United States
Environmental Protection Agency
Office of Water
(WH-553)
4»EPA Regional Forum
on Water Information
U.S. Environmental Protection Agency
Office of Water,
Office of Information Resources Management,
and the Steering Committee for Water Quality Data Systems
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UNITED STATES ENVIRONMENTAL PROTECTION AGENCY
WASHINGTON. D.C. 20460
JUN 26 1989
MEMORANDUM
SUBJECT: Regional Fcruits
FROM. Carl Myers, Chairi-ian Steering Committe
.for Wa?-.er Quality Data Syst.ema
TO: JNegi.onal Foruc, ParticJpants
On blphalrof the Steering Committee for Water Quality Data Systems, I would
like&to wejIcoratoryou toithis Regional Forum on Water Information.
The'steering Committee was formed in June 1987 to: (1) provide oversight
for water-quality data systems, (2) ensure that water information needs of the
Agency and states are o.at, and (3) provide guidance on policy, management, and
technical issues related to water quality information systems.
One of the short-term goals of the Steering Committee was to conduct
Regional Forums to introduce, demonstrate, and assess interest in recent
developments and applications for many of the Office of Water data systems I
am pleased that you are able to attend one of the Regional Forums, and I trust
you will find the information presented today useful.
As an environmental protection professional you understand the importance
of having access to good quality data that you can use to make decisions on
protecting one of our nation's most precious resources, water. The EPA Office
of Water has spent many years and dollars in developing data bases of water
quality information and the computer procedures needed to access them. The
committee thought it would be beneficial to demonstrate some of these data
systems, new and old, that we believe will help you in your day-to-day
administration of water pollution control programs.
The handbook that accompanies this -Forutt 'is designed to familiarize you
with the various systems, answer many of-your questfphs, and provide a general
reference for the access and of" usfe these -systems.
Today's and tomorrow's presentations-allow ample_time for jfpu to provide
us with suggestions about improvements-that lean be made to the data systems to
make them more useful for your specific applications. 1 hope you will take
advantage of this opportunity. Also? the handbook contains a list of contact
people who are available at any time to answer'your questions or receive your
comments.
Again, welcome to this Regional Forum on Water Information.
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TABLE OF CONTENTS
Page
1.0 INTRODUCTION 1-1
2.0 MAINFRAME FUNDAMENTALS 2-1
2.1 MAINFRAME PHOBIA AND HOW TO AVOID IT 2-1
2.2 INITIAL QUESTIONS AND SOME ANSWERS 2-2
2.3 GENERIC IBM-NCC SIGNON PROCEDURE 2-4
2.4 TRAINING, DOCUMENTATION AND USER SUPPORT 2-6
3.0 SYSTEM DESCRIPTIONS 3-1
3.1 STORET MENU-DRIVEN RETRIEVAL INTERFACE 3.1-1
3.1.1 Background 3.1-1
3.1.2 Description 3.1-2
3.1.2.1 How the STORET User Interface Works 3.1-3
3.1.2.2 Menus 3.1-5
3.1.2.3 Command Summary 3.1-LO
3.1.2.4 Accessing Helpful Information 3.1-L6
3.1.2.5 Exiting the STORET User Interface 3.1-17
3.1.2.6 Using A Personal Computer (PC) to
Access STORET 3.1-17
3.1.3 Current Status 3.1-18
3.1.3.1 Using the User Interface 3.1-18
3.1.3.2 STORET Interactive Procedures 3.1-32
3.1.3.3 Request Disposition and Output Manager . 3.1-33
3.1.4 Future Enhancements to the STORET Interface 3.1-34
3.1.5 Sources of Data 3.1-34
3.1.6 Examples of Output Generated With Menu-Driven
Interface to STORET 3.1-36
3.1.7 Complete Documentation, Contacts and Phone
Numbers 3.1-37
Exhibit A (LOG) 3.1-39
Exhibit B (INVENT) 3.1-45
Exhibit C (RET) 3.1-51
3.2 BIOS 3.2-1
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TABLE OF CONTENTS (Continued)
3.2.1 Background 3.2-1
3.2.2 Description 3.2-2
3.2.3 Current Status 3.2-7
3.2.4 Future Applications Planned 3.2-7
3.2.5 Sources of Data 3.2-8
3.2.6 Examples of Use or Outputs 3.2-13
3.2.7 Complete Documentation 3.2-14
3.3 WATER QUALITY ANALYSIS SYSTEM 3.3-1
3.3.1 Background 3.3-1
3.3.2 Description 3.3-2
3.3.3 Current Status 3.3-3
3.3.4 Future Applications Planned 3.3-6
3.3.5 Sources of Data 3.3-8
3.3.6 Example of Use or Outputs 3.3-8
3.3.7 Complete Documentation 3.3-38
3.4 REACH FILE 3.4-1
3.4.1 Background 3.4-1
3.4.2 Description 3.4-2
3.4.3 Current Status 3.4-5
3.4.4 Complete Documentation 3.4-6
3.5 WATERBODY SYSTEM 3.5-1
3.5.1 Background 3.5-1
3.5.2 Description 3.5-2
3.5.3 Current Status 3.5-5
3.5.4 Future Applications Planned 3.5-6
3.5.5 Sources of Data 3.5-7
3.5.6 Examples of Use or Outputs 3.5-7
3.5.7 Complete Documentation 3.5-16
Attachment A 3.5 3.5-17
3.6 NEEDS GENERAL QUERY 3.6-1
3.6.1 Background 3.6-1
3.6.2 Description 3.6-2
3.6.3 Current Status 3.6-2
3.6.4 Future Enhancements 3.6-3
3.6.5 Sources of Data 3.6-3
3.6.6 Querying 3.6-4
3.6.7 Complete Documentation 3.6-28
ii
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TABLE OF CONTENTS (Continued)
3.7 OCEAN DATA EVALUATION SYSTEM
3.7.1 background
3.7.2 Description
3.7.3 Current Status
3.7.4 Sources of Data
3.7.5 Examples of Use or Outputs
3.7.6 Complete Documentation
3.7-1
3.7-1
3.7-1
3.7-2
3.7-3
3.7-3
3.7-48
APPENDIX A OFFICE OF WATER STEERING COMMITTEE FOR WATER QUALITY
DATA SYSTEMS
SHORT- AND LONG-TERM GOALS
APPENDIX B ACCESS TO EPA'S COMMUNICATION NETWORK
APPENDIX C REGIONAL FORUM PRESENTATION OVERHEADS
APPENDIX D STORET'S HOW TO ...
APPENDIX E QUICK REFERENCE GUIDES
APPENDIX F SCENARIOS IN GROUNDWATER DATA MANAGEMENT WITH STORET
APPENDIX G GLOSSARY
iii
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Section 1
Introduction
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1. INTRODUCTION
The Office of Water (OW) Steering Committee for Water Quality Data Systems
(Steering Committee) was established in June, 1987 to: (1) provide oversight
for water quality data systems, (2) ensure that water information needs of EPA
and States are met, and (3) provide guidance on policy, management, and technical
issues related to water quality information systems:
One of the short-term recommendations that the Steering Committee adopted
was to conduct Regional Forums to introduce, demonstrate and assess interest in
recent developments and applications for the following data systems.
• BIOS
• Menu-driven STORET retrieval user interface
• Ground-water and surface-water data management capabilities of STORET
• Waterbody System (WBS)
• Water Quality Analysis Systems (WQAS)
• Reach file
• NEEDS file General Query
• Ocean Data Evaluation System (ODES).
The Regional Forum and this accompanying handbook are a direct result of this
recommendation.
In addition to conducting Regional Forums, the Steering Committee adopted
three other short-term goals for implementation:
1. Conduct a data sharing and system integration/compatibility study
of OW's major information systems to evaluate priority data
management systems against recommended criteria. The study report
will propose specific system enhancements that would improve inter-
system data access/exchange.
2. Complete the development of additional menu-driven software for
retrieval of STORET data.
3. Complete the development of the Enhanced Reach File.
A more detailed description of these short-term recommendations are
provided in Appendix A of this handbook.
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The Committee is currently considering the following four specific
recommendations for long-term implementation in FY '90 - '91:
• Conduct a system accessibility and user training study for OU's
priority data systems
• Establish and maintain an OW priority data system clearinghouse
• Establish an Office of Water policy directive to require review of
proposed water-related system development contracts
• Conduct a water data systems modernization study.
Appendix A also contains a more detailed discussion of these four areas.
Additional information about the activities of the Steering Committee may
be obtained by contacting one of the members or attendees listed in Table 1-1.
This handbook for the Regional Forum demonstrations can and should be used
as a reference document when accessing one or all of the water data systems
presented here. Section 2 of this document contains information that is
fundamental to using EFA's IBM mainframe computer, where most of these systems
reside. Section 3 provides background information about six of the most commonly
used systems operated by the Office of Water. These sections include a brief
history and overview of each of the systems, as well as examples of their use.
In addition, these sections contain explicit instructions on how to use the
system and list a contact person and telephone number if you have any questions,
or would like complete documentation.
Appendix E contains quick reference guides on the use of each individual
water data system. This appendix is intended to be used by the moderately
experienced user to provide a reference to some of the more commonly used
commands associated with the individual systems. It can be used at the terminal
as a reference in lieu of the entire documentation, but should not be considered
a substitute for it.
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Table 1-1. OW Steering Committee for Uater Quality Data Systems
MEMBERS
NAME
Dee, Norbert
Lindenstruth, Phil
King, Robert
Ehrensberger, Kathleen
Martin, Steve
Myers, Carl
Manfredonia, Ron
Malleck, John
Ehorn, Doug
Svoboda, Larry
Kuhlman, Catherine
Eusebio, Ben
Haire, Mike
Conger, Sam
Linthurst, Rick
Zenon, Michele
Miller, Caryle
Pirnie, Abby
Tasker, Connie
Braswell, Sandy
Devonald, Kim
Blakeslee, Mary
Wi ddows on, J e rry
Cannell, John
Conlon, Mike
Frederick, Rod
Grubbs, Geoff
Newton, Bruce
Southerland, Betsy
Taylor, Phi11
Warner, Cindy
Higgins, John
Voyce, Lisa
Kanetsky, Charles
Nelson Zandi, Ava
Collins, George
Leedy, Forrest
Anagnost, John
Goranson, Steve
Melville, Bill
Holman, Mac
Holloway, Tom
Wilson, Eric
OFFICE
OGWP
OIRM
OMEP
OMPC
OWEP
OWRS
Reg. I
Reg. II
Reg. V
Reg. VIII
Reg. IX
Reg. X
St. of MD
NDPD/RTP
OADEMQA
OGWP
OGWP
OIRM
OIRM
OMPC
OPPE
OW
OW
OWEP
OWRS
OWRS
OWRS
OWRS
OWRS
OWRS
OWRS
Reg. II
Reg. II
Reg. Ill
Reg. Ill
Reg. IV
Reg. IV
Reg. V
Reg. V
Reg. V
Reg. VI
Reg. VII
Reg. IX
FTS PHONE
NON FTS
FTS-382-
FTS-382-
FTS-475-
FTS-382-
FTS-475-
FTS-382-
FTS-835-
FTS-264-
FTS-886-
FTS-776-
FTS-454.
FTS-399-
7077
7220
7119
5386
8313
7040
3531
5635
0243
5102
8312
0422
ATTENDEES
FTS-629
FTS-629
FTS-382
FTS-382
FTS-382
FTS-475
FTS-382
FTS-475
FTS-382
FTS-382
FTS-475
FTS-382
FTS-382
FTS-382
FTS-382
FTS-382
FTS-382
FTS-382
FTS-340
FTS-264
FTS-597
FTS-597
FTS-257
FTS-257
FTS-886
FTS-353
FTS-886
FTS-255
FTS-757
FTS-454
•0613
-4048
-7077
-2302
-2374
-8675
-7251
-8214
-7818
-7818
-9539
-5400
-7051
-7040
-7060
-7046
-7046
-7051
-6680
-4124
-8176
-9388
-3402
-3012
-0143
-2074
-1504
-2289
-3884
-8312
(202)-382
(202)-382
(202)-475
(202)-382
(202)-475
(202)-382
(617)-565
(212)-264
(312)-886
(303)-236
(415)-974
(206)-442
(30D-631-3680
(919)-541
(919J-541
(202)-382
(202)-382
(202)-382
(202)-475
(202)-382
(202)-475
(202)-382
(202)-382
(202)-475
(202)-382
(202)-382
(202)-382
(202)-382
(202)-382
(202)-382
(202)-382
(201)-321
(212J-264
(215)-597
(215J-597
(404)-347
(404)-347
(312)-886
(212)-353
(312)-886
(214)-655
(913J-356
(415)-974
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Table 1-1.
OW Steering Committee for Water Quality Data Systems
(Continued)
FORUM COORDINATORS
NAME
Almich, Bruce
Conger, Sam
Worley, Don
Zenon, Michelle
Miller, Caryle
King, Robert
Braswell, Sandy
Frederick, Rod
Taylor, Phill
Warner, Cindy
Evenhouse, Paul
Kerr, Meg
Newton, Bruce
Lindenstruth, Phil
Manfredonia, Ron
Delaney, Dave
Little, Doug
Nachman, Sus ann
Woo, Ed
Block, Richard
Nossa, George
Binetti, Victoria
Braster, Bob
Devin, Rojer
Kanetsky, Charles
Maribello, Rosemarie
Pepino, Richard
Zandi, Ava
Collins, George
Ferrozzuolo, Rick
Howe11, Stallings
Mobley, Linda
Nowak, C.
Olson, Dave
Patton, Rosemary
Gerleve, Janes
Kohl, Noel
Leder, Arnold
Melville, Bill
Nudelman, Al
Freeman, Rowena
Hollar, Kathy
Holman, Mac
OFFICE
NDPD
NDPD/RTP
NDPD
OGWP
OGWP
OMEP
OMPC
OWRS
OWRS
OWRS
OWRS
OWRS
OWRS
OIRM
Reg. I
Reg. I
Reg. I
Reg. I
Reg. I
Reg. II
Reg. II
Reg. Ill
Reg. Ill
Reg. Ill
Reg. Ill
Reg. Ill
Reg. Ill
Reg. Ill
Reg. IV
Reg. IV
Reg. IV
Reg. IV
Reg. IV
Reg. IV
Reg. IV
Reg. V
Reg. V
Reg. V
Reg. V
Reg. V
Reg. VI
Reg. VI
Reg. VI
FTS PHONE
FTS-629
FTS-629
FTS-629
FTS-382
FTS-382
FTS-475
FTS-382
FTS-382
FTS-382
FTS-382
FTS-382
FTS-382
FTS-382
FTS-382
FTS-835
FTS-565
FTS-835
FTS-860
FTS-835
FTS-264
FTS-264
FTS-597
FTS-597
FTS-597
FTS-597
FTS-597
FTS-597
FTS-597
FTS-257
FTS-257
FTS-257
FTS-257
FTS-257
FTS-257
FTS-257
FTS-353
FTS-886
FTS-886
FTS-886
FTS-886
FTS-255
FTS-255
FTS-255
-3306
-0613
-2740
-7077
-2302
-7119
-7251
-7051
-7046
-7028
•7026
-7074
-7060
-7220
-3531
-3615
-3384
-4373
-3384
-5678
-9850
-6511
-4821
-9864
-8176
-9892
-8211
-9388
-3402
-2316
-3866
-4491
-2126
-3973
-4450
-0724
-6224
-6702
-1504
-0160
-6540
-6446
-2289
NON FTS
(919)-541
(919)-541
(919)-541
(202)-382
(202)-382
(202)-475
(202)-382
(202J-382
(202)-382
(202)-382
(202)-382
(202)-382
(202)-382
(202)-382
(617)-565
(617)-565
(617)-565
(617)-860
(617)-565
(212)-264
(212)-264
(215)-597
(215)-597
(215)-597
(215)-597
(215)-597
(215)-597
(215)-597
(404)-347
(404)-347
(404)-347
(404)-347
(404)-347
(404)-347
(404)-347
(212)-353
(312)-886
(312)-886
(312)-886
(312)-886
(214)-655
(214)-655
(214)-655
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Table 1-1.
OW Steering Committee for Water Quality Data Systems
(Continued)
FORUM COORDINATORS
(Continued)
NAME
Lane, Willie
Costello, Pat
Holloway, Tom
Pitt, Terry
Wing, Cindy
Hamilton, Karen
Herman, Para
Sotirous, Dick
Henderson, Dave
Ihnen, Steven
Liu, Ed
Wilson, Eric
Peterson, Ray
OFFICE
Reg. VI
Reg. VII
Reg. VII
Reg. VII
Reg. VII
Reg. VIII
Reg. VIII
Reg. VIII
Reg. IX
Reg. IX
Reg. IX
Reg. IX
Reg. X
FTS PHONE
FTS-255-2289
FTS-757-2970
FTS-757-3884
FTS-757-2817
FTS-564-1576
FTS-564-1702
FTS-454-7738
FTS-454-0841
FTS-454-8281
FTS-454-8312
FTS-399-1682
NON FTS
(214)-655
(913)-236
(913)-236
(913)-757
(303)-293
(303)-293
(303)-236-7086
(415)-974
(415)-974
(415)-974
(415)-974
(206)-442
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Section 2
Mainframe Fundamentals
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2. MAINFRAME FUNDAMENTALS
With the exception of the PC version of the Uaterbody System, all of the
systems that are "described in this handbook reside on EPA's IBM 3090 computer
located at the National Computer Center (NCC) in Research Triangle Park, North
Carolina. Because these systems access data bases containing large quantities
of data, and must be accessible to users throughout the nation, the data systems
must reside on a large computer such as the mainframe at the NCC.
2.1 MAINFRAME PHOBIA AND HOW TO AVOID IT
Many people have an aversion to using a mainframe computer because of
either its remoteness or the false impression that an advanced degree in computer
science is necessary to operate it. It was true, however, that many of the
applications written for the mainframe were not very "user friendly" and required
the user to constantly refer to documentation. Many users did not understand
the process of getting outputs from various kinds of devices (e.g., laser
printers, plotters, tape drives) because they were located in remote locations.
With the advent of microcomputers or "personal" computers (PC's), it became
easier for the user to control information retrieval and processing. All
equipment that the user needed was right there at his fingertips: the PC, the
monitor, the keyboard, the printer, and the disk drive; just flip the switch.
It still took some learning to become proficient at the PC, but most
software had an on-line help facility. If things really got bad, the user could
always call on the mainframe computer expert who usually understood PCs as well.
In the last few years, mainframe computers, their operating systems, and
application software have also become more accessible to the computer novice.
Commands have become less cryptic, and they offer on-line tutorials and usually
a "help" facility. They continue to allow users to access enormous amounts of
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storage and processing capacity. The processing capacity in a typical PC is
minuscule compared to that of a mainframe computer.
In addition"to the memory capabilities available to the mainframe user,
EPA has one of the most sophisticated non-military computer systems available
in the Federal government. Users have access to not only the state-of-the-art
IBM 3090-400 mainframe, but also a wide array of printers, plotters and other
output devices.
2.2 INITIAL QUESTIONS AND SOME ANSWERS
Many users or potential users of the EPA mainframe computer do not know
the proper procedure for gaining access to the mainframe computer. The process
is fairly simple:
1. Request a USERID and account (Call the Regional EPA ADP coordinator
or your program representative).
2. Determine if you will be connecting via dial-up (i.e. , using a modem)
or through direct connect (i.e., through a controller device and
dedicated telephone line.)
3a. For dial-UP: Call Communications (see Table 2.1-1) and ask for the
appropriate telephone number in your area for either a 300/1200 baud
modem or a 2400 baud modem.
3b. For direct connect (full screen mode): Locate the administrator for
your controller. This person should be able to provide you with the
appropriate procedure for connecting to the mainframe.
3c. For dial-up (full screen mode): A user who does not have access to
a dedicated controller may still perform full screen mode functions
by using a PC with a communication package which emulates full screen
terminals. Software packages such as UERMIT 2.30 and Arbiter (free
and supported by EPA) support full screen emulation. This will
allow users who have 300, 1200 or 2400 baud modems to perform full
screen operations. Users who have a 4800 baud modem can access the
mainframe through a separate dial-up WATS (i.e., 800 number) line
that will support full screen mode and all points addressable (APA)
graphics. Contact NCC user support for more information on this.
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Table 2.1-1
Points of Contact
Communications (for help on telephone/communication related problems)
(800) 334-0741
(FTS) 629-4506
EPA National Computer Center User Support (for help in using the EPA data center)
(800) 334-2405
(919) 541-7862
(FTS) 629-7862
NCC Tape Services (to request magnetic tapes at Research Triangle Park, NC)
(800) 334-9700
(FTS) 629-2385
SAS Documentation and Training
SAS Institute
(919) 467-8000
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2.3 GENERIC NCC-IBM SIGNON PROCEDURE
The following sections will describe the procedure a new user would perform
to get access to the EPA-NCC IBM mainframe. It is generic for all users across
the country, but users are urged to determine the local phone number and/or local
procedure to sign on to the mainframe computer.
This section of the handbook also assumes that you already have a USERID,
account, FIMAS ID and have a computer or terminal with a modem. No attempt is
made here to describe the methods for using your communications software or
terminal.
The current (as of June 15, 1989) WATS (i.e., 800) number for the EPA-NCC
computer is 800-222-0500. This number changes often, and so users are urged to
call EPA-NCC telecommunications (see Table 2.1-1) to determine the correct
number. The settings that should be established with your modem or communication
software are:
7 data bits
2 stop bits
Even parity
Half duplex.
The baud can be set to either 300, 1200 or 2400.
Once the user dials the WATS number and is connected, the following line
should appear (responses are in italics):
please type your terminal identifier a
-2346:01-006-
please log in: ep&2 (for 2400 baud) (for 300/1200 baud use epal)
P 2
NODE 10372 HOST 1392: IBM1 IS ON LINE
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Welcome to the Environmental Protection Agency National Computer Center
Please enter one of the following selections:
IBMPSI for IBM
TCP for IBM 3270 EMULATION
VAXA for VAX SYS A
VAXB for VAX SYS B
EMAIL for EMAIL
Enter selection: ibmpsi
Connected
U.S. EPA (TTY-X25-IBM)
A ISO - NCC
B NY
C NEIC
D WIG
E SEATTLE
F ATLANTA
G DALLAS
I KANSAS CITY
J PHILADELPHIA
K CINCINNATI
L SAN FRANCISCO
M BOSTON
N CHICAGO
Selection ?a
IKJ56700A ENTER USERID -
iii (USERID)
IKJ38900B ENTER PASSWORD -
PPPPPPPP (password)
IKJ56700A ENTER ACCOUNT -
aaaa (account)
IKJS6700A ENTER PROCEDURE NAME -
Sepatso1 (procedure)
IKJ564S5I iii LOGON IN PROGRESS AT ... ENTER FIMAS ID -
fffff (FIMAS ID)
is the generic procedure nomenclature, but for those STORET-registered
users, they should type "aastoret" in the place of "$epatso."
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After this the user should get a series of news announcements and other items.
Eventually you will be placed at the "READY" prompt, where the user can execute
the systems described in Section 3 of this handbook.
2.4 TRAINING, DOCUMENTATION AND USER SUPPORT
As a first step, once the user has acquired his USERID and account number
it would be advisable to get a copy of the NCC-IBM Users Guide. To do this on-
line, issue the following command at the TSO "READY" prompt:
READY
PRINTOFF 'JUSD.USERS.GUIDE(MANUAL)' bbbb TEXT FORMS(6371) CLASS(F)
Where bbbb is the bin/box number appropriate for the USERID. If the user
is not sure what that should be, use the letter 'M' followed by your USERID
initials. This will cause the output to be mailed to the address
associated with the USERID.
Training on the use of non-Office of Water software is available through
the NCC. Contact the NCC User Support Group (see Table 2.1-1) to get a schedule
of training.
Many of the Office of Water programs provide training on their individual
systems. Contact the individuals listed in Section 3 to determine if and when
training will be available.
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SECTION 3
SYSTEM DESCRIPTIONS
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Section 3
System Descriptions
§
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Section 3.1
STORET Menu-Driven Retrievals
and
Ground-Water Data Management
I
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3.1 STORE! MENU-DRIVEN RETRIEVAL INTERFACE
3.1.1 Background
STORET has always been a powerful water quality analysis tool. However,
the utility of the system has been hindered somewhat by the STORET retrieval
language, which although extremely flexible and versatile, can be difficult
for the non-computer professional to master. Users need to know the keywords
and command language not only for STORET, but also for TSO (Time Sharing
Option), QUEUE (output utility), and JCL (Job Control Language for batch
jobs). As a result, potential users of the system were often discouraged by
the complexity of this environment. This meant that STORET was not being used
to its full capacity. For this reason, U.S. EPA's Office of Ground Water
Protection (OGtfP) and the Office of Information Resources Management (OIRM)
initiated an effort to identify enhancements that would improve user access to
STORET.
To determine the wants and preferences of STORET users regarding access
to the system, EPA conducted a user requirements analysis in the fall of 1987.
Feedback was obtained from a wide range of users at the EPA, other Federal
agencies, state and local governments, and academia. The requirements
analysis gathered data relating to user characteristics, computing
environment, views of the current system, potential enhancements to the
system, documentation, and training.
The requirements analysis led to the establishment of the following
objectives for a new user interface:
• Facilitate ease of use
• Reduce overall cost and time requirements
• Provide for greater convenience and accuracy
• Encourage wider use of the system.
3.1-1
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With the results of the requirements analysis, a prototype design was
developed. In March 1988, a national workshop with over 80 attendees
evaluated prototype. The recommendations of the workshop participants
resulted in the current interface design.
3.1.2 Description
This new user interface was developed following the requirement analysis
and further input from users. It uses the Interactive System Productivity
Facility (ISPF) on EPA's mainframe to provide a menu-driven system having
full-screen editing capabilities. The interface serves as a bridge between
the user and the STORET Water Quality System.
The interface, through the use of menus, provides a simple question-and-
answer selection process. All user-selected menu entries are translated into
the existing STORET command language syntax by the interface. Translated
retrieval requests may then be submitted for execution against the Water
Quality data base.
The STORET database and user interface reside on the IBM 3090 mainframe
computer maintained by the U.S. EPA at the National Computer Center in
Research Triangle Park, North Carolina. Accessing the interface requires that
you must first establish communications with the mainframe computer.
Communication with EPA's IBM computer in North Carolina requires a DEC
VT100, IBM 3270, or compatible terminal, or a personal computer (PC) that can
emulate these terminals. Communications may be through a long distance high-
speed link connected directly to the mainframe or through a phone line and a
modem. If you are accessing the interface via a high-speed link simply select
the "TSO - NCC" option on the logon menu. Users dialing into the IBM system
must select the "IBM 3270 Emulation" option by entering "NCC.TCP" on the dial-
in logon menu. Modems with a baud rate of 2400 or higher are preferable,
although the slower data transmission rates are acceptable. A more detailed
discussion of the dial-in process is explained in Volume 1 of the STORET
3.1-2
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Handbook (available from STORET User Assistance). You will also find more
useful information about the computer and how to access it, use it, etc. in
Appendix D of this handbook. Regardless of how the user reaches the mainframe
computer, he must*possess a valid USERID and account to access the EPA
computer. Refer to Section 3.1.7 for information on whom to contact for this
information.
Once the user has logged on, the TSO "READY" prompt appears indicating
that he is in the TSO environment and that the STORET system is available.
The user must enter "ISPF" in response to the "READY" prompt to invoke the
STORET user interface.
3.1.2.1 How the STORET User Interface Works
Once the user enters "ISPF", the Primary Option Menu will be displayed
on the screen. The user must enter "S" from the Primary Option Menu to access
the STORET interface. The other options on this menu are ISPF functions,
e.g., BROWSE, EDIT, SDSF. For more information on ISPF contact NCC User
Support (see Section 3.1.7). The next menu that appears will show the STORET
system herald and list of STORET options. The user should specify option "1"
to select Water Quality System Function. The Water Quality System herald and
a list of options will be displayed on the screen. Specifying option "1"
again initiates user interface for the creation, modification, and submission
of STORET retrieval requests.
One of two paths may be followed through the interface. The general
retrieval path provides access to all data within the Water Quality System.
The ground-water path is specifically tailored to the needs of ground-water
managers who are working in accordance with the data procedures and standards
described in the Ground-Water Data Management With STORET Manual. Note that
the ground-water data not stored in accordance with the conventions
established within the GW Manual, includes a large amount of historical data
and is available through the general retrieval path.
3.1-3
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The STORE! retrieval process is logically divided into several basic
steps:
1. Output format specification
2. Sampling.site selection
3. Sampling event selection
4. Parameter selection
5. Special output options
6. Job submission options
The following five output formats are currently available:
STA - station ID listing by agency
INVENT - data summary for unlimited parameters
RET - data listing for up to 50 specified parameters
ALLPARM - data listing for an unlimited number of parameters
LOG - station location map
All information entered after this point is saved as part of a retrieval
request having a unique user-assigned name. This is another aspect of the
STORET interface that was specifically designed to make using the system as
simple and painless as possible. When a new retrieval request is to be
entered which is similar to a previously saved request, the existing request
may be recalled, modified, and saved under a different name. This approach
preserves the original request, yet eliminates having to re-enter the parts of
the new request that were repeated in the existing request. When an existing
request is selected for use, the information it contains is displayed within
each menu as it was originally entered, when the user wishes to change any of
the retrieval specifications in the request, these values may simply be typed
over.
The commands required to progress through the menus are usually
displayed on the menus themselves. They may be entered on the command line or
through the use of function keys, e.g., PF3 is typically defined to invoke the
END command. In general, the END command moves to the preceding menu, while
the ENTER key processes the current menu and moves the user to the next menu
(assuming there are no errors on the current menu). Scrolling menus, which
are described in detail in the next section, may require that the ENTER key be
pressed twice to progress to the r---xt menu. Detailed help about each prompt
3.1-4
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and each menu is available at the touch of a key (typically PF1 is defined to
invoke the HELP command). In addition, there are look-up menus that provide
listings of codes, such as FIPS county or USGS hydrologic unit codes from
which the user may select desired items during the retrieval process. Every
selection made by the user is checked and verified by the interface. A
Command Summary is listed in Section 3.1.2.3.
Once a retrieval request has been completed, it may be submitted for
execution. Any number of requests may be created, modified, and submitted
during a single terminal session.
The processing of retrieval outputs is performed under SDSF (Spool
Display and Support Facility), which is accessed via the ISPF Primary Option
Menu. Outputs can be viewed on the terminal screen, purged (deleted) from the
output queue, or routed to a designated remote printer.
Before accessing the interface, the user should attempt to identify for
his workstation, the keys (or key combinations) which perform the following
IBM 3270 functions: RESET, ATTENTION, ERASE EOF, TAB FORWARD, TAB BACKWARD,
NEW LINE, PAl and PA2 (PA3 if available), and PF1 through PF12 (PF13 through
PF24, if available). Some keyboards label the Enter key as "Newline" or
"Return" and the Attention key as "Break".
3.1.2.2 Menus
The three basic types of menus utilized in the interface are:
Choice
Entry
Selection
Understanding the difference between the various types of menus will
help when using the interface. The cursor will usually be positioned at the
menu location where the first entry or selection is to be made. This
minimizes time spent repositioning the cursor to the appropriate section of
3.1-5
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the menu. In all menus, items which require input from the user will have an
arrow (—>) prompt or will have underscores ( ) indicating where data may
be entered. A menu item that lacks either an arrow or underscores is
protected and cannot be changed. To move from one input menu item to another,
the user must use a TAB key, or the arrow keys. When user errors are
detected, an error message will be displayed and, if the beeper is on, will be
accompanied by an audible beep. Messages may appear in two locations on a
menu. Short messages appear at the top right corner of the screen and long
messages appear immediately below the "Command —>" prompt.
Menus whose contents may not fit on a single screen are scrollable. All
scrollable menus have labels reading the "ROW x OF y" and "Scroll —> CSR" in
the upper right hand corner. These menus may be scrolled up or down, since
their contents may at times exceed the number of lines on the screen. The UP
and DOWN commands may be entered on the command line or invoked by function
keys, e.g., PF7 for UP, PF8 for DOWN. These commands allow the user to move
the screen "window" up or down to display the desired part of the menu
contents. The "ROW x OF y" label indicates that row "x" of a menu containing
"y" rows is currently the top row displayed on the screen. The letters "CSR"
specify that the scrolling is based upon the current position of the cursor.
The row on which the cursor lies when the scrolling command is issued, is
moved to the top or bottom of the screen,depending upon which scrolling
command is used. If the cursor is not in the body of the menu, or if it's
already positioned at the top or bottom, the complete screen is scrolled. The
complete set of valid scrolling commands are described in Section 3.1.2.3 of
the Command Summary under Scrolling Menu Commands.
Choice Menus
Choice menus (Figure 3.1-1) display a list of options from which the
user may choose a single option by entering the appropriate number at the
Option prompt. One-line descriptions of the options are provided on the
3.1-6
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screen to convey the purpose of each option. The Help command (or the
equivalent PF key) may be entered at the command line to obtain more
information about the options.
Title Line
Command —>
Option —>
1 Option 1 description
2 Option 2 description
3 Option 3 description
U Option 4 description
5 Option 5 description
Press ENTER key after selecting desired option.
Figure 3.1-1. Example of a Choice Menu
Entry Menus
As previously indicated, entry menus have various locations on the
screen where information may be entered by the user (Figure 3.1-2). These
locations are identified by the arrow prompt (—>), or a sequence of
underscored ( ), or both.
Scrolling entry menus have a spreadsheet format with input fields
displayed in rows and columns. There are a number of editing commands that
may be specified in The command column (CHD) that precedes each row (e.g., "R"
repeats the row, "D" deletes the row). The complete set of valid edit
commands is described in Section 3.1.2.3 of the Command Summary under
Scrolling Entry Menu Edit Commands.
3.1-7
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Title Line
Command —>
This is a question to be answered? —> (Yes or No)
Input field —> Input field —>
Input field —> Input field —>
Pres ENTER key to continue.
Figure 3.1-2. Example of a Non-scrolling Entry Menu
Columns within scroll!. entry menus, whose headings contain a question
mark (?) or asterisk (*), have a powerful, built-in "look-up" feature. When a
question mark is entered into a row with a question-marked column heading, a
selection menu containing all possible values that may be entered in the
column is displayed. Column One in Figure 3.1-3 has the question mark look-up
feature. When part of a value immediately followed by an asterisk (e.g.
NITR*) is entered into a row with an asterisked column heading, a selection
menu displays values that may be entered in the column that begin with the
characters preceding the asterisk. Column two in Figure 3.1-5 has the
asterisk look-up feature. Entering an asterisk BY ITSELF in a row with an
asterisked column heading is equivalent to entering a question mark in a row
with question marked column heading (i.e., all possible values are displayed
in tr.a selection menu) .
Note that whenever the ENTER key is pressed, data validation is
performed on each row of a scrolling table entry menu as a single unit. This
means that the user must enter a value into all required fields of a screen
menu before the Enter key is pressed. If this is not the case, an error
message will be displayed indicating that the user has left a required field
empty and the cursor will be placed at the beginning of the required field.
3.1-8
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Title Line Row x of y
Command —> Scroll —> GSR
Column
CMD One Column Two Column Three
Press ENTER key twice to continue --
Figure 3.1-3. Example of a Scrolling Entry Menu with Look-up Feature
Selection Menus
Selection menus (Figure 3.1-4) provide a set of options from which the
user selects one or more desired options by typing an "s" in the underscored
field that precedes each option description.
Title Line
Command —>
Option Descriptions
Option 1 description
Option 2 description
Option 3 description
Option 4 description
Press ENTER key to continue after selecting desired option(s).
Figure 3.1-4. Example of a Non-scrolling Selection Menu
3.1-9
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Selection menus may also be scrollable (Figure 3.1-5). See the
discussion of scrolling menus in the Section 3.1.2.2 above for a complete
description of their features.
Title Line Row x of y
Command ——> Scroll —> CSR
SEL Column Heading
Option 1 description
Option 2 description
Option 3 description
Option 4 description
Option 5 description
Option 6 description
Option 7 description
Press ENTER key twice to continue
Figure 3.1-5. Example of a Scrolling Selection Menu
The "Request Selection List" menu is the only scrolling selection menu
that allows just ONE option to be selected. The "Request Selection List" menu
is displayed when no request name is specified on the "Request Option and
Name" menu at the start of the interface.
A small number of menus are hybrid combinations of the three basic types
described above, e.g., a choice menu entry that requires the user to enter
additional information when choosing the entry.
3.1.2.3 Command Summary
The three different types of commands that may be invoked at any point
within the interface from the command line (Command —->) are:
3.1-10
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• ISFF commands
• SDSF (Spool Display and Support Facility) commands. SDSF allows the
user to locate and process requests submitted for execution by the
interface.
• ISO commands
Pertinent ISFF, SDSF, and TSO commands are described below. A complete
description of the available ISFF, SDSF, and TSO commands is available through
NCC User Support (see Section 3.1.7).
Note that the function key definitions for ISPF and SDSF may vary, thus
leading to different behavior by the same function key when utilized in the
interface and SDSF. SDSF is a commercial system utility that has its own set
of function key definitions.
ISPF Commands
An ISPF command may be entered in one of two ways:
1. By typing the command after the "Command —>" prompt and pressing
the ENTER key.
2. By pressing a PF key that has been defined to the desired command.
Remember that pressing a FF function key simply simulates typing the command.
Each PF key is equated to a character string. When the PF key is pressed, the
processing is the same as if the user actually typed the character string
after the "Command —>" prompt and pressed the ENTER key. ISPF does not
differentiate between a command entered with a FF key and a command entered by
typing at the "Command —>" prompt.
A description of the general ISPF commands and their default PF function
key assignments is given below. Additional commands available for scrolling
menus and scrolling entry edit menus are listed separately.
3.1-11
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HELP (PF1)
SPLIT (PF2)
END (PF3)
RETURN (PF4)
RFIND (PF5)
UP (PF7)
DOWN (PF8)
SWAP (PF9)
LEFT (PF10)
RIGHT (PF11)
CURSOR (PF12
or TAB)
PFSHOW
KEYS
SDSF
TSO
-X
Provides information about the menu and the prompts in the
menu.
Causes screen to split horizontally at cursor position, or
changes the location of the screen split.
Terminates the current operation and returns to the previous
menu. If the ISPF primary option menu is displayed, this
command terminates ISPF.
Causes an immediate return to the ISPF primary options menu
or to the menu from which a HELP or KEYS command was
entered, without displaying intervening menus.
Searches for the next occurrence of the specified search
string.
Causes a scroll upwards.
Causes a scroll downwards.
Moves the cursor to wherever it was previously positioned on
the other logical screen of a split screen pair.
Causes a scroll to the left.
Causes a scroll to the right.
Moves the cursor to the next input field.
Displays function keys and commands associated with the
keys.
Causes an immediate display of a menu that allow the user to
view and change the current PF key definitions.
This will invoke the Spool Display and Support Facility
Primary Option menu at any point in the session. The menu
contains a list of commands that allow the user to purge,
fetch, route, and view jobs in the output and input queues.
The list of commands is given below.
Allows the user to enter a TSO command from any menu.
commonly used TSO commands are given below.
Some
Permits the user to exit the STORET user interface and
terminate ISPF. If the user is in the middle of creating or
modifying a retrieval request, it will be saved
automatically before exiting.
3.1-12
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Scrollins Menu Commands
The commands described below may be entered after the "COMMAND —>"
prompt on all scrolling menus.
FIND, F
TOP, FIRST
BOTTOM, LAST
MIDDLE, M
LOCATE, LOC, L
SAVE
Searches for a combination of values that were specified in
a template (pattern) resembling a menu row.
Moves the cursor to the first line of the scrolling menu.
Moves the display to the last line of the scrolling menu.
Moves the display to the middle line of the scrolling menu.
Moves the display to the specified line (e.g., "Locate 8"
moves to the 8th line of the scrolling menu).
Saves the current retrieval request.
Scrolling Entry Menu
These commands may be entered in the underscored rows of the command
column (with column heading "CMD") on scrolling entry menus.
A (after)
B (before)
C (copy)
D (delete)
I (insert)
I «nnn»
R (repeat)
R «nnn»
Identifies the line after which copied, moved, or model
lines are to be inserted.
Identifies the line before which copied, moved, or model
lines are to be inserted.
Identifies a line to be copied.
Causes the line to be deleted.
Causes a new line to be inserted after this line.
Inserts «nnn» empty lines after this line.
Causes the line to be repeated and the new copy to be
inserted immediately after this line.
Causes the line to be repeated «nnn» times after this
line.
3.1-13
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SDSF Commands
The SDSF commands are shown below. These commands may be entered after
entering SDSF from the ISPF Primary Option Menu (option 8).
DA This command allows the user to obtain information on the
active jobs in the system and how much Central Processing
Unit (CPU) time is being used by the various users. This
allows users to display information about active, executing
jobs.
I This command allows the user to display the jobs that are in
the input queues, awaiting execution. Entering only the "I"
command means that all the standard input classes are to be
listed. Two additional parameters may be entered with this
command: "H" which indicates that only jobs on hold are to
be listed or "NH," which indicates that only jobs that are
not on hold are to be listed. The information that is
listed includes type of job (TYPE), the job number (JNUM),
job execution priority (PRTY), job class (C), position of
the job in input queue (POS), job output print routing
(RMT), the time and date the job was submitted (RD TIME, RD
DATE), the job room number (RNUM) and the time execution
began if the job has already executed (ST TIME).
0 This command allows the user to display the jobs that have
been executed. When the "0" command is entered, all jobs
that are in the output queue will be displayed. The
information listed on each job output includes job name
(JOBNAME), job number (JNUM), the output class (C), the
output form number (FORM), the total print lines for the
output (TOT REC), the job status (STATUS - held, cancelled.
or blank), the output device name (DEVICE), and the output
print node (NODE). The ISPF scrolling commands (UP, DOWN,
LEFT, RIGHT) may be used in this menu since the listing of
information displayed on job may be larger than the terminal
screen.
The user may display the output of any executed job whose
output is in HOLD by typing an "S" in the NP column next to
the jobname. He may also change a job output's destination
by modifying its DEST value. This allows him to re-direct
the printed output from a held job to a specific remote
printer or vice-versa. All EPA Regions and most state
agencies have at least one remote printer. The contact
person listed in Section 3.1.7 should be consulted for
remote printer site numbers in their respective regions.
3.1-14
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? The user may obtain a list of the individual parts of a job
output by entering a question mark (?) at the NP column of
the desired job. The user may enter "S" in the NP column to
display one part of the Job output on the screen before it
is printed.
ST This will display the status of jobs in both the input and
output queues.
PR The "PR" command will display the status of all remote and
system printers on the EPA computer.
INPUT This command allows display of SYSIN datasets.
WHO This command displays the user logon procedure name, USERID,
and terminal name.
TSO Commands
These are operating level commands similar to DOS on the personal
computer. The command "TSO" must be entered first in the command line
followed by a space and the appropriate TSO command. Only the commands that
may be useful to STORET users are given below:
COPY Copy a dataset.
DELETE Delete a dataset.
LIST List the contents of a dataset.
LISTCAT List all datasets catalogued to the USERID.
LISTDS List the attributes of a dataset.
RENAME Rename a dataset.
LOGOFF End the terminal session
LOGON End the current terminal session and begin a new terminal
session.
TIME List the date, time, and other related information.
3.1-15
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3.1.2.4 Accessing Helpful Information
The help information available in the user interface has been separated
into several levels, from the general to the very specific, so that the type
of information that the user may access is dependent on the type of
information that he needs.
Level 1: General Help
This help is invoked by entering the HELP command (or equivalent
function key). This will provide the user with a brief description of the
menu. If the menu is a scrolling menu, the help will also provide the user
with access to all the commands that may be entered here. If the menu
warrants it, more specific help may be selected for each individual prompt on
the menu.
Level 2: The Look-UP Feature
This help is only available for scrolling menus. Two types of look-up
help are provided on scrolling menus. Menus associated with station selection
by aquifer code, state/county FIPS codes or name, USGS Hydrologic Unit codes,
and EPA basin codes provide a textual description for each code specified on
the menu, (e.g., the state name is displayed next to the state code). This
aids users in confirming that the correct code was entered. The second type
of look-up help invokes a selection menu of valid responses, thus allowing
users to select desired entries. Columns whose headings contain a question
mark (?) or asterisk (*), have the "look-up" menu feature. When a question
mark is entered into a row with a question marked column heading, a selection
menu is displayed which contains all possible values that can be entered in
the column. When part of a value immediately followed by an asterisk is
entered into a row with an asterisked column heading, a selection menu
containing all possible values that may be entered in the column that begin
with the characters preceding the asterisk. Entering an asterisk BY ITSELF in
3.1-16
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a row with an asterisked column heading is equivalent to entering a question
mark in a row with a question-marked column heading (i.e., all possible values
are displayed in the selection menu).
Level 3: Data Validation
This third level of help is invoked automatically. All user inputs are
checked and verified by the interface. When an error is detected, an error
message will be displayed on the screen and is usually accompanied by an
audible beep. The user may obtain more information about this short error
message by entering the HELP command on the command line or by pressing the
equivalent function key. By entering HELP again, even more information may be
obtained about the error prompt.
3.1.2.5 Exiting the STORET User Interface
Enter "-X" after the "COMMAND —>" prompt to exit the interface and
terminate ISPF. If the user is in the middle of creating or modifying a
retrieval request, it will be automatically saved before exiting. This will
get him back to the TSO "READY" prompt.
To terminate the terminal session, the user must enter "LOGOFF".
3.1.2.6 Using a Personal Computer (PC) to Access STORET
Any PC equipped with a modem and communication software capable of
emulating either a DEC VT100, or an IBM 3270 terminal (e.g., KERMIT, ARBITER,
Crosstalk) can access the EPA mainframe computer in North Carolina in full-
screen mode and use the STORET interface. EPA will provide, at no charge,
copies of KERMIT and/or ARBITER. Crosstalk and other communication packages
with VT100/IBM 3270 emulation may be purchased through most commercial
software dealers.
3.1-17
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3.1.3 Current Status
This section provides an overview of the Water Quality System (WQS)
retrieval process*using the menu-driven interface. As explained earlier, one
of two retrieval paths may be followed through the interface:
- General Retrieval Path, or
- Ground-Water Path.
The general retrieval path provides access to all data within the Water
Quality System. The ground-water path is specifically tailored to the needs
of ground-water managers who are working in accordance with the data
procedures described in the GW Data Management with STORET Manual. The
ground-water path provides a number of special menus for requesting STORET
data based upon ground-water sampling and analytical methods. Note that
ground-water data not stored in accordance with the convention established
within the GW Manual are available through the general retrieval path.
For more specific information about the retrieval process refer to the
"Ground-Water Data Management with STORET" and the "STORET Handbook - Volume
1", both of which are available through STORET User Assistance.
3.1.3.1 Using the User Interface
As previously stated, the retrieval process can be broken up into the
following six steps:
1. Report Format Specification
2. Station Selection
3. Sample Selection
4. Parameter Selection
5. Special Output Options
6. Job Submission Options
3.1-18
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Step 1. Report Format Specifications
The report formats which are currently available are described below:
INVENT
RET
ALLPARM
LOG
STA
The INVENT format displays a summary listing for all or
selected parameters at the selected stations. Information
listed for each parameter includes the number of
observation, period of record, and several summary
statistics. Remarked (i.e., values that are marked with a
notation) values for a parameter are summarized on separate
lines within the listing. This format provides excellent
overview for reviewing the parameter coverage of a specific
monitoring network or geographic area.
The RET format displays a tabular listings of actual sample
values for up to 50 parameters at the selected stations.
These listings show the sampling dates, sampling times,
depths, and values of requested parameters. The sample
values for each parameter are displayed in a separate
column. Ten parameters are displayed on each page,
therefore each sample may span five pages.
The ALLPARM format displays a tabular listing of actual raw
data values for all or selected parameters stored at the
selected stations. The sample values for each parameter are
displayed in a separate row.
This format is useful when there is need to obtain listings
of raw data values of more than SO parameters, as is often
the case when working with toxics data. Also, by specifying
the parameters of interest, any preferred order of listing
can be achieved.
The LOG format displays a map of the selected station
locations with a symbol to denote c-.e location of each
station along with the applicable state and county
boundaries. Other background options are available (e.g.,
drainage basins and streams). Included with the map is a
listing of all stations and their associated descriptive
data.
Note that a latitude/longitude polygon is required when
mapping stations. If a polygon is not used to select the
stations, a special mapping polygon must be supplied.
The STA format displays a listing of all the primary and
secondary station codes associated with the specified agency
code(s). The output is in the form of a list of station
identifiers in alphabetical order.
3.1-19
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The STA format is used primarily to determine which station
IDs have already been assigned by an agency, so that new
stations within the agency's network can be assigned unique
station IDs. This report is also handy as a reference for
.determining station IDs for selecting stations when entering
a retrieval request.
Step 2. Station Selection
Once a report format has been chosen, the station selection herald is
displayed. Selecting sample sites is an extremely important step in the
retrieval process because it narrows the scope of the retrieval to only those
stations desired for the analysis. Effective station selection techniques can
save the user money and time by eliminating unneeded data.
The first screen in this process will be a selection menu giving the
user several basic ways of defining which of fhe approximately 680,000 sites
available within the UQS are of interest for that particular retrieval. The
station selection choices available are:
• By agency codes and station IDs
• Within states and counties
• Within aquifers
• Within latitude/longitude -.olygon or circle
• Within USGS hydrologic umcs
• Within EPA drainage basins
• By station type/parameter attributes
• By EPA reaches
• Within EPA ecoregions
The last two station selectors, EPA reaches and ecoregions, are not available
on the ground-water path.
3.1-20
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Selection by agency codes and station IDs -
Stations may be selected by their agency code and station number either
specifying individual stations or a range of stations. Primary and/or
secondary IDs may be used. When a station range is specified, the actual
number of stations with station codes that lie within the range is displayed.
Selection by states and counties -
All stations within a specified state(s) and certain counties within
that state(s) may be retrieved. For this specific retrieval, two types of
look-up help are available. The user may specify a state by entering either
its postal abbreviation, state name, or Federal Information Processing
Standard (FIPS) code. When one of these three items is entered, the interface
will first check to see if the entry is valid.. If it is valid, all the
remaining values (state name, postal abbreviation, or FIPS code) will be
inserted by the interface in the appropriate data fields on the screen. Once
the state has been entered, a list of names and FIPS codes of the counties in
that state may be obtained by entering a question mark (?) in either of the
two county fields. The fields where the question mark may be entered to
obtain a look-up menu of codes are identified with a question mark (?) in the
heading for the field. A specific county may be selected from the look-up
list by entering a "S" next to the correct county.
Selection by aquifers -
All stations within selected United States Geological Survey (USGS)
ground-water aquifers may be retrieved. When a valid aquifer code is entered,
the interface will automatically provide the aquifer name.
3.1-21
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Selection by latitude/longitude polygon or circle -
All stations within a geographical area may be selected. The user may
define a latitude?longitude window (rectangle or irregular polygon), or search
for stations within a radius of a point (circle). The lat./long. coordinates
will be verified to see if they are in the correct format. (In order to
retrieve a station by lat./long., the lat./long. data for that site must exist
in STORET. The latitude and longitude are required fields in STORET.)
Selection by USGS Hydrologic Units -
All stations within a U.S. Geologic Survey Hydrologic Unit (HUC)
drainage area may be retrieved. The user may use either Region, Sub-Region,
Accounting or Cataloging Unit code. Once the appropriate numeric code is
entered, the system will verify if it is in the correct format and
automatically provide the corresponding name.
Selection by EPA drainage basins -
All stations in one or more EPA basins (Major, Minor, or Sub) may be
retrieved. The basin names will be inserted in the data field if the user
enters the correct numeric codes.
Selection by station type/parameter attributes -
The user may retrieve stations according to the type of station. Among
others, the most commonly used are lake, stream, estuary, or whether the
station monitors discharge pipes, aquatic biota, or ambient water chemistry
conditions. In addition, the user may retrieve stations according to the
presence of Water Quality System parameters being sampled at selected sites.
Priority pollutants identified by EPA can also be specified on this menu. The
system will validate the station type codes or the parameter type codes to see
if they are correct.
3.1-22
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Selection by EPA reaches -
All stations located in polygon window associated with EPA's Reach File
are retrieved witn this option. Stations may be on or off the reach trace.
This capability does not include hydrologic retrieval capabilities of the
Reach File.
Selection by EPA ecoregions -
All stations located in an EPA ecoregion are retrieved with this option.
The user may specify most of the ecoregion or a generally typical part of it.
Station Restriction -
The set of stations selected by one of the criteria above may be further
limited by specifying one or more station restrictors. The available station
•restrictors are:
• Restrict to specific agencies or stations (include or exclude)
• Restrict to specific states or counties
• Restrict to station type/parameter attributes
• Restrict to specific archive data classes
Restrict bv Agency Code and Station IDs
Station retrieval can be limited to only one agency and its stations, or
a specified agency can be excluded from the retrieval.
Restrict bv States and Counties
Stations selected by natural resource criteria (e.g.. drainage basin)
may be restricted to only the stations located in certain political areas
(states, counties, provinces).
3.1-23
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Restrict by Station Type/Parameter Attributes
The same station selection capability is available to further restrict
the retrieved number of sample sites.
Restrict by Archive Data Classes
Part of the STORET data base contains archived data. These data can
only be retrieved by supplying the archive class value. The ground-water well
data of USGS are all archived. They are automatically selected if the user
specified the GW path through the interface.
Station Aggregation -
For purposes of analysis, users have the option of aggregating the data
for retrieved stations and treating it as though it came from a single
station. For example, all of the stations in a state can be aggregated by
county. The resulting analyses will treat each county's data as a separate
station. The following station aggregation options are available:
- State
- County
- EPA Major Basin
- EPA Minor Basin
- EPA Sub-Basin
- EPA Reach
- USGS Hydrologic Region
- USCS Hydrologic Sub- Region
- USGS Hydrologic Accounting Unit
- USGS Hydrologic Cataloging Unit
- User-Defined Station Groups
- Latitude/Longitude Cell: Height (Latitude) —> (Seconds)
Width (Longitude) —> (Seconds)
- All Stations
3.1-24
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Step 3 Sample Selection
Once stations have been selected, the sample selection herald is
displayed. The menus that appear for this step enable the user to restrict
the data retrieved to only those samples identified by specific dates,
sampling depths, and sampling conditions of interest.
In the general path, the user will be asked whether only grab samples
and/or composite samples should be retrieved. If composite values are
requested, the user may specify which composite value types are to be
retrieved (e.g., minimum, mean, maximum, variance, precision, standard
deviation).
Two additional menus will appear in the ground-water path in this phase
of building the retrieval request. The ground-water data may be qualified by
adding information pertaining to sample material, methodology, lab vs. field
samples, and type of sampler used. These additional screens permit the user
to restrict the retrievals to these qualifiers.
If a sample selection option is not specified, the retrieved data will
include all sampling events for each selected station. By choosing a sample
selection option, the output report can be limited in a number of ways, based
on the data stored with the sample. The options are shown below (more than
one option may be selected):
Date Ranges Select samples that were taken on specific days or within
specific date ranges.
Time Ranges Select samples that were taken at a specific time of day or
within specific time ranges.
Seasonal Ranges Select samples that were taken within specific seasons.
Depth Ranges Select samples that were taken at a specific depth or
specific depth range (feet or meters).
Depth Type Select samples associated with specific depth types, e.g.,
sediment, pore, core.
3.1-25
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Aquifers Select samples that were taken within specific aquifers.
Intensive Select samples that were taken during specific intensive
Surveys by entering the desired intensive survey numbers,
i.e., state code, year, sequence number.
Locked Status Select samples that are locked. STORET samples may be
locked by their owners to prevent unauthorized use, e.g.,
while data validation is being performed. Locked samples
cannot be retrieved unless the unlocking key for the
contributing agency is specified.
Parameter Select samples that contain one or more specific parameters.
Content. This selection criterion may be made more specific
by requesting that only samples containing specific
parameters whose values fall within specific ranges be
retrieved.
Step 4. Parameter Selection
Once samples have been selected, the parameter selection herald is
displayed. This step and the menus that appear for this step enable the user
to select specific water quality parameters and, optionally, specify special
handling options for those parameters.
There are over 11,000 water quality parameters within the Water Quality
System. These parameters are grouped into the general categories of
radiological, phosphorus, pesticides, flow, biological, bacteriological,
solids, nitrogen, oxygen demand, organics, inorganics, dissolved oxygen,
metals, and physical. The interface provides a look-up feature for partial
parameter number, partial parameter name, group, and Chemical Abstract Service
(CAS) chemical identification number to aid users in identifying desired
parameters.
As the parameter codes of interest are entered, the user can specify
special handling options for the parameter. The seven special handling
options are:
3.1-26
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• Convert values to logarithms (base 10)
• Convert values to loadings
• Change name/units/decimal location
• Specify remark restrictions
• Specify acceptable value ranges
• Perform math transformations
• Specify alternate parameters
Convert values to loarithms (base
This special handling option causes the logarithms of stored values for
the specified parameter to be computed before the analysis is performed.
Convert values to loadings
This option will cause loadings (Ibs/day) to be calculated for the
specified parameter. In order for a loading to be computed, the sample must
contain a value for one of the following flow parameters: 58, 59, 60, 61,
50050, 50051, 50053, 72033, 72034, and 74020. A flow parameter does not have
to be specified as part of the retrieval request, but it must be present in
the sample for the loading to be computed.
Change narae/units/decimal location
This option may be used to change the parameter name, units of measure
label, and decimal location, i.e., print format used to print values for this
parameter. This option should be used in conjunction with performing math
transformations. For example, if the user desires to see values for a
particular parameter displayed in some units other than those in which it is
stored, he can perform the conversion by applying the appropriate math
transformations. The units label displayed with the value should be modified
to correspond to the new units. Also, when math transformations are used to
change one form of a constituent to another, the parameter name must be
modified to reflect this transformation.
3.1-27
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Specify remark restrictions
This special handling option allows the user to restrict the data to "be
retrieved to only-those with certain remark codes, to request that only
remarked data be retrieved, or to retrieve only unremarked data. Some
commonly used remark codes that the user may enter are shown below (All valid
remark codes are listed in the STORET Help dataset named
STORE!.HELP.REMARKS.CODES):
C - Value calculated.
J - Estimated value. Value not accurate.
K - Actual value is known to be less than value given.
L - Actual value is known to be greater than value given.
S - Laboratory test.
Specify Acceptable Value Ranges
This special handling option allows the user to restrict the parameters
retrieved to those that lie within specific ranges of values or to specific
values. If the presence of a parameter or group of parameters is critical for
an analysis, this option should be selected.
Perform Math Transformations
This special handling option allows the user to change the values of
parameters using mathematical operations. He may add, subtract, multiply,
and/or divide by a constant. In the resulting printed report, an asterisk (*)
will be displayed next to the parameter name, indicating that some of the
values in the column may have been modified at the user's request.
Select Alternate Parameters
At some sampling sites, the same constituent may have been analyzed
using different techniques (i.e., for one period of time, one method may have
been used whereas, for another period of time, a different method was used).
3.1-28
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In STORE!, two unique parameter codes are assigned to the same constituent due
to the differing sampling technique. This special handling option allows the
user to retrieve all occurrences of the same constituent regardless of the
sampling technique. He may also select limited special handling options for
alternate parameters, as follows:
• Specify remark restrictions
• Specify acceptable value ranges
• Perform math transformations
Step 5. Special Output Options
This step depends on the output format chosen in step 1. Host output
formats have features that may be controlled by the user. These output
specific features are described below.
STA There are no special data analysis features available with
this format. The only input, in fact, is the agency code
whose primary and secondary station IDs are to be displayed.
INVENT The inventory format provides three options that effect the
printed report as follows:
1. Gross Summary Only
This will cause all of the output for individual stations to
be suppressed for inventories. Only the gross" summary ia
printed. The gross summary displays a single inventory of
all data retrieved.
2. Print Stations With T*»ampjl.e Data Only
Only stations for which sample data was retrieved will be
displayed, i.e., stations that were selected but contained
no sample data that met the retrieval criteria will NOT be
displayed.
3. Print All Stations
All stations, whether they contributed data to the inventory
or not will be displayed. Only the station header data will
be printed for stations for which no sample data was
retrieved.
3.1-29
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There are no special data analysis features available with
this format.
ALLPARM The number of stations printed per page is controllable for
the ALLPARM format. One or multiple stations may be printed
per page. When multiple stations per page is requested the
output is re-formatted and compressed. This option is
desirable when there is a small number of observations for a
small number of a parameters at a large number of sampling
locations.
LOG Many different options are available to control the station
location map. The user may select which data should be
plotted on the map from a list which includes site
locations, state and county boundaries and provinces in
Canada, EPA reach trace and reach numbers, and such
various natural resource defined areas as ecoregions, USGS
HUG basins, etc.
A detailed description of the features available for the LOG
format is contained in the STORET help dataset named
STORET.HELP.PGM.LOG.
If the stations to be mapped were selected by polygon, this
polygon may optionally be enlarged to include areas not
contributing sampling sites to the map, if desired. When
utilizing the LOG format to generate a map, the retrieval
request must always contain a latitude/longitude polygon.
If a polygon was not used for station selection, then a
latitude/longitude polygon must be specified here.
Optionally, the first 300 station locations may be tagged
with a identifier that is also printed in an accompanying
cross reference. The printed cross reference contains the
station IDs, latitude/longitude coordinates, and location
description of the tagged stations. Up to five maps may be
produced when tagging stations to avoid overprinting of any
tags.
The user may specify the desired map scale, map projection,
plotting symbol, symbol size, latitude/longitude reference
points, colors, supplementary legend text and map labelling,
to be used in the map.
A projected border and/or rectangular frame may be drawn as
desired. A 10% border is automatically added to all maps.
The border contains such background information as county
lines and increases the area being plotted 20% in both the
north/south and east/west directions. Although this overlap
ensures that there is sufficient geographic reference
3.1-30
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information displayed along with the station locations, it
can cause undesired rescaling of the map if the map size
(including the overlap) exceeds the paper size. It may,
therefore, be desirable to modify the overlap percentage.
Print Control Options
Formats that produce printed reports of sample data have several print
control options, as follows:
• Print station header data sample data only
• Print the station descriptive paragraph and additional station boundary
points only
• Print the station header data, sample data, descriptive paragraph, and
additional station boundary points.
Also, up to five lines of additional report heading may be specified.
Typically, the station header data prints on the right side of the page.
However, it may be shifted to the left side of the page, if desired.
Step 6. Job Submission Options
Job submission parameters are the items specified to complete a
retrieval request. Once entered, they may be modified by subsequently editing
the request or as part of submitting the request for execution. A completed
request may be submitted for execution by selecting the second option, "Submit
a completed request for execution", on the Request Option and Name menu at the
start of the interface.
The job submission parameters to be used when submitting the request for
execution are displayed for confirmation. They may be modified for this
submission and, optionally, permanently saved in the user profile for use in
creating jobcards for future requests. The job submission parameters consist
of the following elements:
3.1-31
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PRIORITY This is the priority assigned to the job. PRIORITY 1
indicates that the job is to be executed overnight.
PRIORITY 4 is the highest and most expensive priority.
TIME This is CPU time that the user estimates the job will take
to execute.
BIN/ROOM This is the delivery destination for printed outputs. Users
who are not located near a remote printer usually have a
BIN/ROOM code of "Miii" meaning mail the output to the
address associated with USERID iii.
NOTIFY This indicates whether the USERID should receive a
notification message when the job has completed execution.
ROUTE This indicates where the job is to be printed. HOLD is a
valid entry to provide the user with the option to look at
the output of a completed job on the CRT screen.
JCL ECHO This indicates the degree to which the user would like the
system messages to be included in the printed output.
3.1.3.2 STORET Interactive Procedures
The interactive procedures available in this option are described in the
following subsection. These procedures may be executed at the TSO ready
prompt.
%BROWSE This command procedure allows the user to interactively
examine selected station locations and parametric data in a
variety of output formats. BROWSE can also produce screen
plots of parametric data versus time on graphics devices
that are compatible with Tektronix graphics terminals.
%BLITZ This command procedure allows the user to interactively
retrieve all data, both station location and parametric
data, stored for a single STORET station. The procedure
prompts for the agency and station IDs, and period of
records of interest, and offers four output formats.
%CONTACTS This command procedure displays the name, address, and phone
number for the designated contact person for each STORET
agency code.
3.1-32
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%COUNTEM This STORET command procedure allows the user to
interactively obtain a count of all the stations within
STORET which meet a user-specified station type/parameter
attribute expression. No station data or parametric data are
.retrieved by this procedure. Its purpose is only to provide
a quick indication of the number of stations that will
qualify with respect to station types and/or parameter
presence. This information can help the user structure a
retrieval request that will provide the best desired data.
%STNDESC This STORET command procedure interactively retrieves
station description information from STORET, and optionally
prints the retrieved information, or creates a dataset
containing the header information in fixed-field storage
format for use in modifying the station header data at a
later time.
3.1.3.3 Request Disposition and Output Manager
When a request has been completed, the request disposition menu is
displayed. The request may be saved under its current name or a new name,
cancelled, or edited again.
Two datasets are created in the user's dataset directory in the course
of using the menu-driven STORET interface. These partitioned datasets have
the fully-qualified names;
iiiaaaa.STORET.TABLES iiiaaaa.STORET REQUESTS
where "iii" represents the USERID and "aaaa" the user account.
The TABLES dataset contains all of the user requests in a special
encoded format, while the REQUEST dataset contains the STORET keyword forms of
his requests. Neither of these data sets should be modified outside the menu-
driven interface, since any changes introduced at this time may prove fatal
during subsequent processing of the request by the interface.
After submitting a request for execution, the Request Option Name menu
is displayed. The process of creating, editing, or submitting a request may
begin again. At this point, the user may also choose to view the status of
3.1-33
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requests already submitted for execution by invoking SDSF. To do this, he
must enter the RETURN command (or equivalent function key) to return to ISFF
Primary Option menu and select SDSF (option 8). When a request is submitted
for execution it Is assigned a unique job number. The job number should be
used within SDSF to query job status, display the job output on the screen, or
route the output to a remote printer. A complete description of the SDSF
commands that may be specified is contained in Section 3.1.2.3 of the Command
Summary under SDSF Commands.
As previously stated, SDSF is a system utility that resides outside of
the STORET interface and, for this reason, may behave differently than the
interface. For example, the function key definitions within SDSF are often
different than those within the interface (e.g., pressing PF5 within SDSF may
produce different results than when PF5 is pressed within the interface).
3.1.4 Future Enhancements to the New STORET User Interface
The development process of the menu-driven interface is not complete.
To complete the STORET user interface on the NCC mainframe, the following
tasks remain:
• Add the six remaining output report formats (PGM-values)
• Complete the "Help" panels
• Provide a simple, easy down/uploading caps .ty
• Complete a menu-driven station (well) stoi capability.
In the future, a PC version of the interface will be provided. The scope of
this capability has not been determined. It may require a dedicated PC work
station because of the edit and look-up capabilities. Conversely, some of
these edits may be done as the file is uploaded.
Plans call for the interface to be completed by the end of FY90. The PC
version will follow.
3.1-34
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3.1.5 Sources of Data
STORET is a national data system that accommodates environmental
monitoring data relating to the quality of surface water and ground-water
within the United States. Since its inception in the early 1960s, STORET has
evolved into a powerful and comprehensive system, capable of performing a
broad range of analyses, while continuing to serve in its original role as a
data repository for EPA, other Federal agencies, state and local governments,
academic institution, Canadian agencies, and U.S. Territories. Over 45 states
have direct access to STORET for both data storage and retrieval, thereby
contributing significantly to the timeliness of STORET's data. The system
serves as an automated utility for storing data on water pollution, measuring
compliance with water quality standards, gauging the effectiveness of waste
treatment plants, and identifying trends in ambient water quality. These data
are the results of field and laboratory analyses performed upon samples
gathered from streams, aquifers, lakes, and other bodies of water.
