 Tabular Analyses 5-11
INVENT 5-11
MEAN 5-13
STAND 5-16
5.4 Graphic Displays of Trends 5-19
PLOT 5-19
REG 5-24
BROWSE 5-26
5.5 Map Displays of Data 5-28
MSP 5-28
LOC (Location Map) 5-33
5.6 Interfaces with Other Important Data
Analysis Systems 5-36
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APPENDICES
APPENDIX A -
APPENDIX B -
Graphic Illustration of Where to Place
Descriptors in the STORET Data Record
Station Descriptor Parameter Codes, Values,
and Definition
APPENDIX C
APPENDIX D
APPENDIX E
APPENDIX F
Remark Codes to Use With STORET Data
- Sample Descriptor Parameter Codes, Values
and Definition
User Multipurpose Key ("UMK")
STORET Parameter Codes for Some Classic
Ground-Water Monitoring Parameters
APPENDIX G -
APPENDIX H -
STORET Parameter Codes for Some Organic
Chemicals (as listed in Appendix VIII of
40 CPR §261)
Example of the Water Quality Analysis Branch
Conversational Procedure WQAB PARM
APPENDIX I - Geologic Age Identification, Aquifer Names and Codes
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LIST OF EXHIBITS
EXHIBIT PAGE
1-1 Locations of Ground-Water Monitoring Stations
contained in the STORET Water Quality File,
excluding the USGS Ground-Water Monitoring
Stations, July 1985 1-3
1-2 Location of Ground-Water Monitoring Stations
in the STORET Water Quality File, including
the USGS Ground-Water Monitoring Stations,
July 1985 (WATSTORE) 1-4
3-1 Example of Overall STORET Data Organization
for a RCRA well 3-3
3-2 Example of a STORET Data Retrieval Summary 3-12
4-1 Example of a Station Location Storage Form 4-5
4-2 Recommended STORET Station-Type Codes
for Ground-Water Monitoring Wells 4-17
4-3 USGS Map-Accounting Units of the National Water
Data Network 4-19
5-1 Example of the STORET Retrieval Program STA
Which Lists Station Codes Associated With
a Specific Agency Code 5-4
5-2 Example of the STORET Retrieval Program Index
Which Lists Station Headers 5-6
5-3 Example of the STORET Retrieval Program RET
Which Lists Raw Data in Chronological Order 5-8
5-4 Example of the STORET Retrieval Program ALL PARM
Which Provides Tabular Listings of Raw Data
Values at Selected Stations 5-10
5-5 Example of the STORET Retrieval Program INVENT
Which Prints Out Statistical Summary Sampled
Parameters 5-12
5-6 Example of the STORET Retrieval Program MEAN
Which Produces Statistical Summaries and
Sorting on Reguired Parameters 5-15
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EXHIBITS (cont.)
exhibit page
5-7A Example of the STORET Retrieval Program STAND
Which Compares Observed Parameter Values to
a Set of Specified Criteria 5-17
5-7B Example of the STORET Retrieval Program STAND
Illustrating Use of STAND Violation Criteria
and Statistics 5-18
5-8A Example of the STORET Retrieval Program PLOT
Which Graphically Depicts Trends In Concen-
tration Over Time, Shown With Connecting Lines
Between Plotted Symbols 5-20
5-8B Example of the STORET Retrieval Program PLOT
Which Graphically Depicts Trends in Concen-
tration Over Time, Shown Without Connecting
Lines T 5-23
5-9 Example of the STORET Retrieval Program REG
Which Scans Specific Stations or Data 5-25
5-10 Example of the STORET Retrieval Program BROWSE
Which Plots A Statistical Representation of
Changes In Concentration Over Time 5-27
5-11 Example of a MSP Trend Map 5-31
5-12 Example of a MSP Shaded Map 5-32
5-13 Example of the STORET Retrieval Program LOC
Which Generates a Map Showing the Location
of Sampling Sites 5-35
5-14 Example of a USGS Ground-Water Site Inventory
file (GWSI) Data Entry Form 5-37
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1.0 INTRODUCTION AND PURPOSE
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1.0 INTRODUCTION AND PURPOSE
This manual is for use by a wide variety of professionals
interested in using EPA's water quality data base system, STORET,
to manage their ground-water monitoring data. The purpose of this
manual is to enhance the Ground-Water/STORET user's data manage-
ment capabilities and to promote consistancy in the organization
and accessibility of ground-water data stored in STORET. This
manual was designed as a Supplement to the STORET USER's Handbook
(February 1982) and it is suggested that you use that handbook
in tandem with this manual. This manual describes those STORET
storage, retrieval and analytical features central to ground-water
data management. Additionally it explains methods for storing
and retrieving a wide range of ground-water information pertaining
to sites, samples and concentrations of analytes.
Comments and suggestions on how to improve this manual to
better meet user needs are welcome and should be directed to
Dr. Norbert Dee in the Office of Ground-Water Protection.
The manual is organized in the following manner:
° Section 1: Introduction
° Section 2:
0 Section 3i
° Section 4:
° Section 5;
How to get started on STORET
The STORET system for ground-water
monitoring data
Ground-water data storage formats
Ground-water data retrieval programs
° Appendices
1.l Ground-Water Data Management at EPA
The Agency recognizes that data management activities are a
significant component of ground-water monitoring. It is critical
that environmental managers have access to reliable data on the
quality, use, and environmental significance of ground-water
resources for policy and programmatic purposes. Unfortunately
until recently much existing ground-water data has been difficult
to use, incompatable, of uncertain quality and lacking ancillary
environmental information. The Agency staff is in the process of
addressing these problems through a data requirements study and
revisions to STORET.
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EPA is now conducting a ground-water data management
requirements study to identify the user community, their needs
and the best hardware and software systems to achieve user's
data management goals. The study will include an analysis of
"STORET", the Agency's Water Quality Storage and Retrieval system.
The requirements study will result in recommendations and an
implementation plan in late 1986 or early 1987.
Meanwhile the Agency is taking a parallel track which is
intended to provide good quality data as quickly as possible.
This involves adding new codes and parameter keys to the existing
STORET data storage system that will make it more useful to ground-
water data managers. It should be emphasized that recommendations
from the requirements study will build upon the changes being
made to STORET and discussed in this manual.
1.1.1 Brief Background on STORET
STORET (Storage and Retrieval) is one of EPA's computerized
data base systems for environmental monitoring data relating to
the quality of water within the United States. There are over
9500 unique water quality parameters in STORET's Water Quality
File and it contains over 90,000,000 observations on samples
taken from more than 600,000 sampling stations. Of these Water
Quality Monitoring stations in the Water Quality File, 270,000
are Ground-Water Monitoring stations located throughout much of
the United States (see Exhibits 1-1 and 1-2). The USGS network
of Ground-Water Quality Monitoring stations (WATSTORE) are also
included in the STORET Water Quality file and comprise 160,000
of the total Ground-Water Monitoring stations in the system. The
remaining 90,000 ground-water monitoring wells in which there is
data stored, belong to the EPA, 46 States, 13 Federal Agencies
and several interstate commissions. In addition, users may request
access to the USGS computer file called the Ground-Water Site
Inventory (GWSI) from the EPA, Office of Ground-Water Protection.
This file contains a variety of information on over a million
wells, springs and other sources of ground water. The system is
described further in section 5.6 of this report. All of the
ground-water monitoring .stations are described with the station
type code of well or spring. The data base spans a time period
from 1899 to the present, however, the majority of the data in
STORET has been collected since 1975. The STORET data base is
updated once a week on Saturday with the users' transactions
that have been submitted throughout that week. The USGS data is
updated on a monthly basis.
Most of the data stored in STORET is water quality, but the
system also has the capacity to store sediment, biological, and
facility information. There are associated software programs
which enable users to do a wide variety of graphical and statistical
analyses on their data.
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Exhibit 1-1
Locations of Ground-Water Monitoring Stations Contained in the STORET Water Quality Pile,
Excluding the USGS Ground-Water Monitoring Stations, July 1985 (90,Q00 stations (wells))
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Exhibit 1-2
Locations of Ground-Water Monitoring Stations in the STORET Water Quality File
Including the USGS Ground-Water Monitoring Stations (WATSTORE) (270,000 stations (wells))
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1.1.2 STORET Revisions Related to Ground Water Data Management
STORET was originally designed for the storage of surface
water quality data. Because station data, sampling techniques,
and some of the parameters collected during ground-water monitoring
are different than for surface water, additional parameter codes,
additional keys, and some changes to formats were needed to make
STORET more accommodating to ground-water data storage.
During the past year the RCRA program initiated revisions
to STORET to enable RCRA ground water monitoring data to be
included in EPA's water quality and environmental data management
system. One outcome of these changes was a manual Methods for
the Storage and Retrieval of RCRA Ground-Water Monitoring Data
on STORET - User's Manual issued in March 1985, and revised in
October, 1985.
This manual is a revision of the RCRA STORET User's Manual
published in March 1985. The original format has been expanded to
include information pertinant to all programs collecting ground-
water data. Also included are additional codes, information on a
new format, an expanded discussion of special keys, and additional
examples of retrievals.
1.2 Why Use STORET?
The Agency is recommending the use of the STORET system
to manage ground-water monitoring data because:
° STORET is a well established system with a proven ability
for storing and analyzing environmental monitoring data.
° STORET is widely available, with over 40 States as well
as numerous Federal Agencies, research institutes, local
governments, and interstate commissions having direct
access to the system. Most users can obtain reports from
small portable telecommunication terminals located in
their offices.
0 STORET is well known by many persons who would be entering
ground-water data due to its widespread use in analyzing
surface water data. Therefore any new costs would be
related mainly to personnel and software not to hardware.
° STORET is versatile and has a wide diversity of functions
available that will be useful for ground-water data
interpretation.
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- STORET has extensive analytical software to aid users
in manipulating ground-water data statistically.
Specifically use of STORET will enable you to:
— Determine short and long term trends in ground
water quality
— Determine individual facility performance.
Generalize about hydrological settings, waste
treatment, or disposal.
- STORET has additional software that enables users to
present ground-water visually via graphics and maps.
° STORET routinely loads all data from the USGS WATSTORE
data base onto the STORET data base. Thus, STORET provides
easy acess to the USGS water quality data on one data base.
° STORET provides free training and operational aid from
EPA's User Assistance Group.
1,3 Who Might Benefit From Use of This Manual?
° Programs requiring monitoring data for regulatory
or analysis purposes such as:
- Office of Solid Waste (Resource Conservation
and Recovery Act (RCRA))
- Office of Pesticide Programs
- Office of Emergency Response (Superfund)
Office of Water
— Non-point Source Program
— Water Quality Planning and Standards
Individual State programs dealing with hazardous
waste management.
- State programs regulating industrial and domestic
waste waters as well as solid wastes.
- Office of Drinking Water (Underground Injection
Control Program)
- Office of Drinking Water (Public Water Supplies)
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0 States having ambient ground-water monitoring networks.
0 Agencies responsible for RCRA, Safe Drinking Water Act
(SDWA), and Clean Water Act (CWA) oversight such as
Regional EPA Offices.
0 Federal, State or local Planning Programs collecting
ground-water data from special projects such as:
Rural clean water projects
- National Pesticide Surveys
Area wide ground-water studies
1-7
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2.0 HOW TO GET STARTED ON STORET
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2.0 HOW TO GET STARTED ON STORET
In order for users to access the STORET System, they must
perform the followinq steps:
0 Obtain the required computer access codes from EPA
0 Have equipment that is compatible with the computer
on which STORET resides
° Make modifications to their account set-up which will
improve their capabilities to use STORET (see Section
2.3)
They should:
0 Receive training and/or documentation
Each of these steps is described in greater detail in the sections
that follow.
2.1 Getting Computer Access Codes
In order to use STORET, users must first arrange access to
the computer system on which STORET resides. To do this, the new
user should first call STORET User Assistance (800-424-9067) and
notify them of his/her intention to become a STORET user, and
ask to be referred to the "STORET POINT of Contact" (POC) located
in the appropriate EPA Regional Office.
Next, new users must contact the Point of Contact referred
to them by STORET User Assistance to ascertain whether the intended
user's organization is already using STORET and to develop a
funding agreement for use of the system. The funds needed are
simply the standard EPA tineshare account. Several funding
mechanisms are available to new users:
° Other STORET users may exist in the new user's organi-
zation, and a simple expansion of the existing user's
arrangement may be worked out.
° The EPA Regional Office may agree to share some of the
expenses for using STORET with the new user.
0 Use of STORET in support of any program is a grant-
eligible item under 40 CFR Subparts 30 and 35.
0 STORET access is available to private, noncontract firms
through the National Technical Information System (NTIS).
Users in this category will be billed for reimbursement
of their use of the system.
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Once a funding mechanism has been arranged between a new
user and the STORET Point of Contact (POC), the new user will be
given three access codes that will allow use of the computer
system on which STORET resides. These codes include:
0 A "User ID", a code identifying the user (often the
user's initials)
° An account code, a code for the organization "paying
the bill" for this use of STORET
0 A password for system access security (the user may
change the password as soon as the account becomes
authorized, and will be asked to change it several
times during the life of the account).
In addition, users will be queried, upon loqqing on to the
computer, for a "FIMAS ID". The response to this prompt for
STORET users should be "STORP".
When users are issued the computer access codes, they are
also issued three important phone numbers. These phone numbers
are:
° Client Services Branch (formerly the STORET User Assistance
Team) in Washington D.C. (800-424-9067 or FTS/202-382-7220)
The Client Services Branch provides STORET Users with a
wide range of assistance including software, hardware,
teleprocessing, and system advice. The Branch also
responds to queries on application of the system to
particular needs, such as the use of STORET with
ground-water, effluent, and tissue data.
The Branch provides user documentation on basic and
advanced retrieval options, interfaces to other systems
(such as the Statistical Analysis System (SAS)), inter-
active procedures, and file structure, which allows
the user to write programs to access the data base. A
description of pre-editing and storage features of the
system is also included. STORET system training in the
form of basic and advanced seminars is also provided by
the Branch.
0 Technical System Assistance in Research Triangle
Park, North Carolina (800-334-2405 or FTS/629-7862).
The National Computer Center (NCC) located in North
Carolina has a comprehensive user support service,
providing the user technical assistance, problem
2-2
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diagnosis and solution, as well as consultation with
respect to all NCC methods, procedures, and software
needed to access and effectively use the NCC ADP
resources. The NCC User Support is the primary point
of contact between the NCC user community and the
NCC-IBM facility.
0 Telecommunications Assistance in Research Triangle
Park, North Carolina (800-334-0741) or FTS/629-4506).
The NCC provides and maintains hardware and software
components required to support the local NCC low-speed
interactive and national remote batch network. Continuous
monitoring of the network is provided, and when necessary,
software modifications and hardware changes are made.
Where possible, attempts are made to anticipate and
prevent communication problems along the network. Users
experiencing communication problems should contact Tele-
communications for assistance. They will work directly
with users to test lines and interface low- and high-speed
terminals.
Users should call Telecommunications Support as soon as
they receive their computer access codes to get a
specific phone number for accessing STORET^ Although
tne computer on which STORET resides is located in North
Carolina, local telephone numbers are available from*
Telecommunications Support for many areas. If a local
number does not exist, an "800" number is provided so
users should never need to make a long distance call.
2.2 Assuring Equipment Compatibility
To access STORET, users will need a modem/telephone set-up
to communicate with the computer, and a remote terminal with
which to interact with the STORET system. There are two hardware
specifications for these equipment. These specifications are:
0 The modem used for telecommunications must have a baud
rate of either 120, 300 or 1200.
° The computer terminal to be used to operate STORET must
be an ASCII teletype equivalent (most terminals are
ASCII teletype equivalent).
Microcomputers, such as Lexitrons or IBM PC's may be used
to access STORET if a modem and communications software are
available. If new users do not know whether their available
hardware meet the above criteria or if their software has the
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right specifications, they should ask the ADP contact within
their organization or the STORET Point of Contact in the EPA
Regional Office.
Upon getting access to the EPA computer in Research Triangle
Park, North Carolina, users automatically have arrangements in
place for their computer output to be printed there and mailed
to them. This is a "default" set-up; i.e., these arrangements
will be maintained unless the user makes others. Users may
find it useful to have some sort of printer or printing terminal
available to them, particularly when they run interactive pro-
grams or programs that yield a small (e.g., five pages or less)
output. This may be accomplished by:
0 Users operating STORET on a printing terminal-
° Users having their own printers to which output
can be routed
0 Users making arrangements with their EPA Regional
office for their output to be routed and printed
there, and then forwarded to the user. This option
varies from region to region depending on Regional
resources. The option should not be utilized without
the Region's concurrence.
If the user chooses not to make any of the above arrangements
(or cannot), output can still be mailed to the user from North
Carolina.
2.3 Set-Up Modifications for Accessing STORET
Once users have received access codes and have learned how
to log-on to the computer, they must execute a few simple pro-
cedures to get started on STORET. These include:
o The "NEWUSER" command, which makes certain internal
system arrangements for using STORET
0 The "JOBPARM" command, which sets up a job card for
users (the "card" that will almost always automatically
accompany any program that the user ,runs, which identi-
fies the user>and any program specifications the users
desires) with default values.
Specific instructions on how to. execute these procedures
are provided in the STORET training materials (see Section 2.5
below).
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2.4 Training
All new STORET users should attend the introductory training
class on system operation given by the STORET User Assistance
Team, and should receive the documentation needed to operate
STORET. Other types of training and documentation are available
to the user, and new users may wish to obtain them once they
feel proficient in STORET.
New users should contact the Regional STORET Points of
Contact and ask to be included in the next available training
class. The STORET User Assistance Team gives training classes
many times during the year, and at various locations depending
on the number of users needing training. Therefore, arrangements
for training convenient to the user can be made.
2.5 Documentat ion
The following other documentation and manuals may be of
help to Ground-Water/STORET users (the first is essential, and
contains much information about STORET not duplicated here):
0 The STORET Users Handbook (Volumes 1 and 2)
The users manual for operation of the STORET System,
explaining the details of how to operate the system
for data storage and how to run retrieval programs,
available from STORET User Assistance. Volume 2 of
STORET USERS HANDBOOK (EPA 1982) pertaining to
advanced retrievls is no longer available and has
been replaced by the on-line data sets "STORET.HELP.
SEMINAR.DOC.ADVANCED", "STORET.HELP.FILE.FORMATS",
"STORET.HELP.PGM.MSP", and "STORET.HELP.PGM.LOC".
0 NCC-IBM User's Guide
The purpose of the NCC-IBM User's Guide is to provide
a useful source of information about the EPA National
Computer Center, its procedures, available resources,
operations, and supported software. Much of the infor-
mation in the Guide is about the IBM 3091, its uses, and
its job control language is explained in greater detail
in various IBM manuals. Extensive references to those
manuals have been included, and the user may obtain
their own manuals for their reference. Some utility
programs have been written at NCC and are not generally
available at other IBM installations. These are docu-
mented for the user in the NCC-IBM User's Guide and may
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also appear in other NCC-produce manuals. Of particular
interest to ground-water/STORET users will be the NCC
TSO Manual.
° STORET Seminar Documentation - Storage Formats and TSO
Storage Procedures
The STORET Seminar Documentation, which is distributed
at STORET training seminars or can be obtained from the
STORET User Assistance Team, contains all of the infor-
mation reguired to utilize STORET. It presents the
material in a succinct manner with many examples to
aid the new user. Even though it does not cover each
function as completely as the STORET User's Handbook,
(1982) it cross references page numbers to the Handbook
which gives a more complete explanation of each function.
0 The Manager's Guide to STORET
This document identifies applications of EPA's STORET
system to aid the user in meeting the requirements of
the Water Quality Management Program. The manual's
perspective is that of a manager and no attempt is made
to explain specific system language or syntax.
2.6 Contacts
There are several contacts available to Ground-Water/STORET
users. A list of these contacts and the services they
offer follow:
0 Office of Information and Resource Management (OIRM)
Gives technical assistance in accessing and using
the STORET system; provides STORET traininq; and
distributes STORET users' manuals.
- Coordinates use of STORET for Ground-Water data
with all EPA Program Offices and ADP activities
such as the FINDS* or HWDMS** Systems.
jy Facility Index System
**/ Hazardous Waste Data Management System
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Please contact the following people within OIRM's Program
Systems Division for the ADP activities of interest:
STORET Administration, User Manuals
and Training - Dan Parker 800/424-9067
CERCLA - Antonio Jover, FTS/382-2387
Pesticides - Antonio Jover, FTS/382-2387
Public Water Supplies - Chuck Tobin, FTS/382-2374
RCRA - Antonio Jover, FTS/382-2387
Toxics - Antonio Jover, FTS/382-2387
UIC - Chuck Tobin, FTS/382-2374
All other programs - Chuck Tobin, FTS/382-2374
# Office of Solid Waste/Land Disposal Branch
Programmatic support in organizing your RCRA data
for STORET; documentation on coded parameter code
values; focal point for the initiation of new para-
meter codes, analytical capabilities, or other needs.
(Dr. Robert April, FTS/202-382-4654)
0 Office of Ground-Water Protection
General information on EPA's Requirements Analysis
and future development of STORET for ground-water
data. (Dr. Norbert Dee, FTS/202-382-7077)
# EPA Regional offices
Each office has one Point of Contact (POC) who is
responsible for developing Regional STORET policy,
coordinating training and user access, and allocating
time sharing funds for Regional users. The Client
Users Branch (Dan Parker 800/424-9067) will provide
users with name and phone number of the appropriate
POC.
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3.0 THE STORET SYSTEM FOR GROUND-WATER
MONITORING DATA
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3.0 THE STORET SYSTEM FOR GROUND-WATER MONITORING DATA
This section presents a brief introduction to the STORET
System, terminology used with the System, and explains the
structure of the STORET data record as it pertains to ground-
water data storage and retrieval. More detailed information
about the STORET System operations and capabilities are given
in the STORET Users' Handbook (February 1982).
3.1 Terminology for Ground-Water/STORET Users
There are numerous terms and major categories of data that
Ground-Water Storage Users should be familiar with before entering
their parametric data into STORET for storage. These terms are
summarized below:
0 A facility is an entity (such as an industrial or manu-
facturing plant) where ground water is being monitored.
0 A waste area is that area within a facility where material
is being disposed or treated, such as a lagoon or landfill,
around which wells have been installed to monitor the
ground water. This term is used mainly in the RCRA and
Superfund programs.
0 A station, when monitoring for ground water, is a single
monitoring well or a spring from which samples are being
taken.
0 The period of record is the collective total of informa-
tion from all sampling events for a single station.
0 a sampling event is all the information collected at
one date, depth and time from a well. Each sampling
event will typically include measurements of many
substances or parameters.
0 A data element (or variable, or STORET "parameter") is
that substance or other Eactor which is being measured.
0 An observation (or data point, or value) is the value
of a data element for a sampling event at a station
(well) such as 3 ug/1, 20 ug/1, .5mg/l etc.
3-1
-------�
3.2 STORET as a Data Base
Ground-Water/STORET users will be inputting data into the
Water Quality File. The data you will be inputting into this
file will be either station data, which describes and categorizes
the geographical location of where a sample has been taken; or
parametric data, which describes the conditions under which a
sample was taken (such as date, time, and depth) as well as the
results of the sample analyses. Each data record for a
ground-water monitoring station is composed of three parts:
° The station header
° The descriptive paragraph
° The parametric data field
Exhibit 3-1 following this page illustrates how the three parts
of a STORET record, which are further described below, appears on
a computer terminal or print out. This example illustrates the
record of a RCRA facility.
3-2
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EXHIBIT 3-1
Example of Overall STORET Data Organization for a RCRA Well **
STATION HEADER
MID098765432U12 WWMI1234
46 14 31.2 089 21 48.0 2
XYZ CHEMICAL CO LTRT RCRA DNGR WELL #4
26053 MICHIGAN GOGEBIC
LAKE SUPERIOR 990793
ONTONAGON RIVER
21MIGW 050403021
0050 FEET DEPTH
AMBNT/WELL/IND/DSPR/LTRT/DOWN/HAZARD/RCRA
DESCRIPTIVE PARAGRAPH
THIS IS A LAND TREATMENT FACILITY OWNED BY XYZ CHEMICAL CO., A WHOLLY
OWNED SUBSIDIARY OF ACME PETROLEUM. IT IS USED FOR LANDFARMING REFINERY
WASTES. HANDLES WASTES FROM ACME REFINERIES AS WELL AS OTHERS. HAS BEEN
USED TO DISPOSE REFINERY WASTES FOfJND ON THE JONES,
GA SUPERFUND
SITE.
PARAMETRIC
DATA FIELD—
00011
00400
00680
34030
SMK OR TEMP
pH
IOC
BENZENE
DATE
TIME
MEDIA DEPTH FAHN
SU
(MG/L)
TOT(UG/L)
73/09/11
0915
RCRAGW 2110 66.0
6.0
20
142
UMK FOR ABOVE
SAMPLE
73/09/11
0916
RCRAGW 2220 66.2
6.0
20
143
UMK FOR ABOVE
SAMPLE
75/10/21
1100
RCRAGW 0000 48.0
6.5
26
143
UMK FOR ABOVE
SAMPLE
04001100
76/06/30
0810
RCRAGW 0020 69.0
6.6
25
145
UMK FOR ABOVE
SAMPLE
76/07/27
1620
RCRAGW 0000 73.2
6.6
25
141
UMK FOR ABOVE SAMPLE 04001100
**/ See Chapters 3 and 4 for explanation of record components.
-------�
3.2.1. Station Header
The station header of a STORET record describes the #
location at which samples were taken. Borrowing from Exhibit
3-1, the STORET station header looks like:
& MID098765432U12 WWM2I1234 B
C 46 14 31.2 089 21 48.0 £)— D
E XYZ CHEMICAL CO LTRT RCRA DNGR WELL =#4
F 26053 MICHIGAN GOGEBIC ^
I LAKE SUPERIOR I 990793— ===j
K ONTONAGON RIVER M
L 21MIGW 05040302 M
M 0050 FEET DEPTH
O AMBNT/WELL/IND/DSPR/l.TRT/DOWN/HAZARD/RCRA
Key
A Primary Station code
B Secondary Station Code
C Latitude/Longitude coordinates
D Precision indicator (2 in this case). The precision code
indicates the preciseness with which the Lat/Long has
measured. If nothing is coded, A "4" is assumed.
Code
Precision
1
Tenth of a second
2
One second
3
Ten seconds
4
Thirty seconds
5
One minute
6
Ten minutes
7
Thirty minutes
8
One degree
3-4
-------�
Key (continued)
E Station name
F State/county code
G State name
H County name
I Major basin name
J Major/Minor/sub-basin code
K Minor basin name
L Agency code
M USGS Hydrologic Unit Code
N Station depth
O Station type
All but station name and station depth are "key" data elements,
meaning that they hold critical values by which data are selected
or arranged in a data retrieval.
A station must be "established" (i.e., a station header
must be created) before any other data Cor that station can be
stored in STORET. One STORET station header will be used to
describe each monitoring well. Technical instructions on how
to create a station header Cor a monitoring well can be Cound
in Chapter WQ-DE of the STORET User's Handbook (February, 1982),
and programmatic instructions can be found in Section 4 of this
report.
3.2.2 Descriptive Paragraph
The descriptive paragraph of a station is an optional field
for entering textual information. A representative descriptive
paragraph for a station at a RCRA-Faci1ity appears on the
following page.
1-5
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Example of a Representative Descriptive Paragraph
THIS IS A LAND TREATMENT FACILITY OWNED BY XYZ
CHEMICAL CO., A WHOLLY OWNED SUBSIDIARY OF ACME
PETEROLEUM. IT IS USED FOR LANDFARMING REFINERY
WASTES. HANDLES WASTES FROM ACME REFINERIES AS
WELL AS OTHER. HAS BEEN USED TO DISPOSE REFINERY
WASTES FOUND ON JONES GA SUPERFND SITE.
Unlike the station header, which is composed of nine
discrete data elements, the descriptive paragraph may contain
any information describing the sampling station the user wishes
to enter such as characteristics of the well, information on the
monitoring agency or sampling process, etc. Any format, up to
1080 characters in length, can be used. The descriptive paragraph
is an optional field, and data selection for retrieval is not based
on its contents. Information which ground-water users might want
to store in the descriptive paragraph may be found in Section 4.5.
3.2.3 Parametric Data Field
The parametric data field in a STORET record is where all
the measurements are stored. As can be seen in Exhibit 3-1 and
the example on page 3-7 the parametric data field is a matrix.
3-6
-------�
Example of Parametric Data Field
00011
0068
00400
34030 A
SMK or
TEMP
TOC
pH
BENZENE—B
DATE TIME MEDIA
DEPTH
F
(mg/l)
SU
TOT (UG/L)
r I
73/01/03 0925 GRWTR
0001
61.0
13.8
6.5
50K |—D
UMK FOR THE ABOVE SAMPLE
0401100
73/09/11 0915 GRWTR
0001
66.0
8.4
6.0
143 C
I UMK FOR THE ABOVE SAMPLE
0401100
73/0911 0916 GRWTR
0001
66.2
8.4
6.0
143
UMK FOR THE ABOVE SAMPLE
0401100
75/10/21 1100 GRWTR
0001
64.5
10.6
6.5
145
UMK FOR THE ABOVE SAMPLE
0401100
76/06/30 0810 GRWTR
0001
69.0
8.4
6.6
141
UMK FOR THE ABOVE SAMPLE
0401100
76/07/27 1620 GRWTR
0001
73.2
7.2
6.6
141
UMK FOR THE ABOVE SAMPLE
0401100
Key
A Parameter Code
B Parameter abbreviation and units
C Parameter value
0 Remark code (K less = less than stated value)
E Date sample - required information stored for each sample. If
no date appears on the printout the date listed in the
preceding line applies.
F Time sampled - optional information which may be stored for
each sample.
G Media - indicates the media from which the sample was
taken (GRWTR - Ground Water).
H System Multi-purpose Key (SMK) Describes the way the sam-
ple was collected. (See section 45 for detailed explanation). If
the SMK is not used this column may contain the item Depth
of Sample. This is optional information which may be stored
for each sample, ground-water users may want to store
aquifier information here Depth can be stored as a parameter
code 82546. aquifer information is best stored with codes
84000 and 84001 (geologic age code and aquifer name).
1 Users Multi-purpose kev IUMK). Describes the method by
which the ground-water sample was collected and analyzed.
(See section 4.5 for detailed explanation).
3-7
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For each sampling event a user may store up to 2,000 chemical
parameters. Chapter WQ-DE of the STORET User's Handbook
(Feburary 1982) gives technical instructions on the storage of
parametric data. Section 4 of this manual contains an explaination
of the use of the parametric data field specifically for storing
ground-water monitoring data.
3.3 STORET as an Analytical System
STORET was selected by the Agency as the repository for
ground-water monitoring data in part because of its excellent
data analysis programs. The analyses that may be performed and
the logic behind running a data analysis program are discussed
briefly below.
3.3.1 Data Analysis Programs
STORET provides its users with programs for many different
types of analyses. These include:
0 Non-analytical data displays, such as an "index", or
listing of all the stations meeting user-specified
criteria, or a station location map
0 Tabular analyses, such as a statistical summary of data,
or an analysis of the freguency of drinking water standard
violations
° Graphic displays of trends, including the concentration
of a substance over time
0 Map displays of data, including the mapping of statis-
tically summarized parametric data, the aggregation and
analysis of data within user-specified geographic
boundaries, and the mapping of trends in water quality
indicator levels
0 Interfaces with other important data analysis systems,
such as the Statistical Analysis System ("SAS").
STORET analytical programs are described in the STORET Users'
Handbook (February 1982) in Section WQ-RET.
3-8
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3.3.2 STORET Retrieval Logic
It is important for Ground-Water/STORET users to keep STORET
retrieval logic in mind when storing data. Understanding this
logic will help ground-water data manager? place key information
in strategic locations where it may serve as data selection
criteria for retrievals.
Stations within an area of interest can be selected by agency
and station number, a latitude- and longitude-defined polygon,
State code, County code, Section 203 water-guality management
area or major, minor, subbasin code and IJSGS hydrologic unit code.
The station retrieved using the above selectors can be combined
with station restrictors to obtain only those stations that meet
two or more criteria of interest.
Station retrieval may be restricted by State, State and county
code, or by specifying a agency code, or excluding a agency code.
Station retrieval in STORET may also be restricted to those
stations that have a certain attribute, e.g., a particular station
type code(s) or a particular parameter(s) by using a mask. The
name of the mask is specified in the "EXTRACT" statement enabling
retrieval of stations contingent on the presence or absence of
data for a group of parameters. For example masks have been
created for each group of priority toxic pollutants.
The masks are named as follows:
PRIPOLIN - inorganic
PRIPOLOR - organic
PRIPOLME - metals
PRIPOLPE - pesticides
The STORET "C" function enables the user to designate in
a single expression, an entire group of parameters. The following
STORET statement will restrict station location to ground-water
stations that have sampled for inorganic priority pollutants.
By combining the STORET "C" function with the STORET EXTRACT
Statement.
EXTRACT=C(PRIPOLIN and WELL),
Having selected the stations for retrieval in the area of
interest, the user then must proceed to select the samples and
parameters reguired. Samples are selected by date, time and
depth or SMK. Frequently, a STORET user will be interested in
only specific parameters which are obtained by specifying the
numeric code of the paremeters of interest or by specifying the
"C" function with the "P=" statement. For example, P=C(PRIPOLIN)
will retrieve all the parameters within the inorganic priority
toxic pollutant group. For additional information on using the
STORET "C" function the user may refer to the STORET help data
set " STORET.HELP.RETRIEVE.PARGROUP.
The logic behind running a STORET data retrieval ("also called
an analysis program") reflects the structure of the data base as
has been described previously. A "typical" data retrieval request
appears on the following page.
3-9
-------�
Typical STORET Data Retrieval Request
B 1 1 | C
A-—"PGM=INVENT,A=21MIGW,S=ALL,EXTRACT=WELL,
E P=77004,P=77015,P=77885,P=78113,P=81551, D
BD=820101,ED=841231,
KEY
A Program to be run, "PGM INVENT" will print out a data in-
ventory. In some retrieval programs a user may enter
specifications for the output format
B Station selector - one of the criteria for the selection of the stations
from which the user wants to see data. In this case the first
broad "cut" through the data base was the Agency code
"21MIGW" and all stations sampled by that Agency, as
specified by "ALL"
C Station restrictor - Criteria that further narrows down the sta-
tions choosen by the selectors. In this case only those sta-
tions with the station type code of WELL were choosen
(EXTRACT=WELL)
D Parameter Codes represent specific chemical data to be
retrieved for analysis. Each specific chemical is identified by a
five digit parameter code. In this case.
77004=Ethanol,TOT;77015=lsopropanol; 77885 Methanol, TOT
78113=Ethyl Benzene TOT; 81551=Xylene, TOT
E Data restrictors - These enable users to apply restrictors to
the data being retrieved. Data restrictors are almost always by
date, time and/or depth. In this example data are restricted
by the sampling date by using the key word combinations of
"BD=820101,ED=841231," where "BD" stands for "beginning
date" and "ending date" respectively. It should be noted that
in STORET "date" refers to date the sample was collected not
the date sample was analyzed. This has been a rather common
error among STORET data coders.
3-10
-------�
Chapter 5 contains examples of various retrieval outputs
that will be useful to ground-water data managers. All STORET
data retrievals contain a summary section (Exhibit 3-2). This
summary section describes the station header format, the retrieval
that was executed; the method of station selection; the point
of contact for all agencies from which data was retrieved including
their name, organization, and telephone number; and the data
specifications and data restrictions that were in effect for the
retrieval.
3-11
-------�
Exhibit 3-2
Example of a STORET Data Retrieval Surma ry Action
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•••• STORET SUMMARY SECTION
T°!:^SWiN2, '?-* "ETR1EVAL OF DATA FROM THE ENVIRONMENTAL PROTECTION AGENCY'S STORET SYSTEM.
K-rorcucn i.cTufSA™i72./.SITES *ND THE,R ASSOCIATED QUALITY DATA. THE INFORMATION HAS
SpommtcS cnl ?2tc . ST0"ET INSTRUCTION SETS IN COMBINATION TO SELECT ONLY THE DATA
REOUESTED FOR THIS RETRIEVAL. BRIEF EXPLANATIONS OF THE INSTRUCTION SETS ARE INCLUDED BELOM.
QUESTIONS SAY BE DIRECTED TO THE STORET USER ASSISTANCE SECTION AT
(202) 302-7220 OR (800) 42A-906T.
FOLLOWING IS THE FORMAT FOR THE STATION HEADER INFORMATION WHICH APPEARS
ON EACH PAGE OF THE RETRIEVAL UNLESS STATION AGGREGATION WAS PERFORMEO
* STATION NUMBER(S)
* LATITUDE/LONGITUDE PRECISION CODE
STATION LOCATION
STATE/COUNTY CODE STATE NAME COUNTY NAME
MAJOR BASIN NAME MAJ/MIN/SUB BASIN CODE
MINOR BASIN NAME
AGENCY CODE HYDROLOGIC UNIT COOES
STA. DEPTH STA. STORED DATE ARCHIVE CLASS CSN-RSP
•STATION TYPE
~
«
~RtvcR mile Index
••••••«
#••••••
•••••••
CONTINUEO ON NEXT PAGE(S)
••••••••••••••¦•••••••••••••••••••••••••••••
-------�
Exhibit 3-2 continued
PGM=RET
THIS IS A TAtiULAR LISTING OF ACTUAL SAMPLE VALUES FOR SELECTED PARAMETERS
A BEGINNING OATE OF (YY/MM/DD) 81/12/01 WAS RFOUESTED
AN ENDING DATE OF (YY/MM/DD) 01/12/31 WAS REQUESTED
STATION SELECTION WAS BY:
AGENCY CODE(S) AND STATION NUMBER < S) FOR THE FOLLOWING AGENCY(S):
11COELMN
CONTACTS FOR AGENCY CODES RETRIEVED:
AGENCY PRIMARY CONTACT NAME
I1COELMN THIBODEAUX• BURNELL
ORGANIZATION
CORPS OF ENGINEEKS
PHONE NUMBER(S)
(504)838-2445
DATA SPECIFICATIONS:
REQUESTED PARAMETERS:
PARAMETER CODES AND ABBREVIATIONS
00940 CHLORIDE TOTAL MG/L
••NOTE**
NO REMARK CODE RESTRICTIONS WERE SPECIFIED - COMPUTATIONS WILL
BE PERFORMED WITHOUT REGARD TO DATA REMARKS
DATA RESTRICTIONS:
••NOTE**
NO DEPTH INDICATOR RESTRICTIONS WERE SPECIFIED - COMPUTATIONS WILL
BE PERFORMED WITHOUT REGARD TO DEPTH INDICATORS
••NOTE«*
NO GRAB/COMPOSITE RESTRICTIONS WERE SPECIFIED, SO BOTH GRAB AND COMPOSITE SAMPLE TYPES HAY HAVE
BEEN INCLUDED - COMPUTATIONS WILL BE PERFORMED WITHOUT REGARD TO SAMPLE TYPE
••NOTE**
NO COMPOSITE SAMPLE RESTRICTIONS WERE SPECIFIED - COMPUTATIONS WILL INCLUDE STATISTICAL FEATURES OF
THE COMPOSITING PROCESS. PRODUCING VALID RESULTS ONLY WHEN SOPHISTICATED COMPOSITES ARE NOT ENCOUNTERED.