WQS data can be broadly categorized as either station or sample data.
Station data describes a specific geographical location where samples are
gathered, i.e., a sampling site. Station data includes a unique station
identifier, the station's latitude and longitude coordinate, the state and
county in which the station exists, a reach number identifying the station's
hydrologic location, drainage basin codes, ground-water aquifer codes, a
textual description of the station's location, etc. Sample data describes the
conditions under which samples are gathered (e.g., date, time, depth, as well
as the results of the sample analyses). Sample contents that are identified
during this analytical process represent observations of various water quality
parameters (e.g., pollutants, particulates). Over 11,000 different water
quality parameters are defined within STORET. Thus, a typical observation
represents a measurement of a single parameter at a specific location, at a
specific point in time.
The STORET user community consist of a wide variety of individuals and
organizations. Federal, state, and local water quality control agencies
3.1-35
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utilize the WQS to examine the causes and effects of water pollution, to
measure compliance with water quality standards, and to determine pollution
trends.
Many states'utilize the WQS to help comply with the Congressional
reporting requirements of PL 92-500 (National Clean Water Act). The U.S.
Geological Survey, the U.S. Forest Service, the U.S. Army Corps of Engineers,
the Bureau of Reclamation, and the Tennessee Valley Authority all utilize
STORET's WQS in their water quality monitoring efforts.
3.1.6 Examples of Output Generated with New Menu-Driven Interface to STORE!
The following pages show three types of output formats the user may
select within the new STORET menu driven interface. The report formats
include:
Exhibit A. LOG - STORET's map making tool
Exhibit B. INVENT - Summary of sample observations
Exhibit C. RET - Raw data tabulation site-by-site.
The LOG output (Exhibit A) shows effluent discharge facilities in the
San Francisco Bay. These facilities are monitored by EPA Headquarters. The
LOG report listed below generated a map with the station location plotted with
county boundaries, and EPA Reach File traces. It also generated a listing
with station ID, name, latitude/longitude, state, and county name.
The INVENT report (Exhibit B) creates a data inventory showing summary
statistics both for individual stations as well as an aggregated gross
summary. The output shown on the following pages produced data on minimum,
mean, maximum, standard deviation, and beginning and ending dates for
parameters sampled in ground-water well located in Page County, Virginia.
This well is monitored by the Virginia State Water Control Board.
The RET output (Exhibit C) generates a tabular raw data report with rows
for parameters, and columns for different dates/times. The report shown below
retrieved data sampled at one station on the Wisconsin River which is
3.1-36
-------�
monitored by Che Wisconsin Department of Natural Resources. It lists data
observations in tabular format for parameters such as DO, pH, BOD, PCB,
chloride, fecal coliform, and cadmium.
3.1.7 Complete Documentation
The User Interface has a variety of built-in help information that will
assist the user with immediate problems related to menus and commands. In
addition, you are encouraged to contact the STORET User Assistance Staff with
any questions or problems that you might encounter. STORET User Assistance
personnel in EPA Headquarters, Washington, D.C. are available by phone from
8AM to 5PM, E.S.T., Monday through Friday, to answer any questions. The User
Assistance staff and their numbers are;
Phil Lindenstruth (Chief)
Lee Manning
Elaine Davis
Louis Hoelman
Bill Muldrow
Dan Parker
Olof Hansen
Rob Palmer
(800) 424-9067 or (FTS) 382-7220 or (202) 382-7220
For help on Telephone/Communication related problems, contact NCC
Telecommunications Support at:
(800) 334-0741 or (FTS) 629-4506 or (919) 541-4506
For help on NCC mainframe operation related problems, contact NCC User Support
at:
(800) 334-2405 or (FTS) 629-7862 or (919) 541-7862
STORET Regional representatives have been assigned for each of the ten
EPA Regions throughout the country. Their responsibilities include providing
assistance to STORET users and they are the first people to contact for help
in any area dealing with STORET.
3.1-37
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Region STORE! Contact
1 Ed Woo
Bill Jutis
Charles Kanetsky
Thomas Burnett
Stuart Ross
Carl Young
Norm Crisp
Dick Sotiros
Eric Wilson
Bill Bogue
Location
Boston, MA
New York, NY
Philadelphia, PA
Atlanta, GA
Chicago, IL
Dallas, TX
Kansas City, KS
Denver, CO
San Francisco, CA
Seattle, WA
Telephone
2
3
4
5
6
7
8
9
10
617-565-
FTS-835-
212-264-
FTS-264-
215-597-
FTS-597-
404-347-
FTS-257-
312-353-
FTS-353-
214-655-
FTS-255-
913-236-
ETS-757-
303-236-
FTS-776-
415-974-
FTS-454-
206-442-
3384
3384
4753
4753
8176
8176
2931
2931
0299
0299
2289
2289
3884
3884
7086
7086
7259
7259
1676
3.1-38
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EXHIBIT A
PGM-LOC
3.1-39
-------�
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mum STORET SUMMARY SECTION
FOLLOWING IS A RETRIEVAL OF DATA FROM THE ENVIRONMENTAL PROTECTION AGENCY'S STORET SYSTEM,
A DATABASE OF SAMPLING SITES AND THEIR ASSOCIATED QUALITY DATA. THE INFORMATION MAS
RETRIEVED USING SPECIFIC STORET INSTRUCTION SETS IN COMBINATION TO SELECT ONLY THE DATA
REQUESTED FOR THIS RETRIEVAL. BRIEF EXPLANATIONS OF THE INSTRUCTION SETS ARE INCLUDED BELOW.
QUESTIONS MAY BE DIRECTED TO THE STORET USER ASSISTANCE SECTION AT
(202) 382-7220 OR (6001 424-9067.
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FOLLOWING IS THE FORMAT FOR THE STATION HEADER INFORMATION WHICH APPEARS
ON EACH PAGE OF THE RETRIEVAL UNLESS STATION AGGREGATION MAS PERFORMED
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 CODES ft
STA. DEPTH STA. STORED DATE ARCHIVE CLASS CSN-RSP*
"STATION TYPE
•RIVER MILE INDEX
ft*****
ft «
» ft
«•*»«»
ft •
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ft
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*«»»***»»******«»****»»»***»**•-*»**»**»»*** it***************************** Kit***********
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-------�
VAL PROG9JM
= LOC
THIS PROGS AM GENERATES A MAP OF STATION LOCATIONS WITHIN A DEFINED AREA. THE MAP IS DRAWN ON
A CALCOtIP PLOTTER AND MAI I ED UNDER SEPARATE COVER
"4 SELECTION HAS BY:
ITUDE/LONCITUDE COORDINATES OR AREA SURROUNDING A SPECIFIED COORDINATE
NS SELECTED WERE RESTRICTED TO:
NCIES WHOSE DATA HAS NOT BEEN 'RETIRED*
IS FOR AGENCY COOES RETRIEVED:
tUCY PRIMARY CONTACT NAME
ALPA TAYLOR, PHILLIP
ORGANIZATION
USEPA HQ
PHONE NUMBER!S)
(ZOZI36Z-7046 (FTS)382-7046
»»»»* END OF SUMMARY SECTION *«««»
Co
i—•
I
-------�
STORET RETRIEVAL DATE 89/03/24 LOC (MAP) - VERSION OF FEB 28,1985
MAP PRE-PROCESSING BEGINS
PROJECTION = ALBERS
SCALE - 1:150000
REFERENCE LATITUDE = 37 50 00 REFERENCE LONGITUDE = 122 30 00
LATITUDE MINIMUM = 37 20 00 LONGITUDE MINIMUM = 122 00 00
LATITUDE MAXIMUM = 38 20 00 LONGITUDE MAXIMUM = 123 00 00
WINDOW X-INCHES = 23.04
WINDOW Y-INChES = 29.45
MAP PRE-PROCESSING COMPLETE
-------�
RETRIEVAL DATE 89/03/24 LOG (STORPLT) - VERSION OF FEB 23.1905
(STORPLT) LOG OF MAPS
BEGIN JOE, PXL77 3/24/89 1:59:17.64 Pit JES 6277
PtOTMSG : PENS-RED;PEN2-BLUE
PIOTMSG : HI ROBERTA!
PLOTMSG : THANKS FOR PLOTTING SUCH A FINE MAP.
END MAP «01 PXL77 3/24/89 1:59:28.61 PH JES 6277 FOREGROUND POINTS 145 BACKGROUND POINTS 8420
EHD JC3 PXL77 3/24/89 1:59:28.61 PM JES 6277
1 STORPLT) NORMAL END
I
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-------�
STORET RETRIEVAL DATE 69/03/24
PGt1=LOC - VI1RSION OF FEB 28.1965
EFCAEPA
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EFCAEPA
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EFCAEPA
EFCAEPA
EFCAEPA
EFCAEPA
EFCAEPA
EFCAEPA
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EFCAEPA
EFCAEPA
EFCAEPA
EFCAEPA
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EFCAEPA
EFCAEPA
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EFCAEPA
EFCAEPA
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EFCAEPA
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EFCAEPA
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EFCAEPA
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EFCAEPA
EFCAEPA
EFCAEPA
EFCAEPA
EFCAEPA
EFCAEPA
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EFCAEPA
EFCAEPA
EFCAEPA
EFCAEPA
EFCAEPA
EFCAEPA
EFCAEPA
EFCAEPA
EFCAEPA
EFCAEPA
EFCAEPA
EFCAEPA
CA0026312
CA0006980
CA0027995
CA0037621
CA0005754
CA0037634
CAOO38431
CA0005959
CA0006416
CA0037516
CA0038571
CA0080888
CA0037460
CA000701J
CA0006262
CA0037605
CA0038181
CA0038334
CA0005126
CA0005165
CA0006076
CA0037466
CA0028029
CA0028258
CA0037962
CA0038105
CAOO37541
CA0037478
CA0006521
CA0037591
CA0026363
CA002B1S1
CA0037532
CA0005177
CA0028068
CA0038318
CA0037494
CA0027901
CA0028231
CA0028444
CA0038130
CA0005118
CAOO37656
CA0005614
CA0006912
CA0006343
CA0005762
CA0037559
CA0037788
CA0005690
CA0037869
CA0110167
CA0005142
CA0006998
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1 8
ZILOG. INC. 10460 BU/104
ARROWHEAD IND. HATER 380 2 HOM/360
SIGNETICS INC. 811 E. A/611
SUNNYVALE. CITY HPCP1444 BOR/144
LOCKHEED MISSILES ft SPACE CO/LOC
PALO ALTO. CITY OF 2501 EHB/250
SANTA CLARA VA. H.D. AQUIFER /
AMPEX CORP. REDWOOD 401 BROA/401
HEUBLEIN. INC. MENLO PA/151
MENLO PARK S.D. 1700 MAR/170
REDWOOD CITY/S.B.S.AREDWOOD /
EMC ENERGIES. INC. NEW IORI/
HALF MOON BAY, CITY COAST HI/COA
LESLIE SALT CO. 7220 CEN/722
CERRO METAL PROD. DIV OF T/670
UNION SAN. DIST. NEWARK P/870
SAN CARLOS ft BELMONTSKY UAYft/SKY
REDWOOD CITY. KWTP MAPLE ST/HAP
COLUMBUS COATED FAB-BORDEN I/
MORTON SALT COMPANY 7380 CEN/
GENERAL MOTORS CORP.GM ASSEM/455
MONTARA SAN. DIST. VAI.LEMAR/CAB
NAT'L STEEL CONSTR. P.O. BOX/371
MATHESON GAS PRODUCTDIV OF W/677
ESTERO M.I.D. FOSTER C/
ESTERO M.I.D. FOSTER C/347
SAN MATED, CITY OF SAN MATE/SHO
GRANADA S.D. AIRPORT /AIR
CAMPBELL CHAIN CO 30070 UN/300
UNION SAN. DIST. ALVARADO/507
AHCHEH PRODUCTS. INC37699 NI/378
PERKY PIES DIV. OF /
MILLBRAE, CITY OF MILLBRAE/MIL
FMC CORP. INORGANI/880
MERRITT SHIP REPAIR OAKLAND /321
SAN FRANCISCO C ft C S.F. INT/
PACIFIC A, CITY OF SHARPE P/221
LIQUID AIR. INC. 700 DECO/700
PLEX CHEMICAL CORP. 1205 ATL/120
CLEANERS HANGER CO 33100 TR/331
S.S.F. ft SAN BRUNO BELLE AI/BEL
DUPONT. E.I. 160 SO. /160
HAYUARD. CITY OF 3700 ENT/370
M ft T CHEMICALS. INCSO. S.F./270
SUN CHEMICAL CORP. GENERAL /
MERCK ft CO., INC. MARINE M/500
BETHLEHEM STEEL CORPS. S.F. P/430
ORO LOMA SAN DIST. 2600 GRA/260
BURLINGAME CITY OF 1103 AIR/110
CONT'L-HHITE CAP P.O. BOX/244
EAST BAY DISCHARGERSAND LAVH/
SAN FRANCISCO C ft C S.W. PLT/
INTERNATIONAL PAPER INK PLAN/193
CONSECO DIV.. CHAM. 13951 HA/139
NO. SAN MATED CNTY 153 LAKE/153
SAN LEANDRO. CITY OFHPC /300
TRIPLE^MACHINi™" ?*0 ^OX/HUN
06085
06065
06085
06065
06085
06085
06085
06081
06081
06061
06081
06069
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06001
06001
06001
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CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
SANTA C
SANTA C
SANTA C
SANTA C
SANTA C
SANTA C
SANTA C
SAN HAT
SAN HAT
SAN MAT
SAN MAT
SAN BEN
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A LAMED A
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SAN MAT
ALAMEDA
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SAN MAT
CAN MAT
ALAMEDA
ALAMEDA
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SAN MAT
SAN MAT
ALAMEDA
SAN MAT
SAN MAT
SAN MAT
SAN MAT
ALAMEDA
SAN MAT
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-------�
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11
STORET Rt...iEVAL DATE 89/03/Z4 - ECHO OF ORIGINAL REQUEST
PGn=LOC,
REQUEST NAME: MAP
CREATED BY: PXL
DATE: 89/03/24
TIME: 13:57
REQUEST DESCRIPTION:
HAP W/ MONITORING SITES
IN SAN FRANCISCO BAY
(EFFLUENT STATIONS)
< STATION SELECTION >
OPTION 4 - WITHIN AN AREA DEFINED BY LAT/LONG POLYGONS OR CIRCLES
DEFINE RECTANGLE!SI BY SPECIFYING NORTH/SOUTH/EAST/MEST LIMITS
OLY=LLRET, L=3720000,L=12300000, L=3fl20000,1=12300000,
L=3620000,L=12200000, L=3720000,L=12200000,
< STATION RESTRICTION
RESTRICT TO ONE SPECIFIC AGENCY ONLY
NLYA=EFCAEPA,
< MAP BACKGROUND >
REACH TRACES
BACKGROUND=REACHES( 2).
PLOTMSG=PEN3-REDIPEN2-BLUE,
POL^MAPCHECK, L=3720000.1=12300000, L=3820000,L=12300000,
^° L=3820000>L=12200000. L=3720000,L-12200000,
^ LOCSYM=11,
Js, SYMSIZE=0.14,
Oi NOPOLPLT.
SCALE=150000,
OVERLAP=0.00.
LLTICS=GRID,
HEAD=EFFLUENT DISCHARGE FACILITIES.
HEAD=IN THE SAN FRANCISCO BAY AREA.
HEAO=,
HEAO=,
HEAD=.
MTITLE=,
MTITLE=,
MTITLE=SITES BEIONG TO,
MTITLE=AGENCY "EFCAEPA",
PLOTMSG=HI ROBERTA!,
PLOTMSG=THANKS fOR PLOTTING SUCH A FINE MAP.,
•— — - < JOB CARD OPTIONS >
./PXL JOB (A022STORP,0068),'MAP - LOG*,TIME=(0.15),PRTY=4,
./ MSGLEVEL=(0.0).NOTIFY=PXL
••ROUTE PRINT N3
«*JOBPARM LINES=999
-------�
EXHIBIT B
PGM-INVENT
3.1-47
-------�
RETRIEVAL PROGRAM
PGM=RET
THIS IS A TABULAR LISTING OF ACTUAL SAMPLE VALUES FOR SELECTED PARAMETERS
NO BEGINNING DATE HAS REQUESTED — STORET ASSUMED THE BEGINNING DATE HAS THAT OF THE OLDEST DATA VALUE FOUND
NO ENDING DATE HAS REQUESTED — STORET ASSUMED THE ENDING DATE HAS THAT OF THE MOST RECENT DATA VALUE FOUND
STATION SELECTION HAS BY:
AGENCY CODE(S) AND STATION NUMBER!SI FOR THE FOLLOWING AGENCYIS):
21MIS
STATIONS SELECTED HERE RESTRICTED TO:
AGENCIES HHOSE DATA HAS NOT BEEN 'RETIRED*
CONTACTS FOR AGENCY CODES RETRIEVED:
AGENCY PRIMARY CONTACT NAME
21HIS TIEGS, CAROL
ORGANIZATION
WISCONSIN DEPT OF NAT RES
PHONE NUMBER!5)
(608)267-7659
I
-p.
00
DATA SPECIFICATIONS:
REQUESTED PARAMETERS:
PARAMETER CODES AND ABBREVIATIONS
00060 STREAM FLOW CFS
00010 HATER TEMP CENT
00940 CHLORIDE TOTAL MG/L
39515 PCBS FISH MG/KG
00300 DO MG/L
00095 CNDUCTVY AT 25C MICROMHO
31616 FEC COLI MFM-FCBR /100ML
01027 CADMIUM CD.TOT UG/L
00400 PH SU
00310 BOD 5 DAY MG/L
32210 CHLRPHYL A UG/L
«*NOTE*tt
NO REMARK CODE RESTRICTIONS HERE SPECIFIED - COMPUTATIONS HILL
BE PERFORMED WITHOUT REGARD TO DATA REMARKS
DATA RESTRICTIONS:
»»NOTE*»
NO DEPTH INDICATOR RESTRICTIONS HERE SPECIFIED - COMPUTATIONS HILL
BE PERFORMED WITHOUT REGARD TO DEPTH INDICATORS
*«NOTE*«
NO GRAB/COMPOSITE RESTRICTIONS HERE UTILIZED. SO BOTH GRAB AND COMPOSITE SAMPLE TYPES MAY HAVE
BEEN INCLUDED - COMPUTATIONS WILL BE PERFORMED WITHOUT REGARD TO SAMPLE TYPE
NO COMPOSITE SAMPLE RESTRICTIONS HERE SPECIFIED - COMPUTATIONS HILL 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
BOTH THE TABULAR LISTING OF ACTUAL SAMPLE VALUES AND THE COMPLETE STATION DESCRIPTION HERE REQUESTED
-------�
STORET RETRIEVAL DATE 89/04/28 STATION DESCRIPTION PAGE:
013001 7171AA013001 RAN DATA DUMP FOR STATION
44 03 26.2 090 01 16.4 1 ON WISCONSIN RIVER
WISCONSIN R AT PETENHELL 0AM HISTORICAL TREND
55001 WISCONSIN ADAMS FOR A VARIETY OF PARAMETERS
UPPER MISSISSIPPI RIVER 070717
WISCONSIN RIVER /TYPA/AMBNT/STREAM
21WIS 07070003030 0024.060 ON
0030 FEET DEPTH
DESCRIPTIVE PARAGRAPH
DRAINAGE AREA APPROX 5770 SQ MILES. CLOSEST USGS GAGING STATION IS 05400
800. LOCATED ON WISCONSIN R AT WISCONSIN RAPIDS.
i
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vo
-------�
11
STORET RETk^VAL DATE 89/04/28 PGM-RET
013001 7171AA013001
44 03 26.2 090 01 16.4 1
WISCONSIN R AT PETENHELL DAM
55001 HISCONSIN ADAMS
UPPER MISSISSIPPI RIVER 070717
HISCONSIN RIVER
21MIS 07070003030 0024.060 ON
0030 FEET DEPTH
PAGE:
RAH DATA DUMP FOR STATION
ON HISCONSIN RIVER
HISTORICAL TREND
FOR A VARIETY OF PARAMETERS
/TYPA/AMBNT/STREAM
SHK
DATE TIME OR
FROM OF DEPTH
TO DAY MEDIUM I FT}
61/01/10
61/01/24
61/02/23
61/03/14
61/03/28
61/04/04
61/04/11
61/04/25
61/05/09
61/05/23
**» 61/06/13
i- 61/06/28
' 61/07/11
0 61/07/25
61/08/09
61/08/22
61/09/12
61/09/26
61/10/11
61/10/25
61/11/14
61/11/28
61/12/12
61/12/27
62/01/09
62/01/23
62/02/13
62/02/27
62/03/14
62/03/27
62/04/10
62/04/24
62/05/08
62/05/22
62/06/12
62/06/26
62/07/10
62/07/24
62/08/14
HATER
HATER
HATER
HATER
MATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
MATER
MATER
HATER
HATER
MATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
MATER
HATER
HATER
MATER
HATER
HATER
HATER
MATER
HATER
HATER
HATER
HATER
HATER
HATER
00060
STREAM
FLOW
CFS
00300
DO
MG/L
7.8
1.3
.3
.4
6.1
8.3
9.6
10.5
8.4
7.4
7.0
6.8
6.6
4.9
5.6
5.0
7.1
7.7
8.9
10.0
10.8
12.3
8.7
5.2
3.3
.3
.3
3.6
9.5
10.0
7.3
8.2
7.3
7.7
6.7
7.6
00400 00010 00095
PH HATER CNDUCTVY
TEMP AT 25C
SU CENT niCROHHO
2.0
2.0
3.0
3.0
1.0
6.90 4.0
3.0
7.0
10.0
15.0
21.0
20.0
23. 0
23.0
24.0
23.0
22.0
17.0
14.0
12.0
28.0
3.0
16.0
3.0
1.0
2.0
1.0
2.0
2.0
2.
3.
4.
13.
18.
20.
26.
23.
23.
21.
14:1
00310
BOD
5 DAY
MG/L
2.6
2.1
7.6
B. 2
6.0
4.4
3.2
2.4
2.8
1.5
4.6
3.0
2.0
1.7
.7
1.5
2.6
3.5
2.6
2.8
1.7
2.5
3.9
3.8
5.2
5.9
9.3
10.2
9.9
6.3
3.0
3.4
2.2
2.1
5.9
.9
2.1
i.£
;j
00940
CHLORIDE
TOTAL
HG/L
7
4
3
9
6
7
8
31616 32210 39515
FEC COLX CHLRPHYL PCBS
HFM-FCBR A FISH
/100ML UG/L MG/KG
-------�
STORE! RETRIEVAL DATE 69/04/28 PGM=RET
013001 7171AAO13001
44 03 26.2 090 01 16.4 1
WISCONSIN R AT PETEWELL DAN
55001 WISCONSIN ADAMS
UPPER MISSISSIPPI RIVER 070717
WISCONSIN RIVER
21NIS 07070003030 0024.060 ON
0030 FEET DEPTH
RAM DATA DUMP FOR STATION
ON WISCONSIN RIVER
HISTORICAL TREND
FOR A VARIETY OF PARAMETERS
/TYPA/AI1BNT/STREAH
PAGE:
16
in
DATE
FROM
TO
81/02/26
61/02/26
61/03/26
81/03/26
61/05/21
61/05/21
61/06/09
61/06/09
81/06/09
81/06/25
61/06/25
61/07/13
61/07/13
61/08/13
81/06/13
81/09/16
61/09/16
61/09/16
81/10/22
81/11/18
81/12/17
82/01/21
82/02/16
82/03/17
82/04/26
82/05/17
82/06/08
82/06/08
82/06/22
62/07/19
82/07/23
82/08/25
62/09/29
62/10/27
62/11/17
62/12/16
83/01/19
83/02/24
83/03/31
mm
TIME
OF
DAY
1205
0920
1415
1416
0059
0059
0059
1115
1116
1115
1116
1325
1326
0830
0631
0832
1055
0830
0830
1230
1300
1320
1100
1430
0059
0059
1500
1415
0059
1415
0600
0900
0645
0900
0915
1030
0915
09nn
SMK
OR
DEPTI
MEDIUM (FT)
HATER
HATER
HATER
HATER
HATER
HATER
HATER 12
HATER 12
HATER 36
HATER 1
HATER
HATER
HATER
HATER
HATER
MATER
MATER
MATER
HATER
MATER
HATER
MATER
HATER
MATER
MATER
MATER
MATER 121
HATER 551
HATER (
HATER (
HATER 121
MATER
HATER
WATER
WATER
WATER
WATER
WATER (
WATER C
ttlig \
00060
STREAM
n FLOW
CFS
II 7467
7467
II 3220
3220
II 4366
t
I
t
I
) 8914
3666
3400
3119
4801
3264
3006
3302
3439
3550
9268
7154
I 3726
I 6277
2446
3862
6542
8931
4521
5343
6532
5560
00301
DO
MG/L
11.
12.
11.
7.
12.
5.
5.
9.
9.
12.
9.
10.
9.
9.
11.
9.
6.
7.
6.
6.
10.
12.
12.
14.
11.
11.
If:
i
6
2
1
2
5
5
5
2
2
6
4
1
9
1
0
1
1
4
0
4
8
0
9
0
4
9
00400 00011
PH HATER
TEMP
SU CENT
1
3
13
20.
25.
7.00 22.
7.00 22.
19.
9.
7.
2.
2.
3.
B
7.30 7.
17.
16.
24.
22.
15.
9.
3.
1.
1.
3.
A
it!
>
c
M
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
o
8
00095
XDUCTVY
KT 25C
ICROHHO
220
160
137
160
120
130
160
190
200
204
250
260
260
98
120
140
167
170
200
180
130
150
160
160
96
0031
BOD
5 DAI
MS/I
2
«
1
2
4
2
2
1
2
1
3
2
2
4
2
1
2
1
2
1
1
0
en
.0
.3
.6
.9
.9
.9
.0
.9
.6
.0
.2
.3
.0
.2
.1
.1
.2
.1
.5
.1
5
.8
00940
ILORIDE
TOTAL
HG/L
21
25
5
12
10
14
14
16
12
11
10
11
15
11
31616 32210
FEC COLI CHLRPHYL
HFH-FCBR A
/100ML UG/L
39515 ,
PCBS
FISH
MG/KG
34.00
29.00
340.00
5.00K
63.00
14.00
1.960
2.300
.270
11.00
9.00
25.00
22.00
26.00
2.700
.620
2.900
35.00
-------�
STORET RETRIEVAL DATE 89/04/26 - ECHO OF ORIGINAL REQUEST
PGt1=RET,
REQUEST NAME: RETHIS
CREATED BY: HCO
DATE: 89/04/26
TIME: 14:49
REQUEST DESCRIPTION:
HIS DEPT. OF NATURAL RESOURCES
LAKE WISCONSIN DAM STATION
< STATION SELECTION >
OPTION 1 - BY SPECIFYING AGENCY CODES AND STATION IDS
=Z1MIS,SRANGE=OFF,5=013001,
GRAB AND COMPOSITE SAMPLES
AMPTYPE=ALL,
COMPOSITE SAMPLES
All of the above
< PARAMETER - 00060 >
=00060.
— -< PARAMETER - 00300 >
=00300,
< PARAMETER - 00400 >
00400,
< PARAMETER - 00010 >
=00010,
< PARAMETER - 00095 >
=00095,
< PARAMETER - 00310 >
=00310,
< PARAMETER - 00940 >
=00940>
< PARAMETER - 31616 >
=31616.
< PARAMETER - 32210 >
=32210,
< PARAMETER - 39515 >
=39515.
< PARAMETER - 01027 >
=01027,
PRINT SAMPLE DATA. STATION HEADER. AND DESCRIPTIVE PARAGRAPH
PRT=BOTH,
t PRINT THE STATION HEADER ON THE LEFT SIDE OF THE PAGE
SHIFT,
HEAO=RAH DATA DUMP FOR STATION.
HEAO=ON WISCONSIN RIVER,
-------�
EXHIBIT C
PGM-RET
3.1-53
-------�
RETRIEVAL PROGRAM
PGM=INVENT
THIS IS AN INVENTORY RETRIEVAL SHOWING SUMMARY STATISTICS FOR ALL PARAMETERS
A BEGINNING DATE OF (YY/MM/DD) 60/01/01 HAS REQUESTED
AN ENDING DATE OF (YY/MM/DD) 99/12/31 HAS REQUESTED
STATION SELECTION HAS BY:
STATE OR COUNTY-STATE AS FOLLOWS:
PAGE CO. - VIRGINIA 151139)
STATIONS SELECTED HERE RESTRICTED TO:
STATION TYPE(S) AND/OR SPECIFIC PARAMETER COVERAGE
AGENCIES WHOSE DATA HAS NOT BEEN -RETIRED'
CONTACTS FOR AGENCY CODES RETRIEVED:
AGENCY PRIMARY CONTACT NAME ORGANIZATION PHONE NUMBER!S)
" 21VASWCB BRIDGERS, DOROTHY VIRGINIA WATER CONTROL BD (004)257-0071
Ol
*• DATA RESTRICTIONS:
SAMPLES HERE RESTRICTED BY PARAMETER LOW AND HIGH VALUES AS FOLLOWS:
PARAMETER LOWER LIMIT UPPER LIMIT
00625 TOT KJEL N MG/L «*« ««»
*«NOTE*«
NO DEPTH INDICATOR RESTRICTIONS WERE SPECIFIED - COMPUTATIONS HILL
BE PERFORMED WITHOUT REGARD TO DEPTH INDICATORS
••NOTE**
NO GRAB/COMPOSITE RESTRICTIONS HERE UTILIZED, SO BOTH GRAB AND COMPOSITE SAMPLE TYPES MAY 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 *•*»*
-------�
STORE! RETRIEVAL DATE 89/03/23
169-00007
38 40 48.3 076 29 53.2 1
P R ASSOCIATES
51139 VIRGINIA PAGE
NORTH ATLANTIC 021400
POTOMAC RIVER
21VASWCB 830611 HQ 02070005
0000 FEET DEPTH
PGM=INVENT
PAGE:
DEtIO OF INTERFACE
NITRATE IN WELLS
PAGE COUNTT
VIRGINIA
/TYPA/AMBNT/HELL
PARAMETER
GO
•
i— «
I
in
en
00008
00094
00400
00403
00410
00500
00505
00510
00610
00615
00620
00625
00665
00671
00660
00940
01045
01 055
31507
31615
62032
62033
62034
82035
LAB
CNDUCTVY
PH
LAB
T ALK
RESIDUE
RESIDUE
RESIDUE
NH3+NH4-
NOZ-N
N03-N
TOT KJEL
PHQS-TOT
PHOS-DIS
T OSS C
CHLORIDE
IRON
MANGNESE
TOT COLI
FEC COLI
CALCIUM
KG
K
SODIUM
IDENT.
FIELD
PH
CAC03
TOTAL
TOT VOL
TOT FIX
N TOTAL
TOTAL
TOTAL
N
ORTHO
C
TOTAL
FEiTOT
UN
MPN COMP
nPNECriED
TOTAL C
TOTAL KG
TOTAL K
TOTAL NA
NUMBER
MICROMHO
SU
SU
riG/L
tlG/L
MG/L
nc/L
MG/L
MG/L
MG/L
MG/L
MG/L P
MG/L P
MG/L
MG/L
UG/L
UG/L
/100ML
/100ML
A UG/L
UG/L
UG/L
UG/L
MEDIUM
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
IK NUMBEI
K
K
K
K
K
K
K
K
K
1 MEAN VARIANCE
1 13424.00
570.0000
7.000000
7.100000
137.0000
416.0000
97.00000
319.0000
.1000000
.0100000
9.000000
.1000000
.1000000
.1000000
3.000000
15.00000
100.0000
10.00000
2.200000
100.0000
108000.0
14600.00
700.0000
6300.000
STAN OEV MAXIMUM
13424
570
7.00
7.1
137
416
97
319
.100
.010
9.000
.100
.100
.100
3.0
15
100
10.0
2
100
106000
14600
700
6300
MINIMUM
13424
570
7.00
7.1
137
416
97
319
.100
.010
9.000
.100
.100
.100
3.0
15
100
10.0
2
100
106000
14600
700
6300
BEG DATE
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
END DATE
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
-------�
RETRIEVAL DATE 8*/03/23 PGM=INVENT PAGE: TA KG STA END
CO
I—*
1
in
cn
0
0
0
0
0
0
5
0
0
0
5
1
0
5
6
3
13
0
0
0
0
38
0
0
0
0
0
0
5
0
0
0
5
1
0
5
5
3
13
0
1
0
0
38
« OF DBS • OF SAMPLE =0 <.5
0
0
0
0
0
0
119
0
0
0
161
31
0
120
163
121
417
50
24
0
0
1214
0
0
0
0
0
0
5
0
0
0
5
1
0
5
6
5
14
2
1
0
0
44
188
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
188
0
0
0
0
0
0
5
0
0
0
5
1
0
5
5
3
13
0
0
0
0
37
<3
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
>:
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
1
-------�
5TORET RETRIEVAL DATE 89/03/23
38 TOTAL STATIONS PROCESSED
DEMO OF INTERFACE
NITRATE IN WELLS
PAGE COUNTY
VIRGINIA
PGf1=IIIVENT
GROSS
PAGE:
PARAMETER
00006 LAB IOENT.
00094 CNDUCTVY FIELD
00116 INTNSVE SURVEY
00340 COO HI LEVEL
MEDIUM
NUMBER HATER
nicRorwo HATER
IDENT HATER
MG/L HATER
u,
1— 1
1
in
00400
00403
00410
00500
00505
00510
00515
00530
00535
PH
LAS
T ALK
RESIDUE
RESIDUE
RESIDUE
RESIDUE
RESIDUE
RESIDUE
PH
CAC03
TOTAL
TOT VOL
TOT FIX
DISS-105
TOT NFLT
VOL NFLT
SU
SU
MG/L
MG/L
MG/L
MG/L
C MG/L
MG/L
MG/L
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
00540 RESIDUE FIX NFLT MG/L HATER
00545 RESIDUE SETTLBLE ML/L
00610 NH3*NH4- N TOTAL MG/L
00665 PHOS-TOT
HATER
HATER
00615 N02-N TOTAL MG/L HATER
00620 N03-N TOTAL MG/L HATER
00625 TOT KJEL N MG/L HATER
00630 N024N03 N-TOTAL MG/L HATER
MG/L P HATER
00671 PHOS-DIS ORTHO MG/L P HATER
RMK NUMBER
K
TOT
K
TOT
K
TOT
K
TOT
K
K
TOT
K
TOT
K
TOT
K
TOT
K
TOT
K
TOT
43
43
13
4
16
20
38
43
43
30
30
30
17
3
22
25
3
22
25
3
22
25
3
3
41
44
3
30
33
5
19
25
44
32
7
39
5
39
44
IB
13
31
MEAN
14199.00
292.7100
865100.0
2.250000
1.000000
1.250000
7.126000
7.3Z0900
125.8000
236.8000
60.96700
175.8300
149.5900
4.333300
5.000000
4.920000
1.666700
5.000000
4.600000
2.666700
5.000000
4.720000
.1000000
.1000000
.1000000
.1000000
.0666670
.0100000
.0151520
8.044000
.1736800
.1000000
.1318200
1.496300
.0500000
1.236700
.1200000
.1000000
.1022700
.0277780
.0446150
.0348390
VARIANCE
1406E+05
31880.00
.0000000
1.583300
.0000000
.5131600
.7506100
.2240300
5863.200
22272.00
2541.300
12368.00
11188.00
4.333400
.0000000
.4100100
2.333300
.0000000
1.416700
6.333400
.0000000
1.126704
.0000000
.0000000
.0000000
.0000000
.0044334
.0000000
.0005507
64.63000
.0098247
.0000000
.0054758
2.973700
.0000000
2.742100
.0020000
.0000000
.0002273
.0003630
.0020769
.0011191
STAN DEV MAXIMUM MINIMUM
11870.00
178.5500
.0000000
1.258300
.0000000
.7163500
.8663600
.4733200
76.57200
149.2400
50.41100
111.2100
105.7700
2.081700
.0000000
.6403200
1.527500
.0000000
1.190300
2.516600
.0000000
1.061500
.0000000
.0000000
.0000000
.0000000
. 0665830
.0000000
.0234660
8.039300
.0991200
.0000000
.0739980
1.724500
.0000000
1.655900
.0447220
.0000000
.0150780
.0195710
.0455730
.0334540
57567
650
665101
4
1
4
8.50
7.9
313
604
201
603
340
6
5
6
3
5
5
5
5
5
.1
.100
.100
.100
.140
.010
.140
20.000
.400
.100
.400
9.75
.05
9.75
.200
.100
.200
.060
.100
.100
343
23
665101
1
1
1
2.90
6.3
8
42
7
35
24
2
5
2
0
5
0
0
5
0
.1
.100
.100
.100
.010
.010
.010
.220
.100
.100
.100
.10
.05
.05
.100
.100
.100
.010
.010
.010
BEG DATE
75/06/02
75/06/02
85/07/16
62/06/24
82/06/24
82/06/24
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
85/07/16
82/06/24
79/12/13
79/12/13
82/06/24
79/12/13
79/12/13
82/06/24
79/12/13
79/12/13
84/02/22
75/06/02
75/06/02
75/06/02
64/02/22
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
75/06/02
79/12/13
79/12/13
79/12/13
82/06/24
75/06/02
75/06/02
79/12/13
75/06/02
75/06/02
END DATE
87/11/16
67/11/18
85/07/31
86/04/26
67/11/16
87/11/16
87/11/18
87/11/16
87/11/18
67/11/16
87/11/18
87/11/18
87/11/16
84/10/17
67/11/16
67/11/18
84/10/17
67/11/16
67/11/18
64/10/17
87/11/18
87/11/16
84/02/22
75/06/02
67/11/18
87/11/18
67/11/16
66/11/05
87/11/18
75/06/02
87/11/16
86/04/26
67/11/18
87/11/18
85/07/31
87/11/16
85/09/24
67/11/18
87/11/18
87/11/18
83/11/01
87/11/18
-------�
RETRIEVAL OATL V03/23 - ECHO OF ORIGINAL REQUEST
/ENT,
REQUEST NAME: DEHO
CREATED BY: HCO
DATE: 89/03/23
TINE: 10:09
'.ST DESCRIPTION:
NOT SPECIFIED
< HELL SELECTION >
IN SPECIFIC STATES AND/OR COUNTIES
51 VIRGINIA
139 PAGE
1139,
< HELL RESTRICTION >
•MCT TO ONE SPECIFIC AGENCY ONLY
21VASWCB,
3ICT TO SPECIFIC ARCHIVED DATA CLASSES
>JE DATA ONLY. NO KEYWORD.
WICT TO SPECIFIC STATION TYPES/PARAMETER ATTRIBUTES
rR=HELL OF SPRING,
< SAMPLE SELECTION >-
Ranges
a-eter Conlents
RANGES
101,ED=99J231,
0625,LV= 0,HV= 99999,
— < SPECIAL OPTIONS >
S WITH INCIVIDUAL STATION DATA
WITHOUT STATIONS WHICH CONTAIN NO SAMPLE DATA
IF SAMPLE CATA, STATION HEADER, AND DESCRIPTIVE PARAGRAPH
•fH,
'T THE STATION HEADER ON THE LEFT SIDE OF THE PAGE
EMO OF INTERFACE,
IITRATE IN WELLS,
AGE CQ-JNTl ,
IRGINIA.
< JOB CARD OPTIONS >
JOB (A017STORP,0060),'DEMO - INVENT1,TIME=(0,05),PRTY=4,
MSGLEVEL=(0,0),NOTIFY=HCO
E PRINT KJLD
•ARM LINE?=999
I
cn
co
-------�
Section 3.2
BIOS
§
k>
-------�
3.2 BIOS
3.2.1 Background
The U.S. Environmental Protection Agency (EPA) has implemented the first
part of BIOS: The Field Survey Component. BIOS is a national biological
information management system that resulted from an extensive requirements
survey of field biologists. It contains data on the distribution, abundance,
and physical condition of aquatic organisms, as well as descriptions of their
habitats. BIOS and EPA's Water Quality System are part of STORET, allowing
the association of biological and water chemistry data.
The use of biological data for environmental assessments (biomonitoring)
has come to the forefront of resource management. Current trends in water
quality analysis emphasize the use of biological data in conjunction with
physical/chemical properties to generate an integrated assessment of the area
in question. Biological data enhances physical and chemical observations by:
• Directly detecting environmental impacts on the biota
• Assisting in establishing standards of aquatic life use classes
• Improving use attainability analyses
• Providing more effective tools for trends assessment
• Providing new criteria to support regulatory actions.
The collection of biological data for environmental analysis
necessitates the availability of a national data base capable of managing
these observations. Hence, EPA developed BIOS, a national biological data
base management system.
BIOS provides a centralized repository for biological data that would
otherwise not be readily accessible. The system offers powerful analytical
tools which facilitate consistent assessments of water quality and biological
integrity. BIOS can play an important role in developing and monitoring
effective resource management strategies. BIOS can be utilized to answer
environmental questions, such as: What is the status of the biota? Are
3.2-1
-------�
trends obvious? Does a relationship exist between the viability of a
particular species and the concentration of pollutants? Does biological
compliance monitoring of dischargers indicate any significant impact upon the
aquatic biota?
The BIOS design goal was to develop a national data management system in
support of water pollution control programs. EPA recognizes that the data
associated with these efforts varies widely depending upon the program. Host
data collection agencies are interested in specific biological information
gathered within the confines of their state or region. For this reason, the
requirements study was conducted to ensure that BIOS is useful to a broad
range of users but not overburdened with detail.
As part of the requirements study, fisheries and benthic biologists were
contacted from a variety of organizations including state pollution control
agencies, universities, EPA Regional offices and other Federal agencies.
These potential users were asked to comment on a proposed system design. As
expected, their comments were as varied as the programs they support.
However, there was a general consensus that a field survey system should allow
for the identification of organisms present, where, and in what numbers. With
this in mind, these comments were incorporated into the final system design.
3.2.2 Description
STORET represents a growing family of systems. The original family
member and system most synonymous with the name STORET, the Water Quality
System, contains chemical and physical water quality data. Its users include
EPA, other federal agencies, and state and local governments.
The Daily Flow System contains daily observations of flow and
miscellaneous water quality parameters gathered at gaging stations belonging
to the U.S. Geological Survey's national network.
3.2-2
-------�
BIOS provides a repository for biological monitoring data gathered
throughout the country. BIOS accommodates water quality observations sampled
in conjunction with biological monitoring activities. Water quality
parameters that reside in any of the systems within the STORE! family utilize
a common reference file for identification of water quality-related
constituents known as the parameter file. Figure 3.2-1 illustrates the
structure of the STORET family.
In BIOS each sampling location, or station is identified by:
• Agency Code
• Station ID
• USGS Hydrologic Unit Codes
• EPA Major/Minor Basin Codes
• State and County Code
• Latitude and Longitude
• Ecoregion
• A Brief Narrative of the Sampling Location.
Within each station, data from one or more sampling events are stored.
Sampling events are identified as belonging to a particular survey. Surveys
may include sampling events from more than one station within the agency.
Each sampling event is further characterized by a sample date, a sample
identifier, and sample replicate information. In addition, the sampling gear
used in field surveys may be identified and described.
Characteristics of the sampling environment can be recorded for each
sample. This may include meteorological conditions, physical and chemical
water characteristics, and descriptions of the habitat. Habitats are
described by variables such as substrate types, embeddedness, streambank
stability and canopy type.
Within each sample, a complete record of the observed biota is stored.
Minimally, data will include the taxonomic identities and counts of observed
organisms. The organisms collected in a field survey can be counted either
quantitatively or qualitatively, and characterized by their age, size, life
3.2-3
-------�
STORE!
Stations
Water Quality
System
BIOS
Biological
System
Parameter
File
Daily Flow
System
Taxonomic
File
Figure 3.2-1 The STORET Family
3.2-4
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history and condition. BIOS employs a taxonomic numbering convention to
uniquely identify organisms within the system. This taxonomic file is a list
of scientific names for aquatic and terrestrial organisms, and their taxonomic
number. Common names accompany the scientific name for fish species. The
file is managed by the National Oceanographic and Atmospheric Administration
and STORET, with assistance from the Smithsonian Institution.
An assortment of analytical capabilities and output formats are
available in BIOS. Taxa can be listed for a specific station or stations,
using a variety of formats. Statistics commonly used by biologists, such as
diversity indices and community structure analyses are supported. Other
output formats available in BIOS can generate a sorted list of station codes
within any agency, produce descriptions for selected sites, map the geographic
station locations, create a "dump" of all available data, or produce a
formatted display of all BIOS Field Survey data. In addition, BIOS data may
be passed to the Statistical Analysis System (SAS, a commercial software
package) providing a broad range of analytical and graphics capabilities.
Data Analysis Capabilities
In the TAXATABLE output, analyses of community structure are shown below
the tabular display of sampled taxa. Community analyses currently available
include: Shannon and Wiener Diversity Index, Margalef Diversity Index,
Brillouin Diversity Index, Simpson Diversity Index, Taxonomic Evenness,
Redundancy, and Equitability, Taxa Richness, and EFT value (Ephemeroptera,
Plecoptera, and Trichoptera Taxa Richness). Subset counts associated with
lifestage and batchids print immediately below the taxon to which they pertain
(see TAXATABLE sample output, Figure 3.2-7).
A replicate summary can be produced. If requested, it prints after the
data for the last replicate in the summary. Any analyses that appear on the
replicate summary page(s) refer to the data on these pages (see sample
3.2-5
-------�
TAXATABLE output Replicate Summary, Figure 3.2-8)
It is often desirable to specify which types of counts (actual,
estimated or both5 to use in computing community diversity analyses based upon
population counts, as opposed to community analyses based on taxa richness.
If any estimated counts are used in the calculations, the value for the index
is flagged with an asterisk as containing estimated or extrapolated data.
Analyses affected include: Shannon and Wiener, Nargalef, Brtllouin, and
Simpson Diversity indices, Taxonomic Evenness and Redundancy.
The order in which the various taxa are printed in the TAXATABLE report
can be controlled. Taxa can be listed according to ascending or descending
taxon count or scientific name. Taxa can be grouped taxonomically according
to user specified criteria. The scientific name at each taxonomic level
requested is also displayed.
The SAS Interface
The analytical capabilities of BIOS are enhanced through the BIOS to SAS
interface. SAS enables the user to further customize BIOS report formats and
allows further statistical/graphical analyses of the biological data retrieved
from BIOS (see the Pie Chart, Figure 3.2-9).
The data in BIOS can be used through the SAS interface in Rapid
Bioassessment Protocol III. The Bioassessment Protocols were developed by
EPA's Assessment and Watershed Protection Division. Protocols I to III were
designed as cost effective methods for general characterization of aquatic
conditions in wadable streams and rivers. Protocol III provides an integrated
assessment involving both habitat and biological measures with empirically
defined reference conditions.
3.2-6
-------�
3.2.3 Current Status
BIOS resides on EPA's IBM mainframe computer in Raleigh, North Carolina.
It is accessible via a national telecommunications network. EPA Headquarters
in Washington, D.C. provides on-demand user support, technical assistance and
training. Call STORE! User Support at (202) 382-7220 for more information.
BIOS is available for use by EPA, other federal agencies, state and local
governments, and universities.
The BIOS system continues to grow and STORET User Assistance is
committed to continued financial and instructional support of BIOS. As of
June 1989, there were approximately 3,000 stations identified as biomonitoring
sites, 5,000 sampling events and 52,000 taxonomic observations.
3.2.4 Future Applications Planned
Plans for major enhancements to BIOS include capabilities for handling
data resulting from residue analysis of tissues and toxicity tests. Again it
is necessary to understand the nature of the data collected and how it is
utilized. For this reason, a requirements study is being conducted in
conjunction with a national study of biological monitoring programs.
Other enhancements for the future include integration of the metrics
used in Protocol III into the structure of BIOS, development of a system for
data storage on individual organisms, addition of a tissue residue/biotoxicity
component and development of a context checker.
The context checker will enhance the existing QA/QC procedures in BIOS
through advanced syntax and content edit checks. Currently, all agencies
storing data in BIOS must provide the name, address, and phone number of the
individual responsible for that agency's data, and of the persons performing
the field work and taxonomy. This information prints on every BIOS retrieval
allowing the user community to directly contact the persons responsible for
the data should questions arise.
3.2-7
-------�
All BIOS stations can be located on EPA Reach file traces allowing
integration with other water quality data bases as well as the WQAS interface.
Ultimately, the retrieval and storage procedures in BIOS will become menu
driven thereby allowing easier access to the data through a more user friendly
interface.
3.2.5 Sources of Data
All data in BIOS are owned and maintained by a user organization, or
"agency". The following agencies and institutions collect and store data in
BIOS (current as of June 1989):
U.S. Environmental Protection Agency
The following Regions use BIOS:
Region 1
Region 7
Region 10
and
OIRM at HQ
Federal Agencies (Except U.S. EPA)
Tennessee Valley Authority
States
Idaho Department of Health and Welfare
University of Kansas
Nebraska Department of Environmental Control
New Mexico Department of Health and Environment
Pennsylvania Department of Environmental Resources
West Virginia Department of Natural Resources
Interstate Agencies
Delaware River Basin Commission
ORSANCO (Ohio River Sanitary Commission)
George Mason University (Virginia)
3.2-8
-------�
Figure 3.2-2 shows the hierarchial structure of the major categories of
data in BIOS. Note that within each agency there is only one contact, but
there are many stations and reference entries. Similarly, within each station
are many samples,'each associated with one of the agency's survey numbers.
Each sample may contain sets of sampling environment characteristics, sampling
gear, multiple entries of taxa, counts, and associated data.
The specific information that can be entered for each of these
categories is coded using a combination of keywords and values.
The 'Kev' Structure in BIOS
The records stored in BIOS must be unique, and BIOS must avoid any
possible case of mistaken identity, while being operated effectively. To
accomplish this, every data item stored in BIOS is associated with a record
key.
BIOS has four distinct levels at which data may be stored, with certain
data items associated with each level:
• Level I is the Station group consisting of the agency and station
code.
• Level II is the Sample group containing the survey number, sampling
dates, sample ids, and replicate numbers in the record key. Data
items at this level describe the sampling event and the community
sampled.
• Level III has two groups: Gear and Taxon. The Gear group contains the
type(s) of gear used and mesh size (where applicable) in the record
key. Data items at this level provide descriptions of gear
dimensions. The Taxon group consists of organism names and lifestages
in the record key. Data items in the Taxon group allow counts,
weights, lengths and any pertinent descriptions to be stored for each
organism or hybrid.
• Level IV, the Individual group, is associated with the Taxon group
above. Each individual organism is given a number for its record key.
The age, weight, length, condition and a brief description of each
individual organism can then be entered.
3.2-9
-------�
AGENCY
J±L
Surveys
Stations
Samples
Sampling
Environment
Characteristics
Sampling
Gear
Contact
References
Collector
Identifier
Bibliographical
Specimen
Protocol
Taxa, Counts,
& Associated
Data
Reference
Numbers
Figure 3.2-2 Overview of Major Categories of Data In BIOS
3.2-10
-------�
There is a one-to-many relationship implied in the level structure of
BIOS. For example: for each station, there may be many samples; for each
sample, there may-be many sampling gears. Also for each sample, there may be
many taxa observed. The gear and taxonomic information both occur at level
III, and are independently connected to the sampling event described at level
II. Finally, for each taxon recorded, there may be many individual organisms
described.
When deleting data, this relationship becomes important. When a record
key is deleted, all data connected to it (at subsidiary levels) are removed
from BIOS.
The Taxonomic File
In order to accommodate the broad spectrum of organisms that are
collected in a field survey, a taxonomic numbering convention is used to
identify organisms in BIOS. The names and associated numbers are located in
the EPA Taxonomic File.
During data entry, all organism names are validated by comparison with
this file. Taxa which do not match existing entries will be flagged as not
found and consequently not stored. Organisms can be identified to any level
of taxonomy (Phylum, Class, Order, Family, Genus, Species).
The taxonomic file can be independently accessed and listed in its
entirety or by selected subsets. Users with full screen access have the
option to browse the taxonomic file interactively. These methods of accessing
the taxonomic file allow checking of organisms before data storage. Users
should direct all additions/modification requests for the taxonomic file to
STORET user assistance at (202) 382-7220, or (FTS) 382-7220 or (800) 424-9067.
3.2-11
-------�
The following are all valid ways to store taxa in BIOS:
TAXON-BRILLIA FLAVIFRONS, (genus and species/variety)
TAXON-BRILLIA, (genus only)
TAXON-BRILLIA SP., (genui -nly)
TAXON-BRILLIA SPF., (genus, multiple species)
TAXON-BRILLIA SP. 1, (genus, single unknown species)
TAXON-BRILLIA SP. 2, (genus, different unknown species)
TAXON-CHIRONOMIDAE (family only)
TAXON-DIPTERA, (order only)
TAXON-INSECTA, (class only)
TAXON-ARTHROPODA, (phylum only)
TAXON-RAINBOW TROUT (common name - AFS fish only)
Each taxonomic identification must be accompanied by an estimated
confidence factor to indicate its accuracy, and a count (either actual,
estimated, or extrapolated).
The Storage Process
Agency codes must be stored before stations can be stored, and stations
must be stored before sample data can be stored. Even though the BIOS user
submits storage jobs during the week, the system update occurs over the
weekend. This is what is known as the update cycle. Therefore, before
stations can be stored, there must be an update cycle containing the agency
storage transactions; and before sample data are stored, the station storage
transactions must have been processed. It takes three weeks for storage of
agency, station and sample data. Once the agency and station have been
established, they need not be reentered.
Agency codes can only be established by the STORET User Assistance staff
in Washington, D.C. When the agency code is being created, the organization
and a point of contact responsible or the data are identified. This enables
3.2-12
-------�
users of BIOS to contact this person if questions about the data arise.
The agency code is a structured alphanumeric code indicating who the
sampling agency is, and who is responsible for the data.
A sample is an attempt to trap or otherwise collect a set of organisms.
Each sample is uniquely identified by a station key, made up of:
AGENCY its agency code
STATION its station ID
Within a station, each sample must begin with its key, composed of:
SURVEY Its survey identification number. This is associated with
the name, date and purpose of the survey.
SAMPDT Its date
SAMPID Optional. Its "name"; to differentiate between samples
REPLNUM Optional. Its replicate number, if it is a replicate.
3.2.6 Example Outputs
Retrieval in BIOS involves selecting the stations of interest by one of
the following: agency, state/county, latitude/longitude coordinates, USGS
Hydrological Units, EPA ecoregion, EPA Basin, station type, parameter
presence, EPA river reach and USGS aquifer code. Samples within these
stations are then selected by Survey, sample date/time/season, sampling
environment characteristics, community, gear type, taxon or abundance. Once
the selections are complete you can restrict the output to specify only
samples of interest.
The station retrieval process is similar to filling a bucket with
selected stations and pouring it through a filter so that only the stations
with samples of interest are retrieved from the data base. This is shown
3.2-13
-------�
graphically in Figure 3.2-3.
Output Report Options
The following report options are available for use with BIOS data:
PGM-STA a sorted list of all station codes within any agency
code.
PGM-INDEX a site description for each selected station.
PGM-LOC a map showing the geographic locations of selected
stations.
PGM-ALLPARM a "dump" of all available data from each selected
station.
PGM-ALLFS a formatted display of all BIOS Field Survey data from
each selected station. ALLFS is the proper format
request when output is to be machine readable, or when
data are to be passed to SAS.
PGM-TAXATABLE a tabular display of abundance by taxonomic identifier
of all taxa collected at selected stations. TAXATABLE
can also be used to pass data to SAS.
Example reports produced by ALLFS (Figure 3.2-4), LOG (Figure 3.2-5
shows the screen print and 3.2-6 shows the map it generates) and TAXATABLE
(Figure 3.2-7) are shown on the following pages. Finally, a pie chart that
was generated via the SAS interface is also included in Figure 3.2-9.
3.2.7 Complete Documentation
As part of STORET, BIOS resides on EPA's IBM mainframe computer in
Raleigh, North Carolina. Access is available nationwide via remote terminals.
EPA Headquarters in Washington D.C. provides user support, technical
assistance, and training. The STORET User Support Group can be reached at:
(202) 382-7200 or (FTS) 382-7220 or (800) 424-9067.
Complete BIOS documentation is available under TSO on the NCC mainframe.
After the Ready prompt type '%BATCH BIOSDOC' and follow the instructions on
the screen.
3.2-14
-------�
•SELECTED" STATIONS
FILL UP #
THE BUCKET * f
* t
* .......... i. .
t ............ t. . .
. . BUCKET OF ...*...
f . SELECTED STATIONS . . .f. .
t .......... *
# ....... «
# ..... *
# . . * + --------- +
* + . . +
+...+ 'FILTER'
+ .+ < -------------------
+.+ RESTRICTED STATIONS
'HITS' FILE
(STATIONS TO BE RETRIEVED)
figure 3.2-3 BIOS Station retrieval Process
3.2-15
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STORET RETRIEVAL DATE 89/01/17 BIOS FIELD SURVEY ALLFS REPORT
301146
41 06 19.0 095 54 55.0 3
BIG PAPT" 'I C AT BELLEVUE OFAB
31153 i ASKA SARPY
MISSOURI RIVER 091207
/TYPA/AMBNT/STREAn/BIO LOWER MISSOURI
21NEBOOI 10230006021 0004.820 ON
0000 FEET DEPTH
SURVEY NUMBER => 1
SAMPLE DATE = > 65/09/17
SAMPLE ID => F-04
COMMUNITY => FISH/NEKTON
SAMPLE NOTE => CHANNELIZED WITH SEDIMENT DEPOSITION THROUGHOUT
=> 1/4 MILE LENGTH OF STREAM SAMPLED
=> ONE SAMPLING RUN HAS CONDUCTED
=> APPROXIMATE SAMPLING TIME HAS 50 MINUTES
SAMPLING ENVIRONMENT CHARACTERISTICS:
P00010 - TEMPERATURE. HATER IDEGREES CENTIGRADE) => 19.0
P00011 - TEMPERATURE. HATER IDEGREES FAHRENHEIT) => 66.2 *
P00072 - STAGE. STREAM I METERS) = > .400
P00095 - SPECIFIC CONDUCTANCE IUKHDS/CM 3 25C) => 700
P00300 - OXYGEN, DISSOLVED MG/L => 8.6
P00301 - OXYGEN, DISSOLVED. PERCENT OF SATURATION X = > 91.5 *
P83509 - STREAM, WIDTH METER => 15.8
P83512 - CHANNEL VEGETATIVE COVER. APRX. Y. BY VISUAL EST. ,X = > 20.00
P83513 - CHANNEL SLOPE,LEFTIASCENDING) BNK.«90=UHDRCUT)DC6 => 60
P83514 - CHANNEL SLOPE,RIGHTIASCENDINGIBNK,I<90=UNORCUT)DEG => 60
^ P83515 - STREAM, PERCENT SHADED BY CANOPY 7. = > .00
^ P83530 - SUBSTRATE, SAND. MEDIUM 0.250-0.500 MM X => 50.00
<* P83534 - SUBSTRATE, SILT, MEDIUM 0.031-0.016 MM X => 15.00
P83538 - SUBSTRATE, CLAY/FPOM, MEDIUM 0.0020-0.0010 MM X => 35.00
P84132 - STREAMBANK, VEGETATIVE STABILITY RATING CODE => E
P84133 - STREAMBANK, STABILITY IBANK EROSION I RATING CODE => STAB
P84135 - STREAMSIDE. (SHORELINE) COVER RATING CODE => 2
P84137 - CHANNEL STABILITY RATING CODE (E.G.F.P) CODE => F
SAMPLING EFFORT INFORMATION:
GEAR => ELCCTROSHOCK
REFERENCES:
COLLECTOR => 1
IDENTIFIER => 1
TAXON NAME => LEPISOSTEUS PLATOSTOMUS (SHORTNOSE 6ARI
CONFIDENCE IN IDENTIFICATION => A
COUNT => 1
TOTAL LENGTH MINIMUM => 47.20 CM
TOTAL LENGTH MAXIMUM = > 47.20 CM
TAXON NAME => DOROSOMA CEPEOIANUM I GIZZARD SHAD I
CONFIDENCE IN IDENTIFICATION -> A
COUNT = > 128
Fi.pure 3.?-4
Printed Te- - PG11=ALLF;~
-------�
STORET RETRIEVAL DATE 89/01/17
BIOS FIELD SURVEY ALLFS REPORT
to
i
/TYPA/AMBNT/STREAM/BIO
(SAMPLE CONTINUED FROM PRECEDING PAGE)
SURVET NUMBER => 1
SAMPLE DATE => 85/09/17
SAMPLE ID => F-04
TOTAL LENGTH MINIMUM => 9.00 CM
TOTAL LENGTH MAXIMUM => 26.60 CM
TAXON NAME => HIOOOM ALOSOIOES (GOLDEYEI
CONFIDENCE IN IDENTIFICATION => A
COUNT => 1
TOTAL LENGTH MINIMUM => 28.00 CM
TOTAL LENGTH MAXIMUM => 28.00 CM
TAXON NAME => CYPRINUS CARPIO A
COUNT = > 14
TOTAL LENGTH MINIMUM => 30.00 CM
TOTAL LENGTH MAXIMUM => 58.20 CM
TAXON NAME => NOTROPIS ATHERINOIDES I EMERALD SHINER)
CONFIDENCE IN IDENTIFICATION => A
COUNT => 1
TOTAL LENGTH MINIMUM => 5.50 CM
TOTAL LENGTH MAXIMUM => 5.50 CM
TAXON NAME => NOTROPIS LUTRENSIS I RED SHINER)
CONFIDENCE IN IDENTIFICATION => A
COUNT => 1
TOTAL LENGTH MINIMUM => 6.00 CM
TOTAL LENGTH MAXIMUM => 6.00 CM
TAXON NAME => CARPIOOES CYPRINUS (QUILLBACK)
CONFIDENCE IN IDENTIFICATION => A
COUNT => 2
TOTAL LENGTH MINIMUM => 38.40 CM
TOTAL LENGTH MAXIMUM => 41.80 CM
TAXON NAME => CARPIOOES CARPIO I RIVER CARPSUCKER)
CONFIDENCE IN IDENTIFICATION = > A
COUNT => 2
TOTAL LENGTH MINIMUM => 16.00 CM
TOTAL LENGTH MAXIMUM => 27.00 CM
TAXON NAME => ICTALURUS PUNCTATUS (CHANNEL CATFISH)
CONFIDENCE IN IDENTIFICATION => A
COUNT => 1
TOTAL LENGTH MINIMUM => 31.00 CM
TOTAL LENGTH MAXIMUM => 31.00 CM
301146
41 06 19.0 095 54 55.0 3
BIG PAPILLION C AT BELLEVUE OFAB
31153 NEBRASKA SARPY
MISSOURI RIVER 091207
LOWER MISSOURI
2INEBOOI 10230006021 0004.620 ON
0000 FEET DEPTH
Figure 3.2-4 (continued)
Sample PrinfeH Report. - PGM=ALLFS
-------�
STORET RETRIEVAL DATE 87/08/19
MAP PRE-PROCESSING BEGINS . .
LOG (HAP) - VERSION OF FEB 28.1985
PROJECTION = ALBERS
SCALE = 1:100000
REFERENCE LATITUDE = 38 45 00 REFERENCE LONGITUDE = 77 20 00
LATITUDE MINIMUM = 38 27 00
LATITUDE MAXIMUM = 39 03 00
LONGITUDE MINIMUM = 76 56 00
LONGITUDE MAXIMUM = 77 44 00
HINDOU X-INCHES =
HINDOM Y-INCHES =
27.23
26.50
MAP PRE-PROCESSING COMPLETE
PGM=LOC (STORPLTI LOG OF MAPS
•• ___—_-_-__-___________-—_ ____________—_—„
*• BEGIN JOB HC010 8/19/87 1:18:14.37 PM JES 7510
«» PLOTMSG : PLEASE LOAD 12 MITH BLUE.
«* PLOTMSG : PLEASE LOAD 13 MITH RED.
*« PLOTMSG : THANKS !
tsJ
I
00
•ft
• ft
•ft
END HAP 101 HC010
END JOB HC010
8/19/87 1:19:54.11 PM JES 7510 FOREGROUND POINTS
8/19/87 1:19:56.87 PM JES 7510
22
BACKGROUND POINTS 6911
PGM-LOC ISTORPLT) NORMAL END
STORET RETRIEVAL DATE 87/08/19
PGM=LOC - VERSION OF FEB 28.1985
31GMU
31GMU
31GHU
31GMU
31GMU
31GMU
31GMU
31GMU
31GMU
31GMU
31GMU
31GKU
31GMU
31GMU
31GMU
31GMU
31GMU
31GMU
31GMU
31GMU
31GMU
11GMU
ACCOTINK-01
ACCOTINK-02
ACCOTINK-03
ACCOTINK-04
ACCOTINK-05
ACCOTINK-06
ACCOTINK-07
CAT1ERON-01
CAMERON-02
CAMERON-03
CAMERON-04
DIFFICULT-01
DIFFICULT-10
DIFFICULT-11
OIFFICULT-13
DIFFICULT-02
DIFFICULT-07
DIFFICULT-09
POPESHEAD-01
QUANTICO-01
QUANTICO-02
QUANTICO-03
38 51 36. J
38 51 04.
38 48 40.'
38 48 40.-
38 47 14.
38 45 32.
30 43 37.
38 48 45.
38 48 45.
38 50 49.
38 51 40.
38 53 33.
38 56 17.
38 57 38.
38 58 21.
38 55 19.
38 56 02.
38 55 34.
38 52 13.
38 36 56.
38 36 21.
38 34 26.
> 077 17 48.1
1 077 14 35.3
r 077 13 56.4
r 077 14 44.7
077 13 00.2
077 12 27.3
077 12 29.8
077 09 46.1
077 09 01.4
077 10 42.3
077 10 07.3
077 19 50.9
077 16 52.8
077 18 02.4
077 14 33.4
077 19 08.8
077 18 53.8
077 17 23.4
077 26 32.6
077 22 06.8
077 26 22.4
077 24 17.6
0 ACCOTINK CREEK AT PICKETT RD. R
0 ACCOTINK CREEK
0 ACCOTINK CREEK AT BRAODOCK ROAO
0 LONG BRANCH ACCOTINK AT HAKEFIEL
0 ACCOTINK CREEK BELOU DAM
0 ACCOTINK CREEK AT HOOES ROAD
0 ACCOTINK CREEK AT ALBAN
0 INDIAN RUN AT INDIAN RUN PARKHAY
0 TURKEYCOCK RUN AT PARK ABOVE EOS
0 HOLMES RUN AT SLEEPY HOLLOM ROAD
0 TRIPPS RUN AT SLEEPY HOLLOW ROAD
0 DIFFICULT RUN AT FOX MILL ROAO
0 HOLF TRAP CREEK AT BROWN'S MILL
0 COLVIN RUN AT U.S. ROUTE 7
0 ROCKY RUN ABOVE GEORGETOWN PIKE
0 DIFFICULT RUN AT LAWYER'S JONES
0 SNAKEDEN BRANCH NEAR HUNTER STN.
0 PINEY BRANCH AT MEADOULARK
0 POPESHEAD CREEK AT FAIRFAX STATI
0 QUANTICO CREEK NORTH FORK AT BUR
0 QUANTICO CREEK SOUTH FORK AT HAL
0 QUANTICO CREEK SOUTH FORK AT LOO
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51153
51153
51153
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
PRINCE
PRINCE
PRINCE
END OF FOREGROUND ECHO
Figure 3.2-5
Sample Printed "e.. r.
PGM=LOC
-------�
•£>
flO
-o
oo ; :•
s ii
* ::
oo
CO
OD
O
o
llj
CD
STORET SYSTEM
HftSON UH¥ERSIIf
LI inirioi imnoi
HUMCIIOi • «UOB COM.
KiU I.IMM
_J J 1 I
3.2-6
-------�
STORET RETRIEVAL DATE 69/01/20
BIOS FIELD SURVEY TAXATABLE REPORT
/TYPA/AHBNT/STREAM/DOMN/MINE/HAZARD/BIO
SURVEY NUMBER
SAMPLE DATE
SAMPLE 10
=> 4
=> 85/07/18
= > SCO785
REFERENCES:
COLLECTOR
IDENTIFIER
SPECIMEN
COMMUNITY => MACROINVERTEBRATES
SAMPLE NOTE => SAMPID CODES-SITE SC IS SHORT CREEK
SAMPLING EFFORT INFORMATION:
P83501 - SAMPLE. DURATION
P835SO - DISTANCE TOMED
GEAR = > HANDSCREEN
111719830005
37 05 22.5 094 39 57.8 2
SHORT CREEK: GALENA. 1.0 HI. N., 1.6 HI. U.
20021 KANSAS CHEROKEE
LOUER MISSISSIPPI 100400
GRAND NEOSHO
21KSBS 870620 11070207
0003 FEET DEPTH 252 METERS ELEVATION
39G OZARK HIGHLANDS
SHORT CREEK
= > 1
= > 1
= > 1
HOURS =>
METERS = >
.17
1.00
Nl
I
IS)
O
GROUP BY TAXON NAME COUNT PERCENT
PHYLUM ARTHROPODA
CLASS INSECTA
ORDER DIPTERA
FAMILY CHIRONOMIDAE
GENUS CORYNONEURA
CORYNONEURA SP.1 16 0.83
16 PUPA EXUVIA
GENUS CORYNONEURA SUBTOTAL 16
GENUS CRICOTOPUS
CRICOTOPUS BICINCTUS 3** 17-»°
344 PUPA EXUVIA
GENUS CRICOTOPUS SUBTOTAL 344
GENUS PENTANEURA
PENTANEURA *fl 5-07
98 PUPA EXUVIA
GENUS PENTANEURA SUBTOTAL 98
GENUS CONCHAPELOPIA
(SAMPLE CONTINUED ON FOLLOWING PAGE)
Figure " 2-7
Sample Pr1->reH Reporr - PGM^TAXATABI.E
-------�
STORET RETRIEVAL BATE 89/01/20
BIOS FIELD SURVEY TAXATABLE REPORT
/TYPA/AMBNT/STREAM/DOMN/HINE/HAZARD/BIO
111719830005
37 05 22.5 094 39 57.8 2
SHORT CREEK: GALENA, 1.0 HI. N., 1.6 MI. H.
20021 KANSAS CHEROKEE
LONER MISSISSIPPI 100400
GRAND NEOSHO
21KSBS 870620 11070207
0003 FEET DEPTH 25Z HETERS ELEVATION
39G OZARK HIGHLANDS
SHORT CREEK
I SAMPLE CONTINUED FROH PRECEDING PAGE)
SURVEY NUMBER
SAMPLE DATE
SAMPLE ID
=> 4
=> 85/07/18
=> SCO785
GROUP BY TAXON NAME
================ =====================================
CONCHAPELOPIA
1 PUPA EXUVIA
COUNT
PERCENT
0.05
I
ro
GENUS CONCHAPELOPIA
GENUS PSECTROCLADIUS
SUBTOTAL
PSECTROCLADIUS
1474 PUPA EXUVIA
GENUS PSECTROCLADIUS .
FAMILY CHIRONOMIDAE . .
ORDER DIPTERA
CLASS INSECTA
PHYLUM ARTHROPODA
SUBTOTAL
SUBTOTAL
SUBTOTAL
SUBTOTAL
SUBTOTAL
TOTAL
1474
1474
1933
1933
1933
1933
1933
76.25
ANALYSES
TAXA RICHNESS - 5
EPT VALUE - 0
BRILLOUIN DIVERSITY INDEX - 0.305
MARGALEF DIVERSITY INDEX - 0.529
SIMPSON DIVERSITY INDEX - 0.616
SHANNON-WIENER DIVERSITY INDEX - 1.022
EVENNESS - 0.440
REDUNDANCY - 0.560
Figure .1.2-7 (continued)
Sample Printed Pepnrt - PCM«t(1AXATARTP
-------�
STORET RETRIEVAL DATE 88/10/26
BIOS FIELD SURVEY PGM=TAXATABLE
/TYPA/AMBNT/STREAM/BIO
SURVEY NUMBER
SAMPLE DATE
SAMPLE ID
LC0002
41 26 06.0 097 04 03.6 2
LOST CREEK AT PARK BRIDGE
31037 NEBRASKA
MISSOURI
LOWER PLATTE
21MEB001 831230
0000 FEET DEPTH
= > 5
=> 83/08/02
= > 21100F
COLFAX
090805
10200201011 0000.140 ON
=========
=
=========
========= REPLICATE STATISTICS =====================
(SUMMARY OF PRECEDING 4 SAMPLES I =
============r========5==r=======s=======r===============
IM
i
TAXON NAME
OOROSOMA CEPEOIANUH
CVPRINUS CARPIO
HYBOGNATHUS HANKINSONI
NOTROPIS LUTRENSIS
NOTROPIS STRAtllKEUS
CARPIODES CYPRINUS
CARPIOOES CARPIO
ICTALURUS NATALIS
ICTALURUS PUNCTATUS
ICTALURUS MELAS
LEPOHIS CYANELLUS
LEPOHIS MACROCHIRUS
LEPOtllS HUMILIS
rtlCROPTERUS SALMOIDES
PQHOXIS ANNULARIS
TOTAL
TOTAL
COUNT
3
199
4
24
4
4
8
2
76
16
164
19
2
37
11
573
MINIMUM
COUNT
1
21
2
3
2
1
2
2
8
I
16
2
1
5
1
MAXIMUM
COUNT
:£==== =
2
104
2
13
2
2
4
2
48
15
92
12
1
19
9
SAMPLES
MEAN STANDARD WITH THIS
COUNT DEVIATION TAXON
0.8
49.8
1.0
6.0
1.0
1.0
2.0
0.5
19.0
4.0
41.0
4.8
0.5
9.3
2.8
ANALYSES
TAXA RICHNESS
EPT VALUE
BRILIOUIN DIVERSITY INDEX
MAR6ALEF DIVERSITY INDEX
SIMPSON DIVERSITY INDEX
SHANNON-WIENER DIVERSITY INDEX -
EVENNESS
REDUNDANCY
BASED UPON
TOTAL COUNTS MEAN COUNTS
============
15
0
0.770
2.204
0.227
2.629
0.673
0.327
===========
15
0
0.727
2.820
0.223
2.629
0.673
0.327
1.0
37.0
1.2
4.7
1.2
0.8
1.6
1.0
19.4
7.3
34.8
4.9
0.6
6.6
4.2
2
4
2
4
2
3
3
1
4
2
4
4
2
4
3
Figi're 3.2-G
Sample Printed lie port - PGM' VTABLE - Explicate Summary
-------�
George Mason c versity Study
Impoct of Urbanization on Insect Biota
Streams in Virginia south of Uoshington, DC
STATION • Station No.1
STATION • Slat ion Mo.?
i
rx
CO
0 i pier a
66.48'.
Coleoptero
9.891
Epheneroptera
19.23*
Epheneroptera
34.19*
Other
55.91*
Diptero
18.8?*
Coleoptero
B.S4*
STRTIOH - Station no.3
Epheneraptera
3S.I8X
Diptera
26.89*
Coleoptero
S.43*
Other
Figure 3.2-9
- Raw data resides in the 8TORET/H06 system under agency code 11 TRAIN
-------�
IP
w
Section 3.3
Water Quality
Analysis Systems
-------�
3.3 WATER QUALITY ANALYSIS SYSTEM
3.3.1 Background
In the late 1970s, EPA needed to track the environmental impacts of
industrial and municipal point source discharges on our nation's surface
waters, primarily fresh water rivers and lakes. Tracking was necessary to
support effluent guideline preparation for various point source categories as
outlined in the Consent Decree of 1976 (NRDC v. Train). As part of the
development of technology-based effluent guidelines, EPA performed
environmental benefit analyses of regulations that defined both Best
Practicable Treatment (BPT) and Best Available Treatment (BAT) technology-
based limitations. These benefit analyses required national summaries of
existing impacts on receiving streams, as well as predictions of expected
impacts after compliance with BPT and BAT treatment technologies.
The Monitoring and Data Support Division (MDSD), now the Assessment and
Watershed Protection Division; AWPD) of the Office of Water Regulations and
Standards determined that the best method for performing these and other
analyses was to develop a series of data files that contained the requisite
information and had a common link so that they could "communicate" with each
other. The files were linked by hydrological characteristics, with
industrial, municipal and other facilities identified by their locations on
the nation's water body network.
The MDSD categorized the nation's waters using a variation of the USGS
hydrologic cataloging system (i.e., drainage basin) with more detail provided
by separating various sections of rivers or lakes within the hydrologic units
into finite elements called reaches. Each reach was assigned a three digit
number to create what we know today as the "Reach File."
MDSD then set out to develop various data files that were linked using
this Reach File. These files were developed using a customized data base
management system called, for want of a better name, In-House Software (IHS).
3.3-1
-------�
This software is still being used for all of the files in the system, such as:
• The Municipal/Industrial Facility DischarEe (IFD) file contains general
information about each National Pollutant Discharge Elimination System
(NPDES) facility including: indirect discharges to Publically-Owned
Treatment Works (POTWs), standard industrial classification (SIC) codes,
latitude/longitude and stream reach location, and categorization of
process and discharge type.
• The Stream Gage/Flow file contains information on 36,000 stream gaging
locations. Information stored includes location of gaging stations,
types of data collected, frequency of data collected, media in which
data are stored, identification of the collecting agency, and mean
annual flow and 7Q10 low flow (i.e., the lowest average seven day flow
over a ten year period) where available.
• The Drinking Water Supplies file has data on surface water supplies
including locations of utilities, intakes and sources. The data base
contains data on 824 utilities serving communities with populations
greater than 25,000, and 6,840 utilities serving communities with
populations less than 25,000.
• The City/Countv file includes geographic and demographic data on cities
and counties within the U.S. Some of the elements are: census
population, latitude/longitude, Congressional district, and the Standard
Metropolitan Statistical Area (SMSA) code.
In addition to the above listed files, there are other minor files that
make up the IHS system and the WQAS procedures. Also, the IHS files are
linked to the Reach file system (see Section 3.4) and the STORET family of
files (see Section 3.1).
3.3.2 Description
The Water Quality Analysis System (WQAS) is a family of conversational
procedures that creates reports and graphics from environmental data
maintained by EPA on its IBM 3090 mainframe located at Research Triangle Park,
North Carolina. Through the use of keywords and menus, the procedures provide
quick response to specific inquiries. For example, the software could be used
to determine the nearest drinking water supply downstream from a waste
discharger or to map water quality, dischargers and toxics along a specified
stream, or to calculate the dilution factor for a specific receiving stream.
3.3-2
-------�
The Water Quality Analysis System can be used by anyone who has access
to the EPA central computer. This includes access through EPA's high-speed
network, or access via a local phone call using a modem on a PC or terminal.
The WQAS software is designed to use the best computer technology available on
the EPA's computer network. The WQAS software makes the full capability of
EPA's equipment available to all system users. For example, the color prints
and laser graphics are created on printers that are available to any user of
the software, and could be installed anywhere in the EPA network. This means
that the user with the least expensive equipment can still generate the best
computer output.
Table 3.3-1 provides some examples of the procedures that are part of
the family of programs know as the WQAS. Examples of their use are given
under Section 3.3.6.
3.3.3 Current Status
The Water Quality Analysis System is constantly undergoing revision and
procedures are being modified or added as both EPA Headquarters, EPA Regional
and State programs change. Beyond the procedures described in Table 3.3-1,
AWPD is currently supporting many hardware and software configurations:
WORKSTATIONS
• Personal computer: The WQAS personal computer shows the potential for
making access to environmental data available to a personal computer
through local area networks and 3270 emulation. The WQAS personal
computer shows software that runs on local area networks that can
integrate with both PC-and host-based programs. The system uses IBM's
newest technology, but is also fully compatible with EPA's plans for
computer equipment and information access.
• 3270 Terminal: The WQAS 3270 terminal demonstrates the information and
graphics capabilities that are available to all EPA system users using
EPA supported graphics terminals.
3.3-3
-------�
Table 3.3-1
Water Quality Analysis System
Description of Procedures
Procedure
City
ASIVPCA
Browse
RchDat
PathScan
Flow
Dflow
Description
Allows the user to obtain information from the
City Master File. Given a city name, the
procedure provides latitude, longitude, stream
names, reach numbers, census population, and
FIPS State-County numbers.
Furnishes information on the extent of stream
use impairment due to point sources and nonpoint
sources reported for 1972, 1982, and 1985.
Provides the user easy retrieval of data from
the Permit Compliance System (PCS-Office of
Water Enforcement and Permits) and STORE! water
quality monitoring station data. Data from an
individual station of interest can be retrieved
by specifying the STORET agency and station
codes or NPDES facility number. (Users please
note that you must have PCS privileges in order
to access PCS data from this procedure).
Provides stream flow and pipe discharge data for
a user specified stream reach.
Allows the user to retrieve facility data,
stream gages, and drinking water locations
upstream or downstream from a specified
location.
Provides daily flows or statistics to determine
the mean flow and 7Q10 low flow when the user
enters a gage number, state, and desired years.
Allows batch retrieval of flow data from STORET,
and performs calculations using the retrieved
data. This procedure calculates a biologically-
based receiving water design flow based on a
method developed by EPA in determining water
quality-based pollution controls.
3.3-4
-------�
Table 3.3-1
Water Quality Analysis System
Description of Procedures
(continued)
Procedure
Description
PCS/STORET Interface
SiteHelp
IFDPlot
Provides the user with the ability to analyze,
summarize, and report data from permitted
facilities in PCS, water quality stations in
STORET, stream flows, downstream water supplies,
bioassay results, indirect discharges to POTWs
and ASIUPCA results. (Users please note that
you must have PCS privileges in order to access
PCS data from this procedure).
Allows the user quick access to the IFD, Gage,
Water Supply, City, Complex Effluent Toxicity
Information System (CETIS), Reach Structure,
Reach Trace, and STORET Water Quality files.
Inquiries can be made using a USGS gage number,
water supply FRDS number, NPDES number, Dunn and
Bradstreet number, Needs Survey A/F number, city
name, or stream reach number. Various options
in SiteHelp provide reach data such as location,
length, flow and velocity. SiteHelp also
provides summary data on locations of gages,
industrial and nonmunicipal discharges, drinking
water intakes, surface- and ground water
monitoring stations. On graphics terminals, the
procedures display a reach trace with locations
of gages, dischargers, drinking water intakes,
monitoring stations and cities.
Provides the user with the ability to map
specified geographic areas and environmental
data using keywords and menus.
3.3-5
-------�
GRAPHICS
IBM's Graphical Display Data Manager (GDDM): The future of WQAS is
built on IBM system level graphics. This means that WQAS is not
constrained by the limitations of software from secondary vendors, and
that the graphics and images from VQAS can be transported across all
levels of supported IBM technology.
UNIRAS® Graphics: The WQAS software uses the UNIRAS software on the EPA
central computer to create device independent graphics. The graphics
created by UNIRAS can be exchanged between the EPA computer and high
performance standalone computers like those built by Sun Technologies
and Tektronix, Inc.
PRINTING
IBM's Advanced Function Printing: The WQAS software uses device
independent printing. The graphics, images, text and documents can all
be printed by the IBM Advanced Function Printing (AFP) software
supported on the EPA central computer network.
3.3.4 Future Applications Planned
The Agency understands that in the future environmental analyses will be
done less on a national scope and more on a regional, or stream segment
extent. A good example of this is the ongoing Section 304(1) analysis, which
is mandated by Congress to determine stream segments that currently do not
meet local water quality standards, or are projected not to meet these
standards after all technology-based limitations are in place. In order for
local jurisdictions and permit writers to make judgments about site-specific
water quality issues, they must have the ability to perform sophisticated
analyses to determine the most cost-effective measures for controlling
pollutant discharges.
3.3-6
-------�
The Agency is currently striving to improve its data systems with better
analysis tools and more detailed data bases. One example of this is the
current effort underway by the AWFD to add more reaches to the Reach file
system. At present, there are approximately 72,000 river reaches in the
system, but this does not include all of the streams that receive point
sources discharges under the NFDES system. Using USGS's Digital Line Graph
(DLG) data, AWPD intends to add 55,000 more reaches to the system, allowing
analyses on the smaller tributaries that were not in the system before.
In addition to modifying the Reach file, the DLG data will be used to
support Geographic Information Systems (CIS) such as ARC/INFO, with needed
data to permit analyses of areas ranging in size from a small drainage basin
to the entire Ohio River valley. EPA is also in the process of developing
procedures for translating data from the IBS data files for use in GISs.
3.3.5 Sources of Data
As was described under Section 3.3.2, many different data files make up
the WQAS IHS files. Each file was initially conceived in the latter part of
the 1970s and early '80s, and has been constantly updated since then. Table
3.3-2 describes the initial sources of the data for each data file and the
sources used for subsequent updates.
3.3.6 Examples of Use of Outputs
To access any or all of the WQAS procedures the user will need to be a
STORET recognized user. This simply means that his computer USERID will be
added to the list of other users that can access the general STORET command
listing. For more information on this and to register, the user should
contact STORET User Support at (202) 382-7220.
3.3-7
-------�
Table 3.3-2
Sources of Data for WQAS IMS Files
IHS File
IFD
co
CO
i
00
Stream
Gage/Flow
File
Sources of
Initial Data
The initial data sources were
the National Pollutant
Discharge Elimination System
(NPDES) files, Permit
Compliance System (PCS), and
the Survey of Needs for
Municipal Wastewater Treatment
Facilities (1978 Needs
Survey).
The initial data sources were:
1) the National Water Data
Exchange (NAWDEX), 2) the
Master Water Data Index
(MWDI), 3) the Basin
Characteristic File (BCF), and
4) the STORET Flow File (USGS
Daily Value Flows).
Sources of # of
Update Data Reds.
The IFD file is constantly 8.5X106
updated with data from a
variety of sources. The PCS
system remains a very good
source of discharger
information. Indirect
discharger data have been
supplied by the Office of
Toxic Substances and the
Permits Division. Surveys
done during the development of
effluent guidelines have also
supplied data on direct and
indirect dischargers.
The STORET Flow File remains 36,514
the major source for updates
to this data file.
-------�
Table 3.3-2
Sources of Data for WQAS IHS Files
(continued)
IHS File
Drinking
Water
Supply
File
co
•
CO
Sources of
Initial Data
Both the STORET system and the
Inventory of Public Water
Supplies (1963) provided
initial information on
utilities serving populations
greater than 25,000. The
Office of Drinking Water
provided access to the Federal
Reporting Data System (FRDS),
which was the source for
utilities serving a population
less than 25,000. The
locations of all utilities
were verified in 1979 and 1980
by contacting facilities
greater than 25,000 population
by phone, and all others using
maps.
Sources of
Update Data
The Office of Toxic Substances
has added new utilities to the
system, and modified existing
ones.
# of
Reds.
5,758
-------�
Environmental Data Display Manager (EDDM)
This is Che newest member of the WQAS family of programs. It allows the
user, who is running in full-screen mode and all points addressable (APA)
graphics to access water information from a variety of data sources and
display them in a graphical format. These data sources include:
- Industrial Facility Discharge (IFD) file
- Stream Gage/Flow File
- STORET Water Quality File
- Drinking Water Supply File
- Reach Trace File
The user begins the EDDM session by typing WQAB EDDM at the TSO "Ready"
prompt. At this point the program is executed and a screen similar to Figure
3.3-1 is displayed. The user has the option of requesting the data by:
- Reach number, or
- City name and state, or
- NPDES number, or
- Reach name and state
Once the program has retrieved the appropriate reach and facility data,
a screen such as the one shown in Figure 3.3-2 is displayed for a river. An
example of a display of a lake is shown in Figure 3.3-3. The city locations
are noted by name, and location of various points of environmental
significance are shown with different symbols as noted on the right.
Cursor movement throughout the EDDM session can be accomplished by using
either a "mouse" or "puck" and selection is accomplished using the "select"
button. If there is no mouse available, then the cursor keys can be used for
movement, and the "enter" key is used for selection.
More detailed information pertaining to the various landmarks can be
obtained by placing the cursor over the point in question and pressing the
"select" or "enter" button. This information is displayed at the top of the
3.3-10
-------�
US ENVIRONMENTAL PROTECTION AGENCY
ASSESSMENT AND WATERSHED PROTECTION DIVISION
WATER QUALITY ANALYSIS BRANCH
WELCOME TO THE WATER QUALITY DATA DISPLAY PROGRAM
ENTER A-VALUE FOR ONE OF THE FOLLOWING ITEMS
REACH NUMBER:
CITY NAME: Chicago AND STATE: il
NPDES NUMBER:
REACH NAME: AND STATE:
PF4 OR PF16 TO RESPECIFY INPUT VALUES
PF3 OR PF15 TO EXIT
ENTER TO CONTINUE
Figure 3.3-1
3.3-11
-------�
5020005001 MONONGAHELA R 17.3 MILES TYPE: R
WESTERN PENNSYLVANIA MONONGAHELA RIVER I 557000
PA00Q4273 DUQUESNE SLAG PRODUCT CO SIC: 3295
USGS030S4500 TURTLE CREEK AT TRAP
I.TT: BURGH
CREEK
RflFFORD
PENN TWP
ETTE CITY
EN ft VISTfl
UTERSVILLE BORO
+ = INDUSTRY
* = PQTW
@ = SuPERFUND
* = CITY
. = WQ STATION
% = GAGE
& = WATER SUPPLY
DOWNSTREAM 05030101014 UP LEFT: 0502000b001 UPRIGHT: 05020005002
LATITUDE: 40.4119 LONGITUDE: 7q.H427
REQUEST WAS MADE BY: REACH NUMBER
Figure 3.3-2
3.3-12
-------�
701020b008 L MINNETQNKA 4b.3 MILES TYPE: L
MN0025127 ST PAUL-VICTORIA SWG TRT PLT SIC: 4952
ZlniNlML 27-0133-01 LAfcE: rtlNNE7QN
-------�
screen. For NPDES dischargers, the information will be: the NPDES number, the
facility name, and its primary SIC code number. For water quality and gaging
station locations the information displayed will be: the station
identification number and a brief locational description.
The EDDM system allows the user to zoom into certain sections of the map
for greater detail, or to eliminate clutter. The procedure that accomplishes
this is to hit the PA3 button which will bring up a menu at the bottom of the
screen. Function key PF5 is selected to zoom in. The user then creates a
rectangle around -he area that he wishes to zoom in on by selecting
theposition of t.ie lower left hand corner of the rectangle, hitting enter, and
"rubber banding" the box until it is appropriate, and hitting "enter" again.
To return to the original map scale the user simply pushes the PF3 key and he
is restored to the previous screen.
At any time the user may browse on-line water quality data from a
monitoring station. This is accomplished by selecting the station with the
cursor and hitting the PF5 key. This will bring up a monitoring station
summary table similar to the one shown in Figure 3.3-4. The screen will
display up Co 24 parameters at a time. To see more parameters the user simply
presses the FF4 key. If the user wishes to see a time series plot for a
specific parameter, he simply types in the appropriate parameter number in the
upper right-hand corner, and uses the TAB key to get to the year field and
enters the last two digits of the year in question. Hitting the "enter" key
will display a graph similar to the one shown in Figure 3.3-5. Hitting
"enter" again will return the user to the parameter listing screen and the
procedure may be repeated.
Exiting from this program is a simple procedure of hitting the PF3 key
which gets the user to the original data entry screen (Figure 3.3-1) and then
another entry of PF3 key will allow him to exit the program entirely once
confirmed.
3.3-14
-------�
WATER QUALITY DATA SUMMARY AGENCY: 21MINNL STATION: 27-0133-02
ENTER PARAMETER NUMBER: YEAR: PF3 TO END, PF4 TO CONTINUE
PARAMETER DATE RANGE VALUE RANGE OBS
FIELD IDEN
T ALK CACO
TOTAL N N
ORG N N
NH3+NH4-N TOT
N02-N TOTA
N03-N TOTA
PHOS-TOT
PHOS-DIS
CHLORIDE TOT
SULFATE SO4-T
TRANSP SECC
DPTH BOTAT SI
LAB IDEN
TURB HLG
COLOR PT-C
RESIDUE TOTA
TOT COLIMPN C
DO
BOD 5 DA
PH LAB
RESIDUE TOT V
RESIDUE TOT N
"'SIDUE VOL N
29
410
600
605
610
615
620
665
666
940
945
78
81903
8
71
80
500
31505
300
310
403
505
530
535
490521
490521
490521
490521
490521
490521
490521
490521
490521
490521
490521
530811
530811
581230
581230
581230
581230
581230
581231
581231
581231
581231
581231
581231
881019
810916
770721
810916
810916
780920
780920
820921
810914
810916
770802
881019
820921
841023
590814
810916
590811
590814
820921
780920
810916
590811
800808
800808
100.000
120.000
0.204
0.010
0.000
0.001
0.004
0.005
0.000
1.000
0.100
0.000
33.000
1215.000
5.000
5.000
190.000
20.000
0.000
1.300
7.100
80.000
3.000
2.000
4603.000
160.000
1.200
2.630
5.040
0.560
0.620
0.540
0.035
64.000
16.000
6.096
97.000
128978.000
40.000
25.000
730.000
790.000
12.400
5.000
9.000
130.000
10.000
10.000
1017
35
12
62
164
25
32
241
14
41
31
313
44
90
17
55
11
18
681
12
46
3
5
5
Figure 3.3-4
3.3-15
-------�
OXYGEN, DISSOLVED
21TXWQB 04040020
LflKE Q1 THE PINES e US 259 R CHflNNEL
MG/L
10-1
8-
o
h —
c.
o
2_
Jf
IN re
^
:B Mf
1
)R flf
N^.
=R rif
I/
IY Jl
^
JN Jl
iq
^
JL fll
88
""
JG S!
^
:P
/
0(
7
:T NC
^
]V DC
^
:c ji
3N
Figure 3.3-5
3.3-16
-------�
PCS/STORET Interface (IPS)
The PCS/STORET interface is an interactive program that, as its name
implies, allows a"user to access both the Permit Compliance System (PCS) and
the STORET data base. In addition, other data files are also accessed at the
same time:
- IFD
- Stream Gage/Flow File
- CETIS
In order for the user to access PCS, he must be a registered user of
PCS. Please contact Dela Ng at (202) 475-8323 for information about this. It
is not mandatory that a user be a registered PCS user to use this program, but
some of the PCS-related reports will be inoperable if he is not registered.
To begin to access the IPS program the user simply needs to type "WQAB
IPS5" at the TSO "Ready" prompt. At this point a screen similar to the one
shown in Figure 3.3-6 is displayed. The user then is prompted for the output
file where an echo of the terminal session will be placed. Users can list
this file to a printer for a hard copy output. If the output file already
exists, the system prompts the user to replace it. When the user enters NPDES
number, information from the IFD file is echoed. The program is menu-driven.
and an example of the menu is given in Figure 3.3-6. The following Figures
show outputs from the various reports:
Figure Report
3.3-8 Basics
3.3-9 Limits
3.3-10 DMR
3.3-11 Indirect
3.3-12 Form 2C
3.3-13 Bioassay
3.3-14 Receiving stream characteristics
3.3-17
-------�
Figure Report
3.3-15 Drinking water supply downstream
3.3-16 Analysis - Facilities on reach
3.3-17 Analysis - Water Quality inventory
3.3-18 Analysis - Dilution Ratio
3.3-18
-------�
LI--S:;
ATTt-nPliNG tNTRY TO WATER QUALITY ANALYSIS
BRANCH SOFTWARE PACKAGE - IPS5
* * *
WELCOME TO IHS/PCS/ST ORE! INTERACTIVE RETRIEVAL PROGRAM
T* " ™
MAJOR liDKlWARL UPGRADES rtS GF SEPTEMBER V» 198/5
< L) FORM2C REPORT
12) DILUTION RAF 10 REPORT
I OR A I'OflHLh Ft LIST OF SOF TWARE UPGRADES REFEK TO UQAB HELPdPSS)
h'LEASE WAIT WHILE DATA FILES ARE ALLOCATED
ustR in: sbB HAS ACCESS 10 K:S DAIA I-OR THE FOLLOWING:
REGIONS 01 02 05 04 05 06 07 08 09 10
EN1I-R OUTPUT FILE NAME 'EX! OUII'UTJt II-.STHAT
-= --- !• ILL ALRLAHY EXISTS. • =-===
DULD YOU LIKE TO REPLACE ] T'' iY/N)t Y
ENTER NPDE'S UR REACH NUMBER: h!00.'.»926
htPORi HROM THE 1FD KILE:
MPDES NUMBER: hi0022926
DUN & BRADSTREET t: MID000874289
NEEDS A/F- NUMBER: 260411001
FACJLITY NAME: FLINT CITY OF
FACILITY sic CODE: 4952
&TORET BASIN: 2i/ 4
RECEIVING STREAM NAME 5 FLINT R
PLEASE WAIT WHILE PCS DATA IS ACCESSED
Figure 3.3-6
3.3-19
-------�
DO YOU UANT TO CONTINUE (Y/N): Y
THE AVAILABLE REPORTS ARE
1 = BASIC
2 - LIMITS
J *• I.IMK
A - INDIRECT
h - FHKM2C
6 - K10ASSAY
t ~ RECEIVING STREAM CHARACTERIS1ICS
8 = DRINKING WATER SUPPLY UOUNSTREAM
9 = ANALYSIS
SLLLCI A REPORT (1-9)1 4
Figure
3.3-7
3.3-20
-------�
»*»ii>ftiH»"t«M BASIC REPORT
NPDES NO. : AL00033&1 D«B NO. : ALD004007977
NAME : CLOU CCRP BIRMINGHAM
ADDRESS : 1600 NATIONAL ST
CITY : TARRANT CITY , STATE : AL • ZIP :
SIC CODE : 3321 GRAY IRON FOUNDRIES
RECEIVINS STREAM : FIVE MILE CR
REACH NO. : 03160111006 MILES : 2Z.66 MAJOR/MINOR BASIN : 339
TYPE : START REACH FACILITY STATUS: INACTIVE PHETREAT REQ: ?
Co
•
CO
I
ro
Figure 3.3-8
-------�
•>«»»**i>*"tft«N» LIMITS REPORT «»**«»******»
NPDES NUMBER: HV0000400
FACILITY NAME: FKC CORPORATION
RECEIVING STREAM: KANAMHA RIVER
REACH NUMBER: 05050008007
THE FOLLOWING DATA IS FROM PCS
THE PARAMETERS AVAILABLE ARE
TEMP
FLOW
5 DAY
TOT NFLT
C
AS,TOT
HEX-VAL
TOTAL
THE DATE INTERVAL IS: 600131 TO 670831
»»»» PIPE INFORMATION TO FOLLOW ««««
1 11
2 400
3 50050
4 310
5 530
6 665
7 680
6 1002
9 1032
10 32730
HAT'')
1.
CONDUIT
BOD
RESIDUE
PHOS-TOT
T ORG C
ARSENIC
CHROMIUM
PHENOLS
FAHN
SU
MGD
MG/L
MG/L
MG/L P
MG/L
UG/L
UG/L
UG/L
Co
•
CO
ro
r>o
NO PIPE DATA IN DESCRIPTIVE PARAGRAPH
SELECT ONE OF THE FOLLOWING PIPES:
901 A
901 B
902 A
ENTER PIPE NUMBER I EXAMPLE: 001 A):
901 A
LIMITS FOR: UV0000400
DATE
600131
FREQ:
600131
FREQ:
600131
FREQ:
600131
FREQ:
800131
FREQ:
800131
FREQ:
600131
600?3?!
PARAMETER
11 HATER
01/90
400 PH
99/99
310 BOO
01/07
S
VMLO: 436
S
VMLO: 436
N KG/DA
VMLO: 436
530 RESIDUE N K6/DA
01/07 VMLO: 436
665 PHOS-TOT N KG/DA
01/30 VMLO: 436
1002 ARSENIC N KG/DA
01/07 VMLO: 436
1032 CHROMIUM N KG/DA
CONCENTRATION
MIN AVG MAX
110.00
LBS/DAY
QUANTITY
AVG MAX
6.00
9.00
275.00
455.00
250.00
0.16
0.17
7.19
659.00
910.00
500.00
0.33
0.26
•0.89
Figure 3.3-9
-------�
NPOES NUMBER: AR0036512
FACILITY NAME: VERTAC CHEMICAL-JACKSONVILLE
RECEIVING STREAM:
REACH NUMBER: 08080205002
THE FOLLOWING DATA IS FROM PCS
THE PARAMETERS AVAILABLE ARE
1 400
2 550
3 680
4 940
5 34601
6 34621
7 34675
8 39740
9 50050
10 70295
11 39730
12 81396
13 61400
14 0
15 34586
16 34641
PH
OIL-6RSE
T ORG C
CHLORIDE
24DICHLO
246TRICH
TCDD
2.4, 5-T
CONDUIT
RESIDUE
2.4-0
ORGANIC
BIOASSAV
INVALID
2CHLOROP
4CHLOROP
TOT-SXLT
C
TOTAL
ROPHENOL
LOROPHEN
MHL SMPL
FLOW
DISS-ANY
NHL SMPL
COHPOUNS
TU1-24HR
PAR
HENOL
HENYLPHE
SU
MG/L
M6/L
MG/L
TOTHU6/L
TOTMUG/L
TOTHU6/L
U8/L
MGO
TEM.MG/L
U6/L
MG/L
PERCENT
NUMBER
TOTMUG/L
TOTMUG/L
CO
•
CO
l\3
CO
THE BEGINNING DATE IS: 841016
»»»» PIPE INFORMATION TO FOLLON ««««
I001A NEST PLT STRHUTR DRAINAGE TREATMENT CODE:NONE AVAILABLE
10019 BIOMONITORING TREATMENT CODE:NONE AVAILABLE
I002A DSCH6 FROM PRETRTMT SYSTEM TREATMENT CODE:NONE AVAILABLE
I003A EAST PLT UNCONTAMINATED STMHTR TREATMENT CODE:NONE AVAILABLE
I004A HEST PLT STRKHTR DRAINAGE TREATMENT COOEiNONE AVAILABLE
I005A TOTAL FACILITY DISCHARGE TREATMENT CODE:NONE AVAILABLE
SELECT ONE OF THE FOLLOWING PIPES:
001 A
001 9
002 A
003 A
004 A
005 A
ENTER PIPE NUMBER (EXAMPLE: 001 Al:
005 A
NO TREATMENT CODES AVAILABLE
DMR FOR: AR0038512
DATE PARAMETER
850430 400 PH
FRE9: 01/01
_ORG C
CONCENTRATION
MIN AV6 MAX
7.09 9.14
IBS/DAY
QUANTITY
AV6 MAX
851
LORIDE
VMLO: 000
ILO: 000
Figure 3.3-10
72.75
108.00
113.50
108.00
-------�
FREQ:
650430
FREQ:
850430
FREQ:
650430
FREQ:
850430
FREQ:
650430
FREQ:
850430
FREQ:
850430
FREQ!
650430
FREQ:
650531
FREQ:
850531
FREQ:
650531
FREQ:
850531
FREQ:
DATE
850531
FREQ:
850531
FREQ:
650531
FREQ:
650531
FREQ:
650531
FREQ:
650531
FREQ:
650630
FREQ:
650630
FREQ:
650630
FREQ:
850630
FREQ:
850630
FREQ:
850731
FREQ:
650731
FREQ:
650731
FREQ:
850731
FREQ:
01/30
34601 24DICHLO
01/07
34621 246TRICH
01/07
34675 TCOD
01/30
39740 2,4,5-T
01/07
50050 CONDUIT
70295 RESIDUE
01/07
39730 2i4-D
01/07
81396 ORGANIC
01/07
400 PH
01/01
550 OIL-GRSE
01/01
680 T OR6 C
01/01
940 CHLORIDE
01/30
PARAMETER
34601 24DICHLO
01/07
34621 246TRICH
01/07
39740 2,4,5-T
01/07
70295 RESIDUE
01/30
39730 2,4-D
01/07
81396 ORGANIC
01/07
34601 240ICHLO
01/30
34621 246TRICH
01/30
39740 2,4,5-T
01/30
50050 CONDUIT
39730 2,4-0
01/30
34601 240ICHLO
01/30
34621 246TRICH
01/30
39740 2,4,5-T
01/30
50050 CONDUIT
VMLO: 000
D
VMLO: 000
0
VMLO: 000
0
VMLO: 000
C
VMLO: 000
S
VMLO: 000
P
VMLO: 000
C
VMLO: 000
S
VMLO: 000
S
VMLO: 000
S
VMLO: 000
S
VMLO: 000
S
VMLO: 000
VMLO: 000
D
VMLO: 000
C
VMLO: 000
P
VMLO: 000
C
VMLO: 000
S
VMLO: 000
D
VMLO: 000
D
VMLO: 000
C
VMLO: 000
S
VMLO: 000
C
VMLO: 000
D
VMLO: 000
D
VMLO: 000
C
VMLO: 000
S
VMLO: 000
: 000
3.54
14.00
1.29
0.00
629.99
0.00
366.00
6699.99
0.50
5.62
70.22
14.00
1.29
0.00
629.99
0.02
366.00
6699.99
0.50
10.39
5.82
63.00
1755.00
CONCENTRATION
MIN AVG MAX
0.75
3.39
3399.99 3399.99
658.00
2299.99 2299.99
0.38 0.38
65.00 65.00
13.50 13.50
5299.99 5299.99
0.05 1.75
101000.00 101000.00
3.27
0.91
799.99
0.01 0.37
CONCENTRATION
AVG 1979^98
QUANTITY
AVG MAX
QUANTITY
AVG MAX
Figure 3.3-10 (continued)
-------�
*«»*«»«»»««»* INDIRECT REPORT iHnnmm-»**««*
NPDES NUMBER: MI0022926
FACILITY NAME: FLINT MMTP
RECEIVING STREAM: FLINT RIVER
REACH NUMBER: 04080204005
THERE ARE: 17 INDIRECT DISCHARGERS
DATA FROM THE IFD FILE OBTAINED FROM PERMIT
APPLICATION AMD HAT NOT BE COMPLETE.
(FLOW TGD = 1000 GALS/DAT, TYPE: P = PROCESS, C = COOLING, B = BOTH P * C
NPDES NAME
COURT METAL FNSH., INC.
CHEVY-TRUCK ASSEMBLY
FLINT ENGINE * METAL FABRICAT
M-C SPARK PLUG
MI0001074 GMC-CHEVROLET-FLINT MFC
MI0001147 GM/FISHER BODY DIV/FLINT
COURT METAL FNSH.. INC.
FLINT IND. PLATING, INC.
GM/AC SPK PLUG DIV.
GMC BUICK MOT. DIV.
GM/FLINT METAL FABRICATE PLT
GM/FISHER GUIDE PLT
G.M./HRHS ( DIST
6.M./TRUCK t BUS GP/FLINT
SIC FLOW (TGD) TYPE
3471 P
3714 2210.00 B
3714 500.00
3694 771.00
3714
3471 31.00
3471
3471 13.00
3471
3471
3471
3471
3471
3471 433.00
Co
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ro
en
Figure 3.3-11
-------�
II
**•«•<»»»»««**
FORM2C REPORT »»«)»»»«»»«««»
KPDES NUMBER: AL0003361
FACILITY KANE: CLOU CORP BIRMINGHAM
RECEIVING STREAM: RECV6 STRM-FIVE MILE C
REACH NUMBER: 03160111006
NPDES: AL0003361
>»» FORM2C SUMMARY TABLE >»»
REPORTED POSITIVE
Co
CO
ro
1 PESTICIDES 1 01 0
1 OR6ANICS 1 6S 1 0
1 DIOXIN 1 NO 1
1 1- CONVENTIONAL 5- REVIEH PRIMARY TABLE
1 2- METALS/CYANIDE 6- ANOTHER NPDES NUMBER
1 3- PESTICIDES 7- CODE TRANSLATION
1 4- OR6ANICS B- RETURN
CONVENTIONAL
PARAMETER. CODE, PIPE DESCRIPTION
310, BOD 5 DAY M6/L
340, COD HI LEVEL M6/L
400, PH SU
530, RESIDUE TOT NFLT ItS/L
550, OIL-6RSE TOT-SXLT M6/L
610, NH3*NH4- N TOTAL KS/L
74028, TEMP F WINTER PERMIT
1 1- CONVENTIONAL 5- REVIEH PRIMARY TABLE
1 2- METALS/CYANIDE 6- ANOTHER NPDES NUMBER
1 3- PESTICIDES 7- CODE TRANSLATION
1 4- ORGANICS B- RETURN
METALS/CYANIDE
PARAMETER, CODE, PIPE DESCRIPTION
927, MGNSIUH MS, TOT MS/L
1002, ARSENIC AS, TOT UG/L
1027, CADMIUM CO .TOT UG/L
1034, CHROMIUM CR.TOT UG/L
1045, IRON FE.TOT UG/L
1067, NICKEL NI. TOTAL UG/L
1092. ZINC ZN.TOT ' UG/L
1147. SELENIUM SE.TOT UG/L
1
1
1
1
1
1
1
VALUE
1.50
12.00
7.01
16.00
3.09
0.50
36.00
1
1
1
1
VALUE
3.22
29.99
1.99
7.99
399.99
19.99
79.99
69.99
Figure
3.3-12
1- CONVENTIONAL
5- REVIEH PRIMARY TABLE
-------�
II
CO
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ro
•VI
I 2- METALS/CYANIDE 6- ANOTHER NPDES NUMBER I
I 3- PESTICIDES 7- CODE TRANSLATION I
I <»- ORGANICS 8- RETURN I
ZERO POSITIVE VALUE REPORTED FOR PESTICIDES
I 1- CONVENTIONAL 5- REVIEW PRIMARY TABLE I
I 2- METALS/CYANIDE 6- ANOTHER NPDES NUMBER I
I 3- PESTICIDES 7- CODE TRANSLATION I
I 4- ORGANICS 6- RETURN I
ZERO POSITIVE VALUE REPORTED FOR ORGANICS
I 1- CONVENTIONAL 5- REVIEW PRIMARY TABLE I
I Z- METALS/CYANIDE 6- ANOTHER NPDES NUMBER I
I 3- PESTICIDES 7- CODE TRANSLATION I
I 4- ORGANICS 8- RETURN I
>»» FORM2C SUMMARY TABLE >»»
REPORTED POSITIVE
I CONVENTIONAL I 10 I 7 I
I METALS/CYANIDE I 16 I 8 I
I PESTICIDES I 01 01
I ORGANICS I 88 I 0 I
I DIOXIN I NO I I
I 1- CONVENTIONAL 5- REVIEW PRIMARY TABLE I
I 2- METALS/CYANIDE 6- ANOTHER NPDES NUMBER I
I 3- PESTICIDES 7- CODE TRANSLATION I
I 4- CRGANICS 8- RETURN I
***» CODE TRANSLATION «HHH»
I = AVERAGE CONCENTRATION
J = MINIMUM CONCENTRATION
K = MAXIMUM CONCENTRATION
M = AVERAGE LOADING (LBS/DAY DEFAULT)
P = MINIMUM LOADING ILBS/DAY DEFAULT)
Q = MAXIMUM LOADING (LBS/DAY DEFAULT)
t = MINIMUM CONCENTRATION (30 DAY)
! = MAXIMUM CONCENTRATION (30 DAY)
? = MAXIMUM LOADINS (30 DAY)
I 1- CONVENTIONAL
I 2- METALS/CYANIDE
I 3- PESTICIDES
I 4- ORGANICS
5- REVIEW PRIMARY TABLE I
6- ANOTHER NPDES NUMBER I
7- CODE TRANSLATION I
6- RETURN I
Figure 3.3-12 (continued)
-------�
»***«)» »»»»»* BIOASSAY REPORT *»I»»»)»»«KIHH»
NPOES NUMBER: HV0000400
FACILITY NAME: FHC CORPORATION
RECEIVING STREAM: KANAMHA RIVER
REACH NUMBER: 05050008007
to
•
CO
rv>
oo
Figure 3.3-13
-------�
«»»*»»**»«*» RECEIVING STREAM REPORT
REACH NUMBER: 05050006007
LENGTH : 7.3 MILES
DOWNSTREAM: 5050006 6 COMPLEMENT: 5050006 11
UPSTREAM LEFT: 5050008 6 UPSTREAM RIGHT: 5050009 1
>»»»»» GAGES ««««««
FLOMS(CFS) VELOCITIES! FPSI
MEAN 7-Q-10 MEAN LOW
ESTIMATED 14930.84 1390.23 3.21 1.27
MEG05050008007
USGS03200600 OFF
LITTLE SCARY CR
3.42
GKY05050008007 14525.00 1436.00 ON
KANAKXA R.
5.91
>»» ASIKPCA RESULTS <««
STATE: HV
. STEP REPORT (1972) NOT SUPPORTED 000.0 - 007.3
Co STEP REPORT (1982) PARTIALLY SUPPORTED 000.0 - 007.3
NPS REPORT (1965) MODERATE IMPAIRMENT 000.0 - 007.3
to
Figure 3.3-14
-------�
11
•ft********** DRINKING HAfER SUPPLY REPORT **»«»««*»*»»
NPDES NUMBER: NC0004910
FACILITY NAME: J P STEVENS STAKLEY PLT
RECEIVING STREAM: CATAHBA R
REACH NUMBER: 03050101012
FOR DRINKING HATER SUPPLIES UOUN STREAM FROM
THIS NPDES DISCHARGE, ENTER fHE DOWN STREAM
DISTANCE (NOT TO EXCEED 75 MILES!: 75
DISTANCE
DOWN
REACH NO. STREAM UTILITY NAME TYPE NAME
3050101012 R
3050101012 R
3050101012 R
3050101012 R
3050101012 R
3050101012 R
3050101009 R
3050101009 R
3050103037 R
3050103037 R
3050103037 R
7.3 CHARLOTTE-VEST STA
13.1 MT HOLLY
13.1 MT HOLLY
13.1 CHARLOTTE-VEST STA
13.1 CHARLOTTE-HCSKINS
13.1 CHARLOTTE-HCSKINS
24.3 BELMONT
24.3 BELMONT
43.7 SPRINGS FT WLL
43.8 CITY OF ROCK HILL
44.2 FORT MILL
I
P
I
S
I
S
P
I
I
I
I
MOUNTAIN ISLAND LAKE
TREATMENT PLANT
CATAUBA RI
CATAUBA RIVER
MOUNTAIN ISLAND LAKE
CATAUBA RIVER
TREATMENT PLANT
CATAUBA RIVER
CATAUBA RIVER
CATAUBA RIVER
CATAUBA RIVER
SERVED
POP.
330000
6000
6000
330000
330000
330000
15000
15000
2160
45525
5831
3050103018 R
3050103018 R
3050103018 R
3050103018 R
71.7 CHESTER MET H P
71.7 GREAT FALLS
71.7 FORT LAWN
71.7 SPRING MILLS-LAHCAST
I
I
I
I
CATAUBA AIVER
CATAUBA RIVER
CATAHBA RIVER
CATAUBA RIVER
18200
16100
16100
21000
3050103018 R
72.7 SPRINSS INDUSTRIES
I
CATAHBA RIVER
9150
Figure
3.3-15
-------�
II
***** ANALYSIS REPORT — FACILITIES ON REACH
NPDES NUMBER: NC0004910
FACILITY NAME: J P STEVENS STANLEY PLT
RECEIVING STREAM: CATAHBA R
REACH NUMBER: 03050101012
THERE ARE 9 FACILITIES ASSOCIATED WITH THIS REACH
FACILITIES HERE DETERMINED BY THE REACH NUMBERS FROM THE IFD FILE
THE FOLLOWING FACILITIES ARE ON THE REACH:
NPOES NUMBER FACILITY NAME MILES SIC FLOW (T6D)
NC0004138 SO TEX CHEM MOUNT HOLLY 2065 93.000
NC0004961 DUKE POMER-RIVERBEND STEAM 4952 546000.000
NC0022624 DUKE POWER-COHANS FOI!0 HYDRO 2252 3.000
NC0025224 CORNELIUS WV4TF 2512 110.000
NC0036277 CHARLOTTE-MCDOWELL CHEEK MHTP 3469 3000.000
NC0004375 MARTIN MARIETTA SODYtCO CHARLT 1.25 2251 1640.000
NC0004201 REEVES BROS CORNELIUS 1.67 3264 4.000
» NC0004910 J P STEVENS STANLEY I'LT 3.38 4911 42.300
NC0021156 MOUNT HOLLY IND kTP 4.33 4952 1200.000
CO
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CO
7if>ure 3.3-16
-------�
II
*««»» ANALYSIS 9EPOR1 — HATER QUALITY INVENTORY «***•
NPOES NUMBER: NC0004910
FACILITY NAME: J P STEVENS STANLEY PLT
RECEIVING STREAM: CATAHBA R
REACH NUMBER: 03050101012
THE FOLLOWING STATIONS FROM STORET ARE
DESIGNATED AS AMBIbNT - SURFACE HATER
THE STATIONS ARE RETRIEVED SOLELY BY REACH NUMBER
OTHER STATIONS MAY BE PRESENT THAT 00 NOT CURRENTLY
HAVE A REACH NUMBED ASSIGNED
REACH NUMBER: 3050101012
RECEIVING STREAM: CATAHBA R
AGENCY
STATION
CO
CO
CO
I\J
1 21NC01HQ C3930000
2 21NC01HQ C3920000
3 112MRD 02142808
4 21NC01M9 C3900000
5 21NC01U4 C3900000
6 21NC01HQ C3070000
7 HEPALES 371 1A1
8 HEPALES 3711A1
9 HEPALES 371101
10 HEPALES 371101
11 21NC01H9 C3820000
12 21NC01UQ C3750000
13 11135000 372010
14 1113SOOO 372010
15 IIEPALES 371102
16 112HRD 02142668
17 21NC01H9 C3699010
18 2INC01HQ C3699010
19 21NC01HQ C3699000
20 HEPALES 371103
21 2INC01HQ C3680000
22 2INC01HQ C3570000
23 21NC01UQ C3570000
24 21NC01HQ C3560000
25 IIEPALES 371 1A2
26 IIEPALES 371 1A2
27 1H3SOOO 372015
28 21NC01HQ C3550000
MILE
NAME
CATAkBA I! 3THE NT HOLLY WHIP
CATAkBA >! AT OLD MT HOLLY UTP
CATAkBA KIVER AT NC HHY 27 AT
CATAkBA DIVER S NC HHY 27 NR
CATAkBA I.'IVER a NC HHY 27 NR
DUTCKMANS CR AT MT HOLLY NC I
CATAkBA KIVER
CATAkBA KIVER
MOUNTAIN ISLAND LAKE
MOUNTAIN ISLAND LAKE
MTN ISLAND LAKE AB DAM N MT H
MTN ISLAND LAKE 2NC HHY 16 NR
CATAkBA I! AT NC 16
CATAkBA I! AT NC 16
MOUNTAIN ISLAND LAKE
CATAkBA KIVER AT CHARLOTTE MS
GAR CR SMOUTH NR PAH CR INACT
GAR CR aflOUTH NR PAH CR INACT
MTN ISLAND LAKE ABOVE GAR CK
MOUNTAIN ISLAND LAKE
MCDOkELLS CR SMOOTH NR HUNTER
MTN ISLAND LAKE BELOW DUKE PO
MTN ISLAND LAKE BELOW DUKE PO
MTN ISLAND LAKE NR LUCIA INAC
CATAkBA KIVER
CATAkBA KIVER
CATAkBA It AT NC 73
CATAkBA KIVER 3 NC HHY 73 NR
TO VIEW FACILITIES OR HATER DUALITY INFORMATION
HYDROLCGICALLY UPSTREAM CR DOWNSTREAM FROM SELECTED
FACILITIES, USE PROCEDURES: IttAB PATHSCAN OR STORET INDEX
« OBS
0.10
0.34
0.49
0.49
0.49
0.69
3.71
3.71
4.06
4.21
4.21
5.58
5.83
5.97
6.87
7.71
7.86
8.15
8.15
8.79
9.10
10.83
11.56
12.16
13.14
17.69
17.94
17.94
613
448
99
6752
0
683
97
0
247
0
1350
1760
105
0
139
10
1052
0
1143
115
1116
832
0
836
98
0
78
5856
3.3-17
-------�
»»*«« ANALYSIS REPORT -- DILUTION RATIO »*«*»
NPDES NUMBER: AL0003361
FACILITY NAME: CLOW CORP BIRMINGHAM
RECEIVING STREAM: RECVG STRM-FIVE MILE C
REACH NUMBER: 03160111006
FACILITY IS ON THE REACH
MILE POINT: 22.66
LENGTH : 33.1 MILES
DOWNSTREAM: 3160111 5 COMPLEMENT: 3160111 7
UPSTREAM LEFT: UPSTREAM RIGHT:
»»»>»» 6 A 6 E S ««««««
FLOWS(CFS) VELOCITIES(FPS)
MEAN 7-Q-10 MEAN LOW
ESTIMATED 161.15 0.01 1.19 0.28
WEG03160111006
USSS02457700 ON
^ FIVEMILE CREEK
Co
co USGS02457500 ~ ON
00 FIVEMILE C AT T
23.06
USGS02457000 35.06 5.31 ON
FIVEMILE CREEK
24.31
MEAN: 161.15 7-Q-10: 0.01
»«« NO FLOW DATA AVAILABLE IN PCS «»*
DISCHARGE FLOW (FROM IFD):
PIPE
1
FLOW (CFS)
0.446 P
DILUTION RATIO = (PIPE FLOH « STREAM FLOW I/PIPE FLOW
DILUTION RATIOS USING THE FOLLOWING FLOWS FOR THE REACH
MEAN (CFS): 161.153 7-Q-10 (CFS):
0.013
PIPE
1
MEAN
362.600
7-Q-10
1.028
FACILITY TOTAL
362.600
1.026
Figure 3.3-18
-------�
Reach Pollutant Assessment fRPA) program
The RPA program was developed to support the Clean Water Act Section
304(1) mandate for identifying stream segments that may not achieve compliance
with Water Quality standards after all technology-based limitations have been
complied with. This program was used in the development of the Section 304(1)
report done for each state.
Once the program has begun you will be prompted for yous selection
criteria, which will be either a USGS «• eht digit hydrologic unit code, or a
state F1PS code abbreviation. (Users cautioned that State retrievals for
large states may be very costly.) In tion the user will be prompted for
the name of the file that will be crea: . the bin or box and printer nu: *r
the Jobs will be routed to, the prioric =he jobs will be run at, and the CPU
time to be used (See Figure 3.3-19).
After specifying the selection criteria, the batch program will execute,
probably overnight, and the program will create the eight files shown in
Figure 3.3-19. These files may be listed at your terminal or can be printed
off line. Figure 3.3-19 shows an example of the terminal procedure for
accessing state information (in this case Delaware).
Figure 3.3-20 shows the sane terminal procedure with a request for a
cataloging unit. An additional question is asked for the cataloging unit
retrieval, which asks the user if he wants graphic output. If the answer is
"yes" then a file with the extension '.AUX' is created, which is the AUXFILE
input for the STORET plot program. The user may execute the program WQAB
RPLOT to get this plot output.
3.3-34
-------�
Example execution of RPA3 for a state
WQAB RPA3
ATTEMPTING ENTRY TO WATER QUALITY ANALYSIS
BRANCH SOFTWARE PACKAGE - RPA3
WELCOME TO REACH POLLUTANT ASSESSMENT PROGRAM
* * *
WOULD YOU LIKE TO ANALYZE A STATE OR CATALOGING UNIT ?
ENTER S (STATE) OR C (CATALOGING UNIT)
S
ENTER 2 CHARACTER STATE ABBREVIATION
DE
ENTER OUTPUT FILENAME
DE
ENTER BOX ID (EX: C809)
C809
ENTER EXECUTION TIME (MIN.SEC EX: 2,30)
10,0
ENTER PRIORITY (1-5)
1
JOB SBB(JOB00251) SUBMITTED
DE.FRM - REACH GENERAL AND REACH POLLUTANT SPECIFIC INFORMATION
DE.FRM2 - SUMMARY TABLE OF NUMERICALLY SORTED REACHES
DE.RCH - LIST OF REACH NUMBERS AND NAMES
DE.NPD - LIST OF NPDES NUMBERS AND NAMES
DE.WQS - SUMMARY LIST OF WATER QUALITY STATIONS
DE.WQF - DETAILED LIST OF WATER QUALITY STATIONS
DE.AUX - AUX FILE CONTAINING PLOT DATA FOR PGM=LOC
CREATED ONLY FOR CATALOGING UNIT IF GRAPHICS
OPTION IS INVOKED
DE.JCL - JCL WHICH IS SUBMITTED AS A BATCH JOB
WQAB RPLOT - SUBMITS BATCH JOB TO CREATE A PLOT
Figure 3.3-19
3.3-35
-------�
WQAB RPA3
ATTEMPTING ENTRY TO WATER QUALITY ANALYSIS
BRANCH SOFTWARE PACKAGE - RPA3
WELCOME TO REACH POLLUTANT ASSESSMENT PROGRAM
* * *
WOULD YOU LIKE TO ANALYZE A STATE OR CATALOGING UNIT ?
ENTER S (STATE) OR C (CATALOGING UNIT)
C
ENTER CATALOGING UNIT
4100002
DO YOU WANT GRAPHICS OUTPUT (Y/N)
Y
ENTER OUTPUT FILENAME
RAZ
ENTER BOX ID (EX: C809)
C809
ENTER EXECUTION TIME (MIN.SEC EX: 2,30)
10,0
ENTER PRIORITY (1-5)
1
JOB SBB(JOB00251) SUBMITTED
RAZ.FRM - REACH GENERAL AND REACH POLLUTANT SPECIFIC INFORMATION
RAZ.FRM2 - SUMMARY TABLE OF NUMERICALLY SORTED REACHES
RAZ.RCH - LIST OF REACH NUMBERS AND NAMES
RAZ.NPD - LIST OF NPDES NUMBERS AND NAMES
RAZ.AUX - AUX FILE CONTAINING PLOT DATA FOR PGM=LOC
CREATED ONLY FOR CATALOGING UNIT IF GRAPHICS
OPTION IS INVOKED
RAZ.JCL - JCL WHICH IS SUBMITTED AS A BATCH JOB
WQAB RPLOT - SUBMITS BATCH JOB TO CREATE A PLOT
Figure 3.3-20
3.3-3&
-------�
The outputs derived from the RPA program are displayed in the following
figures:
Figure Description
3.3-21 *.FRM, reach general and reach pollutant
specific information
3.3-22 *.FRM2, summary table of numerically
sorted reaches
3.3-23 RFA map plot output
3.3.7 Complete Documentation
Complete documentation for the WQAS systems may be obtained from:
Phillip Taylor
U.S. EPA (WH-553)
Assessment and Watershed
Protection Division
401 M Street, SW
Washington, DC 20460
Phone: 8-382-7046 (FTS)
(202) 382-7046 (Commercial)
3.3-37
-------�
I I
REACH GENERAL INFORMATION
REACH = 11140302003
Name = DAYS CR
Length = 22.4
Type = S
Direct Industrial Dischargers
Total Priority Industries 1
Nith priority pollutant limits (PCS) 0
with bioassay requirements (PCS) 0
Total Other Industries 3
with bioassay requirements (PCS) 0
POTM Dischargers
Total POTMs 2
with priority pollutant limits (PCS) 0
with indirect discharge industries (IFD) 1
ASIHPCA RESULTS
State: AR
<•* Non-Point Source (1985) Threat Impairment 000.0 - 012.0
Oo
Co
Figure 3.3-21
-------�
REACH POLLUTANT SPECIFIC INFORMATION
REACH = 11140302003
DAYS CR
Pollutant
Obs. in STORET 1
3 MQ Stations
D«t. N.D.
No. of India. No. of Indus. Projected No. Projected No.
Limited in Monitored in Priority Indus. Priority Indus.
PCS I 0)2 2(c) ( 0)2 ISS-Direct I 1)2 ISS-Indirect I 1)2
Aldrin
Alpha-BHC
Beta-BHC
Gamma-BHC
Delta-BHC
Chlordane
ODD
DDE
DDT
Dieldrin
Alpha-Endosulfan
Endosulfan sulfate
Endrin
Endrin aldehyde
Heptaehlor
Heptachlor epoxide
Toxaphene
Ant i mony
Co Arsenic
^ Beryllium
i Cadmium
*g Chromium trivalent
Chromium total
Copper
Cyanide
Lead
Mercury
Nickel
Selenium
Silver
Thallium
Zinc
PCB-1016
PCB-1221
PCB-1232
PCB-1242
PCB-1248
PCB-1254
PCB-1260
Chloronethene
D i chloromethane
Tr i chloromethane
1>111-Tr i chloroethane
111>2-Trichloroethane
Tetrachloroethen*
Benzene
11214-Tr i chlorobenzene
Hexachlorobenzene
fthvlbenzene
oluene
S. U
S, H
H
S. H
H
H
S. H
S, U
H, S
H, S
U
H
U, S
U
H
H
S. H
S, H
S, M
S. H
S. H
S
Figure 3.3-21(continued)
-------�
TABLE 2. SUMMARY OF NUMERICALLY SORTED REACHES WITH PRIORITY POLLUTANT SOURCES
AND MATER QUALITY STATIONS IN CATALOGING UNIT 1000205
00
CO
I
REACH
Seg.
Cat. Unit No.
Ill (2)
1060205 001
005
006
009
013
014
019
020
021
022
OZ3
02*
025
026
027
029
Total
Water Quality No. of No. of Ind. Facilities
Length Stations Direct Mith Priority
Miles REACH Name H/P.P. Total Disch. Pollutant Discharge
(3) (4) (5) C6I (7) (8) (9)
2.4 CONNECTICUT R
4.9 CONNECTICUT R
4.0 CONNECTICUT R
4.9 CONNECTICUT R
3.1 SALMON R
5.0 SALMON R
4.6 *D
4.2 POTOCOPAU6 L
15.0 CONNECTICUT R
9.0 CONNECTICUT R
10.0 «E
9.7 CONNECTICUT R
11.1 HOCKANUH R
6.2 "F
8.3 HOCKANUM R
7.0 CONNECTICUT R
0
0
0
2
1
1
0
0
2
0
0
1
1
0
0
3
0
4
1
8
1
2
0
0
24
2
3
5
16
1
6
11
2
2
4
2
0
0
3
1
3
6
1
6
7
1
5
19
AUTO I OTHER LAUND
ORGANIC CHEMICALS
METAL FINISHING
PLASTIC MOLDING •
ORGANIC CHEMICALS
METAL FINISHING
STEAM ELECTRIC
FOUNDRIES
PLASTIC MOLDING 1
METAL FINISHING
PHARMACEUTICALS
STEAM ELECTRIC
METAL FINISHING
METAL FINISHING
COIL COATING
ORGANIC CHEMICALS
METAL FINISHING
TEXTILES
METAL FINISHING
METAL FINISHING
PLASTIC MOLDING •
METAL FINISHING
ALUMINUM FORMING
STEAM ELECTRIC
11 METAL FINISHING
1 IRON I STEEL
2 FOUNDRIES
Total Indirect No. of POTU
No. of Discharge without Other
POTHs to POTM Ind. Oisch. Indus t. Disch.
(10) (11) (12) (13)
1
0
0
0
0
0
0
0
0
3
0
2
2
0
1
1
0
0
0
0
0
0
0
0
0
5 METAL FINISHING
0
4 METAL FINISHING
1 OTHER
0
0
2 TEXTILES
1 ALUMINUM FORMING
0
1
0
0 1 COMMERCIAL PRINTIN
0
0
0
0
0
0 1 HATER SUPPLY
2 1 PAVING MIXTURES AN
0
0 1 HATER SUPPLY
2 1 HATER SUPPLY
1 CONVERTED PAPER PR
0
0
1 1 STEAM SUPPLY
1 HATER SUPPLY
Figure 3.3-22
-------�
U' 1
f . A
Figure 3.3-23
M
rr,
c_
00
CJ
CO
UJ
x:
LO
in
CO
• -- H
CJ
I
*»
»- N-
CO
*'-x
CJ
•\
CJ
K-
s-
ro
ro
CO
o
o
LJ
no
STORCT SYSTEM
' tim
"'^"fiii iSMii *^
oo
CO
UJ
o.
o-
-
-------�
Section 3.4
Reach File
if
o
U)
-------�
3.4 REACH FILE
3.4.1 BACKGROUND
The first version of the Reach File ("RF1") was released in 1982. This
version was installed on the EPA IBM mainframe computer. RF1 contained 68,000
Reaches covering the 48 states in the continental U.S. There are over 650,000
miles of streams and shorelines in RF1 with detailed line traces based on
1:500,000 scale maps. Over the years, RF1 was linked into STORET so that
standard STORET retrievals and maps could be generated using the RF1. Several
databases were tied to the RF1 including STORET Stations, IFD facilities, and
GAGES. Modeling software has been built around the RF1 database, including
the Routing and Graphical Display System (RGDS) and a national dissolved
oxygen model for the NEEDS Survey of Construction Grants.
The second version of the Reach File ("RF2") was released in 1988. The RF2
contains approximately twice as many streams as the RF1. The data for the new
streams came from the USGS Geographic Names Information System (GNIS), which
contains every named feature on the 1:24,000 topographic maps. The RF2
adhered to the same data design and layout as the RF1 and is completely
compatible with RF1; all data linked to RF1 is also linked to RF2.
The RF2 does not contain detailed line traces. Detailed traces from the USGS
1:100,000 scale Digital Line Graph database (DLG) will provide the detailed
traces for RF2. The RF2 version with the DLG traces is referred to as
"RF2.5". RF2.5 should be considered an interim step in the Reach File
development process.
A full, or as full as is practical, incorporation of the DLG into the Reach
File is referred to as Reach File version 3 ("RF3"). The RF3 will include
overlaying the GNIS data for stream and lake names. RF2.5 and RF3 are
currently under active development.
3.4-1
-------�
3.4.2 DESCRIPTIONS
The USEPA River Reach File is a national database of streams, lakes,
reservoirs, and shorelines. The whole point of the Reach File is to provide
central, standardized means for identifying, organizing and analyzing surface
water information. The key characteristics of the Reach File are:
1. National coverage with unique identifiers for any surface water
feature in the database.
2. Contains names and latitude/longitude coordinates for reporting and
mapping.
3. The streams, lakes, and reservoirs are connected in hydrologic order
so that surface water databases such as STORET, DRINKS, GAGE, PCS,
FISHKILLS, and IFD can be linked to one another.
4. Streamlined routing methods are an inherent capability and provide
the ability to interface with computer models.
5. It can be updated with new Reaches to virtually any level of detail
desired.
Reach File Design Criteria
The Reach File is designed as a surfac-. *rater Geographic Information System
(CIS) with hydrologic routing and modeling capabilities. The approach is to
design and implement a database of surface waters and then build the data
retrieval, update, analysis, and mapping components. The criteria used for
the Reach File design include:
1. Any surface water feature can be uniquely identified via a numeric
code, or alternative codes. This unique identification must be
applicable throughout the U.S. There must a standard numeric code
that can uniquely identify any point or length of surface water.