SPECIFY COMPOSITE HANDLING KEYWORDS "ANC" AND/OR "DSROC" IF NEEDED
END OF SUMMARY SECTION
-------�
4.0 GROUND-WATER DATA STORAGE FORMATS
-------�
4.0 GROUND-WATER DATA STORAGE FORMATS
This chapter contains an introduction to the formatting
and retrieval strategies used in STORET. An explanation of data
needed for storage is presented in the next several sections.
4.l Data Needs Identified for Ground-Water/STORET Users
A station must be thoroughly and correctly described so
that data asociated with it can be stored and later retrieved.
It should be emphasized that the more information available about
a station the more flexibility there will be in retrieving the
data stored with that station.
Three broad categories of descriptors have been identified
as needed by Ground-Water/STORET users to completely document
information available for a particular station. These categories
are:
° Station descriptors
° Sample descriptors
° Analytical findings.
There are several elements under each category which will
enable the user to describe the station thoroughly. These
elements are perhaps more information than would be needed to
store surface water data. Elements making up each category of
descriptors are described below. A graphic representation of
where these descriptors should be entered into the data record
are given in Appendix A.
4.1.1 Station Descriptors
Factors which are descriptive of the sampling location and
would not change over tine are called "station descriptors".
There are three types of station descriptors needed by ground-
water data managers to support their ground-water monitoring
data. They are as follows:
Facility descriptors —
descriptors of the operation being monitored, such as type
of waste management area (e.g., landfill), facility location
(not the corporate headquarters), (e.g., zip code) and type
of business (e.g., disposer of hazardous waste). Facility
descriptors, except ownership, will always be stored in
either a station header or a descriptive paragraph.
4-1
-------�
Physical setting descriptors —
descriptors of the setting in which the facility is located
and from which samples were taken, such as aquifer name or
geologic formation name. For the most part these descrip-
tors are stored in the parametric data field. Two of these
descriptors are stored in the descriptive paragraph and one
descriptor in the station header.
Well descriptors —
descriptors of those characteristics of a well which may be
an important factor in data analysis and which would not be
expected to change over time, such as type of well, well
depth, and casing material. All but one of these descrip-
tors will be stored in the parametric data "fixed date"
field. Note that the term "fixed date" under the parameter
field means elements that will not change with time.
4.1.2 Sample Descriptors
Factors that describe a sample at the time it was taken and
which are expected to change with each sampling event are called
"sample descriptors". Three types of sample descriptors needed
by ground-water data managers to support their ground-water
monitoring data are:
Sampling purpose descriptors —
descriptors of why and by whom a sample was taken. These
descriptors are stored in the parametric "variable date
field."
Sampling condition descriptors —
descriptors of the conditions during the sampling event,
such as the depth to the top of the water table or the
temperature. These descriptors are stored in the para-
metric "variable date field."
Sampling/Analysis Descriptors —
descriptors to document how a sample was taken and/or
analyzed, such as how the sample was drawn and whether
or not it was replicated.
4-2
-------�
4.1.3 Analytical Findings
The findings that were determined from each sample at a
station are called "analytical findings". (e.g., the concentration
of arsenic in the sample). Analytical findings will be stored
in the STORET parametric data field by using "parameter codes".
A printed list of all current STORET parameters and their codes
may be obtained by users of the STORET system with the conmand
%Batch with one of the following: PARMALFA, PARNUMER, and PARCAS.
Descriptions of these lists are contained in Section 4.6.5 of
this report and instructions on storing findings can be found
in Chapter WQ-DE of the STORET User's Handbook (February 1982).
A list of the parametric codes especially pertinent to RCRA and
likely useful to others can be found in Appendices G and H of
this manual.
4.2 Data Formatting
There are specific formats that must be used when inputting
station and parametric data into STORET. Station header data is
always stored and modified with the ?01 format which is a fixed
form method. Exhibit 4-1 is the EPA form used for storing station
location data in the STORET Water Quality File. Parametric data
can be stored with 5 different formats: ?0Q, ?01, ?02, ?03 and
?04. Whereas any of these formats are acceptable the ?00 format
is the most versatile and contains special features to be discussed
in a later section that make it the only recommended format for
ground-water users.
Chapter WQ-DE of the STORET Users' Handbook (February 1982)
describes the technical procedures for storing data in STORET.
Specifically, it describes the various storage formats, how
each one can be used, how to invoke each format and how to enter
data. This chapter is meant to be a supplement to chapter WQ-DE
of the STORET User's Handbook (Feburary 1982). Rather than
describing the technical procedures for entering any data into
STORET, this chapter assists ground-water users in understanding
what information is needed for data storage and describes what
has been determined to be the most useful organization and format
for ground-water monitoring data in STORET. Extensive capabili-
ties have been provided for storing station and sampling data.
Users should determine which of of these capabilities are
appropriate to them.
4.3 Station Header
Before any ground-water monitoring data can be entered in
STORET, an identification of each station from which the samples
were taken must be "established" in the data base. In other
words, a station header must be created for each ground-water
monitoring well to which data are attributed"!
4-3
-------�
Example
4-1
of a Station Location Storage
Form
STOKT WATER QUAUTY Rl* - STATION tOCAIION STOCASC
74
77 7t
70
BO
62
64
66
65
60
47
49
46
42
43
3 5
40
33
29
30
W
24 ?5|
20
AOPJOf CAtO (A CAtO)
rKOfVTOUAL STOfttMG OATA. NAMI. I OCA TOW AGtMCY IHI*WONI
(OpttHtoJ — wlU mot be
"fi.
tdaytt
CAtO)
A SUING O VMCO COMKMATtONS Of STATION TTPt COOCS S£»A*AUD •* SLAJHtS
STATION CAtO (S CAM)
O) S4CON0ACT STATION
coot (L*fi Justify}
a) UCONOAftY STATION COM
lUfl
(1) SfCONOAIT STATION COOC
(Ltfl Jmaifyi
nrm
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STATION
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CAtO (HUOCt CAtO 2)
%A5W CAtO (HCAMB
STATION LOCATtOW *U*0» ftAStM NAMI
STATION LOCATION MAJO* 6ASIN NAMI
CAtO (KEA0C1 CAtO 4)
LOCATION Of Sllli LAJC0MABS NAMZS ITC
PACI 1 Of 2
Prwloua edition b ob>otet»
-------�
Exhibit 4-1 (continued)
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MSOtimVi PAKAOCAPH CACOS (KCAOCB CARO 3)
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71
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73
74
75
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-------�
Data in the station header remains relatively fixed for the
life of the station. Although data in the station header may be
changed, they are not normally added to or chanqed once established.
Exhibit 4-1 is an example of the EPA form used to input data
for storing station header information in the STORET system.
The information contained on a station header is listed
below. The items which are required by the system are starred.
° Agency Code* - identification code for contributor of
the data to STORET; this is not the users ID.
0 Station Codes*
Primary*
Secondary
0 Station Name*
0 Station Location Description*
- Latitude/longitude coordinates*
State and county codes*
- Major/Minor/Sub Basin Codes*
USGS Hydrologic Unit Code*
0 Station Type Code
The recommended organization of these items for ground-water
data is detailed in the sections that follow.
4.3.1 Agency Code
An Agency Code must be established before any station or
sampling information can be entered into STORET.
The agency code in the STORET station header is that
element which identifies the "coordinator" of the data. All
STORET monitoring station must have an agency code. For ground-
water monitoring data, the agency code represents the organization
or regulator who is contributing the ground-water data to STORET
and not each facility contributing data to the organization or
4-6
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regulator. An orqanization coordinating data being put into
STORET may have one or more agency codes, but each station in
STORET may have only one code.
Ground-Water users should store ground-water monitoring data
under an agency code that is unigue to other agency codes the
users' organization may have. This will allow you to segregate
and streamline your data base from existing files containing
surface water quality data. Users may identify other agency
codes that may exist for their organization in several ways:
0 By contacting the ADP specialist or the EPA liason in
that organization
0 By contacting the ADP Coordinator and/or STORET coordi-
nator in the EPA Regional Office
0 By contacting STORET User Assistance
° By using a STORET command procedure called "%contacts".
There are four recommended components to an agency code for
ground-water monitoring data. In general, the eight-digit STORET
agency code for ground-water monitoring data should be composed
of:
0 A STORET-understood indication in the first two characters
of who that agency code represents, which include:
- "11" for an EPA Regional office or other Federal agency
"21" for a State agency.
0 A two-letter abbreviation or number representing the agency
as the third and fourth characters, which may be either:
- The Federal Information Processing System two-letter
abbreviation for the State (the standard abbreviation,
which can be found in Appendix C of the STORET Users'
Handbook)
"HQ" for EPA Headquarters program offices
The two-digit number of the EPA Region, such as "01"
for Region I or "08" for Region VIII.
4-7
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0 An alphabetic character to indicate which program the
data is collected from as the fifth character. For
instance an "R" to indicate that the data is collected
under the RCRA program. We recommend the following
codes:
R for RCRA
C for CERCLA
U for Underground Injection Control
S for Public Water Supply
P for Pesticide data
A for ambient ground-water monitoring network
0 "G" to indicate that the data is ground-water monitoring
data as the sixth character
0 Two optional "free" characters for the user to code as
needed for the seventh and eighth characters.
Examples of STORET agency codes for RCRA ground-water
monitoring data are shown below:
-A
B
For a State agency
, zIIahAgT
or
For an EPA Regional Office, 1
-G
-F
Key
A Indicates a State Agency
B Federal Information Processing
System State Abbreviation
C Program Code
D Ground-Water Code
E Optional free characters
F Indicates an EPA Regional Office or
other Federal Agency
G EPA Region Represented, in this
case Region V
-------�
4.3.2 Station Codes
Station codes are codes which identify the specific station
within the monitoring network from which the data were taken.
For ground-water monitoring data, each well is considered a
"station". Each station must have at least one, but may have up
to four station codes:
0 One primary station code, which is required
0 Up to three secondary station codes, or "aliases", which
nay be assigned to a well, but are not required. These
are used for the purpose of cross referencing stations
for cooperative monitoring and to facilitate the retrieval
process.
Station codes may be numeric, alphabetic, or a combination
of both. The two important reguirements for station codes are
that the primary code nay not exceed 15 characters in length. A
user may create up to 3 secondary station codes. The 1st and
2nd secondary station codes may be up to 12 characters in length,
and the 3rd secondary station code may be up to 10 characters in
length. Each code, whether it is primary or secondary, must
be unigue from all other station codes already stored under a
particular Agency code.
4.3.2.1 Primary Station Codes
The primary station code for ground-water monitoring wells
should be developed in one of two ways. If the monitoring well
is located at a facility with a Dun and Bradstreet (D&B) that D
& B number should make up the first 12 characters of the code.
D&B numbers already exist for most regulated facilities, and
should not be "made up" arbitrarily by the user. D&B numbers
for facilities may be identified through EPA's FINDS Data Base.
Users should contact the group that maintains FINDS in the EPA
Regional Office to identify whether or not a D & B number already
exists for their facility. If not, the FINDS group will have
one created.
If the well is not at a facility with a Dun and Bradstreet
number, for example a state ambient ground-water monitoring net-
work, the primary station code may start with the letters "GDW"
which will indicate that the data is from a ground-water monitoring
station and not registered in the FINDS data base. The prefered
method of developing primary station numbers at any facility is
4-9
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through the FINDS data base managers since FINDS serves as a
cross-reference between EPA data bases. The "GDW" prefix is
an exception to this convention and use should be restricted to
cimcumstances where a D & B number is not appropriate.
The RCRA program has specified that the primary station
code for groundwater monitoring should include the following
three elements:
0 Facility Dun & Bradstreet number of facility
° Relative position of the well to other wells for that
waste management area or site (i.e., up- or downgradient)
° Unique number of the well for that waste management area.
For example, a primary station code for a RCRA ground-water
monitoring well may look like:
—A
B
i C
I 1" n
TXD123456789U04
Key
A Dun and Bradstreet Number
B Relative position of the well
C Well number
The first 12 characters of this primary station code make
up the Dun & Bradstreet (D & B) number of the facility at
which the station is located. The D & B number of each facility
is unique, and is used as a standard for many EPA (and other)
data bases.
The character that follows the D & B number in the STORET
primary station code (the thirteenth of the 15 characters) for
wells is an alphabetic character that describes the relative
Dosition of the well to the waste management area. The thirteenth
character should be a value of "D" for downgradient or a value
of "u" for upqradient.
4-10
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If another code is needed (to represent a different type
of station designation), users should contact OSW and inform
them of this need. OSW will oversee creation and documentation
of the new code.
The last two of the fifteen primary station code characters
are for assigning a number to each monitoring station that is
unique that waste management area. Stations may be numbered
sequentially starting from the first upgradient station, and
increasing by one or more in a clockwise direction. Sequential
numbering is particularly meaningful if additions or deletions
of stations are not expected. However, as changes are likely to
happen during the regulated life of the facility, just assigning
2-digit station numbers that are not sequential (but are unique
for each station is acceptable. Ninety-nine stations may be
stored in this fashion. Should the user need to number more
than 99 stations letters of the alphabet should be used (for
example, AO, A1, A2, etc., up to A9, and the BO, Bl, etc).
4.3.2.2 Secondary Station Codes
Assignment of the secondary station codes for a ground-water
monitoring station is left up to the user. Users may enter any
numbering scheme they wish for the station "alias". Users may
be interested in having the secondary station code be any of
the following:
° The permit number for any permits which have been issued
to the facility
° An identifier for the district or region in which the
facility is located
° An internal numbering scheme.
Users may keep in mind that data retrievals may be based
on any of the station codes, not just the primary, station code.
For that reason, each station code, regardless of whether it is
primary or secondary, must be unique.
4.3.3 Station Naming Conventions
The "station location" or "station name" is a required data
element in the STORET station header. No data selection may be
made based on the information appearing in the station name,
nor does the station name appear in every output report. However,
it is one of the few opportunities for users to enter a brief
textual description of a station.
4-11
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Station names may be up to 48 characters in length. Users
may have to abbreviate some words in the station name in order
to enter all the needed information within the 48-character
length limit.
The RCRA program has developed a specific convention they
would like used by users naming RCRA monitoring stations. This
format can serve as a model for other programs.
The STORET station name for RCRA stations should have the
following items of information;
0 Facility name
0 Type of waste management area
° An indication that the data is collected from the station
under RCRA
0 The position and internal number of the station.
The facility name used for the station name in STORET should
resemble the primary facility name in the FINDS data base as
closely as possible. Users may find out the exact name of the
facility as it has been entered in FINDS by calling the FINDS
group in the EPA Regional Office.
The next component of the station name should be the type
of waste management area being monitored. For example, the
type of waste management area might be a landfill or a surface
impoundment.
The third component of the station name should simply be
"RCRA"~I This is entered to distinguish the station as one located
in a controlled hazardous waste facility.
The last component of the station name should be an
identification of the position and number of the station amongst
the RCRA stations for this waste management area. This component
should have the same information as that in the last three digits
of the primary station code, but presented more explicitly, such
as "UPGR WELL#1" instead of "U01".
4-12
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Some examples of complete station names for RCRA stations
include:
-B
-C
Wz CHEMICAL CO LtRT hcR/il DNGR t/VELL=#=4
or
CY OF OAKDALE MUNIC LF RCRA UPGR WELL#2
-I I I I J L
— E
-D
-C
- B
-A
Key
A
Facility Name
B
Type of waste management area
C
Program under which data collected
D
Position of station (well)
E
Internal station (well) number
4.3.4 Station Location Identification
$ "
uu t 7!}ere.*re several data elements in the STORET station header
that identify the location of the station. These include:
The latitude/longitude coordinates of the station (plus
a precision code)
The hydrologic location of the station, expressed as
major/ minor/sub—basin codes and names
° The state and county in which the station is located
The USGS hydrologic unit in which the station is located.
An explanation of how to enter these locational data elements
Cor ground water monitoring stations is aiven in the followina
sections. y
4-13
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4.3.4.1 Latitude/Longitude and Precision Codes
Latitude/longitude coordinates are required data elements for
all STORET stations (they are two separate station header data
elements). The latitude in STORET is formatted as "DDMMSS.S"
and the longitude as "DDDMMSS.S", where D equals degrees, M equals
minutes, and S equals seconds. Note that expression of degrees
greater than one hundred is acceptable for longitude.
It is important to ensure that the latitude/longitude is for
the station at a specific facility and not for the corporate
office of the company. In the past there has been some errors in
the entering of this very important code.
Both latitude and longitude may be entered to the tenths of
seconds. This corresponds to approximately 10 feet. In order
to distinguish each monitoring station in STORET as clearly as
possible, the latitude/longitude coordinates of all ground-water
monitoring stations in STORET should be precise to the tenths
of seconds. The precision code, which must be entered with the
latitude/longitude coordinates reflect the user's knowledge of how
precise the coordinates are. An explanation of how to enter
latitude/longitude coordinates and the accompanying precision
code may be found in Chapter WQ-DE of the STORET User's Handbook
(February 1982).
4.3.4.2 Major/Minor/Sub-Basin Codes and Names
Ground-water Users must also identify the hydrologic basin
in which the station is located. Users should identify the
major, minor, and sub-basins in which the facility or study
area at which the station is located. These are defined in
Appendix C of the STORET Users' Handbook, (February 1982).
Identification of the aquifer which is being monitored is done
in the parametric data field. This is described in Section 4.6.
4.3.4.3 FIPS State/County Codes
To identify the geopolitical location of the station, users
must use the Federal Information Processing System (FIPS) code
for state and county. FIPS codes are five-digit codes, the
first two representing the state and the last three representing
the county. Users should enter the FIPS codes and state/county
names as they are shown in Appendix C of the STORET User's Hand-
book (February 1982). For example, the total FIPS code for a
site in Kalamazoo County, Michigan would be:
4-14
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^=°A
26077
Key
A State code for the State of Michigan is 26
B County Code for Kalamazoo in Michigan is 077
4.3.5 Station Type Codes
Station type codes are those station header data elements
that describe the type and purpose of the monitoring station.
STORET currently has several categories of station type codes.
In STORET terminology each category is called a level. Different
levels are required depending on the type of data you are entering
(Ground-Water, Surface Water POTW, sediment, or biological)
Existing and planned station type codes of particular
importance to Ground-Water/STORET users are highlighted in
Exhibit 4-1. Many of the station type codes that are recommended
for the station headers of ground-water monitoring wells are not
of the "required" type for STORET. However, in order to completely
distinguish ground-water monitoring stations from others in
STORET, they should be used.
Users are required to specify one level and one level two
code for each station entered into STORET. The station codes in
levels three through five are optional and may be used in any
combination to further describe the sampling site. For example,
with ground-water data level 4 codes are not pertinent. However,
using two level 5 codes may make station identification easier.
Users must string together station type codes relevant to
their station. For example, a station monitoring a hazardous
waste landfill located in an industrial facility might have a
station type code of:
4-15
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D
D
i——i r~i i——r '— 1
WELL/AMBNT/IND/LNDFL/HAZARD
Key
A Level 1 Code
B Level 2 Code
C Level 3 Code
D Level 5 Code
The complete list of valid STORET station type codes may be
retrieved in the on-line data set called "STORET.HELP.STATION.TYPE".
4.3.6 Station Depth
The station depth field in the STORET station header is
used, for surface water stations, to store the total depth (i.e.,
from surface to bottom) of the point where the sample was taken.
Ground-Water/STORET users may store the aquifer thickness, at
the point where the well is located, in the station depth field.
4.3.7 Hydroloqic Unit Code
The hydrologic unit code of the STORET station header is an
eiqht-digit code representing the USGS hydrologic unit in which
the station is located. The components of the codes represent
hydrologic region, sub-region, accounting unit, and cataloging
unit. This coding scheme represents different basin designations
than the major/minor/sub-basin fields and is required by STORET.
Exhibit 4-2 depicts the scheme of USGS hydroloqic unit desiqnations.
Clearer, larger-scale maps titled Accounting Units of the National
Water Data Network of Hydroloqic Units may be obtained from the
Geological Survey.
4-16
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EXHIBIT 4-2
Reconmended STORET Station-Type Codes for Ground-Water Monitoring Stations
Level Requirement Code
1 Required, 1 only WELL
SPRING
2 Required, 1 only AMBWT
NONAMB
3 Optional, 1 only MUN
IND
CMBMI
AGRI
DOMEST
ARANDN
DISPOS
Definition
Station samples from a well.
Station samples from a spring. A natural flow
of ground water from the earth which feeds into
a stream or other body of water.
Indicates monitoring of ambient conditions in
the envirorBnent as opposed to within a facility
or in the effluent.
Indicates monitoring at or within a marwnade
facility or in the effluent.
Municipal water supply and/or sewage treatment.
Industrial facility.
Combined "MUN" and "IND."
Agricultural. Includes raw crops, feedlots,
grazing, and silviculture.
Domestic (residential) domicile or facility.
Includes water supplies and on-lot septic
systems for private dwellings.
The station from which samples are gathered is
abandoned.
Waste disposal facility.
-------�
EXHIBIT 4-2 (continued)
Recommended STORET Station-Type Codes for Ground-Water Monitoring Stations
Level Requirement Code
4 None recommended for
ground-water monitoring
stations (wells)
5 Optional, as many as HAZARD
are appropriate should
be entered
LNDFL
IMPEMT
LNDTRT
UPGR
DOWNGR
RCRA
CERCLA
INJECT
SUPPLY
HRZTL
TUNNEL
GALERY
Definition
Site of hazardous or toxic wastes.
Landfill.
Impoundment. Includes waste pits, treatment
lagoons, settling ponds, and evaporation ponds.
Land treatment area.
Upgradient of a well or spring.
Dcwngradient of well or spring.
RCRA monitoring site.
"Superfund" monitorinq site.
Site where liquid waste has been injected
under ground as a means of disposal.
Water supply storage or treatment facility.
Horizontal well.
An underground corridor.
An artificial underground structure implanted
to collect ground water.
-------�
Exhibit 4-3
USGS Map-Accounting Units of the National Water Data Network
UNITED 8TATES DEPARTMENT OF THE INTERIOR
GEOLOGICAL SURVEY
ACCOUNTING UNITS OF THE
NATIONAL WATER DATA NETWORK
1»79
jjaf 10130?'
LLINOI
071300,
k e HVt-
051100,
130201
IBOKX4®
030701
130700
120702
120701
4-19
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4.3.8 Unlocking Key and Dates
Many users are concerned about data security. The STORET
System contains an element called an "unlocking key" which
helps prevent data from either being changed or retrieved by
unauthorized persons. The unlocking key is required to store
or change any data for an agency and is selected when the aqency
code is established. No one but a user with the unlocking key
may ever store or change any data in STORET. Retrievals can not
be made of data that has been flagged as locked by the owner
without the unlocking key.
The unlocking key is used in conjuction with a "lock-after"
date if users wish no one to look at the data who isn't authorized.
The lock-after date is expressed as "YY/MM" (year/month). If a
user wants no one to look at the data who is not authorized, a
lock-after date of 50/01 (or some other date in the past) should
be entered with their unlocking key. This means that data sampled
after January 1950, will not be retrieved without including the
unlocking key in the retrieval request. If the user wants no
one to be able to change the data, but does not mind if others
access the data in retrievals, a lock—after date of 99/99
should be entered. As this is an invalid date, 99/99 is used
to signal that the data is unlocked for retrieval.
4.4 Descriptive Paragraph
The descriptive paragraph for a STORET station is that field
in which a user may store any information in any format about the
station (well) they wish. The descriptive paragraph may be up to
1080 characters and composed of 15 lines that are each no more
than 72 characters in length. Its use is optional. No automated
data selection may be made based on the information in it. There-
fore, only data on which no retrievals are likely to be based
should be stored in the descriptive paragraph.
The following paragraph contains the information that the
RCRA program has indicated RCRA STORET users might want to include
in a descriptive paragraph and serves as an example of the type
of information other programs might want included in their users
descriptive paragraphs. Any or all of the followinq pieces of
information may be included:
4-20
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Total number of upgradient and downgradient monitoring
stations at the facility, and relation of this station
to the others, for example:
UPGRADIENT WELL =#=3 OF 20 UPGRADIENT AND
60 DOWNGRADIENT RCRA MONITORING WELLS
0 Type of business conducted at the facility
0 Permit and/or enforcement status of the facility
0 History of the facility, including any recent spills
or other permit violations
0 RCRA-regulating agency (e.g., EPA or State)
° Other permits given to the facility, including
Federal and other
° Land use of the surrounding area
0 Potential tarqets or nearby sensitive ecosystems
0 Proximity and position relative to drinking water sources
0 Contacts from whom further information about the facility
may be obtained
0 Other non-RCRA monitoring points which may be located
at or near the facility.
Complete instuctions on how to create a descriptive paragraph
for STORET stations may be found in Chapter WQ-DE of the STORET
User's Handbook (February 1982).
4.5 Parametric Data Field
4.5.1 Formatting Information
It should be noted that the storage format to be used for
information stored in the parametric data field is not the same
as for the station and descriptive paragraph fields, which was
?01. Although there are several formats which can be used with
the parametric data field, only the 700 format is recommended
4-21
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for users inputting ground-water data even though users may have
used ?01, ?02, ?03 and ?04 to input surface water quality para-
metric data. The reasons for this are explained below.
Data stored in the Water Quality File of STORET may be
obtained from various types of sampling methodologies. The various
types of samples from which data is collected are: grab samples;
unqualified composite samples; qualified composite samples;
multiple samples with a'system multipurpose key (SMK); and
samples with a user multipurpose key (UMK). For definitions of
these various sample types, see Chapter WQ-DE in the STORET User
Handbook (February 1982). Only the ?00 and ?04 storage formats
enable to user to input information from all of the sample types.
This is particularly important for ground-water users because
only the 700 format will enable you to easily store information
on replicate samples used in many qround-water programs.
Additionally the 700 format has the flexibility to store the data
utilizing either the parameter code followed by a value approach
or a matrix approach which requires fewer keystrokes. It is
recommended that the ?00 procedure be used to store all the
parametric ground-water data. Complete documentation of the ?00
format, is contained in "STORET.HELP.SEMINAR.DOC.STORAGE"
The STORET command procedure %EASYSTOR allows users to
interactively create storage transactions for the entry of either
station location information or parametric data into the data
base. For station location data storage, this procedure is
particularly useful and efficient when a relatively few stations
(say, up to a dozen or so) are to be entered into the system.
The procedure prompts for each item of station location data, and
consequently, users need not be concerned about column placement
and other station storage card format requirements. For parametric
data storage, data may be entered using any of the five (700/01/02/
03 or 04) storate procedures. Again, this procedure is most
efficient (in terms of user time and computer costs) when there
is a relatively small amount of parametric data to be added to
the system.
4.5.2. Inputting Data
There are a number of types of ground-water monitoring
information that should be stored in STORET's parametric data
field. These include:
0 Station Descriptors:
Physical setting descriptors
Well descriptors
4-22
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° Sample Descriptors:
Sample purpose descriptors
Sample conditions descriptors
- Sampling and analytical methods
0 Analytical findings Cor sampled parameters
° Special data-point qualifiers (remarks).
4.5.3 Station Descriptors
Station descriptors were defined and listed in Section 4.11
and Appendix C of this manual. These are data that describe the
facility, geohydrology, and wells from which samples are taken,
and are not expected to change over time. As they are not
expected to change, it is best that Ground-Water/STORET users
store them in the parametric data field with a date specially
used for unchanging data. In other words, all unchanging data
stored in the parametric data field should be stored as if they
were collected on "66/06/06". Dynamic data that will change
from sampling event to sampling event will be stored with the
date the sample was collected.
Station descriptors include facility descriptors, physical
setting descriptors, and well descriptors which were discussed
in section 4.1.1 of this Chapter. All facility descriptors,
except well ownership, should be stored in the Station Header
or descriptive paragraph field. Most physical setting descrip-
tors and well descriptors will be stored in the parametric data
field under the "fixed" date ("66/06/06)". Refer to Appendix A
to see which physical setting descriptors and well descriptors
must be stored in the Station (well) Header, Descriptive Paragraph
and Parametric Variable Date Fields. Unchanging date, data
stored in the parametric data field might look like:
4-23
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This example is from a section of a STORET "ALLPARM"
retrieval output.
C
D
INITIAL DATE
INITIAL DATE
MEDIA
DEPTH-FT (SMK)
66/06/06
0800
1/3
85/03/31
GRWTR GRWTR
18
12.7
GRWTR
00010 WATER TEMP
A 84117 SURFACE SEAL
B 84122 SAMPLE PURPOSE
CENT
CODE BNTNT
CODE \——I
CNTMN,
F
E
Key
A Parametric station descriptor
B Parametric sample descriptor
C Fixed date
D Variable date
E Codes representing Bentenite for the well surface seal
F Code indicating that the well was sampled to determine ground-water contamination
4-24
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Many of the station descriptors that will be stored in
the parametric data field will be stored under parameter codes
whose values are coded (e.g., drilling method and drilling fluid
from the example). This means that the values given to each data
element will be a code that represents something. To identify what
the code represents, the user must look up its definition in a
table. The site descriptor parameter codes for ground-water data,
their coded values and their definitions may be found in Appendix
B of this report. For certain physical setting descriptors,
namely "Geologic age or formation name" and "Aguifer name", the
coded values are presented in Appendix H.
4.5.4 Sample Descriptors
Sample descriptors were defined in Section 4.1.2 of this
manual. These are data that describe the sample purpose, sampling
conditions, and sampling/ analytical methodology, and are expected
to change over time.
Sample purpose descriptors, sampling conditions descriptors,
and some sampling/analytical methods descriptors should be
stored much the same way as any other "usual" parametric data in
STORET, i.e., they should be stored with the analytical findings
for each sampling event (special procedures for many of the
sampling and analytical methods data are described below). Many
of these data elements have coded data values. The parameter
codes, value codes, and definitions for sample purpose, sampling
conditions descriptors, and testing/analytical methods can be
found in Appendix F.
4.5.4.1 Expanded Sample Key
Ground-water sampling and analytical methods for each sampling
event will, for the most part, be stored in special STORET key
fields which are part of the parametric data field. These fields,
known as "media, SMK, UMK", have special ground-water applications
which will be explained in the following paragraphs. Additionally
they can only be used with the ?00 format.
The ?00 storage format was developed to allow the storage
of samples taken from media other than water and to enable storage
of additional sample information that is not possible with the other
STORET formats. Every sample stored in STORET must be uniquely
identified by date, time, and depth. The ?00 format allows you
to further identify the sample via an expanded sample key which
in addition to date and time also specifies the media, the system
multi-purpose key (SMK), and the user multipurpose key (UMK).
For samples other than water or water qualified samples (bottom,
core etc.), the expanded sample key must be used.
4-25
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4.5.4.1.1 Media Key
The media key identifies the medium in which sampling was
done (e.g. water, sediment, etc). For ground water there are
currently two media keys: "GRWTR" and "RCRAGW." "GRWTR" is
to be used by all programs except RCRA. The RCRA Proqram has
designated its own media key "RCRAGW" which is to be used for
inputting RCRA ground-water monitoring data. Any program that
wishes its own media key can develop its own code. This option
is currently being investigated at the Agency.
4.5.4.1.2 System Multipurpose Key (SMK)
When doing ground-water monitoring it is common to extract
more than one sample per monitoring station. There are
several ways to obtain multiple samples and for quality assurance
purposes it will be beneficial for STORET/Ground Water users to
be able to distinguish the manner in which multiple samples were
obtained. The system multipurpose key enables users to make this
distinction. A brief review of sampling is included here which
will help explain the coding used with the system multipurpose
key.
There are three common methods for obtaining mutiple samples
from ground-water monitoring stations.
° Several samples may be taken from the same sample point
and placed into seperate sample bottles. For the purpose
of this manual each individual sample of the total set
will carry its own unique number.
0 One sample may be taken from the sample point; immediately
divided in the field and placed into different sample
bottles. Each portion of the original sample now residing
in separate sample bottles will be called a "field
replicate" in this manual.
° One sample may be taken from a well and not divided into
seperate sample bottles until it arrives at the laboratory.
Each portion of the original sample now residing in sample
bottles will be called a "laboratory replicate" in this
manual.
4-26
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It should be understood that when multiple samples are
indicated on a data sheet it may mean that any one of the above
methods was used to obtain the multiple sample or that a combination
of the above methods was used to obtain the multiple sample.
The SMK code will enable a STORET/Ground-Water User to determine
whether the ground-water data is a multiple sample, what method(s)
was used to obtain the multiple sample, how many multiple samples
were taken, and which one of the multiple samples the data you
are examining came from.
This information is obtained via the 6 digit SMK code. Each
of the first 4 digit positions of the code signifying a specific
piece of information. At this time the last 2 digits of the code
will appear as zeros because no specific pieces of sampling
information have yet been defined for these positions. One SMK
will be entered for each sampling event (each set of multiple
samples will be considered a sampling event).
The information conveyed in the first 4 digit positions of
the SMK is summarized in the table on the following page.
4-27
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Digit
Position
Component Definition
1 Identifies whether the sample is an individual
sample or one of a multiple sample set. For
example, the sample in question could be: one
of a set of samples taken from a station (well)
and not further divided, one of a set of
multiple samples divided in the field, one of
a set of multiple samples divided in the labora-
tory, or a combination of the above The actual
number placed in the first diqit position will
be a valve ranginq from 0-7. The meaning
attached to the first digit position number
can be determined from the table on paqe 4-29.
2 Identifies which sample in the set of multiple
samples the data you are retrieving comes
from. For example, if a sampling event from a
single sample point has resulted in 4 undivided
samples the data values reported for the first
sample would have a SMK code with "1" in the
second digit position, the data values reported
for the second sample would have a SMK with
"2" in the second digit position etc.
3 Identifies which one of the field replicates the
data you are retrieving comes from. For example,
if one sample was collected at the sample point
and divided into several sample bottles for
analysis in the field, the data values reported
for the first "field replicate" would have a "1"
in the third digit position of the SMK code, the
second field replicate would have "2" in the
third digit position of the SMK code etc.
4 Identifies which one of the lab replicates the
data you are retrieving comes from. For example
if one sample was collected at the sample point
and divided into several sample bottles for
analysis in the lab the data values reported
for the first "lab replicate" would have a "1"
in the fourth digit position of the SMK code,
the second "lab replicate" would have a "2"
in the fourth digit position of the SMK etc.
4-28
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The following table will enable the user to determine the
significance of the value appearing in the first digit position
of the SMK.
Sample Media Key "SMK" Notation for Ground-Water/STORET User
Mult iple
First digit code Sample Field Replicate Lab Replicate
For example, should the first value of a SMK code be 3, the
user knows that several separate samples were taken at the sample
point. None of these were further divided in either the field
or the lab. If the first value of the SMK code were a 5, the
user would know that several samples were taken at the station
and further that one or all of the samples were subsequently
divided in the field so that the data you have retrieved is from
a field replicate. Finally, should the first value of the SMK
be a 1, the user would know that only one sample was obtained
from the sample point but this was divided into several portions
in the lab and he/she is retrieving data from one of the lab
replicates.
The example of a SMK code illustrated below indicates that
the data you are observing is one sample from a set of samples,
that this particular sample was the first in the lot. The sample
was divided in the field, and that this is the first of the field
replicates. There was no division in the lab.
0
1
2
3
4
5
6
7
No
No
No
Yes
No
Yes
Yes
Yes
No
No
Yes
No
Yes
Yes
No
Yes
No
Yes
No
No
Yes
No
Yes
Yes
A
B
C
D
E
511000
Key
A 5 indicates that this one set of multiple samples
which was subsequently divided into field replicates
B 1 indicates that this is the first replicate of the set
of samples for this particular station
C 1 indicates that this is the first field replicate
D 0 indicates that the original samples were not
divided in the lab.
E These fields are currently undefined
4-29
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4.5.4.1.3 Users Multipurpose Key (UMK)
The UMK is an 8 diqit number which will be used to describe
the method in which a ground-water sample was collected and analyzed.
There will be one "UMK" per sampling event (each multiple sample may
be considered a sampling event). There are 4 components of a
UMK code which are defined below.
Digit
1-2
3-5
Component Definition
7-8
Coded value for sampler type (see Appendix F)
Identifies up to three different materials making up
the sampling equipment, 1-digit each (see Appendix F)
Flag for indicating whether the reported values were
determined in the lab or the field (see Appendix F)
Coded value to identify analytical method used to
determined reported values (see Appendix F)
The meaning of the Code appearing in each digit position is
defined in Appendix F.
A sample UMK is illustrated below:
01001501
Key
A Sampler type; 01 = Bottom Valve Bailer
B Sampling equipment material; 001 = stainless steel
Lab or field determination flag; 5 = contract, field
C
D
Analytical method used to determine reported
values; 01 = Gas chromatography/mass
spectrometry (GC/MS)
4-30
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An output of data stored in the parametric data field
using "media, SMK, UMK" will look like:
C-
B-
A"
DATE
TIME MEDIUM
SMK OR
DEPTH
84063
DRILL
81552
ACETONE
(UG/L)
00400
pH —
SU
F
G
~P—i
66/06/06
-UMK FOR
73/09/11
UMK FOR
73/09/11
UMK FOR
75/10/21
UMK FOR
76/06/30
UMK FOR
0000 RCRAGW 0000
ABOVE SAMPLE 00000000
0915 RCRAGW 2110
ABOVE SAMPLE 04001100
0916 RCRAGW 2220
ABOVE SAMPLE 04001100
1100 RCRAGW 0000
ABOVE SAMPLE 07003303
0810 RCRAGW 0020
ABOVE SAMPLE 07003100
AIRRT
100
100
102.6
101.2
6.0
6.0
6.5
6.6
• H
Key
A
Date Sample
B
Time Sampled
C
Media Code
D
UMK Code
E
SMK Code or Depth
F
Parameter Code
G
Parameter Abbreviation
H
Parameter Value
Further documentation and training to store data in STORET's
"media, SMK, UMK" fields can be obtained from STORET User
Assistance. (800-424-9067) codes for UMK fields can be found in
Appendix E.
4-31
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4.5.5 Analytical Findings
STORET "parameter codes", the computer codes used to store
data, usually represent a combination of three items:
° Substance
0 Medium
0 Units
For example, parameter code 01000 represents "arsenic, dissolved
fraction of water, ug/1", while a different parameter code, 01002,
represents "arsenic, total water, ug/1" because the medium differs.
Most ground-water users will be interested in storing their
analytical findinqs under those parameter codes that represent
a substance in "whole" or "total" water. Other codes are avail-
able should the user find them necessary.
A list of STORET parameter codes may be obtained in any one
of the following sequences by using the STORET command %BATCH:
0 PARMALFA — identifies parameter codes in alphabetical
order of parameter name
0 PARNUMER — identifies parameters in numerical order
of parameter code
0 PARCAS — identifies parameters and parameter codes
in order of CAS number
STORET parameter descriptive information and codes may be
obtained interactively on the system through the use of the Water
Quality Analysis Branch Conversational procedure WQAB PARM and
the STORET command %PARABB. The WQAB PARM is quite useful for
ground-water data managers and an example is given in Appendix H.
If a parameter code for a particular substance does not exist,
users may have it created by contacting the STORET Client Services
Branch.