2. The surface water elements must be divided into a discrete number of
entities with one record per entity. These entities should permit
logical subsetting of the database and sequential processing of
records for the primary database operations.
3.4-2
-------�
3. The database can be updated and added to without changing the unique
identification code(s). The unique identification coding must be
designed so that other surface water related databases can contain
indexes to the Reach File and these indexes will remain stable.
4. There must be routing and hydrologically based retrieval capabilities
built into the database. The connectivity of the surface water
elements in the Reach File as well as flow direction must be included
in the database design.
5. Geographic coordinates are required for locating Reaches, indexing
other databases, and mapping.
6. The names of the streams, lakes, and reservoirs need to be included.
Names are the primary method that people use to identify surface
waters so it is critical that these names be included in the
database.
Reach File Design - Data Element Definition
The Reach File database data element definition is logically constructed in
response to the six design criteria.
1. The unique identifying number is a hierarchical numeric key. There
are three components to this number:
a. Cataloging Unit (CU) - The CU is an 8-digit numeric code that
identifies a specific watershed in the United States. CU is a
numbering system implemented by USGS and it has been accepted as a
F1PS standard. The CU number is in itself a 4-level hierarchical
numbering system with 2 digits per level.
b. Segment Number (SEG) - The SEG is a three-digit number that is
assigned to a stretch of stream or shoreline within a CU. The
"CU-SEG" uniquely identifies a particular stretch of stream or
shoreline.
c. Milepoint (MI) - The MI refers to a point on a segment as measured
from the downstream end of the "CU-SEG".
The "CU-SEG-MI" uniquely identifies any point along any stream in the Reach
File, CU-SEG-MI serves as the primary key for the database itself as well as
indexing data to the Reach File.
This hierarchical key readily permits hydrologically based subsetting of the
database on the bases of watersheds, stream segments, and points along
segments.
3.4-3
-------�
2. The discrete entity in the Reach File is a "Reach". A Reach defines
a surface water unit (stream segment, shoreline) that traverses the
stream network between junctions. The primary identifier for the
Reach is ^the CU-SEG-MI. The MI value is the point at the downstream
end of the stream, when a Reach is added to the file and breaks into
the CU-SEG then the original Reach is broken into two Reaches. These
two Reaches have the same CU-SEG. The downstream Reach has a HI of
zero and the upstream Reach has the MI that defines the point of the
breaking. The new stream is given a new unique CU-SEG.
3. There are some important implications of this Reach discretizing and
numbering system:
a. Once a stretch of stream is assigned a CU-SEG, that stretch of
stream retains the same CU-SEG even though it may be physically
broken into several Reach records in the database.
b. The CU-SEG-MI serves two functions in the Reach File, it is the
primary database key and it is the key identifier of any
particular point in the Reach File.
c. Once a point is identified in the Reach File,such as the CU-SEG-MI
of a STORET station, it can always be readily tied to the correct
Reach record no matter how many times the Reach record is broken.
The proper Reach record has the CU-SEG-MI key that is less than or
equal to the CU-SEC-MI assigned to the station.
d. Reach lengths and distances along Reaches are an inherent
component of the indexing system. Reach lengths need to be
stable. If these lengths and distances are to be updated then the
associated CU-SEG-MI database keys MUST also be updated.
4. The routing and hydrologic retrieval capabilities have been carefully
designed in the Reach File. These capabilities permit hydrologic
traversal through the network on a Reach-by-Reach basis so that at no
time does more that one Reach record need to be loaded into
application software. This is a unique and powerful capability
because most other routing techniques require loading the entire
network into arrays.
PC Reach File
The PC Reach File (PCRF) is a software package that allows users to perform
Reach File operations from their own terminals or microcomputers. Programs
have been developed for the mainframe that allow users to download portions of
the Reach File from the NCC mainframe to a PC. The PCRF programs then allow
3.4-4
-------�
users to Interact with the Reach File and create hydrologic and numeric Reach
File directories, create maps, and designate waterbodies. PCRF also has a
password protected update mode that permits modifying and editing of the Reach
data. This update mode is protected to ensure Reach File database integrity.
PCRF was originally developed for interactively adding Reaches to the Reach
File and editing Reach File traces. It was used on a national scale to
perform the 1988 Reach File update. The programs are easy to use and will be
a valuable tool for States to use to correct and update the Reach File. The
PCRF update programs are currently not available for the State or Regional
use. The Reach File is being updated by EPA Headquarters using the USGS
1:100,000 scale topographic map data. This work should add many of the
features that State users find missing in the current file. Once the update
is completed, further corrections and enhancements to the Reach File will be
handled by the States using PCRF. The PCRF Reach file update programs will be
provided on a case by case basis in agreement with Phill Taylor of EPA.
The current PCRF system is being used by Headquarters, States, and Regions to
interact with the Waterbody System by assigning Reaches to 305(b) waterbodies.
Enhancements to the PCRF programs have been developed to allow users to view
the Reaches in one or several cataloging units, then use a mouse to
interactively designate waterbody locations and store the location information
in their waterbody system data files. PCRF is also being used in conjuction
with the WBS reporting system to create PC based waterbody maps.
The Waterbody System is currently utilizing Reach File 2, the 1988 edition of
the Reach File. Waterbody system programs will shift to RF3 when it is
available.
3.4.3 CURRENT STATUS
It has been recognized that the scope of Reach File uses is dependent upon the
number of streams, lakes, and reservoirs that are in the file. For instance,
RF1 is sufficient for most National-level analyses as well as some Regional
3.4-5
-------�
and State uses. RF2 is adequate for more Regional and State-wide uses such as
305(b).
The goal of the Reach File is to provide enough coverage across the country to
satisfy most National, Regional, and State needs. This means that first, the
Reach File must be significantly expanded, second, there must be in place the
ability for users to expand the Reach File, and third, there must be
development and support for Reach File usage. The current Reach File
activities are focused on these three items:
1. The Reach File update databases, software, and procedures are being
put in place NOW. Demonstrations of the update capabilities are
included in this Forum.
2. The Reach File update systems are being designed so that the update
processes can eventually be turned over to users for performing their
own updates.
3. Several systems are available for Reach File users. These systems
include STORET, the Reach File Management System (RFMS), PCRF, and
RF2MAF. Figures 3.4-1 through 3.4-6 show example input screens from
the RFMS. Figure 3.4-7 shows a RF2HAP example.
3.4.4 Complete Documentation
Complete documentation of the Reach File may be obtained from:
Phillip Taylor
U.S. EPA (WH-553)
Assessment and Watershed
Protection Division
401 H Street, SW
Washington, DC 20460
Phone: 8-382-7046 (FTS)
(202) 382-7046 (Commercial)
3.4-6
-------�
Figure 3.4-1
REACH FILE MANAGEMENT SYSTEM fRFMSl
The Reach File Management System (RFMS) is a group of programs for
accessing the Reach File. The RFMS resides on the NCC IBM mainframe
computer. All of the programs are run via full-screen data entry
panels. The primary focus of the RFMS is the Reach File version 2
(RF2) although access is also provided to the Reach File version 1
(RF1).
The RFMS main menu is shown below. There are 9 programs currently
available. Brief overviews of these programs are provided on the
following pages.
PEriCri FILE MHSTEP P1EMU
COrtHHHD ===
1 RFOIR HYDRO
2 RFOIR ALPHA
3 RFOIR NUMERIC
4 RFOIR CUSTOM
5 RF1 LISTER
b RF2 LISTER
7 FEATURE FILE
3 RE6ION HATCH
? RF2 HAP
r. EXIT
Reach File Directory in H', :.-ologic order
Reach File Directory in Alphabetic order
Reach File Directory in Numeric order
Reach File Directory 'design your ow«'
PF 1 Subset Lister
RF 2 Subset Lister
PF Feature File Lister
Peach File Hatch Program
PF2 Hap Haker
return to SPF main aenu
3.4-7
-------�
Figure 3.4-2
RFACT FTT.E nTPPCTORIES
RFMS Options l, 2, 3, and 4
Options 1, 2, 3 and- 4 are used for generating Reach File Directory
listings. The most common use of these options is to produce state-
wide RF2 Directories. Directories can also be produced using other
criteria. The input Reach Files can be generated using options 5 or 6
so that the Directories will reflect the subset criteria used in
generating the files.
REACH FILE DIRECTORY MAKER HVDRO
COMMAND ==>
BIN ===> C812 JOB TIME ===> 10 (Default) PPI »ITV ==> 1 (Default)
FILE FORMAT ===> r*2 (RF1 or RF2)
INPUT DSNAME ===> r^?041.a2'MOOv3.rf2Iis' (BUnlr to use RF LISTER or
or STATE CODE)
INPUT STATE CODE ===>
CREATE STORET FILE ===> N (V/N)
LINESIZE ===> 132 (80 or 132)
TITLE 1 ===> USEPA RIUEfi' REACH FILE
TITLE 2 ===> HVDRQLOGIC DIRECTOR1/ L;JT>J
TITLE 3 ===> Winoos^ B?5i •-.
FOOTNOTE ===> U.S. ENUIPQNMENTAL PROTECTION H&ENCV
SORT ORDER ===> SEQHO
ID UARS ===>
PRINT UARS ===> ULAT i'LO»i 5E5L FULL^NE CU JE6 MI H'.DPOP
SUBST CRIT ===> IF PFL-1S = T
ENTER TO SUBMIT END
-------�
Figure 3.4-3
REACH TTT.F SUBSET MAKER
RFMS Options 5 and 6
Options 5 and 6 will generate files with user-specified subsets of the
RF1 and RF2 respectively. A common use of these options is to produce
files for making Directories. Another common use is to make RF2 subset
files for use in PC Reach File (PCRF). RF1 and RF2 files can be made
for a single State or a group of states. For instance, an RF2 file can
be made for all of the States in EPA Region I and then options 1, 2,
and 3 can be run to produce Regional Reach File Directories. Also, the
RF2 file could be used by the Region for their own analyses.
REACH FILE RF2 SUBSET LISTER
COMMAND ==>
BIN NUMBER ==> C812 JOB TIME ==> 10 (Default)
PRIORITY ==> 1 iLifault)
DSNAME ===> a20looo3 (For Output File)
CREATE CU BOUND FILE ==> v ( V es / N o)
NOTE: CU BOUND FILE MILL USE SAME OSNAME AS 6POUP AND CUBOUNO AS TYPE.
ENTER AT LEAST ONE CU SPECIFICATION OR STATE (Other fields Optional)
CU SPEC (2-8 Nun) PRIMARY NAMES (1-30 Chars) STATES <2 char)
==> 0£'010003 ==> ==>
==> ==> ==>
==> ==> ==>
==> ==> ==>
==> ==> ==>
==> ==> ==>
==> ==> ==>
==> ==> ==>
==> ==> ==>
=-> ==> ==>
ENTER TO SUBMIT ENDcPF 3) TO CANCEL PF 1 FOR HELP
3.4-9
-------�
RFMS Option 7
Option 7 generates files of named hydrographic features that are not
currently in the Reach File. The option was originally developed to
streamline Reach File updating with PCRF. The current updating
activities with the DLG data have largely supplanted the need for this
option.
REACH FILE FEATURE FILE LISTER •
COMMAND =='
BIN NUMBER ==> C812 JOB TIHE ==' 10 sfault)
PRIORTV ==) 1 -I'-fauit)
OSNAHE ===- (For Output File)
ENTER AT LEAST ONE CHTHLQGIHG UNIT (Multiple CU's Bust be for saae region)
CATALOGING UNIT ===v (All 8 positions required)
ENTER TO SUBMIT EHD-PF 3- TO CANCEL PF 1 FOR HELP
3.4-10
-------�
Figure 3.4-5
REACH PTT.B MATCH
RFMS Option 8
Option 8 will perform an automated match of sites to the RF2 file.
This match is run on a Hydrologic Region basis. The match will take a
file of user-supplied sites with latitude/longitude coordinates and
produce an output file with the nearest Reach and milepoint. This
program can, for instance, assign all of the monitoring stations in
Region I to the Reach File.
RE6ION HATCH PROGRAM •
COMMAND ==>
JCL PARMS:
Bin No ==> C812
Input Dsnaie ==> rksa041.re$Ql. insites
Output Osnaie ==> rksao-ll.reg'M.watched
PROGRAM PARMS:
Region (01-18) ==> 01
Distance (00.1-99.9). ==> 01.0
NOTES: Distance: MUST be in fonat NN.N with leading O's.
Input file fornat: Cols 1 thru 8 lust be unique Station Id
Cols 10 thru 18 «ust contain Latitude (Deg Dec.)
Cols 20 thru 28 »ust contain Longitude (Deg Dec.)
™"™™ — ""^"""^""••"•^""""^"" — — ••""^•••••^•••••••••••^•••••^•••^••••••^•^•••••^^••«
ENTER TO SUBMIT END'
-------�
Figure 3.4-6
RF2 MAP MAKER
RFMS OPTION 9
Option 9, called "RF2MAP", will make Reach File maps showing the
original RF1 Reaches and the new RF2 Reaches. Each map covers a 1
degree by 2 degree area at a scale of 1:500,000; this is the same as
the original RF1 Reach File maps. The maps are made using the STORET
"PGM=LOC" program. The user has the option of either sending the maps
to STORET's Calcomp plotter or spooling the map to a file for later
viewing on the terminal. The viewing of the map on the terminal is
done using STORET's procedure "SEEPLOT."
COMMAND ==>
PROGRAM FARMS:
Header Naie ==>
Latitude ==>
Longitude ==>
RF2 HAP TO CALCOHP PLOTTER
'.'7
(Oescripti • •> of Map)
44'JO''"; (Southeast latitude FORMAT: DDMMSS)
0?200"-0 (Southeast Longitude FORMAT: DDDHMSS)
(Leading and Trailing O's are required)
NOTE: The retaining 3 corners of the Map will be computed for you to
produce a 2 Degree by 1 Degree Map
Bin Nuaber ==> C812 (Vour Bin No.)
Plot Spool ==> y (V/N - Plot data to AUX File)
Spool File ==> rksa041.win.spool (Oataset Name)
NOTE: If Plot to Spool is no then no Spool file is needed. If a Spool file
needed then use full dataset naie
PLOT MESSA6ES:
First/Last Naie --> Tim
Phone NuHber "> ?';'.
Address ==> 4::
City ==> Hr
^'':i£i= .''•:•'*
::n State/Zip
(Up to 24 Chars)
(Foriat NNN NNN-NNNN)
ZIP ::":•,'
ENTER TO SUBMIT
iPF3) TO CANCEL
3.4-12
-------�
Figure 3.4-7
3.4-13
-------�
Section 3.5
Waterbody System
if
&.
o
"In
-------�
3.5 WATERBODY SYSTEM
3.5.1 Background
The Vaterbody System (WBS) is a national database designed to organize
and manage waterbody-specific assessments developed by the States as part of
their reporting effort under Section 305(b) of the Clean Water Act. This
Section of the Act requires each State to submit a biennial report to the EPA
describing the quality of its navigable waters. This report must include an
analysis of the extent to which the State's waters support fish, shellfish,
and wildlife populations and allow water-based recreation; an analysis of the
extent to which pollution control actions have achieved this level of water
quality and recommendations for needed additional actions; and a description
of the nature and extent of nonpoint sources of pollution and recommendations
for their control. Since 1985, EPA and the States have worked together to
improve and standardize their reporting methods for this Section 305(b)
process.
A number of variables are involved in defining water quality. EPA seeks
to establish consistency among these variables by preparing State guidelines
for use in reporting water quality information. These guidelines promote the
use of a consistent measure of water quality based on the degree to which a
water is in compliance with the applicable State water quality standards.
State water quality standards consist of the water quality objective,
expressed as the water's "beneficial use," and numeric and narrative
"criteria" designed to ensure maintenance of the beneficial use. The Section
305(b) guidelines require that States report on water quality in terms of the
degree that beneficial uses are supported. The degree of use support is
divided into three categories: fully supporting, partially supporting, and not
supporting.
The UBS provides States with a standardized format for reporting on a
water's designated use, support and its attainment of the "fishable and
swimmable" goals of the Clean Water Act. States are encouraged to delineate
3.5-1
-------�
waterbodies covering all the waters in their State. The quality of these
waters is assessed using chemical and biological monitoring data or more
qualitative information on pollution sources and land uses in the watershed.
The WBS stores the current and all historic assessments of the waterbodies,
allowing States to track trends in the water quality of clean as well as
problem waterbodies. The WBS has been developed for use on IBM-PC (or
compatible) microcomputers as well as the EPA mainframe computer. States may
input data and interact directly with the EPA mainframe, or maintain a State
system on a PC or State computer. In such cases, the State data are
periodically transferred to the National system.
3.5.2 Description
The Uaterbody System (WBS) is a database system designed to store water
quality assessments and easily retrieve and report on the stored data. The
data elements available in the WBS are listed in Table 3.5-1. Additional
information on these elements can be found in the WBS Users Guide. Reporting
programs on both the PC and Mainframe WBS allow users to select subsets of
waterbodies based on data element attributes. "Canned" reports are available
which summarize waterbody information. These reports are primarily designed
to fulfill Section 305(b) reporting requirements. The mainframe WBS also
allows users to design their own customized reports. PC users must rely on
their knowledge of dBase III Plus for creating customized reports. Table
3.5-2 summarizes the outputs available from the WBS.
Waterbodies designated by States may be described in the WBS through the
EPA Reach File System, EPA's database of surface water features. The Reach
File provides the framework for developing WBS mapping capabilities and
linking WBS data with other EPA databases. When mainframe WBS users enter
indexing information into the WBS, they interact directly with the Reach file.
The Reach File provides them with the size of the waterbody, information on
whether the new waterbody overlaps with already designated waterbodies, and
the names and NPDES permit numbers of permitted point source dischargers in
the waterbody. Although PC WBS users cannot interact directly with the Reach
3.5-2
-------�
Table 3.5-1
WBS DATA ELEMENTS
AVAILABLE FOR EACH WATERBOOY
Waterbody Identification:
Assessment Information:
Watertody Status:
Nonattainment Causes
and Sources:
Waterbody 10 Number
Wateroody Name
Basin
Waterbody Type (nver. lake, estuary.
wetland, shoreline)
Waterbody Size
Location Description
Latitude/Longitude
Reacn Rie Indexing
Assessment Date
Assessment Type (monitoring,
modeling, etc.)
Sampling Dates
Media/Pollutants Assessed
General Comments
Rshadle/Swimmable Status (fully.
partially, not supported, or not
attainable)
Use Suoport Status (fully, partially, not
supported, or not assessed)
Water Quality Limited Status
Use Support of Individual Designated
Uses
Causes of Impairment (pollutants)
Sources of Impairment (types of point
or nonpoint sources)
Significant Point Sources (name, and
permit number)
Significant Nonpoint Sources (type
and name)
3.5-3
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Table 3.5-2
WATERBODY SYSTEM OUTPUTS
STANDARD REPORT FORMATS
—Standard reports fulfill all 305(b) reporting requirements
CUSTOMIZED REPORTS
— Reports may be organized according to user-specified selection
and sorting criteria.
— Users may create new report formats using dBASE software on
the PC or General Query within STORE! for the National WBS.
USTS OP WATERS REQUIRED UNDER THE CLEAN WATER ACT
—304(1) Short list long list
—3l9(a) Nonpoint source impaired waters
— 3l4(a) Lakes lists
— 303(d) Water quality limited segments
MAPS OF BASINS AND WATERBODIES
— Maps are currently available using the PCRF software
— Additional mapping capabilities using the EPA STORET facility
will be available in the future.
NATIONAL WBS ALLOWS LINKS WITH OTHER EPA DATABASES
— Connections with STORET. IFD and other files through the EPA
Reach File
3.5-4
-------�
file, they can download portions of the Reach File to their PC and then use
PC-based software called PC Reach File (PCRF) to interactively designate
waterbodies and store their reach file descriptions (indexing). PCRF will
also calculate waterbody sizes from the Reach file and check waterbody
specifications for overlaps.
PC WBS programs have been developed in dBase III Plus for use on IBM (or
compatible) personal computers. The system is distributed in a compiled
version which allows the system to be run without purchasing dBase 111 Plus.
The compiled version of the WBS has the advantage of being much faster than
the uncompiled version.
Mainframe WBS programs are available on EPA's IBM 3090 computer located
at the National Computer Center (NCC) in Research Triangle Park, North
Carolina. The system is accessed through a full-screen interactive processing
program known as the Integrated System Productivity Facility (ISPF). Only
terminals supporting full-screen processing can be used with this system.
There are many terminals available today which support full-screen processing,
including the IBM 3270 and 3290 series of terminals, and compatible terminals
made by many other manufacturers. In addition, personal computers (PCs) can
be used that can be made to emulate full-screen processing terminals by using
standard communications software. PCs emulating DEC VT-100 and IBM 3101
terminal types have successfully been used in full-screen sessions on the EPA-
NCC IBM computer. There are many other types of full-screen terminals that
can be used as well with the mainframe WBS.
3.5.3 Current Status
The WBS was developed by EPA to help States organize, store and report
water quality assessments. The final PC and Mainframe versions of the WBS
were released in mid-1988 (Version l.S). Several States have begun to use
this system in preparation for the upcoming Section 305(b) report due in 1990.
EPA has received a number of suggestions from WBS users on ways the system
could be changed to increase its utility and make it more user friendly.
3.5-5
-------�
Representatives from eleven States and three EPA Regions met on January 25-26,
1989, to discuss enhancements to the WBS and determine which changes should be
implemented. Although there was general interest in many of the proposed
changes, it was clear that a stable WBS must be in place by early summer to
accommodate the 1990 Section 305(b) report cycle. Users urged EPA to keep the
system simple and to limit short term changes to achieve this goal.
Short term changes are currently underway on the PC and mainframe WBS.
These changes were selected based on discussions at the Users Group meeting
and discussions with the individuals responsible for the programming. Because
of time constraints, changes have been limited to minor enhancements so that
programming can be completed by July 1, 1989. The WBS Users Guide is
currently being revised to reflect these changes and will be available for
distribution with the final software in July. PC mapping programs will be
included in the July WBS release. Mainframe mapping programs will probably
not be available until 1990.
Additional enhancements to the WBS are still being considered that could
be implemented after the 1990 Section 305(b) reports are completed.
3.5.4 Future Applications Planned
The WBS will be revised and expanded to reflect changes in the Section
305(b) reporting process. Future enhancements may include:
1. Addition of ground water data,
2. Expansion of data elements for tracking estuarine, near-coastal and
wetland waterbodies, and
3. Addition of data elements for tracking management actions in the
waterbody.
Software will also be developed to enhance the ability of the WBS to
integrate other EPA data files that are linked to the Reach file.
3.5-6
-------�
3.5.5. Sources of Data
The VBS is a State data system. All data in the WBS were either entered
directly by States or coded from State Section 305(b) reports. The WBS also
interacts with two other data files, the EPA Reach file and the Industrial
Facilities Discharge (IFD) file.
3.5.6 Examples of Use or Outputs
Example 1 - Using the PC WBS to generate a summary of Designated
Use Support for a Cataloging Unit in Vermont
The WBS report programs will generate five summary tables that are
specifically required by the Section 305(b) guidelines. The following example
explains how the Designated Use Support Summary table can be generated for the
Winooski River basin in Vermont using the PC WBS. The mainframe system will
generate the same report using virtually the same process.
The PC WBS report screens are found in Attachment A. Using the PC
system, loaded with Vermont's assessment data, the user chooses selection (2)
"Waterbody Report Facility" from the main WBS menu.
The next screen that appears is Screen B, Report Selection Criteria.
Under Waterbody Basin, the user types 02020003, the basin code for the
Winooski River basin. No other selections are made. (If waterbodies have
been assessed more than once, the summary reports will use the most recent
assessment date for each waterbody in calculating the overall summary. The
user can override this by constraining assessment date on Screen B.)
If the user enters "Y" in the "Change the default Units for Report
Output (Y/N) —> N" message at the bottom of Screen B, Screen C will appear
when "NEXT" is entered in the COMMAND line at the top of Screen B. The user
can then specify the waterbody size units for each waterbody type in their
3.5-7
-------�
data files. All data will be converted to these units. If the user does not
edit the Change Units message, the system defaults to "N", Screen C is skipped
and Screen D appears.
Screen D is the Report Selection screen. The User enters "1" in the
"Select a Report Number —> XX" field at the bottom of the screen, and Screen
E appears.
Screen E allows users to access detailed option data. The detailed
option is currently being revised, so users are encouraged to use the overall
option. Select "0" as the option type, and Screen G will appear. Select "1
Display results on the screen". The resulting output will look like Table
3.2-3. Vermont has only defined lake and riverine waterbodies in the Winooski
River Basin. If other waterbody types were defined and assessed, this report
would include a tabulation of their use support characteristics.
Example 2 - Using the PC WBS to generate a list of waterbodies in Vermont's
Winooski Basin that are impaired by point sources of toxics
(the 304(1) B list).
In addition to the five summary reports, the WBS also has six listing
reports which list selected information for individual waterbodies selected by
the user. The user selects the waterbodies to be listed using the screens
discussed above, then selects the output format suitable to the needs of the
report. The following example shows how to generate the CUA Section 304(1)
(B) list of waterbodies, waters impaired by toxics from point sources. The
Winooski River basin is again used as an example.
The user selects "2 - Waterbody Report Facility" from the main menu. On
Screen B, select Waterbody Basin —> 02010003, the Winooski River Basin, and
3.5-8
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Table 3.5-3
04/07/89 DESIGNATED USE SUPPORT SUMMARY FOR VT
LAKE (all size units In ACRES)
TOTAL NUMBER OF LAKE WATERBOOIES ASSESSED : 7
TOTAL NUMBER MONITORED : 4
TOTAL NUMBER EVALUATED : 3
DEGREE OF USE SUPPORT
ASSESSMENT BASIS
EVALUATED MONITORED
TOTAL
ASSESSED
SIZE FULLY SUPPORTED
SIZE THREATENED
SIZE PARTIALLY SUPPORTING
SIZE NOT SUPPORTING
TOTAL
28.0
.0
.0
83.0
111.0
193.0
.0
.0
146.0
339.0
221.0
.0
.0
229.0
450.0
RIVER (all size units In STREAM MILES)
TOTAL NUMBER OF RIVER WATERBOOIES ASSESSED
TOTAL NUMBER MONITORED : 3
TOTAL NUMBER EVALUATED : 17
20
DEGREE OF
USE
SUPPORT
ASSESSMENT BASIS
EVALUATED MONITORED
TOTAL
ASSESSED
SIZE FULLY SUPPORTED
SIZE THREATENED
SIZE PARTIALLY- SUPPORTING
SIZE NOT SUPPORTING
TOTAL
321.2
72
63
58
2
7
1
515.2
46.0
4.5
11.
21.
.3
.3
33.1
367.2
76.7
75.0
79.4
598.3
3.5-9
-------�
Assessment Date =-> 8801. If no assessment date is specified, the report
will list each assessment date of the waterbodies selected. At the bottom of
the screen under OPTIONAL SELECTION FIELDS, he types:
=>WBCWAS ==> 4
This will select waterbodies that were coded on Screen 1 as being on the short
list (WBCWAS -4). The user then types NEXT in the COMMAND line, and Screen D
will appear.
On Screen D, he selects 11, the Waterbody Index Report. On Screen E, he
selects "CTverall data. The user will then be asked if he wants all
waterbodies, or just the selected waterbodies. He asks for the selected
waterbodies, and Screen F SORT SPECIFICATIONS will appear. All listing
reports can be sorted in ascending or descending order according to the output
data elements. If nothing is specified, most reports default to sorting by
waterbody ID in ascending order.
The report is displayed on the screen. The output will look like Table
3.5-4. When the report has finished printing, the system will take the user
back to Screen D, Report Selection. He can then select "7 - Waterbody Toxins
Status Report". Output for this report can be seen in Table 3.5-5.
Example 3 - Using the mainframe UBS to generate a report showing Florida Lakes
Impacted by Point Sources
The mainframe WBS uses the General Query program to generate standard
and customized reports. The following example shows how to generate a
customized report showing lake waterbodies in Florida that have point sources
listed as Nonattainment Sources.
3.5-10
-------�
Table 3.5-4
04/07/89 WATERBODY INDEX REPORT
WATERBODY ID f WATERBODY NAME DATE
VT08-01 Lower Wlnooskl River 8801
VT08-05 Upper M1d-W1nooski 8801
VT08-14L01 Forest Lake 8801
VT08-16 Stevens Branch, Wlnooski River 8801
VT08-17 Dog River 8801
3.5-11
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Table 3.5-5
04/07/89 TOXICS STATUS REPORT
WATERBODY NAME : Lower Winooski River
WATERBODY 10 I : VT08-01
BASIN : 08-W1noosk1
WATERBOOY TYPE : RIVER SIZE : 20.0 STREAM MILES
ASSESSMENT DATE : 8801 CWA 304(1) STATUS : 240 ^ TOXIC MON.(Y/N) : Y
MEDIA/POLLUTANTS ASSESSED
1 - ORGANICS IN WATER COLUMN 9 - METALS IN WATER COLUMN
12 - METALS IN DISCHARGES 14 - OTHER INORGANICS IN DISCHARGES
WATERBODY NAME : Upper Mid-Winooski
WATERBODY ID I : VT08-05
BASIN : 08-W1noosk1
WATERBODY TYPE : RIVER SIZE : 15.0 STREAM MILES
ASSESSMENT DATE : 8801 CWA 304(1) STATUS : 240 TOXIC MON.(Y/N) : Y
MEDIA/POLLUTANTS ASSESSED
13 - OTHER INORGANICS IN WATER 14 - OTHER INORGANICS IN DISCHARGES
WATERBODY NAME : Forest Lake
WATERBOOY ID I : VT08-14L01
BASIN : 08-W1noosk1
WATERBODY TYPE : LAKE SIZE : 26.0 ACRES
ASSESSMENT DATE : 8801 CWA 304(1) STATUS : 240 TOXIC MON.(Y/N) : Y
MEDIA/POLLUTANTS ASSESSED
2 - ORGANICS IN SEDIMENTS
WATERBODY NAME : Stevens Branch, Winooski River
WATERBOOY ID I : VT08-16
BASIN : 08-W1noosk1
WATERBODY TYPE : RIVER SIZE : 28.7 STREAM MILES
ASSESSMENT DATE : 8801 CWA 304(1) STATUS : 240 TOXIC MON.(Y/N) : Y
-. MEDIA/POLLUTANTS ASSESSED
1 - ORGANICS IN WATER COLUMN 2 - ORGANICS IN SEDIMENTS
9 - METALS IN WATER COLUMN
WATERBODY NAME : !Log River
WATERBOOY ID f : VT08-17
BASIN : 08-W1noosk1
WATERBODY TYPE : RIVER SIZE : 53.5 STREAM MILES
ASSESSMENT DATE : 3801 CWA 304(1) STATUS : 240 TOXIC MON.(Y/N) : N
MEDIA/POLLUTANTS ASSESSED
13 - OTHER INORGANICS IN WATER 14 - OTHER INORGANICS IN DISCHARGES
3.5-12
-------�
After completing the logon to the NCC system the user types WATERB at
the TSO Ready prompt. He then selects option "G" from the WBS Main menu and
prompting level "Verbose for complete on-line instructions of general query
menus.
The user will want to select the subset of waterbodies for his report.
He selects "C"riteria from the MAIN MENU, and specifies "N"ew criteria on the
SELECTION CRIT menu. The user then enters the following criteria:
UBID GT FL AND ) this will retrieve waterbodies with the
WBID LT FM AND ) state initials FL
UBTYPE EQ L AND ) these are the lakes
ASSOURC GE 0 AND )
ASSOURC LE 8 END ) Point source codes are between 0 and 8.
This end will bring him back to the SELECTION CRIT menu. He types
"L"ist to review his specifications, then choose "X" to move to the next step
in creating his report.
The user now needs to define the output format for his report. At the
MAIN MENU, he selects "0"utput, and at the OUTPUT menu, types "N"ew criteria.
The prompt will ask him to "Enter Specifications". The user enters the
following:
WBID 20
UBNAME 25
ASCAT 5
WBSIZE 7
DONE
This will create a tabular report, listing first the Waterbody ID in 20
columns, then the Waterbody name in 25 columns, then the Assessment Category
in 5 columns, and last the Waterbody Size in 7 columns. The user can review
his specifications by typing "L"ist at the OUTPUT menu.
3.5-13
-------�
The user can create a title for his report by selecting "T'itle from the
OUTPUT menu. The example report is titled "LAKES IN FLORIDA IMPACTED BY POINT
SOURCES".
He also needs to specify a destination for his report. At the OUTPUT
menu, he types "F", then "P"rinter. The user will be asked for a remote
number and a bin/box number. Once this is specified, he can e"X"it from the
OUTPUT menu.
Output can be sorted. At the MAIN MENU, the user selects "S"ort and
asks to give "N"ew criteria. List:
ASCAT
DONE
The output will be sorted by assessment category. At the SORT menu, the user
can then "L"ist his specifications to check for errors, then e"X"it.
The example output has control breaks between ASCAT categories. At the
MAIN MENU, the user types "B"reaks and asks to give "N"ew criteria. He lists
ASCAT as the element name, then asks for "P"age breaks between the categories.
The user types DONE to exit from the specifications, and e"X"its from the
BREAKS menu.
The report now needs to execute. At the MAIN MENU, the user selects "E"
and presses ENTER. The report should look like the output shown in Table 3.5-
6.
3.5-14
-------�
Table 3.5-6
LAKES IN FLORIDA IMPACTED BY POINT SOURCES
WBID
PL 0308010228.00
PL 0312000310.00
PL 0309010122.00
PL 0308010366.00
WBNAME
LAKE EUSTIS
LAKE TALQUIN
CYPRESS LAKE
CRESCENT LAKE
ASCAT WBSIZE
E
E
1.20
2.40
0.80
0.70
PL 0308010367.00
PL 0309010116.OQ
PL 0309010111.00
PL 0308010365.00
FL 0308010234.00
PL 0308010232.00
PL 0308010229.00
PL 0309010121.00
FL 0309010120.00
FL 0309010117.00
FL 03090201 4.20
FL 0309010134.50
FL 0309010127.00
FL 0309010126.00
FL 0311020629.00
FL 0311020624.00
FL 03100205 6.00
PL 0310010152.00
PL 0310010134.35
FL 0310010134.00
FL 0308010221.00
FL 0308010220.00
FL 0308010219.00
FL 0308010132.00
FL 0308010131.00
FL 0308010123.00
FL 0308010122.00
FL 0308010110.00
FL 03080101 9.00
FL 03080101 4.00
FL 03080101 3.00
CRESCENT LAKE
LAKE HATCHINEHA
LAKE MARIAN
CRESCENT LAKE
LAKE APOPKA
LAKE DORA
LAKE EUSTIS
CYPRESS LAKE
CYPRESS LAKE
LAKE HATCHINEHA
LAKE OKEECHOBEE
LAKE RUSSELL
LAKE TOHOPEKALIGA
LAKE TOHOPEKALIGA
ALLIGATOR LAKE
LAKE ROWELL
LAKE THONOTOSASSA
LAKE PARKER
BANANA LAKE
LAKE HANCOCK
LAKE GRIFFIN
LAKE GRIFFIN
LAKE GRIFFIN
LAKE HARNEY
LAKE HARNEY
LAKE MONROE
LAKE MONROE
LAKE WOODRUFF
LAKE WOODRUFF
LAKE GEORGE
LAKE GEORGE
M
M
M
M
M
M
M
M
M
M
N
M
N
M
M
M
M
N
M
M
M
M
M
M
N
M
M
N
N
M
M
13.20
1.90
9.00
15.10
50.80
8.60
8.50
1.10
4.90
11.40
113.20
1.20
6.60
10.80
0.90
0.50
1.60
3.60
0.80
6.90
0.50
0.80
13.10
6.70
6.80
7.80
6.40
2.40
1.00
42.50
30.20
3.5-15
-------�
3.5.7 Complete Documentation
Complete documentation for the WBS can be obtained from:
Meg Kerr
US EPA (WH-53)
Assessment and Watershed Protection Div.
401 M Street SW
Washington, DC 20460
Phone: 8-382-7056 (FTS)
202-382-7056 (Commercial)
3.5-16
-------�
Attachment A 3.5
REPORT FACILITY SCREENS
(Screens B-G)
REPORT SELECTION CRITERIA
COMMAND => AAAA
STANDARD SELECTION FIELDS
ViATERBODY ID => AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAi-AAAAAAAAAAAAAAAA
WATERBODY TYPE => AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
WATERBODY BASIN => AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
ASSESSMENT DATE => AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
IMPAIRED => AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
CAUSE CODE => AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
SOURCE CODE => AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
OPTIONAL SELECTION FIELDS
=> AAAAAAAAAAAAAAA => AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
=> AAAAAAAAAAAAAAA => AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
=> AAAAAAAAAAAAAAA => AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
=> AAAAAAAAAAAAAAA => AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
CHANGE THE DEFAULT SIZE UNITS FOR REPORT OUTPUT (Y/N) => N
SCREEN B
WBS User s Guide. Page 8-8
-------�
Attachment A 3.5
COMMAND => AAAA
wATERBODY SIZE UNITS SELECTION
.•.ATER300Y TCPE
RIVERS
LAKES
ESTUARY
FRESH viATER '.-/ETLAND
TIDAL ..'ETLiND
COASTAL -lATER SHORE
GREAT LAKES SHORE
VALID UNITS
MILES, KILOMETERS
ACRES, HECTARES, SQUARE MILES
ACRES, HECTARES, SQUARE MILES
ACRES, HECTARES, SQUARE MILES
ACRES, HECTARES, SQUARE MILES
MILES, KILOMETERS
MILES, KILOMETERS
DEFAULT UNITS
=> M
=> A
=> S
=> S
=> S
=> M
=> M
SCREEN C
REPORT SELECTION
SUMMARY REPORTS
1 - DESIGNATED USE SUPPORT SUMMARY
2 - ATTAINMENT OF C-i'A GOALS
3 - CAUSE SUMMARY / TOTAL WATERBODY SIZE NOT FULLY SUPPORTING USE
4 - SOURCE SUMMARY / TOTAL WATERBOOY SIZE NOT FULLY SUPPORTING USE
5 - TOTAL WATERBODY SIZE AFFECTED BY TOXICS
LISTING REPORTS
6 - TROPHIC STATUS REPORT
7 - WATERBOOY TOXICS STATUS REPORT
8 - USE SUPPORT STATUS REPORT
9 - C'.-iA GOAL STATUS REPORT
10 - DATA LIST FOR ALL WATERBODY DATA
E - EXIT AND RETURN TO SELECTION CRITERIA
SELECT A REPORT NUMBER => AX
SCREEN D
WBS User's Guide. Page B-9
-------�
Attachment A 3.5
OPTION SELECTION
0 - DISPLAY OVERALL OPTION DATA ONLY
D - DISPLAY DETAILED OPTION DATA ONLY
SELECT A OPTION =>
ENTER 'E1 TO EXIT SACK TO THE REPORT SELECTION SCREEN
SCREEN E
COMMAND => AAAA
WATERBODY ID = > AX
ASSESSMENT DATE => AX
FIELD 5 => AX
FIELD 7 => AX
FIELD 9 => AX
SORT SPECIFICATION
WATERBODY TYPE => AX
ASSESSMENT TYPE => AX
FIELD 6 => AX
FIELD 8 => AX
SCREEN F
WBS User s Guide. Page B-10
-------�
Section 3.6
NEEDS Survey
General Query
-------�
3.6 NEEDS SURVEY GENERAL QUERY
3.6.1 Background
Section 516(b) of the Federal Water Pollution Control Act of 1972
mandated that EPA, in cooperation with the States (including water pollution
control agencies and pollution control planning agencies) must make a detailed
estimate of the cost of carrying out other provisions of the act. This
included a detailed estimate, biennially revised, of the cost of construction
of all needed publicly-owned treatment works in all of the States. Estimates
were important in helping Congress understand the capital costs associated
with meeting the water quality objectives outlined in the law. In accordance
with the law, EPA takes the lead in preparing a biennial Report to Congress.
This report is referred to as the Needs Survey. In order to facilitate
the data collection needed for this report, EPA established the Needs Survey
database. It is the most comprehensive assessment of cost estimate
information and technical data for publicly-owned wastewater treatment works.
The Needs and Priorities Branch of the Municipal Facilities Division in the
Office of Municipal Pollution Control has the responsibility for managing this
system.
Recently, a menu-driven user friendly software tool has been developed
to facilitate access and usage of the Needs Survey database. The new tool is
General Query.
3.6-1
-------�
3.6.2 Description
General Query allows non-programmers to retrieve and analyze information
stored in the Needs Survey database. The system can be used by anyone with a
computer terminal having access to the National Computer Center mainframe
computer. The Query system includes two main options:
Summarize/Analyze
Browse.
The Summarize/Analyze option permits the user to specify screening
criteria in order to extract a subset of the data. Then, user-specified
output options enable the user to deliver the information in the desired
format. The Browse option also includes user-specified input, however output
is in the form of a list of facilities meeting the specified input criteria.
The user then has the option of selecting one of the facilities for further
review. The more extensive data can be examined through a series of standard
reports or "Fact Sheets" which describe the facility's characteristics (i.e.,
flow, population data, unit processes).
3.6.3 Current Status
The 1988 Needs Survey Report to Congress was released in February 1989.
Validation of the 1988 data was a prerequisite in preparing the report. That
data will be permanently maintained in order to preserve the records for the
Report. A duplicate of the 1988 data was created, however, so that state
Needs Survey coordinators could begin updating data as new information became
available.
3.6-2
-------�
3.6.4 Future Enhancements
In an attempt to improve user-friendliness and the system's overall
capabilities, the 1990 Needs Survey Work Group has identified some potential
enhancements which they would like to see completed in the future.
The addition of a "report library" has been identified as a very
desirable feature. This "library" would contain standard reports which could
be executed to obtain information. Presently, some information requests
cannot be answered with a simple query because of their complexity. In these
cases, the assistance of a programmer is required to extract the information
from the database. A report library would enable the user to obtain the
needed information independently.
Another desirable feature would be a directory which would list all
saved queries by their file name. In addition to the file name, the directory
listing would include the query specifications of each file.
3.6.5 Sources of Data
Data in the Needs Survey is input by State and Regional personnel. Host
of the data is extracted from construction grants files, including: Section
201 wastewater treatment facility plans, wasteload allocation studies, State
biological, chemical, and physical water quality data, Section 305(b) reports
on State-identified priority waterbodies, Grant application files, State
revolving loan fund files, State water quality standards, and National
3.6-3
-------�
Pollutant Discharge Elimination System (NPDES) permit data. Every state has a
Needs Survey Coordinator who is responsible for overseeing and managing the
quality of all data entered into the system. Biennially, prior to submitting
the Needs Survey Report to Congress, EPA (with contractor support) conducts a
quality assurance review of all the data.
3.6.6 Querying
General Query enables the non-programmer to quickly obtain information
from the Needs Survey. The user must input logic for the query. The
components of a typical logic statement are shown in Figure 3.6-1. Using data
elements from the data element dictionary (See Attachment A 3.6), the user can
extract the desired information on a single facility or a group of facilities.
For example, if a user wishes to examine all facilities in
North Carolina that provide treatment for less than 10,000 residents per
day and have a treatment capacity of less than 1 million gallons per
day, then the user would refer to the data element dictionary and select
the following:
(1) STATE
(2) FPDTOT (total current design flow capacity at the plant)
(3) PPRRT (present resident population receiving treatment).
Once selected, the user can sit down at a terminal and begin the query.
At the TSO Ready prompt:
>READY: OMPC (Press Enter)
At the OMPC Browse/Update/Review Dialogs Primary Menu:
X5PTION: N (Press Enter)
At the Needs Survey RUQuS Table of Alerts Screen:
>COMMAND END (Press Enter)
3.6-4
-------�
At the Needs Survey Selection Menu you must select either the Browse using
General Query option or the Summarize/Analyze option under Previous Needs
Survey. (REMEMBER: Summarize/Analyze allows the user to create an original
report while the Browse option delivers output in a standard format). The
upper portion of this screen, the 1990 Needs Survey, is not accessible. Only
Needs Survey State Coordinators responsible for updating data have access to
the 1990 data.
As shown in Figure 3.6-2:
Select the Browse option by moving the cursor down to the
Previous Needs Survey section and placing an "X" by General
Query under the Browse option and an "X" by Survey Year
1988 (Press Enter).
Or:
As shown in Figure 3.6-3:
Select the Summarize / Analyze option by moving the cursor down to
the Previous Needs Survey section and placing an "X" by Summarize/
Analyze using General Query and an "X" by Survey Year 1988 (Press
Enter).
Some case studies demonstrating both options are presented below.
(NOTE: A list of frequently used commands and functions which facilitates
data entry and review are described in Table 3.6-1).
LOGIC STATEMENT COMPONENTS
LOGIC
STATEMENT
Examples:
STATE
FLOW
NEEDS
EQ
GT
LE
NC
1000
2SOOO
AND
OR
END
Figure 3.6-1
3.6-5
-------�
------------------- WEDS SURVEY SELECTION MENU --- -M/U/t« 15.47IRXE)
COMMAND •••>
-------------------------- 1990 NKDS SURVEY --------------------------
SECURITY COOE"»
REVIEN/UPOATE/»RONSE USIN6:
EXISTING A/F NUMftER •«»>
SHORT QUERY(MEEDRtAD) ••»> < -- DATA FOR THESE
9ENERAL QUERY •••> « -- WU> FUNCTIONS
SUMMARIZE/ANALYZE U5ZNB GENERAL QUERY •-•> < - CURRENT THROUGH
SURVEY STATUS REPORT •»•> < - «90SZO AT 1310
ADD NEN A/F »0«ER ~>
FLA6 ALL ERRORS tr OR N) •••> N _
SCREEN SEQUENCE CODE 14/9) — > 9 FIRST SCREEN ZD — > F
-------------------- PREVIOUS NEEDS SURVEYS
•KXSE U5ZN6:
A/F NMER •••>
SMORT «UCRY(NEEDREADI •••>
GENERAL «UERY •••> *
SUMMARIZE/ANALYZE USD* OEMERAL QUERY •••>
SURVEY YEAR IMS ••»> » SURVEY YEAR 1«M •••>
FIGURE 36-2
SECURITY COOE«» lf*° *<"S ****
REVIEN/UPOATE/BRONSE USING:
EXISTING A/F NUNMR •••>
22L?ULR:^IB(UABI '".: <— DATA FOR THESE
FLAS ALL ERRORS (Y OR Nl •«> N
SCREEN SEQUENCE CODE It/9) •••> 9 FIRST SCREEN ZD ••»> F
A/F MUNBCR •••>
SHORT aUERYINEEOREAD) «•«>
6ENERAL QUERY •••>
SUWUAIZ/ANALYa USXNB OENERAL QUERY ••» M
SURVEY YEAR 19M •••> • SURVEY YE
SURVEY YEAR 19M •••>
FIGURE 3.6-3
3.6-6
-------�
Table 3.6-1
TlIfiOIHTlY USED CORHAXDS AND FUMCTZOKS
EXT1Y AT THE COHHAXB ••> P10HPT FOKCTJOH
<•»> To zetuzn to "the 1EADY pzoapt
in pzepazation to logoff ISO
* «enezallp will aove you back
to the pzevious sczeen.
Hhen used at tho sunnAIT
1EVZEU •czeea* aovec you to
tho PACZLZTT cezooa.
Hhoa used nithia • FACT SHEET
•czeen, pzopazo* you to re to
tho UPDATE VALZDATZOX OCZOOB
fey invoking tho ozzoz chocking
and ooct ostiaoting pzogzoa*.
* Dto to oczoll "up" Hhon a
toblo ii pzosontod.
OOtno* D*o to iczoll *down" vhoa a
toblo is pzosoatod.
Hhon VfOd within a FACT SHEET
•czoon. abandons any adit*
Bodo*to tho A/F nuaboz in uso.
Pzints tho sczoon cuzzontly
feoing ditplayodt not available
ioz all oczoonsi ohoek
Appondix B ioz tpociiie
applioablo oczoono.
* NOTE< Thosa coaaand function* aza tiod to a specific koy oz
tozios of koys on tho koyboazd. Using tho equivalent
key can save you a significant nuabez of keyitzokes.
Chock with youz ADP eoozdinatoz oz call UESTOX foz aoze
infcreation. Thzoughout the zest of the aanual. *Pzess
EXD*. *Pzess UF-, oz "Pzess 90UX" will zefez to tho TSO
functions above.
Tou also have the option to custoa set youz own function keys.
See tho KEYS aenu option on the OJ1PC BlOUSE/UPOATE/IEVZEy DZALOOS
HIXU foz aoze infozaatioa.
3.6-7
-------�
Case Study #1:
As the Needs Survey Coordinator for the State of Virginia, you need to
begin reviewing data on several facilities in the State in order to prepare
for the next Needs Survey Report to Congress. Arlington County facilities are
particularly in need of review.
Procedure
You wish to review all of the facility's data, therefore you want to see
all available data.
At the Needs Survey Selection Menu:
Select the Browse option by placing an "X" by Browse using
General Query and an "X" by Survey Year 1988 (Press Enter).
At the Prompting Level Menu:
Select the level of prompting desired. If you are a new user, choose
"V" for verbose prompts (Press Enter).
At the Main Menu:
Select "C" to enter the screening criteria (Press Enter).
At the Criteria Menu:
Select "N" to enter a new set of criteria (Press Enter).
Before specifying your criteria, you will be asked:
>DO YOU WISH TO INCLUDE UNDOCUMENTED AND SEPARATE STATE
ESTIMATE FACILITIES (Y/N) N (Press Enter).
(NOTE: The Needs Survey Report to Congress does not include
undocumented estimates in the report. It does include separate
state estimates, however it reports them without assuming any
responsibility for the data quality. You will have to decide
whether you would like these estimates in your analysis).
At the Criteria prompt:
>CRITERION, RETURN OR END: STATE EQ VA AND (Press Enter)
>CRITERION. RETURN OR END: CNTYNAM EQ ARLINGTON END (Press Enter).
3.6-8
-------�
At the Criteria Menu:
Select "X" to exit to the Main Menu (Press Enter).
At the Main Menu:
Select "E" to execute the query (Press Enter).
To continue press Enter.
You may either view the query results or you can return to the Main
Menu to begin another query:
Select "R" to begin another query (Press Enter).
Press Enter to view the query results.
The results will appear on the screen as shown in Figure 3.6-4. All
facilities meeting the designated criteria are shown.
. SfLKTCO FACILITY TABU ROM 1 OP 1
COMMAND •••> SCROLL •«> Mfli
OPTIONAL FIATURIS: SIUCT ALL •»«>
A/F NUMH FACILITY NAM AUTHORITY NAM •BON
I10S19001 ARLINGTON CO WCP ARLINGTON COUNTY MIMtt
51011*002 PHffXT OULF DONALDSON RUN ARLINGTON COUNTY WEDSM
SlOSZtOOt POL* NILI RUN C.S. FAIRFAX. COUNTY OF NMDStt
•••••••••••••••••••••••••••••• HTTON OF DATA ••••••••••••••••••••••••••••••••
FIGURE 3.6-4
To review the individual data of one facility:
Select the facility by moving the cursor and placing an "S"
beside that facility as shown in Figure 3.6-5 (Press Enter).
3.6-9
-------�
— — SCUCTCD FACILITY TAMJ — MM 1 V X
1 vm^* • 1^ ^&
OPTIONAL PEATUBSI scucr ALL —•>
A/P MffMR FACILITY NMC AUTHORITY NAM •"•••
S 51011*001 ARLINGTON CO WC9 mXNSTWCOUNTV NEEDS*
siosxwet «miT QULF DONALDSON KM miKcrw SUrY
NILE RUN C.3. PAZRFM. COUfTV V
BOTTQH OP DATA ^.•••••••••
FIGURE 3.6-5
The first of a series of standard screens or "Fact Sheets" would be
Displayed (See Figures 3.6-6 through 3.6-14).
To view all reports, continue to hit enter.
To return to the main list of facilities, type "END" (Press
Enter).
To return to the Needs Survey Selection Menu, type "END" at
the main list of facilities.
To begin another query, select an option at the Needs Survey Selection
Menu.
To exit the system:
Type "-X" by the COMMAND prompt
NOTE: if at this point you see a screen requesting selection of a Valid
Process Option, choose "D" (Press Enter). Some users may see the screen
while others may not due to discrepancies in their user ID setup).
Type "LOGOFF" at the READY prompt.
Case Study #2:
Due to recent publicity concerning water quality in Boston Harbor, the
governor's office has requested a special report. In preparation, you want to
know how many people currently receive wastewater treatment in Boston. In
3.6-10
-------�
addition, you would like to determine the design year construction needs of
Boston facilities.
Procedure
Because you only want partial information on facilities meeting the
specified criteria, you will use the Summarize/Analyze option. Duplicate the
same responses to prompts as given in Case Study #1. The criteria for this
query, however, will be as follows:
>CRITERION, RETURN OR END: STATE EQ MA AND (Press Enter)
>CRITERION, RETURN OR END: CITYNAM EQ BOSTON END (Press Enter).
At the Criteria Menu:
Select "X" to exit to the Main Menu (Press Enter).
At the Main Menu:
Select "0" to specify the desired output (Press Enter).
At the Output Menu:
Select "N" to input new output criteria (Press Enter).
Before entering new criteria, you must refer to the Data Element
Dictionary and select the desired output data elements. From the
dictionary:
Facility name is FACNAME
Present resident population receiving treatment is PPRRT
Present design year construction needs is NEDTOT.
At the Specification prompt:
>ENTER SPECIFICATION (DONE, RETURN: PROMPT) STATE (Press Enter)
>ENTER SPECIFICATION (DONE, RETURN: PROMPT) CITYNAM (Press Enter)
>ENTER SPECIFICATION (DONE, RETURN: PROMPT) FACNAME (Press Enter)
>ENTER SPECIFICATION (DONE, RETURN: PROMPT) PPRRT (Press Enter)
>ENTER SPECIFICATION (DONE, RETURN: PROMPT) NEDTOT (Press Enter)
>ENTER SPECIFICATION (DONE, RETURN: PROMPT) DONE (Press Enter).
3.6-11
-------�
FACILITY NKDS DATA (SCREEN F)
MXMT OATE.TUC ZS M0419.10M
Nevt Seroon •> • Movie* Cad* s MKtDSM
VAOOUMS
A/F MurfMP t I10S19001 WOES
Facility NM » ARLXNSTW CO WC» Facility Status
Authority Naaa •> ARLINGTON COUNTY Proaont Nature •
City MM •> Projected Nature •
_ BJJJ
•> ARLINGTON Facility
_. •> B10U Proaont Iffluant •>
To •> Future fffluant •>
it/Lean Deductions ••> ••> •«> ••>
Oront rtotliri EM tCEOS ESTIMATIS IZN THOUSANDS OF 001 LARS I
Cotooory Do*i0n Toor Current Doc Typo
I ••> M> ••>
t ••> ••> ••>
U •«> CSC* ••> tit*. —> M
•A ••> ••> ••>
Total : tK9 i tSI9
FIGURE 3.6-6
.................. .—»-•QFVUTXON DATA I'.^KCN PI—•
MZKT DATf .TirC XS MM19.10M
Next Seroon •> V
A/r Nuoter i I10S19M1
Roiidont to»idont Ibnidont Kosidont
MB Coll Roc Coll ND Trot toe Trot
Future •«> •••> SSSMS •»«> •••> UU1*
Proient »•«> **MI ••«> MSlfl •••> tt ••«>
Ib Coll Roe Coll ND Trot MM Trvt
Future •*»> •••> •••> ••»>
Prooont •••> ••>•> •••> •»»> ISO
FIGURE 3.6-7
3.6-12
-------�
„.: FLOM OAT* ISCUEN 0>
MXtfT Dm.TWE ZS OWH. 1111
A/F *M~r i C1011M01
IXX «LLJONS OF QALUV6 PER DAY)
Total
•••> «£.*§ »~>
•Bigrt 9**ign
M.OO •«•> M.S1
i K.«5
IToUl flow • Xndj»1ri«l
FIGURE 3.6-8
------------------------- EFFLUENT DATA ISCfttCN E) ------------------
WENT DAn.TPC li\ ««Mlf.lOM
Option •> U A/F M^»f i S10S1W01
FUtNT EFFLUCNT
•••>
tutm
tt«> 4
-«ZSKBAL OF LZflUZO EFFLUENI&——
OUC OUC OUC OUC
•••> 117 •••> ••*> •••>
iwnav AVERAKS
EMSrXNB — MtESCKT OESXON FUTUU DESK
Xnfluvri Iffltvit ZnfluMt Effluvt Infltant Efflwnt
SUB Sol
0. 0
K
tso. or
tro.oc
is. or,
OOOMU11
PlmCodt> 0054
4.00 > 140.00
«.00 > 140.00
4.00 > U.OO
1.00 > 140.00
I.00 E40.00
O.M U.OO
1.00
1.00
O.M
•••> ut
Projwtad ••«> UO ••»>
•TOWC cooes———.
»•>
FIGURE 3.6-9
3.6-13
-------�
PROCESS DAT* (SCREEN Ul-
HUMT OATC.TXW ti •90419. 11Z1
Max* Option •> N
A/F
: no: iwoi
Facility Status - 7A ••> 1
• *r
Mature »naaant - 7i ««> t
Nitur* •i-ojactad - 7C •»> 2
Facility Changa - 70 ••> 7
EffluaM Prvaant - MA •> a
Future - M» •> a
«L Tr-t-ant Ty,.
AS
ftt
W
CS
cc
02
N
02
OS
M
tz
S«
*S
47
il
*«
n
FIGURE 3.6-10
msecLUkMous DATA i SCREEN N>
MZNT DAn.TZIC XT. •«0»1«.1*0«
•> D
i I10S1W01
Statua
t i
i i
i i
On RaiaMY/N) .
Pop Raq CoJ-
it Coda*
A Fundtra
ional 0:»*rlct
« B
Y
Statua
Statua
•••>
•••> 0770SSO
Coapli
>li
»1
OatH
FIGURE 3.6-11
3.6-14
-------�
....... DKUCHTAnW DATA I3CREEN B)-
MUNT MTl.nK 1$ twm.1057
Option •> S
A/T Muter : C10S1MQ1
t Titla •••>
•••>
ITYMM) •»•>
••> rrs MOT REtunco TO MKTOM
FIGURE 3.6-12
.......... ---- ........STATI fSTlWTE PATA ISCRCtN S)
miXXT OATt.TDC If. •9M19.10C7
•> A
A>T Hah«r t f DS1W01
STATI IS7TMTC (IN 7WUSAMBS OF DOLLARS)
tot DMI^ Y«sr Current
I >
X >
4t>
A»T6l> NTTOU>
AST(it» »BTetI>
ASTtl* WTO«>
Asn*> Msmx>
ASTTI* MSTOR>
FIGURE 3.6-13
3.6-15
-------�
ADDITIONAL STATI DATA ISCREEN A)
HUNT 0ATI.TIME X!'. MO»H.10S7
•> F A/F M^Mr: S10S19001
ASTIH.> N5TO*>
ASTU> NBTM>
ASTM»> Nrro9>
Asr«n> Nsne>
Asni> Nsni>
ASTU>
Asns>
AST14>
A$nr> Msnr>
AST1S> NSTM>
ASTM> NBT!0>
ASTZ1> NSTll>
AST2Z> N5Ttt>
ASTU> M5T«>
ASTXS> NSTU>
FIGURE 3.6-14
3.6-16
-------�
At Che Output Menu:
Select_"X" to exit to the Main Menu (Press Enter).
At the Main Menu:
Select "E" to execute the query (Press Enter).
To continue, press Enter.
Your output will appear as shown in Figure 3.6-15.
ST CirnttH MCMMC
s si—"—
ESS SS22!S£«.™ _SSf '{"
Figure 3.6-15
At the "Which Would You Like?" prompt:
Press Enter to exit General Query
or
Select "R" and press Enter to edit the existing query or to begin
another query.
Case Study #3:
As a water quality official for the State of Maryland you are
responsible for monitoring the effluent concentration of treatment facilities.
In preparing your annual report, you need to determine the actual 12 month
average BOD, suspended solids, and phosphorous effluent concentrations for all
facilities with an actual 12 month average flow greater than 10 million
gallons per day.
3.6-17
-------�
Procedure
The same procedure used in Example 2 can also be applied here. Because
you only want partial information for the facilities, the Summarize/Analyze
option will again be used. The data element for actual 12 month average flow
is FEXTOT, thus the screening criteria for this query would be as follows:
(NOTE: General Query "remembers" the last query you executed, thus if you
have just run a query, prior to this query, you will be asked:
>If you continue, all of the selection criteria already entered
will be lost. Do you wish to continue? (Y/N) Y (Press Enter).
At the Criteria prompt:
>CRITERION, RETURN OR END: STATE EQ MD AND (Press Enter)
>CRITERION, RETURN OR END: FEXTOT GT 10 END (Press Enter).
At the Criteria Menu:
Select "X" to exit to the Main Menu (Press Enter).
At the Main Menu:
Select "0" to specify output (Press Enter).
At the Output Menu:
Select "N" to enter new output criteria (Press Enter).
Before entering new criteria, you must refer to the Data Element
Dictionary and select the desired output data elements. From the
dictionary:
Actual 12 month average effluent concentration for BOD is
CEXEFBO;
Actual 12 month average effluent concentration for suspended
solids is CEXEFSS;
Actual 12 month average effluent concentration for phosphorous is
CEXEFP.
At the Specification Codes: (Press Enter after each entry)
3.6-18
-------�
>ENTER
>ENTER
>ENTER
>ENTER
>ENTER
>ENTER
>ENTER
>ENTER
SPECIFICATION
SPECIFICATION
SPECIFICATION
SPECIFICATION
SPECIFICATION
SPECIFICATION
SPECIFICATION
SPECIFICATION
(DONE,
(DONE,
(DONE,
(DONE,
(DONE,
(DONE,
(DONE,
(DONE,
RETURN:
RETURN:
RETURN:
RETURN:
RETURN:
RETURN:
RETURN:
RETURN:
PROMPT)
PROMPT)
PROMPT)
PROMPT)
PROMPT)
PROMPT)
PROMPT)
PROMPT)
STATE
CITYNAM
FACNAME
FEXTOT
CEXEFBO
CEXEFSS
CEXEFP
DONE.
At the Output Menu:
Select "X" to exit the Output Menu (Press Enter).
At the Main Menu:
Select "E" to execute the query (Press Enter).
-=- Press Enter to continue.
Your output will appear on the screen as shown in Figure 3.6-16.
OS/M/09 10:10
ST CXTVNAM
•• •••••••••••••••••
IV OALTZNOU
IV BALTZHOU
IV IRON POT LANPtNB
IV CUHKRLAND
MD WSTCRMPOftT
IV OfVCRLAND
RIVER
PATAPSCO Ml TWWT PUNT
MSTERN MUNCH MfT*
CUMCRLAM) MffP
UPRC M(TP
RUN rattSTWV
PIXIUI CO8FIO CDCFSS
179.lt
S4.Z7
12.01
10.01
M.40
1ft. 97
St. 00
ftS.OO
4.00
f.OO
M.M
S7.00
S7.00
78.00
8.00 —
IS.00 —-
75.00 —
t.
«.
Figure 3.6-16
At the "Which Would You Like?" prompt:
Press Enter to exit General Query
or
Select "R" and press Enter to edit the existing query or to begin
another query.
3.6-19
-------�
Additional Capabilities:
General Query also has some additional capabilities which enable
the user to enhance report formatting. These capabilities are
described in the summaries below:
Options At the Main Menu:
Options available to the user which were not described in the Case
Studies can be seen by looking at the Main Menu which is shown in
Figure 3.6-17:
Identifier: ICEDS66
: You hove the following free itfueh to
Ci Crit. Inter or codify data terming criteria.
0: Outp. Enter or •edify output report specification*.
S: Sort. Inter or eodify sorting •pacification*.
• t »rka. Inter or eodify actiom at oentrel breaks.
Ki Keep. Keep query speeifioatiom in a library.
Li lead. Lead quary tpacifieatiom free a library.
It Ixao. iMewte tha quary.
0: Diet. Display tha data eleaent dictionary.
Mi bit. Dane with 08 for MM.
FIGURE 3.6-17
Two of the more commonly used options are the SORT and BREAK options.
Figure 3.6-18 demonstrates how Figure 3.6-16 would look had these options
been specified. The following two sections describe how Figure 3.6-18
was created.
3.6-20
-------�
DK/11/09 14:1*
ST CXTVNAM FACNAM
n ••••••••••••••••»••••••• •»»•»••••••••••••»••> ••••>••• •••••••• •••••••• ••••••••
m 6ALTWORI MCK RXVCR MHTP 179.lt 24.00 17.00 I.IO
m BAITXMMI PATAPSCO Ml TWTHT PLANT S4.27 43.00 71.00 4.2O
ND CUMBERLAND
«PLMlfp)t AMR
M4FTCPIhJIPW
NO IRON POT LANDZNB
WICSTtRNPORT
•^OEap i o»«w^TpWm •
•• •••••••••••••••••••
ra •••• n ••••••>-•*••• ••
OUNO TOTALSi
213.39
2
CLMCRLAND lOffP IB *U
«M>V^B^I*Htjp9W P^T^ 1 f AW* OVA
MADI oT OlAi BTMWTOV rAltfl IA olV
nHrkK NMM rWKEwl NT bJIW •%•• Tr
27. 7B
2
HESTCRN BRANCH NWTP 12.81
12.01
1
LMK MfTP tt 4A
l^r^^ vwvir ftC.^W
22.40
1
274.31
4
•9.00
2
9 Ml
.IMP
W Ml
97. Qw •
•••••••• I
44.00
2
4.00
4.00
1
Mint
• IMP
24.00
1
141.00
4
112.00
1
UM
• IPII
u.oo
1
B.OO
c.oo
1
__ --
f9 • DV
73.00
1
201.00
1
4.70
2
_______
••••••••
0.00
0
••••••••
0.00
0
0.00
0
BMHHB
4.70
2
FIGURE 3.6-18
Sortine:
At the Main Menu:
Select "S" (Press Enter).
At the Sort menu:
Select "N" to specify the new sort criteria. (Press Enter)
At the "Enter Specification" prompt:
Type in the data element by which you would like the
information sorted. Specifying CITYNAM and FACAME
will sort cities alphabetically and then the
facilities within those cities alphabetically (Press
Enter).
Select "X" to exit to the Main menu (Press
Enter).
(NOTE: You must enter output specifications before you can enter sorting
specifications.)
3.6-21
-------�
Breaking:
At the Main Menu:
Select "B" to create a break and obtain data totals (Press Enter).
At the Break menu:
Select "N" to enter new break criteria (Press Enter).
At the "Enter Control Break" prompt:
Type in the data element you would like to use for
breaking. Specifying CITYNAM will create a break with
the totals for each city. The system will also
generate a grand total for all facilities (Press
Enter).
Select "X" to exit to the Main Menu (Press
Enter).
(NOTE: You must enter sorting specifications before you can enter breaking
specifications.)
Saving a Query:
At the Main Menu:
Select "K" to keep the query (Press Enter).
At the "Library" prompt you may save the query in the default
library or you may save it in another library. The default
library is XXXNEED.QUERY.SPECS where XXX is vour user ID.
To use the default library, press Enter.
To use another library, type in the data set and press Enter.
At this point, the procedure used will depend on whether or not you have
already "kept" <>£ "loaded" a query during this logon session:
If you have "kept" (or "loaded") a query during this logon session,
General Query will give you the name of that query and ask "Do you want to
use it again?"
Type Y if you would like to save the query under the same name as
before (Press Enter). A prompt will appear telling you that the
specifications are being saved.
3.6-22
-------�
At the description prompt:
Type in the query description (Press Enter).
Press Enter to continue.
You will be returned to the Main Menu. The query has been saved
and is ready for execution or modification.
Type "N" if you would like to save your query under a different
name than before (Press Enter). A table listing all of the
queries you have saved thus far will appear.
At the Member name or Number prompt:
Type in the new Member Name for the query (Press Enter). A
prompt will then appear informing you that the
specifications are being saved.
At the Description prompt:
Type in a description that will help you identify the
query in the future (Press Enter).
Press Enter again to Continue.
You will be returned to the Main Menu. The new query has
been saved and is ready for execution or modification.
If you have not "kept" (or "loaded") a file during this query session, a
table listing all of the queries you have saved thus far will appear.
At the "Member Name or Number" prompt:
Type in the new Member name for this query (Press Enter). A
prompt will then appear telling you the specifications are being
saved.
At the "Description" prompt:
Type in a description that will help you identify the query in the
future (Press Enter).
Press Enter again to Continue.
You will be returned to the Main Menu. Then new query has been
saved and is ready for execution or modification.
3.6-23
-------�
Loading a Query:
At the Main Menu:
Select "L" to load a query (Press Enter).
At the "Library" prompt you may load the query from the default
library or you may load from another library:
To use the default library, press Enter.
To use another library, type in the data set and press
Enter.
At this point, the procedures will depend on whether or not you
have already "loaded" (or "saved") a query during this logon
session:
If you have not already "loaded" (or "saved") a file during this
logon session, a table listing all of the queries in your library
will appear.
At the "Member Name or Number" prompt:
Type in the Member Name or Number of the desired query
(Press Enter). A prompt will then appear telling you that
the specifications are being loaded.
Press Enter to continue.
You will be returned to the Main Menu. The query has been
loaded nnd is now ready for execution or modification.
If you have already "loaded" (or "saved") a query during this
query session, General Query will give you the name of that
query and ask "Do you want to use it again?"
Type "Y" if you would like to load the same query you
loaded before (Press Enter). A prompt will appear
telling you that the query is being loaded.
Press Enter to continue.
You will be returned to the Main Menu. The query has
been loaded and is ready for execution or modification.
Type "N" if you would like to load another query (Press
Enter). A table listing all of the queries in your
library will appear.
At the "Member Name or Number" prompt:
3.6-24
-------�
Type in the Member Name or Number of Che query you
would like to obtain (Press Enter). A prompt will
then appear telling you that the query is being
loaded.
Press Enter to Continue.
You will be returned to the Main Menu. The new
query has been loaded and is ready for execution
and modification.
Options at the Criteria Menu:
Some of the options available at the Criteria menu which were not described in the
Case Studies can be seen in Figure 3.6-19.
stucTXON CRXTERXAI mi NAVI rm FOLUMENE crams
X: DOT RETURN TO THE NAXN MENU.
N: NEH ENTER ALL MEN DATA SCREEMXNE SPECIFICATIONS.
L: LIST DISPLAY TOE SCREENINS SPECIFICATIONS ALREADY PRESENT.
I: EDIT MODIFY TNE SCREENZN6 SPECIFICATIONS FOR THIS QUERY.
A: ABO ADO ADDITIONAL SCREENINB SPECIFICATIONS.
Figure 3.6-19
Listing:
At the Criteria Menu:
Select "L" to list the existing criteria (Press Enter).
Review the criteria.
Press Enter to Continue.
Editing:
Select "E" to edit the criteria (Press Enter).
At the "Enter the # of the criterion to replace" prompt:
Select a number and enter the new criterion (Press Enter)
Press Enter to Continue.
3.6-25
-------�
Adding:
If you would like to add Co the existing criteria:
Select "A" to add new criteria (Press Enter).
At the "Enter new connector" prompt:
Type in the appropriate connector for the last criterion
used (Press Enter).
At the "Criterion" prompt:
Type in the additional criteria (Press Enter).
Options at the Output Menu:
Some options available to the user which were not covered in the Case Studies
can be seen in Figure 3.6-20:
OUTPUTi YOU NAVE THE FOLLONXND OPTIONS!
X: DOT. DONE SPECIFYING TIC OUTPUT FORMAT.
N: NEN. ENTER ALL NEN OUTPUT SPECIFICATIONS.
L: LIST. DISPLAY THE OUTPUT SPECIFICATIONS ALREADY ENTERED.
Ii EDIT. HAKE MODIFICATIONS TO TNE EXISTINB OUTPUT SPECS.
A: ADO. ADO MEN SPECIFICATIONS TO THOSE ALREADY STORED.
S: STD. SELECT ONI OF TNE STANDARD. FUSO-FORMAT REPORTS.
Ut USE*. TURN OFF STANDARD REPORT AND LIT YOU SPECIFY THE FORMAT.
T: TXTL. ENTER REPORT TTTLEIS).
Ft FILE. DIRECT REPORT OUTPUT TO A DATA FILE.
Figure 3.6-20
Listing:
Follow the same procedure described for the Criteria Menu.
Editing:
Follow the same procedure described for the Criteria Menu.
Adding:
At the Output Menu:
3.6-26
-------�
Select "A" to add more output specifications (Press Enter).
At the "Enter Specification" code:
Type in the name of the element you would like to add to the
output criteria (Press Enter).
Titles:
Select "T" to enter a report title for your output (Press Enter).
At the "Enter your Report Title" prompt:
Type the desired title (Press Enter).
Printing:
Select "F" to send the output to a specified location.
At the "Direct the results to..." prompt:
Select "P" if you would like to send the output to a printer
(Press Enter).
Select "X" to return to the Main Menu (Press Enter).
At the Main Menu:
Select "E" to execute the query (Press Enter).
After the "Records Selected" prompt:
Press Enter to Continue. The following prompts will
appear on your screen. Enter the appropriate response
(Press Enter after each):
Destination: XXX (This is your printer number)
Copies: XX (Specifies # of copies)
Bin/Box: XXX (This is your Bin or Box Number)
Press Enter again and you will see a "Print Complete"
message.
Select "R" to return to the Main Menu to redo a query
or begin another query.
Press Enter to return to General Query.
3.6-27
-------�
3.6.7 Complete Documentation
For more information on General Query contact:
Ruby Cooper or Don Rockwell
US EPA (WH-595)
Municipal Facilities Division (Same Address)
401 H St, SW
Washington, DC 20460
Phone: (FTS) 382-7296 (FTS) 382-7251
(202) 382-7296 (202) 382-7251
3.6-28
-------�
ATTACHMENT A 3.6
3.6-29
-------�
NEEDS SURVEY DATA ELEMENT DICTIONARY
-------�
NEEDS SURVEY DATA ELEMENT DICTIONARY
This Needs Survey data element dictionary contains information
about over 230 data elements in the Needs Survey data base, organized
by the following subject categories:
FACILITY NAME/LOCATION DATA
FACILITY DESCRIPTION CODES
EPA NEEDS DOLLAR ESTIMATES
GRANT/LOAN DEDUCTION
DOCUMENTATION DATA
POPULATION DATA
FLOW DATA
EFFLUENT DATA
CONCENTRATION DATA
TOXIC CODES
UNIT PROCESS DATA
PHASED/SEGMENTED & NON-PHASED/NON SEG. INFORMATION
RECEIVING WATER DATA
COMPLIANCE DATA
STATE NEEDS DOLLAR ESTIMATES
STATE DATA ELEMENTS
MISCELLANEOUS DATA ELEMENTS
ADP DATA ELEMENTS
Each data element in this dictionary contains the following
information as shown by example below:
Data Element Name (Can be up to 7 characters in length)
Field Length
indexed in Needs data base? (Y or N)
Needs Survey Data Screen Location
(F, P, Q, E, U, M, D. S, A)
Short Description of Data Element
•
: Definition
V
PPRRT
V
V
8 Y P PRESENT RESIDENT POPULATION :
Present resident population currently receiving treatment
at the facility
-------�
FAQUTY NAME/LOCATION DATA
FACTO 9 Y P AUTHORmf/FAOLnY NUMBER
Facility Identification Number (99-9999-999 - State-Authority-Facility)
FACNAME 25 Y F FAOUTYNAME
Name of facility according to the local fewer authority
AUTHNAM 25 N F AUTHORTrYNAME
Non-Federal unit of government responsible for managing wastewater treatment and collection
OTYNAM 25 Y F CRY NAME
City where facility is physically located
CNTYNAM 25 Y F COUNTY NAME
County where facility is physically located
CNTYNUM 5 Y F COUNTY NUMBER
County Number (State ID plus FIPS-6 numeric code)
CNGDIST 4 Y M CONGRESSIONAL DISTRICT
Congressional district where the facility is physically located
DUNBRAD 3 of 15 N M DUNN ft BRADSTREET NUMBERS
Dunn & Bradstreet numbers which correspond to the facility
PLACE 4 N M PLACE CODE
Place code from the US Census which is used to identify the city limits or incorporated area in which an
authority or facility is located
SMSA 4 N — SMSA NUMBER
A four digit number indicating that the facility is located within a Standard Metropolitan Statistical Area
REGION 2 Y SS EPA REGION
EPA Region code (01,02,...10)
STATE 2 Y SS ALPHABETIC STATE CODE
Two digit alphabetic code representing each State name
NPDES 9 Y F NPDES NUMBER
National Pollutant Discharge and Elimination System permit number
FACILITY DESCRIPTION CODES
FACSTAT 1 Y F FAOLTTY STATUS
The operational status of a facility as of January 1, 1988:
1: In operation
2: Not in operation
-------�
PRESNAT 1 Y P PRESENT FAOLTIY TYPE
The type of existing facility (see PROJNAT)
PROJNAT 1 r F PROJECTED FACILITY TYPE
The type of facility projected for the future (PRESNAT & PROJNAT use the same following codes):
1: Treatment system w/ combined sewers
2: Treatment system w/ separate sewers
3: Regional treatment plant
4: Collection system w/ separate sewers
5: Collection system w/ combined sewers
6: Facility classified as 'other*
7: System for bulk transmission of wastewater
8: Sludge handling facility
9: Individual on-site system area
0: Non-centralized system (e.g. duster systems)
A: Interim treatment system with combined sewers
B: Interim treatment system with separate sewers
C: Interim regional treatment facility
D: Treatment plant which provides partial treatment
and then discharges to another facility
FACCHNG 1 Y F
Type of change for the facility:
1: Enlargement
2: Upgrade
3: Enlarge & Upgrade
4: New construction
5: Replacement
6: Abandonment
7: No change planned
8: Other
9: Abandon plant, keep sewer system
FACILITY CHANGE
EPA NEEDS DOLLAR ESTIMATES
NEDI
EPA DESIGN $ CAT I
NEDD Y EPA DESIGN $ CAT D
NEDfflA Y EPA DESIGN $ CAT IDA
NEDniB Y EPA DESIGN $ CAT IHB
NEEHVA y EPA DESIGN $ CAT IVA
NEDIVB Y EPA DESIGN $ CAT IVB
NEDV Y EPA DESIGNS CAT V
EPA Design Year Dollars • Cost estimate required to satisfy the needs of the year 2008 population (in
thousands of S)
NECJ 8 Y F EPA CURRENT $ CAT I
NECD 8 Y F EPA CURRENT S CAT 0
NECDIA 8 Y F EPA CURRENT $ CAT IDA
NECfflB 8 Y F EPA CURRENT S CAT
-------�
NECIVA 8 Y F EPA CURRENT $ CAT IVA
NEOVB 8 Y F EPA CURRENT $ CAT IVB
NECV 8 Y F EPA CURRENT $ CAT V
EPA Current Year Doll an • Cost estimate required to satisfy the needs of the current population on January
1, 1988 (in thousands of $)
NEDTOT 8 Y - EPA DESIGN $ TOTAL NEEDS
Sum of EPA design year (2008) dollars for categories I, II, UIA, U1B. IVA, IVB, V (in thousands of $}
NEDIAH 8 Y — EPA DESIGN I CAT I AND n
Sum of EPA design year^ollan for treatment categories I, D (in thousands of $)
NEDELIG 8 Y - EPA DESIGN $ ELIGIBLE NEEDS
Sum of EPA design year dollars for categories I, El, D1A, IVB (eligible needs) (in thousands of S)
NEDTEXV 8 Y - EPA DESIGN $ TOTAL EXCEPT CAT V
Sum of EPA design year dollars for categories 1, II, IIIA, IVA, IVB (excluding Cat V CSO) (in thousands of
$)
NECTOT 8 Y - EPA CURRENT $ TOTAL
Sum of EPA current year dollars for categones I, II, IIIA, 1IIB, IVA, IVB, V (in thousands of S)
NEOAD 8 Y - EPA CURRENT $ CAT I AND D
Sum of EPA current year dollars for treatment categories 1, II (in thousands of S)
NECELIG 8 Y - EPA CURRENT S ELIGIBLE NEEDS
Sum of EPA current year dollars for categories I, II, IIIA, IVB (eligible needs) (in thousands of $)
NECTEXV 8 Y — EPA CURRENT S TOTAL EXCEPT CAT V
Sum of EPA current year dollars for categones I, II, IIIA, IIIB, IVA, IVB (excluding Cat V CSO) (in thousands
of$)
GRANT/LOAN DEDUCTION
GREDNDS 4 of 8 N F GRANT/LOAN DEDUCTION
Grant or Loan deduction number which reduced seeds
DOCUMENTATION DATA
Doa
DOCH
DoanA
Docnm
DOOVA
Y
Y
Y
Y
Y
DOOVB 3 Y
DOCV 3 Y
DOCUMENTATION SOURCE CAT 1
DOCUMENTATION SOURCE CAT D
DOCUMENTATION SOURCE CAT
DOCUMENTATION SOURCE CAT DIB
DOCUMENTATION SOURCE CAT IVA
DOCUMENTATION SOURCE CAT IVB
DOCUMENTATION SOURCE CAT V
Code which identifies the type of planning document which justifies the need and/or cost estimate:
01: Capita] Improvement Plan
-------�
02: Infiltration/Inflow Analysis
03: Sewer System Evaluanon Survey
04: Final Engineer Estimate
05: Cost of Previous Comparable Construction
06: Facilities Plan
07: Plan of Study
08: State Priority List
09: State Approved Area-Wide Plan (208's, 303's)
10: Grant Application Form (Step 3 or 4)
11: Municipal Compliance Plan
12: Diagnostic Evaluation of a Treatment Plant Demonstrating a Need for Construction
13: Administrative Order/Court Order Consent Decree
14: Sanitary Survey (Documenting High Failure Rates) or Certification from a Health Official that a Health
Emergency Exists
15: State-Approved Local/County Comprehensive Water & Sewer Plan
16: State Cernficaoon of Excessive Flow
17: State-Approved Municipal Wasteload Management Plan
18: EPA HQTS Approved
19: Grant Award Satisfied All Needs
20: Grant Award Partially Satisfied Needs
The first two posioons of the EPA Docrype will contain a valid Doctype code (as shown above), and the
third will be blank or contain an Y (cost curve to be used for current and design needs) or a Y (cost
curve used only for current needs)
DOCITTL 40 N D DOCUMENTATION TITLE
Title of the planning document which was used to document need or cost
DOCAUTH 30 N D DOCUMENTATION AITTHOR
Planning document author (usually an engineering consulting firm)
DOCDATE 6 N D DOCUMENTATION DATE (YR/MO/DY)
Date that the planning document used to justify a need was published
DOCCOM1 75 N D DOCUMENTATION COMMENTS (LINE 1)
DOCCOM2 75 N D DOCUMENTATION COMMENTS (LINE 2)
DOCCOM3 75 N D DOCUMENTATION COMMENTS (LINE 3)
DOCCOM4 75 N D DOCUMENTATION COMMENTS (LINE 4)
DOCCOMS 75 N D DOCUMENTATION COMMENTS (LINE 5)
Facility specific comments recorded during the Needs Survey data collection period; generally describe
reasons for needs adjustments, grants, and technical data
POPULATION DATA
POPROW IN — FAOUTY POPULATION ROW NUMBERS
Line which contains population data row numbers (1,2,3,4) from the NEW86 EPA-1 form
1 • Population receiving treatment
2 - Population not receiving treatment
3 - Population receiving collection
4 • Population not receiving collection
-------�
PPRRT 8 Y P PRESENT RESIDENT POPULATION RECEIVING TREATMENT
Present resident population turrently receiving treatment at the facility
PFRRT 8 Y P FUTURE RESIDENT POPULATION RECEIVING TREATMENT
Projected 2008 resident population expected to receive treatment at the facility
PPRNT 8 Y P PRESENT RESIDENT POPULATION - NO TREATMENT
Present resident population who reside in the service area of the facility but do not receive treatment at
the facility
PFRNT 8 Y P FUTURE RESIDENT POPULATION - NO TREATMENT
Year 2008 resident population projected to reside in the service area of the facility, but not to receive
treatment at the facility
PPRRC 8 Y P PRESENT RESIDENT POPULATION RECEIVING COLLECTION
Present resident population currently receiving collection (i.e., connected to a sewer system)
PFRRC 8 Y P FUTURE RESIDENT POPULATION RECEIVING COLLECTION
Projected year 2008 resident population expected to receive collection (i.e. be connected to the sewer
system)
PPRNC 8 Y P PRESENT RESIDENT POPULATION - NO COLLECTION
Present resident population currently nc: connected to a centralized sewer system
PFRNC 8 Y P FUTURE RESIDENT POPULATION - NO COLLECTION
Projected year 2008 resident population not expected to be connected to the sewer system
NRSPRES 8 N P PRESENT NONRESIDENT POPULATION
A string of four population numbers listed under Present Nonresident:
• Present Nonresident population receiving treatment
• Present Nonresident population not receiving treatment
• Present Nonresident population receiving collection
• Present Nonresident population not receiving collection
NRSPRES should be used with POPROW in General Query to identify population row numbers
NRSFUTR 8 N P FUTURE NONRESIDENT POPULATION
A string of four population numbers listed under Future Nonresident:
• Future Nonresident population receiving treatment
- Future Nonresident population not receiving treatment
- Future Nonresident population receiving collection
- Future Nonresident population not receiving collection
NRSFUTR should be used with POPROW in General Query to identify population row numbers
PPRTANT 8 Y — PRESENT RESIDENT TREATMENT SERVICE POPULATION
The total present resident treated and untreated population within the service area of the facility (PPRRT
f PPRNT)
-------�
PPNTANT 8 Y _ PRESENT NONRESIDENT TREATMENT SERVICE POPULATION
The total present nonresident treated and untreated population within the service area of the facility
PFRTANT 8 Y" — FUTURE RESIDENT TREATMENT SERVICE POPULATION
The total projected year 2008 resident treated and untreated population within the service area of the
facility (PFRRT •*• PFRNT)
PFNTANT 8 Y _ FUTURE NONRESIDENT TREATMENT SERVICE POPULATION
The total projected year 2008 nonresident treated and untreated population within the service area of the
facility
PPRCANC 8 Y — PRESENT RESIDENT COLLECTION SERVICE POPULATION
The total present resident sewered and unsewered population within the service area of the facility (PPRRC
+ PPRNC)
PPNCANC 8 Y — PRESENT NONRESIDENT COLLECTION SERVICE POPULATION
The total present nonresident sewered and unsewered population within the service area of the facility-
for example, transient, seasonal, and tounst populations
PFRCANC 8 Y — FUTURE RESIDENT COLLECTION SERVICE POPULATION
The total projected year 2008 sewered and unsewered population within the service area of the facility
(PFRRC + PFRNC)
PFNCANC 8 Y - FUTURE NONRESIDENT COLLECTION SERVICE POPULATION
The total projected year 2008 nonresident treated and untreated population within the service area of the
facility who may contribute flow to the sewer system; for example, transient, seasonal, and tourist
populations
FLOW DATA
FEXTOT 7 Y Q TOTAL EXISTING FLOW
Actual 12 month average flow through the plant; includes domestic, commercial, institutional, and I/I flow
(MOD)
FPDTOT 7 Y Q TOTAL PRESENT DESIGN FLOW
Total current design flow capacity of the plant; includes presently anticipated domestic, commercial,
institutional, and I/I flow (MOD)
FFDTOT 7 Y Q TOTAL FUTURE DESIGN FLOW
Total projected year 2008 design flow of the plant; includes future anticipated domestic, commercial,
institutional, and I/I flow (MOD)
FEMND 7 Y Q EXISTING INDUSTRIAL FLOW
Actual industrial flow component of the total flow (12 month avg) (MOD)
FPDIND 7 Y Q PRESENT DESIGN INDUSTRIAL FLOW
The amount of industrial flow that the plant is currently designed to receive (MOD)
FFDIND 7 Y Q FUTURE DESIGN INDUSTRIAL FLOW
The industrial flow that the plant is anticipated to receive in the year 2008 (MGD)
-------�
FEXDOM 7 Y Q EXISTING NOMNDUSTR1AL FLOW
Current nonindustrial flow derived from Total • Industrial (MOD)
FPDDOM 7 Y Q PRESENT DESIGN NONINDUSTRIAL FLOW
Present design nonindustnal flow derived from Total • Industrial (MOD)
PFDDOM 7 Y Q FUTURE DESIGN NONINDUSTRIAL FLOW
Projected nonidustrial flow derived from Total • Industrial (MOD)
DATA
EFFPRES 1 Y P PRESENT DESIGN EFFLUENT CODE
Code which describes the present design effluent classification (tee EFFPROJ)
EFFPROJ 1 Y P PROJECTED DESIGN EFFLUENT CODE
Code which describes the projected design effluent description once the need is satisfied. (Based upon
permitted BOD limits) Both EFFPRES & EFFPROJ use the following codes:
0: No discharge
1: Raw discharge
2: Primary (BOD GT 45 mg/1)
3: Advanced Primary (BOD GE 31 & LE 45 mg/1)
4: Secondary (BOD GE 24 & LE 30 mg/1 or 85% removal)
5: Advanced Treatment I (BOD GE 10 & LE 23 and/or nutrient removal)
6: Advanced Treatment II (BOD LT 10 and/or nutrient removal)
DISPUN IN — DISPOSAL OF LIQUID EFFLUENT LINE NUMBERS
Line which contains disposal of liquid effluent data row numbers (1,2,3,4) from the NEW86 EPA-1 form
DISPDSP 1 Y E LIQUID EFFLUENT DISPOSAL METHOD
Code which describes the method of liquid effluent disposal:
1: Outfall to surface waters
2: Ocean discharge
3: Deep well, groundwater recharge
4: Land disposal- non-agricultural
5: Reuse in industrial process
6: Septic tank, leach field
7: Other
8: No discharge
9: Spray irrigation
A; Overland flow discharge
B: Partially treated effluent discharged to another facility
D1SPUSE 1 N E LIQUID EFFLUENT DISPOSAL USE CODES
Code which describes the status of the liquid effluent disposal method:
1: Now in use
2: Under construction or funded
3: Planned, but not yet funded
4: Installed, but not in use
-------�
DISPCHG .1 N E LIQUID EFFLUENT DISPOSAL PROJECTED CHANGE
Code which describes the planned change in the liquid effluent disposal method:
1: Enlarge (increase hydraulic capacity)
2: Upgrade (improvements planned)
3: Enlarge and Upgrade
A: New construction (totally new method will be installed)
5: Replace existing system
6: Abandon method
7: No change
8: Other change
DATA
CpNCUN IN- CONCENTRATIONS LINE NUMBERS
Line which contains concentration data row numbers (4 to 7) from the NEW86 EPA-1 form
4 -BOD
5 • Suspended Solids
6 • Phosphorus
7 - Ammonia
CEXEFBO 7 Y E EXISTING BOD EFFLUENT CONCENTRATION
Actual measured 12 month average BOD effluent concentranon (mg/1)
CPDEFBO 7 Y E PRESENT DESIGN BOD EFFLUENT CONC
Present BOD effluent concentration that the plant is currently designed to achieve (mg/1)
CFDEFBO 7 Y E FUTURE DESIGN BOD EFFLUENT CONC
Future BOD effluent concentration that the plant will be designed to achieve (mg/1)
CEXEFSS 7 Y E EXISTING SS EFFLUENT CONCENTRATION
Actual measured 12 month average suspended solids effluent concentration (mg/1)
CPDEFSS 7 Y E PRESENT DESIGN SS EFFLUENT CONC
Present suspended solids effluent concentranon that the plant is currently designed to achieve (mg/1)
CFDEFSS 7 Y E FUTURE DESIGN SS EFFLUENT CONC
Future suspended solids effluent concentration that the plant will be designed to achieve (mg/1)
CEXEFP 7 Y B EXISTING P EFFLUENT CONCENTRATION
Actual measured 12 month avenge phosphorus effluent concentration (mg/l)
CPDEFP 7 Y E PRESENT DESIGN P EFFLUENT CONC
Present phosphorus effluent concentration that the plant is currently designed to achieve (mg/1)
CFDEFP 7 Y E FUTURE DESIGN P EFFLUENT CONC
Future phosphorus effluent concentration that the plant wfll be designed to achieve (mg/1)
CEXEFNH 7 Y E EXISTING NH3 EFFLUENT CONCENTRATION
Actual measured 12 month average ammonia effluent concentration (mg/1)
8
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CPDEFNH 7 Y £ PRESENT DESIGN NH3 EFFLUENT CONC
Present ammonia effluent concentration that the plant is currently designed to achieve (mg/1)
CFDEFNH 7 Y E FUTURE DESIGN NH3 EFFLUENT CONC
Future ammonia effluent concentration that the plant will be designed to achieve (mg/1)
CONCEM 7 N — EXISTING INFLUENT CONCENTRATIONS
A stnng of four concentration values listed under Existing Influent (mg/1):
•BOO
- Suspended Solids
• Phosphorus
. Ammonia
CONCEXI should be used with CONCLJN in General Query to identify line numbers
CONCEXE 7 N — EXISTING EFFLUENT CONCENTRATIONS
A stnng of four concentration values listed under Existing Effluent (mg/1):
•BOD
• Suspended Solids
• Phosphorus
• Ammonia
CONCEXE should be used with CONCUN in General Query to identify line numbers
CONCPRI 7 N — PRESENT DESIGN INFLUENT CONCENTRATIONS
A stnng of four concentration values listed under Present Design Influent (mg/1):
• BOD
. Suspended Solids
• Phosphorus
• Ammonia
CONCPRI should be used with CONCUN in General Query to identify line numbers
CONCPRE 7 N — PRESENT DESIGN EFFLUENT CONCENTRATIONS
A string of four concentration values listed under Present Design Effluent (mg/1):
.BOD
• Suspended Solids
• Phosphorus
- Ammonia
CONCPRE should be used with CONCUN in General Query to identify line numbers
CONCPUI 7 N — FUTURE DESIGN INFLUENT CONCENTRATIONS
A string of four concentration values listed under Future Design Influent (mg/1):
.BOD
- Suspended Solids
- Phosphorus
-------�
Ammonia
CONCFUI should*!* used with CONCLIN in General Query to identify line numbers
CONCFUE 7 N — FUTURE DESIGN EFFLUENT CONCEKTRAT1ONS
A smng of four concentration values listed under Future Design Effluent (mg/1):
•BOD
- Suspended Solids
- Phosphorus
- Ammonia
CONCFUE should be used with CONCLIN in General Query to identify line numbers
TOXIC CODES
TOXLIN IN- TOXIC CODE LINE NUMBERS
Line which contains toxic code data row numbers (1 to 8) from the NEW86 EPA-1 form)
TOXCODE 4 Y E TOXIC CODES
Toxic codes representing known toxics in the influent to a facility.
UNIT PROCESS DATA
TREATLN 2 N — TREATMENT AND SLUDGE HANDLING UNIT PROCESS SEQUENCE
NUMBERS
Line which lists in order the sequence of unit processes found in the treatment plant Used with
TREATTR. TREATUS, and TREATCH when generating data from General Query
TREATTR 2 Y U UNIT PROCESS DESCRIPTION
Unit process code description.
TREATUS 1 Y U UNIT PROCESS STATUS
Codes identifying current sums of unit processes:
1: Now in use
2: Under construction or funded
3: Required but not yet funded
4: Installed but not in use
TREATCH 1 Y U UNIT PROCESS CHANGE
Codes showing projected change to unit processes:
1: Enlarge
2: Upgrade
3: Enlarge and Upgrade
4: New construction (totally new method will be installed)
5: Replace existing system
6: Abandon
10
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7: No change planned
8: Other undefined change
PHASED/SEG. & NON-PHASED/NON-SEG. INFORMATION
PSUNE IN — PHASED/SEGMENTED AND NONWASED/NON-SEGMENTCD
INFORMATION LINE NUMBERS
Line which contains phased/segmented column numbers on the NEW66 EPA-1 form
PSSTAT 1 Y M PHASED/SEGMENTED AWARD STATUS
A "C" code indicated that the project is grandfathered under the 1981 OVA amendments
PSGICS 9 N M PHASED/SEGMENTED GIGS NUMBER
The GIGS number that grandfathered the project
PSCOST 9 N M PHASED/SEGMENTED PROJECT COST
Total dig. costs for a project (S)
PSDATE 6 N M PHASED/SEGMENTED FUNDING DATE
The date of the Step 3 grant award chat grandfathered the project (YR/MO/DY)
PSYORN 1 N M PHASED/SEGMENTED?
Is the project phased segmented? (V or N)
PSI 1 N M PHASED/SEGMENTED CAT 1
PSD 1 N M PHASED/SEGMENTED CAT D
PSmA 1 N M PHASED/SEGMENTED CAT IHA
PSIVB 1 N M PHASED/SEGMENTED CAT IVA
The categories of need which are grandfathered (the boies will be marked with in X)
RECEIVING WATER DATA
RWDBASN 3 N M RECEIVING WATER SUBBASN NUMBER
Subbasin number in which the facility is located
CUSEGM 10 Y M RECEIVING WATER REACH NUMBER
CUSEGMI contains Ac reach number and the mile point This data element is used as a connection to
other IHS data bases
RWDLOC 4 N M RECEIVING WATER LOCATION CODES
Code which identifies the background information about reach identification:
0: Non-discharging facility, projected reach assigned
1: EPA Industrial Facilities Discharge (IFD) used to identify catalog and segment numbers
2: NPDES permit used to identify catalog and segment numbers
3: State-supplied information used to identify catalog and segment numbers
4: Rule-of-Thumb - city center used to identify nearest catalog and segment Catalog and segment within
8 miles of city center
11
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5: EPA hydro/alpha directory of reaches used to identify catalog and segment numbers
6: Rule-of-Tbumb • EPA CityJMaster File (CMF) provided supplemental city information about catalog
and/or segment numbers
7: Receiving stream name~sup~plied through EPA advanced treatment review
8: Facility plan provided lac/long or legal information
9: Actual lat/long unavailable • head of reach default used
A: Other
RWDLAT 7 N M FAOLTTY LATTTUDE
Lanrude where a facility discharges to a reach (deg/min/sec)
RWDLONG 7 N M FAOLTIY LONGITUDE
Longitude where a facility discharges to a reach (deg/min/sec)
RWDUSE 6 Y M STREAM USE CLASSIFICATION
Generic codes representing State designated stream use classification for each stream receiving a municipal
discharge:
01: Aquanc, fish, wildlife support
03: Warm water
04: Cold water
08: Shellfish protection
09: Seasonal
10: Raw domestic water supply
20: Agricultural
30: Industrial
40: Recreaoon
42: Full body contact
44: Partial body contact
46: Noncontact
49: Seasonal
50: Naviganon
60: Urban, case-by-case, marginal
70: Nondegredan'on
80: Other
COMPLIANCE DATA
COMPNON 1 N M COMPLIANCE STATUS
Compliance status u of the date listed in COMPDAT; Le., is the facility in compliance? (Y/N)
1 Y M MAJOR/MINOR STATUS
PCS facility classification:
A: Major
I: Minor
COMPSRC 5 Y M COMPLIANCE DATA SOURCE
Source of compliance status data:
I: PCS
12
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2: State
3: Needs
COMPDAT 6 N M COMPLIANCE DATE
Date compliance status was entered into the data base (YR/MO/DY)
COMPCOM 25 N M COMPLIANCE COMMENT
Free form comment concerning facility
STATE NEEDS DOLLAR ESTIMATES
NSD1
NSDD
NSDH1A
NSDQZB
NSDIVA
NSDIVB
NSDV
Y S STATE DESIGN $ CAT I
Y S STATE DESIGN S CAT D
Y S STATE DESIGN S CAT IDA
Y S STATE DESIGN $ CAT CTB
Y S STATE DESIGN $ CAT IVA
Y S STATE DESIGN $ CAT IVB
Y S STATE DESIGN S CAT V
STATE Design Year Dollars • Cost estimate required to satisfy the needs of the year 2008 population (in
thousands of $)
NSQ SYS STATE CURRENT S CAT I
NSCD SYS STATE CURRENT $ CAT D
NSCHIA SYS STATE CURRENT S CAT IDA
NSOEB SYS STATE CURRENT $ CAT OB
NSCIVA SYS STATE CURRENT S CAT IVA
NSCIVB SYS STATE CURRENT S CAT IVB
NSCV SYS STATE CURRENTS CAT V
STATE Current Year Dollars- Cost estimate required to satisfy the needs of the current population on
January 1,1988 (in thousands of S)
SDd SYS STATE DOCUMENTATION SOURCE CAT I
SDCn 3 Y S STATE DOCUMENTATION SOURCE CAT D
SDCmA 3 Y S STATE DOCUMENTATION SOURCE CAT IDA
SDCfflB 3 Y S STATE DOCUMENTATION SOURCE CAT DIB
SDOVA SYS STATE DOCUMENTATION SOURCE CAT IVA
SDaVB SYS STATE DOCUMENTATION SOURCE CAT IVB
SDCV 3 Y S STATE DOCUMENTATION SOURCE CAT V
Hie first two positions of the STATE reason code will b« used to enter
XT for growth
*S* for septic system
TV for replacement
*C for different cost estimate
T for ineligible costs
'A' for CSO projects
*O* for other
NSDTOT S Y - STATE DESIGN $ TOTAL NEEDS
Sum of STATE design year dollars for categories I, II, II1A, I1IB, IVA, IVB, V (in thousands of S)
13
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NSDIAD 8 Y — STATE DESIGN $ CAT I AND D
Sum of STATE design year dollars for categories I, II (in thousands of S)
NSDELIG BY — STATE DESIGN $ ELIGIBLE NEEDS
Sum of STATE design year $ for categories I, II, IIIA, IVB (in thousands of S)
NSDTEXV 8 Y - STATE DESIGN S TOTAL EXCEPT CAT V
Sum of STATE design year dollars for categories I. 0. HIA, KB, FVA, IVB (excluding Cat V CSO) (in
thousands of $)
NSCTOT 8 Y — STATE CURRENT $ TOTAL NEEDS
Sum of STATE current year dollars for categories I, D, IIIA, DIB, IVA, IVB, V (in thousands of $)
NSOAD 8 Y — STATE CURRENT $ CAT I AND D
Sum of STATE current year dollars for categories I, n (in thousands of $)
NSCELIG 8 Y - STATE CURRENT $ ELIGIBLE NEEDS
Sum of STATE current year dollars for categones I, II, IIIA, IVB (in thousands of S)
NSCTEXV 8 Y — STATE CURRENT $ TOTAL EXCEPT CAT V
Sum of STATE currenr year dollars for categories IJI, IIIA, IUB, FVA. IVB (excluding Cat V CSO) (in
thousands of S)
STATE DATA ELEMENTS
AST01
AST02
AST03
AST04
AST05
AST06
AST07
AST08
AST09
ASTIO
AST11
AST12
AST13
ASTH
AST15
AST16
AST17
AST18
AST19
AST20
AST21
AST22
AST23
AST24
AST25
Alphabetic
it to assist
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
25
N S
N S
N S
N S
N S
N 2
N 2
N 2
N 2
N 2
N 2
N 2
N 2
N 2
N 2
N 2
N 2
N 2
N 2
N 2
N 2
N 2
N 2
N 2
N 2
fields created primarily
data storage and water
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
STATE ALPHABETIC FIELD
for State use. States can define each element and how they will use
quality analysis
14
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NST01I
NST021
NST03I
NST04I
NSTOSI
NST06
NST07
N5T08
NSTO9
NST10
NST11
NST12
NST13
NST14
NST15
NSTJ6
NST17
NST18
NST19
NST20
NST21
NST22
NST23
NST24
NST25
6
6
6
6
Numeric fields created
but to better facilitate
Y S STATE
Y S STATE
Y S STATE
Y S STATE
Y S STATE
N 2 STATE
N 2 STATE
N 2 STATE
N 2 STATE
N 2 STATE
N 2 STATE
N 2 STATE
N 2 STATE
N 2 STATE
N 2 STATE
N 2 STATE
N 2 STATE
N 2 STATE
N 2 STATE
N 2 STATE
N 2 STATE
N 2 STATE
N 2 STATE
N 2 STATE
N 2 STATE
for State use. The first
querying (Units chosen
NUMERIC FIELD - INDEXED
NUMERIC FIELD - INDEXED
NUMERIC FIELD • INDEXED
NUMERIC FIELD • INDEXED
NUMERIC FIELD - INDEXED
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
NUMERIC FIELD
five numeric fields are indexed in the Needs Survey data
by STATE)
r -ANEOUS DATA
COLLPOP 9 N M 1972 POPULATION REQUIRING COLLECTION
Resident October 18,1972 population who require sewers a* of January 1, 1972
COMMENT 4 N M 1984 SURVEY COMMENT CODES
Comment codes entered during the 1984 and previous Surveys
DISCHRG 9 Y F FAOUTY DISCHARGED TO
This field identifies the treatment facility A/F number which presently or eventually wfll receive flow from
the A/F no., which represenp a service area or collection system
PL92500 1 N M PROJECT FUNDING PJ. 92-500
Project was funded under PJ. 92-500 (Y or N)
ADP DATA, EtJ?UfMTS
RCODE 8 Y ADP CURRENT REVIEW CODE
Review code entered by a State. Region, or EPA HQ person to indicate the position of a facility record in
the update/review cycle: SH, SI, SE, DE, RA, RR, RI, HA, HR, HI
IS
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Section 3.7
Ocean Data Evaluation System
(ODES)
if
I
OJ
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3.7 OCEAN DATA EVALUATION SYSTEM (ODES)
3.7.1 Background
The Ocean Data Evaluation System (ODES) was developed for EPA's Clean
Water Act, Section 301(h) discharge program for the purpose of storing and
analyzing marine monitoring data. The Section 301(h) program provides for
case-by-case modifications of secondary treatment requirements for discharges
to marine waters by publicly-owned treatment works and is administered through
the issuance of modified National Pollutant Elimination System (NPDES)
permits. During the permit period, the discharger must conduct a
comprehensive monitoring program to demonstrate continued compliance with
permit conditions.
3.7.2 Description
The system consists of three basic components: user interface,
integrated data base and analytical tools. The user interface which has been
developed makes the system easy to access and no previous knowledge of
computer programming is required to operate the menu-driven system.
Additionally, users can access ODES via a local telephone call from virtually
anywhere in the U.S. using almost any type of PC equipped with a modem or
mainframe computer terminal. At the same time, the system has been designed
with built-in flexibility to allow advanced users direct access to the data
base and analytical tools. The ability has also been provided to directly
access the data base and download information from the system. Using ODES'
interactive data retrieval option, users can transfer a subset of data to a
personal or mainframe computer file in ASCII format. These data can then be
loaded into a wide variety of PC or mainframe software packages (e.g., SAS,
SPSS, Lotus 1-2-3) for the production of reports or ad hoc analyses using
tools not provided in ODES.
3.7-1
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All data in ODES are stored as SAS data sets. Since the data are
compiled from a large number of different monitoring programs and users,
standardized data submission procedures have been developed to ensure accurate
data entry. Key features of the data submission process include the use of
standard formats for marine data, developed by the National Oceanic and
Atmospheric Administration's National Oceanographic Data Center (NODC), and an
extensive quality assurance program. The quality assurance program includes
the use of system software to produce data integrity reports and descriptive
statistics for each file type. This information is then used by the technical
staff in a detailed review of each data set submitted. Finally, a quality
assurance report is produced which goes on-line with each data set.
The third component of the system is a set of statistical, graphical,
and modeling tools that enable the user to perform a wide variety of
statistical tests, conduct model simulations, summarize results and produce
reports and graphics. These tools include SAS statistical procedures such as
analysis of variance, regression, and correlation. ODES also provides models
for predicting particle deposition and organic sediment accumulation in the
vicinity of sewage outfalls and estimating initial dilution characteristics of
the effluent plume.
3.7.3 Current Status
ODES is a user friendly computer system for storing and analyzing marine
environmental monitoring data. ODES now contains over two million records and
data from a wide range of EPA programs including Section 301(h) and NPDES
discharge permit monitoring, Section 403(c), ocean dumping, and the National
Estuary Program.
ODES resides on EPA's IBM 3090 computer at the National Computer Center
and provides a range of statistical, graphical, and modeling tools that are
being used to design and evaluate monitoring programs and to determine short-
and long-term impacts of municipal and industrial discharges on the marine
environment. ODES also provides interactive procedures for the retrieval of
3.7-2
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data from the ODES data base to a user's PC or mainframe file. Recent
enhancements of the system include the ability to download both graphic and
parametric data directly into ARC/INFO Geographic Information System (CIS)
files.
3.7.4 Sources of Data
A wide variety of data may be collected as part of a marine monitoring
program, including: influent/effluent quality, receiving water quality,
benthic infauna and fish abundance, fish histopathology, bioaccumulation,
bioassay, and sediment physical/chemical characteristics. The data is
submitted by the individual dischargers in NODC format to contractors for
quality control and entry into the system. The data will be used to determine
continued permit compliance. This information will also be used as a basis
for permit reissuance decisions.
3.7.5 Examples of Use of Outputs
Several of the ODES tools can be used to assist in the design of
environmental monitoring programs, but the ODES Statistical Power Analysis
Tool (tool #14) is an example of a tool that was developed specifically to
provide quantitative evaluations of the adequacy and feasibility of monitoring
programs. Without such an evaluation of alternative sampling strategies
during the design phase, there is a risk of analyzing an excessive number of
samples (with associated high costs) or of analyzing too few samples to detect
real differences in measured values of the monitoring variable. In addition
to the statistical power analysis tool that has been developed for ODES, a
complementary guidance document has also been prepared that provides a review
of the basic concept of hypothesis testing and statistical power analysis.
The data developed in individual monitoring programs will be subjected
to various levels and types of analyses. These analyses include the
development and testing of specific hypotheses. Typically, the sequence of
activities associated with these analyses will begin with the use of ODES
3.7-3
-------�
Cools to qualitatively examine the relationship between environmental,
biological, and chemical variables. ODES provides a series of plotting and
mapping tools that have been developed to facilitate these types of analyses.
The mapping tools contain a series of national, regional and study-area maps
and provide the user with the ability to overlay monitoring data as well as
other data in the system onto these maps. These mapping tools can also be
used to display the results of the sediment accumulation model available on
ODES (DECAL Model). These mapping capabilities, coupled with the predictive
model, provide the user with the ability to evaluate how sediment accumulation
might affect biological resources or what effect changes in mass loading might
have on receiving water.
Recent enhancements to ODES provide the capability to convert and
download subsets of data into a format compatible with EPA's approved CIS
software, ARC/INFO. ODES now provides a series of user-friendly menus to
transfer both monitoring and mapping data from the ODES data base into
ARC/INFO format. CIS applications are designed to analyze data from a
geographic and spatial perspective. Specific analyses are used to highlight
geographic distributions of environmental characteristics and to identify
trends. The ODES-CIS connection offers a unique capability to perform
statistical and spatial analyses by refining analytical assumptions and
techniques.
ODES System Examples
To access ODES you first need to logon to the EPA NCC-IBM with a valid
USERID. Once logged on, simply type "ODES" at the "Ready" prompt to begin
your working session. ODES will first present a list of its BASIC OPTIONS.
All of the work you do in ODES is initiated by choosing one of the Basic
Options. ODES Basic Options are designed to make it easy to identify the
tool(s) and support options that will meet the user's needs. The following
examples describe the Contents, Fetch, Retrieve, and Tools options.
3.7-4
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Basic Potion C: Scanning the Contents of the ODES Data Base
The first option, Basic Option C, allows the user to scan a series of
hierarchical tables that provide information on the current contents of the
ODES data base. These tables provide summary information on available data at
varying levels of detail. The tables are organized according to the following
hierarchy: geographic regions, sampling programs, sampling stations, sampling
dates, and reference information for individual data sets. The Contents
section allows the user to identify the data he wishes to use with a
particular tool, and to review the technical comments for that data set. The
following screens show how a user would access this information for an Orange
County water quality data set.
3.7-5
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* ODES *
BASIC OPTIONS
* The following BASIC OPTIONS are available:
C - Scan CONTENTS of the ODES Data Base
D - Use the On-line DICTIONARIES
E - EXIT ODES
F - Show job status or FETCH reports and graphics
M - List the MENU of TOOLS
N = Review on-line NEWS
R - Interactive Data RETRIEVAL
T - Use a TOOL
> Please enter an option and press RETURN > C
Figure 3.7-1
3.7-6
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** Scan CONTENTS of the ODES Data Base **
* You can scan the CONTENTS of the ODES Data Base by viewing
summary tables that provide quick-access information about the
data types, monitoring stations or pipes, and dates stored in
the system. The categories below are hierarchical and you can
systematically scan the information stored in the data base by
viewing each.
G - GEOGRAPHIC Regions that have data stored in ODES.
P - Monitoring PROGRAMS within a Geographic Region.
S - Monitoring STATIONS or PIPES within a Geographic
Region or for a Monitoring Program.
R - REFERENCE Information and Quality Control (QC)
comments for individual datasets.
D - DATES for which data are available at a particular
Monitoring Station or Pipe (includes Reference ID).
* To scan the CONTENTS of an above category, enter the corresponding
letter, or enter B to return to Basic Options.
> Please enter G, P, S, R, D OR B > R
Figure 3.7-2
3.7-7
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REFERENCE Information and QC comments
* This CONTENTS option allows you to review technical comments
and descriptive information stored for individual ODES data
sets. All data stored in the ODES Data Base have been
reviewed for accuracy by the ODES Technical Staff. All
information for a particular data set is stored under a unique
Reference Number.
* The Reference Number contains the 3-4 character FILE TYPE
code, the 2 character ODES PROGRAM CODE, the 2 digit YEAR in
which the data were collected, and a 2 digit sequential SCAN
number. For example, the Reference Number for a benthic
survey data set (FILE TYPE-132) collected in 1980 (YEAR-80)
for San Diego (PROGRAM CODE-SD) during the first scan
(SCAN-01) would be 132SD8001.
> Please press RETURN to Continue or M for CONTENTS MENU >
Figure 3.7-3
3.7-8
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* You will now be asked to enter a Reference Number of interest.
You can search any FILE TYPE for any part of the Reference
Number (e.g., 132SD to search for all benthic survey data sets
for San Diego). A valid FILE TYPE must be entered.
> Please enter a Reference ID or M for CONTENTS MENU > 144WOC8601
Figure 3.7-4
3.7-9
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REFERENCE NUMBER: 144WOC8601 PAGE 1 OF 6
REGION CODE: SC REGION: Southern California Bight
PROGRAM CODE: OC PROGRAM: County Sanitation Districts of Orange Co
CONTACT: Al Ursic,
County Sanitation Districts of Orange County
TELEPHONE: (714) 540-2910
PROGRAM: 301(h)
DATA SET: Water Quality
NUMBER OF STATIONS SAMPLED: 17 stations (7 quarterly, 10 monthly stations)
NUMBER OF SAMPLING PERIODS: Three periods (Winter quarter; January, February,
March 1986)
TOTAL NUMBER OF OBSERVATIONS: 429 samples (single samples taken at multiple
depths at each station)
NUMBER OF VARIABLES MEASURED: 8 variables (ammonia, oil and grease, total
suspended solids, temperature, pH, salinity, dissolved oxygen, and
CONTINUED...
> Press RETURN to CONTINUE or M for CONTENTS MENU >
Figure 3.7-5
3.7-10
-------�
REFERENCE NUMBER: 144WOC8601 PAGE 2 OF 6
transmissivity).
SAMPLING EQUIPMENT USED: Rosette water sampler with twelve 8-L bottles,
Hydrola Model Surveyor II water quality analyzer, and Marteck IMS
profiling transmissometer.
ANALYTICAL TECHNIQUES: A gravimetric method was used to measure suspended
solids (modified U.S. EPA Method 413.2). Oil and grease were analyzed by
infrared spectrophotometry (modified U.S. EPA Method 160.1). Ammonia
was measured by colorimetry according to Strickland and Parsons (1968).
Dissolved oxygen, pH, and temperature were measured by probe. Salinity
was calculated from conductivity measurements. Light transmission was
measured using a transmissometer.
DATA SET VERIFIED BY THE SUBMITTER
GENERAL COMMENTS
Whole water samples were collected, and in situ measurements of pH,
salinity, temperature, dissolved oxygen, and transmissivity were made at
CONTINUED...
> Press RETURN to CONTINUE or M for CONTENTS MENU >
Figure 3.7-6
3.7-11
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REFERENCE NUMBER: 144WOC8601 PAGE 3 OF 6
17 stations at multiple depths during January 1986. Samples were taken from
seven quarterly stations representing two within-ZID stations and five
nearfield stations. Ten monthly stations representing one reference station,
one Z1D boundary-station, and eight nearfield stations were also sampled in
January. In February and March 1986, the 10 monthly stations were resampled.
Ammonia, oil and grease, and total suspended solids were measured at all
quarterly and monthly stations except Stations 1 which was sampled for fecal
coliform bacteria only.
Upon submission to ODES, data were checked for proper formats and
screened for impossible values. Permittees verified the accuracy of all data
and provided corrections for any errors. Independent technical review of
results was performed. The technical evaluation report reviewing this data
set is available from the ODES coordinator at the regional U.S. EPA office.
FIELD AND LABORATORY TECHNIQUES
A rosette sampler with 8-L Niskin bottles was used to collect whole
water samples from multiple depths at each water quality station. Aliquot
CONTINUED.
> Press RETURN to CONTINUE or M for CONTENTS MENU >
Figure 3.7-7
3.7-12
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REFERENCE NUMBER: 144WOC8601 PAGE 4 OF 6
were drawn off for oil and grease, total suspended solids, and ammonia
analyses. Salinity, temperature, pH, and dissolved oxygen were measured by
probe. Salinity was calculated from conductivity measurements. Light
transmission, as a measure water clarity, was measured using a
transmissoraeter.
The U.S. EPA method for total suspended solids was modified by the use
of membrane filters. Filter weights for total suspended solids method blanks
were lower after filtering deionized water and drying than before filtration.
This condition suggests that combustion or volatilization of components of the
filter may have occurred and that total suspended solids values may actually
be greater than those reported.
The U.S. EPA method for oil and grease analysis was also modified. One
extraction with 90 mL of solvent, rather than three 30 mL extractions, was
performed for oil and grease analyses. This modification may affect
extraction efficiency causing the reported values to be less than actual oil
and grease value.
CONTINUED ...
> Press RETURN to CONTINUE or M for CONTENTS MENU >
Figure 3.7-8
3.7-13
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REFERENCE NUMBER: 144WOC8601 PAGE 5 OF 6
RESULTS
Reagent blank values for ammonia analyses were subtracted from standard
and sample absorbance readings. No other blank corrections were applied to
the data.
Ammonia data were not sampled for Station 1 during the February and
March surveys, based on the permittee's specified ocean monitoring
requirements. Several other ammonia values are missing for some samples at
several other stations. Triplicate ammonia samples were taken at station ZB
and CON during the March sampling period. No other replicate data were
submitted.
All oil and grease values of 0.5 mg/1 represent detection limits (i.e.,
the value is less than the limit stated) with the following exceptions:
Date Station Depth (m) Variable
2/86 9 29.7 Oil/Grease
3/86 3 55.0 Oil/Grease
3/86 8 24.0 Oil/Grease
CONTINUED ...
> Press RETURN to CONTINUE or M for CONTENTS MENU >
Figure 3.7-9
3.7-14
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REFERENCE NUMBER: 144WOC8601 PAGE 6 OF 6
Data are appropriate for analyses of changes at stations over time and
differences among stations related to distance from the outfall. Because few
measurements were replicated, significant differences among depths and among
individual stations cannot be detected using parametric or nonparametric
tests. Detection of gross differences of groups of stations based on
relationship to the ZID may be possible if station data are pooled.
> Press RETURN to CONTINUE or M for CONTENTS MENU > M
Figure 3.7-10
3.7-15
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Basic Option T: Using An ODES TOOL
ODES has a wide variety of tools to enable the user to analyze data in
the ODES data base (e.g., to perform an ANOVA) and have the results reported
in convenient formats. Each tool is designed to meet a particular type of
information need or analytic objective. If the user doesn't know which tool
he wants to use, the tool, MENU, under ODES Basic Option M will help in
identifying tools that will meet his needs. After the user tells ODES which
tool he wants to use, ODES will begin the series of questions for that tool.
When the user has completed the prompting sequence for a tool, ODES converts
the answers to the prompting sequence into a batch job and submits the batch
job to another part of the EPA NCC-IBM for processing. ODES tells the user
the job number, the date and the time the job was submitted. Once the job is
ready, the user can FETCH the output using ODES Basic Option F. The following
screens show how you might use Tool #1 to plot variable concentrations over
time.
3.7-16
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* ODES *
BASIC OPTIONS
* The following BASIC OPTIONS are available:
C - Scan CONTENTS of the ODES Data Base
D - Use the On-line DICTIONARIES
E - EXIT ODES
F - Show job status or FETCH reports and graphics
M - List the MENU of TOOLS
N - Review on-line NEWS
R - Interactive Data RETRIEVAL
T - Use a TOOL
> Please enter an option and press RETURN > Tl
Figure 3.7-11
3.7-17
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-- ODES Environmental Decision Support Tool #1 --
** PLOT OF ONE OR TWO VARIABLES OVER TIME (OVERLAY) **
* This tool produces a plot of up to two selected variables at
one or two monitoring stations, over time. (Since the plot of
TWO variables is created on one graph with 2 vertical axes, it
is only available as a high-quality plot - you need a graphics
terminal or plotter for 2-variable plots.)
-- You will first be asked to specify a range of sample dates.
-- You will then be asked to specify the variables of
interest (e.g., specific effluent, water quality, or
benthic variables).
-- You will then be asked to specify an effluent source,
(e.g. a POTW) or a monitoring station of interest.
> Please press RETURN to continue or B (Basic Options) >
Figure 3.7-12
3.7-18
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- - ODES will then produce a temporal plot of these
variables for the sites and range of dates you
specified. ODES will also produce a back-up table of
raw data values.
> Please press RETURN to continue or B (Basic Options) >
Figure 3.7-13
3.7-19
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You can request a temporal plot for one of the following types
of data:
File Type Type of Data
132 - Benthic Survey Data
144B - Bioaccumulation Data
144E = Influent and Effluent Data
144W = Receiving Water Quality Data
144S - Sediment Pollutant Data
> Please enter the file type of interest > 144W
Figure 3.7-14
3.7-20
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* You will be asked to select a water quality variable (either
chemical or non-chemical) by its ODES variable code (2-10
characters). If you need to search a list of variables for
valid ODES then enter "H" at the prompt.
> Please enter an ODES variable code or H > DO
Figure 3.7-15
3.7-21
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* ODES stores Water Quality Data for samples taken at various
depths. You will be asked to specify the Water Quality Data
that you want to include by entering an upper (minimum depth)
and a lower (maximum depth) boundary. If you want to select a
single depth, enter a single depth at the prompt. If you want
to include all Water Quality Data, you specify "ALL". ODES
will then calculate the mean value of the selected water
quality parameter for the sampling depths(s) that you have
chosen.
* You will be asked to enter values for the upper depths
boundary (first) and the lower depth boundary (second) on one
line, separated by a blank. The valid range of depths is from
0 to 100 meters. To specify the entire sample range, enter
"ALL" at the prompt.
> Please enter an upper depth boundary and a lower depth
boundary, a single depth, or enter ALL > ALL
Figure 3.7-16
3.7-22
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* ODES will now list the options you have selected for Receiving
Water Quality Data and allow you to change the selections
before continuing.
1) Variable: DO, DISSOLVED OXYGEN (CONCENTRATION)
2) Sample Depth: ALL DEPTHS
* You will be asked to enter the number of the option that you
want to change, or you can enter C to Continue.
> Enter an option number, or enter C > C
Figure 3.7-17
3.7-23
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* You will now be asked to specify a monitoring station of
interest.
* Specify a monitoring station by its 7-character ODES ID or
enter H for help with valid station codes.
> Enter a 7-character station code or H > OC3B001
Figure 3.7-18
3.7-24
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* You will be asked to select date(s) of interest by entering a
START DATE and an END DATE in a YYMMDD format, where YY is a
two-digit number between 70 and 88 for Year, MM is a two digit
number between 01 and 12 for MONTH, and DD is a two digit
number between 01 and 31 for DAY.
* You can select dates by year only (YY), year and month (YYMM),
or year, month and day (YYMMDD). Both dates must be in the
same format and be separated by a blank or a comma. For
example: "850115 850215" and "8501,8502" are both valid
responses. To select one day, enter that date only (in YYMMDD
format) at the prompt.
> Enter a START and END DATE (YYMMDD. YYMMDD) or single date (YYMMDD)
> 8601 8603
Figure 3.7-19
3.7-25
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* ODES will now list the options you have select=d for the first
variable, and allow you to change the selectic s before
continuing.
* These are the options you have chosen for the first variable:
1) Dates: RANGE OF DATES FROM 8601 TO 8603
2) Location: OC3B001, ORANGE COUNTY SANITATION 301(H),# ZB
3) Scale: DEFAULT
* You can: Enter the number of an option that you want to
change; enter V to plot another Variable on the same plot (max
- 2); enter S to Submit the job; or enter E to Exit this tool
and cancel the job.
> Enter an option number, V, S, or E > S
Figure 3.7-20
3.7-26
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* Thank you
* Please record Che following job information for subsequent
retrievals:
JOB NUMBER: 1238
TIME: 11:26:55
DATE: 04/26/89
* To check on job status, enter F. To return to BASIC OPTIONS,
enter B.
Please enter F or B > B
Figure 3.7-21
3.7-27
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* ODES *
BASIC OPTIONS
* The following BASIC OPTIONS are available:
C - Scan CONTENTS of the ODES Data Base
D - Use the On-line DICTIONARIES
E - EXIT ODES
F - Show job status or FETCH reports and graphics
M - List the MENU of TOOLS
N - Review on-line NEWS
R - Interactive Data RETRIEVAL
T - Use a TOOL
> Please enter an option and press RETURN > F
Figure 3.7-22
3.7-28
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** ODES Fetch Options **
* The FETCH options enable you to retrieve your ODES tool output
and either view the results on your screen, send the results
to be listed at a printer, or download the results to a micro-
computer. You may also display ODES graphic output at this
point or delete a job you no longer need.
D - DISPLAY an ODES graphic
E - ERASE a job
L - LIST a job on your terminal
P - PRINT a job on a high-speed printer
S - STATUS of a job
T - TRANSFER a job to a microcomputer
> Please enter D, E, L, P, S, T or B (Basic Options) > L
Figure 3.7-23
3.7-29
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Job ID (number)
Status
Job ID (number)
Status
1) UBU30(JOB08480)
2) UBU30(JOB08775)
3) UBU30(JOB09157)
4) UBU30(JOB09567)
5) UBU30(JOB01394)
ON OUTPUT QUEUE
ON OUTPUT QUEUE
ON OUTPUT QUEUE
ON OUTPUT QUEUE
ON OUTPUT QUEUE
6) UBUSET(JOB09560) ON
7) UBUSET(JOB09495) ON
8) UBUSET(JOB09527) ON
9) UBUSET(JOB09553) ON
10) UBU1(JOB01238) ON
OUTPUT QUEUE
OUTPUT QUEUE
OUTPUT QUEUE
OUTPUT QUEUE
OUTPUT QUEUE
* You may select and view a job with a status of "ON OUTPUT
QUEUE" only. If the status reads "WAITING FOR EXEC" or if any
other status message is present, then you cannot fetch the job
and list the output. Press RETURN at the prompt to return to
the Fetch Options.
> Please select a job (1-32) or press RETURN > 10
Figure 3.7-24
3.7-30
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* This job is 81 lines long.
* You can list all of you job, specific lines of your job, or
just those lines where a certain phrase appears. For example:
to list ALL of you job, enter ALL;
to list the first 20 lines, enter 1,20;
to list lines 20 through 50, enter 20,50;
to list all the lines where a certain phrases appears,
enter the phrase in single quotes.
> Please enter a range or press RETURN > ALL
> Would you like line numbers listed (Y/N)? > N
Figure 3.7-25
3.7-31
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ODES: OCEAN DATA EVALUATION SYSTEM
DEVELOPED BY: AMERICAN MANAGEMENT SYSTEMS, INC. I TETRA TECH, INC.
DEVELOPED FOR: OFFICE OF MARINE AND ESTUARINE PROTECTION, U.S. EPA
CAUTION: DATA ARE FROM SOURCES OF VARYING QUALITY
JOB NAME: UBU1 SUBMITTED AT 11:26 ON 69/04/26
ODES TOOL 1: PLOT OF ONE OR TWO VARIABLES OVER TIME (OVERLAY)
• SEE BACK-UP TABLE FOR RAH DATA
I
8.0000
7.9000
7.6000
7.7000
7.6000
7.5000
7.4000
A 7.3000
n
0
U 7.2000
N
T
7.1000
7.0000
6.9000
6.6000
6.7000
6.6000
6.5000
6.4000 4
»
X
X
1
660123 660202 660212 660222 660304 660314
SAMPLING DATE
ODES TOOL 1: PLOT OF ONE OR TWO VARIABLES OVER HUE (OVERLAY)
BACK-UP TABLE FOR PLOT
SYMBOL SAMPLE STATION
USED DATE
IN PLOT
VARIABLE
AMOUNT UNIT
CODE
X 860128 OC3B001 DISSOLVED OXYGEN (CONCENTRATION) 7.B667 «g/L
X 860221 OC3B001 DISSOLVED OXYGEN (CONCENTRATION) 7.6954 mg/L
X 860321 OC3B001 DISSOLVED OXYGEN (CONCENTRATION) 6.4664 mg/L
ODES TOOL 1: PLOT OF ONE OR TOO VARIABLES OVER TIME (OVERLAY)
BACK-UP TABLE FOR PLOT
SYMBOL STATION
USED
IN PLOT
LOCATION
DEPTHS
SELECTED
OC3B001 ORANGE COUNTY SANITATION 301(H),t ZB ALL
Figure 3.7-26
3.7-32
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Basic Option R: Retrieving ODES Data
ODES Basic Option R permits the user to view the contents (i.e.,
variable names and associated lengths) of an ODES file type, perform frequency
analyses of selected station-date combinations for a specific file type, and
download or transfer data from the ODES Data Base to a PC-file or a temporary
mainframe file. Using Basic Option R, the user can manipulate subsets of ODES
data using software and analytical packages not available in ODES. The
following screens show how Suboption T is used to transfer data to a PC file
or direct data to a temporary file on the NCC-IBM mainframe.
3.7-33
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* ODES *
BASIC OPTIONS
* The following BASIC OPTIONS are available:
C - Scan CONTENTS of the ODES Data Base
D - Use the On-line DICTIONARIES
E - EXIT ODES
F ~ Show job status or FETCH reports and graphics
M = List the MENU of TOOLS
N = Review on-line NEWS
R - Interactive Data RETRIEVAL
T - Use a TOOL
> Please enter an option and press RETURN > R
Figure 3.7-27
3.7-34
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** INTERACTIVE DATA RETRIEVAL **
* This option permits users to create interactive reports from
ODES file types. The following sub-options are supported:
C - CONTENTS report of an ODES file type
listing variable names, lengths and
descriptions.
F - FREQUENCY report of occurrences of
selected data in any ODES file type.
T - TRANSFER a subset of selected data from an
ODES file type to a Personal Computer or
to a temporary mainframe file. Data may
be downloaded in ARC/INFO (geographic
information system) or ASCII (text)
format.
> Please enter C, F, T or B for Basic Options > T
Figure 3.7-28
3.7-35
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* ODES can download ASCII data in text or ARC/INFO (geographic
information system) format. If you select "A" the data will
be converted to text format allowing you to use the data with
PC-based application packages (e.g., Lotus or DBASE). If you
select "G": the data will be converted to ASCII format for use
in ARC/INFO geographic information system applications. If
you select "R" you will be returned to the Retrieval Menu.
T = Text Format
G - ARC/INFO Format
> Please enter T, G, or R for Retrieval Menu > T
Figure 3.7-29
3.7-36
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* You can request one of the following types of data:
File Type
Type of Data
009
132
900
144B
013
144E
144W
073
144S
123
Bacterial/Viral Data
Benthic Survey Data
Bioassay Data
Bioaccumulation Data
Fish Pathology Data
Influent and Effluent Data
Receiving Water Quality Data
Sediment Grain Size Data
Sediment Pollutant Data
Trawl/Seine Sampling Data
> Please enter the file type of interest > 144W
Figure 3.7-30
3.7-37
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* ODES will now ask you to select the level of data to include
in the TRANSFER. Enter H for a help screen describing the
relationships between the different levels of ODES data.
T - STATION level
H - SAMPLE level
R - DATA level
> Please enter choice for level of data or H > R
* ODES is working. Please wait...
Figure 3.7-31
3.7-38
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* You may now select the variables to include in your download
file. You can enter as many as 5 variables on a line
separated by a space or a comma to a maximum of 20 variables.
You can enter H to review a list of variables and their
respective lengths. Do not enter duplicate variable names.
* You must enter 5 variables on a line to be prompted for
additional variables. If the number of variables you enter on
a line is less than 5 then ODES will assume that you have
finished entering variables of interest and continue by
prompting you for stations and dates.
> Please enter Variables (1-5) below or H for Help
> STN CD DATE FARM CD AMOUNT
Figure 3.7-32
3.7-39
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* ODES will now ask you to specify location(s) of interest by
selecting a station or group of stations and a date or range
of dates.
* You can specify stations of interest by selecting all stations
in a monitoring program; or by selecting all stations for a
reference data set; or a group of stations by their relation
to the zone of initial dilution (ZID) (i.e., all near-field,
boundary, reference, far-field, or with-in ZID stations in a
monitoring program); or one or more individual stations.
M - MONITORING Program
N - Reference NUMBER
R - RELATION to ZID (301h program only)
S - STATIONS Individually
> Enter M, N, R, S for location #1 > S
Figure 3.7-33
3.7-40
-------�
* You will be asked to specify monitoring stations(s) of
interest by entering a 7-character code. You may enter up to
9 codes on 1 line, separated by a blank or comma. You can
also enter H to look-up valid station codes, or Q to quit
specifying station codes. If you enter H or Q, it must be the
only entry on the line.
> Please enter station codes(s), H, or Q >
> OC3B001
Figure 3.7-34
3.7-41
-------�
* You will be asked to select date(s) of interest by entering a
START DATE and an END DATE in a YYMMDD format, where YY is a
two-digit number between 70 and 88 for Year, MM is a two digit
number between 01 and 12 for MONTH, and DD is a two digit
number between 01 and 31 for DAY.
* You can select dates by year only (YY), year and month (YYMM),
or year, month and day (YYMMDD). Both dates must be in the
same format and be separated by a blank or a comma. For
example: "850115 850215" and "8501,8502" are both valid
responses. To select one day, enter that date only (in YYMMDD
format) at the prompt.
> Enter a START and END DATE (YYMMDD, YYMMDD) or single date (YYMMDD)
> 8601 8603
Figure 3.7-35
3.7-42
-------�
* ODES will list the location options you have just specified
for location #1 and allow you to change then before
continuing.