Additionally, the parameter codes of inter.est to RCRA data
managers for storing data collected at interim status facilities
from fully permitted facilities may be found in Appendices F and
0 respectively.
4.6 Qualifying "Remarks"
Ground-water data managers may find it necessary to explain
something about a particular data point in addition to its
numerical value. For example, a data point may be one that is
being reported below the detection limit (e.g., "actual value is
less than 150 ug/1") or substances may be tested for but not
detected.
4-32
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The STORET System has the capability to store "remarks" with
each data value. These remarks flag the data value with such
qualifications as "less than", "greater than" and "undetected".
Appendix C of this report presents the remark codes that are
currently valid in STORET. An example of a parametric data field
with data that are remarked could be:
00400
01045
A
pH
Fe Tot —
B
(SU)
(UG/L)
6.0
6.0
6.5
120
— C
6.6
50k]—
—D
6.6
O.Ou]
—D
Key
A
Parameter Code
B
Parameter name
C
(Parametric) data value
D
Remark code data value (K = Actual value is known
to be less than the value shown, U = material
specifically analyzed for but not detected)
Upon data retrieval, users may select any of the following
0 All data, regardless of the remark code
0 Only data without remarks
° Only data with a specific remark code.
4-33
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Remark codes may be entered with each data point. They need not
always be used. Complete instructions on how to store data with
remark codes may be found in Chapter WQ-DE of the STORET Users'
Handbook. (February 1982).
It should be noted that some data (Superfund especially)
may have remark codes identical to STORET's but with different
definitions. These are usually indicated on the lab data forms.
For example, remark code "B" in STORET refers to bacterial counts
out of range, while Superfund uses "B" to indicate a compound
found in a travel or lab blank sample. Another example is that
Region IX's office policy is to subsitute "U" for "B" if data
value is below the detection level. If the value is above dection
level, no data is entered at all. These inconsistancies are
mentioned to ensure that users "pre-edit" suspect data so that
they maintain consistency with STORET remark codes.
4.7 Quality Assurance/Quality Control
Information on QA/QC for ground-water monitoring such as
well construction, sampling methods and laboratory analysis
techniques is extremely important because of the numerous factors
which may affect the accuracy of the parameter values inputted
into STORET. For example, knowledge of the well construction may
help the user determine the reliability of the data, and knowing the
sampling method used might help the users determine the possibility
of sample aeration and a subsequent volitization of organics.
Accessibility to this type of information will asist users to
determine the usefulness of STORET data for their particular needs.
A parameter QA/QC code named Data Quality (84129) has been
added to STORET. As with all parameter codes in STORET, 4 characters
of coded values are available for use with the Data Quality
parameter code. The presence of this code will enable users to
store fairly detailed QA/QC information for each sample.
Quality Assurance/Control is a complex element of a data
management system and involves many activities in well location,
construction, sampling and laboratory analysis. A decision on
.how all or some of these activities should be included in the data
base has not been made at this time. However, because of the
importance of this issue, a preliminary approach has been added to
STORET by the Office of Solid Waste. The approach will provide a
mechanism for starting to address this topic. This approach is
expected to be refined by EPA over the next year.
The 4 digit code contains the following for the specified
diait positions.
4-34
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0 The first (left) character will contain one digit code
for the evaluation of well construction. The values in
the first digit position will range from 0-2 or be blank.
The meaning of each of the possible values is summarized
below:
2 — Well has been EPA/State inspected in the last 5 years
and determined to be of high quality
1 — well has been properly drilled, constructed of inert
materials, properly developed, properly located, and
has controls to prevent tampering. Well constructed in
accordance to guidance produced by EPA/State.
0 — Well is known to be inadequate in some manner
blank — Well information unknown or not stored.
° The second character will contain a 1 digit code for the
evaluation of sampling OA/OC. The values of diqits in the
second position can range from 0-3 or be blank. The meaning
for each value is given below:
0 3 — EPA/State has performed a QA/OC evaluation within
the last two years with a positive result
° 2 — A detailed QA/QC plan with standard procedures and
internal cnecks exists; the objectives "of the plan
have been verified as being met for at least one
year (e.g., RCRA guidance for waste analysis,
September 1984)
0 1 — A detailed OA/OC plan with standard procedures and
internal checks exists (e.g., RCRA guidance for waste
analysis, September 1984)
° 0 — No detailed OA/QC plan exists
0 blank — Information unknown or not stored.
0 The third position character will contain a 1 digit code
for the evaluation of laboratory QA/QC and will have values
ranging from 0-3 or be blank. The meaning for these values
is identical to position two, described above.
4-35
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° The fourth position character will contain a 1 digit code
for the evaluation of overall QA/OC during the entire
sequence of the sampling event. This fourth position
character can have values ranging from 0-3 or be blank.
The meaning of the values selected for this position is
identical to position two above.
4-36
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5.0 DATA RETRIEVAL
-------�
5.0 DATA RETRIEVAL AND ANALYSIS
The STORET System offers users a wide variety of data analyses
(also called "retrievals"). To perform an analysis of data, users
must create or choose a "retrieval program" that will meet their
analytical needs. Chapter WQ-RET of the STORET Users' Handbook
(February 1982) presents users with the instructions necessary to
succesfully run STORET retrieval programs. The STORET Manager's
Guide (February 1982) presents applications of STORET analyses
and data that would be of interest to water quality managers.
Chapter 5.0 of this report is meant to introduce Ground-
Water/STORET users to STORET's analytical capabilities. It is
not an instructional chapter on how to operate STORET retrieval
programs. Rather, it presents some of the retrieval programs
STORET offers its users, and discusses how Ground-Water/STORET
users may find them helpful. It should be noted that there are
many more commands that can be used with the sample programs
than appear in this manual. A complete explanation of these
commands and how they can be used is contained in the STORET
seminar documentation which can be obtained from EPA's Client
Services Branch (800-424-9067).
5.1 Purpose Of Retrievals
The retrieval you choose will depend on the type of infor-
mation you need. Some programs are appropriate for those who
are interested in graphic displays, others will simply list
parameters and station locations, while some programs enable
statistical analysis. As an example, the user may wish to do an
analysis of wells that have concentrations of NO3 > 15 mg/1 and
are less than 25 feet in depth, or the user may wish to compare
shallow wells, say, 0-25 feet to wells 25-250 feet for nitrates.
The STORET program LOC can be used for mapping the two conditions
and the STORET-program mean with aggregate, and/or the STORET
program MSP can be used for statistical analysis.
The following list summarizes programs that will be of
interest to ground-water data managers. These are grouped by
primary function with the manner in which the output is printed
in parenthesis following the program description.
Inventory of Parameters Sampled
INVENT — lists summary information on parameters sampled
(132 character line) (Tabular analyses)
Listings of Actual Sample Values
RET — tabular listings of selected parameters (non analytical
data listing)
ALLPARM — lists sample values for all parameters (non analytical
data listing)
5-1
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Statistical Analysis of Parameter Data
STAND — compares actual data values against standards
(non analytical data listing and some tabular
analyses)
MEAN — performs statistics on selected parameters (tabular
analyses)
REG — performs linear regression analyses on parametric
data (graphic display)
MSP — plots selected statistics of parameter values as
functions of stations (map and graphic displays)
PLOT — plots data values as a function of time (graphic
display)
BROWSE — interactively retrieves station data with optional
graphic output
Station Information Only
STA — lists station codes for selected agencies (non analy-
tical data listing)
INDEX — lists station header information (non analytical
data listing)
LOC — plots a map showing station locations (map display)
Programs can also be described by the manner in which the
output is formatted. The following 4 sections will give more
details on retrieval programs and are organized by output formats.
Categories of programs discussed are: Non-Analytical Data Listings,
Tabular Analyses, Graphic Displays of Trends, and Map Displays of
Data. An example of a retrieval request and a sample output for
each type of program will be presented.
At this point in time the majority of ground-water retrieval
examples available to the Office of Ground-Water Protection are
from RCRA monitoring wells. Consequently the examples given in
this version of the manual are from wells at RCRA facilities.
It should be stressed that most STORET ground-water data are not
from RCRA monitoring wells but rather come from USGS ambient
monitoring programs or State drinking water supply wells. As
additional data is available the examples in the manual will be
5-2
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changed to reflect other ground water applications. Most of the
examples use the South Fremont Chemical Company, it should be
noted that although the data in the examples are from actual
RCRA sites, the South Fremont Chemical Company is a fictitious
name used for example purposes only.
5.2 Non-Analytical Data Listings
STORET offers ground-water users a number of retrieval pro-
grams for displaying data in several formats. Specific retrieval
programs are discussed below.
5.2.1 STA
STA produces a lists of all primary and secondary station
codes associated with a specified Agency code.
For instance a user might wish to obtain a listing of all
the RCRA ground-water stations maintained by USEPA's Region 9
office. You might develop a retrieval reguest which looks like:
A PGM=STA,A=21CARG,
Key
A Program to be run
B Agency Code
The retrieval printout for this STA request appears on the next
page.
5-3
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Exhibit 5-1
Example of The STORET Retrieval Program STA Which Lists Station Codes Associated
With a Specific Agency Code *
21 CARG STA
OOP XXTO80011653DM1 OOP XXT080011653DM2 OOP XXT080011653DM3
OOP XXTO80011653UM5 OOP XXT080011653UM8 00S WMA1-M1
OOS WMA1-M5 00S WMA2-M6 00S WMA2-M7
NUMBER OF PRIMARY STATIONS FOR THIS AGENCY: 8
STORET RETRIEVAL DATE 85/11/05
OOP XXT080011653DM6 OOP XXT080011653DM7 OOP XXTO80011653UM4
002 WMA1-M2 OOS WMA1-M3 OOS WMA1-M4
OOS WMA2-M8
NUMBER OF SECONDARY STATIONS FOR THIS AGENCY: 8
Station codes preceded by "OOP" are primary codes,
those preceded by "OOS" are secondary codes.
-------�
5.2.2 INDEX
INDEX prints the station headers for each site retrieved
enabling users to easily examine stations of interest.
For example, a user may want to review the station headers
for all the RCRA monitoring wells in Monterey County, California.
The "INDEX" program may be chosen to obtain the needed information.
The retrieval request could look like:
B
C
r—11 —i
A PGM=INDEX,STC=06,CO=053,
D EXTRACT=RCRA AND WELL,
Key
A Program to be run
B State Code Selector; 06 is the FI PS Code
for California
C County Code Selector; 053 is the FI PS
Code for Monterey County California
D Station Restictor; in this case retrieve
only stations that are RCRA monitoring
wells
The printout for this example appears on the next page.
5-5
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Exhibit 5-2
Example of The STORET Retrieval Program Index Which Lists Station Headers
STORET RETRIEVAL DATE 85/11/05
PGM=INDEX - VERSION OF SEP. 25, 1985
PAGE
AGENCY
PRIME ST* Nil
ST-CO COUNTY STATE
SEC^NOARY STATION NUMBERS
ST0OE0 DATE
L#T/L<™G/PREC
STATIOit TY°F CODE
RIVER MILF ( IF )
INDEX ( PRESENT )
3SSSSS = = >SSS3SI
0605? monTEREY
11TOSOO]I« 5 30«1 WMA1-M1
36 4B 14.~ 121 46 47.5 2 STOREO B50622
/TYPA/IND/AMBNT/HELL/HAZARD/RCRA
LOCATION NAME
MIMO" PA3IN
MAJOR BASIN
BASIN COOE
DEPTH
11 CA <>r.
s s s a s s
CALIFORNIA
HYOR.UNIT CODE
"TIPS "N PEACH
9Asse«sss = = ***«a*B09aeassBa9K
XXX MOSS LANDING RCRA HELL Ml DOWN
CENTRAL COASTAL 140400
CALIFORNIA DEPTH 52
11CARG 06053 MONTEREY CALIFORNIA
11T0800l165inM2 f«AI-M7
36 40 15.0 12! 46 48.0 2 STORED 850622
/TYPA/IND/AMBNT/WELL'HAZARD/RCRa
XXX MOSS LANDING RCRA HELL M2 DOWN
CENTRAL COASTAL 140400
CALIFORNIA DEPTH 59
11CARG 06053 MONTEREY CALIFORNIA
11T080011653DM3 WMA1-M3
36 *8 19.4 121 46 48.0 2 STORED 850622
/TYPA/IND/AMBHT/VELL/HAZARD/"cnA
XXX MOSS LANDING RCRA HELL M3 DOWN
CENTRAL COASTAL 140400
CALIFORNIA DEPTH 64
HCARG 06053 MONTEREY CALIFORNIA
11TOS0011653DH6 WMA2-M6
36 18.8 121 46 13.6 2 STOPEO 850622
/TYPA/IMD/AMBNT/WELL/HAZARD/rcra
XXXMOSS LANDING RCRA HELL M6 dohn
CENTRAL COASTAL 140400
CALIFORNIA DEPTH 90
11CARR 05053 MPNTEQEY CALIFORNIA
11T080011653PV.7 WMA2-K7
36 48 11.4 121 46 33.6 2 STORED 650622
/TYPA/IND/AMBNT/HELL/HAZARD/RCRA
XXXMOSS LANDING RCRA HELL M7 DOHN
CENTRAL COASTAL 140400
CALIFORNIA DEPTH 46
11CARG 06053 MONTEREY CALIFORNIA
11T080011653UM4 WMA1-"4
36 48 14.4 121 46 44.4 2 STORED 8S0622
/TYPA/INO/AMBNT/HELL/HAZARD/Rcra
XXXMOSS LANDING RCRA HELL M4 UP
CENTRAL COASTAL 140400
CALIFORNIA DEPTH 71
11CARG 06053 MONTEREY CALIFORNIA
11T080011653UK5 -MAl-nS
36 49 18.0 121 46 44.4 2 STORED 850622
/TYPA/IND/AMBNT/HELL/HAZARD/bcra
XXXMOSS LANDING RCRA HILL MS UP
rE"TOftL COASTAL 140400
CALIFORNIA DEPTH 76
11CARG 06053 MONTEREY CALIFORNIA
11T080P11653UM0 WM67-HJ
36 49 20.0 121 46 30.0 2 STOREO "»SO«22
/TYPA/IHO/AMBMT/WELL/HAZARO/RCRA
*XX MOSS LANDING RCRA HELL H8 UP
CENTRAL COASTAL 140400
CALIFORNIA DEPTH 56
-------�
5.2.3 RET
RET lists raw data in chronological order, for one to 50
parameters, per retrieval, at selected stations. The listings
include sampling dates, times, and depths of the parameters
specified in the retrieval reauest.
If you wanted to obtain all the raw data on water temperature,
TOC, conductivity and PH collected at the RCRA monitoring wells of
the South Fremont Chemical Company you could make this retrieval
request:
A—
—PGM=RET, A=11TOX09,—
—B
C—
— S=TXD002209138U01,
D—
— P=11,P=95,P=400,P=680,
Key
A
Program to be run
B
Agency Code
C
Station Code
D
Parameter Codes (11=water temperature.
95=conductivity, 400=pH and 680=TOC)
This printout is illustrated on the next page.
5-7
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Example of The STORET
Exhibit 5-3
Retrieval Program RET
STORET RETRIEVAL DATE 85/11/05 PGM=RET
TYPA/IND/AMBNT/WELL/HAZARD
SMK 00011
00095
00400
DATE
TI«F
OR WATER
CNDUCTVY
PH
FROM
OF
DEPTH TEMO
AT 25C
TO
DAY MEDIUM
f ft) fahn
MICROMHO
SU
83/08/25
1045 RCRAGW
310000 63.0
3100
6.58
UMK FOP
ABOVE SAMPLE-
--—> 10230620
83/08/25
1045 RCRAGW
320000 63.0
3100
6.63
UMK FOR
ABOVE SAMPI.F-
> 10230620
83/06/25
1045 RCR AGk
330000 63.0
3100
6.64
UMK FOP
APOVF SAMPLE-
----> 10230620
83/08/25
1045 RCRAGW
340000 63.0
3100
6.65
UMK FOR
ABOVE SAHPLE-
> 10230620
83/11/16
0900 RCRAGV
310000
2430
6.43
UMK FOP
HPnVE SAMPLE-
j 10230650
83/11/lfi
0900 RCRAGW
320000
2460
6.47
UMK FOR
HBOVE SAMPLE-
> 10230620
83/11/1-5
0900 RCRAGW
330000
2460
6.43
UMK FOR
ABOVE SAMPLE-
> 10230620
83/11/16
0900 RCRAGW
340000
2460
6.39
UMK FOR
ABOVE SAMPLE-
----> 10230620
84/02/15
RCRAGV
31 Of,on 65.0
2360
6.60
UMK FOP
ABnVF SAMPLE-
> 10230620
84/02/15
RCRAGb
320000 65.0
2360
6.55
UMK FOR
ABOVE SAMPLF-
----> 10230620
84/02/15
RCRAGW
330000 65.0
2360
6.54
UMK FOR
ABOVE SAMPLE-
> 10230620
84/02/15
PCRAGW
340000 65.0
2360
6.50
UMK FOP
ABOVE SAMPLF-
> 10230620
84/05/14
PCRAGW
310000 66.0
2400
6.50
UMK FOR
ABOVE SAMPLE-
> 10230620
84/05/14
RCRAGW
320000 66.0
2330
6.46
UMK FOR
ABOV? SAM»LF-
> 10230620
84/05/14
PCRAGW
330000 66.0
2320
6.SO
UMK FOR
A90VE SAHPLE-
> 10230620
84/05/14
RCRAGW
340000 66.0
2330
6.47
UMK FOP
ABOVF SAMPLE-
Jhich Lists Raw Data in Chronological Order
PAGEl i
TXD002209138U01 CA1234567
37 30 00.0 122 00 00.0 1
SOUTH FREMONT CHEMICAL CO RCRA UPGR WELL* 1
06001 CALIFORNIA ALAMEDA
CALIFORNIA 140300
SAN FRANCISCO BAY REGION
11TOX09 850525
0350 FEET 0EPTH
00680
T ORG C
C
MG/L
4.7
4.9
4.0
3.1
12.7
15.8
15.5
12.4
3.2
3.1
3.0
2.9
3.0
2.9
2.9
2.9
-------�
5.2.4 ALLPARM
ALLPARM enables the user to obtain, without specifying any
parameter codes, tabular listings of raw data values for all
parameters stored at selected stations. Parameter codes can be
specified if desired.
A tabular listing of raw data from monitoring wells at
the South Fremont Chemical Company would be requested with the
following:
A PGM=ALLPARM,A=11TOX09, B
C S=TXD002209138U01,
Key
A Program to be run
B Agency Code
C Station Code
The printout for the above sample appears on the next page.
5-9
-------�
Exhibit 5-4
Example of The STORET Retrieval Program ALLPARM Which Pro^d, s Tabular Listings of
Raw Data Values at Selected Stations
STORET RETRIEVAL DATE 85/11/05 PGM=ALL PARM PAGL: 1
TX0002209138U01 CA1234567
31 30 00.0 122 00 00.0 1
SOUTH FREMONT CHEKICAL CO RCRA UPGR WELL*1
06001 CALIFORNIA ALAKE0A
CALIFORNIA 140300
TYPA/IND/AMBNT/WELL/HAZARD S*N FRANCISCO BAY REGION
11TOX09 830525
0350 FEET 0EPTH
INITIAL DATE
INITIAL TI«F
MEDIUM
DEPTH-FT tShK )
FINAL DATE(U"K)
00010
WATFR
'F»R
ce
OOOl 1
WATtR
TFMP
FAHM
00076
TilRfl
TRBIDMTR
HACH FTU
00095
CNDUCTVY
AT 25C
MICPOM»D
00400
PH
iU
00620
N03-N
TOTAL
MG/l
006P0
T ORG C
c
f.G/L
00929
SODIUM
NA,TOT
MG/L
00940
CHLORIDE
TOTAL
"G/L
00945
SULFATE
Sn4-TOT
MG/L
00951
FLUOPIOE
F.TOTAL
MG/L
01002
ARSF^IC
AS.TOT
L" /!
01007
PARIUf
Bft.TOT
UG/L
01027
CADwiijm
CD.TOT
lir/L
01032
Chpohium
HEX-VfeL
UG/L
01034
CHROMIUM
CR.TOT
UG/L
01042
COPPER
Ci'.TOT
l!C/L
01045
IBHW
FF,TOT
UG/L
01051
LEAP
PB.TOT
UG/L
01055
KANG'IESE
MM
UG/L
01077
SILVER
AG,TOT
UG/L
01087
VANADIUM
V .TOT
UG/L
01147
SELENIUM
SF,TOT
UG/L
31501
TOT COLT
'1FIMENDO
32730
PHENOLS
T«TAL
i.f./L
39C45
2,4,5-TP
WTP SMPL
UG/L
>9390
ENDRIM
TOT UG/L
39400
TOXAPHEN
TOTUG/L
39460
MTHXYCLR
WHL SMPL
UO/L
39730
2,4-0
WHL SMPL
UG/L
3978?
LINDANE
WHL SVPL
UG/L
70353
TOX
IN WATER
IIG/L fL
71900
KEPORY
HG.TOTAL
UG/L
71993
ELEVAT 1 »'
GW/SL
FEET
72004
PPG/FLOfc
PRIOR TO
SMP-mjms
72008
TOT PPTH
IF WELL
FT
736*6
rasing. .
THICK'JES
INCH
73668
WIDTH OF
OOE'UNG.
(101 INCH
«?346
DFPTH fp
M WL TO
HP CI")
''LE
CDNTiMiign
Of NEXT f-AGF)
66/06/06
1 000
PCPAGW
0
noonoone
54.0
4.^0
.02
R3/0»/2b
83/06/75
83/08/25
83/OB/25
81/09/25
83/11/16
83/11/16
83/11/16
1"45
1045
1045
1045
1045
0900
0900
0900
PTPAGW
RCRAGW
RCRAGW
RCRAGW
RCPAGX
RCRAGW
RCRAGW
RCRAGW
0
310n"0
320000
33UOOO
340000
0
310000
320000
10230620
)02 3 062°
10230620
10^3^670
10230620
10230620
10230620
10230620
17.2S
17.2S
17.2$
17.25
63.0
63.0
63.0
63.0
• 3
3lon
3) 00
3100
3100
2430
2460
6.58
6.63
6.64
6.65
6,43
6.47
2.900
4.600
15.8
4.7
4.9
4.0
3.1
17.7
sbo.oo
704
250
.23
.001U
• 1U
.001U
. 005U
.003
.01
. 02U
.002
.01U
.0001U
• 2U
.002
1 fib
.01U
.100U
.100U
1.000U
.200U
.50011
.OSOU
.0001
a.70
10.0
40.00
4.70
10.0
40.00
4.70
10.0
40.00
4.70
10.0
40.00
440.00
.39
.1U
.001U
.001U
.04
.001U
• 01U
.001U
• 05U
2
. 005U
.0001U
4.60
40.00
.410
4.60
40.no
.290
4.40
40.00
-------�
5.3 Tabular Analyses
Several STORET retrieval programs give users a tabular
presentation of statistical analyses of data. These are
summarized below.
5.3.1 INVENT
Invent retrieves summary information on all the parameters
that have been sampled at the stations specified in the retrieval
reauest. Descriptive statistics for each parameter include: the
number of observations, the mean value, variance, standard devi-
ation, the maximum and minimum values, and the beginning and
ending dates for the data stored.
If you wanted a summary of all the parameters sampled for
RCRA at a specific monitoring station at the South Fremont
Chemical Company you would make the following retrieval
request:
A
B
PGM=ilWEN?,A=TOX09,
S=TXD002209138U01,
I I
C
Key
A Program to be run
B Agency code
C Station code
The printout for the request appears on the next page.
-------�
Exhibit 5-5
Example of The STORET Retrieval Progran INVENT Which Prints Out
Statistical Summary Sampled Parameters
STORET RETRIEVAL DATE 85/11/05
/TYPA/IND/AMBNT/WELL/HAZARD
PGM=INVENT
PAGE:
TXD002209138U01 CA1234567
37 30 00.0 122 00 00.0 1
SOUTH FREMONT CHEMICAL CO RCRA UPGR MELLf1
06001 CALIFORNIA ALAMEDA
CALIFORNIA 140300
SAN FRABCISC0 BAT REGION
11T0X09 650525
0350 FEET 0EPTH
PARAMFTER
MEDIUM
RMK
"UMPFP
MEAN
VARIANCE
STAN DFV
VAXINUM
MNIMUM
BEG DATE
END DATE
00011
NATER
TEMP
FAHf
RCRAGW
12
64.66700
1.699200
1.303KOO
66.0
63.0
83/08/25
84/05/14
00076
TllRR
TRPIDWTR
HATH Ft"
RCRAGW
2
.2300000
.0200000
.1414200
.3
.1
83/08/25
84/02/15
00095
CNPUCTVY
AT 25C
MTfOt'HHO
PCPAGW
16
2564.400
104130.0
322.1000
3100
2320
83/08/25
84/05/14
00400
PH
SU
RCRAGW
If.
6.521300
.0065267
•0807PRO
6.65
6.39
63/08/25
84/05/14
00530
RESICUF
TOT NFLT
l'.G/L
RCRAGW
1
1667.000
1687
1687
84/02/15
84/02/15
00620
N03-N
TOTAL
NG/L
RCPAGW
3
4.066700
1.023300
1.011600
4.700
2.900
63/08/25
84/02/1S
00680
T ORG C
C
MG/L
RCRAGW
t6
6.062500
24.00500
4.899500
15.e
2.9
83/08/25
84/05/14
00929
SOPTU"
NA.TnT
MC/I,
RCRAGW
3
513.3300
4933.500
70.23900
580.00
440.00
83/08/25
64/02/15
0094f>
CHLORIDE
TOTAL
MG/L
RCPAGW
2
553.5000
45301.00
212.8400
704
403
83/08/25
64/02/15
00945
SULFATE
504-TOT
«G/L
PCRAGV
?
250.5000
.5000000
.7071100
251
250
83/08/25
84/02/15
00951
FLUOPIPE
F,TOTAL
HG/L
PCRAGV
3
.2433300
.0197330
. 1 404«r>O
.39
.11
93/08/25
64/02/15
01U02
ARSENIC
AS,TOT
UG/L
RCRAGfc
U
1
.00)0000
.001
.001
83/08/25
63/06/25
01007
BARIUM
9A.TOT
UG/L
RCRAGW
U
3
.1666700
.0133330
.1154700
.3
.1
83/08/25
64/02/15
01027
CADHIU*
CD,TOT
UG/L
RCRAGW
U
3
.0073333
.0001203
.0109700
••02
.001
83/08/25
84/02/15
01032
CHROXTU"
FEX-VAL
UG/L
RCRAGW
I'
3
.G186670
.0007403
.0272090
.05
.001
83/08/25
64/02/15
01 03*
CHROWIU*
CR,TOT
VG/L
PCPAGW
;
.00 3 I COO
.003
.003
83/08/25
83/08/25
01042
COPPER
CU,TOT
UG/L
RCRAGW
1
.0100000
.01
.01
83/08/25
83/06/25
01045
IRON
FE,TOT
'JG/L
RCRAGW
1
.0400000
.04
.04
83/11/16
83/11/16
U
2
.0200000
.0000000
.0000000
.02
.02
63/08/25
64/02/15
TOT
3
.0266670
.0001333
.0115470
.04
.02
63/08/25
64/02/15
01051
LEAn
or.. TOT
U'VI
PCRAGW
1
,no?nr>oo
.002
.002
83/08/25
83/06/25
II
?
.0855000
.0142610
.1195000
. 1
.001
83/11/16
84/02/15
TOT
3
.0576670
.0094643
.0912650
.1
.001
63/08/25
84/02/15
01055
MANGHeSE
mi.
UG/L
RCRAGW
U
3
.0100000
.0000000
.0000000
.01
.01
63/08/25
84/02/15
01077
SILVER
aG,TOT
UG/I
RCRAGW
U
3
.0137000
.00051-R9
.0277110
.04
.0001
83/08/25
84/02/15
01087
VANAPTl'M
V, TOT
IJG/L
RCRAGW
U
1
.2000000
.2
.2
63/08/25
83/06/25
01147
SELENIUM
SE.TOT
l'G/L
RCRAGW
1
.0020000
.002
.002
63/08/25
83/06/25
U
•>
.njnooOO
.0008000
.0282840
.05
.01
63/11/16
84/02/15
TOT
3
.0206670
.0006613
.0257160
.05
.002
63/08/25
84/02/15
31501
TOT COLI
MFIMEHDP
/1OOML
RCRAGW
1
2.000000
2
2
83/11/16
83/11/16
I,
1
16.000^0
16
16
83/08/25
83/06/25
U
1
2.000000
2
2
84/02/15
84/02/15
TOT
3
6.666700
65.33300
R.082Onn
16
2
83/08/25
84/02/15
32730
PHENOLS
TOTAL
UG/L
RCRAGW
U
3
.0n66667
.000083
.0028868
.01
.005
63/08/25
84/02/15
34045
2,4,5-TP
VTP SriPL
UG/L
bcr^gw
U
2
.lonoono
.ooonooo
•OOOOOOO
.100
.100
83/08/25
84/02/15
39390
EMDPIw
TnT UG/L
PCRAGW
U
2
.1000000
.0000000
.0000000
.100
.100
63/06/25
84/02/15
39400
TOX4HHttJ
trtug/l
RCRAGW
U
2
J.000000
.0000000
.0900010
i .ooo
1.000
63/08/25
84/02/15
39480
HTHXYCLR
WHL SHPL
UG/L
PCIGW
U
2
.aoooooo
.0000000
.0000100
.200
.700
63/06/25
84/02/15
39730
? , 4-n
WWL S>PL
UG/L
PCPhGW
U
?
.5000000
.0000000
.ooooose
.500
.500
63/0B/25
84/02/15
397R?
LTNpJME
VTHL SHt>l
UG/L
PCRAGV
U
2
.osoooon
.OOOOOOO
.nnnop'^O
.050
.050
83/0B/2S
84/02/15
70353
TOX
itf ^ATr R
UG/L <"l
RCPAGr1
12
10.11600
213.8000
14.62200
35,000
.200
83/11/16
84/0S/14
71900
MERCURY
HG,TOTAL
UG/L
PCPAGW
1
.0001000
.0001
.0001
63/06/25
83/06/25
U
2
.0010500
.0000018
.0013435
.002
.0001
83/11/16
84/02/15
TOT
3
.'">007333
.0000012
.0010970
.002
.0001
63/06/25
64/02/15
-------�
5.3.2 MEAN
MEAN does a statistical summarization and sorting on requested
parameters at user-specified sites. Mean provides the user with
flexibility to combine stations and to group data according to a
desired time frame. The statistical analyses that can be choosen
include: minimum, maximum, mean, sum of squares, variance, standard
deviation and percentiles.
Suppose you were interested in doing statistical analysis
on specific parameters that were analyzed as part of the sampling
program at the RCRA wells of the South Fremont Chemical company.
You would submit the following retrieval request:
A PGM=MEAN,
B A=11 TOX09,S=TX002209138U01, C
D P=11,P=95,P=400,P=680,P=1040,P=1051,
E ^DG=QYP,
F SF=NLS2MVDE,
Key
A Program to be run
B Agency Code
C Station Code
D Parameter Codes (P=11=Water temperature °F,
95=conductivity, 400=pH, 680=TOC, 1040=copper
and 1051=Total Lead.)
E The key work DG specifies the data groupings to be
used for the statistics calculated.
DG=Q, Calculates summaries by quarters
DG=Y, Calculates summaries by year
DG=P, Calculates summaries for period of record
Additional codes for the keywork DG are:
DG=S, Prints individual samples
DG=M, Calculates summaries by months
DG=G, Calculates summaries by aggregation
of all data retrieved regardless of
station.
5-13
-------�
Key (Continued)
F The keywork "SF" specifies which statistical
calculations are to be performed during the
retrieval. The values which can be assigned
to "SF" are:
SF=N, Calculates number of observations
SF=L, Calculates minimum value of observations
SF=S, Calculates sum of values
SF=2, Calculates sum of squares
SF=M, Calculates mean (average)
SF=V, Calculates variance
SF=D, Calculates standard deviation
SF=E, Calculates standard error
Additional codes for the keyword SF are:
SF=H, Calculates maximum value of observations
SF=C, Calculates coefficient of variation
SF=F, Calculates flow weighted average, when
using this capability, each group of 10
parameters must contain one of the
flow parameters.
This printout for the request is illustrated on the next page.
5-14
-------�
Exhibit 5-6
Example of The STORET Retrieval Program MEAN Which Produces Statistical
Summaries and Sorting on Required Parameters
STORET RETRIEVAL DATE 85/11/05
TYPA/IND/AMBNT/WELL/HAZARD
TXD002209138U01 CA1234567
37 30 00.0 122 00 00.0 1
SOUTH FREMONT CHEMICAL CO RCRA UPGR HEtiLll
06001 CALIFORNIA ALAMEDA
CALIFORNIA 140300
SAN FRANCISCO BAY REGION
11TOX09 850525
0350 FCET 0EPTH
0011 J
n00°5
00400
11680
01040
01051
DATE
WATER
CNDUCTVY
PH
T PPG C
COPPER
lead
TPOM
TEMP
AT 25C
C
CU.DISS
P9.T0T
TO
FAHN
MICRHMHO
SU
Mr;/L
UG/L
UG/L
8J/07/Ol
QUARTER
NUMBER
4
4
4
4
1
MAXIMUM
63.0000
3100.00
6.65000
4.90000
.0020000
MINIMUM
63.0000
3100.00
6.S8000
3.10000
.0020000
SUM
2S2.0OO
12400.0
26.5000
16.7000
.0020000
6UH-S0UAR
15876.0
.3844E*08
175.565
71,7100
.0000040
HfA»
63.0000
3100.00
6.52500
4.17500
.0020000
VARIANCE
.00000*0
.ooooooo
.0010173
.662501
STAND PFV
.0000000
.00O0000
.0318944
.813942
COEr VflR
.0000000
.ooooooo
.0048142
.194956
stanh crr
.0000000
.ooooooo
.0159472
.406971
83/09/30
43/10/01
QUARTER
NUMBER
4
4
4
1
"AXT ¦'I'M
2460.00
6.47000
15.8000
.0010000
MINIMUM
2430.00
6.39000
12.4000
.0010000
SUM
9810.00
25.7200
56.4000
.0010000
SUM-SQUAR
.240SE+08
165.383
804.940
,0000010
WEAN
2452.50
6.4 3000
14.1000
.0010000
VARIANCE
224.000
.001 1037
3.23348
STAND DEV
14.9686
.0332223
1.79819
COEF VAR
.0061026
.0051668
.127531
STAHD ERR
7.48331
.0166111
.899094
83/12/31
83/01/01
YEAR
MIJMBER
e
8
8
8
2
MAXIMUM
6 3.00fO
3100.00
6.65000
15.8000
.0020900
MINIMUM
63.T000
2430.00
6.39000
3. 10000
.0010000
SUM
252.000
22210.0
52.2200
73.1000
,0030000
SUM-SOUAR
15876,0
.6249E+08
340.948
876.650
.0000050
MEAN
63.0000
2776.25
6.52750
9.13750
.0015000
VABTAf'CE
.0000000
119813
.0117885
29.8141
.0000005
STAND PEV
.ooooooo
146.242
.108575
5.46023
.0007071
COEF VAP
.0000000
.124716
.0166335
.597563
.471405
S7ANP ERR
.0000000
122.415
.0383870
1.93048
.0005000
ef/i4/ii
-------�
5.3.3 STAND
STAND compares the observed sample values of parameters
specified in a retrieval to a set of specified criteria. For
instance, the criteria could be State or Federal standards for
various ground-water programs.
For instance if the user wanted to obtain a summary of vio-
lations for RCRA monitoring wells at the South Fremont Chemical
Company they would request.
A
—PGM=STAND;
B
—A=11 TOX09,S=TXD002209138U01, C
P=95, dV=1450,
D
P=400, HV=7.3LV=6.6,
E & F
P=680, HV=9.0
G
—PSA=T,
H
— PVS=T,
Key
A Program to be run
B Agency Code
C Station Code
D Parameter codes (95=Conductivity, 400=pH,
680=TOC)
E HV sets the upper limit against which the
parameter is to be checked. It applies only
to the parameter it follows.
F LV sets the lower liipit against which the
parameter is to be checked. It applies only
to the parameter it follows.
G PSA=T, This command results in the entire
sample being printed when any of the para-
meters are in violation. The values in viola-
tion will be indicated with an asterick.
H PVS=T, This specifies that a summary of all
the violations is to be printed.
The printout for this request is illustrated on the following page.
5-16
-------�
Exhibit 5-7A
Example of The STORET Retrieval Program STAND Which Compares Observed
Parameter Values to a Set of Specified Criteria
STORET RETRIEVAL DATE 85/11/05 - STAND - VERSION OF APR. 1983
VIOLATIONS WITH SUPPORTING PARAMETERS
/TYPA/IND/AMBNT/WELL/HAZARD
STN 2 PAGE 1.1
TXD002209138U01 CA1234567
37 30 00.0 122 00 00.0 1
SOUTH FREMONT CHEMICAL CO RCRA UPGR WELLtl
06001 CALIFORNIA ALAMEDA
CALIFORNIA 140300
SAN FRANCISCO BAY REGION
11TOX09 850525
0350 FeET DEPTH
00095
00400
onf,80
CNDUCTV*
FF T
OP.G C
AT 250
C
DATE
TIME
HICROKHP
so
MG/L
81/11/16
1100
2!>B0.«
f>. 430*
7.900
83/08/25
1300
2520.*
6.880
4.100
83/08/25
1300
2520.•
6.8«0
8.200
83/08/25
1300
3520.*
6.880
2.000
83/08/25
1300
2520.«
6.900
4.600
83/11/16
1100
2*00.*
6.390*
2.800
83/11/16
1100
2600.*
*.4?0*
2.6^0
83/11/16
1100
2610.*
6.430*
2.700
84/02/15
74C0.*
6.500
2.300
84/02/15
2 390.* '
6.700
2.300
94/02/19
2390.*
6.7*0
2.300
84/02/15
2390.*
*.700
2.400
84/05/14
3000.*
6.390*
2.600
84/05/14
306".*
*. 350*
2.60T>
84/05/14
3040.*
6.370*
2.6<>0
84/05/14
3060.*
6.370*
2.700
-------�
Exhibit 5-7B
Example of the STORET Retrieval Program STAND Illustrating
Use of STAND Violation Criteria and Statistics
STORET RETRIEVAL DATE 85/11/06 - STAND - VERSION OF APR. 1983
/TYPA/IND/AMBNT/WELL/HAZARD
STB 2.SUMMARY.1
TXD002209138U01 CA1234567
37 30 00.0 122 00 00.0 1
SOUTH FREMONT CHEMICAL CO RCRA 0PGR NEtiLtl
06001 CALIFORNIA ALAREDA
CALIFORNIA 140300
SAN FRANCISCO BAY REGION
11T0X09 950525
0350 FCKT DEPTH
SUMMARY OF VIOLATIONS
00095
00400
00680
CNDUCTVY
PH
T ORC C
AT 25C
C
HJCPOMHD
SU
MG/L
no or values
16
16
16
MAR
2700.
6.600
3.106
MEDIAn
2590.
6.5(5
2.600
NO OF VIOLS
16
e
0
PERCENT VIOL
100.
50.
0.
MINIMUM VIOL
2390.
6.350
0.0
MEAN VIOL
2700.
6.392
0.0
MAXIMUM VIOL
3520.
6.430
0.0
MIN CQlTEPlt*********
6.600 «**#«»»»»
MAX CRlTtRIA 1450.
7.300 9.000
-------�
5.4 Graphic Displays of Trends
STORET users way graphically depict the change in concen-
tration of a substance over time, or compare the concentration
of one substance to another. These STORET retrieval programs
are listed below.
5.4.1 PLOT
The plot program retrieves data from the Water Quality file
and plots the values of each selected parameter for each selected
station (Y axis) for the specified time period (x axis).
For example, a user may want to see how the concentration
of a ground-water contamination indicator parameter has changed
between September 1983 and May 1984 at an RCRA Mpgradient well of
the South Fremont Chemical Company. The retrieval request might
look like:
A—PGM=PLOT,
B A=11TOX09,S=TXD002209138U01, C
D P=95,BD=830901 ,ED=84053t; E
Key
A Program to be run
B Agency Code; 11SA Federal Agency performing
its own sampling and analysis TOX=Groundwater
toxic data, 09="optional user code
C Primary station code; TXD002209138BDun
and Bradstreet Number, Irrelative position
of well, which in this case is upgradient and
01=well number. The site selected was an
upgradient well at the facility whose Dun &
Bradstreet number is TXD002209138.
D Parameter Code; 95= Conductivity at 25°C.
This is the ground-water contamination
indicator to be plotted.
E Data Restrictor; BD=Beginning Date,
ED=Ending Date. The time on the X-axis
is to span from September 1,1985 to
May 31,1983.
The output from this retrieval request is illustrated in Exhibit 5-8A.
5-19
-------�
Exhibit 5-8A
Example of the STORET Retrieval Program PLOT Which Graphically Depicts
Trends in Concentration Over Time, Shown With Connectinq Lines Between Plotted Symbols
This example illustrates how plot handles Split/Replicate Samples
STORET
TXD002209138U01 CA1234567
37 30 00.0 122 00 00.0 1
SOUTH FREMONT CHEMICAL CO RCRA UPGR WELL#1
06001 CALIFORNIA ALAMEDA
CALIFORNIA 140300
SAN FPANCISCO BAY REGION
11TOX0O 850525
0059 FEET DEPTH
o
X
n
o
CXL
O
O
lO
04
l£>
O
O
O
_J
Q_
O
3
O
in
o>
o
o
o
o
to 4.
o
o
o J.
o
o
in ..
o
o
o
o
o
o 4-
o
o 4-
io
1 982
IcImIJmI
JF M A M J J A S O N D
I 983
j'f'm'a'm'j'j'a's'o'n'd
1 984
j'f'm'a'm'j'j
STARTING DATE 81/11/16
SAMPLE DATE
-------�
The software of the plot program reads a data value, plots its
location, and then draws a line between that location and the
previous data value location it plotted.
The order that the plot program receives data values to plot is
not dependent on data values but on the parametric data key which
includes the depth or SMK field.
This means that data values for the same date may be plotted in
any order.
The connecting line drawn from one date's data values to another
date's values will not necessarily be from the high or low value
for that date but from the last point plotted. This may result
in lines being connected at places other than their end points.
Since many ground water samples are collected in duplicate the
above situation may occur often. In this type of situation it
may be perferable to plot the data points without the connecting
lines. The user may also wish to consider this option on a
graph that has a large number of data points to avoid drawing
too many lines.
To invoke this option the minus sign is used when designating a
plotting symbol. The user may also wish to specify the keyword
"REGLINE" so that a trend line will be calculated and drawn on
the plot.
5-21
-------�
A—
—PGM=PLOT
B—
A-21MIMUSK,S-PWX3,
c—
P-95, ,
D—
SYM--02, REGLINE,
1
C.
Key
A Program to be run
B Station PWX3 within agency 21MIMUSK
is selected
C Data for conductivity is to be plotted
(95=conductivity)
D A triangle is to be the plotting symbol and
the symbols are not to be connected with
straight lines as signified by the minus sign
in front of 02
E Calculate and plot a trend line
The output from this retrieval request is illustrated in Exhibit 5-8B.
5-22
-------�
Exhibit 5-8B
Example of the STORET Retrieval Program PLOT Which Graphically Depicts
Trends in Concentration Over Time Shown Without Connecting Lines
STORET
PWX3
43 14 09-0 085 58 01
PERIMETER WELL X-3
26121 MICHIGAN
LAKE MICHIGAN
MUSKEGON RIVER
21 MI MUSK 780505
973
0 2
MUSKEGON
04060101 HQ
0059 FEET DEPTH
1974
leUJ
JV MAMJJAS0N 'D
1975
UmI JmI ,l ,l JdnU
J'F 1 M ' A MJJAS0ND
1 976
A A
J'F'M'A'M'J'JASON'D
rM
J F M
STARTING DATE 72/12/5
SAMPLE DATE
-------�
5.4.2 REG
REG performs a regression analysis for the change in substance
concentration, either over time or in relation to another substance.
The REG program may be used to plot on a line printer three
types of regression analyses: A trend analysis with one station
and one parameter; A correlation analysis with one station and
two parameters; A correlation analysis on the value at one station
versus those of another if two stations and one or two parameters
are specified.
The following example uses stream station data because a
ground-water station with sufficient data to run this program could
not be located at this time. However, the same type of analysis
can be performed for ground water where sufficient data points
exist. For example if a user wanted to determine the relationship
between temperature and oxygen concentration you would make the
following retrieval request:
a— pgm=reg,arclAss=all,
A=112WRD,S=01463500,P=10,P=300,
D REGPARMS= 1 C
E PLOT, S=01463500, P=1,P=2,
F STOPREG,
Key
A REG program selected to perform a regression
analysis generating a scatter diagram with a
regression line as output.
B Indicates that archieved stations are to be
included in retrieval request.
C Retrieve parametric data dissolved oxygen
(P=300) and temperature degrees centigrade
(P=10) requested at station 01463500
belonging to the U.S. Geological Survey.
D Initiate the regression section of the
retrieval request.
E Initiates correlation and regression analysis
of two quality parameters at the same site
since 1 station and 2 parameters are specified.
F Indicates end of regression section of retrieval.
The output for this retrieval appears on the following page.
5-24
-------�
Exhibit 5—9
Example of The STORET Retrieval Program REG Which Scans Specific Stations or Data
STORET RETRIEVAL DATE 86/01/06 - REG M00ULE
SUMMARY PAGE
CORRELATION L REGRESSION ANALYSIS TWO QUALIYY PARAMETERS SAME SITE.
STATION! 01463500 DELAWARE RIVER AT TRENTON NJ
LATITUDE I LONQITUOEI *0 13 18.0 07» *6 *2.0 2
ASCISSA PARAMETER! 00010
ORDINATE PARAMETER! 00300
WATER
00
CENT
MS/L
REQUESTED
ANALYSIS FROM! 1944/10 TO! 1985/ 7
RECEIVED
ANALYSIS FROM! 1944/10/10 TO! 1985/ T/24
REGRESSION LINE! Y* 13.104 •
ORIGIN IS 0.0
CORRELATION COEFFICIENT! -0.64
COEFFICIENT OF DETERMINATION! 0.40
»#««#•~~##~••••••••••••••••••••••••••••••••••••
• STANDARD ERROR OF ESTIMATE! 1.T6S61 •
• STANDARD ERROR OF INTERCEPT! 0.22213 •
• STANDARO ERROR OF SLOPE! 0.01316 •
• T VALUE FOR INTERCEPT! SB.99019 •
• T VALUE FOR SLOPE! 12.14093 •
«#«»##»*##•~~•~••••••••••••••••~••••*••••••••••
STORET RETRIEVAL DATE 86/01/06 - REG MODULE
13.925
e a
XXX
0 8XXX
X
X XX C X X
A X A
X A X
X
. .. XX X
A A BA XX X AX
A XAA
AXXX
X
1Q.9S0
XXX
X
X X
XX X
X X
X
AXX A XX XX
XX XX A X x X XXX X
X * * XX
XXAX XX X XX
x AXX A A A
X XX xxxxxx
AX XX A XX
XA XX X A
X AXXX
X *
X A
8«2500 16.5000 24.7500
MATER TEKP CENT
NUMBER OF SAMPLE POINTS: 218
-------�
5.4.3 BROWSE
Brcwse is a interactive station retrieval program with optional graphic
output. The program can be called by using the STORET conmand procedure
%BRCWSE. It creates an interface for you directly to the STORET database,
through the use of the STORET agency-station code, for site selection, and
the STORET parameter number for data selection. Many of the STORET data
restriction keywords are valid within BRCWSE. Information on %BROWSE is
available in the STORET help data set "STORET.HELP.BROWSE".
In the following example of an interactive session the user's response
to the computer's prompt messages are underlined. Additional clarification
is enclosed inside the parentheses.
READY (TSO Command Mode/Starting Point for STORET command %BROWSE)
%BROWSE
Is this a tektronix 4014 Terminal?
YES
Enter Agency Code, "SAME", or "STOP"
21MIMUSK
Enter Station Number, "FIRST" or "NEXT"
PWX3
GOT STATION 21M1 MUSK PWX3
STORET SYSTEM
43 14 09.0 085 58 01.0 2
PERIMETER WELL X-3
26121 MICHIGAN MUSKEGON
LAKE MICHIGAN
MUSKEGON RIVER
21M1 MUSK 0406010: /TYPA/AMBNT/WELL
780505 DEPTH 59
INDEX
MILES
Inch and one quarter plastic well sampled monthly using either a centrifugal pump or compressed
air depending upon the depth to groundwater. Parameters include but are not limited to:
00080, 00095, 00340, 00680, 00940, 00671, 00631, 00310, 312501, and 31616.
36 SAMPLE(S)
284 OBSERVATIONS(S)
10 PARAMETER (S)
PERIOD OF RECORD-72/12/05 THROUGH 75/12/23
Enter PARM CODE, "NEXT STATION", OR "ALL"
95
PARAMETER NOBS AVE
95 CNDUCTVY AT 25C MICROMHO 35 687
PLOT THIS PARAMETER ? (YES OR NO)
YES RESTRICTIONS
WHAT RESTRICTIONS
ENTER RESTRICTIONS OR "GO"
SYM ° -4. "GO"
(The user specified with the "SYM" keyword that the plotting symbol represented by the number 4 (a square)
was to be used and by preceeding it with a minus sign indicated that no connecting lines between symbols were
to be drawn. The keyword "GO" tells the program to clear the screen and begin drawing the graph.
After reviewing the graph the user would enter a carriage return to continue.)
ENTER PARM CODE, "NEXT STATION:, or "ALL"
STOP (User entered stop to return to TSO)
READY (TSO command mode prompt)
END OF DATA
MAX MIN BEG-DATE END-DATE
1011 550 72/12/05 75/12/23
-------�
Exhibit 5-10
Example of The STORET Retrieval Program BROWSE Which Plots a Statistical
Representation of Changes in Concentration Over Tifne (PGM = REG, Trendplot)
PUX3
STORET Sv
43 14 68S 58 ©1.9 2
PERIMETER UEll X-3
36121 niCMIQAN NUSKECON
LACE MICHIGAN
MUSKEGON RIVER
2MMUSK e406«l«l
784605 DEPTH 59
IH8EX
HILES
'TYPA/MttNT/UELL
IMX
1011
12M
parameter
hin beg-date end-date
95 CfflMCTW AT 25C
HICROMHO
NOiS
3S
<*JE
687
ltN
8M
18.18 Unlta par Vwr
Q -M-M.
.
G
a ¦
¦ «
¦
1972
1973
1972-1975
1974
197V
-------�
5.5 Map Displays of Data
Users may produce several different types of maps using
several STORET mapping programs.
5.5.1 MSP ("Multiple Station Plot")
With MSP users can perform a number of statistical com-
putations on the value of selected parameters and then plot
the resulting values as a function of the stations selected.
User options specifications include: the parameter to be
plotted, scaling and axes control, statistical values to be
plotted, stations to be grouped and line printer or digital
plotter output.
A user may want to see how levels of a drinkinq water suit-
ability parameters, have changed for downqradient RCRA monitorinq
wells in Michigan during 1984. The retrieval request appears
below:
A
PGM=MSP,QUALMAP,A=21MIRG01,S=ALL,
C LT= NOR ET, L=4130, L=8645, L=46, L=8645, L=46, L=8230f
E L=4130.L=8230.EXTRACT=RCRA AND WELL AND DOWN— D
AND 01034,Pi01034,BD=840101,ED=841231, F
G BACKGRND=REACHES,BACKGRND=STATES,
H MSPARMS=BEGIN,MODELL %TILE50T+A.GROUPSQ,
PLOTC,LEFT1.SEG=0001-0006/ JRNDNLY,
. PLOTC,LEFT1,SEG=0007-0012/ JRNDNLY,
TPLOT,EARLY=1L,LATE2L,
LABEL=WELLS - 1984=#,
J STOPMSP,
K SCALE=250000,
L HEAD=TRENDS IN CHROMIUM AT DOWNGRADIENT,
Key
A H-»l program selected is MSP, a mapping program.
Qli. LMAP instructs the system to create a map.
B Agency Code; All the sites in the agency 21Ml!flG01 are re-
quested (A=21MIRG01,S=^ALL).
5-28
-------�
Key (continued)
C Site Restrictor, only data from site? falling within the boun-
daries defined by the sets of latitude/longitude coordinates are
to be included (LT=NORET, L=..., etc; latitude/longitude boun-
daries are necessary for all mapping programs).
D Site Restrictor; only data from those sites which are downgra-
dient RCRA monitoring wells that have at least one obseva-
tion of chromium (EXTRACT=RCRA AND WELL AND DOWN
AND 01034) are to be included.
E Parameter Code; P=: 01034 is chromium in total water, report
in mg/l.
F Data Restrictors; BD=Beginning Date and ED= Ending Date
Retrieval and analysis are to be restricted to data collectged
between January 1, 1984 and December 31. 1984.
G Output instruction; the outlines of the stream reaches and the
state borders are to be overlaid on the map
(BACKGRND=REACHES, BACKGRND =STATE).
H Specifications for Maps; These are flagged by
MSPARMS "BEGIN.MODELL,
I Special MSP Keywords which are placed between the
keywords: MSPARMS and STOPMSP" in this case the
keywords indicate that the 50th percentile (median) of the
data is to be calculated and that the percentile values are to
be divided into 4 equal groups.
— The first "plot" is to calculated the 50th percentile of
chromium values for the first six montKs of the year
(SEG 0001-0006) but not to print the map of these values
(TRNDNLY; the request not to print the map is optional, but it
is not needed if only the trend map is wanted.
— The second "plot" is to calculate the 50th percentile of
chromium values for the second six months of the year
(SEG =0007-0012) but not print the map (TRNDNLY)
— The trend map is created by considering the values of the
50th percentile of chromium in the first of the above plots,
the January-June plot, the one against which the second
"plot", from July to December, is to be compared
(TPLOT,EARLY=1L, LATE =2L)
5-29
-------�
Key (continued)
The trend map is to have a title on its legend reading "WELLS
-1984"
J The mapping MSP specific keywords are finished (STOPMSP)
K Scale is used to specify the scaling factor for the map. The
number represents the denominator of the scale to be used.
If the key word "scale" is not used then by default map size
becomes 30 x 60 inches.
L Head is used to add user-specified text lines to the lend of
a map.
An example of a trend map is printed on the next paqe,
5-30
-------�
Exhibit 5-11
EXAMPLE OF A MSP TREND MAP
¥
ENVIRONMENTAL PROTECTION AGENCY
STORET SYSTEM
1975 TO 1981
TRENDS 1967 TO 1975;
ZINC
85TH PERCENTILES
~ OVER 252 IMPROVEMENT
. 10* TO 25% IMPROVEMENT
~ UNDER I OX CHANGE
« I OX TO 252 WORSENING
~ OVER 252 WORSENING
SCALE- !•3000000 OR 47-35 MILES PER INC
MILES
0 00 4T.J5
94 70
-------�
Exhibit 5-12
EXAMPLE OF A MSP SHADED MAP
ENVIRONMENTAL PROTECTION ACENCT
STORET SYSTEM
SOUTH CAROLINA
WELL AND SPRING
IRON FE TOT Mfc/l
50TH PERCENTILES
g «¦ 200.000
R 200.000 10 999.000
¦ 999.000 10 4999«999
| » 4999* 999
PROJECTION - ALBER8 EOUAL AREA
SCALE 113000000
BCM.C Of HILCI
0 so too
I I I I
a.a mvu pa ipoi
MAP DATE *6/01/23
-------�
5.5.2 LOC (LOCATION MAP)
The LOC program is utilized to generate a map of an area
containing sampling site locations. Sampling sites to be shown
are selected using any of the station selection methods.
To run a LOC program you would input:
A PGM=LOC,
B STC=26,
C LT=NORET,
D [1=4130, L=8645,L=4600,L=8645,
[_L=4600, L=8230, L=4130, L= 8230,
E ARCLASS=ALL,
F EXTRACT=WELL,
G |~HEAD=MONITORING WELLS,
L_HEAD=MICHIGAN,
H BACKGRND=STATES,BACKGRND=COUNTIES,
I NOPOLPLT,
J SC A LE=3000000,
K CSIZE=0.07,
L LOCSYM=02,SYMSIZE=0.01
M TLAT=43.0,TLONG=081.3,
Key
A The LOC program plots a map of the area defined with any
station selection method, and plots a symbol to denote the
locations of all stations within that area.
B Select stations in Michigan.
C This keyword provides the LOC program with its required
latitude/longitude polygon without using the polygon as a sta-
tion selector.
D The L keyword is used to specify the vertices of a polygon.
The vertices may be entered in a clockwise or counter-
clockwise direction.
E Allows retrieval of all achieved stations and their data that
meet selection criteria.
F Restrict station selection to those that have a station type of
"well"
5-33
-------�
(continued)
G This keyword is used to add user-specified text lines to the
legend of the map.
H BACKGRND is used to speficy optional map background lines,
either in addition to or instead of the default background of
State and County boundaries.
I NOPOLPLT may be used with the LOC program (when the
area whose stations are to be plotted is defined by a polygon
to suppress mapping of the polygon).
J Scale specifies the desired scale for the map to be plotted.
K CSIZE is used to change the size of the characters in the map
legend, and thus the size of the legend itself. CSIZE is a
mutiple of .15 inches with a valid range of .03-1.0.
L LOCSYM and SYMSIZE are used to-specify, respectively the
symbol to be drawn to denote station locations (in this case a
triangle) and the height of the symbols plotted in inches (from
1.0 to 0.01).
M TLAT and TLONG are used to move the legend to a user
specified place on the map.
5-34
-------�
Exhibit 5-13
Example of the STORET Retrieval Program LOC Which Generates a Map
Showing the Location of Sampling Sites
ENVIRONMENTAL PROTECTION AGENCY
STORET SYSTEM
WELL LOCATION
MICHIGAN
~ STATION LOCATION
PROJECTION - ALDERS EQUAL AREA
SCALE: 1:3000000
J
'r«ir Of MUM
• V IX
t Mm •*» ir*
iri/MOCit 1T$?rn OMP ti/0.
-------�
5.6 Interfaces with Other Important Data Analysis Systems
The output data from a STORET retrieval may be placed on
computer tapes or computer disk packs. These output files called
Further Computational Files (FCF) can be used as input to user-
supplied computer programs or a commercial statistical package.
One software system that will be of great interest to Ground-Water
Users will be the Statistical Analysis System (SAS). A SAS program
may be incorporated into a STORET retrieval and the data from
the retrieval may be passed directly into the SAS program. The
STORET system is also easily interfaced with SAS software through
the creation of FCF files designed for SAS compatibility. The
STORET sytem also provides a SAS REAR macro so that the SAS user
need not know the FCF file layout. In addition there are numerous
STORET help files available relating to the processing of STORET
data with SAS. An online index of these files is located in the
data set named "STORET.HELP.MORE.SAS.INDEX". Users may perform
many different kinds of sophisticated statistical analysis on
their data using SAS, including the Student's T-Test.
An exact copy of the USGS National Water Data Storage and
Retrieval system (WATSTORE) water quality file which describes
the chemical, physical, biological and radiochemical charateristics
of both surface and ground waters is included in the STORET data
base and is updated monthly. USGS WATSTORE flow data is also
available in STORET.
The WATSTORE system itself consists of several files which
data are grouped and stored by common characteristics and data
collection frequencies. Currently, files are maintained for the
storage of (1) surface-water, quality-of-water, and qround-water
data measured on a daily or continuous basis, (2) annual peak
values for streamflow stations, (3) chemical analyses for sur-
face and ground-water sites. The WATSTORE system is operated
and maintained on the central computer facilities of the USGS
at its National Center in Reston, Virginia. Data may be obtained
from WATSTORE through any of the Water Resources Division 46
District offices. General inquires about WATSTORE may be
directed to:
Chief Hydrologist
U.S. Geological Survey
437 National Center
Reston, Virginia 22092
The USGS Ground-Water Site Inventory file contains inventory
data about wells, springs, and other sources of ground water. The
data included are site location and identification, geohydrologic
characteristics, well-construction history, and one-time field
measurements such as water temperature. Exhibit 5-14 is an example
of the form used by the USGS to input data into the GWSI system and
presents a comprehensive view of the information the file contains.
The file contains over 1 million records and will eventually
contain over 2 million records. A copy of this file was placed
on EPA's National Computer Center System 2000 Data Base. It may
be made available with three days notice by contacting the Office
of Ground-Water Protection (202/382-7077).
5-36
-------�
EXHIBIT 5-14
FORM NO 9-1904- A
Recorded by
SITE NO
U S DEPT OF THE INTERIOR
GEOLOGICAL SURVEY
WATER RESOURCES DIVISION
GROUND WATER SITE INVENTORY
SITE SCHEDULE
Date
GENERAL SITE DATA (01
Check One
SwIiWumJ ; ,
WTvp. I 1 C OH | "m" p 7
RG Numb*
I R-Ol *|
¦ ¦ Engliih
Transaction 1 T '
• Metric Unit!
A 0 M
Project |
no \_±
co Doctor drain untho* connector multiple pond turn* or mU
rfiaft
PI. c
jRafiabilityL
—I ' * ' » ¦
» f77
—J Agency I
¦ ¦ '
latrtuda
Local
Number i_
Location
Map
i!i!.
uzb o^mniB sa»\ 1, hi *¦£
Lat Long
da| mm uc
Longitude L
de« mn
3
Accuracy
Land
1 1 ¦ 1 S F T M
tec fttac to ««c Mi
B
I—!—I—1—I I L I I I | ( .¦I , ""*] Net 13- I
Loc
(77T[
' . i—s * ¦ i T.l,,, R.
J—'—1—'—1—1—1—1—i-i—j—i—j—i i . ¦ i . i f | |
'/a 1/4 1/4 taction towmhip
"V]
—! Scale
15-
Altitude I 1 6 ' I i ~ f*1
Topo
Setting
' ' ' ¦ '
Method of i
Measurement M 7"
M
Accuracy
1 8«
19-
c E F H K L O
P S T u V UV • HydiolOflic I jo - ]
- Unit IOWDCI I I
d«prti»ion itratm [Junii tlal h.NtOO link t-jmn
5h,nn„ ,0B ,,nl1 lw4mp P«d.me«« h.llt.dt lenace undulating „||#v upUnd
Date of Firit . .. Mat draw
Ute j
Comiruciion/j 2 1 •
Completion
/
T-i u«
id •'
Site
I 2 3 * I fl 0 6 <¦ H 0 M p R
T U W X Z
0 € F H
„T™, - """" u.m.d -th a.,,,0,,0
drtwal
— ' •" N P R <5 J l| y —
" " — .
["TT*! irr:.""i»-i Hsr-"
*7"
-l—I ' ¦ ' • ' '
] o»p«h of rr
J Well Li!"
IT] Sou'ce Of®.
-i-2-1—I—I—I Depth Oata ¦
Water L««»l
Method of Meaturement
&
. L _ L 1 I. 1
« ¦[ A c
Oate Meaiurad
G H l
'... i-i
I
R S T
Site Status
f 37 - i 0 F G
animated p>aaau>t calibrated seoohytwai m*non*ZZ^po.tm, nml to
>w> «»P* »pa «
-------�
WELL CONSTRUCTION DATA (II
I" • ««l * I
Narre of
Contractof/Onllei
tathod of
Construction
Ud detail
!»¦;, ..
rs S • ; A
Enl'Y Wofgatfj . . |*|
1J
EXHIBIT 5-14 (Continued)
f^l ¦/¦/... 1*1
Oat* of Comtmction [
Completion
Source of '1 •
month day
S. L L : I I
«•! h«lil»Alll Op<«
concrete pert aereen lallary
0
du|
T
lunching
Z
oihar
QU'f
S
Bo"0™ ryrrr
Sul _ 1
Method of [ j
Development t
I "* Number of Hours {* T
^ ® ^ I in Oe«eloptnent t 7 0 • |
rx>rx other twrged Other
pump
Spoctif Treatment 1 7 ^ . [ q
Ourinf Development
D E F M M Z •
chemicals dry e»plo»i«e» dtllacHlint hydrotraciuring m«cNinre>l other
(DIMENSIONS OF THE HOLE CONSTRUCTED 12)
ln-73l*l | T" i A D M |» |
idd dtiiu modify
Comtrvrtion [70" J
Ertr- No I I
HI
Bottom of Hole Segment below LSD
Diameter of Hole S«
Naw C«rd for Each Hole Segment
Sain* ATI Field S 9 .
17 3 til . .
71
r»«.|
I".. ,
.. . *1
|7)ll
......
»l
. . „... . !~.'
f 7 s -1
1*1
(2J> *1 .
......
71
1 >4
I75*
. 1-1
|7J«! , ,
•i
7 4»
[*"
175.
'•1
l«*L _
•
•1
7 4»
1"- , ,
1*1
CASING SCHEDULE <21
|a • H * I I T- ! A 3 M !»|
add delete fW-Jdity
Tnp o* Caun^ Segment 8e4j« LSD
^9:
I *
| 770 I
D
7 7fl I
C&mtfuct'cn
Entry No
Bottom of Citing Segment Below LSD
78*' • *
7 0" ~ •
1 7a- | .
L , l L .-IC
L I ¦ I *
New C^rd (or Each Catmg rtnh S*"ie R T & Field 5 9
Dnmeter of Cuiinq Segment Caimg Material 5
80 • *
60'
jo_. ~
8 0"
80 -
ThickntW of Canny
I79-"
.
'I
|79
| 7 9-
.
•
|79 =
.
•1
| 7 9 s
•
•I
.1
*8 1 •
8 I •
Tb"
8 1 '
OPENINGS SCHEDULE i2l
|fl - til » t
T - A C '
add i"eoi'r
b 9 C
Construction!
Entry No I
(Opening Oatal
N«v C.rrt for E ich Open Section With Sdme R T »< oihtf
5 Casing Material Codet
B C G
U W
Onck c»rKr«te gal* wrought othef PVC or rock or ileal tile coated wood other
iron iron mete) plastic (tone fteei
7 Type of Material Codet for Open Sectiom
ia*d «ill*d open other
1 iloited «ownd (unknown) potM
butt or concrete gal* wrought other PVC or ttatnlen tteel tile other
bronte iron iron metal plastic fteol
5-38
-------�
PRODUCTION OATA (1)
\ • 11
ftownte pwnpori
•dd dvlata modify
Entry No
EXHIBITS—14 (Continued)
i'47* i.. h DJ..r^-"i, ~
month 04V
Oiicharg* I 1 5 0 ¦
H3
Source of Data
1 151"
Nbthod
Measurement
ftporiid traiactO'v «tnign volumetric wair
Production
Le*et
r-inrr^LTi] = asa^/ir:
avlina esltfvitad Ntimatad pranura altoattd gaopftywcal monontarar taportad ctael electric calibrated other
9*9* ^awiragafa I09J up* up* atactric tapa
Pumping Pnod L.
LIFT OATA (t)
Pump Intake
D [
~^r
add dalata modify
ErEH
air buckat cantrifugal ie* pltton rotary twbmargiUle turbina iiiAwwn other
Setting
^-°T4.vl ° l G h l ~ "w T*1
diatal vltctric jnolma hand LP 9*1 natural windmill nthar
\£L
/
:a
month day
Horsepower
MAJOR PUMP OATA (21
D [
1 1—;
T • | A 0 M *
¦I ~
add dalata modify
1 j L_ L 1
Type of
Lift
4 3# 1
1 * i
L .I 1 J
Power Compjny ^ ^ ,
Account No 1 „ I _ 1
11
Lift Entry No I
ill
Manufacturer g
of Pump 1
r.| N.m. ol Po«r ' ;;
' Company i I
L i L .1. i_
1 J l_ -L_ J
Pow., m
Meter No '¦ 1 ' ' »
I ¦ ' J I L
03
Rating _
' » ' i ' ' '
Per von or Company Who 54*'
tamtams the Pump 1. ^ 1
71*]
rrr;
Additional Lift
Rated Pump
Capacity
STANDBY POW6P DATA 12}
add dalati modi*
(Sec LIFT OATA for code* of fields 43 and 56 below!
Type of
Lift
43# '
pirE^LB
Lift
Entry
No
AVAILABLE LOG DATA (1)
[r ¦ 19 aj»j Q
add dalata modify
Type of
109®
I
1 99 1
*
1 9f> C
*
199#
~
193 a
*
New Card for Each Log Type
Same R & T
"20V.
Depth _ .
JjtOO-
1 I ' *_!. j.—,
*
. i i_j!i l -L
End
DeptTt
20 1-
201 -
201 •
1
r.
j_ 1 i 1—u, i-
1_ I I 1*1.
1 1-.. 1 i-2-l
-*-¦+
201-|
J 1 I 1 i_ _i
. j L_
Source of
Oata®
20 2 ¦
*
2 0 2 "
*
202 -
*
202-
*
WATER QUALITY DATA COLLECTION (1)
add d*lm modify
¦ , ,T1
I 117¦
Agency I ' ' ' <
Frequency
of Collection 3
tvb,°i < r
Analyses i—
WATER LEVEL DATA COLLECTION (11
add dalata modify
rLHHj
¦ ' '
Jd
3 zznnn.
1 1 1 1 1
Frequency
of Collection 3%
lLE
WATER PUMPAGE/WITHDRAWAL DATA COLLECTION 411
|r ¦ H7[ *]
Frequency
of Collection %
add delete mbdif
^"1 128#
Ytar ¦
End
Year
Network Site
Method of f~~
Collection L
tlltvlitld ••timattd miiirtd unknown othti
OTHER DATA AVAILABLE (II
|r - 1 80
*
T -
ADM
*
Type of
Oft*
iei"1
3, Jim-! c 0
z
~ I _ I 261 •
I Fnrnut I
F M
p z |»
add dalete modify
COO pari to* difirda* nutrianti nnniiy eodaa cadat coda* coda* coda* all o> othv
0&O BAE 0ftF (ME C D&E moti
-------�
EXHIBIT 5-14 (Continued)
G60HY0R0L0GIC UNIT DESCRIPTIONS (1)
R - 90
T -
ADM
Entry!
256 0
n j
J to TopT
.91-
' l i i i i * i >
7| D«pth toI g2.
_l Bottom I
•dd d• t• modify
Unit
Identifier
Uthology
Litholove I 9?.
Modifier I
ii i i i i_
E
AQUIFER DATA (2)
» It- A D M 1*1
¦dd d*l«i* mod»ly
Geohydrolope
Unit Entry No
256 #
95 0
¦ / ¦ A
I 1 I—I—L.
monin dif veer
%w,,er r^iri—
Contributed I I i i
GEOHYOROLOGIC UNIT DESCRIPTIONS (1)
R- 90 | ~ | | T¦ ' A D M | »
•dd d«l»l« modify
Entry
No
?5» D I | I I ~
°«<"h |91-|
10 Top I i—1—
Lithdogy
! 96' I . , ¦ I
71 97.
1 Modifier t
Depth tof
AQUIFER DATA (2)
| R - 94 | »~1 | T- I
A D M j»|
•dd diliii modify
CtohydrolosK
Unit Entry No L.
95#' , / /
126-
month day
%w"w _ T
Contributed 1 ' I i .J
PERTINENT REMARKS
R ¦ 1 8 3| »| |T«i A l»| |1 8 S ¦ | |
i i i > ' 1 ¦ i < I—1—
i ill i i_
i.ii
r.1
New Card Same R&T
¦ I ' ' ' t L_
i i I i « i I I—I—I—I—L_
ll 8 5 ¦ sl
I • I I I 1 1 1 L_
i i i i > I i i i I i ' I I I I—I—L_
i i I i i i I I
f
L S GOVERNMENT PRINTING OFFICF I97fi O - 213-137
5-40
-------�
The Water Quality Analysis Rranch (WQAB) maintains both
conversational and batch software at the Environmental Protection
Agency s National Computer Center. The WQAB conversational pro-
cedures provide access to eiqht environmental data bases and may
be used with graphic or non-graphic terminals. Two of the many
WQAB conversational procedures available are "SITEHELP" and "PARM."
In the following examples all user entered lines are followed by
a carriage return and are underlined for identification. Explana-
tory comments are enclosed in parentheses.
In this example SITEHELP" is used to find and access ground-
water monitoring stations by city name.
WQAB SITEHELP (AU0WS access t0 the conversing, procedure and prompts
user for data about terminal type and tso session.)
OPTION? (jhg computer's prompt message when the WQAB conver-
sational procedure is waiting for user input.)
WELLS ONLY
OPTION?
(The user requested that stations are to be wells only)
cgordonsville ya (the USBr requested thatGordonsville Virginia be located.
The systems response provides the Lat/Long, Major/Minor
Basins (0215), Congressional District (CD07), Orange County,
1970 population (1253), and is near the North Anna river).
CITY 36840 LAT 380830 LNG 781118 FLAG « MJMN 215 SBC ? SMSA -1 SD
? CD 07 FPS70 3 CPS70 2
GORDONSVILLE ORANGE
C60 1109 C70 1253 C80 -1
02080106026 0.00 N N ANNA R
OPTION?
find 380830 78118 0.5
(the user requested that the system find the steam (s) that are
within 0.5 miles of Gordonsville, Virginia Lat/Long (38 08' 30"
and 78 11' 18").)
02080106026 S Anna River (The system found reach number 02080106026 of the S Anna River)
OPTION?
rch 02080106026
SCALE?
TOL?
(The user requested data on the South Anna River.)
(Allows user with graphic terminal to adjust scale of graphic displays.
The user entered a carriage return )
(Allows the user with a graphic terminal to adjust tolerance on river
traces. The user entered a carriage return.)
NO DRINKS ON REACH
0 WO STATIONS WITH REACH NUMBERS
PRESENT COORDINATE LIMITS FOR WATER QUALITY RETRIEVAL
LATMAX 38 11 36 8 LATMIN 37 47 42.9
LONMAX 78 13 20.6 LONMIN 77 50 42.7
ENTER KEYWORD AIM Li NEW VALUE OR RETURN (The user enters a carnage return)
^ LEAST 300 WQ STATIONS IN WINDOW (The system indicates that there are 300 wells for
the requested area.)
OPTION?
con^ (The user requested data on the first 12 wells. See next page)
5-41
-------�
S ANNA R
02080106036(4) LEN 48.90 LR 1.00
TYPE S LEVEL 2 TRNS
DOWNSTREAM: 02080106034 COMPLEMENT. 02080106003S
UPLEFT: - UPRIGHT: -
DATE 860206 TIME 172766
CIBG036N1
MONITORING STATIONS
1
21VASWCB
154-00202
LOUISA
2
21VASWCB
154-00203
LOUISA
3
21VASWCB
154-00204
LOUISA
4
21VASWCB
154-00205
LOUISA
5
21VASWCB
168-00065
TOWN OF GORDONSVILLE
6
21VASWCB
154-00150
GORDONSVILLE
7
21VASWCB
168-00115
TAGOODALL
8
21VASWCB
154-00460
GORDONSVILLE
9
21VASWCB
154-00463
GORDONSVILLE
10
21VASWCB
154-00229
LOUISA
11
21VASWCB
154-00211
YANCEYVILLE
12
21VASWCB
154-00153
VIRGINIA VERMICULITE =# 1
(The data on the first
12 wells is printed and a
map of the S Ann River
reach is drawn with station
location indicated.)
i GORDONSVILLE
OPTION?
M 21VASWCB 154-00460
21VASWCS 154-00460
38062100781111104
02-NOR1H ATLANTIC
15—RAPPAHANOCK/YORK/COAST
GORDONSVILLE
VIRGINIA
51109
021500
060104
9999
/TYPE/AMENT/WELL
LOUISA
02080106
OWNERS NAME. ROBERT E NORTON #1
DRILLER. CLAYTON
DATE COMPLETED: 1981
PROVINCE. 2
WATER ANALYSIS YES
TYPE FACILITY FARM
ABANDONED
(The user requested that
the description paragraph
information from the STORET
WQF be displayed by entering
the command "M" followed by
the STORET agency code and
STORET Station number.)
TYPE RIG ARO
TYPE LOGS.
AQUIFER TEST:
TOPOMAP 172-C
CUTTINGS:
LOUISA
MINERAL /T/
OPTION?
L.
MILES o
_J
11
ITAKE DEPTH: 0030
5-42
-------�
In this example "PARM" is used to access the STORET Water
Quality Pile (WQF) parameter file by parameter code. The output
is a complete description of all monitoring data available for
the specified parameter. As indicated in the example "PARM" can
be used to identify the CAS number which corresponds with the
STORET parameter codes.
READY
wqab parm (The WQAB "PARM" PROCEDURE IS EXECUTED )
ATTEMPTING ENTRY TO WATER QUALITY ANALYSIS
BRANCH SOFTWARE PACKAGE - PARM
'SKIP DESCRIPTIVE NARRATIVE? "YtESI" OR "N(0|"?
V
1) STORET PARAMETER
2) CASN#
3) GROUP/MEDIA
4) BATCH (REPORTS FOR ALL PARAMETERS)
5) END
OPTION?
L (OPTION 1 IS SELECTED TO DISPLAY PARAMETER INFORMATION ON THE TERMINAL )
ENTER S-T-O-R-E-T PARAMETER NUMBER OR "END" 1034 (INFORMATION ABOUT CHROMIUM-
S-T-O-R-E-T PARAMATER NUMBER 01034 PARAMATER CODE 1034 IS REQUESTED I
GROUP CODE 08 (METALS)
SAMPLE MEDIA W (WATER)
ANALYSIS TYPE 1 (TOTAL)
REPORTING UNITS B (UG/L)
AGC •
PUBLISH FIELD T
DECIMAL POINT- 1 (XXXXXXXX)
SHORT NAME CHROMIUM
CR, TOT
UG/L
FULL NAME CHROMIUM, TOTAL (UG/L AS CR)
ENTRY DATE "YYMM"- 7005
ORIGIN OF REQUEST-MAJOR E
ORIGIN OF REQUEST-MINOR ROB
CAS NUMBER' 7440473
TOTAL OBSERVATIONS AS OF 1977 180308
PERCENTS 1972-77 68
PERCENTS 1967 71 28
PERCENTS PRE 1967 3
CONTAMINANT IDCODE 1020>
«SURFACE WATER»
"NUMBERS OF OBSERVATIONS AS OF JULY 1985 "
BY EPA REGION—NON-GS AND ALL
NGS ALL NGS ALL
1-
3525
6329
6-
23225
43845
2-
10014
15786
7-
8351
12821
3-
44952
50711
8-
19713
27823
4-
49731
62470
9-
9392
14146
6-
52184
70700
10-
10802
16762
US-
231889
320393
CANADA—ALL - 585
NASQAN - 15734
GROUNDWATER
ALL USERS - 46338
NON USGS - 34863
XREF NAME RORAAPXH
5-43
-------�
ENTER S-T-O-R-E-T PARAMETER NUMBER OR "END" find. (Option 1 is ended.)