1) Stations:
1-1) OC3B001
2) Dates: 8601 to 8603
* You will be asked to enter the number of the option you want
to change, C to Continue specifying more locations, or Q to
Quit specifying locations.
> Enter an option number, C, or Q > Q
Figure 3.7-36
3.7-43
-------�
* You will be asked to select a water quality variable (either
chemical or non-chemical) by its ODES variable code (2-10
characters). If you need to search a list of variables for
valid ODES Codes then enter "H" at the prompt.
> Please enter an ODES variable code or H > DO
* ODES is working. Please wait...
Figure 3.7-37
3.7-44
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T3
T3
3
Q.
Appendix A
Office of Water Steering Committee
for Water Quality Data Systems
Short- and Long-Term Goals
-------�
RECOMMENDATION DEVELOPMENT PROCESS AND STATUS REPORT
The Steering Committee, which was established by an Office of Water
Office Director's memorandum of June 25, 1987, was organized to provide
oversight for water quality data systems, to ensure that the water information
needs of the Agency and states are met, and to provide guidance on related
policy, management, and technical issues. The Steering Committee has
conferred at seminars and meetings and via telephone conference calls in an
effort to actively carry out these directives handed down by Office of Water
(OW) management.
The efforts and contributions of the Steering Committee have produced
the observable results which are necessary for achieving the goal of improving
water information management capabilities and applications. Of critical
importance to this process was the development of the Steering Committee
Functional Statement. The Functional Statement, which was approved in
November, 1988, clearly defines the Steering Committee's authority, functional
roles, and operation procedures. The result has been more effective and
efficient conduct of Steering Committee business. The Steering Committee also
recommended the immediate planning and execution of a BIOS/ODES systems
requirements study. Additionally, the Steering Committee recommended that a
user survey for the Section 305(b) Waterbody System be conducted. AWPD will
begin this effort in FY'89. The Steering Committee also adopted a priority
list of water-related information management systems. These systems were
identified via a process described in "Steering Committee for Water Quality
Data Systems Recommendations for Committee Actions" memorandum (November 8,
1988).
In addition to the accomplishments discussed above, the Steering
Committee has developed a set of recommendations for OW Directors and Senior
Information Resource Management Officer approval. A description of the
process by which these recommendations were developed follows.
On May 11 and 12, 1988 the Steering Committee (with invited attendees)
met in Arlington, Virginia. The primary outcome of this meeting was a list of
30 "action items" which were developed in work group sessions and discussed in
an assembly at the conclusion of the meeting. Steering Committee members and
attendees agreed to finalize the action statements and plan for a
prioritization vote at the June 2-3 National Symposium on Water Quality
Assessment in Annapolis, Maryland. On June 2, Steering Committee members
caucused with representatives from states to review the 30 action items and
receive input from those present. Nine priority issues were identified at the
June 3, 1988 Steering Committee meeting. The Steering Committee agreed to
develop individual issue papers for each of the nine subject areas. Members
agreed on issue paper development assignments and completed issue papers were
discussed during subsequent Steering Committee telephone conference calls
(June 26, July 21, September 1, October 13, November 17, and December 9).
Topics and recommendations from each of the issue papers were
consolidated into a comprehensive paper entitled "Steering Committee for Water
Quality Data Systems Recommendations for Committee Actions" (November 8,
A-l
-------�
1988). This paper detailed ten General and ten Specific action
recommendations.
Members were asked to complete a ballot and agree or disagree with the
General action recommendations. For the Specific action recommendations,
Steering Committee members were asked to assign a ranking order for
prioritization of recommendations. The final voting process resulted in the
February, 1989 Steering Committee recommendations for concurrence to the
Office of Water Office Directors.
SPECIFIC RECOMMENDATIONS
Immediate Action. The Steering Committee for Water Quality Information
adopted the following four Specific recommendations for immediate action.
Since the Steering Committee has maintained continuous contact with OW program
managers, many of these recommendations were anticipated during the budget
development process.
a) Data Sharing and System Integration/Compatibility Study
The Steering Committee has developed a set of criteria which
should be used to identify needed enhancements to priority data
systems in order to improve data sharing and system
integration/compatibility. The Steering Committee recommends that
a study be conducted to evaluate the priority systems against the
following criteria:
Data Sharing and System Compatibility Criteria
1) Does the system contain minimum data sets/data fields which
facilitate linking of data records between independent
systems?
2) Does the system provide a means to readily access and
display/overlay data from other systems?
3) Does the system contain a latitude/longitude coordinate set
or another coordinate set that would allow data integration
through a CIS?
4) Does the system provide a means for easily downloading and
uploading data via PC?
5) Can system security measures be modified to encourage data
sharing and exchange without severely risking data
loss/corruption?
6) Are data evaluated to determine their quality during
collection and data entry?
A-2
-------�
7) Does the system have graphics/mapping retrieval capability?
Results of this study should be in the form of a specific set of
recommended enhancements and/or activities with associated costs
for each priority data system. An OW system
integration/compatibility fund, to which each OW office could
contribute funds earmarked for general integration/sharing of data
was considered. Because of the unspecific nature of the proposed
study deliverables and an inability to determine and distribute
the resulting benefits between programs, the fund was not
considered further. The Steering Committee agreed that each
office should be responsible for funding the priority system
enhancements recommended as a result of the data sharing and
compatibility study. The Steering Committee has selected a
contractor to conduct the data sharing and system
integration/compatibility study.
b) Regional Forums
The Steering Committee recommended that OW establish a program to
provide Regional Forums on water information in each EPA Region.
The purpose of these forums is to inform Regional and state
representatives about new water information system capabilities
and to promote (market) their use; to offer training in the use of
new system capabilities; and to provide a means for obtaining user
feedback on the usefulness of enhancements. The systems addressed
at these forums include BIOS, WBS, WQAS procedures, the Needs
Survey General Query, STORET (menu-driven screens for surface
water and ground-water), ODES, and the enhanced Reach file.
Detailed plans have been developed in conjunction with Regional
representatives for initial forums planned for 1989.
c) Menu-Driven Software for STORET
OGVP, OIRM/PSD and OWRS/AWPD are managing a project intended to
improve the STORET data base by increasing its ease of use
(especially with regard to data retrieval). Completed tasks
include a system requirements analysis, design specifications
development using PC screens, and a workshop for soliciting
comments on full-screen, menu-driven software design.
Implementation of the designed software is to be completed in
three phases. Phase I, during which five of the eleven proposed
displays were to be implemented, is complete. (This Phase focused
on ground-water data retrieval.) Phase II involves completion of
the remaining six displays, and allows more complete retrieval
paths for surface water data. Phase III involves development of a
PC version of STORET. This Phase has not been planned in detail.
The Steering Committee recommends that Phases II and III of the
menu-driven software development plan for STORET be completed to
provide full surface water and ground-water data retrieval
capabilities.
A-3
-------�
d) Enhanced Reach File
The Steering Committee recommends that efforts to develop the
enhanced Reach File be continued and expanded to include:
1) installation of Expanded Reach File, completion of USGS DLG
assembly into USGS cataloging units and overlay onto
enhanced Reach File,
2) completion of surface area segmentation (to add estuaries
and open waters),
3) completion of surface area segmentation (to add estuaries
and open waters),
4) categorization of reaches in terms of ephemeral and
perennial flow,
5) addition of Pacific Islands and Puerto Rico, Alaska and
Hawaii, and
6) digitizing capability using PCs to upload/download data
files.
Long-term Action. The Steering Committee recommends the following four
action items for reconsideration as funding becomes available.
a) System Accessibility and User Training Study
The Steering Committee recommends that a study be conducted to
evaluate priority data system against criteria developed to
determine system accessibility, ease of use, and availability of
user training materials/seminars.
b) OW Data System Clearinghouse
The Steering Committee recommends the creation and maintenance of
a clearinghouse to provide fact sheets, training materials, system
documentation, user aids, periodic update announcements, and other
information of interest to the public and OW system users for OW
priority data systems. A part of this clearinghouse may operate
in conjunction with or as a part of another similar service such
as OIRM's software factory.
c) Contract Policy Directive
The Steering Committee recommends the establishment of a central
review mechanism whereby proposed contracts are evaluated to
ensure that system redundancy is avoided. Proposals for new
water-related data management systems and enhancements of existing
systems would be subject to review.
A-4
-------�
d) System Modernization Study
The Steering Committee recommends that a study be conducted to
evaluate priority systems to determine how implementation of new
technologies could enhance the capabilities of priority data
systems. Cost sharing is possible through OIRM's systems
modernization fund.
GENERAL RECOMMENDATIONS
All of Che ten General recommendations considered were approved by
Steering Committee vote. Only one of these General recommendations (item "d"
below) did not receive unanimous Steering Committee support.
The Steering Committee supports the following General recommendations:
a) The Steering Committee supports current and proposed efforts to
establish and maintain links and compatibility between water-
related data management systems.
b) The Steering Committee recommends system improvements designed to
simplify mainframe-to-PC downloading and PC-to-mainframe uploading
for the OW priority data management systems.
c) The Steering Committee recommends further exploration of the use
of Geographic Information Systems as an analysis and regulatory
decision making tool.
d) The Steering Committee recommends that reasonable relaxation of
security measures be considered as a means by which freer exchange
of data might be encouraged.
e) The Steering Committee recognizes the need for the implementation
of rigorous data submission procedures and formats designed to
minimize errors during coding and data entry. Automated data
entry procedures should be implemented to identify erroneous
formats, codes and ranges and to provide statistical and
deterministic checks for internal consistency. The Steering
Committee recommends that all priority data management systems
develop detailed data quality reports and that system be enhanced
to provide on-line access to these reports.
f) The Steering Committee supports the definition of a minimum water
quality data set as a requirement for priority OW data systems.
Improvements in this area will maximize linage and standardization
of data types/formats between the major data systems.
g) The Steering Committee encourages the development of improved PC-
to-mainframe telecommunications capabilities. Since availability
A-5
-------�
of PCs is increasing (in OW, the Regions, and states), easy access
to mainframe-rased OW data management systems should be available
to those with PCs and modems.
h) The Steering Committee recommends development and implementation
of a pro-active data management system marketing plan for priority
data systems. This effort should target management and staff for
exposure to available information, systems, and applications.
i) The Steering Committee recommends that OW develop training
seminars, instructional materials and user documentation for each
priority data system for which these services/materials are not
available.
j) The Steering Committee encourages the development of on-line
"help" utilities for each priority system which does not have this
capability.
These General recommendations reflect the Steering Committee's thinking
on broad themes that are relevant to progress in water quality information
management. The Steering Committee will continue to consider the General
recommendations as the basis for future Specific recommendations.
A-6
-------�
Appendix B
Access to EPA's
Communication Network
1
0.
x
03
-------�
Appendix B. Access to the EPA Communications
Network
EPA's Data Communications Network
"CONNECTIVITY1
Figure t. EPA's National Computer Network
EPA provides each of its regional offices with direct access to EPA's National Computer Center
at Research Triangle Park. EPA also provides "point-of-presence" in each state for access to EPA's
various computing resources as part of the State Data Management Program. Because of the many
locations that must be linked together, the EPA's National Data Processing Division, see
Figure 4 on page 7, designed a multi-network approach. As a result, states access the National
Computer Center through various means:
• Direct links.
• Tail circuits to several Regional Offices.
• Private TYMNET dedicated nodal network.
Although each state's EPA user community and its computing resources and data communications
vary in size, quantity, type, and complexity, EPA supports the "point-of-presence" concept with
the types of access dipicted in the following figures.
B-l
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7.
SNA
IBM Host 10 EPA IBM Host SNA
Link with SNl at ttwNCC
IBM host capable of connecting to
the EPA NCC IBM 3090 via an SNA/SNI link.
PnnildM, Ir«eraaive~3270fuJI-screea"access.
JES-io-JES oonnecuvtty for batch/printing sup-
port.
Benefit Eliminaics duplicue terminals/lilies
LAN with an SNA Gateway
Require LAN whh an SNA Gaieway.
web u IBM Token Ring. Banyan. Ethernet.
DECneiorPRlMEnet
Interactive "3270 full-screen" ac-
ceo. SNARJEconnecuiyforbaichypnnung
support.
Benefit Bimiaueidapliaieienninab/linei
7.
System with an SNA Gateway to
the EPA NCC IBM 3090
BCQuiccs Linksimilarioihehos-io-hottSNA/
SNIbnkdescnbed above.
(ntenoive "3270 full-screen" ac-
cess lo the NCC tad an SNA WE taicb woik-
Dm»flt Eliminiia duplicate lenninalVbnes-
3274/3174 SNA Cluster
Controller
BtOWCtS- Dedicated link from a 3274/
3174 duster controller to Ihe EPA NCC IBM
3090,
Intenciive "3270 full-screen" ac-
cess 10 the NCC. Liinkedremaiepnnicapabili-
liea.
Boufit- Pw cluster controllers with the dual-
host feature, the need for redundant terminals
for sue and EPA is etimiaaied.
Figure 2. Best Types of Access to the EPA Network.
B-2
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Asynchronous ASCII Terminal Accost
Only* dedicated line or a dial-in
law and i terminal
ers (emulating 3270 data streams) for full screen
access for users without 3270-iype terminals.
Usei cMsting terminals.
Dial SNA from PCs
with 3270 Emulation Feature
PCwith3270emaUlionfeaureand
a 4800bps modem.
i Interactive "3270 fun-screen1" access
lo the NCC. Limited remote prim capabiliues.
Benefit. Cost effective for users who are in an
aieadisiani from the EPApomi-of-presence and
who do not have a dedicated connection to the
EPA.
BSVNCAIE
TERMULS
Bisynchronous (B3C) and SNA RJE
Workstations
Requires. Remote Job Entry (RJE) worksta-
tion with either DSC O.e, 2780/3780, HASP)
protocol or SNA (i.e, IBM 3770) protocol
Provides. Remote batcJvprinung.
Etntfil. Uses existing terminals.
fot moiv Informations
Maueoi'JonDm''
Branch Chief. ;
Ti
•r. 4-(PTS) 629-2501
'. (919) 54I-250T
Fob Denny :•:. ' \
f PfDjrani Manager • ;
'TeletonKiunucitMns :
(FTS) 629-1979
919)541-1979.
Brace Almfch ' :| ,. :: (FTS) 629-3306
Teehnieal Manager ~-.\ ;. (919)541-3306
:Tehcommunicaoons '
Jim von SL Paul . (FTS) 629-3620
Planning Suppon Specialist (919)541-3620
Figure 3. Other Types of Access to the EPA Network.
After the "point-of presence" has been designed, installed, and activated, EPA continues to address
the ongoing changes in data communications requirements and will upgrade and/or alter the dedi-
cated "point-of-presence" as required.
To use the Office of Water systems that are maintained at the National computer center, it is im-
portant to understand the type of access that you have to EPA's network. Your technical staff
should be able to answer your questions concerning the EPA network, and additional informantion
concerning the network is available from the individuals listed in Figure 3.
B-3
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Computer Hardware
Hardware with no Graphics Capabilities
The new systems from the Office of Water, that are supported from the EPA's central computer,
require 3270 full-screen access to the National Computer Center. Of the seven types of access
supported at NCC, sceFigure 3and Figure 3, the first six support "3270 full-screen" access. Sup-
port for a specific workstation depends on the type of access available. A terminal that works well
with one type of access will probably not work with the other types of access. The combinations
of workstations and types of access are endless, but there are points to remember,
• As you move from the best access methods in Figure 2 on page 4to the less desirable methods
in Figure 3 on page 5, performance will decrease, and cost and frustration will increase.
• As you move from the best access methods to the less desirable methods, the technical infor-
mation and support available to you from your technical support staff decreases. When you
use a best access methods fromFigure 2 on page 4, your technical support staff and the EPA
support staff can be confident that the equipment that the> recommend will work correctly
When you use the methods listed in Figure 3 on page 5, you will often have to rely on the
claims made by the vendor selling the hardware. When buying these workstations make sure
that the specific EPA software that you want to use will run properly with the hardware you
are going to install.
Hardware with Graphics Capabilities
IBM Host Graphics
To work with IBM graphics on the IBM host computers, the user has to have a "3270
full-screen" graphics terminal, or software that will allow some other workstation, usually a per-
sonal computer, to emulate the IBM terminal If a piece of equipment can fully emulate the IBM
terminal, the vendor will state that his equipment can perform all the functions of an IBM 3179/G
terminal, or that his equipment is functionally equivalent to the IBM 3179/G terminal If the
vendor simply makes a general statement that his equipment can support IBM graphics, the
equipment will not be able to fully support the graphics in the Office of Water software.
Graphics other than IBM
To work with graphics other than IBM, on the IBM host and on other computers like the VAX
and PRIME, EPA uses the Tektronix terminal, or software that will allow some other workstation,
usually a personal computer, to emulate the Tektronix terminal. If a piece of equipment can fully
emulate the Tektronix terminal, the vendor will state that his equipment can perform all the func-
tions of a Tek 4105, or another more powerful Tektronix terminal. If the vendor simply makes a
general statement that his equipment can support Tektronix graphics, the equipment will not be
able to fully support the Tektronix graphics supported by EPA.
Current Technology and the Technology of the Future
At the present time, the best approach to support host graphices is to use a personal computer to
emulate either the IBM or the Tektronix terminals. Unfortunately, the equipment and access
methods needed for the IBM terminals are not compatiable with the equipment and access methods
needed for the Tektronix emulation. This means that for a single workstation, the user has to
choose between IBM or Tektronix, or has to meet all the IBM and Tektronix requirements in a
single workstation
B-4
-------�
EPA currently has an active program to support local area networks, LANS, across EPA, and to
provide access to the EPA central computer from LANS located in the states. The LAN provides
the most cost effective and flexible approach to providing access to host graphics if host graphics
is required for a number of workstations. On the LAN, the user simply requests the emulation
method he wants to use, and the server provides the appropriate emulation and access method re-
quired by the EPA network.
The IBM software used by EPA is evolving into an IBM product called Operating System Two -
Presentation Manager, OS/2-PM. In the next two years, this operating system will reach full ma-
turity. When fully developed, OS/2-PM will be able support all the access methods shown in the
figures above, and it will be able to emulate both the IBM and Tektronix terminals.
Organization of the National Data Processing Division
Figure 4. NDPD/UMSYS Function Relationships
B-5
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State Connectivity
Many states already are linked to the EPA mainframe through direct
connections, such as a IBM 3270 controller or a SNA gateway from a LAN or
minicomputer. In the case of the latter, equipment other than IBM may not be
able to support the "all points addressable" (APA) graphics shown in the WQAS
presentation of the Environmental Data Display Manager (EDDM). However, if
states do have a true 3270 or IBM SNA hook-up do the mainframe, the use of all
the systems shown today are possible. For those users with equipment not
equivalent to IBM standards there are three options available:
1. Determine if existing equipment will support this graphics capability.
This is a dialogue between the state ADP people and the minicomputer
vendor.
2. If (1) does not work, fund the installation of the appropriate NEW 3270
controller, minicomputer, or LAN gateway that WILL support the required
connection.
3. If (1) does not work and the state can't find funds (internally or through
a Grant mechanism) for the required upgrade, its back to dial 4800 through
WATS.
All of the above three options cannot be funded by EPA.
For more details on state connectivity, please contact your EPA regional
APP coordinator.
B-6
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4800 BAUD DIAL ACCESS TO IBM 3090 MAINFRAME
THE 4800 BAUD TOLL FREE DIAL 3270 ACCESS IS A MECHANISM FOR A PC USER TO
EMULATE AN IBM GRAPHICS TERMINAL (3179G OR 3192G) AND RUN HOST BASED
GRAPHICS PROGRAMS (GDDM) ON THE PC. THIS SYSTEM ALLOWS THE USER TO
CONNECT TO THE MAINFRAME WITHOUT GOING THROUGH A CLUSTER CONTROLLER.
THE FOLLOWING COMPONENTS ARE REQUIRED:
1. IBM PC OR COMPATIBLE WITH MINIMUM 640K RAM
2. COLOR GRAPHICS CARD AND MONITOR (PREFERABLY EGA OR VGA)
3. 4800 BAUD SYNCHRONOUS 208B COMPATIBLE MODEM
4. 3270 EMULATION CARD
5. APA GRAPHICS SOFTWARE
EPA-NCC USER MEMO #580 EXPLAINS HOW TO ESTABLISH A CONNECTION WITH THE
IBM HOST COMPUTER VIA THIS ACCESS METHOD.
B-7
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'EPA-NCC'
U
O
z
<
a.
jj
March 22, 1988
TOLL-FREE DIAL 3270 AND SNA RJE ACCESS NOW AVAILABLE
Memo f580
Effective March 24, 1988, toll-free dial 3270 and SNA RJE
services uill be available nationwide to the NCC. To
access the toll-free services, dial the MATS number
800-443-4798.
To establish a connection with the IBM host computer via
this access method, you must have:
• A dial 4800 bps synchronous 2088-compatible
modem.
• An SDLC card for 3270 emulation (if you are a
PC user).
• An exchange identification number (X-ID).
• An RJE registration. (Note: A service fee of
$200/mo. is charged to an appropriate time-
share account for each RJE number requested.)
RJE registration and an X-ID can be obtained through a
Telecommunications Service Request form (TSR). To
request a TSR, call the Network Support Group at (FTS)
629-3182 or (919) 541-3182.
If you have any questions about this memo or have trouble
with your access, please call Charles Savage at (FTS)
629-4484, (919) 541-4484; or call the Network Control
Facility at (FTS) 629-4506, (919) 541-4506 or 1-(800)-
334-0741.
m
•o
Index 2.3 Telecommunications Systems (TCOM)
•EPA-NCC"
B-8
-------�
Appendix C
Regional Forum
Presentation Overheads
1
a
x"
n
-------�
OUTLINE
Steering Committee
Forum Objectives
Management Overview of Systems
What's New?
Regional Forum on Water Information
-------�
Overview of Water Quality Information Systems from a Steering Committee Approach
STEERING COMMITTEE FORMATION
• Authorized by OW Office Directors
• A Response to SWMS Recommendations
• Purpose:
- Guide Management/Development of STORET
- Oversee OW Water Quality Data Management Systems
- Ensure EPA and State Data Management Needs are Met
-------�
Overview of Water Quality Information Systems from a Steering Committee Approach
REPRESENTATION STRUCTURE
OQWP
OWRS
OWEP
ODW
OMPC
OMEP
States
OIRM
Reg. 1
The
Steering Committee
Reg. II
Reg. n
Reg. IV
Reg. V
Reg. VI
Reg. VO
Reg. Via
Reg. IX
Reg. X
-------�
Steering Committee
for Water Quality Data Systems
CHAIRMAN
Carl Myers, OWRS
MEMBERS
Norbert Dee, OGWP
Robert King, OMEP
Kathleen Ehrensberger, OMPC
Ron Manfredonia, Region 1
John Malleck, Region 2
Doug Ehorn, Region 5
Larry Svoboda, Region 8
Catherine Kuhlman, Region 9
Ben Eusebio, Region 10
Phil Lindenstruth, OIRM
Steve Martin, OWEP
Mike Haire, MD DNR
EXECUTIVE DIRECTOR
Rod Frederick, OWRS
ATTENDEES
Region 3
Charles Kanetsky
Ava Nelson Zandi
C-4
-------�
Overview of Water Quality Information Systems from a Steering Committee Approach
PRIORITY OW DATA SYSTEMS
o
STORE! WQAS
BIOS WBS
IFD FRDS
REACH NEEDS
GAGE GICS
DWS ODES
PCS
-------�
STEERING COMMITTEE FOR
WATER QUALITY DATA SYSTEMS
Short-Term Action
• Data Sharing and System Integration/
Compatibility Study
• Regional Forums
• Menu-Driven Software for STORET
• Enhanced Reach File
Regional Forum on Water Information
-------�
STEERING COMMITTEE FOR
WATER QUALITY DATA SYSTEMS
Lone-Term Action:
o
I
Accessibility and User Training for
Priority Data Systems
OW Priority Data System Clearinghouse
Water Data Systems Modernization Study
Regional Forum on Water Information
-------�
r>
i
00
OBJECTIVES
Communication
Feedback
Future Planning
Regional Forum on Water Information
-------�
n
i
\o
? MAINFRAME PHOBIA ?
Real or Imagined
Knowledge vs. Need
KISS Movement
- NDPD Study
Handbook
Individual System Brochures
Regional Forum on Water Information
-------�
Under sTanding The
Technology
FLOUJ'
OFOPERATfOH!
-------�
"HIT AMY KEY TO COMTH
C-ll
-------�
HELP SCREENS ARE AVAILABLE
TO THE NEW USER
o
I
Regional Forum on Water Information
-------�
INFORMATION CAN BE DOWNLOADED
FROM THE MAINFRAME TO THE PC
Ci
Regional Forum on Water Information
SERA
-------�
SYSTEMS TO BE DISCUSSED
I
»-•
*-
STORET Menu-Driven Retrievals
(including Ground-Water Data Management)
BIOS
Water Quality Analysis Systems (WQAS)
Reach File
Waterbody System
NEEDS Survey General Query
Ocean Data Evaluation System (ODES)
Regional Forum on Water Information
-------�
MANAGEMENT PROBLEM
ei
The XYZ Chemical Co. wants to build a manufacturing
plant in your state. They will need a wastewater discharge
permit and a landfill site. The Governor has asked you to
evaluate this request and propose some potential sites for
XYZ Chemical.
Regional Forum on Water Information
-------�
SYSTEMS TO BE DISCUSSED
STORET Menu-Driven Retrievals
Ground-Water Data Management with
STORET
BIOS
Water Quality Analysis Systems (WQAS)
Reach File
Waterbody System
NEEDS Survey General Query
Ocean Data Evaluation System (ODES)
Regional Forum on Water Information
-------�
SYSTEMS TO BE DISCUSSED
o
h-«
•J
STORET Menu-Driven Retrievals
Ground-Water Data Management with
STORET
BIOS
Water Quality Analysis Systems (WQAS)
Reach File
Waterbody System
NEEDS Survey General Query
Ocean Data Evaluation System (ODES)
Regional Forum on Water Information
-------�
o
I
OO
STORET
• A Computerized Utility Maintained for the
STOrage and RETrieval of Surface and
Ground Water Quality Parametric Data
• It is a Data Repository for EPA, Other Federal
Agencies, State and Local Governments and
Others
• These Organizations Collect, Store, Retrieve, and
Perform Analyses on Water Quality Data
Regional Forum on Water Information <6?ERr\
-------�
STORET APPLICATIONS
How does a Discharge of Cadmium Affect
Water Quality?
What are the Background Concentrations?
Is Cadmium Accumulating in Sediments
Downstream?
Is a Pollutant in a Waterbody or Waterbodies
Above Water Quality Standards or Criteria?
What Dilution is Available for a Discharge?
Regional Forum on Water Information
v>EPA
-------�
STORET PROVIDES WATER
QUALITY DATA IN AN
EASY TO USE FORMAT
to
o
User Friendly, Menu-Driven Retrievals
Ground-Water and Surface-Water Paths
Retrieval Requests Can Be Stored and Edited
Extensive Help Features Available.
Regional Forum on Water Information
-------�
o
I
M
FUTURE ENHANCEMENTS
TO
MENU-DRIVEN STORET INTERFACE
• Complete All Output Reports
• Provide Upload and Download Capabilities
• Add Station Storage Menus
• Create PC Version
• Create BIOS Retrieval Menus
• Create Flowfile Retrieval Menus
Regional Forum on Water Information
-------�
SYSTEMS TO BE DISCUSSED
• STORET Menu-Driven Retrievals
• Ground-Water Data Management with
STORET
* • BIOS
• Water Quality Analysis Systems (WQAS)
• Reach File
• Waterbody System
• NEEDS Survey General Query
• Ocean Data Evaluation System (ODES)
Regional Forum on Water Information
3EFA
-------�
ts)
LO
BIOS
The Biological Information System Field Survey
Component
60,000 Taxonomic Designations with NODC Codes
Aquatic Organism, Information, e.g.:
- Distribution
- Abundance
- Physical Condition
- Habitats
Bioassay Toxicity and Tissue Residue Components to
be Added
Regional Forum on Water Information
-------�
o
I
M
BIOS APPLICATIONS
Consistent Assessments of Water Quality and
Biological Integrity
Develop/Monitor Resource Management
Strategies
Status of Biota
Trend Assessments
Species Viability vs. Environmental Pollutants
Regional Forum on Water Information
-------�
SYSTEMS TO BE DISCUSSED
0
I
NJ
STORET Menu-Driven Retrievals
Ground-Water Data Management with
STORET
BIOS
Water Quality Analysis Systems (WQAS)
Reach File
Waterbody System
NEEDS Survey General Query
Ocean Data Evaluation System (ODES)
Regional Forum on Water Information
-------�
r>
i
REACH FILE
National Database of Streams, Lakes,
Reservoirs and Shorelines
Contains Names, Geographic Coordinates
and Hydrologically Connected Identifiers
Defines the Stream Network for Routing,
Data Retrieval and Modeling
Foundation of Inter-system Indexing/Linking
Regional Forum on Water Information
-------�
REACH FILE EVOLUTION
a
i
N>
RF1 <19821
68,000 Reaches
650,000 miles
1 point every 1/10 mile
Based on 1:500,000 scale
NOAA charts
RF2 (19881
146,000 Reaches
920,000 miles
1 point every 3 miles
Update based on 1:24,000
USGS names file
RF2.5 a9B9- 1
• Updates RF2 to 1 point
every 250 feet
• Update based on 1:100,000
USGS traces
RF3 U989- )
• Updates RF2.5 to everything
shown on It 100,000 USGS map
-------�
REACH FILE APPLICATIONS
RFl is:
Smooth and Small
Connected to Monitoring
Stations, Discharge Points,
Drinking Water Intakes
and Waterbodies
o
I
NJ
oo
RF2.5 is:
Smooth and Large
Same Size as RF2 but with
USGS DGL Traces
Interim if Funds are Available
for RF3
Final if Funds for RF3
are Unavailable; if Final Will
Connect all Monitoring and
Intake Points, andWaterbodies
RF2 is:
RF3 is:
Straight and Large
Connected to Waterbodies
An Interim Step to RF2.5
Smooth and Largest
Uses all USGS DLG Traces
Will Connect All Monitoring
Stations, Discharge and Intake
Points, and Waterbodies.
Regional Forum on Water Information
-------�
i
ro
10
U.S. EPA RIVER REACH FILE
STATUS REPORT
REGION 3
Reach File 1 Reach File 2 Reach File 2.5 Reach File 3
State
Delaware
Dist. of Columbia
Maryland
Pennsylvania
Virginia
Status
C
C
C
C
C
West Virginia C
Kev: C = Complete
Dates are estimates to completion
TBD = To Be Determined
Status
C
C
C
C
C
C
Status
TBD
TBD
TBD
TBD
TBD
TBD
Status
TBD
TBD
TBD
TBD
TBD
TBD
Regional Forum on Water Information
&EPA
-------�
U.S. EPA REACH FILE
DATA SYSTEM INTEGRATION
STATUS REPORT REGION 3
Data System Reach File 1 Reach File 2 Reach File 3
STORET Complete N/A TBD
WQAS Complete N/A TBD
WBS In Use In Use TBD
BIOS Limited N/A TBD
IFD Complete N/A TBD
ODES N/A N/A N/A
NEEDS Indirect N/A TBD
Kev: TBD = To be determined
Note: This report reflects the status in relation to the actual data systems. There is continuity
in data integration to the Reach File such that any data indexed to Reaches remains indexed
to succeeding versions of the Reach File.
Regional Forum on Water Information
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o
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CO
FUTURE USES OF
PC-REACH FILE (PCRF)
PCRF Will be Used by Regions and States
to Make Updates to the RF2.5/RF3
Data Base
Regional Forum on Water Information
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SYSTEMS TO BE DISCUSSED
o
CO
STORET Menu-Driven Retrievals
Ground-Water Data Management with
STORET
BIOS
Water Quality Analysis Systems (WQAS)
Reach File
Waterbody System
NEEDS Survey General Query
Ocean Data Evaluation System (ODES)
Regional Forum on Water Information
vvEPA
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THE WATERBODY SYSTEM
Computerized Data Base Management System
Facilitates the Storage, Retrieval, and Analysis of
Geographically-Based Water Quality ASSESSMENT
Information
Not Designed to Store or Manipulate Raw Water
Quality Data - Not STORET
Available in Two Versions:
- National WBS Runs on the EPA Mainframe
Computer
- Microcomputer Version
Regional Forum on Water Information
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WATERBODY SYSTEM: MANAGEMENT
APPLICATIONS
EPA managers can use the WBS to:
- Identify and prioritize key water quality problem
areas
- Automate the analysis and reporting of data
- Promote standardized State 305(b) assessments
- Provide geographically-based information on State
water quality and designated use support status.
Regional Forum on Water Information
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rs
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WATERBODY SYSTEM: MANAGEMENT
APPLICATIONS (continued)
State managers can use the WBS to:
- Consolidate biological and chemical water quality
data into an overall assessment
- Organize and report the various water quality
assessments required under the 1987 Clean Water
Act Amendments
Regional Forum on Water Information
&EPA
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SYSTEMS TO BE DISCUSSED
• STORET Menu-Driven Retrievals
• Ground-Water Data Management with
STORET
• BIOS
? •• • Water Quality Analysis Systems (WQAS)
• Reach File
• Waterbody System
• NEEDS Survey General Query
• Ocean Data Evaluation System (ODES)
Regional Forum on Water Information
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o
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WATER QUALITY ANALYSIS SYSTEM
(WQAS)
• A Family of Conversational Procedures that
Creates Reports and Graphics from
Environmental Data
* Integrates Information from Many of the Major
Data Bases from the Office of Water
• Provides Quick Response to Specific Inquiries
Regional Forum on Water Information <0rERr\
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WQAS
Data Sources
o
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STORET
Industrial Facilities Discharge (IFD) File
Reach File
Use/Criteria File
Stream Gage/Flow File
Regional Forum on Water Information
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WQAS
Data Sources
(continued)
Drinking Water Supplies File
City/County File
Waterbody File
BIOS
Complex Effluent Toxicity File (CETIS)
Permit Compliance System (PCS)
EPA City Master File
Regional Forum on Water Information
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APPLICATION OF
WQAS PROCEDURES
Easily Identify Sites of Environmental
Significance
Determine Potential Impacts on Public Surface
Drinking Water Utilities from Pollution Sources
Identify Upstream and Downstream STORET
WQ Stations Near a Point Source Discharger
Regional Forum on Water Information
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SYSTEMS TO BE DISCUSSED
STORET Menu-Driven Retrievals
Ground-Water Data Management with
STORET
BIOS
Water Quality Analysis Systems (WQAS)
Reach File
Waterbody System
NEEDS Survey General Query
Ocean Data Evaluation System (ODES)
Regional Forum on Water Information
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NEEDS Survey General Query
What is the
NEEDS Survey?
o
ro
What is General
Query?
Most Comprehensive Source
of Municipal WWT
Information (24,000 facilities)
A Software Package which
Accesses the NEEDS Survey
Data Files.
Regional Forum on Water Information
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General Query Description
User-Friendly, Menu-Driven Procedures
Interactive (Instant Data Access)
Regional Forum on Water Information
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Applications:
How many facilities in the State are providing secondary
treatment?
Provide a summary of wastewater needs for the State.
Which facilities in Delaware have interceptor
sewer needs?
Provide technical data on the Blue Plains STP.
Regional Forum on Water Information
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*•
01
What Types of Information Can Be
Retrieved from the Needs Survey Using
General Query?
• Cost Estimates to Meet Needs
• Service Populations
• Treatment Process Data
• Flow Data
• NPDES Permit Number
Regional Forum on Water Information
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o
What is General Ouerv Used For?
State Update of NEEDS Data
NEEDS Survey Report to Congress
Help Program Managers Make Decisions
OMB Budget Requests
Freedom of Information Requests
Interagency Requests
Regional Forum on Water Information
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SYSTEMS TO BE DISCUSSED
• STORET Menu-Driven Retrievals
• Ground-Water Data Management with
STORET
• BIOS
• Water Quality Analysis Systems (WQAS)
• Reach File
• Waterbody System
• NEEDS Survey General Query
* • Ocean Data Evaluation System (ODES)
Regional Forum on Water Information
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ODES
I
-p>
oo
The Ocean Data Evaluation System
Decision Support Tool Initially Developed
for the 301(h) Program
Now Adapted for Use in Marine and Estuarine
Monitoring Programs
Regional Forum on Water Information
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ODES APPLICATIONS
I
*•
VO
Regulatory
- Determine if monitoring/sampling methods
comply with permit specifications
• Determine if water quality parameters are
within permit limitations
Research
- Compare aquatic species abundance within ZID
(zone of initial dilution) against control area
Planning
- Model dispersion and deposition of solids for
"worst case" treatment failure scenario.
Regional Forum on Water Information
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0
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ODES COMPONENTS
ODES Data Base
- Monitoring Data
- Program Data
ODES Tools
- Statistical Tools
- Graphics
- Numerical Models
Regional Forum on Water Information
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WQAS PROCEDURES
o
I
ASIWPCA
CITY
CSRCH
DFLOW
DOMODEL
DXLIST
EDDM
FLOW
ICAT
ICATS
IFDARS
IFDPLOT
IFDRET
INFO
IPS4
IPS5
ISR
MESSAGE
PARM
PATHSCAN
RCHDAT
SIC
SITEHELP
STRAUX
USE
Regional Forum on Water Information
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WATER QUALITY DATA SUMMARY AGENCY: 21MINNL
STATION: 27-0133-02
ENTER PARAMETER NUMBER:
YEAR:
PF3 TO END, PF4 TO CONTINUE
i
Ul
N>
PARAMETER
FIELD IDEN
T ALK CACO
TOTAL N N
ORG N N
NH3+NH4-N TOT
N02-N TOTA
NO3-N TOTA
PHOS-TOT
PHOS-DIS
CHLORIDE TOT
SULFATE S04-T
TRANSP SECC
DPTH EOTAT SI
LAB IDEN
TURB HLG
COLOR PT-C
RESIDUE TOTA
TOT COLIMPN C
DO
BOD 5 DA
PH LAB
RESIDUE TOT V
RESIDUE TOT N
RESIDUE VOL N
DATE RANGE
29
410
600
605
610
615
620
665
666
940
945
78
81903
8
71
80
500
31505
300
310
403
505
530
535
490521
490521
490521
490521
490521
490521
490521
490521
490521
490521
490521
530811
530811
581230
581230
581230
581230
581230
581231
581231
581231
581231
581231
581231
881019
810916
770721
810916
810916
780920
780920
820921
810914
810916
770802
881019
820921
841023
590814
810916
590811
590814
820921
780920
810916
590811
800808
800808
VALUE RANGE
100.000
120.000
0.204
0.010
0.000
0.001
0.004
0.005
0.000
1.000
0.100
0.000
33.000
1215.000
5.000
5.000
190.000
20.000
0.000
1.300
7.100
80.000
3.000
2.000
4603.000
160.000
1.200
2.630
5.040
0.560
0.620
0.540
0.035
64.000
16.000
6.096
97.000
128978.000
40.000
25.000
730.000
790.000
12.400
5.000
9.000
130.000
10.000
10.000
OBS
1017
35
12
62
164
25
32
241
14
41
31
313
44
90
17
55
11
18
681
12
46
3
5
5
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* * *
WELCOME TO IHS/PCS/STORET INTERACTIVE RETRIEVAL PROGRAM
* * *
MAJOR SOFTWARE UPGRADES AS OF SEPTEMBER 9, 1987:
(1) FORM2C REPORT
(2) DILUTION RATIO REPORT
FOR A COMPLETE LIST OF SOFTWARE UPGRADES REFER TO WQAB HELP(IPSS)
PLEASE WAIT WHILE DATA FILES ARE ALLOCATED
USER ID: SVM DOES NOT HAVE ACCESS TO PCS DATA
ENTER OUTPUT FILE NAME (EX: OUTPUT): tesdat
ENTER NPDES OR REACH NUMBER: mi0022926
REPORT FROM THE IFD FILE:
NPDES NUMBER: MI0022926
DUN & BRADSTREET #: MID000874289
NEEDS A/F NUMBER: 260411001
FACILITY NAME: FLINT CITY OF
FACILITY SIC CODE: 4952
STORET BASIN: 21/ 4
RECEIVING STREAM NAME: FLINT R
PLEASE WAIT WHILE PCS DATA IS ACCESSED
USER DOES NOT HAVE AUTHORITY TO USE PCS
*** FACILITY NOT IN PCS OR YOU DO NOT HAVE ACCESS TO PCS DATA FOR THIS FACILITY
*** YOU MAY SELECT NON-PCS RELATED REPORTS ***
DO YOU WANT TO CONTINUE (Y/N):
C-53
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NPOES NUMBER: AR0038512
FACILITY NAME: VERTAC CHEMICAL-JACKSONVILLE
RECEIVING STREAtl:
REACH NUMBER: 08080205002
THE FOLLOWING DATA IS FROfl PCS
THE PARAMETERS AVAILABLE ARE
1 *00 PH SU
2 550 OIL-GRSE TOT-SXLT MG/L
3 680 T OR6 C C MG/L
4 940 CHLORIDE TOTAL MG/L
5 34601 24DICMLO ROPHENOL TOTHUG/L
6 34621 246TRICH LOROPHEN TOTMU6/L
7 34675 TCOO TOTMU6/L
8 39740 2.4.5-T HHL SMPL UG/L
9 50050 CONDUIT FLOW MGO
10 70295 RESIDUE DISS-ANY TEM.MG/L
11 39730 2.4-0 NHL SMPL UG/L
12 61396 ORGANIC COMPOUNS MG/L
13 61400 BIOASSAr TU1-24HR PERCENT
14 0 INVALID PAR NUMBER
15 34566 2CHLOROP HENOL TOTHUG/L
16 34641 4CHLOROP HENYLPHE TOTWUG/L
THE BEGINNING DATE IS: 841016
»»»» PIPE INFORMATION TO FOLLOW ««««
i
lOOtA MEST PLT STRHMTR DRAINAGE TREATMENT CODE:NONE AVAILABLE
I001Q BIOHONITORIN6 TREATMENT CODE:NONE AVAILABLE
I002A DSCH6 FROM PRETRTMT SYSTEM TREATMENT CODE:NONE AVAILABLE
I003A EAST PLT UNCONTAHINATED STHMTR TREATMENT CODE:NONE AVAILABLE
I004A NEST PLT STRHMTR DRAINAGE TREATMENT CODE:NONE AVAILABLE
I005A TOTAL FACILITY DISCHARGE TREATMENT CODE:NONE AVAILABLE
SELECT ONE OF THE FOLLOWING PIPES:
001 A
001 Q
002 A
003 A
004 A
005 A
ENTER PIPE NUMBER I EXAMPLE: 001 Al:
005 A
NO TREATMENT CODES AVAILABLE
DHR FOR: AR0038512
LBS/DAY
CONCENTRATION QUANTITY
DATE PARAMETER MIN AV6 MAX AV6 MAX
850430 400 PH S 7.09 9.14
FREQ: 01/01 VMLO: 000
"Pilo- 68?/l7°"G ° VMLO- 000 ?2'75 IIJ'5°
850430! 940 CHLORIDE St 108.00 108.00
-------�
»»»» THE AVAILABLE REPORTS ARE ««««
1 = BASIC
2 = LIMITS
3 = DMR
4 = INDIRECT
5 = FORM2C
6 = BIOASSAY
? 7 = RECEIVING STREAM CHARACTERISTICS
" 8 = DRINKING WATER SUPPLY DOWNSTREAM
9 = ANALYSIS
A - FACILITIES ON REACH
B - WATER QUALITY INVENTORY
C - DILUTION RATIO
SELECT A REPORT (1-9):
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INDIRECT REPORT »•••«
WPDES MURDER:
FACILITY NAME: FLINr UUTP
RECEIVING STREAM: FLINT RIVER
REACH NUMBER: 040a0204005
THERE ARE: 17 INDIRECT DISCHARGERS
DATA FROM THE IFO FILE OBTAINED FROM PEHfUT
APPLICATION AMD HAY HOT BE COMPLETE.
I FLOW TGO - 1000 GALS/DAT, TYPE: P = PROCESS. C = COOLIMG. B - BOTH P t C
n
I
Ul
NPOtS NAME
COURT METAL FHSH., INC.
CHEVY-TRUCK ASSEMBLY
FLINT ENGINE * METAL FABRICAT
H-C SPARK PLUG
IHOOOID74 GnC-CHEVROLET-FLIHT MFC
nioooii
-------�
v £ P o « T «HNNHI»IHHHHMI
NPDES NUMBER: ALOOD3361
FACILITY NAME: CLOU CORP
RECEIVING STREAM: RECVS STRH-FIVZ NILE C
REACH NOffiER: 03169111006
NPDES: ALOOOTttl
>»» F V * fl 2 T S U11 11 A « Y T « « L E >»»
POSITIVE
1
J
1
1
1
1
1
1
J
CONVEHTIONAL 1
flETAIS/CTANIDE I
PESTICIDES 1
ORBMOCS 1
OIOXIN 1
i- cewtwntJNAi.
2- TtfTALS/CYANIDE
3- PESTICIDES
«- ORGANICS
10 1
U 1
0 1
•B 1
MD 1
r- 9- VEVIEM WflUHf TAI
6- ANOTHER NPOES Mm
7- CDD£ TRAHSLATION
6- «TWN
7
B
0
fl
au
ttR
1
1
1
1
1
1
1
1
1
CONVENTIONAL
PflNMETER l
VALUE
1
1
i
J
1
1
310. 1
340.
400,
530,
550.
610,
74028.
BOO
.COD
PH
RESIDUE
OIL-ERSE
NH3«NH4-
TEtfPV
1 1- CONMEMTZONAL
I 2-flETUS,
3— t*m.i;.:
iXMNIDl
LlltS
1 4- D86AHICS
PARAMETER ."COOEVPTPE
927. 1, a
1002. Z.
JO27.I.
1934 .Z*
1945.1.
1067.Z.
1092 .Z.
. 1147.1.1
"**At
5 DAY MS/I
HZ LEVEL ISO.
SU
TOT HFLT • flB/L
70T-SXLT flC/L
« TOTAL rS/L
-KINTE9 -PERMIT
1.50
12.90
7.01
16.00
3.04
0.50
36.00
4- REVIEW PRIMARY TABLE 1
A- ANOTHER MRDE5 WS
"7- CCOE TRANSLATION
B- RETURN
S/*TAt.ZO£
DEsbKir i Kun
11BNSZUR
AR5EHIC
CAoraun
ciffioniun
IRON
NICKEL
.ZZNC
sEizratn
1 1- CONVENTIONAL
tB.TOT flB/L
AS.TOT . UB/L
CO, TOT UB/L
CR.XDT UB/L
FE.TOT ifi/L
NZ.nTAL UB/L
2N.TOT UB/L
SE.TOT JJB/L
KR 1
1
1
VALUE
3.22
29.99
1.99
7.99
399.99
19.99
79.99
69.99
5- REVIBI PR1HART TALE 1
C-57
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I 2- METALS/CYANIDE 6- ANOTHER NPDE9 NUMBER I
I 3- PESTICIDES 7- CCDE TRANSLATION I
I <»- ORGANICS S- RETURN I
ZERO POSITIVE VALUE REPORTED FOR PESTICIDES
I 1- CONVENTIONAL 5- REVIEW PRIMARY TABLE I
1 2- METALS/CYANIDE 6- ANOTHER NPOES NUMBER I
I 3- PESTICIDES 7- CODE TRANSLATION I
I 4- ORGANICS 6- RETURN I
ZERO POSITIVE VALUE REPORTED FOR ORSANICS
I 1- CONVENTIONAL 5- REVIEW PRIMARY TABLE I
I 2- METALS/CYANIDE A- ANOTHER NPOES NUMBER I
I 3- PESTICIDES 7- CODE TRANSLATION I
I 4- ORGANICS 8- RETURN I
>»» F 0 R M 2 C SUMMARY TABLE >»»
REPORTED POSITIVE
I CONVENTIONAL I 10 I 7 I
I flETALS/CYANIOE I 16 I 6 I
I PESTICIDES 1 01 01
I ORGANICS I 68 I 0 t
I OIOXIN I NO I I
I 1- CONVENTIONAL 5- REVIEW PR IHASY TABLE I
I 2- METALS/CYANIDE 6- ANOTHER NPDES NUMBER I
I 3- PESTICIDES 7- CODE TRANSLATION I
I 4- CRGANICS e- RETURN I
»*»• CODE TRANSLATION «HMH»
I s AVERAGE CONCENTRATION
j a MINIMUM CONCENTRATION
K = MAXIMUM CONCENTRATION
M 3 AVERAGE LOADING (LBS/DAY DEFAULT)
P = MINIMUM LOADING (LBS/DAY DEFAULT)
Q = MAXIMUM LOADING (IBS/DAY DEFAULT)
t r MINIMUM CONCENTRATION 130 DAY)
! s MAXIMUM CONCENTRATION 130 DAY)
? = MAXIMUM LOADIN5 130 DAT*
I 1- CONVENTIONAL
I Z- METALS/CYANIDE
I 3- PESTICIDES
I 4- ORGANICS
5- REVIEW PRIMARY TABLE
6- ANOTHER NPDES NUMBER
7- CODE TRANSLATION
6- RETURN
C-58
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t
\Jl
RECEIVING STREAM REPORT »»«»
REACH NUMBER: 05050008007
LENSTH : 7.3 MILES
DOWNSTREAM: 505000ft 6 COMPLEMENT: 5050008 II
UPSTREAM LEFT: 5050008 6 UPSTREAM RIGHT: 5050009 1
>»»»»» 6 A 6 E S ««««««
FLOMSICFSI VELQCITIES(FPSI
MEAN 7-0-10 MEAM LOH
ESTIMATED 14930.64 1390.23 3.21 1.27
HE605050006007
USGS03200600 Off
LITTLE SCARY CR
3.42
GKY05050006007 14525.00 1436.00 ON
XAMAKHA R.
5.91
»>» ASIKPCA RESULTS <««
STATE: HV
STEP REPORT «197ZI MOT SUPPORTED 000.0 - 007.S
STEP REPORT UWZ> PARTIALLY SUPPORTED 000.0 - 007.3
NPS REPORT (19851 MODERATE IMPAIRMENT 000.0 - 007.3
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»«•.*»*»»,»» DRINKING WATER SUPPLY REPORT »•«•»*««»»•••
NPOES N'JM.SER: NC0004910
FACILITY NAfE- J P STEVENS STANLEY PLT
RECEIVING 5TREA1: CATAM3A R
REACH NUMBE9: 03050101012
FOP DRINKING HATER SUPPLIES UOHN STREAM FROH
THIS NPDES DISCHARGE, ENTER THE DOMN STREAM
DISTANCE (NOT TO EXCEED 75 MILES): 75
DISTANCE
DOWN
REACH NO. STREAM UTILITY NAME TYPE NAME
3050101012 R
3050101012 R
3050101012 R
3050101012 R
3050101012 R
3050101012 R
3050101009 R
3050101009 R
3050103037 R
3050103037 R
3050103037 R
7.3 CHARLOTTE-VEST sTA
13.1 MT HOLLY
13.1 MT HOLLY
13.1 CHARLOTTE-VEST STA
13.1 CHARLOTTE-HCSKIMS
13.1 CHARLOTTE-HCSKIMS
24.3 BELMONT
24.3 BELMONT
43.7 SPRINGS FT hILL
43.8 CITY OF ROCK HILL
44.2 FORT MILL
I
P
I
S
I
S
P
I
I
I
I
MOUNTAIN ISLAND LAKE
TREATMENT PLANT
CATAMBA RI
CATAMBA RIVER
MOUNTAIN ISLAND LAKE
CATAMBA RIVER
TREATMENT PLANT
CATAMBA P./ER
CATAHBA PIVER
CATAMBA RIVER
CATAMBA RIVER
SERVED
POP.
330000
6000
6000
330000
330000
330000
15000
15000
2160
45525
5631
3050103010 R
3050103016 R
3050103016 R
3050103016 R
71.7 CHESTER MET H P
71.7 GREAT FALLS
71.7 FORT LAWN
71.7 SPRING niLLS-LMICAST
I
I
I
I
CATAWBA AIVER
CATAMBA RIVER
CATAMBA RIVER
CATAKBA RIVER
18200
16100
16100
21000
3050103016 R
72.7 SPRINGS INDUSTRIES
I
CATAMBA RIVER
9150
C-60
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*«»*« ANALYSIS REPORT -- FACILITIES ON REACH •****
NPDES NUMBER: NC0004910
FACILITY NAME: J P STEVENS STAMLEY PLT
RECEIVING STREAM: CATAHBA R
REACH NUMBER: 03050101012
THERE ARE 9 FACILITIES ASSOCIATED WITH THIS REACH
FACILITIES HERE DETERMINED BY THE REACH NUMBERS FROM THE IFO FILE
THE FOLLOWING FACILITIES ARE ON THE REACH:
NPOES NUMBER FACILITY NAME MILES SIC FLOHtTGOl
NC0004136 SO TEX CHEN MOUNT HOLLY 2665 93.000
NC0004961 DUKE POHER-RIVERCEND STEAM 4952 546000.000
NC0022624 DUKE POWER-COWANS FOKD HYDRO 2252 3.000
NC0025224 CORNELIUS MrfTF 2512 110.000
NC0036277 CHAR LOT TE-MCDOWELL CHEEK WWTP 3469 3000.000
NC0004375 MARTIN MARIETTA SODYtCO CHARLT 1.25 2251 1640.000
NC0004201 REEVES BROS COHNELlUb 1-67 3264 4.000
• NC0004910 J P STEVENS STANLEY I'LT 3.38 4911 42.300
NC0021I56 MOUNT HOLLY IND kTP 4.33 4952 1200.000
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ANALrSIS 9EPOR1 — HATER QUALITY INVENTORY ••*•«
NPOES NUMBER: NC0004910
FACILITY NAME: J P STEVENS STANLEY PLT
RECEIVING STREAM: CATAMBA R
REACH NU1SER: 03050101012
THE FOLLOWING STATIONS FROM STOSET ARE
DESIGNATED AS AHBItNT - SURFACE HATER
THE STATIONS ARE RETRIEVED SOLELY BY REACH NUMBER
OTHER STATIONS MAY BE PRESENT THAT DO NOT CURRENTLY
HAVE A REACH NfMBEl! ASSIGNED
REACH NUMBER: 30501010:2
RECEIVING STREAM: CATAHSA R
AGENCY
STATION
NAME
MILE
I DBS
1 21NC01WJ C3930000 CATAkBA I! 3THE MT HOLLY MUTP
2 21NC01UQ C3920000 CATAkBA I! AT OLD MT HOLLY UTP
3 112HRO 02142806 CATAkBA I!IVER AT NC HHY 27 AT
4 21NCOIM9 C3900000 CATAV.BA HIVER 3 NC HHY 27 NR
5 21NC01W3 C3900000 CATAkBA I.'IVER a NC HHY 27 NR
6 21NC01H9 C3S70000 DUTChMANS CR AT MT HOLLY NC I
7 11EPALES 3711A1 CATAkBA I.'IVER
5 11EPALES 371 Ul CATAkBA HIVER
9 11EPALES 371101 MOUNTAIN ISLAND LAKE
10 11EPALES 371101 MOUNTAIN ISLAND LAKE
11 21NC01HQ C3820000 MTN ISLAND LAKE AB DAM N MT H
12 21NC01HQ C3750000 HTN ISLAND LAKE 3NC HHY 16 NR
13 1113SOOO 372010 CATAkBA I! AT NC 16
14 1113SOOO 372010 CATAkBA I! AT NC 16
15 11EPALES 371102 MOUNTAIN ISLAND LAKE
16 112H
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•MO* ANALYSIS REPORT — DILUTION RATIO •««•»
NPOES NUMBER: AL0003361
FACILITY NAME: CLOU CORP BIRMINGHAM
RECEIVING STREAM: RECV6 STRM-FIVE MILE C
REACH NUMBER: 03160111006
FACILITY IS ON THE REACH
MILE POINT: 22.66
LENGTH : 33.1 MILES
DOWNSTREAM: 3160111 5 COMPLEMENT: 3160111 7
UPSTREAM LEFT: UPSTREAM HI6HT:
»»»>»» GAGES ««««««
FLOWSICFS) VELOCITIES!FPS1
MEAN 7-Q-10 MEAN LOM
ESTIMATED 161.15 0.01 1.19. 0.28
KEG03160111006
USSS02457700 ON
FIVENILE CREEK
4.46
USGS02457500 ON
FIVEMILE C AT T
23.06
USGS02457000 35.06 5.31 ON
FIVEMILE CREEK
24.31
MEAN: 161.15 7-Q-10: 0.01
«H»« NO FLOW OATA AVAILABLE IN PCS «•*
DISCHARGE FLOW (FROM IFD): PIPE FLOW (CFS)
1 0.446 P
DILUTION RATIO = (PIPE FLOW * STREAM FLOW I/PIPE FLOW
DILUTION RATIOS USING THE FOLLOWING FLOWS FOR THE REACH
MEAN (CFS): 161.153 7-Q-10 (CFSI: 0.013
PIPE MEAN 7-Q-10
1 362.600 1.028
FACILITY TOTAL 362.600 1.028
C-63
-------�
WQAB RPA3
ATTEMPTING ENTRY TO WATER QUALITY ANALYSIS
BRANCH SOFTWARE PACKAGE - RPA3
WELCOME TO REACH POLLUTANT ASSESSMENT PROGRAM
* * *
WOULD YOU LIKE TO ANALYZE A STATE OR CATALOGING UNIT ?
ENTER S (STATE) OR C (CATALOGING UNIT)
C
ENTER CATALOGING UNIT
4100002
DO YOU WANT GRAPHICS OUTPUT (Y/N)
Y
ENTER OUTPUT FILENAME
RAZ
ENTER BOX ID (EX: C809)
C809
' ENTER EXECUTION TIME (MIN.SEC EX: 2,30)
o»
*• 10,0
ENTER PRIORITY (1-5)
1
JOB SBB(JOB00251) SUBMITTED
RAZ.FRM - REACH GENERAL AND REACH POLLUTANT SPECIFIC INFORMATION
RAZ.FRM2 - SUMMARY TABLE OF NUMERICALLY SORTED REACHES
RAZ.RCH - LIST OF REACH NUMBERS AND NAMES
RAZ.NPD - LIST OF NPDES NUMBERS AND NAMES
RAZ.AUX - AUX FILE CONTAINING PLOT DATA FOR PGM=LOC
CREATED ONLY FOR CATALOGING UNIT IF GRAPHICS
OPTION IS INVOKED
RAZ.JCL - JCL WHICH IS SUBMITTED AS A BATCH JOB
WQAB RPLOT - SUBMITS BATCH JOB TO CREATE A PLOT
-------�
REACH GENERAL INFORMATION
REACH = 11140302003
Name = DAYS CR
Length = 22.4
Type = S
Direct Industrial Dischargers
Total Priority Industries 1
with priority pollutant limits (PCS) 0
with bioassay requirements (PCS) 0
o
oj Total Other Industries 3
01 with bioassay requirements (PCS) 0
POTM Dischargers
Total POTHs 2
with priority pollutant limits (PCS) 0
with indirect discharge industries (IFD) 1
ASIUPCA RESULTS
State: AR
Non-Point Source (1985) Threat Impairment 000.0 - 012.0
-------�
TABLE 2. SUMMARY OF NUMERICALLY SORTED REACHES WITH PRIORITY POLLUTANT SOURCES
AND HATER QUALITY STATIONS IN CATALOGING UNIT 1060205
REACH
Seg.
Cat. Unit No.
(II (21
1080205 001
005
008
009
013
014
019
020
021
022
023
024
025
026
027
029
Total
Hater Quality No. of No. of Ind. Facilities
Length Stations Direct with Priority
Niles REACH NaM H/P.P. Total Oisch. Pollutant Discharge
13) 141 (51 (6) (71 (81 (9)
2.4 CONNECTICUT R
4.9 CONNECTICUT R
4.0 CONNECTICUT R
4.9 CONNECTICUT R
3.1 SALMON R
5.0 SALMON R
4.6 *0
4.2 POTOCOPAU6 L
15.0 CONNECTICUT R
9.0 CONNECTICUT R
10.0 HE
9.7 CONNECTICUT R
11.1 HOCKANUn R
6.2 »f
6.3 HOCKANUn R
7.0 CONNECTICUT R
0
0
0
2
1
1
0
0
2
0
0
1
1
0
0
3
0
4
1
8
1
2
0
0
24
2
3
5
16
1
6
11
2
2
4
2
0
0
3
1
3
6
1
6
7
1
5
19
AUTO • OTHER LAUND
ORGANIC CHEMICALS
METAL FINISHING
PLASTIC HOLDING a
ORGANIC CHEMICALS
METAL FINISHING
STEAM ELECTRIC
FOUNDRIES
PLASTIC MOLDING t
METAL FINISHING
PHARMACEUTICALS
STEAM ELECTRIC
METAL FINISHING .
METAL FINISHING
COIL COATING
ORGANIC CHEMICALS
METAL FINISHING
TEXTILES
METAL FINISHING
METAL FINISHING
PLASTIC MOLDING a
METAL FINISHING
ALUMINUM FORMING
STEAM ELECTRIC
11 METAL FINISHING
1 IRON * STEEL
2 FOUNDRIES
Total Indirect No. of POTM
No. of Discharge without Other
POTHs to POTM Ind. Oisch. Indus t. Disch.
(10) (11) (121 (13)
1
0
0
0
0
0
0
0
0
3
0
2
2
0
1
1
0
0
0
0
0
0
0
0
0
5 METAL FINISHING
0
4 METAL FINISHING
1 OTHER
0
0
2 TEXTILES
1 ALUMINUM FORMING
0
1
0
0 1 COMMERCIAL PR INT IN
0
0
0
0
0
0 1 HATER SUPPLY
2 1 PAVING MIXTURES AN
0
0 1 HATER SUPPLY
2 1 HATER SUPPLY
1 CONVERTED PAPER PR
0
0
1 1 STEAM SUPPLY
1 HATER SUPPLY
-------�
REACH POLLUTANT SPECIFIC INFORMATION
REACH = 11140302003
DAYS CR
Pollutant
Obs. in STORET 1
3 MQ Stations
Omt. N.O.
No. of India.
Lie;! ted in
PCS I 0)2
No. of Indus.
Monitored in
21 c I ( 0)2
Projected No.
Priority Indus.
ISS-Direct I 112
Projected No.
Priority Indus.
ISS-Indirect I 112
i
o>
-j
Aldrin
Alpha-BHC
Bete-BHC
Gaoua-BHC
Delta-BHC
Chlordane
DOD
ODE
DDT
Oieldrin
Alpha-Endosulfan
Endosulfan sulfate
Endrin
Endrin aldehyde
Heptachlor
Heptachlor epoxide
Toxaphene
Antieony
Arsenic
Berylliua
Cadaium
Chroaiua trivalent
Chroniua total
Copper
Cyanide
Lead
Mercury
Nickel
Selenium
Silver
Thalliua
Zinc
PCB-10I6
PCB-1221
PCB-1232
PCB-1242
PCB-124B
PCB-1254
PCB-1260
Chloronethane
Dichloroow thane
Tri chloromethane
1.1.1-Trichloroethane
I, I»2-Trichloro«thane
Tetrachloroethene
Benzene
1.2,4'Trichlorobenzene
Hexachlorobenzene
Ethvlbenzene
Toluene
S. H
S, M
N
S. H
M
M
S. M
S, U
H, S
N. S
M
M
U. S
H
M
M
S. H
S. H
S. M
S. H
S. H
S
-------�
READY
wqab city
ATTEMPTING ENTRY TO WATER QUALITY ANALYSIS
BRANCH SOFTWARE PACKAGE - CITY
'SKIP DESCRIPTIVE NARRATIVE? "Y(ES)H OR "N(O)11 ?
Y
****************************************
ENTER CITY NAME OR CITY,STATE OR "END" boston,ma
=============STATE-COUNTY: 25025 MASSACHUSETTS
STATE CODE SELECTED: 25
** BOSTON **
CITY* : 07990
7 MAJ/MIN BASIN: 0108
g SMSA: 1120
CITY NAME: BOSTON
COUNTY NAME: SUFFOLK
CONGRESSIONAL DISTRICT: 99
* STREAM REACH(S) ASSOCIATED WITH CITY *
*"ON"-CITY ON REACH,-"OFF"-CITY NEAR REACH
CAT# SEG FLG* TYPE MILES WATERBODY
1090001 018 ON T 13.6 CHARLES R
1090001 022 ON C 11.9 BOSTON BAY
****************************************
ENTER CITY NAME OR CITY,STATE OR "END"
-------�
REACH FJLE MANAGEMENT
TEM
-------�
REACH FILE MANAGEMENT
"TEM (RFMS)
REGION MATCH PROGRttH
? COMMAND ==>
JCL FARMS:
Bin No ==> C812
Input Dsnane ==> rksa041.reg01. insites
Output Dsnane ==> rksaO-ll.rpgOl.matched
PROGRAM FARMS:
Region (01-18) ==> 01
Distance (00.1-99.9). ==> 01.0
NOTES: Distance: MUST be in format IIN.N uith leading O's.
Input file format: Cols 1 thru 8 must be unique Station Id
Cols 10 thru 18 must contain Latitude (Oeg Dec.)
Cols 20 thru 28 must contain Longitude (Oeg Dec.)
ENTER TO SUBMIT EHD' TO CANCEL
-------�
REACH FILE
Reach File Use on the PC
o
Interactive Reach File Directory - Maps, Listings, overlay
other data (e.g., county boundaries)
Reach indexing for the Waterbody System
Reach File Updates
-------�
PC REACH FILE
Reach File Use on the PC
Rch: 2010003 -72-0 Moss Glen Brook
SEQ:000 DIRlD EXFLG:i TYPE:R BEGIN:00000000-000-0
UBID:UTXX-98 UBNAME:TEST UATERBODV
UBSIZE: 0.0 UBUNIT:M UBDESC:
Reach added to rch-by-rch list.
SegU 4.35
EMD:00000000-000-0
o
i
CURRENT UALS:
tt FTRS- 0
It RCHS= 117
EUAXIS:
57.15 Miles
NSAXIS:
47.63 Miles
1 CUs LOADED
Rch Nod OFF
Lat= 44.4730
Lon= 72.6396
dist= 24.1083
bpknile= 1.46
Utrbdy File
OPEN
Rch by Rch
Flfl-Main Menu!F9=Map Options:F5=RepoPts:F6=Cmnds!?=help ! mouse is Utrbdy Rchloc
-------�
RF2 MAP
Make Maps of RF2 on the NCC mainframe
View on-line or send to STORET's plotter
Each map is 1 ° x 2° coverage at 1:500,000 scale
-------�
RF2MAP
o
I
-------�
US ENVIRONMENTAL PROTECTION flGENCY
OFFICE OF UATER
UATER QUfiLITY ANALYSIS BRANCH
WELCOME TO THE ENUIRONMENTAL DATA DISPLAY MANAGER (EDDM)
ENTER fl UflLUE FOR ONE OF THE FOLLOUING ITEMS
REACH NUI1BER:
CITY NflflE:
flMD STATE:
o
-J
NPOES MUrtBER:
REACH NArtE: bainbridge island
AMD STATE:
ua
PF4 OR PF16 TO RESPECIFY INPUT UALUES
PF3 OR PF15 TO EXIT
ENTER TO CONTINUE
GDflTft 1
-------�
o
17110019028 BAINBRIDGE ISLAND 36.1 MILES TYPE: I
U.PORT BLAKELY UD UNKNOWN SURF SOURCE I 56
LIA0030333 LYNNUOOD CENTER STP SIC: 4952
METRO
B145
UEST POINT STA 0145
SLOW
0011.500 AMBNT'OCEAN
«• = INDUSTRY
i
t = POTU
8 = SUPERFUND
* - CITY
. = UQ STATION
"4 -- GAGE
a = WflTER SUPPLY
DOUNSTREfiM UP LEFT:
LATITUDE: 47.6838 LONGITUDE: 122.4938
REQUEST UPS MADE BY: REftCH NflttE
UPRIGHT
GDATP
-------�
TPflNSPflPENCY, SECCHI DlSt (METEI^
METk'IJ 0145
8-
7-
6-
LTJ
LU
t— «
:j en
o_ 3~
LT»
cc
Qi
1-
0-
Jf
IJEST POINT STH «I4S
-g. _
IN FE
\
:B m
/
)R RF
/.
JR hf
\
IY Jl
\
\
\
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/
y
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/
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\
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m
1975
\n&T &i>
-------�
17110019085 PUGET SOUND
35.5 MILES TYPE: C
YCRCLA421 COMMENCEMENT BAY NEARSHORE T SIC: 8999
USGS12182800 SO.FK.HYLEBOS CR.NR.
112URD 12102900 HYLEBOS CR ABU TRIB AT 5TH AUE
ATTLE
o
-J
00
INES
AL WAY
0001.550 AMBNT/STREA
- INDUSTRY
i = POTU
= SUPERFUND
* = CITY
= UQ STATION
= GAGE
= WATER SUPPLY
DOUNSTREAM 17110019084 UP LEFT: 17110013002 UPRIGHT: 17110013001
LATITUDE:
47.2504 LONGITUDE: 122.3011
REQUEST DAS MADE BY: REACH NUMBER
GDATA1"
-------�
4050001005 ST JOSEPH R
[rn¥0j^7jT
85.3 MILES TYPE: R
SIC: ~3~316|
o
I
-J
+ = INDUSTRY
!
t = POTU
g = SUPERFUMD
* = CITY
. = LIQ STATION
* - GflGE
R = WflTER SUPPLY
OOUMSTREfin 04050001B04 UP LEFT: 04050001007 UPRIGHT: 04050001006
LATITUDE: 41.8476 LONGITUDE: -86.2457
IRCH0 1
-------�
7010286088 L I1INNETONKA
46.3 MILES TYPE: L
o
I
00
O
!_ttNBB4_24_5_5_J1INNE_TONKft _BEACH_ U_ILLfi_GE_ 0_F_____S_I_C_:__4.9_41_J
'
* INDUSTRY
t = POTU
JflVYZATA
WORK INS
DOUMSTREAtt UP LEFT:
LflTITUOE: 44.8717 LONGITUDE: -93.5801
UPRIGHT:
= SUPERFUHD
* ~- CITY
= UQ STATION
5J - GAGE
a = WflTER SUPPLY
IKCHI2
-------�
7010206008 L MIMNETONKA
46.3 MILES TYPE: L
MM0001 627 RIDJIOi PRODUCTS CORP
S 1C : 3499 !
o
I
00
—\
I
[11EPALE 276003 | v LAKE tt.INM.ETQNKfl !
. (_.
IfUJllljU'Y
t = POTU
8 = SUPERFUNO
* = CITY
. = UQ STATION
X ~- GAGE
& = WATER SUPPLY
DDUNSTREfln
UP LEFT:
UPRIGHT
LATITUDE: 44.9171 LONGITUDE: -93.5616
IRCH0 3
-------�
4880e02011 PINE R
o
I
oo
34.8 MILES TYPE: R
I 9700
SIC: 8999
I? J HI C H_ _ _56B1_1^ J_ -A. "_ _P I HE _ RjfUE'R _ OF f _ HO M E_O Ofi Dj H_Q'.H E.O.U P~- 1
INT U$U1S
INDUSTRY
I - POTU
g = SUPERFUND
•* CITY
. = UQ STATION
* - GAGE
8. = WATER SUPPLY
DOUNSTREAn 04080202001 UP LEFT:
LATITUDE: 43.4380 LONGITUDE: -84.5899
UPRIGHT: 04080202012
I RCHP 4
-------�
o
CD
4140201021 CANADAIGA L 35.4 fllLES
PALMYRA UATER DEPT CANAhDAIGUA LAK I 5080
NY0000116 COMSTOCK FOODS SIC: 2033
USGS04234480 UEST RIUER NEAR MIOO
21NYDEC 07F04005 CfiNfiDfllGUfl LflKE SOUTH END
&
MIDDLESEX
DOUNSTREfiM UP LEFT:
LATITUDE: 4E.7107 LONGITUDE: -77.3484
UPRIGHT:
TYPE: L
NCilJSffY
I = POTU
= SUPERFUND
* -- CITY
= UQ STATION
5J = GAGE
a = WATER SUPPLY
IRCH0 5
-------�
0
00
I0e30003050 UE5T OKOBOJI L 18 2 ttlLES
;rHLFORD NUNICIPAL UT UEST/ OKOBQJ1 LAKE I 1800!
/ SIC:
/
I21IOUA L00448 / gOTTOM MIDSECTION 24!
" "/""/
ail
1*
&
DOUNSTREArt UP LEFT: UPRIGHT:
LATITUDE: 43.3773 LONGITUDE: -95.1519
TYPE: L
INDUSTRY
1 = POTLJ
6 = SUPERFUND
'•» = CITY
. = UQ STATION
* -- GAGE
a = WATER SUPPLY
I RC HP R
-------�
O
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EXAMPLES
OF
20 30
Contour fill
Mapping
Host Graphics
N.B. No
programming
Chlorophyl Levels
Contours by UHIRAS (20 option)
SflGF
-------�
o
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Ch lorophy 1 -ug-
I I ABOVE b0.0
I I 55. - bfl.fl
50.
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40.
35.
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• 45.
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BELOU 10.
SAG T2
-------�
LAKE MICHIGAN
o
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825.0
750.0
b?5.0
600.0
525.0
450.0
375.0
300.0
225.0
150.0
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-------�
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100.0
90.0
80.0
70.0
60.0
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110.0
45.6-
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44.6
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43.6-
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100.0
90-0 43.1
80.0
70.0
60.0 42.6
50.0
30.0
20.0
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.1 -
41,6
-45.6
-45.1
-44.6
95
-------�
Lake Michigan -Chlorides over depth
o
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ABOVE
758.0 -
b75.8 -
bldB.B -
525.8 -
458.8 -
375.8 -
308.8 -
225.8 -
158.8 -
75.8 -
BELOU
825.8
625.8
750.8
675.8
b80.8
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450.8
375.0
300.0
225.0
150.0
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UHtflftP'UIHffiS
-------�
LAKE ERE
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bfl.0 •
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50.0
45.0 •
40.0 -
35.0
30.0 -
25.0 -
20.0
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BELOW
b5.0
b5.fl
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55.0
50.0
45.0
40.0
35.0
30.0
25.0
20.0
15.0
GLER IE
-------�
o
ABOVE
0.1 -
0.1 -
0.1 -
0.1 -
0.1 -
0.1
0.1
0.0
0.0
0.0 -
BELOW
0.2
0.2
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.0
0.0
0.0
LAKE HURON
GL H UR n
-------�
£ m
rwi
ABOVE
0. b -
0.5 -
0.5 -
0.4
0.4 -
0.3 -
0.2 -
0.2 -
0.1
0.1
BELOW
0.7
0.7
0. b
0.5
0.5
0.4
0.4
0.3
0.2
0.2
0.1
0.1
LAKE ONTARIO
GLON T
-------�
r>
our A DISPLIX
Drainage Area - CU
Y
11/2 Minute
Map
Host Graphics
Zoom
Regional Forum on Water Information
FORU
EPA
-------�
o
i mu
G 0 G D T E R H
-------�
o
I
ME FILE - Ml Stems
Hinmki Sm Basin, Vmnml
Of 020/9003
GOGO 3
-------�
REM FILE -
(TinoosJH River Basin, Permonl
of mints
o
GOGORF2
-------�
FILE - m
linmki Rmr Basin, fmnonl
ai mm
o
GOGO
-------�
n
i
GOGORF
-------�
MR Mm FILE
RF1
RF3 - OLG
UftS TB 7
-------�
n
i
RXUHM Rtter C(l
nt
11/I m+imp ml* Ufa
Vvwk i
./ >/. * . V y fr' >'
i /-^i . \ r-^
••,--»-' XL. • \ I
UftST03
-------�
Huron Riuer Basin DIG
FILE
7 \'l hinute
Maps with
Uoter Buality a Sites
GISP" S
-------�
n
i
o
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<•(+ f «• + * f«. *
M Q
c
t t t V—»A
7 1/2 Minute ( 1 : 24,000 ) Example
t 83 45 / 4? 38 *
DIG and Uater Dual itg
G ISPB2
-------�
n
-------�
o
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msmsr
CIJ 05120108
MIDDLE UflBflSH
(UQflS System)
22
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+ INDUSTRIAL FfKILITV m' PFfl'.'.H NIJ.
REGS
-------�
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imi-imi
.I.HM.I
M.I
CUHKS EWPllS
m mm mm lisas
mm Bff
Minimum requirements
-3270 graphics terminal
Printers, plotters,software,
already exist.
See following pages for many examples
GREAT
-------�
WBS SLIDES: REGIONAL FORUM ON WATER INFORMATION
INTRODUCTION
1 SECTION 305(B) GUIDELINES COVER
2 MODIFIED REPORT NO. 11 (WITH SIZE, UNITS)
Rivers impaired by metals from point sources for the State of
Vermont
3 PCRF MAP
Color plot of State, with impaired waters in red.
4 WBS REPORT NO. 1
Designated use support for Winooski Basin
5 PCRF MAP
Color plot showing water fully (blue), partially (yellow), and
not supporting (red).
6 PIE CHART
Color graphic showing percent of water fully, fully/threatened,
partially, and not supporting designated uses.
• KEY ELEMENTS OF THE WBS
7 WINOOSKI RIVER BASIN
8 WATERBODIES, WINOOSKI BASIN
9 REACH FILE SLIDE
Showing RF1 and RF2 reaches for one cataloging unit.
10 ASSESSMENT SLIDE
Schematic of the water quality assessment process.
WBS DEMONSTRATION
11 MAJOR WBS DATA ELEMENTS
12 WBS CODING FORM
Screen 3
13 WBS SCREEN 1
Vermont waterbody VT08-01
C-107
-------�
WBS REPORTS
14 REPORT SELECTION CRITERIA
Rivers impaired by nutrients, organic enrichment, and taste
and odor (9,12,20) from municipal point sources.
15 REPORT SELECTION SCREEN
Shows Report No. 11 selected
16 REPORT NO. 11
17 REPORT NO. 10
First page of this report
18 CUSTOMIZED SPREADSHEET REPORT
Shows waterbody ID, Name, use support categories
PCRF DISCUSSION
19 PCRF MAIN MENU
20 PCRF MAP SCREEN
Uinooski Basin, pointer on Reach 02010003043
(Waterbury R), Current waterbody is VT08-01
C-108
-------�
United Suit*
Environmental Protection
Agency
Office of Water
Office of Wile? RcguUuoni
ind Sundtnb (WH-SSI)
Waihington D.C. 20460
1989
W*
Guidelines for the
Preparation of the 1990
State Water Quality
Assessment (305(b) Report)
C-109
-------�
06/07/89
Water-body ID
Rivers Impaired by Metals from Point Sources
in the State of Vermont
Waterbody Name
WB Size Units
VT01-02
VT01-03
VT01-04
VT02-04
VT05-07
VT05-10
VT07-13
VT08-01
VT08-16
VT12-01
VT12-05
VT17-08
Hoosic River 7.0 M
Walloomsac River 104.7 M
Batten Kill Main Stem 21.0 M
Upper Poultney Watershed 59.2 M
St. Albans Bay Drainage 21.0 M
Burlington Direct Land Drainage 0.6 M
Brewster River 8.0 M
Lower Vfinooski River 20.0 M
Stevens Branch - Hinooski River 28.7 M
Lower Deerfield River 8.0 M
North Branch Deerfield 36.0 M
Upper Barton River 27.0 M
-------�
o
I
LEGEND:
F^eatur-ea
DLG Uayer-
VT Flivens Impained by Metals
-------�
i
II 06/O7/B9
DESIGNATED
RIVER (all size units in
U
3 TOTAL
II
1]
J
NUMBER OF RIVER
TOTAL
TOTAL
STREAM
USE SUPPORT
MILES)
WATERBODIES ASSESSED
NUMBER MONITORED :
NUMBER EVALUATED :
3
17
SUMMARY
: 20
FOR VT
ASSESSMENT BASIS
DEGREE OF USE SUPPORT
SIZE
SIZE
SIZE
SIZE
TOTAL
FULLY
SUPPORTED
THREATENED
PARTIALLY SUPPORTING
NOT SUPPORTING
EVALUATED
321
T2.
63
58
515
•
•
•
•
2-
2
7
1
2
MONITORED
46
1
i
4
1
1
83
.O
.5
. 3
. •_>
. 1
PAGE 2
TOTAL
ASSESSED
367.2
76.7
•^9 '. 4
599.3
II
i;
1
y
s
H
ii
,i
i.
it
fi
ii
u
jj
:i
jj
i!
-------�
LEGEND:
CU Boundary
Fully Supporting u»o«
Par-tially Supporting Uses
Not Supporting u«e«
-------�
UD
ffinooski River, Vermont
u
FJySupp.
Turned (13%)
Potty (13%)
C-114
-------�
State of Vermont, Highlighting Winooski River Basin
C-115
-------�
o
I
^^——— Cataloging unit boundary
Subbasin waterbody
B;;jSjjiii:|tJiijjjii.B Mainstem waterbody
(05703) Mainstem waterbody
ID no.
08-04 Subbasin waterbody ID no
Scale = 1:500,000
Vermont Waterbodies within USGS Cataloging Unit 02010003
(Winooski River Basin)
-------�
C-117
-------�
com—
Surface Waters
Classified by State
(designated uses,
numerical stand.)
Chemical/Biological Monitoring
Intensive Surveys
Modeling
Professional Judgement
Other Data
Water Quality
Assessments
Biennial 305(b)
Report
C-118
hath fi.S.BO
-------�
WBS DATA ELEMENTS
Waterbody Identification:
Assessment Information:
Water Quality Status:
Nonattainment Causes
and Sources:
Waterbody ID Number
Waterbody Name
Basin
Waterbody Type (river, lake, estuary,
wetland, shoreline)
Waterbody Size
Location Description
Latitude/Longitude
Reach File Indexing
Assessment Date
Assessment Type
Sampling Dates
Media/Pollutants Assessed
General Comments
Fishable/Swimmable Status
Use Support Status
Water Quality Limited Status
CWA Listing Requirements
Causes of Impairment
Sources of Impairment
Significant Point Sources
Significant Nonpoint Sources
C-119
-------�
WBS CODING FORM
Assessment Information
Screen 3
Assessment Date (YYMM)
Use Information Option
(Circle one letter)
Overall Detailed
Toxics Monitoring Yes No
(Circle one letter)
Media/Pollutants
(Circle up to 17; optional)
1 a Organics in water column
2 a Organics in sediments
3 = Organics in fish tissue
4 • Organics in discharges
5 a Pesticides in water column
6 - Pesticides in sediments
7 - Pesticides in fish
8 a Pesticides in discharges
9 • Metals in water column
10 a Metals in sediments
11 a Metals in fish tissue
12 = Metals in discharges
13 a Other inorganics in water column
14 • Other inorganics m discharges
15 a Toxicity testing of water column
16 a Toxicity testing of sediments
17 a Toxicity testing of discharges
CWA Goal Status
Rshable Supported
Rshable Not Supported
Rshable Not Attainable
Swimmable Supported
Swtmmable Not Supported
Swimmable Not Attainable
Comments on the Assessment.
C-120
-------�
o
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SCREEN 1
COMMAND =>
WATERBQDY IDENTIFICATION PART 1
WATERBODY IDENTIFICATION # => VTO8-01
PASSWORD FOR UPDATE ACCESS =>
WATERBODY NAME => Lower Winooski River
COUNTY CODE => 50007 COUNTY NAME => Chittenden
BASIN => 08-Winooski CWA 3O4(1) STATUS = > 2 4 0
WATER BODY TYPE »> R WATERBODY SIZE => 2O.O UNITS =: M
DESCRIPTION
Main Stem - Mouth to Confluence of Alder Brook
NEXT ASSMNT.CYYMM) =>
WASTE. ALLC.(YYMM) => 8001
TYPE ->
F2:SAVE = F3:PREV = F4:NEXT = F5:HELP
Ffc:PABE
F9:END = FlOrEXIT
-------�
ro
ro
B REPORT SELECTION CRITERIA II
D COMMAND => jj
f| STANDARD SELECTION FIELDS II
0 !l
II WATERBODY ID B
fl WATERBODY TYPE R S
I) WATERBODY BASIN jj
g ASSESSMENT DATE «
o IMPAIRED FLAB Y H
CAUSE CODEC/NAB: 9,12,20
SOURCE CODEC/MAS] 02
|| USEC/IMPAIRED] jj
fl OPTIONAL SELECTION FIELDS jj
H II
0 H
V n
I i
fl CHANBE THE DEFAULT SIZE UNITS FOR OUTPUT (Y/N) ? N J!
e= F2:SAVE = F3:PREV = F4:NEXT = F5:HELP = F6:PABE == F9:END = F10-.EXIT =»
fl REPORT SELECTION !l
B 8
II SUMMARY REPORTS H
B 1 - DESIBNATED USE SUPPORT SUMMARY ii
D 2 - ATTAINMENT OF CWA GOALS 3
I 3 - CAUSE SUMMARY !l
g 4 - SOURCE SUMMARY !l
D 5 - TOTAL WATERBODY SIZE AFFECTED BY TOXICS "
B !!
B LIST INS REPORTS i'
U 6 - TROPHIC STATUS REPORT ii
B 7 - TOXICS STATUS REPORT I
g a - USE SUPPORT STATUS REPORT i
0 9 - CWA SOAL STATUS REPORT II
0 10 - DATA LIST FDR ALL WATERBODY DATA II
u 11 - WATERBCDY INDEX it
n i!
H :.
II SELECT A REPORT NUMBER => 11 ;i
D :!
D ENTER 'E' TO EXIT BACK TO THE SELECTION CRITERIA SCREEN
-------�
o
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U)
J 05/30/89 WATERBODY INDEX REPORT PAGE 1 il
U WATERBODY ID * ?!?™???*_!^"E Bl'IE \
B VTOB-01 Lower Winooski River B3O1 j!
I VTO8-O3 Lower Mid-Winooski SS^1 i
9 VTO8-O5 Upper Mid-Winooski SS9: '
1 VT08-16 Stevens Branch, Winooski River SS01 :l
il VT08-17 Dog River 380: ii
i> ;
H :•
S !
ii :|
II
g
fc Press any key to continue
il
it Press any key to continue
H O5/3O/S9 GENERAL REPORT OF ALL WATERBODY DATA PAGE 1 !i
fl "
I! WATERBODY ID » : VT08-01 !j
II !
U WATERBODY NAME : Lower Winooski River ,,™,_,,n „-, «-r- i
li WATERBODY TYPE : RIVER SIZE : 20.0 STREAM ML LEE !!
U BASIN : OB-Winooski COUNTY : '!
II CWA 304(1) STATUS : 2 4 0
8 DESCRIPTION : !l
!1 Main Stem - Mouth to Confluence of Alder Brook i
0
II |!
S NEXT ASSESSMENT : O WLA/TYPE : 80O1/C 'I
Q WATERBODY REACH INDEXING "I
i| BEGIN POINT DIR I/E TYPE TERMINATION EXPRESSION [I
jl O2O1OOO3O1S D I R O2O100O3012 li
i! ASSESSMENT DATE : 8801 TOXIC MONITORING (Y/Nl : < il
'! MEDIA / POLLUTANTS : 1 9 12 14 :i
II -:
-------�
PAGE NO.
06/08/89
Waterbody ID Waterbody Name
Designated Use Support Status in the Winooski Basin, Vermont
Rivers Only
HB Size Fully Partially Not
(miles) Supporting Supporting Supporting
Fully Supp/
Threatened
o
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VT08-01
vioa-02
VT08-03
VT08-04
VT08-05
VT08-06
VT08-07
VT08-08
VT08-09
vroa-io
V108-11
VT08-12
VT08-13
VT08-14
VT08-15
VT08-16
VT08-17
VT08-18
VT08-19
V108-20
Lower Hinooski River 20.0
Minor Tribs, Lower Winooski 23.0
Lower Mid-Winooski 20.0
Minor Tribs, Lower Mid-Winooski 41.0
Upper Mid-Winooski 15.0
Minor Tribs, Upper Mid-Winooski 28.8
Upper Hinooski River 19.0
Minor Tribs, Upper Winooski 34.0
Winooski Headwaters 10.5
Huntington River 31.5
Lower Little River 31.6
Upper Little River 30.6
North Branch, Winooski River 56.1
Kingsbury Branch 48.0
Jail Branch, Winooski River 23.0
Stevens Branch, Winooski River 28.7
Dog River 53.5
Mad River, Main Stem 26.0
Lower Mad River 27.0
Upper Mad River 31.0
0.0
3.9
0.0
41.0
0.0
28.8
2.2
20.2
7.5
27.0
19.0
13.6
42.1
26.0
21.4
22.
51,
6.5
23.0
11.1
.6
.3
0.0
0.9
0.7
0.0
8.0
0.0
16.8
2.0
1.0
0.0
11.3
10.0
0.0
22.0
0.0
0.
0.
0.0
0.0
2.0
.2
,1
20.0
18.0
19.3
0.0
7.0
0.0
0.0
0.0
2.0
0.0
1.3
0.0
1.5
0.0
1.5
5.8
0.0
0.0
0.0
3.0
0.0
0.2
0.0
0.0
0.0
0.0
0.0
11.8
0.0
4.5
0.0
7.0
12.5
0.0
0.
0.
2.
19.5
4.0
14.9
Total
***
598.3
367.2
75.0
79.4
76.7
-------�
PC REACH FILE MAIN MENU
o
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in
[DESCRIPTION]
MAP Go To Map Screen
This is the interactive mapping
option of PCRF, and includes
numerous options for selecting,
listing, and modifying Reaches.
Several options also exist to
select and list Features.
The "F9" option in the map is
used to change various selection
and display options such as
displaying downstream points with
circles, screening to the current
"zoom" window, etc.
[CURRENT VALS] 1
1 CU's
Loaded
# Rchs= 117
FTR FILE:
# Ftrs= 0
WATERBODY:
OPEN
Use arrows keys {<-->} to highlight menu choice, press ENTER to execute
RCH FTR DLG POLY DIG PLOT 305b SHELL QUIT MAP
-------�
Rch: 2010003 - 43 - B UATERBURY R Segl= 3.99
SEQIBBI DIRID EXFLGrl TYPElR BEGIN:02B10003~B15- END:82B1B0B3-B12-
UBID:VT08-01 UBNAMEiLouer Uinooski Riuep
UBSIZE: 2B.B UBUNIT:M UBDESClMain Stem - Mouth to Confluence of Alder Broo
•
o
rso
cr
F10=Main (1enu:F9=Hap Options:F5=Reports!F6=Cmnds:?=help
CURRENT UALS:
tt FTRS= B
tt RCHS= 117
EUAXIS:
57.15 Miles
NSAXIS:
47.63 Miles
1 CUs LOADED
Rch Mod OFF
Lat= 44.3843
Lon= 72.7666
dist= 0.0000
brkmile- 2.90
Utrbdy File
OPEM
Rch by Rch
mouse is Reach Locator
-------�
o
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BIOS
-
D
antral
-------�
STORE!
Parameter Fife
[Slat
o
rv
C3
Water Quality
System
ons
Daily Flow
System
BOS
Biological
System
Taxonomic File
-------�
o
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\D
Sampling
Environment
Characteristics
A GEN CT
Stations
\
Samples
\
Sampling
Gear
\
Taxa,
Counts and
Associated Data
Reference
Numbers
-------�
How to Use BIOS
o
CO
o
Obtain a User ID for Accessing EPA's Computer
Establish an Agency Code
Store and Verify Sampling Location Data
Store and Verify Sample Reference Descriptions
Store and Verify Sample Data
Use Standard Outputs and SAS to Analyze Data
-'••'-=
'[' .- J
-------�
The Data Entry Process
Conduct Field Survey
Perform Taxonomic Identifications
• Determine Species Abundance
• Create BIOS Data Entry Dataset
• Submit Dataset for BIOS Update
-------�
Example Data Entry Keywords
(A)
INJ
Community = Fish,
Gear = Trawl,
Taxon = Morone saxatilis,
Lifestage = Adult,
Idconf = A,
Cnt = 53,
Wetwt=3000,
' \ -
-------�
Station Selection
o
i
co
By Agency Codes and Station IDs
Within States and Counties
Within Aquifers
Within Latitude/Longitude Polygon or Circle
Within USGS Hydrologic Units
Within EPA Drainage Basins
By Station Type/Parameter Attributes
By EPA Reaches
Within EPA Ecoregions
-------�
Sample Selection
CO
Survey ID
Sample ID
Season/Date/Time
Sampling Environment Characteristics
Community
Gear Type
Taxon
Abundance
-------�
"SELECTED" STATIONS
FILL UP
---------------- >
THE BUCKET #
*
* ............ #.
. . BUCKET OF ...#.
# . SELECTED STATIOMS ...#
# .......... *
# ....... #
* ..... #
# . . # -i-
t •*•
...-»•
'FILTER*
RESTRICTED STATIONS
'HITS' FILE
(STATIONS TO BE RETRIEVED)
C-135
-------�
en
Data Retrieval Options
List Organisms in Taxonomic Order
List Organisms According to Abundance
List Organisms by Scientific Name
Community Composition
Replicate Summary and Statistics
Shannon-Wiener, Margalef, & Simpson Diversity Indices
Taxonomic Evenness
Taxa Richness
EPT Value
Pie Chart Showing Abundance
-------�
George Mason ~,iiversity Study
I-up j L : .-I II'ban rut i nn •-" \"*f- ' t 10^.1
Slr-"ii»is IK "iii) ;n I n -iialli 01 ' :n - '< i^u' ii " i"
r, ll-T !
iP'i i'o . 1
•I?. 43 ^
r, ti.l i 'II
o
H-
oo
I'.». J 3 '•
»ji t r
"• I I •
i« l.-ta •fsnj*s i" Uit STOHET/BIOS -.»• s«ivn under u.je-ic-- '-'-If ' ' ''-I';
-------�
George Mason oniversity Study
Impact of Urbanization on Insect Biota
Stream in Virginia south of (Jostling) on, PC
'it at ion Ho. I
loleoptera Diplera Cplieaeropt era Collenbola flegaloptera Plecoptera l~r ichoplera
TokonoMit Order :
So op I e Date ^••88-07-86 •••Se-Or-B? I 1 8e-Br-89
- Row data resides in the STORET/BIOS system under agency code 1 1 TRAIN -
-------�
SIORET RETRIEVAL DATE 89/01/17 BIOS FIELD SURVEY ALLFS REPORT
301146
41 06 19.0 095 54 55.0 3
BIG PAPILLION C AT BELLEVUE OFAB
31153 NEBRASKA SARPV
MISSOURI RIVER 091207
/TYPA/AMBNT/S1REAM/BIO LOWER MISSOURI
21NEB001 10230006021 0004.620 ON
0000 FEET DEPTH
SURVEY NUMBER => 1
SAMPLE DATE => 85/09/17
SAMPLE ID => F-04
COMMUNITY => FISH/NEKTON
SAMPLE NOTE = > CHANNELIZED WITH SEDIMENT DEPOSITION THROUGHOUT
=> 1/4 MILE LENGTH OF STREAM SAMPLED
= > ONE SAMPLINS 1UN HAS CONDUCTED
= > APPROXIMATE SAMPUfG TiME HAS 50 MINUTES
SAMPLINS ENVIRONMENT CHARACTERISTICS:
P0001C - TEMPERATURE, HATER CDEGREES CENTIGRADE) => 19.0
P00011 - TEMPERATURE, HATER (DEGREES FAHRENHEIT) => 66.2 •
P0007Z - STAGE, STREAM (METERS) => .400
P00095 - SPECIFIC CONDUCTANCE (UMHOS/CM 3 25C) => 700
('00309 - OXYGEN. DISSOLVED MG/L => 8.6
rOOJOl - OXYGEN, DISSOLVED, PERCENT OF SATURATION X => 91.5 t
PS3S09 - SIREAM, HIOTH METER => 15.8
P63512 - CHANNEL VEGETATIVE COVER. APRX. X BY VISUAL EST..X => 20.00
O P83513 - CHANNEL SLOPE,LEFT!ASCENUINS) BNK,«90=UNDRCUT)DE6 => 60
' P835I4 - CHANNEL SLOPE,RIGHTIASCENDING IBNK,«90=UNDRCUTIDE6 => 60
GJ P83S15 - STREAM, PERCENT SHADED Br CANOPY X => .00
*° P33530 - SUBSTRATE, SAND. MEDIUM 0.250-0.500 MM 7. -> 50.00
P83534 - SUBSTRATE, SILT. MEDIUM 0.031-0.016 MM X => 15.00
P8353B - SUBSTRATE, CLAV/FPOM, MEDIUM 0.0020-0.0010 MM X => 35.00
P84132 - STREAMBANK, VEGETATIVE STABILITY RATING CODE => E
PB4133 - STREAMBANK. STABILITY (BANK EROSION) RATING CODE => STAB
P84135 - STREAMSIDE. (SHORELINE) COVER RATING CODE => 2
PB'il37 - CHANNEL STABILITY RATING CODE (E.G.F.P) CODE => F
SAMI'I irir, EFF09T INFORMATION:
GEAR = > ELECTROSHOCK
REFERENCES:
COLLECTOR => 1
IDENTIFIER => 1
TAXON NA1E => LEPISOSTEUS PLATOSTCMUS (SKGRTNOSE GAR)
COtlFIOEHCE IN IDENTIFICATION -> A
COUNT => 1
TOTAL IENSTH MINIMUM => 47.20 CM
TOTAL LENSIH MAXIMUM => 47.20 CM
TAXON NAME = > DOROSOHA CEPEOIANUM (GIZZARD SHAD)
CONFIDENCE IN IDENTIFICATION -> A
COUNT => 128
Saoplc Printed Report - PGM=ALLFS
-------�
SIORET RETRIEVAL DATE 87/06/19
MAP PRE-PROCESSING BEGINS . .
LCC ItlAP) - VERSION OF FEB 28,1985
PROJECTION = ALBERS
SCALE = 1:100000
REFERENCE LATITUDE = 36 45 00 REFERENCE LONGITUDE = 77 20 00
I All HIDE MINIMUM = 38 27 00
LAIirUDE MAXIMUM = 39 03 00
27.23
26.50
LONGITUDE MINIMUM = 76 56 00
LONGITUDE MAXIMUM = 77 44 00
X-IHCHES =
WINDOW Y-INCHES =
MAP PRE-PROCESSING COMPLETE
PGM-LOC (STORPLT) LOG OF MAPS
mi _..._-__.._-___.____________--. -_-_--.
«• BEGIN JOS HCOIO 8/19/87 1:16:14.37 PM JES 7510
PLOTMSG : PLEASE
PL01MSG : PLEASE
PLOTMSG : THANKS
END MAP flOl HCOIO
»» END JOB HCOIO
PGM=LOC ISTQRPLTI
LOAD 32 KITH BLUE.
LOAD 93 WITH RED.
i
8/1-J/87 1:19:54.11 PM JES 7510 FOREGROUND POINTS 22
8/1-1/67 1:19:56.67 PM JES 7510
NORMAL END
BACKGROUND POINTS 6911
STORET RETRIEVAL DATE 87/08/19
PGK=LOC - VERSION OF FEB 28.1985
31GHU
31GMU
31GHU
31 GMU
31G*!!I
3IGMU
31 GMU
31 GMU
31 GMU
31 GMU
31 GMU
SIGM'J
3IGMU
SIGM'J
31 GMU
31GHU
31 GMU
31 GMU
31 GMU
31GM.'J
31GMU
31GKU
ACCOTINK-01
ACCOTINK-02
ACCOTINK-03
ACCOTINK-04
ACCOTINK-05
ACCOIIHK-06
ACCOTINK-07
CAHERON-01
CAME90N-02
CAMERON-03
CAME90M-04
DIFFICULT-OI
DIFFICULT-IO
DIFFICULT-11
DIFFICULT-13
DIFFICULI-02
DIFFICULT-07
DIFFICULT-09
POPESHEAD-01
QUANTICO-01
QUANTICO-02
QUANT ICO- 03
18 51 36.2 077 17 48.1 3
28 5! 04.1 077 14 35.3 3
28 4t) 40.7 077 13 56.4 3
28 40 40.7 077 14 44.7 3
26 47 14.3 077 13 00.2 3
28 45 32.3 077 12 27.3 3
28 43 37.4 077 12 29.8 3
28 4t) 45.1 077 09 46.1 3
28 40 45.1 077 09 01.4 3
28 5U 49.1 077 10 42.3 3
28 5! 40.4 077 10 07.3 3
28 53 33.4 077 19 50.9 3
28 50 17.9 077 16 52.8 3
28 57 38.8 077 18 02.4 3
28 50 21.4 077 14 33.4 3
28 55 19.6 077 19 08.8 3
28 56 02.9 077 16 53.8 3
23 5S 34.4 077 17 23.4 3
28 5J 13.6 077 26 32.6 3
26 30 56.3 077 22 06.6 3
28 3d 21.1 077 26 22.4 3
26 3'i 26.6 077 24 17.6 3
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
ACCOTINK CREEK AT PICKETT RD. R
ACCOTINK CREEK
ACCOTINK CREEK AT BRAODOCK ROAD
LONG BRANCH ACCOTINK AT MAKEFIEL
ACCOI1HI. LHi. RELOM DAM
ACCOTINK CREEK AT MODES ROAD
ACCOTINK CREEK AT A IB AN
INDIAN RUN AT INDIAN RUN PARKWAY
TURKETCOCK RUN AT PARK ABOVE EDS
HOLMES RUN AT SLEEPY HOLLOW ROAD
TRIPPS RUN AT SLEEPY HOLLOW ROAD
DIFFICULT RUN AT FOX MILL ROAD
WOLF TRAP CREEK AT BROWN'S MILL
COLVIN RUN AT U.S. ROUTE 7
ROCKY RUN ABOVE GEORGETOWN PIKE
DIFFICULT RUN AT LAWYER'S JONES
SNAKEDEN BRANCH NEAR HUNTER STN.
PINEY BRANCH AT MEAOOHLARK
POPESHEAO CREEK AT FAIRFAX STATI
QUANTICO CREEK NORTH FORK AT BUR
QUANTICO CREEK SOUTH FORK AT MAL
QUANTICO CREEK SOUTH FORK AT LOO
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51059
51153
51153
51153
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
FNO OF FOREGROUND ECHO
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIHFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
FAIRFAX
PRiriCE
PR DICE
PRINCE
Sample Printed Reoort - PGM=LOC
-------�
rt-m-
rr't
Biological Monitoring Sites
Northern Virginia
Of NILCS
9
ENVIRONMENTAL PROTECTION AGENCY
STORE! SYSTEM
BIOLOGICAL MONITORING SITES
GREEN - STATE AND COUNTY BOUNDARIES
RED - CATALOGING UNIT BOUNDARIES
BLUE - REACHES
Q STATION LOCATION
PROJECTION - ALBERS EOUAL AREA
SCALE 1:250080
18
-------�
H09ET RETRIEVAL DATE 89/01/20
BIOS FIELD SURVEY TAXATABLE REPORT
/TYPA/AMBNT/STREAM/DOWN/MINE/HAZARD/BJO
SURVEY NUMBER
SAMPLE DATE
SAMPLE ID
=> 4
=> 85/07/18
=> SC0785
REFERENCES:
COLLECTOR
IDENTIFIER
SPECIMEN
COMMUNITY => MACROIHVERTEBRATES
SAMPLE NOTE => SAMPID CODES-SITE SC IS SHORT CREEK
SAMPLINS EFFORT INFORMATION:
P83501 - SAMPLE, DURATION
P8J550 - DISTANCE TOWED
GEAR => HANOSCREEN
111719830005
37 05 22.5 094 39 57.8 2
SHORT CREEK: GALENA, 1.0 HI. N., 1.6 HI. H.
20021 KANSAS CHEROKEE
LOWER MISSISSIPPI 100400
GRAND NEOSHO
21KSBS 870620 11070207
0003 FEET DEPTH 252 METERS ELEVATION
39G OZARK HIGHLANDS
SHORT CREEK
=> 1
=> 1
=> 1
HOURS =>
METERS =>
.17
1.00
GROUP BY TAXON NAME
.----..--.------ =======-=ss=s=============
PHYLUM A9IHROF-ODA
CLASS INSECTA
ORDER DIfTERA
FAMILY CHIRONOMIDAE
GENUS COHYNCNEUHA
CORYNONEURA SP.l
16 PUPA EXUVIA
COUNT
=========== =========
PERCENT
=======
GENUS COItYNONEURA
GENUS CRJCOTCPUS
SUBTOTAL
CRICOTOPUS BICINCTUS
344 PUPA EXUVIA
16
344 17.80
GENUS CRICOTCPUS
GENUS PENTANEURA
SUBTOTAL
PENTANEURA
98 PUPA EXUVIA
344
98
5.07
GENUS PENTANEURA
GENUS COtlCHAPELOPIA
(SAMPLE CONTINUED ON FOLLOWING FAEE)
SUBTOTAL
98
SampU Printed Report - PGM-TAXATABLE
-------�
UORET RETRIEVAL DATE 89/01/20
BIOS FIELD SURVEY TAXATABLE REPORT
IYPA/AMBNT/STREAM/DOWH/MINE/HAZARD/BIO
111719630005
37 05 22.5 094 39 57.0 2
SHORT CREEK: GALENA, 1.0 HI. N.. 1.6 MI. M.
20021 KANSAS CHEROKEE
LOWER MISSISSIPPI 100400
GRAND NEOSHO
21KSBS 670620 11070207
0003 FEET DEPTH 252 METERS ELEVATION
396 OZARK HIGHLANDS
SHORT CREEK
SAMPLE CONTINUED FROM PRECEDING f'AGE)
•L'PVEY NUMBER
SAMPLE DATE
SAMPLE ID
= > 4
=> 85/07/18
=> SCO765
GROUP BY
TAXON NAME
COUNT
O
I
00
CONCHAPELOPIA
1 PUPA EXUVIA
GENUS CONCHAPELOPIA
GENUS PShCTRCCLADIUS
PSECTROCLADIUS
1474 PUPA EXUVIA
GENUS PSbXTROCLADIUS
FA1ILY CHIRUNOKIOAE .
ORDER DIF-TERA. . . .
CLASS INSECTA ....
PHYLUM A9THROFODA ....
SUBTOTAL
SUBTOTAL
SUBTOTAL
SUBT01AI
SUBTOTAL
SUBTOTAL
TOTAL
PERCENT
0.05
1474
1474
1933
1933
1933
1933
=========
1933
76.25
ANALYSES
IAXA RICHNESS
PT VALUE
•9ILLOUIN DIVERSITY INDEX
1A3GALEF DIVERSITY INDEX
•.IMPSON DIVERSITY INDEX
.HANI ION- WIENE9 DIVERSITY INDEX
VEISIESS
'EDUNDAMCY
5
0
0.305
0.529
0.616
1.022
0.440
O.S60
S*«ole Printed Report - PGM=TAXATABLE (Continued)
-------�
SrORET RETRIEVAL DATE 66/10/26
BIOS FIELD SURVEY PGM=TAXATABLE
/TYPA/AMSNT/STREAM/BIO
SURVEY NUMBER
SAMPLE DATE
SAMPLE ID
LC0002
41 26 OB.O 097 04 03.6 I
LOST CREEK AT PARK BRIDGE
31037 NEBRASKA
MISSOURI
LOWER PLATTE
21NEB001 031230
0000 FEET DEPTH
COLFAX
090605
10200201011 0000.140 ON
= > 5
=> 83/06/02
=> 21100F
===== REPLICATE STATISTICS
•SUMMARY OF PRECEDING 4 SAMPLES)
TAXOH NAME
DOROSOMA CEFECIANUtl
CYPRINUS CARP10
HYBOGNATHUS HANKINSONI
NOTROPIS LUTRtNSIS
NOTROPIS STRAhlNEUS
CARPIODE5 CYPRINUS
CARPIODES CARF-IO
ICTALURUS NATALIS
ICTALURUS PUNCTATUS
ICTALURUS MELAS
lEPOniS CYANELLUS
LEPOMIS MACBOCHIBUS
LEPOMIS HUMIL1S
MICBOPTEPUS SfcLMOZDES
POMOXIS ANNliLARIS
TOTAL MINIMUM MAXIMUM
COUNT COUNT COUNT
3
199
4
24
4
4
6
2
76
16
164
19
2
37
11
1
21
2
3
2
1
2
2
6
1
16
2
1
5
1
2
104
2
13
2
2
4
2
46
15
92
12
1
19
9
SAMPLES
MEAN STANDARD WITH THIS
COUNT DEVIATION TAXON
0.6
49.8
1.0
6.0
1.0
1.0
2.0
0.5
19.0
4.0
41.0
4.8
0.5
9.3
2.8
1.0
37.0
1.2
4.7
1.2
0.8
1.6
1.0
19.4
7.3
34.8
4.9
0.6
6.6
4.2
2
4
2
4
2
3
3
1
4
2
4
4
2
4
3
TOTAL
573
ANALYSES
IAXA RICHNESS
IPT VALUE
fRILLOUIN DIVERSITY INDEX
MARGALEF DIVERSITY INDEX
SIMPSON DIVERSITY INDEX
SHAHtlON-HIENER DIVERSITY INDEX -
mriNESS
REDUNDANCY
BASED UPON
TOTAL COUNTS MEAN COUNTS
==T==rs:==:s ===:=======
15 15
0 0
0.770 0.727
204
227
629
673
0.327
2.620
0.223
2.629
0.673
0.327
SampU Printed Report - PGM=TAXATABLE - Repltcate Suraary
-------�
The Bioassessment for Each Station
en
Station 1. Non —Impaired
Station 2. Non-Impaired
Station 3. Moderately-Impaired
.
(( .,
-------�
Future Enhancements for BIOS
CTl
Integration Rapid Bioassessrnerit Metrics
Description of Individual Organisms
Tissue Residue/Bio-toxicity Component
Context Checker
Menu Driven User Interface for Storage arid Retrieval
-------�
Appendix D
STORE! How To
I
'o.
x"
O
-------�
Table of Contents
HOW TO ...
Obtain an EPA/NCC USERID for STORET D-l
HOW TO ...
Get Access to the Computer 0-2
HOW TO ...
Use TSO D-3
HOW TO ...
Log on to TSO D-5
HOW TO ..
Create Your Job Card D-8
HOW TO ...
Use Some Important Command Procedures D-10
HOW TO ...
Use STORET Ancillary Files (%BATCH) D-ll
HOW TO ...
Generate a Numeric Parameter Code List D-12
HOW TO ...
Track Your Submitted Jobs D-14
HOW TO ...
List STORET Helpful Data Sets D-15
HOW TO ...
Use Some of the More Helpful Data Sets D-16
-------�
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***
Some Necessary Information about ISO for STORET/BIOS Users
U.S. Environmental Protection Agency
Office of Information Resources Management
STORET User Assistance
(800)424-9067
(202)382-7220
(FTS)382-7220
-------�
HOW TO OBTAIN AN EPA NCC USERID FOR STORET
There are several ways of acquiring a STORET USERID. The way that is
best for you depends mainly on your affiliation. The various ways are
summarized below:
1. State Affiliation - EPA makes available an ADP sub-allowance to each
State. The total amount is usually negotiated in an EPA/State Agreement.
Usually there is a State representative that determines who, within the
State Agencies, obtains USERIDs/accounts to run against this suballowance.
The State usually agrees to reimburse EPA for any amounts that exceed the
negotiated amount.
Who to call - The Regional EPA ADP Coordinator. Your EPA program
representative can help you find this person.
2. Federal Agency - In most cases, and Interagency Agreement with other
Federal Agencies to allow them access to the mainframe. This will result
in an agreed upon transfer of funds. Billing is usually by quarters,
however the billing cycle is negotiable.
Who to call - The Regional EPA ADP Coordinator.
3. Contractors - If a contractor is under contract to a State or Federal
Agency, the above methods of obtaining a USERID/account are possible.
Who to call - You Contract Officer. He will determine if the contracting
agency will "subsidize" the contractors' use. If so, he will call the
appropriate State, Federal Agency, or EPA representative.
4. Other • Regardless of affiliation, others can get direct access to the EPA
mainframe. Two mechanisms exist that will provide access and bill the
recipient. These are:
a) National Technical Information Service (NTIS) - NTIS will negotiate an
agreement on behalf of EPA with an individual. After calling, NTIS will
forward a standard form to the individual. Among other things, the form
contains questions on where to send the invoices, to whom, and at what
interval. After the form is returned to NTIS, a USERID is assigned to the
individual. The process takes about 10 days after the form is received.
Who to call - Cathy Metzler at NTIS, 703-487-4807 or FTS 737-4807
b) National Water Data Exchange (NAWDEX) - Essentially the same procedure.
NAWDEX requires the potential user to negotiate a Memorandum of
Understanding. Billing is simular to NTIS.
Who to call - Edward Pichering at 703-649-5664.
D-l
-------�
HOW TO Get Access to the Computer
If you want to use STORE!'s Water Quality System, the BIOS Field Survey
File, or the Flow File on the National Computer Center's (NCC) IBM mainframe,
the first thing to do is to get a telephone number which allows you to access
the telecommunication network. To receive the proper telephone number and the
proper terminal identifier for your terminal, contact:
NCC's telecommunications group at
800-334-0741 or FTS 629-4506.
In addition to the phone number, you need to get a USERID and an account
number for NCC. You get the ID from Your EPA Regional STORE! account manager.
A list of all STORET AND BIOS Regional contacts for all 10 EPA Regions is
shown below:
REGIONAL STORET/BIOS CONTACTS
EPA-REGION STORET WQS
BIOS
1
Boston
Ed Voo
(617) 565-3384
FTS 835-3384
Mike Bilger
(617) 861-6700
2
New York
Bill Jutis
(212) 264-4753
FTS 264-4753
Rollie Hemmett
(201) 321-6687
FTS 340-6687
3 Charles Kanetsky
Philadelphia (215) 597-8176
FTS 597-8176
Ron Preston
(304) 233-2315
4
Atlanta
Thomas Burnett
(404) 347-2126
FTS 257-2126
Jim Harrison
(404) 347-2207
FTS 257-2126
Chicago
Stuart Ross
(312) 353-0299
FTS 353-0299
Max Anderson
(312) 353-9076
FTS 353-9076
D-2
-------�
REGIONAL STORET/BIOS CONTACTS (Continued)
EPA-REGION STORET WQS
Kansas City
Norm Crisp
(913) 236-3884
FTS 757-3884
BIOS
6
Dallas
Carl Young
(214) 655-2289
FTS 255-2289
Mike Bastian
(214) 655-2289
FTS 255-2289
Norm Crisp
(913) 236-3884
FTS 757-3884
8
Denver
Dick Sotiros
(303) 236-7086
FTS 776-7086
Tom Willingham
(303) 296-1586
FTS 564-1577
San
Francisco
Eric Wilson
(415) 974-7259
FTS 454-7259
Ed Liu
(415) 974-8281
FTS 454-8281
10
Seattle
Bill Bogue
(206) 442-1676
FTS 399-1676
Bill Bogue
(206) 442-1676
FTS 399-1676
HOW TO Use TSO
The STORET data base resides on an IBM mainframe computer system located at
EPA's National Computer Center in Research Triangle Park, North Carolina. In
order to use it's capabilities , the user must know how to access the
computer. The user must also know the following environments on the computer:
TSO (timesharing option; the main operation syst
and two side systems:
QED (the line editor); and
QUEUE (a facility to fetch output).
If you happen to use a full screen terminal you may want to use ISPF - full
screen utilities including editor, browsing facilities, and SDSF for fetching
job output.
TSO, QED and QUEUE are basic NCC environments, and not specific to STORET.
They are illustrated with their functions and modes of operation in the table
on the next page:
D-3
-------�
TIME SHARING OPTION
(TSO)
THE BRIDGE BETWEEN THE USER AND THE STORET DATA BASE
MODES OF OPERATION
TSO (Time Sharing Option) QED (Editor) QUEUE (Output Utility)
Full Screen: ISPF 2 Full Screen: SDSF
HOW TO ENTER:
the READY prompt)
HOW TO ENTER:
(at the READY prompt)
HOW TO EN (at
(at READY - logon
FUNCTIONS:
FUNCTIONS:
Logon to Computer
Logoff from Computer
Submitting Jobs
Starting other Programs - Managing Files
Listing Files
House Keeping
- Creating New Files
- Changing and Correcting
Existing Files
PROMPT:
READY
PROMPT:
- QED, INPUT, or line #
(In QED)
FUNCTIONS:
- Monitoring Jobs
- Fetching Output
- Routing Output
- Purging Jobs
PROMPT:
- QUEUE
HOW TO EXIT:
logoff
HOW TO EXIT:
end, end save, or
end nosave in QED
HOW TO EXIT:
All three modes of operation provide you with on-line help facilities. You
may type in 'HELP' after 'READY', 'QUEUE', or 'QED', and get some information
about further help or documentation.
D-4
-------�
HOW TO Log on to TSO
After dialing the proper number and establishing contact with the
communication network, the following sequence of prompts and responses will
occur :
DIALING: ON LINE
xx'x'''xx' 'xx'xx 'x'x'xxg'x 'x'xx@xxxx 'ax'x
Type 'a' as terminal indentifier
Welcome to the Environmental Protection Agency National Computer Center
Please enter one of the following selections:
IBMPSI for IBM
UNI for SPERRY
TCP for 3270 EMULATION
FMO for FMO POP
VAXA for VAX 8600 / SYS A
VAXA for VAX 8600 / SYS B
EMAIL for EMAIL
Enter selection: iibbmmppssii (Select the IBM machine).
(Your input is echoed by machine. If you have full screen capabilities,
you may want to select "TCP" for IBM 3270 emulation. For the STORET
interface you need to use a full screen terminal or emulation software.
Call communications for further assistance).
CONNECTED .
U.S. EPA (TTY-X25-IBM)
A TSO - NCC
B NY
C NEIC
D WIC
E SEATTLE
F ATLANTA
G DALLAS
I KANSAS CITY
J PHILADELPHIA
K CINCINNATI
L SAN FRANCISCO
M BOSTON
N CHICAGO
SELECTION ?a (Select the NCC computer where STORET resides
D-5
-------�
IKJK56700A ENTER USERID
iii Your USERID
In case you are connected already,
type 'ill reconnect'.
ENTER PASSWORD
PPPPPP Password minimum 4, maximum 8
8 characters
ICH700011 xxx LAST ACCESS AT :::::::::::: ON WEDNESDAY,
JULY 10,1988
ENTER PROCEDURE NAME - aastoret --
STORET proc-_^re name
xxx LOGON IN PROGRESS AT 12:08:09 ON JULY 17, 1988
ENTER FIMAS ID- STORET account - id in the NCC
storp system
Messages from NCC system
07/08/88: DATE CHANGE FOR NEW VERSION OF RACF - SEE NEWS ALERT1
06/18/88: COMPUTER BASED SASGRAPH COURSES - SEE NEWS ALERT2
WELCOME TO TSO
- ENTERING STORET ENVIRONMENT - 07/17/88 12:08:46
—> STORET NEWS ALERTS 07/17/88
07-01-88 BIOS TAXONOMIC DATABASE UPDATED SEE %STNEWS ALERT1
04-28-88 TERMINAL PROBLEMS CAUSED BY IBMPSI SEE %STNEWS ALERTS
CHECKING FOR ISPPROF
REALLOCATING
YOU ARE NOW IN THE STORET ENVIRONMENT
READY "READY" prompt indicates TSO environment
D-6
-------�
%newuser
(A must for every new STORET user. This command
establishes your user profile on the mainframe computer.
CHAR(BS) LINE(ATTN) PROMPT INTERCOM NOPAUSE NOMSGID NOMODE (et
NOT ANY MORE ! YOU ARE OFFICIALLY EXPERIENCED.
If you need further help on all the variables in your
user profile, key in "HELP PROFILE" after the READY
prompt under TSO.)
READY
(Now you are an officially experienced NCC user
i.e., not a "new user" any more.)
D-7
-------�
HOW TO Create Your Job Card
READY
%jobparm (A STORET command that allows the user to tell the
system that the defaults are to run a computer job. A
dataset is put your working storage of the Quick
Editor so you can change it.)
A SAMPLE JOBPARM CLIST HAS BEEN PLACED IN WORKING STORAGE FOR YOU. EDIT THOSE
LINES YOU WISH CHANGED TO THE DEFAULTS YOU WANT TO USE. YOU MAY NOT CHANGE
THE FIRST LINE. YOU MAY DELETE ANY LINE, AND THE SYSTEM DEFAULT WILL THEN
APPLY.
SAVE THIS DATASET TO MAKE IT TAKE EFFECT.
HERE IT IS.
CLIST ($$JOBPRM)
00010 GLOBAL ROOM PRTY ROUTE PHOLD TIME LINES MSGLEVEL UID
00020 /*
00030 /* DO NOT CHANGE THE GLOBAL LIST
ON THE ABOVE LINE.
/*
/*
/*
/*
/*
/*
SET ROOM-MIII
SET PRTY=1
SET ROUTE=HOLD
00040
00050
00060
00070
00080
00090
00100
00110
00120
00130
00140
00150
00160
00170
00180
00190
00200 /*
00210 SET UID-STORPUUU
00220 /*
00230 SET TIME=&STR(3)
00240
00250
00260
00270
00280
00290
00300
00310 /*
00320 SET LINES=10
00330 SET MSGLEVEL-&STR(1,1)
END OF DATA
*/
*/
*/
*/
*/
*/
*/
*/
YOU MAY EDIT OR DELETE ANY LINE BELOW THIS POINT
NOTE: PHOLD HAS BEEN REPLACED BY ROUTE-HOLD
/* ROUTE MUST BE ONE OF -
/* ANY NUMBER ("0" MEANS "LOCAL"
/* HOLD (TO HOLD FOR FETCH)
/* LOCAL (TO PRINT CENTRAL)
/* RMTXXX (TO PRINT AT RMT XX)
/* NXX (TO PRINT AT NODE XX)
/* NXXRMTXXX (PRINT AT RMTXXX
/* OF HOST NODE XX)
/* UID MUST BE 5-8 CHARS LONG
/* TIME MUST BE ONE OF
/* ANY INTEGER (LIMIT MINUTES)
/* A PARENTHESIZED SET LIKE
/* TIME-&STR((0,7))
/* (LIMIT SECONDS)
/* A PARENTHESIZED NOTHING
/* TIME-&STR(())
/* (LIMIT DEFAULT)
D-8
-------�
The following is a brief explanation of the above options:
The "ROOM" field is used to specify how the
output from a job is to be handled. The "Mill"
instructs the job distributors to mail the job
to user "III".
The "PRTY=1" will cause the job to be run in
the overnight priority. Priority 1 is the
cheapest, priority 4 is the fastest and most
expensive one.
The "ROUTE" instructs the system where to print
the job or to hold the output.
The "UID" code is the Utilization Identification
and is an accounting indicator.
The "TIME" is in minutes of CPU and specifies the
amount of time allocated for the user's job.
The "LINES" specifies the maximum of printed
output in thousands of lines.
The "MSGLEVEL-&STR(1,D" specifies the amount of
system messages to be printed for the job.
If you specify "MSGLEVEL-(0,0>, you will receive
only the minimum of system JCL messages, and cut
down the number of printed pages of your output.
D-9
-------�
HOW TO use some Important Command Procedures
The following commands are important to store and retrieve data to and from
STORET (WQS, BIOS, and Flow File). They include:
%STORE Stores Sampling Data
%EASYSTOR Stores Station Data
%RET Starts Retrieval Process
%SCAN Checks Data Set for Errors and Submits
Retrieval Request
%BATCH Places a STORET Ancillary File in Your
Working Storage
%SUBMIT Submit Batch Job other than STORET
There are many command procedures to facilitate your use of the
computer system and of the STORET system. The following command
will display all of the available system command procedures.
Type at the "READY" prompt:
help storet
In the following sample terminal sessions:
lower case letters represent the characters entered by the user,
- UPPERCASE letters represent the computer's response, and
- indicates that a carriage return is to be entered.
- A string of 9999999's represents any numeric character
a string of AAAAAAA's represents any alphabetic character.
- Text appearing in parentheses ( ) provides further explanation
about the line or lines in question.
D-10
-------�
HOW TO Use STORE! Ancillary Files (%BATCH)
There are several other computer files required when using STORET as the
parameter file. To access these files, a so-called job card containing Job
Control Language (JCL) code is required. The STORET command %BATCH is used to
create the proper JCL card deck in your working space. The user makes any
necessary modifications and then submits it for processing. To get a complete
list of all files for which you can use %BATCH and the proper syntax of the
procedure, enter the TSO command 'help batch'. The following are frequently
used options:
Obtain a list of specimen collectors, identifiers, survey
numbers, protocols, voucher collections, and bibliographies
for one data collecting agency in BIOS. (REFTABLE).
Obtain a list of all or part of the EPA Taxonomic File,
maintained by the National Oceanographic Data Center of
NOAA (TAXAFILE).
Get the documentation about storing and retrieving data
to and from the BIOS Field Survey File including sample
outputs of retrieval requests (BIOSDOC).
Obtain a list of the STORET Water Quality File parameter codes
order by one of the following: alphabetic, numeric, group, or
number (PARMALFA, PARNUMER, PARGROUP, PARCAS).
Obtain a list of all the agency codes storing data for a
state or group of states (PRNTAGEN).
Obtain a list of the stream reaches within selected U.S.G.S.
Cataloging Units (REACHRET).
Perform a retrieval from the EFA's Pollution Caused Fish
Kill File (FKRETRV).
Get the documentation about storing sampling sites with
example outputs (STASTORE).
D-ll
-------�
HOW TO Generate a Numeric Parameter Code List
In order to use the %BATCH command to generate a STORET parameter
code list in numeric order and to have the output placed on eight
and one half by eleven inch paper (with the print size commensurate
with the paper size), the JCL must be modified. The following
sequence of commands is issued to accomplish this:
READY
%batch ("BATCH" is a STORET command procedure used to
create a deck of JCL which is submitted to access
a STORET ancillary file.)
ENTER THE NAME OF THE STORET JCL FILE YOU WANT : parnumer
PARNUMER
BIN/ROOM - Mill PRIORITY - 1 ROUTE = LOCAL TIME - 10
(The above shows the default job parameters for the job.
See the previous page for an explanation of their
meanings.)
... SHOULD IT BE SUBMITTED THAT WAY (Y/N) ? no
YOU ARE IN EDIT MODE.
A COPY OF 'STORET.HELP.UTILITY.LIBRARY(PARNUMER)' HAS BEEN PLACED
IN YOUR WORKING STORAGE.
AFTER EDITING, USE 'SUBMIT *' TO SUBMIT.
00001 //III JOB (AAAASTORP,Mill),STORET,NOTIFY-III.TIME-10,
00002 // MSGLEVEL-(1,1),PRTY-1
00003 /*ROUTE PRINT LOCAL
00004 /*JOBPARM LINES-40
00010 //* RECORD STORET.HELP.PARNUMER APRIL 15, 1982 LJM
00020 //PARNUMER EXEC PGM-PARLIST,REGION-100k
00030 //STEPLIB DD DISP-SHR.DSN-CWT.E.STORET.LOADLIB
00040 //SYSPRINT DD SYSOUT-A.DCB-BLKSIZE-4000
00050 //CARDF DD DISP-SHR.DSN-VERA021.EPA002.TUROO
00060 /*
END OF DATA
D-12
-------�
led 4 (Line edit line 4.)
00004 /*JOBPARM LINES-40
EDIT? ,forms-8381
(The above will place the characters "/'forms 8381" at the
end of the JOBPARM line. The 8381 type of forms will cause
the output to be printed on eight and one half by eleven
inch paper in landscape format (i.e., sideways) with a
smaller print so the entire output will fit the smaller
paper.)
00004 /*JOBPARM LINES-40,FORMS-8381 (The changed line prints.)
EDIT? (Enter a null line to make the change permanent
and return to QED.)
QED (QED is the prompt for the "Quick Editor" facility.)
submit * (This submits the JCL run stream that is in the
working space for processing.)
JOB III (JOB09999) SUBMITTED
SUBMIT COMPLETED
QED
end nosave (Do not save a copy of the run stream and return
to TSO.)
READY
D-13
-------�
HOW TO Track Your Submitted Jobs
The following graph illustrates the basic three options you have for routing a
job. You can send it to the printer at RTF, your local printer, or fetch the
output on your screen.
+ +
JOB SUBMISSION
%STORE
%SCAN
SUBMIT
+ +
\
+ +
| CPU I
+ +
\
+ +
JOB
+ + + +
PRINTS AT / Remote ROUTING Printer at NCC \ PRINTS AT
REMOTE CENTRAL
PRINTER \ / PRINTER
AFTER + + AFTER
EXECUTION EXECUTION
+ + Hold + -- +
\ \ / / \
+ +
Job Output is held
and can be viewed
on the CRT
+
\
FT
FT
QUEUE
FETCH
'RET RET'
'ERRORS'
ROUTE REMOTE
LIST 550 999 UNN
ROUTE
PURGE
\ /
..+..
ROUTE 0
D-14
-------�
HOW TO List STORE! Helpful Data Sets
STORET User Assistance has created and maintains many helpful data which
contain examples, on-line documentation, Job Control Language and other items
of interest, e.g., when the various STORET files we last updated. In order to
get a list of the STORET helpful data set the following sequence of comman
ds is entered:
READY
listc lev('storet.help') (List all currently available help
for EPA's STORET Data Systems.)
NONVSAM STORET.HELP.AGENCODE
IN-CAT --- SYSCTLG.VSTORET
NONVSAM STORET.HELP.AGENDA
IN-CAT --- SYSCTLG.VSTORET
NONVSAM STORET.HELP.BASIN.CODES
IN-CAT --- SYSCTLG.VSTORET
NONVSAM STORET.HELP.BATCH.SCAN
IN-CAT --- SYSCTLG.VSTORET
NONVSAM STORET.HELP.BIGGER
IN-CAT --- SYSCTLG.VSTORET
NONVSAM STORET.HELP.BIGGY
IN-CAT --- SYSCTLG.VSTORET
READY
The above list was interrupted because there are over one hundred data sets.
A list of helpful data sets follows below.
The data sets fall into two categories. Some contain information, the
second type contains Job Control Language (JCL) lines.
The ones which contain Job Control Language lines are submitted using the
'%BATCH' command or by adding a valid Job Card and using the TSO 'SUBMIT'
command. The other help data sets contain information and on-line
documentation. You may list short data sets by using the "Quick Editor"
facility.
D-15
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HOW TO Use Some of the More Helpful Data Sets
STORE!.HELP.BASIN.CODES
** STORET.HELP.BROWSE
CONTAINS A LIST OF THE STORET BASIN CODES
USED WHEN STORING NEW STATIONS OR WHEN
RETRIEVING STATIONS USING THE "BS"
KEYWORD.
CONTAINS INSTRUCTIONS CONCERNING USE OF
THE STORET INTERACTIVE RETRIEVAL
CAPABILITY. "BROWSE" ALSO ALLOWS THE
INTERACTIVE PLOTTING OF PARAMETRIC DATA
UTILIZING A TEKTRONIX 4014 OR EQUIVALENT
TYPE TERMINAL.
STORET.HELP.BIOSFS.DE
STORET.HELP.BIOSFS.RET
CONTAINS THE DESCRIPTION OF THE FIELD
SURVEY FILE OF BIOS. DESCRIBES THE DATA
ENTRY PROCEDURES TO STORE DATA IN BIOS.
CONTAINS THE DOCUMENTATION OF RETRIEVAL
KEYWORDS FOR THE BIOS FIELD SURVEY FILE
INCLUDING STATION SELECTION.
** STORET.HELP.COUNTY.CODES
CONTAINS THE SPECIAL COUNTY CODES FOR THE
OCEANS, GREAT LAKES, GULF OF MEXICO AND
CANADA.
STORET.HELP.FILE.FORMATS
CONTAINS THE DOCUMENTATION FOR THE INTERIM
FILES GENERATED BY A STORET RETRIEVAL
REQUEST AND THEIR LAYOUT WHEN THEY ARE
CAPTURED AS A MACHINE READABLE OUTPUT.
** STORET.HELP.FLOW.LIBRARY
(CONTENTS)
** STORET.HELP.J SMTABLE
CONTAINS THE NAME AND A BRIEF FOR EACH OF
THE AVAILABLE FLOW FILE HELP DATA SETS.
SHOWS THE JOB CLASSIFICATION A JOB WILL BE
ASSIGNED BASED UPON CPU TIME AND THE
REGION SIZE REQUESTED. THE JOB
CLASSIFICATION AND PRIORITY DETERMINE HOW
QUICKLY A JOB WILL TURN AROUND AND ITS
COST.
STORET.HELP.KEYWORD.INDEX
STORET.HELP.PGM.LOG
CONTAINS A LIST OF THE RETRIEVAL KEYWORDS
IN ALPHABETICAL ORDER AND IN ORDER BY
FUNCTION. IT ALSO HAS CROSS REFERENCE
PAGE NUMBERS TO THE USER HANDBOOK AND TO
THE SEMINAR DOCUMENTATION.
CONTAINS THE IN-DEPTH DISCUSSION OF THE
"LOG" PROGRAM AND ITS COMPLETE
DOCUMENTATION.
D-16
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STORET.HELP.PGM.MSP
STORET.HELP.SAS
STORET.HELP.SEMINAR.DOC.ADVANCED
STORET.HELP.SEMINAR.DOC.RETRIEVL
STORET.HELP.SEMINAR.DOC.STORAGE
STORET.HELP.STATION.STORAGE
** STORET.HELP.STATION.TYPE
** STORET.HELP.STORUN
CONTAINS THE REFERENCE DOCUMENTATION FOR
THE "MSP" PROGRAM.
CONTAINS DOCUMENTED EXAMPLES OF USE OF SAS
UNDER STORET WITH SAMPLE OUTPUTS.
CONTAINS A SUMMARY OF THE ADVANCED
RETRIEVAL KEYWORDS WITH EXAMPLES OF USE.
CONTAINS A SUMMARY OF THE BASIC RETRIEVAL
KEYWORDS WITH EXAMPLES AND SAMPLE OUTPUTS.
CONTAINS THE SEMINAR DOCUMENTATION WHICH
SHOWS THE STORAGE PROCEDURES FOR THE WATER
QUALITY FILE.
CONTAINS THE STORAGE PROCEDURES STORET
STATIONS, INCLUDING EDITING STATION DATA.
CONTAINS ALL VALID STATION TYPES SUCH AS
LAKE, PIPE, BIO, ETC.
CONTAINS THE DATES OF THE LAST UPDATE FOR
THE VARIOUS FILES UNDER THE UMBRELLA.
** STORET.HELP.SYSTEM.ABEND.CODES CONTAINS AN ENGLISH TRANSLATION OF THE
MORE COMMON IBM MESSAGES AND CODES THAT
GENERATED WHEN A JOB ENDS ABNORMALLY.
** STORET.HELP.TRICKY.RET
STORET.HELP.TSO
EXPLAINS THE USE OF THE "%TRICKY.COMMAND,
AN ALTERNATIVE METHOD OF STRUCTURING A
STORET RETRIEVAL WHEN "OVERRIDE JCL" IS
REQUIRED.