*
I 1) STORET PARAMETER
J 2) CASN #
I 3) GROUP/MEDIA
* 4) BATCH (REPORTS FOR ALL PARAMETERS)
* 5) END
OPTION? (Option 2 is selected to display on the terminal parameter codes associated with
2. user provided CAS numbers.)
ENTER CASN, OR "END" 7440473 (The CAS number is entered and associated STORET
TOTAL OCCURRENCES 36 parameter codes are displayed.)
LIST? "Y(ES)" OR "N(O)"
PARAMETER NUMBERS CONTAINING CAS # 744.0473
01024 01029 01030 01031 01034 01118
01254 01255 46244 46271 46308 46560
61511 61512 61513 71939 71943 71947
78413 79735 81215 81217 81729 81736
81745 81773 81781 81789 81796 82058
82069 82399 82498 82499 82600 85007
ENTER CASN, OR "END" end (Option 2 is ended.)
•
»
•
1)
STORET PARAMETER
*
*
•
*
t
•
2)
CASN#
*
*
•
•
3)
GROUP/MEDIA
*
*
*
*
4)
BATCH (REPORTS FOR ALL PARAMETERS)
*
*
*
•
5)
END
*
OPTION?
5 (Option 5 is selected to end the WQAB "PARM—procedure and return to TSO.)
"PARM" COMPLETED—(02/19/86)—(11:16:38)—(MLGA021)
READY
Information on "SITEHELP" "PARM" and other Water Quality
Analysis Branch software can be obtained from Phil Taylor
202/382-7046.
5-44
-------�
APPENDIX A
Graphic Illustration of Where to Place
Descriptors in the STORET Data Record
-------�
APPENDIX A-1
Station Descriptor Locations in the STORET Data Base
For Ground-Water/STORET Users
Descriptor Type-Facility
Subcategories
Station
Descriptive
Parametric Data
Header
Paragraph
Fixed-date
Variable date
Facility name X
Type of waste management area (landfill, etc) X
RCRA-regulating agency X
Facility Dun & Bradstreet number X
State/county codes and names X
Major/minor/sub-basin codes and names X
Hydrologic unit (USGS) X
Facility type ** (treater, storer, etc) X
Other permits held by facility X
Permit status X
Ownership of facility ** XX
Legislation of concern ** XX
Facility history X
* — Numbers in parentheses are STORET parameter codes
** — Information may fall into several categories and/or be stored in several locations
-------�
APPENDIX A—I (continued)
Station Descriptor Locations in the STORET Data Base
For Ground-Water/STORET Users
Descriptor Type-Facility
Station
Descriptive
Parametric Data
Subcategories
Header
Paragraph
Fixed-date
Variable date
Land use X
Potential targets, nearby sensative X
ecosystems
Contacts for further information ** X X
Total well field description X
Other monitoring activities X
* — Numbers in parentheses are STORET parameter codes
** — Information may fall into several categories and/or be stored in several locations
-------�
APPENDIX A-1 (continued)
Station Descriptor Locations in the STORET Data Base
For Ground-Water/STDRET Users
Descriptor Type-Well
Station
Descriptive
Parametric Data
Subcategories
Header
Paragraph
Fixed-date
Variable date
Latitude/longitude X
Well "position" relative to waste X X
management area
Purpose of well (84061) X X
Type of monitoring (RCRA, etc.) X
Drilling method (84063) X
Screened interval (82509) X
Depth of hole (72001) X
Depth of well (72008) X
Well intake finish (84113) X
Wfell casing material (84114) X
Type of material frcm which opening is made (84115) X
* — Numbers in parentheses are STORET parameter codes
-------�
APPENDIX A-1 (cont i nued)
Station Descriptor locations in the STORET Data Base
For Ground-Water/STORET Users
Descriptor type-Physical setting Station Descriptive
Subcategories Header Paragraph
Parametric Data
Fixed-date
Variable date
Proximity and position relative to drink-
ing water sources
Lithologic modifier
Source of qeohydroloqic data (84112)
Topography (84060)
Geologic age or formation name (84000)
Aquifer name (84001)
Lithology
Aquifer thickness
Depth to top of lithologic unit (73661)
Depth to bottom of lithologic unit (73662)
* — Numbers in parentheses are STORET parameter codes
X
X
X
X
X
X
X
-------�
APPENDIX A-I (continued)
Station Descriptor Locations in the STORET Data Base
For Ground-Water/STORET Users
Descriptor Type-Well Station Descriptive
Subcategories Header Paragraph
Parametric Data
Fixed date
Variable date
Drilling fluid (84116; used with 84063, X
"drilling method")
Available logs (in variable date if more X X
than one log is available)
Type of surface seal (84117) X
Bottom of seal (73663) X
Method of development (84118) X
Top of casing belcw LSD (73664) X
Bottom of casing segment below LSD (73665) X
Casing thickness (73666) X
Diameter of open section (73667) X
Width of opening (73668) X
Length of well opening (73669) X
Source of evacuation data (84119 X
* — Numbers in parentheses are STORET parameter codes
-------�
APPENDIX A-I (continued)
Station Descriptor Locations in the STORET Data Base
For Ground-Water/STORET (Jsers
Descriptor Type-Well
Station
Descriptive
Parametric Data
Subcategories
Header
Paragraph
Fixed date
Variable date
Casing inner diameter (82513) X
Casing outer diameter (73670)
Bore hole diameter (82513) X
Packing material (84120) X
Date of analysis (73672) X
Date of extraction (73673) X
Type of water use (84056) X
*
— Numbers in parentheses are STORET parameter codes
-------�
APPENDIX A-II (continued)
Sample Descriptor Locations in the STORET Data Base
For Ground-Water/STORETT Users
Descriptor Type - Sampling Analysis
Station
Descriptive
Parametric Data
Subcategories
Header
Paragraph
Fixed-date
Variable date
Volume of water evacuated from well prior to X
sample collection (73675)
Method of evacuation (84124) X .
Method of water-level measurement (84125) X
Monitoring well sampling method X (TJMK)
Lab identification number (00008) X
Sample number and type X (SMK)
Sampling and analytical technique X (UMK)
Pumping period (72004) X
Sampling point description (84062) X
Data quality assessment (84129] X
Source of depth data (84126) X X
Method of depth measurement (34127) X
*
— Numbers in parentheses are STORET parameter codes
-------�
APPENDIX A—II (continued)
Sample Descriptor Locations in the STORET Data Rase
For Ground-Water/STORBT Users
Descriptor Type - Sample purpose
Subcategories
Station
Descriptive
Parametric Data
Header
Paragraph
Fixed-date
Variable date
Performer of sampling (84067)
Sampling type and frequency (84053)
Inspection type (84057)
Regulating agency (84121)
Sampling purpose (84122)
X
X
X
X
X
*
— Numbers in parentheses are STORET parameter codes
-------�
APPENDIX A—II (continued)
Sample Descriptor Locations in the STORET Data Base
For Ground Water/STORET Users
Descriptor type-Sampling condition Station Descriptive
Subcategories Header Paragraph
Parametric Data
Fixed-date
Variable date
Production level (73674)
X
Sampling date
X
Elevation of land surface datum (72000)
X
Elevation of ground water (71993)
X
Depth to water level (72019)
X
Water level relative to mean sea
X
level (82545)
Measuring point elevation (82514) X
Depth from level to measuring X
point (82546)
* — Numbers in parentheses are STORET parameter codes
-------�
APPENDIX A-II (continued)
Sample Descriptor Locations in the STORET Data Base
For Ground-Water/STORET Users
Descriptor Type - Sampling Analysis
Station
Descriptive
Parametric Data
Subcategories
Header
Paragraph
Fixed-date
Variable date
Source of evacuation data (84119) X
Source of water level data (84128) X
* —.
— Numbers in parentheses are STORET parameter codes
-------�
APPENDIX B
Station Descriptor Parameter Codes,
Values and Definition
-------�
Appendix B
Station Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name Values Value Definitions
Facility Descriptors
84059 Well ownership
PRIV
Private
COMM
Commercial
STATE
Statercial
CORP
Corporation
FED
Federal
INST
Institutional
Physical Setting Descriptors
84000
Geologic age or formation name
See
Appx. I
84001
Aquifer name
See
Appx.I
84060
Topography
VALLY
Valley
SLOPE
Slope
HLLTP
Hilltop
DRAW
Draw
FLAT
Flat
ALVFN
Alluvial fan
PLAYA
Playa
-------�
Appendix B (continued, p«2)
Station Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name Values Value Definitions
Physical Setting Descriptors (continued)
84060 Topography (continued)
STRCH Stream channel
LCDEP Local depression
DUNES Dunes
FLPLN Flood plain
SNKHL Sinkhole
LSM Lake, swamp, or marsh
MNGKV Mangrove swamp
ESTRY Offshore (estuary)
PEDMT Pediment
TERRC Alluvial or marine terrace
UNDLG Undulating
OTOER Other
84111
Lithologic Modifier
GW
GP
<34
GC
SW
SP
W611 graded gravel, gravel-sand mixture,
little or no fines
Poorly-graded gravels, gravel-sand mixture,
little or no fines
Silty gravels, gravel-sand-silt mixture
Clayey qravels, gravel-sand-clay mixtures
Well-graded sands, gravelly sands, little or
no fines
Poorly-graded sands, gravelly sands, little
or no fines
-------�
Appendix B (continued, p.3)
Station Descriptor Parameter Codes, Values, and Definition
Parameter
Code
Name
Values
Value Definitions
Physical Setting Descriptors (continued)
84111 Lithologic modifier (continued)
84112
Source of qeohydroloqic data
SM
SC
ML
CL
OL
MH
CH
OH
PT
DRLLG
GLGST
GPHYS
MEMRY
OWNOP
Silty sands, sand—silt mixtures
Clayey sands, sand—clay mixtures
Inorganic silts and very fine sands, rock
flour, silty or clayey fine sands or clayey
silts with slight plasticity
Inorganic clays of low to medium plasticity,
gravelly clays, sandy clays, silty clays, lean
clays
Organic silt and organic silty clays of low
plasticity
Inorganic silts, micaceous or diatomaceous fine
sand or silty soils
Inorganic clays of high plasticity, fat clays
Orqanic clays of medium to high plasticity,
organic silts
Peat, humus, swamp soils with high organic
contents
Driller's log or report
Private geologist/consultant
Depth interpreted from geophysical
logs by some source agency
Memory
Reported by well cwner/operator
-------�
Appendix B (continued, p.4)
Station Descriptor Parameter Codes, Values, and Definition
Parameter
Code
Name
Values
Value Definitions
Physical Setting Descriptors (continued)
84112 Source of geohydrologic data
73661 Depth to top of lithologic unit
73662 Depth to bottan of lithologic unit
Well Descriptors
84063 Drilling method
OTHER Reported by other
RAGNC Measured by reporting agency
EPA EPA
STATE State
CL Contract labs
ESDLS ESD labs
Depth in feet to top of aquifer unit
Depth in feet to bottcm of aquifer unit
AIRRT Air rotary
BORE Bored or augered
CABLE Cable-tool
DUG Dug
HYDRT Hydraulic rotary
JET Jetted
AIRPR Air percussion
RVRT Reverse rotary
DRIVN Driven
EWASH Drive-wash
OTHER Other
-------�
Appendix B (continued, p.5)
Station Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name Values Value Definitions
Well Descriptors (continued)
84063 Drilling method (continued)
82509
72001
72008
Screened interval
Depth of hole
Depth of well
T3NCH Trenching
SLDAG Sol id auger
RKTAG Bucket auqer
HLWAG Hollow auger
WLINE Wire line
Length of screen, in feet
Depth, in feet below LSD, of borehole into
which well was placed
Depth, in feet belcw LSD, or well bottom
-------�
Appendix B (continued, p.6)
Station Descriptor Parameter Codes, Values, and Definition
PcHTcDT^6t©IT
Code Name Values Value Definitions
Well Descriptors (continued)
84113 Well intake finish
PCNCT Porous concrete
FLPRF Field perforations
FCPRF Factory perforations
HZDGL Horizontal gallery
OPNND Open end
MSCRN Screen, machine slotted
FSCRN Screen, field slotted
WSCFN Screen, wrapped wire
SNDPT Sand point
PSYN Porous synthetic
WALLD Walled
OPNHL Open hole
OTHER Other
FRCRK Fractured rock
LVRSC Louvered or shutter-type screen
MSHSC Mesh screen
PERFC Perforated, pourous, or slotted casing
WWDSC Wire-wound screen
SNDPT Sand point
WLDSH Walled or shored
OPNHL Open hole
UNKSC Screen type unknown
OTOER Other
UNKN Unknown
-------�
Appendix B (continued, p.7)
Station Descriptor Parameter Codes, Values, and Definition
Parameter
Code
Name
Values
Value Definitions
Well Descriptors (continued)
84114 Well Casing Material
BRSBZ
Brass or bronze
SS305
Stainless steel
SS316
Stainless steel
crmss
Other stainless
STEEL
Steel
CTSTL
Coated steel
COPPR
Copper
GALFE
Galvanized iron
WRTFE
Wrouqht iron
OTHRM
Other metal
BRICK
Brick
CNCRT
Concrete
PVC
PVC
FBRGL
Fiberglass
OTHPL
Other plastic
TEFLN
Teflon
ROCK
Rock or stone
TILE
Tile
WOOD
Wood
CITHER
Other
305
316
-------�
Appendix B (continued, p»8)
Station Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name Values Value Definitions
Well Descriptors (continued)
84115
Type of Material from Which
Opening is Made
BRSBZ
Brass or bronze
SS305
Stainless steel
SS316
Stainless steel
OTHSS
Other stainless
STEEL
Steel
CTSTL
Coated steel
COPPR
Copper
GALFE
Galvanized iron
WRTFE
Wrought iron
OTHPM
Other metal
BRICK
Brick
CNCRT
Concrete
PVC
PVC
FBRGL
Fiberglass
OTHPL
Other plastic
TEFIN
Teflon
ROCK
Rock or stone
TILE
Tile
WOOD
Wood
OTHER
Other
-------�
Appendix B (continued, p.9)
Station Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name Values Value Definitions
Well Descriptors (continued)
84116
84055
Drilling Fluid (to be used with
parameter code 84063, "drilling
method"; to enter several, enter
as separate records one minute
apart)
Available logs
AIR
Air
WATER
Water
BENTT
Bentonite
on NO
Other inorganic
REVRT
Revert
OORG
Other organic
E
Electric log
G
Gamma log
L
Lithologic log
D
Drillers log
T
Temperature log
C
Caloper log
R
Radiation loq
DRLTI
Drilling time log
CSCOL
Casing collar log
FLOON
Fluid conductivity log
GSAMP
Geologists or sample log
-------�
Appendix B (continued, p.10)
Station Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name
Values Value Definitions
Well Descriptors (continued)
84055 Available logs (continued)
84117
73663
Type of surface seal
Bottom of seal
MAGN
INDCT
GRAY
DPMSV
LTRLG
MICRO
NTRN
MCLTR
PHOTO
SONIC
GGLOG
FLVEL
CORE
VIDEO
OTHER
BNTWT
CLYCT
CMGRT
CTIHER
Magnetic log
Induction log
Ganma ray log
Dipmeter survey log
Laterlog
Microlog
Neutron log
Microlaterloq
Photographic log
Sonic log
Gamma gamma log
Fluid velocity log
Core log
Video log
Other
Bentonite
Clay or cuttinqs
Cement grout
Other
Depth, in feet belcw land surface, to
bottom of seal
-------�
Appendix B (continued, p.11)
Station Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name
Values
Value Definitions
Well Descriptors (continued)
84118 Method of development
73664
73665
73666
73667
73668
Tbp of casing below LSD
Bottcm of casing segment below LSD
Casing thickness
Diameter of open section
Width of opening
AIRFT
BAILD
COMPR
WJTTD
NONE
PUMPD
SRGBL
OTHER
Air lift
Bailed
Blcwn or surged with compressed air
Washed or jetted
None
Pumped
Surged with surge block
Other
Depth to top of casing section, in feet below
land surface, negative value if casing extends
above land surface
Depth to bottom of casing section, in feet
below land surface
Thickness of casing walls, in indies
Diameter of perforated or slotted pipe, screen,
or hole (in inches)
Short dimension of perforation or slots, or
mesh size of screens (in thousanths of an
inch)
-------�
Appendix B (continued, p.12)
Station Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name Values Value Definitions
Vtell Descriptors (continued)
73669 Length of well opening
Long dimension of perforations or slots,
individual openings in screen or slotted
pipe (in inches)
84119
73670
Source of evacuation data
Well casing outer diameter
EPA EPA
OWNOP Owner/operator
CL Contract labs
ESDLB ESD labs
STATE State
OTHER Other
Diameter, in inches, from center of well to
outside of casing
82513
73671
Casing diameter (inches)
Bore hole diameter
Diameter, from center to inner casing, in
inches
Diameter of hole into which well is inserted,
in inches
-------�
Appendix B (continued, p.13)
Station Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name Values Value Definitions
Well Descriptors (continued)
84120 Packing material
73672
73673
84061
Date of analysis
Date of extraction
Wfell use
SAND Sand
GRAVL Gravel
NBKFL Natural backfill
SYNTH Synthetic
Date sample was analyzed in laboratory or
field to obtain reported value, in YYMMDD
Rate organic extraction was made to obtain
reported value, in YYMMDD
OBSWL Observation well
WTRSP Water Supply
PETRO Oil or gas
RSRCH Research
I&JCT Injection/disposal
ABAN Abandoned
DEWTR Depressuri ng/
dewateri ng
MINNG Minning
UNUSD Unused
-------�
Appendix B (continued, p.14)
Station Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name Values Value Definitions
Well Descriptors (continued)
84061 Well use (continued)
84056
Type of water use
RECHG
Recharge
DRAIN
Drainage
MONWQ
Water guality
monitoring
ANOD
Anode
EMSPL
Stand-by emergency supply
GEOTH
Geothermal
SEIS
Seismic
HTRES
Heat reservoir
MINE
Mine
REPRS
Repressurize
TEST
Test
UNUSD
Unused
WWDRL
Withdrawal of water
DSTRD
Destroyed
OTHER
Other use
UNKN
Unkncwn use
DMSTC
Domestic
IND
Industrial
PIJBSP
Public supply
OOMM
Carrie rcial
-------�
Appendix B (continued, p.15)
Station Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name Values Value Definitions
Well Descriptors (continued)
84056 Type of water use (continued)
FIRE
Fire protection
PROC
Processing
IRRIG
Irrigation
STKSP
Stock supply
AC
Air condition
BOTTL
Bottling
MIDIC
Medicinal
RECR
Recreational
DSAL
Desalination
COOL
Cooling
DEWIR
Dewater
PCWR
Power
MING
Mining
AOCTJT
Aquacultural
INST
Institution
UNUSD
Unused
OTHER
Other
-------�
APPENDIX C
Remark Codes to Use with STORET Data
-------�
APPENDIX C
Remark Codes to Use With STORET Data
Code Definition
Blank No remark
J Estimated value
K Actual value is known to be less than the value shown
L Actual value is known to be greater than the value
shown
M Presence of material verified but not quantified
N Presumptive evidence of presence of material
U Material specifically analyzed for but not detected
B Results based on colony count outside the acceptable
range (non-ideal colony count)
-------�
APPENDIX D
Sample Descriptor Parameter Codes,
Values and Definition
-------�
Appendix D
Sample Descriptor Parameter Codes, Values, and Definition
Parameter
Code
Name
Sample purpose descriptors
84053 Sample type and frequency
Values
Value
Definitions
WQM
Water
quality, monthly
W3Q
Water
quality, quarterly
WQS
Water
quality, semi-annually
WQA
Water
quality, annually
WLC
Water
level, continuous
WLM
Water
level, monthly
WLQ
Water
level, quarterly
WLS
Water
level, semi-annually
WIA
Water
level, annually
84067
Nature of monitoring
SELF
COMP
Facility collected and analyzed sample
Regulating agency collected and analyzed
sample for compliance monitoring
-------�
Appendix D (continued, p.2)
Sample Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name Values Value Definitions
Sample purpose descriptors (continued)
84121 Regulating agency
84122
Sample purpose
Sampling condition descriptors
STATE State is regulating facility
FEDL Federal agency is regulating facility
OTHER Other agency is regulating facility
BKGPD Sampled to determine background levels
GW3AL Sampled to determine ground-water quality
EWDAL Sampled to determine ground-water suita-
bility as drinking water source
CNTMN Sampled to determine ground-water contamination
ASMNT Sampled as part of facility's assessment plan
PRMIT Sampled as part of facility's permit requirements
73674
72000
Production level
Elevation of land surface datum
Water level, in feet below LSD, while well was
discharging
Elevation of land surface, in feet above mean
sea level
-------�
Appendix D (oontinuedf p.3)
Sample Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name
Values
Value Definitions
Sampling condition descriptors (continued)
71993 Elevation of ground water
72019
82545
82514
Depth to water level
Water level relative to mean sea level
Measuring point elevation
82546 Depth from level to measuring point
Sampling/Analytical Methods Descriptors
73675 Volume of water evacuated from well
prior to sample collection
Elevation of top of water table at sampling
point, in feet above mean sea level
Depth, in feet, from land surface to top of
water table at sampling point
Difference between top of water table and
mean sea level at sampling point
Elevation of measuring point, in feet above
mean sea level
Depth, in feet, from land surface to measuring
point, in feet
In gallons
-------�
Appendix D (continued, p.4)
Sample Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name Values Value Definitions
Sampling/analytical methods descriptors (continued)***
84119 Source of evacuation data
84124
Method of evacuation
EPA
EPA
CWNOP
Omer/operator
CL
Contract labs
ESDL
ESD labs
STATE
State
OTHER
Other
APUM
Air lift pump
BAIL
Bailed
COMPA
Compressed air
JETD
Jetted
PERP
Peristaltic pump
CENP
Centrifugal pump
PITP
Pitcher pump
SMPL
Sampler
BUCKT
Bucket
RTPMP
Rotary pump
SBPMP
Submersible pump
TBPMP
Turbine pump
PSPMP
Piston pump
BOTVB
Bottom valve bailer
SRNGB
Syringe bailer
DULVB
Dual valve bailer
BLDRP
Bladder pump
-------�
Appendix D (continued, p.5)
Sample Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name Values Value Definitions
Sampling/analytical methods descriptors (continued)
84124 Method of evacuation (continued)
84125 Method of Water-Level Measurement
NLFTP
Nitrogen lift pump
OGMPN
Canpressed nitrogen
UNKN
Unknown
CITHER
Other
ARLMS
Airline measurement
ANGRP
Analog or graphic recorded
CARLM
Calibrated airline measurement
EST
Estimated
PRSG
Pressure-gage measurement
CPRSG
Calibrated pressure gage
GPHYS
Interpreted from geophysical logs
MNMTR
Manometer
NRECG
Non-recording gage
UNKN
Reported, method unknown
STLTP
Steel tape
ECTP
Electric tape
CHLIN
Chalk line
SOUND
Sounder
CELTP
Calibrated electric tape
OTHER
Other
UNKN
Unknown
-------�
Appendix D (continued, p.6)
Sample Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name Values Value Definitions
Sampling/analytical methods descriptors (continued)
84126 Source of depth data
84127
Method of depth measurement
DRLLG Driller's log or report
GLGST Private geologist/consultant
GPHYS Depth interpreted frcm geophysical logs
by sane source agency
MEMRY Memory
OWNOP Reported by well owner/operator
OTHER Reported by other
RAGNC Measured by reporting agency
EPA EPA
STATE State
CL Contract labs
ESDLB ESD labs
STLTP Steel tape
EST Estimated
CHLIN Chalk line
.SOUND Sounder
GPHYS Interpreted frcm geophysical logs
UNKN Unknown
OTHER Other
-------�
Appendix D (continued, p.7)
Sample Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name Values Value Definitions
Sampling/analytical methods descriptors (continued)
84128 Source of water lev6l data
DRLLG Driller's log or report
GLGST Private geologist/consultant
GPHYS Depth interpreted frcm geophysical logs by
seme source agency
MEMRY Memory
OWNOP Reported by well owner/operator
OTHER Reported by other
RAGNC Measured by reporting agency
EPA EPA
STATE State
CL Contract labs
ESDLB ESD labs
84077
Monitoring well sampling method
APUM Air lift pump
BAIL Bailed
COMPA Compressed air
JETD Jetted
PERP Peristaltic pump
CENP Centrifugal pump
PITP Pitcher pump
-------�
Appendix D (continued, p.8)
Sample Descriptor Parameter Codes, Values, and Definition
Parameter
Code Name Values Value Definitions
Sampling/analytical methods descriptors (continued)
84077
Monitoring well sampling method
(continued)
SMPL Sampler
BUCKT Bucket
RTPMP Rotary pump
SBPMP Submersible pump
TBPMP Turbine pump
PSPMP Piston pump
BOTVB Bottom valve bailer
SRNGB Syringe bailer
DULVB Dual valve bailer
BLDRP Bladder pump
NLFTP Nitrogen lift pump
OOMPN Ccnpressed nitrogen
UNKN Unknown
OTHER Other
00008
72004
Lab identification number
Pumping period
Coded identification number for laboratory
where sample was analyzed
Pumping or flow period prior to sampling, in
minutes
-------�
Appendix D (continued, p.9)
Sample Descriptor Parameter Codes, Values, and Definition
Values Value Definitions
Parameter
Code Name
Sampling/analytical methods descriptors (continued)***
84062 Sanpling point description
84129 Data quality assessment
LNDSR Land surface
TPCAS Top of casing
PMPBS Pump base
RECRD Continuous recorded
(See Section 4.7 of this manual for code
identification)
-------�
appendix e
User Multipurpose Key ("UMK")
-------�
APPENDIX E
User Multipurpose Key (UMK)
Sampler-Type Values for Digits 1 and 2 of the UMK
Codes for Digits Definition
1 and 2
00
Entry not needed/not applicable
01
Bottom valve bailer
02
Syringe bailer
03
Dual valve bailer
04
Rotary punp
05
Centrifugal pump
06
Peristaltic pump
07
Bladder pump
08
Turbine pump
09
Piston pump
10
Air lift pump
11
Nitrogen lift pump
12
Compressed air
13
Compressed nitrogen
14
Unknown
15
Other
-------�
APPENDIX E (continued, p.2)
User Multipurpose Key CUMK")
Sampler Material Codes for Digits 3,4, and 5 of the UMK
One code per digit, up to three may be stored per sample
Code for Digit 3 and/or
4 and/or 5
Definition
0 Not applicable
1 Stainless steel
2 Polyvinyl chloride (PVC)
3 Teflon
4 Polyalkene (polyethylene, polypropylene, etc)
5 Nylon
6 Rubber
7 Other
-------�
APPENDIX E (continued, p.3)
User Multipurpose Key ("UMK")
Lab or Field Determination Flag as Sixth Digit of the UMK
Code
Definition
0
Not applicable
1
EPA Lab (in-house and contractors)
2
EPA Field (in-house and contractors)
3
Corner/operator, field
4
Omer/operator, lab
5
Contract, field
6
Contract, lab
7
Unknown
8
Other
-------�
APPENDIX E (continued, p.4)
User Multipurpose Key ("UMK")
Analytical Method Codes for the 7-8 Digits of the UMK
Code for 7th
and 8th digits Definition
00
Not applicable
01
Gas chromatography/mass spectrometry (GC/MS)
02
Gas chromatography/flame ionization detector (GC/FID)
03
Gas chroma tog raphy/electron capture detector (GC/ECD)
04
Gas chromatography/thermal conductivity detector (GC/TD)
05
Gas chromatography/other
06
Liquid chromatography
07
Other chromatography
08
Atomic absorption spectrophotometry, flame (AA/flame)
09
Atonic absorption spectrophotometry, furnace (AA/furnace)
10
Atomic absorption spectrophotometry, other
11
Inductively coupled plasma (ICP)
12
Specific ion electrode (includes pH)
13
Resistivity or conductivity
14
Other electrochemical
15
Colorimetric
16
Infra-red spectrometry (IR)
17
Other spectrophotometry
18
Titration
19
Unknown
20
Other
-------�
APPENDIX F
STORET Parameter Codes for Some
Classic Ground-Water Monitoring Parameters
-------�
APPENDIX F
STORET Parameter Codes for Some Classic Ground-Water Monitoring
Parameters
Substance
STORET PARAMETER CODES
Total or
Whole Water
Sample Units
Dissolved
Fraction
of Water Units
Suspended
Fraction
of Water Units
Drinking Water Suitability Parameters-
Arsenic
01002
Barium
01007
Cadmium
01027
Chromium
01034
Fluoride
00951
Lead
01051
Mercury
71900
Nitrate (as N)
00620
Selenium
01147
Silver
01077
Endrin
39390
Lindane
39782
Methoxychlor
39480
Toxaphene
39400
2,4-D
39730
2,4,5-TP Si1vex
39045
Radium (226 & 228)
11503
. Radium (226)
09501
. Radium (228)
11501
Gross Alpha
01501
Gross Beta
03501
ug/1
01000
ug/1
01001
ug/1
ug/1
01005
ug/1
01006
ug/1
ug/1
01025
ug/1
01026
ug/1
ug/1
01030
ug/1
01031
ug/1
mg/1
00950
mg/1
82299
mg/1
ug/1
01049
ug/1
01050
ug/1
ug/1
71890
ug/1
71895
ug/1
mg/1
n/a
n/a
ug/1
01145
ug/1
01146
ug/1
ug/1
01075
ug/1
01076
ug/1
ug/1
39391
ug/1
39392
ug/1
ug/1
38341
ug/1
n/a
ug/1
38478
ug/1
39479
ug/1
ug/1
39401
ug/1
n/a
ug/1
n/a
39733
ug/1
ug/1
n/a
n/a
pCi/1
n/a
n/a
pCi/1
09503
pCi/1
09505
PCi/1
pCi/1
81366
pCi/1
81368
pCi/1
pCi/1
01503
PCi/1
01505
pCi/1
PCi/1
p3503
pCi/1
03505
pCi/1
-------�
APPENDIX F (continued)
STORET Parameter Codes for Some Classic Ground-Water Monitoring
Parameters
Substance
STORET PARAMETER CODES
Total or
Whole Water
Sample Units
Dissolved
Fraction
of Water Units
Suspended
Fraction
of Water Units
Drinking Water Suitability Parameters (continued)
Turbidity
Coliform Bacteria
Coliform Bacteria
(Mem Fil).
(Fern Tube)
00076
31501
31505
hach ftu
c/lOOml
mpn/lOOml
n/a
n/a
n/a
Ground-Water Quality Parameters
n/a
n/a
n/a
Chloride
Iron
Phenols
Sodium
Sulfate
00940
01045
32730
00929
00945
rag/1
ug/1
ug/1
mgA
mg/1
82295
01046
32732
00930
00946
ug/1
ug/1
ug/1
mg/1
mg/1
n/a
01044
32733
00928
n/a
ug/1
ug/1
mg/1
Ground-Water Contamination Indicator Para-
meters
PH
Specific conductance
Totcil Organic Carbon
Total Organic Halogen
00400
00095
00680
s.u.
umhos/cm
mg/1
n/a
n/a
00681
mg/1
n/a
n/a
00689
mg/1
. Purgeable organic halogen DX20
. Total organic halogen DX20
. Total organic halogen
. Total organic halogen
70354
70353
81375
78115
ug/1
ug/1
ug/1
ug/1
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
-------�
APPENDIX G
STORET Parameter Codes for Some Organic Chemicals
-------�
APPENDIX G
Substance Name 1
Para.
Code(s)
Medium
Uni ts
Cas No.
Acetonitrile (Ethanenitrile) (Methyl Cyan-
76997
TOTAL
UG/L
75058
ide (Acetoni trile))
Acetophenone (Ethanone, 1-phenyl)
81553
TOT
UG/L
98862
78755
SED
ugag
98862
3-(alpha-Acetony1benzyl)-4-hydroxycoumari n
73500
TOTW
UG/L
81812
and salts (Warfarin)
2-Acetylaminofluorene (Acetamide, N-(9H-
73501
TOIW
UG/L
53963
fluoren-2-yl)-)
Acetyl chloride (Ethanoyl chloride)
73502
TOTW
UG/L
75365
1-Acety 1-2-thiourea (Acetamide, N-(amino-
73503
TOIW
UG/G
591082
thioxcmethy1)-)
Acrolein (2-Propenal)
34210
TOTAL W
UG/L
107028
34211
DISS
UG/L
107028
34212
SUSP
UG/L
107028
34213
SED
ugag
DRY WGT
107028
34214
TIS
MG/KG
WET WGT
107028
79540
WAS
mgag
107028
82158
IN AIR
N3/CC
107028
Aery1amide (2-Propenamide)
73504
TOTAL
UGA
79061
38576
Acrylonitrile (2-Propenenitrile)
34215
TOIW
UGA
107131
34216
DISS
UG/L
107131
34217
SUSP
UGA
107131
34218
SED
UGAG
DRY WGT
107131
1 — Appendix VIII pseudonym in parens, STORET para,
different frcm Appendix VIII names.
name (underlined and
in parens) if significantly
-------�
APPENDIX G (p.2)
Para.
Substance Name 1 Code(s) Medium Units Cas No.
Acrylonitrile (cont'd)
Aflatoxins ("N.O.S") 2
Aldrin (1,2,3,4,10,10-Hexachloro-l,4,4a,
5,8,8a,8b-hexahydro-endo,exo-1,4:5,8-
dimethanonaphthalene)
Allyl alcohol (2-Propen-l-ol)
Aluminum phosphide
4-Ami nobiphenyl ([1,1"-Biphenyl]-4-
amine) (P-Aminobiphenyl)
34219
79541
82159
TIS
WASTE
IN AIR
MG/KG WET WGT
MG/KG
NG/CC
code not appropriate for classes of chemicals
107131
107131
107131
39330
TOT
UG/L
309002
39331
DIS
UG/L
309002
39332
SUS FRAC
UG/L
309002
34680
TIS
MG/KG WET WGT
309002
39333
SED
ugag dry WGT
309002
39334
SHELFISH
UG/KG WT
309002
45565
ADIPOSE TIS
MG/KG
309002
46274
SOIL
NG/G
309002
61460
SLUDGE LIQ
UG/L
309002
61461
SLUDGE SOL
UGAG
309002
61462
SLUDGE TOT
UG/L
309002
79542
WASTE
mgag
309002
81713
SHEL
ugag dry V7T
309002
73505
TOW
UGA
107186
73506
TOTW
UG/L
20859738
77581
TOTAL
UG/L
92671
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in pareas) if significantly
different from Appendix VIII names.
2 — ("N.O.S.") indicates not otherwise specified in 40 CFR §261 Appendix VIII. Since this is a class
of chemicals versus a single chemical no parameter code can be assigned in the ST0RE7T system.
-------�
APPENDIX G (p.3)
n Para.
Substance Name 1 Code(s) Medium Units Cas No.
73507 TOOW
UG/L
50077
73508 TOIW
UG/L
2763964
73509 TOTW
UG/L
61825
6-Amino-l,1a,2,8,8a,8b-hexahydro-8-
(hydroxymethyl)-8a-methoxy-5-methyl-
carbamate azirino[2',3':3,4]pyrrolo
ll,2-a]ir»dole-4,7-dione, (ester)(Mit-
omycin C) (Azirino[2'3:3,4]pyrrolo
(l,2-a)indole-4,7-dione, 6-amino-
8-[((aminocarbonyl)oxy)methyl]-1,la,2,
8,8a,8b-hexahydro-8amethoxy-5-methy-)
5-(Aminamethyl)-3-isoxazolol (3(2H)—
Isoxazolone, 5-(ami nonethyl)-) 4-
Aminopyridine (4-Pyridinamine)
Amitrole (lH-l,2,4-Triazol-3-amine)
Aniline (Benzenamine) 77089
Antimony and compounds ("N.O.S.") 01097
01095
01096
01098
01099
71919
79547
Aramite (Sulfurous acid, 2-chloroethyl-, 73510
2-[4-(1,1-dimethylethyl)phenoxy]-1-
methylethyl ester)
TOTAL UGA 62533
TOT UG/L 7440360
DISS UG/L 7440360
SUSP UG/L 7440360
SED MGAG DRY W3T 7440360
TIS MGAG WET 7440360
FISH UG/GM DWT 7440360
VftSTE MG/KG 7440360
TOTW UG/L 140578
1 Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different frem Appendix VIII names.
-------�
APPENDIX G (p.4)
Para.
Substance Name ^ Code(s) Medium Units Cas No.
Arsenic and compounds ("N.O.S.") 01002
997
995
1000
22678
22680
22679
996
1001
978
1003
1004
1252
46551
61520
61521
61522
71918
79548
81743
82504
82505
82506
Arsenic acid (Orthoarsenic acid) 73511
Arsenic pentoxide (Arsenic (V) oxide) 73512
TOT
UG/L
7440382
TOT INORG
UG/L
7440382
DISS INORG
UG/L
7440382
DISS
UG/L
7440382
DISS ORG
UG/L
7440382
TOE DISS
UG/L
7440382
PENT DISS
UG/L
7440382
SUSP INORG
UG/L
7440382
SUSP
UG/L
7440382
TOT REC
UG/L
7440382
SED
MG/KG DRY WCT
7440382
TIS
MG/KG WET WGT
7440382
LB/D/CFS
7440382
ELEC T.
UGA
7440382
SLUDGE LIQ
MG/L
7440382
SLUDGE SOL
MG/KG
7440382
SLUDGE TOT
MG/L
7440382
FISH
UG/GM DWT
7440382
WASTE
MG/KG
7440382
SHELL
MG AG WET
7440382
DIS DDP
UG/KG
7440382
INSOL DD
UG/KG
7440382
TOT DRY
UG/KG
7440382
7778394
1303282
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different frcm Appendix VIII nanes.
-------�
APPENDIX G (p.5)
Substance Name 1
Para.
Code(s)
Medium
Arsenic trioxide (Arsenic (III) oxide)
Auramine (Benzenamine, 4,4'-carbonimid-
oylbis[N,N-Dimethyl-,rionohydrochloride)
Azaserine (L-Serine, diazoacetate (ester))
Barium and compounds ("N.O.S.")
Barium cyanide
Benz[c]acridine (3,4-Benzacridine)
Benz[a]anthracene (1,2-Benzanthracene)
73513
73514
73515
01007
01005
46558
01006
01008
01009
01215
01216
01217
79550
81658
81828
T0TW
TOTW
TOTW
TOT
DISS
DISS .+
SUSP
TOT.REC.
DIS DRY D
INS DRY D
TOT DRY D
WASTE
FISH
SHELL
See "Barium"; see "Cyanide"
Units
Cas No.
UGA 1327533
UGA 2465272
US/L 115026
UGA 7440393
11G/L 7440393
UGA 7440393
USA 7440393
MG/KG-BA DRY WCT 7440393
fJGA 7440393
UGAG 7440393
UGAG 7440393
UG/KG 7440393
MG/KG 7440393
MG/KG WET WGT 7440393
MGAG WET WGT 7440393
73516
TOTW
UG/L
225514
34526
TOT WTR
UGA
56553
34527
DISS
UGA
56553
34528
SUSP
UGA
56553
34529
SED
UGAG DRY WGT
56553
34530
TIS
MGAG WET WGT
56553
different from Appendix VIII names.
in parens) if significantly
-------�
APPENDIX G (p.6)
Para.
Substance Name ^ Code(s) Medium Units Cas No.
Benz[a]anthracene (continued) 79509
Benzene (Cyclohexatriene) 34030
34235
34236
34237
34238
78124
79551
Benzenearsonic acid (Arsonic acid, phenyl-) 73517
Benzene, dichloromethyl-(Benzal chloride) 77982
(di chlorophenylmethane)
Benzenethiol (Thiophenol) 73518
Benzidine ([l,l,-Biphenyl]-4,4,diamine) 39120
34239
34240
34241
39121
79553
Benzo(b)fluoranthene (2,3-Benzofluor- 34230
anthene) 34231
34232
34233
WASTE MGAG 56553
TOT UG/L 71432
DISS UG/L 71432
SUSP UG/L 71432
SED UGAG DRY WGT 71432
TIS MGAG WET WGT 71432
HOH VOL UGA 71432
WASTE MGAG 71432
TOW UG/L 98055
UG/L 98873
TOTW UG/L 108985
TOT UG/L 92875
DISS UG/L 92875
SUSP UGA 92875
TIS MGAG WET WGT 92875
SED UG/KG DRY WGT 92875
WASTE MG/KG 92875
TOTAL UGA 205992
DISS UG/L 205992
SUSP UGA 205992
riUD UGAG DRY WT 205992
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.7)
Substance Name 1
Benzo(j)fluoranthene (7,8-Benzofluor-
anthene) (10,ll-benzo(j)fluoranthene)
Benzo[a]pyrene(3,4-Benzopyrene)
(Benzo-a-pyrene)
Benzotrichloride (Benzene, trichlorcmeth-
yl) (trichloromethvl benzene)
Benzyl chloride (Benzene, (chlorcmethyl)-)
Beryllium and compounds ("N.O.S.") 2
Para.
Code(s)
77800
78122
34247
34248
34249
34250
34251
79532
p-Renzoquinone (1,4-Cyclohexadienedione) 73519
77677
73520
01012
01010
01011
00998
01013
34252
61523
61524
Medium
TOTAL
TOT
TCTCW
DISS
SUSP
SED
TIS
WASTE
TCTCW
TOTAL
TOTW
TOTS
DISS
SUSP
TOT.REC.
SED
TIS
SLUDGE LIQ
SLUDGE SOL
Units
UG/L
UG/L
UG/L
UG/L
UG/L
UGAG DRY WGT
MGAG WET WGT
MG/KG
UGA
UG/L
UG/L
UG/L
UGA
UG/L
UGA
MG/KG DRY WGT
MG/KG WET WGT
MGA
MGAG
Cas No.
205823
205823
50328
50328
50328
50238
50328
50328
106514
98077
100447
7440417
7440417
7440417
7440417
7440417
7440417
7440417
7440417
1 —
2 —
™r^s.ST0RCT Para" — > « significantly
("N^O.S^) indicates not otherwise specified in 40 CFR §261 Appendix VIII. since this is a clas«?
of chemicals versus a single chemical no parameter code can be assigned in the STORET system.
-------�
APPENDIX G (p.8)
Substance Name
Para.
Code(s)
Medium
Units
Cas No.
61525
SLUDGE TOT
MG/L
7440417
79556
WASTE
MG/KG
7440417
81854
FISH
MG/KG
DRY W3T
7440417
82525
MACRDPOT
mg/kg
7440417
34278
TOTW
UGA
111911
34279
DISS
UG/L
111911
34280
SUSP
UGA
111911
34281
SED
ug/kg
DRY W3T
111911
34282
TIS
MG/KG
WE7T WGT
111911
79559
WAS
MG/KG
111911
34273
TOTW
UG/L
111444
34274
DISS
UG/L
111444
34275
SUSP
UGA
111444
34276
SED
UG/KG
DRY WGT
111444
34277
TIS
mgag
WET VKJT
111444
79560
WASTE
MG/KG
111444
73521
TOTW
UG/L
494031
Beryllium and compounds (continued)
Bis(2-chloroethoxy)methane (Ethane, 1,1'-
[methylenebis(oxy)]bis[2-chloro-])
Bis(2-chloroethyl) ether (Ethane,
1,1'-oxybis[2-chloro-])
N,N-Bis(2-chloroethyl)-2-naphthylami ne
(Chlornaphaz i ne)
Bis(2-chloroisopropyl) ether (Propane,
2,2'-oxybis[2-chloro-])
73522
TOTW
UG/L
108601
1 —— Appendix VIII pseudonym in parens, STQRET para, name (underlined and in parens) if significantly
different frcm Appendix VIII names.
-------�
APPENDIX G (p.9)
Para.
Substance Name Code(s) Medium Units Cas No.
Bis(chlorcntehtyl) ether (Methane, 34268
oxybis[chloro-1] 34269
34270
34271
34272
82147
Bis (2-ethylhexyl) phthalate (1,2- 39100
Benzenedicarboxylic acid, bis(2-ethyl- 39103
hexyl) ester) 39104
(Diethylhexyl phthalates) 39107
(Phthalates, diethylhexy1) 39102
39099
39101
39106
Bromoacetone (2-Propanone, 1-brcsno-) 73523
Brcmanethane (Methyl brcnide) 34413
(Methyl bromide) 34414
34415
34416
79653
82169
T0TW
UG/L
542881
DISS
UG/L
542881
SUSP
UG/L
542881
SED
UG/KG DRY WGT
542881
TIS
MG/KG WET WGT
542881
IN AIR
MG/CC
542881
TOTAL
UG/L
117817
DISS
UG/L
117817
SUSP
UG/L
117817
SUS.FRAC.
MG/KG D WT
117817
MUD-
UG/KG DRY
117817
TIS
MG AG WET WGT
117817
FISH
UG/KG WWT
117817
SLDGE STP
UG/KG D WT
117817
TOTW
UG/L
598312
TOTW
UG/L
74839
DISS
UG/L
74839
SUSP
UG/L
74839
SED
UG/KG CRY WGT
74839
WASTE
MG/KG WET WGT
74839
IN AIR
NG/CC
74839
1 Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different frcm Appendix VIII names.
-------�
Substance Name *
4-Bromcphenyl phenyl ether (Benzene,
l-brcmo-4-phenoxy-)
Brucine (Strychnidin-10-one, 2,3-
dimethoxy-)
2-Butanone peroxide (Methyl ethyl ketone,
peroxide)
Butyl benzyl phthalate (1,2-Benzenedicar-
boxylic acid, butyl phenylmethyl ester)
(N-Butyl benzyl phthalate)
2-sec-Butyl-4,6-dinitrophenol (DNBP)
(Phenol, 2,4-di nitro-6-(1-methylpropy1)-)
(Dinoseb)
(2 Secondary Butyl 4,6-Dinitrophenol)
1 — Appendix VIII pseudonym in parens,
different from Appendix VIII na^nes.
APPENDIX G (p.10)
Para.
Code(s) Medium Units Cas No.
34636
34637
34638
34639
34640
73524
Tonw
DISS
SUSP
SED
TIS
TOTW
UG/L
UG/L
UGA
UG/KG DRY W3T
MG/KG WET WGT
UG/L
101553
101553
101553
101553
101553
357573
73525
TOIW
UG/L
1338234
34292
34293
34294
34295
34296
TOTAL
DISS
SUSP
MUD
TIS
UG/L
UG/L
UG/L
UG/KG DRY
MG AG WET
85687
85687
85687
85687
85687
81287
82226
38779
38780
38781
38782
TOT
WATER
DISS
SUSP
SED
TIS
UGA
UG/L
UG/L
UGA
UG/KG
MG/KG
88857
88857
88857
88857
88857
88857
)RET para, name (underlined and in parens) if significantly
-------�
APPENDIX G (p.11)
Substance Name ^
Para.
Code(s)
Medium
Units
Cas No.
01027
TOT
UGA
7440439
01025
DISS
UG/L
7440439
46559
DISS .+
UGA
7440439
01113
TOT.REC.
UG/L
7440439
82491
TOT REC DD
UG/KG
7440439
01026
SUSP
UGA
7440439
01019
MUD
MG/KG-CD WET WGT
7440439
01028
MUD
MG/KG-CD DRY NCT
7440439
01165
TOT.
LBS/DAY
7440439
01253
LB/D/CFS
7440439
46245
DTPA
MG/KG
7440439
46269
TOTAL
MG/KG
7440439
46309
TOTAL
MG/KG
7440439
61526
SLUDGE LIQ
MG/L
7440439
61527
SLUDGE SOL
MG/KG
7440439
61528
SLUDGE TOT
MG/L
7440439
71940
TIS
MG/KG WET
WGT
7440439
71941
TOTAL FISH
UG/GM DWT
7440439
71946
EXTR
UGA
7440439
79580
mSTE
MG/KG
7440439
81214
COLD ILLINOIS
MG/L
7440439
81634
SHELL
MG/KG DRY
WGT
7440439
81728
PLANKTCN
MG/KG DRY
7440439
81735
ZOOPLANK
MG/KG DRY
7440439
81744
SHELL
MG/KG WET
7440439
81753
I NTT ERST WAT
UGA
7440439
81772
AO MC
MG/KG DRY
WGT
7440439
Cadmium and compounds ("N.O.S.")
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different fran Appendix VIII names.
-------�
APPENDIX G (p.12)
Para.
Substance Name ^ Code(s) Medium Units Cas No.
Cadmium and compounds (continued)
81780
EP AL
MGAG
DRY VJGT
7440439
81788
ANML
mgag
DRY WGT
7440439
81932
SUSPEND
UG/G
7440439
82489
DIS DDP
UGAG
7440439
82490
INSOL IX)
UGAG
7440439
Calcium chromate (Chromic acid, calcium
See "Chromium"
salt)
Calcium cyanide
See "Cyanide"
Carbon disulfide (Carbon bisulfide)
81309
TOT
UG/L
75150
(Carbondisulfide(CS2))
77041
TOTAL
UG/L
75150
78544
SED
UGAG
75150
Carbon oxyfluoride (Carbonyl fluoride)
73526
TOW
UG/L
353504
Chloral (Acetaldehyde, trichloro-)
39108
TOT
MG/L
75876
(Chloral hydrate)
77447
TOTAL
UG/L
75876
Chlorambucil (Butanoic acid, 4-[bis(2-
73527
TOOW
UG/L
305033
chloroethyl) amino]benzene-)
Chlordane (alpha and qamma isomers)
39350
TECH&MET
TOT
UG/L
57749
(4,7-Methanoindan, 1,2,4,5,6,7,8,8-
39352
TECH MET
OIS
UG/L
57749
octachloro-3,4,7,7a-tetrahydro-)
39353
TECH&MET
SIJS
UG/L
57749
(alpha and gamma isomers)
39349
FISH
UG/KG
WWT
57749
(chlordane (tech mix & metabs))
34682
TECH&MET TIS
mgag
WET
57749
39351
TECH&MET
MUD
UG/KG
DRY
57749
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different frcm Appendix VIII names.
-------�
APPENDIX G (p.13)
Para.
Substance Name * Code(s) Medium Units Cas No.
Chlordane (continued)
61487
SLUDGE LIQ
UG/L
57749
61488
SLUDGE SOL
UG/KG
57749
61489
SLUDGE TOT
UG/L
57749
79583
TECHMIX WASTE
MG/KG
57749
81714
SHEL
UG/KG
DRY WGT
57749
81863
SHELL
UG/KG
WET WGT
57749
Chlorinated benzenes ("N.O.S.") 2
Code not
appropriate
for
classes of
chemicals
Chlorinated ethane ("N.O.S.") 2
Code not
appropriate
for
classes of
chemicals
Chlorinated fluorocarbons ("N.O.S.") 2
Code not
appropriate
for
classes of
chemicals
Chlorinated naphthalene ("N.O.S.") 2
Code not
appropriate
for
classes of
chemicals
Chlorinated phenol ("N.O.S.") 2
Code not
appropriate
for
classes of
chemicals
Chloroacetaldehyde (Acetaldehyde, chloro-)
73528
107200
Chloroalkyl ethers ("N.O.S.") 2
Code not
appropriate
for
classes of
chemicals
p-Chloroaniline (Benzenamine, 4-chloro-)
73529
TOTW
UG/L
106478
Chlorobenzene (Benzene, chloro-)
34301
TCTIW
UGA
108907
34302
DISS
UG/L
108907
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
2 — ("N.O.S") indicates not otherwise specified in 40 CFR §261 Appendix VIII. Since this is a class
of chemicals versus a single chemical no parameter code can be assigned in the STORET system.
-------�
APPENDIX G (p.14)
Para.
Substance Name * Code(s) Medium Units Cas No.
Chlorobenzene (continued)
34303
SUSP
UG/L
108907
34304
SED
UG/KG
DRY
WGT
108907
34305
TIS
MG/KG
WET
WGT
108907
79586
V^STE
MG/KG
108907
82141
IN AIR
NG/CC
108907
Chlorobenzilate (Benzeneacetic acid, 4-
39460
WHL WTR SMPL
UG/L
510156
chloro-alpha-(4-chlorophenyl)-alpha-
39461
MUD DRY
UGAG
510156
hydroxy-, ethyl ester)
79007
FISH
UGAG
510156
p-Chloro-m-cresol (Phenol, 4-chloro-3-
34452
TOIW
UGA
59507
methyl) (parachlorcmeta cresol (PCMC))
34453
DISS
UG/L
59507
34454
SUSP
UGA
59507
34455
SED
UGAG
DRY
WGT
59507
34456
TIS
MG/KG
WET
WGT
59507
79682
ms
mgag
59507
l-Chloro-2,3-epoxypropane (Oxirane, 2-
77084
TOTAL
UGA
106898
(chloromethyl)-)
81679
TOT
MG/L
106898
(Epichlorohydri n)
2-Chloroethyl vinyl ether (Ethene, (2-
34576
TOTW
UG/L
110758
chloroethoxy)-)
34577
DISS
UGA
110758
34578
SUSP
UG/L
110758
34579
SED
UG/KG
DRY
WGT
110758
34580
TIS
MGAG
WET
WGT
110758
79526
WAS
MG/KG
110758
82148
IN AIR
NG/CC
110758
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.15)
Substance Name *
Para.
Code(s)
Medium
Units
Cas No.
32106
TOT
UGA
67663
34316
DISS
UG/L
67663
34317
SUSP
UG/L
67663
32003
CCE AND CAE
UG/L
67663
32005
CCE
UGA
67663
32021
ETHER INSOLURL
UGA
67663
32022
WATER SOLUBLES
UGA
67663
32270
EXT
MG/L
67663
34318
SED
UG/KG
DRY WGT
67663
34319
TIS
mg/kg
WET WGT
67663
79589
WAS
mgag
67663
82149
IN AIR
NG/CC
67663
34418
TOTW
UGA
74873
34419
DISS
UGA
74873
34420
SUSP
UGA
74873
34421
SED
UGAG
DRY WGT
74873
34422
TIS
mgag
WET WGT
74873
79654
mSTE
mgag
74873
82162
IN AIR
NG/CC
74873
73530
TOTW
UGA
107302
Chloroform (Methane, trichloro-)
Chlorcroethane (Methyl chloride)
Chlorcmethyl methyl ether (Methane,
chlorcmethoxy-)
1 — Appendix VIII pseudonym in parens, STORETT para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.16)
Substance Name *
Para.
Code(s)
Medium
Units
Cas No.
2-Chloronaphthalene (Naphthalene, beta-
34581
TOTW
UG/L
91587
chloro-)
34582
DISS
UG/L
91587
34583
SUSP
UG/L
91587
34584
SED
UG/KG
DRY WGT
91587
34585
TIS
MG/KG
WET WGT
91587
79527
WASTE
MG/KG
91587
2-Chlorophenol (Phenol, o-chloro-)
34586
TOTW
UGA
95578
34587
DISS
UG/L
95578
34588
SUSP
UG/L
95578
34589
SED
UG/KG
DRY WGT
95578
34590
TIS
MG/KG
WET W3T
95578
79528
WAS
MG/KG
95578
l-(o-Chlorophenyl)thiourea (Thiourea, (2-
73531
TOTW
UG/L
5344821
chlorcphenyl)-) (N-(2-chloropheny 1) thio-
urea; (o-chlorphenyl) thiourea; l-(2-chlor-
ophenyl) thiourea l-(2-chlorphenyl)-2-
thiourea; l-(ochlorophenyl)-2-thiourea)
3-Chloropropioni trile (Propaneni trile,
3-chloro-) (3-Chloropropanonitrile; beta-
chloropropionitrile; l-chloro-2-cyano-
ethane)
73532
TOTW
UG/L
542767
1 — Appendix VIII pseudonym in parens, STORET para, name (Underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.17)
Para.
Substance Name 1 Code(s) Medium Units Cas No.
Chromium and compounds ("N.O.S.")
01034
CR,T0T
82058
TOTAL REMOVAL
01030
HISS
01031
SUSP
01118
TOT.REC.
01024
MUD
01029
SED
01254
TOTAL
01255
HEX
46244
OTPA
46271
TOTAL
46308
TOTAL
46560
DISS.+
61511
SLUDGE LIQ
61512
SLUDGE SOL
61513
SLUDGE TOT
71939
FISH
71943
TOTAL FISH
71947
EXTR
81215
(HEX)ILL-COLD
81217
TOTAL ILL-COLE
81729
PLANKTON
81736
ZOOPLANK
81745
SHELL
81773
AQ MCDRY
81781
EP ALDRY
81789
ANML DRY
UG/L
7440473
%
7440473
UG/L
7440473
UG/L
7440473
UG/L
7440473
MG/KG WET
W3T
7440473
MG/KG DRY
WGT
7440473
LB/D/CFS
7440473
LB/D/CFS
7440473
MG/KG
7440473
MG/KG
7440473
MG/KG
7440473
UG/L
7440473
MG/L
7440473
MG/KG
7440473
MG/L
7440473
UG/G OR MG/KG WT
7440473
UG/GM DWT
7440473
UG/L
7440473
MG/L
7440473
MG/L
7440473
MGAG DRY
7440473
MG/KG DRY
7440473
MG/KG WET
7440473
MG/KG WCJT
7440473
MG/KG WGT
7440473
MGAG WGT
7440473
1 Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
2 — ("N.O.S") indicates not otherwise specified in 40 CFR §261 Appendix VIII. Since this is a class
of chemicals versus a single chemical no parameter code can be assigned in the STORET system.
-------�
APPENDIX G (p.18)
Substance Name 1
Para.
Code(s)
Medium
Units
Cas No.
Chromium and compounds (continued)
81796
SHELL
MG/KG DRY WST
7440473
82059
TOTAL
KG/BATCH
7440473
82399
HEXAVAL
KG/BATCH
7440473
82498
DIS D D
P
UG/KG
7440473
82499
INSOL D
D
UG/KG
7440473
82500
TOT REC
nn
UG/KG
7440473
85007
TOTAL
#/DAY
7440473
Chrysene (1,2-Benzphenanthrene)
34320
TOTVI
UG/L
218019
34321
DISS
UG/L
218019
34322
SUSP
UG/L
218019
34323
SED
UG/KG DRY WGT
218019
34324
TIS
MG/KG WET WGT
218019
79592
WASTE
MG/KG
218019
Citrus red No. 2 (2-Naphthol, l-[(2,5-
73533
TOW
UG/L
6358538
dimethoxyphenyl)azo]-)
Coal tars ("N.O.S.") 2
Copper cyanide (cuprous cyanide; copper
(I) cyanide; copper (2) cyanide; copper
(II) cyanide; cupric cyanide)
Creosote (Creosote, wood) ("N.O.S.") 2
Cresols (Cresylic acid) (Phenol, methyl-)
("N.O.S.") 2
Code not appropriate for classes of chemicals
See "Copper"; see "Cyanide"
Code not appropriate for classes of chemicals
Code not appropriate for classes of chemicals
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
2 — ("N.O.S") indicates not otherwise specified in 40 CFR §261 Appendix VIIt. Since this is a class
of chemicals versus a single chemical no parameter code can be assigned in the STORE7T system.
-------�
APPENDIX G (p.19)
Substance Name 1
Para.
Code(s)
Medium
Uni ts
Cas No.
Crotonaldehyde (2-Butenal)
Cyanides (soluble salts and complexes)
("N.O.S.") 2
Cyanogen (Ethanedinitrile)
Cyanogen bromide (Bromine cyanide)
Cyanogen chloride (Chlorine cyanide)
Cycasin (beta-D-Glucopyranoside, (methyl-
ONN-azoxy) methyl-)
77028 TOTAL
00158 WHL WAT FREE
00719 FREE HRG METO
00720 CN-TOT
00723 DISSOLVE
00722 FREE CN
34325 SUSP
79595 WASTE
85008 TOTAL
00721 SED
01257
34326 TIS
61555 SLUDGE TOT
61556 SLUDGE SOL
61557 SLUDGE LIQ
81208 FREE
81210 ILLINOIS
73534 TDIW
73535 TOIW
77022 TOTAL
73536 TOIW
tJG/L
KG/BATCH
UG/L
MG/L
UG/L
MG/L
MG/L
MG/KG
#/DAY
MGAG DRY (>)GT
LB/D/CFS
MGAG WET WGT
MGA
MG/KG
MG/L
MG/L
MG/L
UG/L
UG/L
UG/L
UG/L
4170303
57125
57125
57125
57125
57125
57125
57125
57125
57125
57125
57125
57125
57125
57125
57125
57125
460195
506683
506774
14901087
1 — Appendix VIII pseudonym in parens, -STORET para, name (underlined and in parens) if significantly
different frcm Appendix VIII names.
2 — ("N.O.S") indicates not otherwise specified in 40 CFR §261 Appendix VIII. Since this is a class
of chemicals versus a single chemical no parameter code can be assigned in the STORET system.
-------�
APPENDIX G (p.20)
Para.
Substance Name * Code(s) Medium Units Cas No.
2-Cyclohexyl-4,6-dinitrophenol (Phenol,
2-cyclohexyl-4,6-dinitro-)
Cyclophosphamide (2H-1,3,2-Oxazaphosphor-
ine, [bis(2-chloroethyl)ami no]-tetra-hydro-,
2-oxide)
Daunomycin (5,12-Naphthacenedione, (8S-
cis)-8-acetyl-10-[(3-amino-2,3,6-trideoxy)-
alpha-L-lyxo-hexopyranosyl)oxy]-7,8,9,10-
tetrahydro-6,8,11-trihydroxy-1-methoxy-)
DM5 (Dichlorodiphenyldichloroethane)
(Ethane, l,l-dichloro-2,2-bis(p-chloro-
phenyl) -) (p,p'-DDD)
73537
totw
UGA
131895
73538
TOTW
UG/L
50180
73539
TOTW
UG/L
20830813
39310
TOT
UG/L
72548
39360
WHL WTR SMPL
UG/L
72548
34651
DIS
UG/L
72548
39361
FLT FRAC
UGA
72548
34652
SUS
UG/L
72548
39362
SUS FRAC
UG/L
72548
39311
SED
UG/KG DRY WGT
72548
39312
TIS
MGAG WET WGT
72548
39313
TISSUE FAT
UG/G
72548
39314
ORGANISM TOT
UG/G
72548
39363
MUD
ugag
72548
39364
SHELFISH
ugag wr
72548
45559
ADIPOSE
TISMG/KG
72548
46284
SOIL
NG/G
72548
46285
SOIL
NG/G
72548
61481
SLUDGE LIQ
UG/L
72548
61482
SLUDGE SOL
UGAG
72548
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.21)
Para.
Substance Name Code(s) Medium Units Cas No.
DDD (continued) 61483
79679
81625
81860
81897
85210
85217
85224
DDE (Ethylene, l,l-dichloro-2,2-bis 39320
(4-chloropheny1)-) (pfp' DDE; DDE) 39365
34653
39366
34654
39367
39321
39322
39323
39324
39368
39369
45557
46286
61478
61479
61480
79680
81626
SLUDGE TOT
UG/L
72548
WASTE
MG/KG
72548
SHEL
ug/kg DRY wct
72548
SHELL
UGAG WET WGT
72548
TOT TISS
MG/KG WET WGT
72548
EGGS
UG/G
72548
AIR
NG/M3
72548
PLANT
UG/G
72548
TOT
UGA
72559
WHL WTR SMPL
UGA
72559
DIS
UGA
72559
FLT FRAC
UG/L
72559
SUS
UG/L
72559
SUS FRAC
UG/L
72559
SED
UG/KG DRY WGT
72559
TIS
MGAG WET WGT
72559
TISSUE FAT
UG/G
72559
ORGANISM TOT
UG/G
72559
MUD
UGAG
72559
SHELFISH
UGAG WT
72559
ADIPOSE TIS
mgag
72559
SOIL
NG/G
72559
SLUDGE LIQ
UGA
72559
SLUDGE SOL
UGAG
72559
SLUDGE TOT
UGA
72559
WASTE
MGAG
72559
SHEL
UGAG DRY WGT
72559
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different frcm Appendix VIII names.
-------�
APPENDIX G (p.22)
Para.
Substance Name 1
Code(s)
Medium
Units
Cas No.
DDE (continued)
81861
SHELL
UG/KG WET WGT
72559
81896
TOT TISS
MG/KG WET WGT
72559
85211
EGGS
UG/G
72559
85218
AIR
NG/M3
72559
85225
PLANT
UG/G
72559
DDT (Dichlorodiphenyltrichloroethane)
39300
TOT
(JG/L
50293
(Ethane, 1,1,l-trichloro-2,2-bis(p-
39370
WHL SMPL
UGA
50293
chlorophenyl)-) (p,p'-DDT; DDT)
34655
DIS
UGA
50293
39371
FLT FRAC
UG/L
50293
34656
SUS
UG/L
50293
39372
SUS FRAC
UGA
50293
39290
TISSUE TOT
IJG/G
50293
39301
SED
UG/KG DRY WGT
50293
39302
TIS
MG AG WET WGT
50293
39303
TISSUE FAT
UG/G
50293
39304
ORGANISM TOT
UG/G
50293
39317
FISH
UGAG
50293
39358
ORGANISM TOT
UG/G
50293
39359
SUM ANALOGS MUD
UG/KG
50293
39373
MUD
UGAG
50293
39374
SHELFISH
UGAG WT
50293
39375
SUM ANALOGS ORG
UG/G
50293
39376
SUM TISSUE
UG/G
50293
39377
TISSUE FAT
UG/G
50293
39378
SUM TISSUE
FAT UG/G
50293
45555
ADIPOSE TIS
MG/MG
50293
61475
SLUDGE LIQ
UGA
50293
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.23)
Substance Name 1
Para.
Code(s)
Medium
Units
Cas No.
DDT (continued)
61476
SLUDGE
SOL
UG/KG
50293
61477
SLUDGE
TOT
UG/L
50293
79681
WASTE
MG/KG
50293
81715
SHEL
UG/KG
DRY
WGT
50293
81800
SED
MG/KG
WET
WGT
50293
81801
SED
MG/KG
WEr
WGT
50293
81833
FISH
MG/KG
DRY
WCJT
50293
81862
SHELL
IJG/KG
WET
WGT
50293
85213
EGGS
UG/G
50293
85220
AIR
NG/M3
50293
85227
PLANT
UG/G
50293
Diallate (S-(2,3-dichloroallyl) diisopro-
73540
TOTW
UG/L
2303164
pylthiocarbamate)
Dibenz[a,h]acridine (1,2,5,6-Dibenzacri-
73541
TOTW
UG/L
226368
dine)
Dibenz[a,j]acridine (1,2,7,8-Dibenzacri-
73542
TOTW
UG/L
224420
dine)
Dibenz[a,h]anthracene (1,2,5,6-Dibenz-
34556
TOTW
UG/L
53703
anthracene) (1,2:5,6-dibenz(a)anthra-
34557
DISS
UG/L
53703
cene)
34558
SUSP
UG/L
53703
34559
SED
UG/KG
DRY
WGT
53703
34560
TIS
MG/KG
WET
WGT
53703
79040
TIS
MG/KG
WET
wr
53703
79508
WASTE
MG/KG
53703
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.24)
Substance Name
Para.
Code(s)
Medium
Units
Cas No.
7B-Dibenzo[c,g]carbazole (3,4,5,6-Dibenz- 73543
carbazole)
Dibenzo[a,e]pyrene (1,2,4,5-Dibenzpyrene) 73544
Dibenzo[a,h]pyrene (1,2,5,6-Dibenzpyrene) 73545
(Dibenzo(b,def)chrysine)
Dibenzo[a,i]pyrene (1,2,7,8-Dibenzpyrene) 73546
1,2-Dibromo-3-chloropropane (Propane,
1,2-dibrcmo-3-chloro-)
(dibromochloropropane; DBCP)
1,2-Dibromoethane (Ethylene dibromide)
Dibrcmomethane (Methylene brcmide)
Di-n—butyl phthalate (1,2—Renzenedicarb-
oxylic acid, dibutyl ester)
(Pibutyl phthalates)
38437
38438
38439
38440
38441
38760
38761
38762
38763
38764
77651
77596
39110
34327
39114
39115
TOTW
TOTW
Tcnw
tctiw
DISS
SUSP
SED
TIS
TOTW
DISS
SUSP
SED
TIS
TOTAL
TOTAL
TOTAL
DISS
SUSP
SUS.FRAC.
UG/L
UG/L
UGA
UG/L
UG/L
UG/L
UG/KG
mgag
UGA
UG/L
UG/L
UG/KG
mgag
UGA
UG/L
UGA
UG/L
UG/L
[JGAG D WT
194592
192654
189640
189559
96128
96128
96128
96128
96128
96128
96128
96128
96128
96128
106934
74953
84742
84742
84742
84742
1 — Appendix VIII pseudonym in parens, ST0RE7T para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.25)
Para.
Substance Name 1 Code(s) Medium Units Cas No.
Di-n-butyl phthalate (continued)
o-Di chlorobenzene (Benzene, 1,2-
dichloro-)
m-Dichlorobenzene (Benzene, 1,3-
dichloro-) (m,p-dichlorobenzene)
p-Dichlorobenzene (Benzene, 1,4-
dichloro-)
39111
FISH
UG/KG WWT
84742
39112
MUD
US/KG DRY
84742
39113
FISH
UG/KG WWT
84742
34683
TIS
MG/KG WET
84742
79599
WASTE
MG/KG
84742
39116
SLDGE STP
UG/KG D WT
84742
34536
Tonw
UG/L
95501
34537
DISS
UG/L
95501
34538
SUSP
UG/L
95501
34539
SED
UG/KG DRY WGT
95501
34540
TIS
MG/KG WET WGT
95501
79511
V«ASTE
M3/KG
95501
34566
TOTW
UGA
541731
34567
DISS
UG/L
541731
34568
SUSP
UGA
541731
34569
SED
UG/KG DRY WGT
541731
34570
TIS
MGAG WET WGT
541731
79516
W\STE
M3/KG
541731
82512
TOTAL
UGA
541731
34571
TDTW
UG/L
106467
34572
DISS
UG/L
106467
34573
SUSP
UG/L
106467
34574
SED
UG/KG DRY WGT
106467
34575
TIS
MGAG WET WGT
106467
79517
WASTE
MG/KG
106467
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.26)
Substance Name
Para.
Code(s)
Medium
Units
Cas No.
Dichlorobenzene ("N.O.S.") 2 (Benzene,
dichloro-C'N.O.S.") 2
3,3'-Dichlorobenzidine ([1,11-Biphenyl]
-4,4'-diamine, 3,3'-dichloro-)
Code not appropriate for classes of chemicals
34631
34632
34633
34634
34635
79530
TOTW
DISS
SUSP
SED
TIS
WASTE
UG/L
rJGA
UG/L
UG/KG DRY WGT
MG/KG WET W3T
MG/KG
91941
91941
91941
91941
91941
91941
l,4-Dichloro-2-butene (2-Butene, 1,4-
dichloro-)
73547
110576
Dichlorodifluoromethane (Methane, di-
chlorodifluoro-)
1,1-Dichloroethane (Ethylidene dichloride)
34668
34332
34333
34334
34335
79604
82152
34496
34497
34498
34499
34500
79504
R2144
TOW
DISS
SUSP
SED
TIS
WASTE
IN AIR
T0TCW
DISS
SUSP
SED
TISS
WASTE
IN AIR
UG/L
UGA
UG/L
UGAG DRY WGT
MG/KG WET WGT
mgag
NG/CC
UG/L
UG/L
UG/L
UG/KG DRT V7T
MG/KG WET WT
MG/KG
NG/CC
75718
75718
75718
75718
75718
75718
75718
75343
75343
75343
75343
75343
75343
75343
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
2 — ("N.O.S") indicates not otherwise specified in 40 CFR §261 Appendix VIII. Since this is a class
of chemicals versus a single chemical no parameter code can be assigned in the STORET system.
-------�
APPENDIX G (p.27)
Substance Name *
Para.
Code(s)
Medium
Units
Cas No.
1,2-Dichloroethane (Ethylene dichloride)
32103
TOT
UG/L
107062
34531
TOTVJ
UG/L
107062
34532
DISS
UG/L
107062
34533
SUSP
UG/L
107062
34534
SED
UG/KG
DRY WGT
107062
34535
TIS
MG/KG
WET WGT
107062
79512
WAS
MG/KG
107062
82142
IN AIR
NG/CC
107062
trans-1,2-Dichloroethene (1,2-Dichloro-
34546
T0TW
UG/L
156605
ethylene)
34547
DISS
UG/L
156605
34548
SUSP
UG/L
156605
34549
SED
UG/KG
nw
156605
34550
TISS
MG/KG
WW
156605
79515
WAS
MG/KG
156605
82165
IN AIR
NG/CC
156605
Dichloroethylene ("N.O.S.") 2 (Ethene, di-
code not
appropriate for classes of
chemicals
chloro-("N.O.S.") 2
1,1-Dichloroethylene (Ethene, 1,1-di-
34501
TOTW
UG/L
75354
chloro-)
34502
DISS
UG/L
75354
34503
SUSP
UG/L
75354
34504
SED
UG/KG
DRY WGT
75354
34505
TIS
MG/KG
WET WGT
75354
79505
WASTE
MG/KG
75354
82166
IN AIR
NG/CC
75354
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
2 — ("N.O.S") indicates not otherwise specified in-40 CFR §261 Appendix VIII. Since this is a class
of chemicals versus a single chemical no parameter code can be assigned in the STORET system.
-------�
APPENDIX G (p.28)
Para.
Substance Name 1 Code(s) Medium Units Cas No.
Dichloromethane (Methylene chloride)
34423
TOTW
UG/L
75092
34424
DISS
UG/L
75092
34425
SUSP
UGA
75092
34426
SED
UG/KG
DRY
WGT
75092
34427
TIS
MG/KG
WET
WST
75092
78750
SED
UG/KG
75092
79662
WASTE
MG/KG
75092
82167
IN AIR
NG/CC
75092
2,4-Dichlorophenol (Phenol, 2,4-dichloro-)
34601
TOTW
UG/L
120832
34602
DISS
UG/L
120832
34603
SUSP
UG/L
120832
34604
SED
UG/KG
DRY
WGT
120832
34605
TIS
MG/KG
WET
WGT
120832
79521
WASTE
MG/KG
120832
2,6-Dichlorophenol (Phenol, 2,6-dichloro-)
77541
TOTAL
UGA
87650
2,4-Dichlorophenoxyacetic acid (2,4-D),
39730
WHL SMPL
UG/L
94757
salts and esters (Acetic acid, 2,4-dichloro-
39731
MUD
UG/KG
94757
dichlorophenoxy-, salts and esters)
39732
FLT FRAC
UG/L
94757
39733
SUS FRAC
UG/L
94757
39734
FISH
UG/KG
wwr
94757
Dichlorophenylarsine (Phenyl dichloro-
73548
toiw
UGA
696286
arsine)
Dichloroprcpane ("N.O.S.") 2 (Propane, Code not appropriate for classes of chemicals
dichloro-, "N.O.S.") 2
1 — Appendix VIII pseudonym in parens, STORETT para, name (underlined and in parens) if significantly
different from Appendix VIII names.
2 — ("N.O.S") indicates not otherwise specified in 40 CFR §261 Appendix VIII. Since this is a class
of chemicals versus a single chemical no parameter code can be assigned in the STORET system.
-------�
APPENDIX G (p.29)
Substance Name ^
Para.
Code(s)
Medium
Units
1,2-Dichloropropane (Propylene dichloride)
Dichloropropanol ("N.O.S.") 2
Dichloropropene ("N.O.S.") 2
1,3-Dichloropropene (1-Propene, 1,3-
dichloro-)
Dieldrin (1,2,3,4,10.10-hexachloro-6,7-
epoxy-1,4,4a,5,6,7,8,8a octa-hydro-endo—
exo-1,4:5,8-dimethanonaphthalene)
34541
34542
34543
34544
34545
79513
82164
34561
34562
34563
34564
34565
77163
82163
39380
39381
39382
34684
39383
39384
39385
Cas No.
TOTV7
UG/L
78875
DISS
UG/L
78875
SUSP
UG/L
78875
SED
UG/KG DRY WGT
78875
TIS
MG/KG WET WGT
78875
WAS
MG/KG
78875
IN AIR
NG/CC
78875
appropriate
for classes of chemicals
appropriate for classes of chemicals
TOW
UG/L
542756
DISS
UG/L
542756
SUSP
UG/L
542756
SED
UG/KG DRY WGT
542756
TIS
MG/KG WET WGT
542756
TOTAL
UG/L
542756
IN AIR
NG/CC
542756
TOT
UGA
60571
DIS
UG/L
60571
SUS FRAC
UG/L
60571
TIS
MG/KG
60571
SED
UG/KG DRY WGT
60571
CLAY
UG/KG
60571
SLT-CLAY
UGAG
60571
1 —
2 —
WlTnSSLSTORCT Para" "" t" —» « significantly
("N.O.S") indicates not otherwise specified in 40 CFR §261 Appendix Vlir. since this is a class
chemicals versus a single chemical no parameter code can be assigned in the STORET system.
-------�
APPENDIX G (p.30)
Substance Name
Para.
Code(s) Medium Units Cas No.
Dieldrin (continued) 39386
39387
39404
39405
39406
45566
46275
61463
61464
61465
79607
81716
81834
85215
85222
85229
1,2:3,4-Diepoxybutane (2,2'-Bioxirane) 73549
Diethylarsine (Arsine, diethyl-) 73550
N,N-Diethylhydrazine (Hydrazine, 1,2-di- 73551
ethyl)
0,0-Diethyl S-methyl ester of phosphorodi- 73552
thioic acid (Phosphorodithioic acid, 0,0-
diethyl S-methyl ester)
SAND
ug/kg
60571
SHELFISH
UG AG WT
60571
TIS
MG/KG WET
WGT
60571
TISSUE
FAT
UG/G
60571
ORGANISM TOT
UG/G
60571
ADIPOSE TIS
M GAG
60571
SOIL
NG/G
60571
SLUDGE
LIQ
UG/L
60571
SLUDGE
SOL
UGAG
60571
SLUDGE
TOT
UG/L
60571
WASTE
MGAG
60571
SHEL
~gag dry
WGT
60571
FISH
MGAG dry
WGT
60571
EGGS
UG/G
60571
AIR
NG/M3
60571
PLANT
UG/G
60571
TOTW
UG/L
1464535
TOTW
UG/L
692422
TOTW
UG/L
1615801
TOTW
UG/L
3288582
I _ Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.31)
Substance Name ^
Para.
Code(s)
Medium
Units
Cas No.
O,0-Diethylphosphoric acid, O-p-nitrophenyl 39152
ester (Phosphoric acid, diethyl p-nitrophen-
yl ester) (Paraoxon-O.O diethvl O.P nitrrv-
phenyl phos)~~ ~
Diethyl phthalate (1,2-Benzenedicarboxylic 34336
acid, diethyl ester) 34337
34338
34339
34340
0,O-Diethyl O-2-pyrazinyl phosphorothio- 73553
ate (Phosphorothioic acid, 0,O-diethyl
O-pyrazinyl ester)
Diethylstilbesterol (4,4'-Stilbenediol, 82192
alpha,alpha-diethyl, bis(dihyrdrogen
phosphate, (E)—)
Dihydrosafrole (Benzene, 1,2-methylene- 73554
dioxy-4-propyl-)
3,4-Dihydroxy-alpha- (methylami no)methyl 73555
benzyl alcohol (1,2-Benzenediol, 4-[1—
hydroxy-2- (methylami no)ethyl]-)
Diisoprcpy1f1uorophosphate (DFP) (Phos- 73556
phorofluoridic acid, bis(1-methylethyl)
ester)
WATER
TUTW
DISS
SUSP
SED
TIS
TOTW
WATER
TOTW
TOTW
TOTW
nc,/L
UG/L
UG/L
UG/L
UG/KG DRY WGT
MG/KG WET WGT
UGA
UG/L
UG/L
UGA
UG/L
311455
84662
84662
84662
84662
84662
297972
56531
94586
51434
55914
^r^.STOREr name tUnderU"ed significantly
-------�
APPENDIX G (p.32)
Substance Name
Para.
Code(s)
Medium
Units
Cas No.
Dimethoate (Phosphorodithioic acid, 0,0
dimethyl S-[2-(methylamino)-2-oxoethyl]
ester)
3,3'-Dimethoxybenzidine ([1,1'-Biphenyl]
-4,4'diamine, 3-3'-dimethoxy-)
p—Dimethylaminoazobenzene (Benzenamine,
N,N-dimethyl-4-(phenylazo)-)
7,12-Dimethylbenz[a]anthracene (1,2-Benz-
anthracene, 7,12-dimethyl-)
3,3'-Dimethylbenzidine ([1,1'-Biphenyl]-4,4'
-diamine, 3,3'-dimethyl-)
Dimethylcarbamoyl chloride (carbamoyl
chloride, dimethyl-)
1.1-Dimethylhydrazine (Hydrazine, 1,1-
dimethyl-)
1.2-Dimethylhydrazine (Hydrazine, 1,2-
dimethyl-)
38458
38459
38460
38461
39009
46303
46314
73557
73558
73559
73560
73561
81314
73562
DISS
SUSP
SEX)
TIS
WTR FPD
SOIL
WHL SMPL
TOIW
TOTW
TOTW
TOTW
TOIW
TOT
TOTW
UG/L
UG/L
ugag
MG/KG
UGA
NG/G
UGA
UG/L
UGA
UGA
UG/L
UG/L
MG/L
UG/L
60515
60515
60515
60515
60515
60515
60515
119904
60117
57976
119937
79447
57147
540738
1 — Appendix VIII pseudonym in parens, ST0RET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.33)
.. Para.
Substance Name 1 Code(s) Medium units Cas No.
3.3-Dimethyl-1-(methylthio-)-2-butanone,
0-[(methylamino)carbonyl]oxime (Thiofanox)
alpha,alpha-Dimethylphenethylami ne (Ethan-
ami ne, 1, l-dimethyl-2-pherryl-)
2.4-Dimethylphenol (Phenol, 2,4-dimethyl-)
Dimethyl phthalate (1,2-Benzenedicarbox-
ylic acid, dimethyl ester)
Dimethyl sulfate (Sulfuric acid, dimethyl
ester)
Dinitrobenzene ("N.O.S.") 2
73563
TOTW
UGA
39196184
73564
TOTW
UG/L
122098
) 34606
TOTW
UG/L
105679
34607
DISS
UGA
105679
34608
SUSP
UGA
105679
34609
SFD
UG/KG
DRY
WGT
105679
34610
TIS
MG/KG
WET
WGT
105679
79522
WASTE
mg/kg
105679
34341
TOW
UGA
131113
34342
DISS
UGA
131113
34343
SUSP
UGA
131113
34344
SED
ug/kg
DRY
WGT
131113
34345;
TIS
MS/KG
WET
WGT
131113
73565
TOTW
UGA
77781
code not
appropriate for classes of
chemicals
1 Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
2 ~~ (!N*P*S!,) indicates not otherwise specified in 40 CFR §261 Appendix VIII. Since this is a class
of chemicals versus a single chemical no parameter code can be assigned in the STORET system.
-------�
APPENDIX G (p.34)
Substance Name
Para.
Code(s)
Medium
Units
Cas No.
4,6-Dinitro-o-cresol and salts (Phenol,
2,4-dinitro-6-methyl-, and salts)
(DNOC; 4,6-Dinitro-ortho-cresol)
2,4-Dinitrophenol (Phenol, 2,4-dinitro-)
2,4-Dinitrotoluene (Benzene, l-methyl-2,
4-dinitro-)
2,6-Dinitrotoluene (Benzene, 1-methyl-
2,6-dinitro-)
34657
TOTW
UG/L
534521
34658
DISS
UG/L
534521
34659
SUSP
UG/L
534521
34660
SED
UG/KG DRY WGT
534521
34661
TIS
MG/KG WET WGT
534521
39920
WHL SMPL
UG/L
534521
34616
TOTW
UG/L
51285
34617
DISS
UG/L
51285
34618
SUSP
UG/L
51285
34619
SED
UG/KG DRY W3T
51285
34620
TIS
MG/KG WET WGT
51285
79523
VASTE
M3/KG
51285
34611
TOTW
UG/L
121142
34612
DISS
UG/L
121142
34613
SUSP
UG/L
121142
34614
SED
UG/KG DRY WGT
121142
34615
TIS
MG/KG WET WGT
121142
79524
WVSTE
MG/KG
121142
34626
TOTW
UG/L
606202
34627
DISS
(JG/L
606202
34628
SUSP
UG/L
606202
34629
SED
UG/KG DRY WGT
606202
34630
TIS
MG/KG WET WGT
606202
79525
WASTE
MS/KG
606202
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.35)
, Para.
Substance Name Code(s) Medium Units caS No.
Di-n-octyl phthalate (1,2-Benzenedicarb-
oxylic acid, dioctyl ester)
1f4-Dioxane (1,4-Diethylene oxide)
(Dioxane)
Diphenylamine (Benzenamine, N-pherryl-)
1,2-Dipheriylhydraz i ne (Hydraz ine, 1,2-
diphenyl-)
Di-n-propylnitrosamine (N-Nitroso-di-
n-propylamine)
34596
TOT
UGA
117840
34597
DIS
UGA
117840
34598
SUS
UGA
117840
34599
SED
ug/kg dry wgt
117840
34600
TIS
MG/KG WET WGT
117840
79600
(ASTE
MG/KG
117840
81582
TOT
UGA
123911
82388
VtoXR
M3A
123911
77579
TOTAL
UGA
122394
34346
TOW
UGA
122667
34347
DISS
UGA
122667
34348
SUSP
UGA
122667
34349
SED
ug/kg dry war
122667
34350
TIS
MG AG WET WGT
122667
79514
WASTE
MG/KG
122667
34428
TOIW
UGA
621647
34429
DISS
UGA
621647
34430
SUSP
UGA
621647
34431
SED
ug/kg dry wct
621647
34432
TIS
MGAG WET
621647
79668
WASTE
MGAG
621647
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if siqnificantlv
different from Appendix VIII names. y y
-------�
APPENDIX G (p.36)
Substance Name ^
Disulfoton (0,0-diethyl S-[2-(ethylthio)
ethyl] phosphorodithioate)
2,4-Di thiobiuret (Thioimidodicarbonic
diamide)
Endosulfan (5-Norbornene, 2,3-dimethanol,
1,4,5,6,7,7-hexachloro-, cyclic sulfite)
Endrin and metabolites (1,2,3,4,10,10-
hexachloro-6,7—epoxy-1,4,4a,5,6,7,8,8a-
octahydro—endo,endo—1,4:5,8-dimethano—
naphthalene, and metabolites)
Para.
Cas No.
Code(s)
Medium
Units
81888
WHL WAT
UG/L
298044
39010
WTR FPD
UG/L
298044
39011
WTR FPD
UG/L
298044
81887
SED
UG/KG DRY W3T
298044
73566
TOTW
UG/L
541537
39388
WHL WTR SMPL
UG/L
115297
82354
DISS.
UGA
115297
82355
SUSP.
UG/L
115297
81759
FISH
MG/KG WET WGT
115297
39389
MUD
UG/KG
115297
39390
TOT
UGA
72208
39391
DIS
UG/L
72208
39392
SUS FRAC
UGA
72208
39393
SED
UG/KG DRY W3T
72208
39394
CLAY
UGAG
72208
39395
SLT-CLAY
UG/KG
72208
39396
SAND
UG/KG
72208
39397
SHELFISH
UG AG wr
72208
45567
ADIPOSE TIS
MG/KG
72208
46276
SOIL
MG/G
72208
61466
SLUDGE LIQ
UG/L
72208
61467
SLUDGE SOL
ugag
72208
34685
TIS
MG/KG WET W3T
72208
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
Substance Name *
Endrin and metabolites (continued)
Ethyl carbamate (Urethan) (Carbamic acid,
ethyl ester)
Ethyl cyanide (propanenitrile)
Ethylenebisdithiocarbamic acid, salts and
esters (1,2-Ethanediy1bi scarbamodi thioic
acid, salts, and esters)
. Ethylenebisdithiocarbamic acid
. Ethylenebis(dithiocarbamic acid)
disodium salt (NABAM)
Ethylenebis(dithiocarbamic acid)
zinc salt (ZINEB)
1
— Appendix VIII pseudonym in parens, S
different from Appendix VIII names.
APPENDIX G (p.37)
Para.
Code(s)
61468
79619
81717
81846
77077
Medium
SLUDGE TOT
WASTE
SHEL
FISH
TOTAL
Units
UG/L
MG/KG
UG/KG DRY WGT
MG/KG DRY WGT
UG/L
Cas No.
72208
72208
72208
72208
51796
77007
TOTAL
UG/L
107120
73567
TOIW
UG/L
111546
38850
38851
38852
38853
38854
38912
38913
38914
38915
38916
TOW
DISS
SUSP
SED
TIS
TOIW
DISS
SUSP
SED
TIS
UG/L
UG/L
UG/L
UG/KG
MG/KG
UG/L
UG/L
UG/L
UGAG
MG/KG
142596
142596
142596
142596
142596
12122677
12122677
12122677
12122677
12122677
para, name (underlined and in parens) if significantly
-------�
APPENDIX G (p.38)
Substance Name
Para.
Code(s)
Medium
Uni ts
Cas No.
38835
totcw
UG/L
12427382
38836
DISS
UG/L
12427382
38837
SUSP
UG/L
12427382
38838
SED
UGAG
12427382
38839
TIS
MG/KG
12427382
73568
151564
76999
TOTAL
UG/L
75218
81687
TOT
NIG/L
75218
73569
TOTW
UG/L
96457
73570
TOIW
UG/L
97632
73571
TOTW
UG/L
62500
34376
TOW
UG/L
206440
34377
DISS
UG/L
206440
34378
SUSP
UG/L
206440
34379
SED
UG/KG DRY WC7T
206440
34380
TIS
NIG AG WET WGT
206440
79625
WASTE
MGAG
206440
Ethylenebisdithiocarbamic acid, salts and
esters (continued)
Ethylenebis(dithiocarbamic acid)
manganous salt (MANEB)
Ethyleneimine (Aziridine)
Ethylene oxide (Oxirane)
Ethylenethiourea (2-Imidazolidinethione)
Ethyl methacrylate (2-Propenoic acid, 2-
methyl-, ethyl ester)
Ethyl methanesulfonate (Methanesulfonic
acid, ethyl ester)
Fluoranthene (Benzo[j,k]fluorene)
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.39)
Substance Name *
Para.
Code(s)
Medium
Units
Cas No.
Fluorine
00953
TOTAL
UG/L
7782414
2-Fluoroacetamide (Acetamide, 2-fluoro-)
73572
TOTW
UG/L
640197
Fluoroacetic acid, sodium salt (Acetic
73573
Tcnvj
UG/L
62748
acid, fluoro-, sodium salt)
Formaldehyde (Methylene oxide)
71880
V&TER
MG/L
50000
(Methanal)
76995
TOTAL
UG/L
50000
Formic acid (Methanoic acid)
77006
TOTAL
r.iG/L
64186
Glycidylaldehyde (1-Propanol-2,3-epoxy)
73574
TCTIW
UG/L
765344
Halomethane ("N.O.S.") 2
code not
appropriate for
classes of
chemicals
Heptachlor (4,7-Methano-lH-indene,l,4,5,
39410
TOT
UG/L
76448
6,7,8,8-heptachloro-3a,4,7,7a-tetra-
46326
WHL SMPL
UG/L
76448
hydro-)
39411
DIS
UG/L
76448
39412
SUS
UGA
76448
39413
SED
UGAG
DRY WGT
76448
.39414
SHELFISH
UGAG
wr
76448
45568
ADIPOSE TIS
MGAG
76448
46277
SOIL
NG/G
76448
46280
SOIL
NG/G
76448
61469
SLUDGE LIQ
UGA
76448
34687
TIS
M3AG
WET WGT
76448
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
2 — ("N.O.S") indicates not otherwise specified in 40 CFR §261 Appendix VIII. Since this is a class
of chemicals versus a single chemical no parameter code can be assigned in the STORET system.
-------�
APPENDIX G (p.40)
Substance Name
Para.
Code(s)
Medium
Units
Cas No.
61470
SLUDGE SOL
UGAG
76448
61471
SLUDGE TOT
UG/L
76448
79628
WASTE
MG/KG
76448
81719
SHEL
UGAG
DRY WCT
76448
39420
TOT
UGA
1024573
39421
DIS
UGA
1024573
39422
SUS
UGA
1024573
39423
SED
UGAG
DRY WGT
1024573
39424
SHELFISH
UGAG
WT
1024573
45569
ADIPOSE TIS
mgag
1024573
46278
SOIL
NG/G
1024573
61472
SLUDGE LIQ
UGA
1024573
61473
SLUDGE SOL
UGAG
1024573
61474
SLUDGE TOT
UGA
1024573
79629
WASTE
mgag
1024573
81718
SHEL
UGAG
DRY WGT
1024573
81766
ALGAE
UGAG
DRY WGT
1024573
34686
TIS
mgag
WET WGT
1024573
39700
TOT
UGA
118741
39039
WTR SMPL
UG/L
118741
34401
DIS
UGA
118741
34402
SUS
UGA
118741
34688
TIS
mgag
WET WGT
118741
39701
SED
UGAG
DRY WGT
118741
39703
FISH
UG/KG
WWT
118741
45574
ADIPOSE TIS
mgag
118741
79633
WASTE
mgag
118741
Heptachlor (continued)
Heptachlor epoxide (alpha, beta, and gairma
isomers) (4,7-Methano-lH-ir»denef 1,4,5,6,
7,8,8-heptachloro-2,3-epoxy-3a,4,7,7-
tetrahydro-, alpha, beta, and qamma
isomers)
Hexachlorobenzene (Benzene, hexachloro-)
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different frcm Appendix VIII names.
-------�
APPENDIX G (p.41)
Para.
Substance Name 1 Code(s) Medium Units Cas No.
Hexachlorobutadiene (1,3-Butadiene,
1,1,2,3,4,4-hexachloro-)
Hexachlorocyclohexane (all isomers)
(Lindane and isomers)
34391
34392
34393
34394
34395
39702
39704
39705
79634
TOIW
DISS.
SUSP.
BOT
TIS
TOT
FISH
SED
WASTE
UGA
UG/L
UG/L
UG/KG
MG/KG WET WGT
UG/L
UGAG WWT
UGAG DRY WGT
mgag
87683
87683
87683
87683
87683
87683
87683
87683
87683
(Benzenehexachloride C^H^Cl*;
BHC)
(garrtna isomer) (G-BHC (Lindane;
BHC-Gamma Isomer)
81283
TOT
UG/L
608731
81323
SED
UGAG DRY WGT
608731
81826
FISH TISS
MG/KG WET WGT
608731
39340
TOT.
UG/L
58899
39782
WHL SMPL
UG/L
58899
46322
+ WHL SMPL
UG/L
58899
34265
DISS
UGA
58899
39341
DIS
UG/L
58899
34266
SUSP
UGA-
58899
39342
SUS
UG/L
58899
39075
TIS
UG/G
58899
39343
SED
DRYUG/KG
58899
39781
ORGANISM TOT
UG/G
58899
39783
MUD DRY
UG/KG
58899
39784
SHELFISH
UGAG wr
58899
Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different fran Appendix VIII names.
1 —
-------�
APPENDIX G (p.42)
Para.
Substance Name ^ Code(s) Medium Units Cas No.
Hexachlorocyclohexane (continued)
(gamma isomer) (G-BHC (Lindane; 39785
BHC-Gamma Isomer continued) 39788
45563
46291
46293
61490
61491
61492
79627
81720
85216
85223
85230
Hexachlorocyclopentadiene (1,3-Cyclopen- 34386
tadiene, 1,2,3,4,5,5-hexachloro-) 34387
34388
34389
34390
Hexachloroethane (Ethane, 1,1,1,2,2,2- 34396
hexachloro-) 34397
34398
34399
34400
'79636
TIS
MG/KG WET
58899
TISSUE
FAT
UG/G
58899
ADIPOSE TIS
MG/KG
58899
NEG BHC SOIL
NG/G
58899
+ SOIL
NG/G
58899
SLUDGE
LIQ
UG/L
58899
SLUDGE
SOL
~G/KG
58899
SLUDGE
TOT
UG/L
58899
WASTE
MG/KG
58899
SHEL
DRY WGTUG/KG
58899
EGGS
UG/G
58899
AIR
NG/M3
58899
PLANT
UG/G
58899
TOTW
UGA
77474
DISS
UG/L
77474
SUSP
UG/L
77474
SED
UG/KG DRY
WGT
77474
TIS
MG/KG WET
WGT
77474
TOIW
UG/L
67721
DISS
UG/L
67721
SUSP
UG/L
67721
SED
UG/KG DRY
WCT
67721
TIS
MG/KG WET
WGT
67721
WASTE
MG/KG
67721
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.43)
Para.
Substance Name Code(s) Medium Units Cas No.
l,2,3,4,10,10-Hexachloro-l,4,4a,5,8,8a-
hexahydro-1,4:5,8-endo,endo-dimethano-
naphthalene (Hexachlorohexahydro-endo,
endo-dimethanonaphthalene) (Isodrin)
39430
30431
39432
39433
81654
WHL WTR SMPL
FLT FRAC
SUS FRAC
MUD
FISH
UG/L
UG/L
UG/L
UG/KG
MG/KG WET WGT
465736
465736
465736
465736
465736
Hexachlorophene (2,2'-Methylenebis(3,4,
6-trichlorophenol))
73575
TOW
UG/L
70304
Hexachloropropene (1-Propene, 1,1,2,3,3,
3-hexachloro-)
73576
TOW
UG/L
1888717
Hexaethyl tetraphosphate (Tetraphosphoric
acid, hexaethyl ester)
73577
TOW
UG/L
757584
Hydrazine (Diamine)
81313
TOT
MG/L
302012
Hyrocyanic acid (Hydrogen cyanide)
00142
TOTAL
UG/L
74908
Hydrofluoric acid (Hydrogen fluoride)
73578
TOW
UG/L
7664393
Hydrogen sulfide (Sulfur hydride)
71875
WATER
MG/L
7783064
Hydroxydimethylarsine oxide (Cacodylic acid)
73579
TOW
UG/L
75605
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.44)
Substance Name 1
Para.
Code(s)
Medium
Units
Cas No.
I ride no (l,2,3-cd)pyrene
pheny lene )pyrene)
(If10-(1,2-
Iodcmethane (Methyl iodide)
Iron dextran (Ferric dextran)
Isocyanic acid, methyl ester (Methyl iso-
cyanate)
Isobutyl alcohol (1-Propanol, 2-methyl-)
Isosafrole (Benzene, I,2-methylenedioxy—
4-allyl-)
Kepone (Decachlorooctahydro-1,3,4-
Methano-2H-cyclobuta[cd]pentalen-2-one)
34403
34404
34405
34406
34407
79644
77424
73580
73581
77033
73582
TOTW
DISS
SUSP
SED
TIS
WASTE
TOTAL
TOTW
TOTW
TOTAL
UG/L
UG/L
UG/L
UG/KG DRY WST
MG/KG WET WGT
MG/KG
UG/L
UG/L
UG/L
UG/L
193395
193395
193395
193395
193395
193395
74884
9004664
624839
78831
120581
39018
WTR Elec.Captr.
UG/L
143500
61561
SLUDGE LIQ
UG/L
143500
61562
SLUDGE SOL
ug/kg
143500
61563
SLUDGE TOT
UGA
143500
81281
TOT
UG/L
143500
81822
FISH
MG/KG WET WGT
143500
81857
SED
UG/KG DRY WGT
143500
82352
DISSOLVD
UG/L
143500
82353
SUSPEND.
UG/L
143500
1 —— Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.45)
Para.
Substance Name Code(s) Medium Units Cas No.
Lasiocarpine (2-Butenoic acid, 2-methyl-,
7-[(2,3-dihydroxy-2-(1-methoxyethyl)-3-
methy1-1-oxobutoxy)methyl]-2,3,5,7a-
tetrahydro-lH-pyrrolizin-1-yl ester)
Lead and compounds ("N.O.S.")
73583
01051
01049
46564
01114
01050
81934
46258
46273
01052
01164
01259
46240
61502
61503
61504
71934
71936
71949
79649
81220
81633
81732
T0TW
TOT
DISS
DISS.+
TOT. rex:.
SUSP
SUSPEND
TOTAL
TOTAL
SED
TOTAL
DTPA
SLUDGE LIQ
SLUDGE SOL
SLUDGE TOT
TOTAL FISH
TIS
EXTR
WASTE
ILL-COLD
SHELL
PLANKTON
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/G
MG/KG
mgag
MG/KG DRY WCT
LBS/DAY
LB/D/CFS
MG/KG
MG/L
mgag
MG/L
UG/GM DWT
MGAG WET WGT
UGA
MGAG
MGA
MGAG DRY WGT
MG/KG DRY
303344
7439921
7439921
7439921
7439921
7439921
7439921
7439921
7439921
7439921
7439921
7439921
7439921
7439921
7439921
7439921
7439921
7439921
7439921
7439921
7439921
7439921
7439921
1 ~ Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different fran Appendix VIII names.
-------�
APPENDIX G (p.46)
Para.
Substance Name ^ Code(s) Medium Units Cas No.
Lead and compounds (continued)
Lead acetate (Acetic acid, lead salt)
Lead phosphate (Phosphoric acid, lead
Lead subacetate (Lead, bis(acetato-0)l
rahydroxytri-)
Maleic anhydride (2,5-Furandione)
Maleic hydrazide (l,2-Dihydro-3,6-
pyridazi nedione)
Malononitrile (Propanedinitrile)
81739
ZOOPLANK
mgAg dry
7439921
81748
SHELL
MGAG WET
7439921
81751
IWTERST WAT
UG/L
7439921
81778
AO MC
MG/KG DRY WGT
7439921
81786
EP AL
MG/KG DRY WGT
7439921
81794
ANML
MG AG DRY WGT
7439921
82275
.031 MM,ST.DB.
UG/G
7439921
82276
.062 MM ST.DB.
UG/G-PB
7439921
82277
.125 MM ST.DB.
UG/G-PB
7439921
82278
.25 MM ST.DB.
UG/G-PB
7439921
82279
0.5 MM ST.DB.
UG/G-PB
7439921
82280
1MM ST.DEB.
rjG/G-PB
7439921
82281
2MM ST.DEB.
UG/G=PB
7439921
82282
4MM ST. DEB.
UG/G-PB
7439921
82486
DIS DRY DEP
UG/KG
7439921
82487
INSOL DD
UGAG
7439921
82488
TOT.REC.DDP
UG/KG
7439921
85206
PB MUD
MG/GM-PB WET WGT
7439921
See "Lead"
73584
TOTW
UG/L
7446277
73585
TOIW
UGA
1335326
78174
WATER
UG/L
108316
78865
SED
UG/RG
108316
79033
TIS
UGAG
108316
73586
123331
73587
TOIW
UG/L
109773
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.47)
Para.
Substance Name 1 Code(s) Medium Units Cas No.
Melphalan (Alanine, 3-[p-bis(2-chloro- 73588
ethyl) ami no] phenyl-, L-)
TOIW
UGA
148823
Mercury fulminate (Fulminic acid, mercury See "Mercury"
salt)
Mercury and compounds ("N.O.S.")
71900
HG,TOTAL
UG/L
7439976
71890
HG,DISS
UGA
7439976
71895
HG,SUSP
UG/L
7439976
71901
tot.rex:.
UGA
7439976
46242
ETPA
mg/kg
7439976
46259
TOTAL
MG/KG
7439976
46272
TOTAL
MG/KG
7439976
01221
DIS DRY D
UGAG
7439976
01222
INS DRY D
UGAG
7439976
01223
TOT DRY D
UG/KG
7439976
01260
IBA/CFS
7439976
61499
SLUDGE LIQ
MGA
7439976
61500
SLUDGE SOL
MGAG
7439976
61501
SLUDGE TOT
MGA
7439976
71920
SED-PULP
MGAG WT
7439976
71921
SED
MG/KG DRY WGT
7439976
71930
TIS
MGAG WET WGT
7439976
71933
TOTAL FISH
UG/GM DWT
7439976
71935
FISH
PPM-WET
7439976
81725
SLUDG
MG/L DRY WGT
7439976
81770
SHELL
MGAG WET WGT
7439976
81856
PLANK
MGAG WET WGT
7439976
81931
SUSPEND
UG/G
7439976
85013
TOTAL
#/CAY
7439976
1 — Appendix VIII pseudonym in parens, STORCT para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.48)
Substance Name
Para.
Code(s)
Medium
Units
Cas No.
Methacrylonitrile (2-Propenenitrile, 2-
methyl-)
Methanethiol (Thiamethanol)
(Methyl mercaptian)
Methapyrilene (Pyridine, 2-[(2-dimethy1-
amino)ethyl]-2-thenylamino-)
Metholrrryl (Acetimidic acid, N-[ (methyl-
carbamoyl)oxy]thio-, methyl ester)
Methoxychlor (Ethane, 1,1,1-trichloro-
2-2'-bis(p-methoxypheny1)-)
81593
00143
78615
73589
39051
39480
39478
82350
39479
82351
39482
46288
61484
61485
61486
81644
81721
39481
TOT
TOTAL
SED
TOTW
WH.VPVTER
WHL SMPL
WTR DISS
DIS
WTP SUSP
SUSP.
CHLOR-FISH
SOIL
SLUDGE LIQ
SLUDGE SOL
SLUDGE TOT
FISH
SHEL
MUD DRY
UG/L
UG/L
UGAG
UG/L
UG/L
UG/L
UG/L
UG/L
UGA
UG/L
UG/KG
NG/G
UG/L
UGAG
UG/L
UG/G WET WGT
UG/KG DRY WGT
UG/KG
126987
74931
74931
91805
16752775
72435
72435
72435
72435
72435
72435
72435
72435
72435
72435
72435
72435
72435
2-Methylaziridine (1,2-Propylenimine)
73590
TOTW
UGA
75558
1 — Appendix VIII pseudonym in parens, STORET para, name {underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.49)
Para.
Substance Name 1 Code(s) Medium Units Cas No.
3-Methylcholanthrene (Benz[j]aceanthrylene, 73591
1,2-dihydro-3-methyl-)
Methyl chlorocarbonate (Carbonochloridic 73592
acid, methyl ester)
4/4'-Methylenebi s(2-chloroani1i ne) 78123
(Benzenami ne, 4,4'-methylenebi s-(2-chloro-)
(MQCA -4,4-Methylenebis-2-chloraniline)
Methyl ethyl ketone (MEK)(2-Butanone) 81595
75078
76050
79658
Methyl hydrazine (Hydrazine, methyl-) 73593
2-Methyllactonitrile (Propanenitrile, 2- 73594
hydroxy- 2-methy1-)
Methyl methacrylate (2-Propenoic acid, 81597
2-methy1-, methyl ester)
Methyl methanesulfonate (Methanesulfonic 73595
acid, methyl ester)
TOW UG/L 56495
rorw UG/L 79221
WHL WATR UG/L 101144
TOT UG/L 78933
SED UG/KG DRY 78933
TIS MG/KG WET 78933
WASTE MGAG 78933
TOW UG/L 60344
TO1W UGA 75865
ror UG/L 80626
roiw UG/L 66273
1 Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if sianificantlv
different from Appendix VIII names. Y
-------�
APPENDIX G (p.50)
Para.
Substance Name 1 Code(s) Medium Units Cas No.
2-Methyl-2- (methylthio) propionaldehyde-o- 39053
methylcarbony1) oxime (Propanal, 2- 81895
methy 1-2-(methylthio)-, O- [(methyl-
ami no)carboriyl] oxime) (Aldicarb)
N-Methyl-N'-nitro-N-nitrosoguanidine 73596
(Guanidine, N-nitroso-N-methyl-N'-nitro-)
Methyl parathion (0,0-dimethyl O- (4- 39600
nitrophenyl) phosphorothioate) 39601
39602
39603
46301
81809
Methylthiouracil (4-lH-Pyrimidinone, 73597
2.3-dihydro-6-methyl-2-thioxo-)
Mustard gas (Sulfide, bis(2-chloroethyl)-) 73598
Naphthalene 34696
34443
34444
34445
34446
79670
1.4-Naphthoquinone (1,4-Naphthalenedione) 73599
WH. WATER UGA 116063
SED U3AG DRY WGT 116063
TCJTW OG/L 70257
WHL WTR SMPL UG/L 298000
MUD UG/KG 298000
FIL FRAC UGA 298000
SUS FRAC UGA 298000
SOIL NG/G 298000
FISH MG/KG WET WGT 298000
TOTW UGA 56042
TOIW UGA 505602
TOTW UGA 91203
DISS UGA 91203
SUSP UGA 91203
SED UG/KG DRY W3T 91203
TIS MG/KG WETT WGT 91203
WASTE MG/KG 91203
TOTW UGA 130154
1 — Appendix VIII pseudonym in parens, STORETr para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.51)
Para.
Substance Name 1 Code(s) Medium Units Cas No.
1-Naphthylamine (alpha-Naphthy1 amine)
2-Naphthylamine (beta-Naphthylamine)
73600
73601
l-Naphthyl-2-thiourea (Thiourea, 1-naphth- 73602
aleriyl-)
Nickel and compounds ("N.O.S.")'
01067
00161
01065
01066
01074
01068
01069
01224
01225
01226
01261
46243
46270
46307
61514
61515
61516
79671
81222
81628
TOIW
TOIW
TOIW
TOTAL
WHL WAT
DISS
SUSP
TOT.REC.
SED
TIS
DIS DRY D
INS DRY D
TOT DRY D
DTPA
TOTAL
TOTAL
SLUDGE LIQ
SLUDGE SOL
SLUDGE TOT
WASTE
ILL-COLD
SHELL
UGA
UG/L
UG/L
UG/L
KG/BATCH
UG/L
UG/L
UG/L
MG/KG DRY WGT
MG/KG WET WGT
UG/KG
UG/KG
UGAG
LB/D/CFS
MG/KG
MG/KG
mg/kg
MG/L
MGAG
MG/L
MG/KG
MG/L
MG/KG DRY WGT
134327
91598
86884
7440020
7440020
7440020
7440020
7440020
7440020
7440020
7440020
7440020
7440020
7440020
7440020
7440020
7440020
7440020
7440020
7440020
7440020
7440020
7440020
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if sianificantlv
different fran Appendix VIII names.
-------�
APPENDIX G (p.52)
Substance Name ^
Para.
Code(s)
Medium
Units
Cas No.
Nickel and compounds (continued)
81724
FISH
MG/KG
DRY WGT
7440020
81731
PLANKTON
MG/KG
DRY
7440020
81738
ZOOPLANK
MG/KG
DRY
7440020
81752
INTERST WAT
UG/L
7440020
81777
AQ MC
MGAG
DRY WGT
7440020
81785
EP AL
MG/KG
DRY WGT
7440020
81793
ANML
MGAG
DRY WGT
7440020
81811
SHELL
MGAG
WET WGT
7440020
85010
TOTAL
#/DAY
7440020
Nickel carbonyl (Nickel tetracarbonyl)
73603
13463393
Nickel cyanide (Nickel (II) cyanide)
See "Nickel"; see "Cyanide"
Nicotine and salts (Pyridine, (S)-3-(1-
77536
TOTAL
UG/L
54115
methy1-2-pyrrolidirtyl)-, and salts)
Nitric oxide (Nitrogen (II) oxide)
73604
TOIW
UG/L
10102439
p-Nitroaniline (Renzenamine, 4-nitro-)
73605
Tonw
UG/L
100016
Nitrobenzene (Benzene, nitro-)
34447
TOIW
UG/L
98953
34448
DISS
UG/L
98953
34449
SUSP
UG/L
98953
34450
SED
UG/KG
DRY WGT
98953
34451
TIS
MG/KG
WET WGT
98953
79672
WASTE
MGAG
98953
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different fran Appendix VIII names.
-------�
APPENDIX G (p.53)
Substance Name 1
Para.
Code(s)
Medium
Units
Cas No.
Nitrogen dioxide (Nitrogen (IV) oxide)
Nitrogen mustard and hydrochloride salt
(Ethanamine, 2—chloro-, N—(2—chloroethyl)—
N-methyl-, and hydrochloride salt)
Nitrogen mustard N-Oxide and hydrochloride
salt (Ethanamine, 2-chloro-, N-(2-chloro-
ethyl)-N-methyl-, and hydrochloride salt)
Nitroglycerine (1,2,3-Propanetriol, trini-
trate)
4-Nitrophenol (Phenol, 4-nitro-)
4-Nitroquinoline-l-oxide (Quinoline, 4-
nitro-l-oxide-)
Nitrosamine ("N.O.S.") 2
N-Ni trosodi-n-butylami ne (1-Butanamine,
N-butyl—N-nitroso-)
46119
46120
73606
73607
34101
77758
34646
34647
34648
34649
34650
79536
73608
CHRISTIE
CHEM
TOTW
TOW
WTR SMPL
TOTAL
TOTW
DISS
SUSP
SED
TIS
WAS
TOTW
PPM
PPM
UG/L
UG/L
MG/L
UG/L
UG/L
UGA
UG/L
UG/KG DRY WGT
MGAG WET WGT
MG/KG
UGA
Code not appropriate for classes of chemicals
73609 TOTW UG/L
10102440
10102440
51752
302705
55630
55630
100027
100027
100027
100027
100027
100027
56575
924163
1 —
Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if siqnificantlv
different from Appendix VIII names. y
("N^O.S^) indicates not otherwise specified in 40 CFR §261 Appendix VIII. since this is a class
of chemicals versus a single chemical no parameter code can be assigned in the STORET system.
-------�
APPENDIX G (p.54)
Substance Name
Para.
Code(s) Medium
Units
Cas No.
N-Nitrosodiethanolaraine (Ethanol, 2,2'-
(ni trosoimi no)bi s-)
N-Nitrosodiethylamine (Ethanamine, N-
ethy1-N-nitroso-)
N-Nitrosodimethylamine (Dimethylnitrosa-
mine)
N-Nitroso-N-ethylurea (Carbamide, N-ethyl-
N-nitroso-)
N-Nitrosomethylethylamine (Ethanamine, N-
methy1-N-ni troso-)
N-Nitroso-N-methylurea (Carbamide, N-
methy1-N-nitroso-)
N-Nitroso-N-methylurethane (Carbamic
acid, methylnitroso-, ethyl ester)
N-Nitrosomethylvinylamine (Ethenamine,
N-methyl-N-nitroso-)
73610
73611
34438
34439
34440
34441
34442
73612
73613
73614
73615
73616
TOIW
TOTW
TOTW
DISS
SUSP
SED
TIS
TOTW
TOTW
TOW
TOTW
TOTW
N-Nitrosomorpholine (Morpholine,N-nitroso-) 73617 TOTW
UG/L
UG/L
UG/L
(JGA
UG/L
UG/KG DRY WGT
MG/KG WET WGT
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
1116547
55185
62759
62759
62759
62759
62759
759739
10595956
684935
615532
4549400
59892
1 —— Appendix VIII pseudonym in parens, STORETT para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.55)
Substance Name *
Para.
Code(s) Medium
Units
Cas No.
N-Nitrosonornicotine (Nornicotine, N- 73618 TOTW
nitroso-)
N-Nitrosopiperidine (Pyridine, hexahydro-, 73619 TOnw
N-nitroso-)
Nitrosopyrrolidine (Pyrrole, tetrahydro-, 73620 TOTW
N-nitroso-)
N-Nitrososarcosine (Sarcosine, N-nitroso-) 73621 TOTW
5-Nitro-o-toluidine (Benzenamine, 2- 73622 TOTW
methyl-5-nitro-)
Octamethylpyrophosphoramide (Diphosphor- 73623 TOTW
amide, octamethyl-)
Osmium tetroxide (Osmium (VIII) oxide) 73624 TOIW
7-Oxabicyclo[2.2.1]heptane-2,3-dicarboxylic 73625 TOTW
acid (Endothal)
Paraldehyde (1,3,5-Trioxane, 2,4,6-tri- 77322 TOTAL
methyl-)
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
16543558
100754
930552
13256229
99558
152169
20816120
145733
123637
1 Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.56)
Substance Name *•
Para.
Code(s)
Medium
Units
Cas No.
Parathion (Phosphorothioic acid, 0,0
Oiethyl O-(p-nitrophenyl)ester)
Pentachlorobenzene (Benzene, pentachloro-)
Pentachlorophenol (Phenol, pentachloro-)
(PCP)
39015
39540
46315
49011
39542
39543
46302
39541
81810
77793
39118
Pentachloroethane (Ethane, pentachloro-) 81501
Pentachloronitrobenzene (PCNB) (Benzene, 81316
pentachloronitro-) 38526
(Terrachloro, oentachloronitrobenzene) 38527
39029
46333
81808
39032
34459
34460
39060
39061
79690
WTR Flame
ionizn
UG/L
56382
WHL WTR SMPL
UG/L
56382
WHL SMPL
UGA
56382
WHL SMPL
(Unkns)
UG/L
56382
FIL FRAC
UGA
56382
SUS FRAC
UG/L
56382
SOIL
NG/G
56382
MUD
UG/KG
56382
FISH
MG/KG WET WGT
56382
TOTAL
UG/L
608935
SED
UGAG
608935
TOT
UGA
76017
TOT
UGA
82688
DISS
UGA
82688
SUSP
UG/L
82688
WTR SMP
UG/L
82688
TIS
WET MG/KG
82688
SED
UG/KG DRY WGT
82688
TOT
UGA
87865
DIS
UG/L
87865
SUS
UG/L
87865
TIS
MG/KG WET WGT
87865
SED
UG/KG DRY WGT
87865
WASTE
MG/KG
87865
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.57)
Substance Name *
Para.
Code(s)
Medium
Units
Cas No.
Phenacetin (Acetamide, N-(4-ethoxyphenyl)-) 73626 TCTIW
Phenol(Benzene, hydroxy-) 34694 TOT
34466 DISS
34467 SUSP
34468 TIS
79693 WASTE
34695 SED
Phe ny lened i ami ne (Be nzened i ami ne)
• (O-Phenylenediamene) 77145 TOTAL
. M-Phenylenediamene 73627 TC7IW
. P-Pherylenediamene 73628 TOTW
Phenylmercury acetate (Mercury, acetato- 73629 TOW
phenyl-)
N-Phenylthiourea (Thiourea, phenyl-) 73630 TOTW
Phosgene (Carbonyl chloride) 73631 TOTW
Phosphine (Hydrogen phosphide) 73632 TOIW
UG/L
UG/L
UGA
UG/L
MG/KG WET WOT
MGAG
UG/KG DRY WGT
UGA
UGA
UGA
UGA
UG/L
UG/L
UGA
62442
108952
108952
108952
108952
108952
108952
95545
108452
106503
62384
103855
75445
7803512
1 Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if siqnificantlv
different from Appendix VIII names.
-------�
APPENDIX G (p.58)
Para.
Substance Name 1 Code(s) Medium Units Cas No.
Phosphorodithioic acid, 0,0-diethyl S-
[(ethylthio)methyl]ester (Phorate)
Phosphorothioic acid, 0,0-dimethyl 0-[p-
(dimethylamino)sulfonyl)phenyl]ester
(Famphur)
Phthalic acid esters ("N.O.S.") 2 (Ben-
zene, 1,2-dicarboxylic acid, esters
("N.O.S.") 2
Phthalic anhydride (1,2-Benzenedicarbox-
ylic acid anhydride)
38870
DISS
UGA
298022
38871
SUSP
UG/L
298022
39023
V7TR Flame ionizn
UGA
298022
39156
TISSUE
MG/KG
298022
46304
SOIL
NG/G
298022
46313
WHL SMPL
UG/L
298022
81412
SED
UG/KG DRY VKJT
298022
38462
TOTW
UG/L
52857
38463
DISS
UG/L
52857
38464
SUSP
UG/L
52857
38465
SED
UGAG
52857
38466
TIS
MG/KG
52857
code not
appropriate for classes of chemicals
75523
76495
77453
SED
TISS
TOTAL
UG/KG DRY WGT
MG/KG WET WGT
UG/L
85449
85449
85449
2-Picoline (Pyridine, 2-methyl-)
77088
TOTAL
UG/L
109068
I — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if siqnificantly
different from Appendix VIII names.
— ("N.O.S") indicates not otherwise specified in 40 CFr/s^61 Appendix VIII4^ince this is a class
of chemicals versus a single chemical no parameter code can be assigned in the STORET system.
-------�
APPENDIX G (p.59)
. Para.
Substance Name Code(s) Medium Units Cas No.
Polychlorinated biphenyl ("N.O.S.")
39516
39517
39518
39519
45570
39515
WHL WTR SMPL
FLT FRAC
STJS FRAC
tlUD
ADIPOSE TIS
FISH
UG/L
UG/L
UG/L
UG/KG
MG/KG
MG/KG
12767792
12767792
12767792
12767792
12767792
12767792
Potassium cyanide
73633
TOTW
UG/L
151508
Potassium silver cyanide (Argentate(1-),
dicyano-, potassium)
73634
TOTW
UG/L
506616
Pronanide (3,5-Dichloro-N-(1,1-dimethyl-
2-propynyl)benzamide)
73635
TOTW
UG/L
23950585
1,3-Propane sultone (1,2-Oxathiolane,
2,2-dioxide)
73636
TOTW
UG/L
1120714
n-Propylami ne (l-Propanami ne)
77013
TOTAL
UG/L
107108
Propylthiouracil (Undecamethylenedi amine,
N,N'-bis(2-chlorobenzyl)-, dihydrochloride)
73637
TOTW
UG/L
51552
2-Propyn-l-ol(Propa rgyl alcohol)
73638
TOTW
UG/L
107197
1 - Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.60)
Para.
Substance Name 1 Code(s) Medium Units Cas No.
Pyridine 77045
Reserpine (Yohimban-16-carboxy 1ic acid, 73639
11,17-diroethoxy-18-[(3,4,5-trimethoxybenzoyl)
oxy]-, methyl ester)
Resorcinol (1,3-Benzenediol) 77164
Saccharin and salts(l,2-Benzoisothiazolin- 77638
3-one, 1,1-dioxide, and salts)
Safrole (Benzene, 1,2-methylenedioxy-4- 77545
allyl-)
Selenious acid (Selenium dioxide)
Selenium and compounds ("N.O.S.") ^
TOTAL
TOTW
TOTAL
TOT
TOTAL
See "Selenium"
01147
01145
22675
22676
22677
00981
01138
01146
01148
01149
01227
TOT
DISS
DISS ORG
HEX DISS
TETT DISS
TOT REC
WATER
SUSP
SED
TIS
DIS DRY D
UG/L
UG/L
UG/L
UGA
~G/L
UGA
UGA
UGA
UGA
UGA
UGA
LBSAAY
UGA
MG/KG DRY WOT
MG/KG WET WGT
UG/KG
110861
50555
108463
80172
94597
7782492
7782492
7782492
7782492
7782492
7782492
7782492
7782492
7782492
7782492
7782492
1 — Appendix VIII pseudonym in parens, STORCT para, name (underlined and in parens) if siqnificantly
different from Appendix VIII names.
2 — ("N.O.S") indicates not otherwise specified in 40 CFR §261 Appendix VIII. Since this is a class
of chemicals versus a single chemical no parameter code can be assigned in the STORET system.
-------�
APPENDIX G (p.61)
Para.
Substance Name *
Code(s)
Medium
Units
Cas No.
Selenium and compounds (continued)
01228
INS DRY D
UG/KG
7782492
01229
TOT DRY D
UG/KG
7782492
61517
SLUDGE LIQ
MG/L
7782492
61518
SLUDGE SOL
mg/kg
7782492
61519
SLUDGE TOT
MG/L
7782492
79703
ms
MG/KG
7782492
81830
SHELL
MG/KG WET WGT
7782492
Selenium sulfide (Sulfur selenide)
See "Selenium"; see "Sulfide"
Selenourea (Carbamimidoselenoic acid)
73640
TUTW
UG/L
630104
Silver and compounds ("N.O.S.")
01077
TOT
UG/L
7440224
00162
WHL WAT
KG/BATCH
7440224
01075
DISS
UG/L
7440224
46566
DISS .+
UG/L
7440224
01076
SUSP
UG/L
7440224
01079
TOT.REC.
UG/L
7440224
01078
SED
MG/KG DRY WGT
7440224
01230
DIS DRY D
UG/KG
7440224
01231
INS DRY D
UG/KG
7440224
01232
TOT DRY D
UG/KG
7440224
01263
LB/D/CFS
7440224
34474
TIS
MG/KG WET WGT
7440224
79704
WASTE
MG/KG
7440224
81223
ILL-COLD
MG/L
7440224
81635
SHELL
MG/KG DRY WGT
7440224
1 Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.62)
Substance Name
Para.
Cas No.
Code(s)
Medium
Units
81642
AG WATER
LBS/DAY
7440224
81727
PLANKTON
MG/KG DRY
7440224
81734
ZOOPLANK
MG/KG DRY
7440224
81742
FISH
MG/KG WET WGT
7440224
81771
AQ MC
MG/KG DRY WGT
7440224
81779
EP AL
MG/KG DRY WGT
7440224
81787
ANML
MG/KG DRY WGT
7440224
81831
SHELL
MG/KG WET WGT
7440224
Silver and compounds (continued)
Silver cyanide
Sodium cyanide
Streptozotocin (D-Glucopyranose, 2-deoxy-
2-(3-methyl-3-nitrosoureido)-)
Strontium sulfide
Strychnine and salts (Strychnidin-10-one,
and salts)
Sulfide (NOT IN 40 CFR §261 APPX. VTII)
See "Silver"; see "Cyanide"
See "Cyanide"
73641 TOIVJ
See "Sulfide"
73642 TOW
00745 TOTAL
00746 DISS
81612 SED
00747 BOT DEP
81621 NHL WTR SMPL
UG/L
UG/L
MG/L
MGA
MG/G
MG/KG
LBS/DAY
18883664
57249
18496258
18496258
18496258
18496258
18496258
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.63)
Para.
Substance Name 1 Code(s) Medium Units Cas No.
1,2,4,5-Tetrachlorobenzene (Benzene,
1,2,4,5-tetrachloro-)
2,3,7,8-Tetrachlorodibenzo-p-dioxi n (TCDD)
(Dibenzo-p-dioxi n,2,3,7,8-tet rachloro-)
Tetrachloroethane ("N.O.S.") 2 (Ethane,
tetrachloro- ("N.O.S.") ^
1,1,1,2-Tetrachlorethane (Ethane, 1,1,1,2-
tetrachloro-)
1,1,2,2-Tetrachlorethane (Ethane, 1,1,
2,2-tet rachloro-)
77734
TOTAL
UG/L
95943
34675
TOTW
UG/L
1746016
34676
DISS
UG/L
1746016
34677
SUSP
UG/L
1746016
34678
SED
UG/KG
DRY WOT
1746016
34679
TIS
MG/KG
WET WGT
1746016
code not
appropriate for classes of
chemicals
77562
TOTAL
UG/L
630206
34516
TOIW
UG/L
79345
34517
DISS
UG/L
79345
34518
SUSP
UG/L
79345
34519
SED
UG/KG
DRY WGT
79345
34520
TIS
MG/KG
WET WGT
79345
79501
WAS
MG/KG
79345
82168
IN AIR
NG/CC
79345
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
2 — ("N.O.S") indicates not otherwise specified in 40 CFR §261 Appendix VIII. Since this is a class
of chemicals versus a single chemical no parameter code can be assigned in the STORET system.
-------�
APPENDIX G (p.64)
Substance Name *
Para.
Code(s)
Medium
Units
Cas No.
Tetrachloromethane (Carbon tetrachloride)
32102
WHL WTR
UG/L
56235
32260
EXTRACTABLES
MG/L
56235
34297
DISS
UGA
56235
34298
SUSP
UG/L
56235
34299
SED
UG/KG DRY WGT
56235
34300
TIS
MGAG WET WGT
56235
82140
IN AIR
NG/CC
56235
79582
WASTE
mgag
56325
2,3,4,6-Tetrachlorophenol (Phenol, 2,3,
77770
TOTAL
UG/L
58902
4,6-tetrachloro-)
Tetraethyldithiopyrophosphate (Dithicpyr-
77871
TOTAL
UG/L
3689245
ophosphoric acid, tetraethyl-ester)
82201
IN WTR
UGA
3689245
(0,0,0,0-Tetra ethyl dithiopyrophos;
Sulfotepp;Bladfume)
Tetraethyl lead (Plumbane, tetraethyl-)
73643
TOIW
UGA
78002
Tet raethylpyrophosphate (Pyrophosphoric
39620
WHL WTR SMPL
UGA
107493
acide, tetraethyl ester) (TEPP)
Tetranitrcmethane (Methane, tetranitro-)
73644
TOTW
UG/L
509148
Thallium and canpounds ("N.O.S.")
01059
TOTAL
UGA
7440280
01057
DISS
UGA
7440280
01058
SUSP
UGA
7440280
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.65)
Para.
Substance Name 1 Code(s) Medium Units Cas No.
Thallium and compounds (continued)
00982
01073
34480
71944
79712
TOT REC
TIS
SED
TOTAL FISH
WASTE
Thallic oxide (Thallium (III) oxide)
See "Thallium"
Thallium (I) acetate (Acetic acid, thallium See "Thallium"
(I) salt)
Thallium (I) carbonate (Carbonic acid,
dithallium (I) salt)
Thallium (I) chloride
See "Thallium"
See "Thallium"
Thallium (I) nitrate (Nitric acid, thallium See "Thallium"
(I) salt)
UG/L
MG/KG WET
MG/KG DRY WGT
UG/GM DWT
MG/KG
Thallium selenite
Thallium (I) sulfate (Sulfuric acid, thal-
lium (I) salt)
Thioacetamide (Ethanethioamide)
See "Thallium"; see "Selenium"
See "Thallium"
73645
Thiosemicarbazide (Hydrazinecarbothioamide) 73646
IDTW
TOIW
UG/L
UG/L
7440280
7440280
7440280
7440280
7440280
62555
79196
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.66)
Para.
Substance Name 1 Code(s) Medium Units Cas No.
Thiourea (Carbamide thio-)
73647
TOOVJ
UG/L
62566
Thiuram (Bis(dimethylthiocarbamoyl) di-
38569
TOTW
UG/L
137268
sulfide)
38570
DISS
UG/L
137268
38571
SUSP
UG/L
137268
38572
SED
UG/KG
137268
38573
TIS
MG/KG
137268
Toluene (Renzene, methyl-)
34010
TOT
UG/L
108883
34481
DISS
UG/L
108883
34482
SUSP
UG/L
108883
34483
SED
UG/KG DRY WGT
108883
34484
TIS
MG/KG WET WGT
108883
78131
WHL HOH VOL
UG/L
108883
78752
SED
UG/KG
108883
79715
VASTE
MG/KG
108883
82155
IN AIR
NG/CC
108883
Toluenediamine (Diaminotoluene)
73648
TOTW
UG/L
25376458
o-lbluidine hydrochloride (Benzen-
73649
TOIW
UG/L
636215
amine, 2-methyl-, hydrochloride)
Tolylene diisocyanate (Benzene, 1,3-diiso- 73650 TOTW UG/L 26471625
cyanatenethy1-)
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different fran Appendix VIII names.
-------�
APPENDIX G (p.67)
Para.
Substance Name 1 Code(s) Medium Units Cas No.
Toxaphene (Camphene, octachloro-)
Tribromane thane (Bromoform)
39400
TOT
UG/L
8001352
39401
DIS
UG/L
8001352
39402
SUS
UG/L
8001352
39403
SED
UG/KG
DRY
t\GT
8001352
39407
FISH
UG/KG
WET
8001352
61558
SLUDGE LIQ
UG/L
8001352
61559
SLUDGE SOL
UG/KG
8001352
61560
SLUDGE TOT
UG/L
8001352
79717
WASTE
mg/kg
8001352
81723
SHEL
ugag
DRY
W3T
8001352
81864
SHELL
UG/KG
WET
WGT
8001352
34691
TIS
MG/KG
WET
WGT
8001352
32104
WHL-WTR
UG/L
75252
34288
DISS
UG/L
75252
34289
SUSP
UGA
75252
34290
SED
UG/KG
DRY
WGT
75252
34291
TIS
MG/KG
WET
WGT
75252
79563
WAS
MG/KG
75252
82151
IN AIR
NG/CC
75252
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different frcm Appendix VIII names.
-------�
APPENDIX G (p.68)
Substance Name
Para.
Code(s)
Medium
Units
Cas No.
34551
TOTTW
UG/L
120821
34552
DISS
UG/L
120821
34553
SUSP
UGA
120821
34554
SED
UGAG
DRY WGT
120821
34555
TIS
mgag
WET WGT
120821
79507
WASTE
mgag
120821
34506
T0TW
UGA
71556
34507
DISS
UGA
71556
34508
SUSP
UGA
71556
34509
SED
ugag
DRY WGT
71556
34510
TIS
mgag
WET WGT
71556
79500
WAS
mgag
71556
82143
IN AIR
NG/CC
71556
34511
TOTW
UGA
79005
34512
DISS
UG/L
79005
34513
SUSP
UGA
79005
34514
SED
ugag
DRY WGT
79005
34515
TIS
mgag
WET WGT
79005
79503
WASTE
mgag
79005
82145
IN AIR
c*3/CC
79005
1,2,4-Trichlorobenzene (Benzene, 1,2,4-
trichloro-)
1,1,1-Trichloroethane (Methyl chloroform)
1,1,2-Trichloroethane (Ethane, 1,1,2-tri-
chloro-)
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.69)
Para.
Substance Name Code(s) Medium Units Cas No.
Trichloroethene (Trichloroethylene) 34485
34486
34487
34692
39180
34555
79718
82156
Trichloromethanethiol (Methanethiol, 73561
Trichloranonoflrorcmethane, (Methane, 34488
trichlorofluoro-) 34489
(trichlorofluoromethane) 34490
34491
79719
82154
2.4.5-Trichlorcphenol (Phenol, 2,4,5- 77687
trichloro-)
2.4.6-Trichlorophenol (Phenol, 2,4,6- 34621
trichloro-) 34622
34623
34624
DISS UG/L 79016
SUSP UG/L 79016
SED UG/KG DRY WGT 79016
TIS MGAG WET WGT 79016
TOT UGA 79016
FISH UGK 79016
WASTE MGAG 79016
IN AIR NG/CC 79016
TCXTW UG/L 75707
1OTW UG/L 75694
DISS UGA 75694
SUSP UGAG DRY WGT 75694
SED MGAG WET WGT 75694
WASTE MGAG 75694
IN AIR NG/CC 75694
TOTAL UG/L 95954
T0TW UG/L 88062
DISS UGA 88062
SUSP UG/L 88062
SED UGAG DRY WGT 88062
1 Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.70)
Substance Name *
Para.
Code(s)
Medium
Units
Cas No.
2,4,6-Trichlorophenol (continued)
trichloro-)
34625
79520
TIS
WASTE
MG/KG WET VKJT
MG/KG
88062
88062
2,4,5-Trichlorophenoxyacetic acid (2,4,5-
T) (Acetic acid, 2,4,5-trichlorophenoxy-)
39740
39741
39742
39743
39744
WHL SMPL
MUD
FLT FRAC
SUS FRAC
fish wwr
UG/L
UG/KG
UG/L
IX1/L
UG/KG
93765
93765
93765
93765
93765
2,4,5-Trichlorophenoxypropionic acid
(2,4,5-TP) (Silvex) (Propionoic acid,
2-(2,4,5-trichlorophenoxy)-1
(2,4,5-TP includes acids and salts)
39054
39760
39761
39762
39763
V7TR SMPL
WHL SMPL
MUD
FLT FRAC
SUS FRAC
UG/L
UG/L
UG/KG
UGA
UG/L
93721
93721
93721
93721
93721
Trichloropropane ("N.O.S.") ^
code not
appropriate for classes of chemicals
1,2,3-Trichloropropane (Propane, 1,2,3-
trichloro-)
77443
TOTAL
UG/L
96184
0,0,Q-Triethyl phosphorothioate (Phos-
phorothioic acid, 0,0,0-triethl ester)
73652
TOTW
UG/L
126681
sym-Trinitrobenzene (Benzene, 1,3,5-tri-
nitro-)
73653
TUIW
UG/L
99354
Tris(l-azridinyl) phosphine sulfide (Phos-
73654
TOTW
UG/L
52244
phine sulfide, tris(l-aziridinyl-)
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
2 — ("N.O.S") indicates not otherwise specified in 40 CFR §261 Appendix VIII. Since this is a class
of chemicals versus a single chemical no parameter code can be assigned in the STORET system.
-------�
APPENDIX G (p.71)
Substance Name
Para.
Code(s)
Medium
Units
Cas No.
Tris(2,3-dibromopropyl) phosphate (1-Pro-
panol, 2,3-dibramo-, phosphate)
Trypan blue (2,7-Naphthalenedisulfonic
acid, 3,3'-[(3,31-dimethyl(1,1'-biphenyl)-
4,41-diy1)bis(azo)]bis(5-amino-4-hydroxy-,
tetrasodium salt)
Uracil mustard (Uracil 5-[bis("2-chloro-
ethyl)anino]-)
Vanadic acid, ammonium salt (amttonium
vanadate)
Vanadium pentoxide (Vanadium (V) oxide)
Vinyl chloride (Ethene, chloro-)
73655
73656
73657
73658
73659
39175
34493
34494
34495
34693
39176
79723
82157
TOTW
TOTW
TOTW
TOTW
TOTW
TOT
DISS
SUSP
SED
TIS
FISH TIS
WASTE
IN AIR
UG/L
UG/L
UG/L
UG/L
UG/L
UGA
UG/L
UG/L
UG/KG DRY WGT
MG/KG WET WGT
UGAG
mgag
NG/CC
126727
72571
66751
7803556
1314621
75014
75014
75014
75014
75014
75014
75014
75014
Zinc cyanide
See "Cyanide"
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different from Appendix VIII names.
-------�
APPENDIX G (p.72)
Para.
Substance Name 1 Code(s) Medium Units Cas No.
Zinc phosphide 73660 '1U1W UG/L 1314847
1 — Appendix VIII pseudonym in parens, STORET para, name (underlined and in parens) if significantly
different fran Appendix VIII names.
-------�
APPENDIX H
Examples of the Water Quality Analysis Branch
Conversational Procedure WQAB PARM
-------�
APPENDIX H
Examples of the Water Quality Analysis Branch Conversational
Procedure WQAB PARM
The procedure WQAB enables a user to obtain STORET parameter
information in several different formats. This appendix contains
examples of 2 out of the 11 available formats.
Below is a sample retrieval request for a list of STORET
parameter codes printed in numerical order.
wqab parm
AUDITING ENTRY TO WATER QUALITY tt*U.YSIS
BRANCH SOFVJfiPE PACKAGE - PWM
•SKIP DESCRIPTIVE NARRATIVE0 'Y" OR 'N(O)"
y
«««««««««««•««««»•««««««««»«•«««•««««««««„
* 1 > STORET PARAMETER •
• 2> CASN# »
• 3) GROUP/ttDIA «
« A> BATCH (REPORTS FOR fiLL PARAMETERS)«
« 5) END «
••«••««•««»••«•«••*«•««««««««««•••••««««•*
OPTION0
A
* TYPE OF PRINTED OUTPUT «
4HM» «HHI «»•« IMNMHI «*«»••«« IHHMM*
« 1 > LASER (0 X 11 > •
> 2) STAND*«D (15 X 11) «
SELECT OPTION-1 1
DO YOU WANT TO CHANCE YOUR SELECT OPTION0 " -H" , R" OR
ENTER YOUR BIN/BOX.
¦pk d
SELECT BY NUMBER
1 . PARAMETER# ORDER. COMPLETE FILE WILL BE PRINTED.
2. NAf-E ORDER. COMPLETE FILE UILL BE PRINTED.
3. CASNC ORDER. COMPLETE FILE UILL BE PRINTED.
4. CROUP ORDER. COMPLETE FILE UILL BE PRINTED.
5. CROUP & SAMPLE MEDIA SELECTION.
6. NUMBER OBSERVATIONS FOR REGION.
7. ENTRY DATE ¦ YYT-ti¦ REPORT IN PARAMETER* ORDER,
e. OEMFATE REPORT IN PARAMETER ORDER.
9. RCRA REPORT IN CAS« ORDER.
A. ICAT REPORT
B. ERIN "Y' CR "N(0>- . •
y«»
JOB PKD(J0BO4349) SUBMITTED
» 1 > STORET PARAftTER
« 2> CASN* .
« 3> CROUP/fCDIA •
« 4) BATCH (REPORTS FOR «_L P«WETERS)«
* 3) END .
OPTION?
3
•PARM" COfFLETED— (02/28/86) — (13 21 31) — (PKDSDUD)
READY
The first page of the output appears on the next page.
-------�
PARMF REPORT
H * MX «*»»»»»»»>!« K WKMmnmiUHHUHm
« RCRA GROUND WATER SUBSTANCES IN STORET — APPENDIX H *
FULL NAME __ ___ __ _ PA?M?_
FORMALDEHYDE (MG/L) 71880
M£THANAL(FORMALDEHYDE) MHOLE WATER,UG/L 76995
MITOMYCIN C TOTWUG/L 73507
2H-1,3,2-OXAZPHOS2AMIN,N,N2CLETHTETRHY2-0>CTOTWUG/L 73538
DDT IN FISH TISSUE DRY HEIGHT MG/KG 81833
DDT IN BOTTOM DEPOS. (UG/KILOGRAM DRY SOLIDS) 39373
DDT IN FILT. FRAC. OF HATER SAMPLE (UG/L) 39371
DDT IN SEDIMENT,ORGANIC MATTER WGT,WET WEIGHTMG/KG 81800
DDT IN SEDIMENT,TOTAL WEIGHT,MET WEIGHT MG/KG 81801
ODT IN SHELLFISH OR ANIMAL (UG/KG WET UEI6HT) 39374
DOT IN SUSP. FRAC. OF WATER SAMPLE (UG/L) 39372
DOT IN WHOLE WATER SAMPLE (UG/L) 39370
DDT SUM ANALOGS IN AQ ORGANISMS WT WGT (UG/G) 39375
DDT SUM ANALOGS IN SEDIMENT UG/KG DRY WEIGHT 39359
DDT SUM ANALOGS INTISSUE WET WGT BASIS 39376
DDT SUM OF ANALOGS IN TISSUE,FAT BASIS(UG/G) 39378
DDT TOTAL IN AQUATIC ORGANISMS WT WGT (UG/G) 39358
DDT TOTAL IN TISSUE WET WGT BASIS (UG/G) 39290
DOT TOTAL IN TISSUE, FAT BASIS (UG/G) 39377
P P DDT IN AqUATIC ORGANISMS WET WEIGHT BASIS(UG/G 39304
P P DDT IN TISSUE WET WGT (UG/G) 39302
P P DDT IN TISSUE, FAT BASIS (UG/G) 39303
P.P* DDT IN BOTTOM DEPOSITS (UG/KG DRY SOLIOS) 39301
P.P' DDT IN FISH OR ANIMAL BY WET WEIGHT UG/KG 39317
P,P* DDT IN WHOLE WATER SAMPLE (US/L) 39300
P,P'- DDT IN WA3TE MG/KG 79681
P.P'-DDT DISSUG/L 34655
P.P'-DDT SUSPUG/L 34656
P.P'-DOT IN SHELLFISH TISSUE WET WEIGHT UG/KG 81862
PiP'-DDT IN SHELLFISH TISSUE DRY WEIGHT UG/KG 81715
P.F'DDT SLUDGE LIQUID FRACTION UG/L 61475
P.P'DDT SLUDGE SOLID FRACTION UG/KG 61476
P.P'DDT SLUDGE TOTAL FRACTION UG/L 61477
PP"-DDT IN ADIPOSE TISSUE(MG/KG) 45555
PPDDT IN AIR NG/CU METER 85220
PPDDT IN EGGS WT WGT BASIS UG/G 85213
PPDDT IN PLANT TISSUE WT WGT BASIS UG/G 85227
BliNZO-A-PYRENE DISSUG/L 34248
BENZO-A-PYRENE SUSPUS/L 34249
BENZO-A-PYRENE TOTWUG/L 34247
BENZO-A-PYRENE DRY WSTBOTUG/KG 34250
BENZO-A-PYRENE MET WGTTISMS/KG 34251
3,4-BENZOPYRENE IN WASTE MG/KG 79532
YHMBN16CARB,11,17,DIMTH18-3,4,5-TRI-MTHESTT0TWUG/L 73639
2,4-DINITROPHENOL DISSUG/L 34617
2,4-DINITR0PHEN0L SUSPUS/L 34618
2,4-DINITROPHENOL TOTWUG/L 34616
2,4-DINITROPHENOL DRY HGTBOTUG/KG 34619
2,4-DINITROPHENOL WET HGTTISM3/KG 34620
2,4-DINITROPHENOL IN WASTE MG/KG 79523
1.2-BENZEDI0L4-Il-HYDROXY-2-(MTHAMNO)ETHLJTOTWUG/L 73555
02/20/86
PAGE 1
WQAB,MDSD,OWPS-EPA «< "PARMFX4" DATABASE »>
EPA-ENVIRONMENTAL ANALYSIS SECTION
1
1
1
Si
H 1
O 1
CAS NO.
80BS-GW
TOTAL-SW
w
50000
2816
839
w
50000
H
50077
W
50180
T
50293
137
S
50293
8693
17559
w
50293
410
744
s
50293
17
19
s
50293
17
23
T
50293
80
705
w
50293
257
437
w
50293
28671
40908
T
50293
, 146
146
s
50293
167
1094
T
50293
5072
10671
T
50293
1831
1831
T
50293
754
T
50293
796
1510
T
50293
2604
2748
T
50293
148
146
T
50293
12513
14646
T
50293
1821
2001
S
50293
1620
5554
T
50293
124
W
50293
8162
8745
0
50293
w
50293
w
50293
7
7
T
50293
383
T
50293
1270
6621
E
50293
E
50293
E
50293
T
50293
A
50293
244
244
F
50293
27
27
T
50293
352
352
W
50328
59
60
W
50328
w
50328
2125
2076
s
50328
763
914
T
50328
283
605
0
50328
w
50555
w
51285
w
51285
w
SI 285
1931
2069
s
51285
585
604
T
51285
290
616
0
51285
w
51434
-------�
APPENDIX H (con't)
sho"ld a user want a RCRA report listed in CAS number order
they would make a retrieval request choosing option 9. An example
ltLgnZ? WUh °ne eXample Page °f ^e output appearing on
trie next page*
wqab parm
ATTEI-PTING ENTRY TO WATER QUALITY MM.YSIS
BRANCH SOFTWARE PACKAGE - PMi
•SKIP DESCRIPTIVE NARRATIVE? •Y(ES)* OR "N<0>* ?
Y
"WWtOMWWHHMWtHHHUUHHMUHHUMH Mil ¦ « ¦¦
• 1) STORET PWWETER .
• 2) CASN# „
» 3> GROUP/hEDIA .
« 4) BATCH (REPORTS FOR M-L PAR<*ETERS>«
• 3) END •
OPTION?
A
DMWWmmiUMIIHIWIIlK
» TYPE OF PRINTED OUTPUT •
« 1 > LASER <8X11) •
• 2) STANDARD (13 X 11) •
SELECT OPTION? 1
DO YOU WANT TO CHANCE YOUR SELECT OPTION? •(Y)ES/(N)0* n
H(EADQUARTERS) , R(ECION) OR S(TATE) USER) ? *H* , R" OR "S* h
ENTER YOUR BIN/BOX.
mpkd
SELECT BY NUMBER
1. PARAMETER* ORDER. COMPLETE FILE WILL BE PRINTED.
2. NAME ORDER. COMPLETE FILE WILL BE PRINTED.
3. CASNO ORDER. COMPLETE FILE UILL BE PRINTED.
A. CROUP ORDER. COMPLETE FILE UILL BE PRINTED.
5. CROUP 4 SAMPLE FCD1A SELECTION.
6. NUMBER OBSERVATIONS FOR REGION.
7. ENTRY DATE 'YYrtl" RbHJKI IN PtfWETER# ORDER.
6. OO-FATE REPORT IN PARAMETER ORDER.
9. RCRA REPCJKI IN CAS# ORDER.
A. I CAT REPORT
B. DRINdNC WATER CONTAMINANTS REPORT.
C. RETURN TO MENU.
SELECT OPTION? 9
SUMMARY OF YOUR REQUEST
IHHItlHHHIMIIHHIWHIWIHHHtllWIHMIIIIIIHHIIHIWttHHHWMIWimillHllt
1 . PRINTED OUTPUT ON LASER PRINTER
2. YOUR JOB UILL EE ROUTED TO BINBOX SPKD
3. SELECTION RCRA REPORT IN CAS» ORDER.
¦SUBMIT THIS JOB? •Y(EB)* OR •N(O)* . • N\
V*»
JOB PKD( J0B04148) SUBMITTED
1 ) STORET PWWETER
• 2) CASN*
• 3) CROLP/hEDIA
• 4) BATCH (REPORTS FOR «_L PARAMETERS)
« S> END
OPTION?
3
"PARM* COMPLETED—(02/28/86> — <13 03 22> —(PKDSDUD)
-------�
PARMF REPORT
01/15/86
PAGE
755
EPA/STORET SYSTEM << PARAMETER NUMBER ORDER — I.H.S. DATA FILE >>
CODE
COMPUTER DECIMAL PARAMETER DESCRIPTION
PRINTOUT POINT
ABBREVIATION LOCATION MAJOR GROUP
CAS NUMBER
PARAMETER CHANGES
ENTERED REVISED
REQUESTOR ACTION
NUMBER Z1970-1975
STORET Z1965-1969
OBSERV ZBEFORE 65
DEVELOPM
CODE 13
AIRFT=AIR LIFT
BAILD-BAILED
C(3MPR=BLOWN OR SURGED WITH COMPRESSED AIR
WJTTD=WASHED OR JETTED
NONE=NONE
PUMPD=PUMPED
OTHER=OTHER
SnGBL=SURGED WITH SURGE BLOCK
8505
E HQ-OSW
8508
84119 SOURCEOF
EVACDATA
CODE
EPA=EPA
OWNOP=OWNER/OPERATOR
CL=CONTRACT LABS
ESDLB=ESD LABS
STATE=STATE
OTHER=OTHER
84120 PACKING
MATERIAL
CODE
SAND=SAND
GnAVL=GRAVEL
NBKFL=NATURAL BACKFILL
SYNTH=SYNTHETIC
SOURCE OF EVACUATION DATA
01
CODE
8505
E HQ-OSW
PACKING MATERIAL
13
REGULATING AGENCY
CODE
8505
E HQ-OSW
84121 REGULATE 1
AGENCY
CODE 01
STATE=STATE IS REGULATING FACILITY
FCDL=FEDERAL AGENCY IS REGULATING FACILITY
OTHER=OTHER AGENCY IS REGULATING FACILITY
CODE
8505
E HQ-OSW
84122
SAMPLE
URPOSE
CODE
SAMPLE PURPOSE
01
CODE
8505
E HQ-OSW
8508
BKGRD=SAMPLED TO DETERMINE BACKGROUND LEVELS
GNQAL=SAMPLED TO DETERMINE GROUND-WATER QUALITY
DNQAL=SAMPLED TO DETERMINE GROUND-HATER SUITABILITY AS DRINKING WATER SOURCE
CHTMN=SAMPLED TO DETERMINE GROUND-WATER CONTAMINATION
A'JMNT=SAMPLED AS PART OF FACILITY'S ASSESSMENT PLAN
PRMIT=SAMPLED AS PART OF FACILITY'S PERMIT REQUIREMENTS
84124 METHODOF
EVACUATE
CODE
APUM=AIR LIFT PUMP
BAIL=BAILED
METHOD OF EVACUTAION
13
CODE
8505
E HQ-OSW
-------�
APPENDIX I
Geoloqic Age Identification,
Aquifer Names and Codes
-------�
APPENDIX I
This Appendix contains the Geologic Age Identification.
Aquifer Names and Codes by State. Due to the volume of
Appendix I, only the first page is enclosed to illustrate the
information contained in the Appendix.
If you intend to include this information in your data base,
please contact the Office of Ground-Water Protection for the
information on your State.
-------�
APPENDIX I
GEOLOGIC AGE IDENTIFICATION, AQUIFER NAMES AND CODES
CODE
Unknown Age 000
Cenozoic 100
Quaternary no
Holocene m
Pleistocene 112
Tertiary 120
Pliocene 121
Miocene 122
Oligocene 123
Eocene 124
Paleocene 125
Mesozoic 200
Cretaceous 210
Upper 211
Gulfian 212
Lower 217
Comanchean 218
Coahuilan 219
Jurassic 220
Upper 221
Middle 224
Lower 227
Tnassic 230
Upper 231
Middle 234
Lower 237
Paleozoic 300
Permian 310
Upper 311
Ochoan 312
Guadalupian 313
Lower 317
Leonardian 318
Wolfcampian 319
Pennsylvanian 320
Upper 321
Virgilian 322
Missourian 323
TABLE 1. NUMERIC CODES
CODE
Middle 324
Des Moinesian 325
Atokan 326
Lower 327
Morrowan 328
Mississippian 330
Upper 331
Chesterian 332
Meramecian 333
Lower 337
Osagean 338
Kinderhookian 339
Devonian 340
Upper 341
Middle 344
Lower 347
Silurian 350
Upper 351
Cayugan 352
Middle 354
Niagaran 355
Lower 357
Alexandrian 358
Ordovician 360
Upper 36I
Cincinnatian 362
Middle 364
Champlainian 365
Lower 367
Canadian 368
Cambrian 370
Upper 371
St. Croixan 372
Middle 374
Lower 377
Precambrian 400
Precambrian Z 410
Precambrian Y 420
Precambrian X 430
Precambrian W 440
GEOLOGIC AGE IDENTIFICATION
1-1
-------�
CATALOG OF AQUIFER NAMES AND GEOLOGIC UNIT CODES
BY STATES AND OTHER AREAS
-------�
ALABAMA
:enozoic
100CNZC
CENOZOIC
QUATERNARY
110QRNR
QUATERNARY SYSTEM 110QRRT
QUATERNARY-TERTIARY SYSTEMS
HOLOCENE
111ALVM
ALLUVIUM 111CSTL
COASTAL OEPOSITS HlhCPC
HOLOCENE-PLEISTOCENE SERIES •• iUHLCN
HOLOCENE SERIES IllLTAV
LOW TERRACE OEPOSITS.ALLUVIUM illRGLT
REOOLITM 111RSOM
RESIOUUM-NORTH ALABAMA 1USPRL
saprolite
PLEISTOCENE
112HGTC
HIGH TERRACE DEPOSITS 112IMTC
INTERMEDIATE TERRACE DEPOSITS **|* 112LTRC
LOW TERRACE OEPOSITS 112PLSC
PLEISTOCENE SERIES 112TRRC
TERRACE DEPOSITS
TERTIARY
120TRCC
TERTIARY-CRETACEOUS SYSTEMS 120TRTR
TERTIARY SYSTEM
pliocene
L 21CRNL
CITRONELLE FORMATION 1111111111111111111111 121PLCN
PLIOCENE SERIES
MIOCENE
122CTML
CATAHOULA 122MCEC
MIOCENE-EOCENE SERIES, *** I22MOCN
MIOCENE SERIES 122Pmmk
PAYNES HAMMOCK SAND I22RSDM
RES IDUUM-SOUTH ALABAMA
OLIGOCENE
12 3BC TN
BUCATUNNA CLAY MEMBER OF BYRAM FORMATION 111111! I ! 11. . . 123BYRM
BYRAM FORMATION 123CCKS
CHICKASAHHAY LIMESTONE 1111111111111111111 123FRML
FOREST HILL * 123GLN0
GLENOON LIMESTONE MEMBER OF BYRAM FORMATIO I * 111111111111111111 123MRNN
MAR I ANNA LIMESTONE
I- t
*U. S. GOVERNMENT PRINTING OFFICE 1986; 621-735/60524
-------� |