CONTAINS THE TSO PROCEDURES REQUIRED TO
USE THE STORET SYSTEM ALONG WITH OTHER
USEFUL TSO PROCEDURES.
** The data sets flagged with the double asterisks are short
and can be easily listed on a low speed terminal.
D-17
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APPENDIX E
ON DATA SYSTEMS
QUICK REFERENCE
GUIDES
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Appendix E
OW Data Systems
Quick Reference Guides
i
X
m
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NEEDS General Query Quick Reference Guide
Duplicate the responses given at each prompt below to initiate query:
1. At the ISO prompt:
>READY OMPC (Press ENTER)
2. At the OMPC Browse/Update/Review Dialogs Primary Menu:
>COMMAND N (Press ENTER)
3. At the Needs Survey RUQus Table of Alerts:
>COMMAND END (Press ENTER)
The Needs Survey Selection Menu will appear and you will have the option of using SUM-
MARIZE/ANALYZE or BROWSE. SUMMARIZE/ANALYZE allows the user to create
an original report format whereas BROWSE delivers output using a series of standard pre-
formatted screens (See the handbook for a more detailed description.)
Select an option by placing an X at either option and by placing an X beside SURVEY
YEAR 1988 (Press ENTER)
4. At the Prompting Level Menu:
Select the level of prompting desired. If you are a new user, select V for verbose instruc-
tions to guide you in your query (Press ENTER)
5. At the Needs Survey Main Menu:
Select C to enter specification criteria for your query. (Press ENTER)
6. At the Criteria option:
Select N to inform General Query that the criteria being entered is new. (Press ENTER)
Before entering your criteria, you would be asked:
>Do you wish to include undocumented and separate state estimate facilities?
(Y/N)
Select Y or'N. (Press ENTER)
NOTE: Only documented facility estimates are included in the Needs Survey. You must
decide whether undocumented and separate state estimates are appropriate for your analysis.
7. At the Criteria prompt:
CRITERION, RETURN OR END:
Specify desired criteria. (Press ENTER)
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If you used the BROWSE option:
At the Criteria Menu:
Select X to exit the main menu (Press ENTER).
Press ENTER again to continue and the query results will appear on the screen as a list of
facilities meeting the desired specifications. The user then has the option of examining a
single facility's data more extensively. Move the cursor and place an S by the desired
facility. (Press ENTER). Technical data on this facility will then be presented in a series
of standard screens. Continue to press ENTER to view all 9 screens. Type END by the OP-
TION prompt to return to the list of facilities. Use this command again to return to the
Needs Survey Selection Menu.
If you used the SUMMARIZE/ANALYZE option: (You would need to specify your output
criteria)
1. At the Main Menu:
Select O to specify output (Press ENTER).
2. At the Output option:
Select N to inform General Query that the criteria being entered is new (Press ENTER)
3. At the Specification prompt:
>ENTER SPECIFICATION (DONE, RETURN: PROMPT)
Specify the desired output criteria (Press ENTER).
4. At the Output option:
Select X to exit to the main menu (Press ENTER).
5. At the Main Menu:
Select E to execute the query (Press 'ENTER).
Your query results would then appear in the specified format. After viewing the results:
Press ENTER to exit General Query or
Select'.R'and press ENTER to begin another query.
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New Menu-Driven Interface to STORET
Quick Reference Guide
Full Screen Terminal
You need to use a full screen terminal, or emulate one if you want to use the new STORET interface.
For instance, a PC with CROSSTALK emulating a VT-100 is sufficient. You have to select the TCP
option at EPA's data switch menu for full screen emulation. If you have questions call EPA's National
Computer Center Communications Support Group at (800) 334-0741.
ISPF/PDF
After you log on to EPA's IBM mainframe, you are in the TSO environment indicated by a "READY"
prompt. Type in ISPF to get the STORET ISPF/PDF PRIMARY OPTION MENU. Thai's where the
interface is located. Option S gets you right into the menu-driven STORET interface.
Ground-Water vs. General Retrieval
Two paths exist throughout the interface. Whereas the general retrieval path provides access to all data,
the ground-water path is specifically tailored to the needs of ground-water managers.
Flow Through Interface
There are six steps to build a retrieval request in the interface: specify report format, select sample sites,
specify samples, indicate parameters, select special options, and specify jobcard parameters.
Report Formats
You can generate the following output formats with the interface:
A. STA Alphabetized list of STORET site identifiers (Station IDs) by Agency collecting data
B. INVENT Data summary for unlimited parameters with basic statistics such as minimum.
maximum, mean, number of observations
C. RET Table of data for up to 50 parameters with samples down the left- hand margin, and
data observations in columns
D. ALLPARM Data listing for unlimited parameters in row oriented tabulation with parameter name
on the left margin
E. LOG Map with sample site locations with background lines such as county boundaries,
EPA reach traces, or drainage basins
Sample Site Selection
You can select the sample sites by agency code and station ID, within selected states or counties, within
lat/long polygons, in drainage basins, by station type, in aquifers, on EPA reaches, and within
ecoregions.
Sample Selection
You may select the samples by date, time, or seasonal ranges, at specified depths, grab versus composite
samples, in aquifers, or by a selected parameter presence.
Parameter Selection
You may select all parameters collected at sites, or specify selected ones. You can modify values of data
observations by converting to loadings or logarithms, specifying alternate parameters, changing name
and units, or specifying acceptable value ranges.
Special Options
Every report format comes with different tools to modify the report. You may generate gross versus
individual station output, specify different backgrounds for maps, modify station header descriptions, or
select certain print options.
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Jobcard Parameters Selection
The interface generates retrieval requests for you which are submitted to the mainframe as batch jobs.
These batch jobs come with JCL (Job Control Language) parameters which can be modified. The
highest priority for a job is 4, 1 is the least and cheapest priority. To give you an idea of how much CPU
time it takes to retrieve data from STORET, here is an example: it took 17.7 seconds to create an inven-
tory of all the data sampled at all 422 ground-water wells in Montgomery County, Maryland.
Keys
The following key defaults work with the interface:
ENTER Takes you to next panel
PF1 HELP (Gets you into Tutorial; END gets you back to original panel)
PF3 END (Takes you back one panel at a time)
PF4 RETURN (Takes you completely out of interface back to the "READY" prompt)
PF7 UP (Moves you one screen up on a scrollable table)
PF8 DOWN (Moves you one screen down on a scrollable table)
TAB Moves you from input field to next input field on panel
PFSHOW Gives you a list of valid PF keys and their functions
CMD Field
On all scrolling tables, the left margin field, CMD, has basic editorial capabilities such as inserting,
deleting, or copying lines. The following commands are possible: I - insert, D - delete, C - copy, R -
repeat, M- move, A - after this line, and B - before this line.
Help
Help is available on all panels. Just key in HELP at the COMMAND ===> line.
Checking Job Status
You can check on submitted jobs with a facility called SDSF. Select option 8 on the STORET ISPF/
PDF PRIMARY OPTION MENU. Option i on the SDSF menu will give you a list of jobs in the input
queue, and O a list of jobs in the output queue. You may fetch, route, or purge jobs with SDSF as well.
Find Data in Output
The output from every retrieval (job) includes some computer log messages which print in front of the
retrieved STORET data. Fetch the output of a job in SDSF (see above), then key in the following: FIND
'RET RET' to find the first occurrence of "STORET RETRIEVAL", which prints at the top of every
page of STORET output.
User Support
Requests for help, formal training, documentation, or other questions about the interface should be
forwarded to:
STORET User Assistance
(800) 424-9067
(202) 382-7220
(FTS) 382-7220
U.S. Environmental Protection Agency
Office of Information Resources Management
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WQAS Quick Reference Guide
The Water Quality Analysis System (WQAS) is a family of conversational procedures that creates
reports and graphics from environmental data maintained by EPA on its IBM 3090 mainframe located at
Research Triangle Park, North Carolina. Through the use of keywords and menus, the procedures
provide quick response to specific inquires. For example, the software could be used to determine the
nearest drinking water supply downstream from a waste discharger or to map water quality, dischargers
and toxics along a specified stream, or to calculate the dilution factor for a specific receiving stream.
Anyone who has access to the EPA NCC-IBM mainframe computer with a valid USERID and also is a
registered STORET user (call STORET User Assistance at (202)382-7220 for information) can use the
WQAS procedures.
The following is a description of the WQAS procedures available as of June 1, 1989. Users are encour-
aged to contact Phillip Taylor of EPA's OWRS, Assessment and Watershed Protection Division
(AWPD) at (202)382-7046 to obtain additional information and users guides for the following proce-
dures. All procedures can be executed at the TSO "READY" prompt by issuing the command WQAB
. Suffixes are listed below:
Procedure/Suffix
ASIWPCA
BROWSE
CITY
CSRCH
DFLOW
DOMODEL
Description
Furnishes information on the extent of stream use impairment due to point sources
and nonpomt sources reported for 1972, 1982 and 1985.
Provides the user easy retrieval of data from the Permit Compliance System (PCS-
Office of Water Enforcement and Permits) and STORET water quality monitoring
station data. Data from an individual station of interest can be retrieved by specify-
ing the STORET agency and station codes or NPDES facility number (users please
note that you must have PCS privileges in order to access PCS data from this pro-
cedure).
Allows the user to obtain information from the City Master File. Given a city
name, the procedure provides latitude, longitude, stream names, reach numbers,
census population, and FIPS State-County numbers.
Criteria and Standards data collected by the Regions and States during the NEEDS
are in an IMS file. The CSRCH procedure is interactive which provides data on
uses and criteria given an NPDES number or Reach number (these data should be
considered provisional until reviewed and checked by the appropriate Regional or
State personnel).
Allows batch retrieval of flow data from STORET, and performs calculations using
the retrieved data. This procedure calculates a biologically-based receiving water
design flow based on a method developed by EPA in determining water quality-
based pollution controls.
DOMODEL is a first-stage BOD model, to be run as part of STORET. This model
uses discharge monitoring (PCS DMR data for validated users) and ambient water
quality data from STORET to predict DO concentrations downstream of discharg-
ers and ambient data and the Gage File for stream flows and velocities. The MSP
STORET retrieval and analysis program is used to input flow, DO, BOD, TSS, and
temperature statistics into the model. NPDES facility and ambient monitoring
locations are selected by the Reach retrieval procedure.
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Procedure/Suffix
IFDPLOT
FLOW
IFDRET
IPS5
ISR
FARM
PATHSCAN
RCHDAT
SIC
SITEHELP
STRAVX
Description
Provides the user with the ability to map specified geographic areas and environ-
mental data using keywords and menus
Provides daily flows or statistics to determine the mean flow and 7Q10 low flow
when the user enters a gage number, state, and desired years.
This procedure is designed to allow the user access to the Industrial Facilities
Discharge (IFD) database for purposes of generating standard format reports. Sev-
eral retrieval and selection options are offered to enable limited customization of
the desired report.
The PCS/STORET Interface provides the user with the ability to analyze, summa-
rize, and report data from permitted facilities in PCS, water quality stations in
STORET, stream flows, downstream water supplies, bioassay results, indirect
discharges to POTWs and ASIWPCA results (users please note thai you must have
PCS privileges in order to access PCS data from this procedure).
The interactive STORET retrieval procudure provides a quick and easy capability
for a variety of STORET retrievals, reports, analyses and maps. All that is required
is a stream reach number or a NPDES facility number.
The batch option provides the capabilities to obtain a complete list of the parameter
file in order by parameter number, name, CAS number or group and also a list for
any group/sample media selection. Additional numbers of observations have been
added for each parameter.
Allows the user to retrieve facility data, stream gages, and drinking water locations
upstream or downstream from a specified location.
Provides stream flow and pipe discharge data for a user-specified stream reach
An interactive procedure to obtain SIC (Standard Industrial Classification) codes
and descriptions used in the IFD file. The 1,000 codes and their descriptions are
grouped in 11 major and 84 minor divisions and can be obtained by use of a menu.
Allows the user quick access to the IFD, Gage, Water Supply, City, Complex
Effluent Toxicity Information System (CETIS), Reach Structure, Reach Trace, and
STORET Water Quality files. Inquiries can be made using a USGS gage number,
water supply FRDS number, NPDES number, Dunn and Bradstreet number, Needs
Survey A/F number, city name, or stream reach number. Various options in
SiteHelp provide reach data on locations of gages, industrial and nonmumcipal
discharges, drinking water intakes, surface- and ground-water monitoring stations.
On graphics terminals, the procedures display a reach trace with locations of gages,
dischargers, drinking water intakes, monitoring stations and cities.
This procedure will allow you to make a STORET auxfile for mapping stream
reaches by entering the appropriate cataloging unit and reach number.
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PC-WBS Quick Reference Guide
Installing PC-WBS (System requires 640K RAM, 20-Mbyte hard-disk)
1. Modify CONFIG.SYS file to include:
FILES »25
BUFFERS«25
Reboot system before proceeding.
2. At the DOS prompt, enter MOXWBS (to create a subdirectory for the WBS)
3. Enter CD\WBS
4. Place Disk #1 in Drive A and enter A:
5. Install the appropriate files by entering:
INSTALL? ALL C: (installs all program and database files)
INSTALL? PRG C: (installs only WBS program files)
INSTALL? OB C: (installs only empty database files)
where ? = F (FoxBase version) or D (dBASE version)
Starting PC-WBS
1. At the DOS prompt, in the WBS subdirectory,
Enter WBTSYSF to start the FoxBase version, or
WBTSYSD to start the dBASE version.
2. Enter a valid password if you wish to alter or add WBS data.
3. Enter a waterbody ID in the appropriate field (if the ID does not already exist, the system
assumes you intend to add a new waterbody).
4. The command Held at the top of each screen is used to:
(1) access the WBS Help File
(2) move between screens
(3) save information that has been added or altered
(4) end a WBS function or
(5) exit from the WBS
5. Access the command field by pressing Ft, PgUp, or S&C&pQ keys.
6. Two commands (NEXT & PBEV) also may be entered in the Waterbody ID and Assessment
Date fields.
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Creating WBS Reports
1. Select the Report Facility from the WBS Main Menu (2).
2. Enter report selection criteria on initial screen; note: if no criteria are selected, all data will be
retrieved for the most recent assessment date.
3. Enter desired WBS report number on Report Selection Screen (reports are numbered 1-13).
4. Additional sorting may be specified for listing reports (Nos. 6-13).
Commands for Entering, Editing,
and Reviewing Data
$001, SCOt, etc.: Move directly to a new screen
without saving input data or corrections.
SAVE(F2): Save information that is entered on the
screen. Each screen must be saved individually.
SAVE/STAY (FT): Save the information entered on
the screen and remain on that screen.
SAVE/SCXX (F8): Save information then move to
the specified screen.
HELP (F5): Activate a help screen that provides
detailed information for each data element on the
current screen.
NEXT (F4): Proceed to the next screen without
saving new data or corrections. Two special applica-
tions: On Screen 1, NEXT can be entered in the
Waterbody ID field to access sequential waterbodies;
on Screen 3, in the Assessment Date field, NEXT will
sequentially access assessment dates stored for the
current waterbody.
PREV (F2ty: Move directly to the previous screen
without saving changes; may also be used in the
Assessment Date field to access data for the previous
assessment date. For screens with multiple pages,
you may use this command to scroll back through
the pages.
PAGE
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BIOS Quick Reference Guide
I I
I. Logon to TSO on the NCC mainframe computer so the "READY" prompt is on ihe screen. Type
%BDEM089. This is an automated procedure developed for the 1989 EPA Regional Forums on
Water Information Systems. This procedure creates a dataset containing a TAXATABLE retrieval
request to be submitted for processing. We have automated the process of creating a dataset and
typing in the retrieval keywords in the interest of time. For full BIOS user documentation users
should issue the STORET command %BATCH BIOSDOC.
2. Follow the instructions. Answer Y when prompted.
3. When "%SCAN" begins it echos your retrieval request on the screen. The FORUM89.BIOSRET
dataset contains the following TAXATABLE retrieval:
PGM=TAXATABLE,
A=l 1 TRAIN, UK= CHOOCHOO, S=ROBS.
GROUPBY=PCOFG,
SHOW=ANALYSES,
SHOW=SUBSETS, SHOW=SUBTOTALS,
SHOW=COMNAME,
SHOW=REPLSUM,
This request produces a tabular diplay of abundance for all taxa at this station.
Output will be grouped in phylogenetic order (GROUPBY-PCOFG,; Phylum, Class, Order, Family,
Genus), and all diversity indices will be calculated (SHOW=ANALYSES,). Lifestages
(SHOW=SUBSETS,), common names (fish only; SHOW=COMNAME,) and replicate summaries
(SHOW=REPLSUM,) have also been requested.
The other output formats available in BIOS can generate a sorted list of station codes within any
agency, produce descriptions for selected sites, map the geographic locations, create a "dump" of all
available data, or produce a formatted display of all BIOS Field Survey Data.
Retrieval requests are submitted either by typing SCANIT on the "COMMAND ===>" line of
the PDF editor (Program Development Facility) or by using the STORET command %SCAN
under the "READY" prompt in TSO. This invokes the syntax checker and if no errors
are found, submits the job. The %BDEMO89 procedure does this for you.
4. The %BDEMO89 procedure places users of TTY style terminals in QUEUE once the request has
been submitted. QUEUE provides full access to the completed job. For information on commands
in QUEUE type HELP under the "QUEUE" prompt.
5. Users of full screen terminals will be placed in the job output display facility (SDSF) under PDF.
Tutorial panels for SDSF are available at any time by pressing PF1. (The remainder of this discus-
sion concerns full screen terminals only.)
On the SDSF Primary Option Menu choose 0 for output. It may take a few seconds for the job to
run, be patient, and press ENTER every so often. You will see a note that the job has finished at
NCC. Press ENTER until you see a job line appear. Type ? on the 'COMMAND INPUT ===>' line
to display the programmer name field.
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6. Position the cursor beside the job line showing 'FORUM 89 BIOSRET in the PROGRAMMER-
NAME field. Type S for Select. You will see the accounting information and other system mes-
sages.
7. Type NEXT 5 on the 'COMMAND INPUT ===>' line. This is a fast way to move directly to the
top of the report.
8. This station is an amalgamation of data from all areas of the country. By using PF7 (Up), PF8
(Down), PF10 (Left) and PF11 (Right) you can scroll through the report. Since the screen displays
only 80 of the 132 columns of output you may Find it easier to look through the printout beside the
terminal. When finished use PF4 (Return) to return to the PDF Primary Option Menu.
9. The STORET option in the PDF Primary Options Menu allows full screen users to browse the
Taxonomic File interactively. To access this type S. Next type 2 to get into the Biological System
Functions. Now choose 2 to browse the Taxonomic File.
10. You can enter any organism name at any level and the computer will classify it for you. For ex-
ample, type Micropter on the SPECIES line. The computer will display a screen with choices for
all occurrences of the string 'Micropter1. In this way a user can key in a partial name of an organism
and have the computer find it. In this example we could have been interested in the Genus Microp-
terus or in the Family Micropterygidae (Butterflies). Choose the number for Genus Micropterus and
press ENTER.
11. The screen will display the taxonomic hierarchy for Genus Micropterus and the numeric code for
each taxonomic level. Use PF8 (Down) to step through species in this Genus. Users can enter a
numeric code or the organism name (at any taxonomic level) to move through the Taxonomic File.
12. Position the cursor on the 'COMMAND ==>' line and type =X to return to the TSO "READY"
prompt.
USER SUPPORT
The STORET group provides free user support, training and documentation for BIOS. If you would like
more information please contact STORET at:
(202) 382-7220
(FTS) 382-7220
(800) 424-9067
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PC Reach File Quick Reference Guide
PCRF Hardware Requirements
An IBM PC-AT or fully compatible machine
with DOS 3.0 or higher, 640K of Random Access
Memory (RAM), a 20-Mbyte hard disk, and an
Enhanced Graphics Adaptor (EGA) monitor.
PCRF will also work with a Video Graphics
Array (VGA) board and monitor.
In addition, the following equipment is desir-
able but not essential:
1. A 2 or 3 button Mouse
2. A Hewlett Packard 7475A pen plotter for
producing hardopy maps.
Installing PCRF
1. Modify CONFIG.SYS to include:
FILES =35
BUFFERS=20
2. Install mouse driver (if necessary).
3. At DOS prompt, enter MD\PCRF , then
enter CD\PCRF
4. Place the PCRF diskette in drive a: and enter
A:
5. Enter COPY V C:
6. Remove the PCRF diskette from drive a: and
place the diskette containing the Reach Files
into drive a:. Repeat Step 7.
7. Remove the Reach file diskette from drive a:
and place the diskette containing the WBS
database files (scrfl.dbf and scrf2.dbf) into
drive a:. Repeat Step 7.
8. Enter C: to return to drive c:
Starting PCRF
1. Enter PCRF at the DOS prompt.
2. Press ENTER twice to proceed to the
PCRF Main Menu.
3. Enter R to load in Reach file data.
4. Enter 3 to load in WBS data.
5. Enter M to draw a map of the area of
interest.
The following commands are case sensitive:
Map Manipulation Commands
Command
Find Reach _
Find Watcrbody
Find Next Reach
Find Previous Reach
Find Next Watcrbody
Find Previous Waterbody-
Find Feature
Keystrokes
_F
.3
-
-
-End
-Home
-f
Find Next Feature
Find Previous Feature
Find Next DLG Entity
Find Previous DLB Entity-
Find Next Polygon
Find Previous Polygon-
Display Next Index Command.
-PgUp
Display Previous Index Command PgDn
Zoom
UnZoom
Shrink Zoom Box
Enlarge Zoom Box
Redraw current map view c
Report Commands
List Reaches Alphabetically
List Reaches Numerically
List Reaches Hydrologically
List Reaches in Current Waterbody-
Gencrate a Plot File
ListWaterbodies
Waterbody Overlap Report
Map Waterbody Reports _
-A
-N
-H
-W
.P
, down
arrow until
"selection
highlighted
Additional PCRF Commands
Command
Edit Reach Indexing commands -
Save Reach Indexing commands -
Help
Display PCRF limitations
Return to Main Menu
Keystrokes
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-------�
1'
Q.
X
Appendix F
Scenarios in Ground-Water
Data Management with STORET
-------�
CONTENTS
Page
Scenario 1 Underground Storage Tanks, EPA Regional Perspective F-l
Scenario 2 Underground Storage Tanks, State Perspective F-9
Scenario 3 Pesticides, EPA Regional Perspective F-16
Scenario 4 Pesticides, State Perspective F-30
Scenario 5 RCRA EPA Regional Perspective F-37
Scenario 6 RCRA State Perspective F-53
Scenario 7 CERCLA EPA Regional Perspective F-67
Scenario 8 CERCLA State Perspective F-87
Scenario 9 Wellhead Protection EPA Regional Perspective F-96
Scenario 10 Wellhead Protection State Perspective F-113
-------�
Scenario 1
UNDERGROUND STORAGE TANKS
EPA REGIONAL PERSPECTIVE
OVERVIEW
An EPA Regional Underground Storage Tank (UST) Manager is assessing
fiscal year budget requirements for educational/outreach programs and
compliance monitoring. In lieu of special project grant requirements
made directly by the State, the Manager will base allocations on risk
of county water supplies to contamination by leaking underground
storage tanks. The Manager would like to quickly assess potential
risks based on existing data, such as number of USTs in each county
and number of public ground-water supply wells in each county.
OBJECTIVES
To illustrate, county by county, potential risk of water supplies to
contamination by leaking USTs.
SCENARIO LOCATION
Pennsylvania
DATA SOURCE
Data used for the scenario reside in STORET.
STORET QUESTIONS/OUTPUT
1. How many public ground-water supply wells are in each
county?
TABLE: INVENT: Number of supply wells in each county including an
aggregate summary of sample data.
2. Which counties have the most ground-water supply wells and
therefore may be at the greatest risk to contamination?
MAP: SAS; Map generated by aggregating supply well data
by county.
SUPPORTING INFORMATION
Number of USTs over 15 years old.
SCENARIO 1 RESULT
A map reflecting the number of ground-water supply wells in each
county was generated and compared to the UST information to assess the
magnitude of the potential risk.
F-l
-------�
UNDERGROUND STORAGE TANKS
EPA REGIONAL PERSPECTIVE
DECISION PATH
REQUEST LIST FROM
STATE'S UST DATA
BASE ON NUMBER OF
USTs GREATER
THAN 15 YRS. OLD
DETERMINE
NUMBER OF USTs
IN EACH COUNTY
QUERY STORET
FOR NUMBER OF
MUNICIPAL SUPPLY
WELLS IN COUNTY
GENERATE SAS MAP
DEPICTING NUMBER
OF SUPPLY WELLS
IN EACH COUNTY
I
COMPARE MAP
TO UST DATA AND
ASSESS MAGNITUDE
OF POTENTIAL RISK
OFFICE OF GROUND-WATER PROTECTION
OFFICE OF INFORMATION RESOURCES MANAGEMENT
SCENARIO 1 FOR STORET
F-2
-------�
SAMPLE OF ONE COUNTY
RETRIEVAL DATE 69/05/30
PGH=INVENT
42005 PENNSYLVANIA ALLEGHENY COUNTY
PAGE:
102 STATIONS PROCESSED IN THIS AGGREGATE
' i ENARIO t
.HOSS SUtinART OF ALL
MEL IS IN PCHN
STA END-PERIOD OF RECD IN YRS
i
OJ
i *70
1970
1971
1972
1973
1974
1975
1976
1977
1976
STA BEG
1
19BO
1981
1981
1983
1964
085
1966
1997
1986
1969
IHIAl
27
S4
24
I
0
102
SIA END • Of CBS
1
6
0
0
662
"
76
16
12
0
0
0
0
0
0
e
o e
0 702
3 2496
9 496 «
61 4361
13 266
102 13592
• OF SAMPLE =
1 0
0 0
0
30
2
5
2
1
0
0
0
0
0
0
0
0
27
ISO
tst
220
1!
689
<3
>=3
16
40
13
64
20
0
22
-------�
SIOREI RE1RIEVAL DAIE BV'OS/iO
PGM-INVENT
4Z001 PENNSYLVANIA ALLEGHENY COUIITY
PACE :
102 STATIONS PROCESSED IN IHIS AGGREGATE
SCENARIO 1
GROSS sunn Aft r nt ALL
SUPPLY HELLS Ul PEKN
PARAMETER
00010 HATER TEtlP
00011 UATER TEMP
00027 COLLECT AGENCY
00042 ALTITUDE FEET
00058 FLCM RATE
00068 MAX SAMP DEPTH
00070 TLMB JKSN
09080 COLOR
PT-CO
MEDIUM
CENT MAfER
FAHN MAfER
CODE MAfER
AB MSL HAfER
6PM MAfER
FEET HATER
JTU MAfER
UtIITS MAfER
00095
00115
00310
00400
00403
00410
00500
00515
CMDUCTVY
SAMPLE
BOO
PH
PH
T ALK
RESIDUE
RESIDUE
AT 25C
TREAT -
5 DAT
LAB
CAC05
TOTAL
DISS-105
MICROKHC
HEMT
MG/L
SU
SU
MG/L
MG/L
C MG/L
MAfER
HAfER
HAfER
HAfER
HAfER
MAfER
HAfER
HAfER
00610 NH3«HH4- N TOTAL (1G/L MAfER
00612 UN-IOUD NH3-N ftG/L MAfER
00(15 N02-N TOTAL HG/L UAfER
00619 UN-IOMZD NH3-MH3 HG/L MAfER
00620 NOJ-N TOTAL ItG/L UAfER
00665 PHOS-TOT
00680 T ORG C
MG/L P MAfER
MG/L MAfER
00720 CYANIDE CN-TOT MG/L MAfER
00900 ™ HARD CACOJ MG/L HAflH
009lb -«-IlJ.1 CA.DI5S MG/L HAfER
RHK
•
K
TOT
K
TOT
K
TOT
K
TOT
«
K
TOT
•
K
TOT
K
TOT
K
TOT
NUMBER
10
10
14
IS
IS
1
17
1
16
16
1
17
*
3
9
11
667
667
S
64S
9
640
454
213
667
*
130
sea
666
9
424
243
667
9
122
76
190
•
621
41
667
9
MEAN
15.70000
60.26000
4200.500
739.3900
447.6700
45.00000
2.602400
.5000000
2.7300*0
1.250000
5.000000
1.470600
451.1100
1.000000
2.1S4900
6.670100
7.346200
172.0800
sis. too*
451.7000
2.000000
450.7000
.2853500
.0220190
.2012600
.0047754
.0393090
.0040000
.0113330
.0058064
1.245800
.0390120
.0061400
.1743800
6.092600
1.000000
4.630000
.0033310
196.7900
10. 2T
10S.1
20. t
VARIANCE
11.28900
36.S0600
.0000000
303.4300
942)9.00
33.73500
32.06600
11.66700
11.76500
1SS36.00
.0000000
1.224700
.5132300
.4334600
6S39.300
4407. SOO
2S4230.0
.0000000
293990.0
. 1250200
.0010775
.1007300
.0001320
.0396060
.0000000
.0003019
.0001951
3.602900
.0000168
2.616100
.0362210
33.93600
.0000000
30.31600
.0000166
14749.00
2.301100
1M7S.OO
IS7.AOOO
STAN DEV MAXIMUM MINIMUM
3.359900
6.040600
.0000000
17.41900
306.9800
5.008200
5.662700
3.415700
3.430000
124.6500
.0000000
1.106700
.7164000
.6S03BOO
00.06600
66.30900
904.2200
.0000000
503.9800
.3S35BOO
.0433300
.3173800
.0114090
.1992100
.0000000
.0915530
.0139700
1.898100
.0043422
1.620500
.1903200
5.994700
.0000000
S.S06900
.0051635
121.4300
1.S431DO
12S.9000
ft. 97000
22.5
72. S
4209
765
1400.00
45.0
15.0
.5
15.0
10
5
10
740
1
3.0
7.95
9.3
424
620
7500
2
7500
2.420
.650
2.420
.035
2.099
.004
2.099
.043
20.000
.040
20.000
.670
31.7
1.0
31.7
.010
1260
20
1260
63.2
12.5
54.5
4206
700
200.00
45. 0
.0
.5
.0
0
5
0
320
1
.9
5.01
5.7
8
464
24
2
2
.010
.010
.010
.00001
.002
.004
.002
.00001
.012
.020
.012
.070
1.0
1.0
1.0
.000
10
10
10
5.2
BEG DATE
72/09/06
72/09/06
72/07/20
67/05/01
67/05/01
72/03/01
72/09/06
72/09/19
72/09/06
72/09/13
72/09/06
72/09/06
72/09/06
75/03/31
72/09/06
72/09/06
72/09/06
72/09/06
72/11/21
74/01/00
86/06/11
74/01/06
• 72/09/06
65/09/1 1
72/09/06
72/09/06
72/09/06
05/09/10
72/09/06
72/09/06
72/09/06
85/09/10
72/09/06
72/09/06
85/09/10
87/01/08
85/09/10
72/07/20
72/09/06
86/06/20
(72/09/06
'72/09/06
END DATE
72/09/28
72/09/20
74/12/09
74/10/07
74/10/07
72/03/01
75/03/31
72/09/19
75/03/31
74/12/09
72/09/06
74/12/09
72/09/28
76/08/31
72/09/26
73/11/13
09/02/07
09/02/07
74/12/09
09/02/07
00/04/19
09/02/07
09/02/07
09/02/07
09/02/07
72/09/28
09/02/07
09/02/07
09/02/07
72/09/28
09/02/07
09/01/31
09/02/07
72/09/26
09/02/07
09/01/30
09/02/07
72/07/20
09/02/07
09/01/31
09/02/07
72/09/20
-------�
blOHll KtlSIEVAL DAU
bCEIIARlO 1
GROSS sunriARf OF AIL
SUPPLY MELLS IN PEHN
09/05/10 PGn=INVENT
4200! PENNSYLVANIA ALLEGHENY COUNTY
PAGE:
102 STATIONS PROCESSED in THIS AGGREGAIE
cn
PARAMETER
00916 CALCIUM CA-TOT
00925 tIGNSIUH tlG.DISS
00927 HGNSIUH MG.TOT
00929 SOOIUn NA.TOT
00937 PTSSIUM K.TOT
00940 CHLORIDE TOTAL
00945 SULFATEi S04-TOT
00950 FLUORIDE F.OISS
00951 FLUORIDE F,TOTAL
00956 SILICA TOTAL
00997 AS-INORG AS,TOT
01000 ARSENIC AS.DISS
01002 ARSENIC AS,TOT
MEDIUM
HG/L MATER
MG/L
MG/L
MAfER
HAfER
01007
01022 faORON
01027 CADMIUM
BA.lor
B.TOT
CO, TO I
MS/I HAfER
MG/L HAfER
MG/L
HG/L
MG/L
MS/I
MG/L
UG/L
UG/L
UG/L
HAfER
HAfER
UAfER
HAfER
HAfER
UAfER
UAfER
UAfER
01034 CHROMIUM CR.TOT
UG/L HAfER
UG/L MA fER
UG/L HAfER
UG/L MAfER
RMK
J
K
L
TOT
J
K
TOT
J
TOT
J
K
TOT
K
TOT
L
K
TOT
J
K
L
TOT
K
L
TOT
K
TOT
NUMBER
S66
?a
3
I
646
9
572
71
5
646
630
30
660
653
t
4
659
667
643
20
663
I
19
9
9
1
7
191
195
190
1
16
1
206
9
6
201
1
206
16
192
toa
MEAN
53.05200
69.S2200
.1200000
276.0000
55.13600
4.677500
13.72600
17.05600
14.76600
14.09900
49.53300
116.7900
52.59000
1.969600
1.396500
.1350000
1 . 956700
51.16600
77.41700
10.00000
75.36300
.6999000
.2693600
6.632600
.0000000
50.00000
14.40000
4.005200
4.372700
119.6500
65.00000
566.6600
1000.000
156.0200
3.333300
30.16700
9.776100
3.000000
10.33200
744.3100
54.34900
107.4200
VARIANCE
1566.000
1630.100
.0243000
1724.100
23.32700
126.0700
134.5500
1065.400
135.3600
3112.600
5200.600
3396.500
3.934600
.4296700
.0000000
3.920900
4071.200
7217.100
.0000000
7132.200
.0137600
.7027000
.0000000
126.5600
.0052452
7.563600
17594.00
257260.0
52446.00
47.75000
926.1700
1.074700
35.37300
1571100
2113.100
149770.0
STAN DEV 1
39.65000
42.78000
.1556900
41.52300
4.629600
11.31700
11.59900
32.94500
11.63500
55.79200
72.11600
56. 27900
1.963600
.6554900
.0000000
1.960100
63.60600
64.95400
.0000000
64.45300
.1173100
.6362700
.0000000
11.25100
.0724240
2.750200
132.6400
507.2300
229.0100
6.910100
30.43300
1.036700
5.947500
1253.500
45.96600
387.0100
1AXIHUM H
366.0
246.
.
278.
366.
12.
132.
71.2
73.7
132.0
416.00
221.00
416.00
36.75
I.A6
.14
36.75
426
1100
10
1100
.70
.52
9.6
0
50
36
5
36
628
65
1000
1000
1000
19
92
10
3
92
3664
500
3664
INIMUH
.05
.4
.03
278.0
.03
1.0
.01
.2
.01
.01
.15
4.07
.15
.15
.93
.14
.14
1
10
10
10
.70
.14
7.
S
12
65
10
1000
10
0
14
5
3
3
0
10
0
BEG DATE
65/09/10
66/09/09
67/03/16
67/03/05
65/09/10
72/09/06
65/09/10
66/06/21
67/03/05
65/09/10
72/09/06
66/08/26
72/09/06
72/09/06
66/09/09
65/09/18
72/09/06
72/09/06
72/09/06
65/09/19
72/09/06
72/11/21
• 72/09/06
72/09/06
72/09/06
74/01/08
65/09/12
85/09/10
65/09/10
65/09/10
86/12/16
72/09/06
74/01/08
72/09/06
72/09/06
66/12/17
72/09/06
74/01/06
72/09/06
72/09/06
05/09/10
72/09/06
END DATE
69/02/07
66/01/26
67/12/09
67/03/05
69/02/07
72/09/26
69/02/07
66/05/03
68/06/17
89/02/07
69/02/07
67/04/21
69/02/07
69/02/07
66/09/09
07/03/18
69/02/07
89/02/07
69/02/07
69/01/12
69/02/07
72/11/21
76/06/31
72/09/28
72/09/28
74/01/08
89/01/31
89/02/07
89/02/07
89/02/07
66/12/16
69/01/30
74/01/08
89/02/07
72/09/26
86/02/1 1
69/02/07
74/01/06
69/02/07
66/02/10
69/02/07
89/02/07
-------�
Water Supply Sites in STORE!
Penrisu luan i u
Spring 1989
# USTs > 15 YRS OLD ADDED
-
V.
V-
-------�
DATA FOR SCENARI01 • UST REGIONAL
COUNTY #USTs>15YRSOLD
ADAMS 171
ALLEGHENY 3,625
ARMSTRONG 194
BEAVER 511
BEDFORD 117
BERKS 781
BLAIR 342
BRADFORD 157
BUCKS 1.198
BUTLER 370
CAMBRIA 458
CAMERON 17
CARBON 133
CENTRE 282
CHESTER 792
CLARION 108
CLEARRELD 209
CLINTON 97
COLUMBIA 155
CRAWFORD 222
CUMBERLAND 446
DAUPHIN 581
DELAWARE 1,388
ELK 96
ERIE 699
FAYETTE 399
HJHfcSI 13
FRANKLIN 284
FULTON 32
GR£B£ 101
HUNTINGDON 106
INDIANA 231_
JEFFERSON 12l"
JUNIATA 4 8
LACKAWANNA 570
LANCASTER 906
LAWRENCE 268
LEBANON 271
LEH1GH 681
LUZERNE 858
LYCOMNG 296
McKEAN 127
MERCER 321
MIFFLIN 11 7
F-7
-------�
MONROE 174
MONTGOMERY 1,609
MGNTOUR 42
NORTHAMPTON 564
NORTHMBERLAND 251
PERRY 89
PHILADELPHIA 4 221
PIKE 46
KJIIbH 44
SCHUYLKJLL 402
SNYDER 84
203
SULLIVAN 16
SUSQUEHANNA 95
TTOGA 102
UNION 82
VENAN30 161
WARREN 119
WASHK3TON 543
WAYNE 88
WESTMORELAND 981
WYOMNG 66
YORK 782
NUMBER OF COUNTIES: 67 29.660 - TOTAL
F-8
-------�
Scenario 2
UNDERGROUND STORAGE TANKS
STATE PERSPECTIVE
OVERVIEW
Low levels of benzene (parameter 34030), toluene (parameter 34010),
and xylene (parameter 81551) [BTX] compounds were discovered in a well
during a general water quality survey conducted by the State
Department of Environmental Protection. It is suspected that the
contamination is being caused by a leaking underground storage tank
(UST) at a nearby gas station. A review of previously unreported
reconciliation records suggests that 1000-1500 gallons of pure product
were lost over the past year. However, no firm conclusions can be
drawn until more is known about the tank and the contaminated well.
A two-pronged approach is suggested. A tank pressure test will be
performed to determine if the UST is presently leaking, and an
assessment will be made of the ground-water gradient to investigate
the likelihood that contamination could have migrated from the gas
station to the affected well. The coordinates for the underground
storage tank are 38°06'50"-079°04I5011.
OBJECTIVE
To determine if the leaking underground storage tank is the cause of
the contamination at the well. If the UST is upgradient of the supply
well and any other affected wells, and the tank pressure test fails,
the manager will conclude that the tank is the likely cause of
contamination.
SCENARIO LOCATION
Augusta County, Virginia
DATA SOURCE
Data used for the scenario was generated for demonstration purposes.
STORET QUESTIONS
1. Based on water levels in area wells, what does the regional
gradient generally look like?
MAP: MSP/LOG; Map of monitoring locations in a lat/lon polygon
including water table elevations (parameter 72020) plotted with
different symbols and sizes at the wells.
2. Which (if any) other supply wells downgradient of the UST
are contaminated with BTX?
TABLE: RET; Instances of BTX detection at selected monitoring
locations downgradient of the UST. Table also shows water table
elevations as a reference.
SCENARIO 2 RESULT
The UST was indicated as the probable source of the contamination
because the tank failed the pressure test (question 2) and the
affected wells were downgradient (question 1).
F-9
-------�
UNDERGROUND STORAGE TANKS
STATE PERSPECTIVE
DECISION PATH
QUERY STORET FOR
LOCATION OF
WELLS AROUND UST
h
QUERY STORET FOR
WELLS WHICH ARE
CONTAMINATED
WTTHBTX
I
MAP MONITORING LOCATIONS
AND WATER TABLE ELEVATIONS
TO DETERMINE GRADIENT
ARE THE OTHER
WELLS DOWN
GRADIENT?
IS AFFECTED WELL
DOWN GRADIENT?
DETERMINE WHETHER
LEAKING UST IS
SOURCE OF
CONTAMINATION
PERFORM
TANK
TIGHTNESS
TEST
OFFICE OF GROUND-WATER PROTECTION
OFFICE OF INFORMATION RESOURCES MANAGEMENT
SCENARIO 2 FOR STORET
F-10
-------�
S
S
a
r9'e3'
ENVIRONMENTAL PROTECTION fiGENCY
STORE! SYSTEM
ScenarIo 2
Water Table Gradient flnaIyaI a
MRXIMPI
<= 1410.0000
\17M10.0000 TO M35.0000
4, 1435.0000 TO 1440.0000
o > N40.0000
PROJECTION - ALBERS EQUAL AREA
SCALE 1.40000
Undergound Storage Tank
GradIent Study
SCALE OF MILES
i.e
Scenar I o 2
VIrgIn I a
urn*
t.»ll Hll£S PCM IMM
mr Mn **/•»/•*
-------�
fi
s
3
3
S
S
rf
B 4800 ug/1
T 9200 ug/1
X 5500 ug/l
MW 12
d B 12 ug/1
T 18 ug/1
X 6 ug/1
Q
a
en-
We?'
ENVIRONMENTAL PROTECTION AGENCY
STORE! SYSTEM
D STATION LOCATION
PROJECTION - ALBERS EQUAL AREA
SCALE 1:
FIGURES ADDFD
TV er
Underground Storage Tank
Close VicInlty
SCflLE OF HILE3
e.s i.e
ScenarIo 2
Virginia
YD!
«.»3i mm rat urn
-------�
STORET RETRIEVAL DATE 89/06/08 PGM=RET PAGE:
GDHVA013 Scenario 2
38 06 46.7 079 04 37.6 1 Virginia
MONITORING HELL • 15 Underground Storage TanK
51015 VIRGINIA AUGUSTA Close Vicinity
OZ-NORTH ATLANTIC 021400
14-POTOMAC-SHENDOAH /TVPA/AMBNT/HELL
11TRAIN 890527 02070005
0000 FEET DEPTH
SMK
OR
DEPTH
IFTI
84069
FORMAT 'N
CODE
ALPHA
72020
ELEV
FEET AB
MSL
34030
BENZENE
TOT UG/L
34010
TOLUENE
TOT UG/L
81551
XYLENE
TOT UG/L
DATE TIME
FROM OF
TO DAY MEDIUM
82/09/03 HATER SURAQ
85/04/12 HATER 4800.00 9200.00 5500.000
88/06/30 HATER 1470.00
i
t—•
Co
-------�
STOSET RETRIEVAL DATE 8*/Oi/04
'TVPA/AHBNT/UELL
PGM'IET
OOHVAOO*
38 OS 47 0 07* 0! Of.O 4
MOMITOO IMO HELL • *
noil VIRGINIA AUGUST*
OZ-NORTN ATLANTIC 021400
I i-POTOMAC-SMEKOOAM
MTRAIN o»o»j7 02070001
oooo FEET DEPTH
PAGE-
DATA LOCKED AFTER 4»/fll
IKE
DATE
F«OM
TO DAY
as/oa/i!
ei/o4/i«
88/04/10
CR
MEDIUM (FT I
MA TED
MATER
MATER
FORMAT N
CODE
ALPHA
7:001
TOT OPTH
Of HOLE
FT
40 0
7:0:0
ELCV
FEET A8
HSL
1*40.00
720*7
SCREEN
TOP 1ST
FR HP PT
mo.oo
•w I OOP MS
MN. SM>L
UB/L
71810
NITRATE
TOT-MOJ
HG/L
MOSI I40IO
HETHOHVL 8EHZCNE
MM HATER
(UO/LI TOT UG/L
«t.OO
:0 0 1410.00
1440.00
:*o:o
BENZENE
3*010
TOLUENE
8II1I
TOT UG/L TOT UG/L TOT UG/L
410.00
840.00 110.000
F-14
-------�
-£T»'E.»L
•'»*/lNBNT/taELL
at/0t/0k
PGNitET
3DMVAO12
a o» :» i OM g; so.t i
MONtTMIMO »»ii I 12
flOll VIRGINIA AUGUSTA
02-MRTH ATLANTIC 021*00
I (-POTOMAC- 9CNDOAH
II TRAIN 110427 3207000!
oe«o rat DEPTH
•3
xEOIUM
OR
DO>TM
(FT)
OCOI* 72001
FORMAT'N TOT OPTH
CODE OP
ALPHA PT
SIMAO
:• o
7:020
CUV
PIET «8
NSL
HSO 00
DATA LOCKED APTER 4«/OI.
SCREEN NMIDOPHS NITRATE HETHDNVL
TOP 1ST HHL SNPL TOT-HOI HM.HATER
fR NP PT UC/L NC/L (UC/L)
1(12.00
: PT
MIS7
NNIOOPNS
UO/L
71*10
NITRATE
TOT-HOI
NO/L
If Of I
14010
HM.HATER
ma/Li
14010
TOLUENE
RIM1
XVLENE
1410.00
TOT UC/L TOT UG/L TOT UOA.
4*00.00 fXOO.OO MOO. 000
1470.00
F-15
-------�
Scenario 3
PESTICIDES
EPA REGIONAL PERSPECTIVE
OVERVIEW
The EPA Regional office has received a request from a large farm for
approval to use a registered pesticide (oxamyl). A decision is
required as toIwhether or not use of the pesticide should be allowed.
The decision will be made based on the expected mobility and
persistence of the pesticide in the local ground-water system. The
Manager has selected 3 pesticides that have been used in the area and
are as soluble or less soluble than the proposed pesticide. The
manager will use information on concentration vs time relationships
for the three surrogate pesticides to help make the decision.
OBJECTIVE
To evaluate the expected effects of the proposed pesticide on ground
water, based on observations of the behavior of three (surrogate)
pesticides which are as soluble or less soluble than the proposed
pesticide.
SCENARIO LOCATION
Augusta County, Virginia
DATA SOURCE
Data used for the scenario were generated for demonstration purposes
STORET QUESTIONS/OUTPUT
1. Have any of the 3 surrogate pesticides [aldicarb (parameter 39053);
methomyl (parameter 39051) ; and methamidophos - Monitor (parameter
38927)] been detected in ground water near the farm? How deep into
the aquifer system have pesticides been detected?
TABLE: RET; Detections of the 3 pesticides in ground water within
a lat/lon polygon and top of screen elevation (72057) for affected
wells.
2. Where pesticides have been detected, what are the concentration
vs time trends?
PLOT; Pesticide concentration vs time trends for one of the
pesticides at a selected monitoring location for assessment of
expected persistence.
SUPPORTING INFORMATION
Solubility information on 3 pesticides which have been used in the
Region and solubility information for the proposed pesticide.
SCENARIO 3 RESULT
The regional office examined detection information and concentration
trends obtained from STORET and recommended the pesticide not be used
in the area.
F-16
-------�
PESTICIDES
EPA REGIONAL PERSPECTIVE
DECISION PATH
OBTAIN SOLUBILITY INFORMATION
FOR PESTICIDES USED IN REGION
TO SELECT THREE SURROGATES
QUERY STORE! FOR
DETECTIONS OF THE
THREE PESTICIDES IN
GROUND WATER AND
SCREEN ELEVATIONS
OF WELLS
EVALUATE PERSISTENCE
BY DETERMINING
CONCENTRATION vs. TIME
FOR SURROGATES
RECOMMENDATION
ON USAGE
OF PESTICIDES
OFFICE OF GROUND-WATER PROTECTION
OFFICE OF INFORMATION RESOURCES MANAGEMENT
SCENARIOS FORSTORET
F-17
-------�
STORE! RETRIEVAL DATE 89/06/08 PGM=BET PAGE:
GDHVAOD5 Scenario I
38 04 32.b 079 05 07.Z 1 Pesticides in GroundMater
MONITORING HELL * 5 Aldicarb Meihomyl Monitor ImethamidophosI
51015 VIRGINIA AUGUSTA
NORTH ATLANTIC 021400
POTOMAC RIVER /TYPA/AMBNT/HELL
11TRAIN 890527 02070005
0000 FEET DEPTH
SMK 84069 72057 39051 39053 38927
DATE TIME OR FORMAT'N SCREEN METHOMYL ALDICARB MMIDOPHS
FROM OF DEPTH CODE TOP 1ST NH.HATER HH.HATER HHL SMPL
TO DAY MEDIUM I FT I ALPHA FR HP FT IUG/L I IUG/L I UG/L
85/01/30 HATER SURAQ 1395.00
86/01/19 HATER ZOO
66/11/15 HATER 1-800
87/04/01 HATER 5-000
88/03/23 HATER 3.600
iL GDHVA001 Scenario 3
00 38 OS 00.7 079 03 38.1 1 Pesticides in GroundMater
HYPOTHETICAL LANDFILLS, INC. Aldicarb Mothomy1 Monitor InethaaidophosI
51015 VIRGINIA AUGUSTA
02-NORTH ATLANTIC 021400
14-POTOMAC-SHENDOAH /TYPA/AMBNT/HELL
11TRAIN 890527 02070005
0000 FEET DEPTH
\
DATE TIME
FROM OF
TO DAY
84/OS/1S
85/04/16
86/05/12
87/01/20
88/09/15
SMK
OR
DEPTH
MEDIUM IFTI
HATER
HATER
HATER
HATER
HATER
84069
FORMAT 'N
CODE
ALPHA
SURAQ
72057
SCREEN
TOP 1ST
FR HP FT
1405.00
39051 39053 38927
METHOMVL ALDICARB MMIOOPHS
HH. HATER HH. HATER HHL SMPL
1 UG/L 1 1 UG/L 1 UG/L
1.100
3.000
2.200
2.800
-------�
STORET RETRIEVAL DATE 89/06/08
GDHVAOOb
36 05 33.0 079 01 34.0 4
MONITORING NELL * 6
51015 VIRGINIA AUGUSTA
02-NORTH ATLANTIC 021400
14-POTOMAC-SHENDOAH
11 TRAIN 690527 02070005
0000 FEET DEPTH
PGM-RET
PAGE:
DATE TIME
FROM OF
TO DAY
83/02/15
83/04/28
84/01/10
64/11/02
85/04/02
MEDIUM
HATER
HATER
HATER
HATER
HATER
SMK
OR
DEPTH
IFTI
84069
FORMAT
-------�
STORET RETRIEVAL DATE 09/06/08
GONVA010
38 OS 52.0 079 05 07 0 4
MONITORING HELL • 10
51015 VIRGINIA AUGUSTA
02-NORTH ATLANTIC 021400
14-POTOMAC-SHENDOAH
11 TRAIN 890527 02070005
0000 FEET DEPTH
PGM=RET
DATE TIME
FROM OF
TO DAY
82/10/17
82/10/30
84/05/17
86/01/15
87/07/21
MEDIUM
HATER
HATER
HATER
HATER
HATER
SMX
OR
DEPTH
I FT I
64069
FORMAT'N
CODE
ALPHA
72057
SCREEN
TOP 1ST
FR MP FT
BEDAQ 1390.00
Scenario 3
Pesticides in Grourtdwater
Aldicarb Me(homy1 Monitor Imethamidbphos I
/TYPA/AMBNT/HELL
39051 39053 38927
METHOMYL ALDICARB MMIOOPHS
NH.HATER NH.HATER HHL SMPL
IUG/L I IUG/LI UG/L
PAGE.
GDHVA011
38 06 03.0 079 04 05.0 4
MONITORING HELL • 11
51015 VIRGINIA AUGUSTA
02-NORTH ATLANTIC 021400
14-POTOMAC-SHENOOAH
11TRAIN 890527 02070005
0000 FEET DEPTH ,
DATE
FROM
TO
84/11/10
85/06/16
86/08/12
87/03/09
88/11/13
TIME
OF
DAY
MEDIUM
HATER
HATER
HATER
HATER
HATER
SMK
OR
DEPTH
I FT I
84069
FORMAT'N
CODE
ALPHA
72057
SCREEN
TOP 1ST
FR MP FT
SURAQ 1410.00
Scenario 3
Pesticides in Grovrtdwater
Aldicarb Methomy1 Monitor Imethamidophos I
/TYPA/AMBNT/HELL
390S1 39053 38927
METHOMVL ALDICARB HMIDOPHS
HH.HATER HH.HATER HHL SMPL
IUG/L I IUG/LI UG/L
.5
2
2
1
-------�
STORET RETRIEVAL DATE 89/06/08
GDHVA013
38 06 46.7 079 04 57.6 1
MONITORING HELL « IS
51015 VIRGINIA AUGUSTA
02-NORTH ATLANTIC 021400
14-POTOMAC-SHENDOAH
11TRAIN 890527 02070005
0000 FEET DEPTH
PGM=RET
PAGE:
Scenario 3
Pesticides in Groundwater
Aldicarb Methomy1 Monitor
/TYPA/AMBNT/HELL
ImethamidophosI
-TI
I
ro
DATE
FROM
TO
82/09/03
85/04/12
86/07/14
87/12/06
88/09/21
TIME
OF
DAY MEDIUM
HATER
HATER
HATER
HATER
HATER
SMK
OR
DEPTH
IFTI
84069
FORMAT *N
CODE
ALPHA
SURAQ
72057
SCREEN
TOP 1ST
FR MP FT
1450.00
39051
METHOMYL
NH. HATER
(UG/L 1
39053 38927
ALDICARB MMIDOPHS
HH.HATER HHL SMPL
IUG/LI UG/L
2
6
13
8
-------�
STORE! RETRIEVAL DATE 89/06/14 - PGM=PLOT - VERSION OF MAR. 1989
BEGIN PLOT ROUTINE FOR LJM19
TAPE INITIALIZED : 6/14/89 11:16:10.13 AM JES Z119 ACCT A014 ROOM D PRI OZ/
1 1.4 1 1110000000 IXF 1 Z 10 6.9E*10 8.9E»10 8.9E*10 8.9E»10 8.9E«10 8.9E*10 8.<>E*10 8.9EUO 8.9E»10 8.9E + 10 1 0
REGRESSION LINE REQUESTED.
I
ro
ro
PTITLE : Scenario 3 - Pesticides in Groundwater
PLOT USING FACT=1.4 HILL PRODUCE PLOT ABOUT 7.7 INCHES HIGH
1
59051 METHOMYL
4 POINTS
59051 METHOMYL
4 POINTS
39053 ALDICARB
4 POINTS
39053 ALDICARB
4 POINTS
39053 ALDICARB
4 POINTS
38927 MMIOOPHS
4 POINTS
38927 MMIDOPHS
4 POINTS
WH.HATER IUG/LI
SLOPE 1.108 UNITS/YEAR
HH.HATER IUG/LI
SLOPE -0.197 UNITS/YEAR
HH.HATER IUG/LI
SLOPE 0.719 UNITS/YEAR
NH.HATER IUG/LI
SLOPE 0.124 UNITS/YEAR
HH.HATER IUG/LI
SLOPE 2.334 UNITS/YEAR
NHL SMPL UG/L
SLOPE 0.395 UNITS/YEAR
NHL SMPL UG/L
SLOPE 1.590 UNITS/YEAR
GDHVA006
INTCPT
GDNVA007
INTCPT
GDHVA010
INICPT
GDHVA011
INTCPT
GDWVA013
INTCPT
GDHVA001
INTCPT
GOWVA005
INTCPT
1.455
2.701
1.169
0.953
-2.764
1.657
-0.729
ALL PARAMETERS PLOTTED
END PLOT ROUTINE FOR LJM19
TAPE CLOSED : 6/14/89 11:16:17.02 AM JES 2119 ACCT A014 ROOM D PRI OZ/
-------�
I
PO
CO
STORE!
GDWVR00I
38 05 00.7 079 03 38.1 1
HYPOTHETICAL LflNDFELLS, INC.
51015 VIRGINIA AUGUSTA
02-NORTH ATLANTIC 021400
14-POTOMflC-3HENDOAH
11 TRAIN 890527 02070005
0000 FEET DEPTH
Scenario 3 ~ Pesticides in Grounclwater
in
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STARTING DATE 85/4 716
SAMPLE DATE
-------�
5TORET
GDWVA005
38 04 32.6 079 05 07.2
MONITORING WELL * 5
Scenario 3 ~ Pesticidea in Groijndwater
51015 VIRGINIft AUGUSTA
NORTH ATLANTIC 021400
POTOMAC RIVER
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MONITORING WELL * 6
51015 VIRGINIA AUGUSTS
02-NORTH ATLANTIC 021400
14-POTOMAC-SHENDOAH
11 TRAIN 890527 02070005
0000 FEET DEPTH'
Scenario J — Pesticides in Groundwater
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1956
STARTING DRTE 82/2 /9
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5TORET Scenario 3 - Peat
GDWVA007
38 05 35.0 079 01 47.0 4
MONITORING WELL * 7
51015 VIRG NIA AUGUSTA
02-NORTH ATLANTIC 021400
1 4-POTOMflC-SHENDOAH
11 TRAIN 890527 02070005
0000 FEET DEPTH
1983 1984
V
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STARTING DATE 82/2 /9
SAMPLE DATE
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STORE!
3 ~ Peat it idea in Groundwat
er
33 05 52.0 079 05 07.0 4
MONITOR [NO UELL * 10
51015 VIRGINIA
02-NORTH ATLANTIC
1 4-POTOMAC-SHENDOAH
11TRR1N 890527
0000 EEET DEPTH
1983
1984
AUGUSTA
021400
02070005
1985
1986
1988
1989
-------�
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STORET
GDWVA013
38 06 46.7 079 04 37.6
MONITORING WELL * 13
51015 VIRGINIA
02-NORTH ATLANTIC
14-POTOMAC-SHENDOAH
1ITRR1N 890527
0000 EEET DEPTH
Scenario 3 - Pesticides in Groundwater
RUGUSTA
021400
02070005
Q "*
1
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,X /
1987'
A;
/
/
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STARTING DATE 82/10/30
SAMPLE DATE
-------�
Scenario 4
PESTICIDES
STATE PERSPECTIVE
OVERVIEW
A State Department of Health Administrator has been alerted to the
consistent detection of a particular pesticide [alachlor (parameter
77825)] in the.surficial aquifer in a non-agricultural region of the
State. The pesticide has also been detected in a stream which runs
through this area.
The Administrator suspects the pesticide may be entering this non-
agricultural area via stream flow from one of several large farms
upstream in the watershed, most likely in the early spring when stream
stages are at their highest. The Administrator wishes to examine the
stream stage vs ground-water concentration relationship to determine
if the pesticides are entering the ground water from the stream. This
information will help to decide if use of this pesticide should be
restricted or if application should be deferred to later in the
season.
OBJECTIVE
To examine the stream stage vs ground-water concentration relationship
to determine if the pesticide is entering ground water from the
stream.
SCENARIO LOCATION
St. Joseph River, Michigan/Indiana.
DATA SOURCE
Flow data used for the scenario reside in STORET. Pesticide data was
generated for demonstration purposes.
STORET QUESTIONS/OUTPUT
1. What streams drain into the affected area and where are the
monitoring wells along the stream reach?
MAP: LOG! EPA reach traces of affected stream and tributaries
with locations of ground-water monitoring wells along reach.
2. What is the flow volume (parameter 60) vs time trends in the
stream for determination of seasonal relationships?
PLOT: Monthly flow volume readings for affected stream reach.
3. What are the concentration vs time trends of the pesticide
in ground-water monitoring wells near the stream?
PLOT: Pesticide concentration vs time at selected monitoring locations
along stream reach.
SCENARIO 4 RESULT
The Administrator confirmed the stream was the likely cause of the
ground-water contamination and recommended deferring application until
later in the spring.
F-30
-------�
PESTICIDES
STATE PERSPECTIVE
DECISION PATH
QUERY STORE! FOR
MAP OF STREAM
REACHES AND ADJACENT
MONITORING LOCATIONS
PLOT PESTICIDE DETECTION
vs TIME TRENDS FOR
GROUND-WATER WELLS
PLOT MONTHLY FLOW
VOLUME TRENDS FOR STREAM
CONFIRM SUSPECT
SOURCE/PATHWAY
RELATIONSHIP
I DETERMINE IF APPLICATION
RESTRICTIONS ARE NECESSARY I
OFFICE OF GROUND-WATER PROTECTION
OFFICE OF INFORMATION RESOURCES MANAGEMENT
SCENARIO 4 FOR STORET
F-31
-------�
CO
I
I
ENVIRONMENTAL. PROrECllON
STORET SYSTEM
Scenar i o 4
St. Joseph RIver
M I c h I gari / I nd I ana
Peat I c idea
PROJFCKON - fllBERS EQUOl.
SCALE I
9*'15"
86'I6'
M I cli I g'Sd/ I rn:l I anu
Peat. I c I dea
Scenar- I o 4
St. Joseph River
». ITT mm m 001
-------�
[04- PESTICIDE RUNOFF
STORE! SCE
171412 5JR 46 SJR 51
41 44 40.0 086 16 22.0 2
ST. JOSEPH R DARDEN BRIDGE AT MILE POINT 51.038
18141 INDIANA 5T JOSEPH
LAKE MICHIGAN 083290
ST. JOSEPH RIVER
2HND 04050001005 0009. 130 ON
0000 FEET DEPTH
oo
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j'F'M'fl'M'J'J'A ' S ' 0 ' N ' D
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STARTING DATE TO/1 /13
SAMPLE DATE
-------�
STORE!
F89001
41 44 38.0 086 16 23.0 1
OEPT OF HEALTH SITE NUMBER I
18141 INDIANA ST JOSEPH
LAKE MICHIGAN
ST. JOSEPH RIVER
I I TRAIN 890527 04050001
0017 FEET DEPTH
SCENARIO 4 - PESTICIDE RUNOFF
o
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STORE!
F89003
41 42 00.0 086 18 00.0 1
DEPT OF HEflLTH SITE NUMBER 3
18141 INDIANA 5T JOSEPH
LAKE M1CHIGRN
ST. JOSEPH RIVER
11 TRAIN 890527 04050001
0025 FEET DEPTH
SCENARIO 4 - PESTICIDE RUNOFF
o
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en
QC »
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x:
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00
in
CM
-------�
Scenario 5
RCRA
EPA REGIONAL PERSPECTIVE
OVERVIEW
An EPA Manager is evaluating a RCRA Part B permit application for an
incinerating facility. Ash from the incinerator has been stored in
lined waste piles on site. There are supply wells in the area and the
manager needs to decide if continued storage in the waste piles should
be authorized. There are monitoring wells at the facility and ground-
water quality has been monitored for several years.
OBJECTIVE
To evaluate the potential risk to ground-water supplies posed by the
waste piles based on the proximity of supply wells, local ground-water
gradient, and evaluation of ground-water quality in the vicinity of
the facility .
SCENARIO LOCATION:
Gloucester County, New Jersey
DATA SOURCE
Data used for the scenario were generated for demonstration purposes.
STORET QUESTIONS/OUTPUT
1. Which monitoring and supply wells are located near the site?
How close are the supply wells? Are the supply wells screened in the
surficial aquifer?
MAP: LOG; Location of area monitoring and supply wells
TABLE: INDEX; Station descriptor information for wells within a
lat/lon polygon.
2. What is the gradient in the vicinity of the facility?
MAP: LOG; "zoomed-in" map of facility wells
TABLE: RET; Parameter 72020 - elevation of the water table at the
facility wells.
3. Has the quality of ground water in the vicinity of the
facility been degrading?
PLOT; Conductivity levels at facility wells.
SCENARIO 5 RESULT
The area supply wells were a good distance from the facility, and
screened in lower aquifers. Because an extensive monitoring network
was already in place, and degradation of ground-water quality was
minimal, the part B permit application was granted.
F-37
-------�
RCRA
EPA REGIONAL PERSPECTIVE
DECISION PATH
QUERY STORET FOR
SUPPLY AND MONITORING
WELLS IN AREA OF INTEREST
QUERY STORET FOR
GRADIENT IN VICINITY
OF FACILITY
DETERMINE LOCATION AND
SCREEN DEPTH OF SUPPLY
WELLS
QUERY STORET FOR
GROUND WATER QUALITY
NEAR FACILITY
DETERMINE IF THE SUPPLY
WELLS ARE AT RISK
DECIDE WHETHER TO
ISSUE PERMIT
OFFICE OF GROUND-WATER PROTECTION
OFFICE OF INFORMATION RESOURCES MANAGEMENT
SCENARIO 5 FOR STORET
F-38
-------�
I
Co
RCRA
CfW3TIF[l JfSIDI
Scenar I o 5
Gloucester Co NJ
SCfTLE OT M1LE3
5
10
MILES pen IMOI
onrt »»/§5/3i
-------�
t
\
rvzr*
rs-zvir n-a-ttr IB-war
rv2»'»-
ENVIRONMENTAL PROTECTION AGENCY
STORET SYSTEM
Scenario 5
Gloucester Co
New Jeraey
RCRfi
PROJECTION - ALBERS EQUAL AREfl
SCALE I:l80fl0
RCRA
JOULE or IIIIEJ
Scenarlo 5
Gloucester Co NJ
-------�
STORET RETRIEVAL DATE 89/06/01
PGM=INDEX - VERSION OF MARCH ZZ, 1988
PAGE
AGENCY
PRIME STN NO
11TRAIN
GOH04
AO
ST-CO COUNTY STATE
SECONDARY STATION NUMBERS
LAT/LONG/PREC STORED DATE
STATION TYPE CODE
RIVER MILE I IF I
INDEX I PRESENT )
34015 GLOUCESTER _ NEH JERSEY
39 47 10.8 075 21 22.6 2 STORED 890527
/TYPA/AHBNT/HELL
LOCATION NAME
MINOR BASIN
MAJOR BASIN
BASIN CODE
DEPTH
HYDRO UNIT+SEG
MILEPOINT ON?
XYZ CORPORATION - SITE • 4
OELAHARE RIVER 990160
MIDDLE ATLANTIC DEPTH 17
DATA LOCKED AFTER 4901
02040202
11TRAIN
GON05
BO
34015 GLOUCESTER
NEH JERSEY
39 47 11.9 075 21 06.4 2 STORED 890527
/TYPA/AMBNT/HE LL
XYZ CORPORATION - SITE « 5
DELAHARE RIVER 990160
MIDDLE ATLANTIC DEPTH 26
DATA LOCKED AFTER 4901
OT040202
11TRAIN
GON06
CO
34015 GLOUCESTER
39 47 15.0 075 20 50.3
/TYPA/AHBNT/NELL
NEH JERSEY
2 STORED B905Z7
XYZ CORPORATION - SITE t 6
OELAHARE RIVER 990160
MIDDLE ATLANTIC DEPTH 4
DATA LOCKED AFTER 4901
02040202
11TRAIN
r
DO
34015 GLOUCESTER
39 47 14.8 075 21 07.7
/TYP A/AHBNT/ME LL
NEH JERSEY
2 STORED 890527
XYZ CORPORATION - SITE • 7
DELAWARE RIVER 990160
MIDDLE ATLANTIC DEPTH 8
DATA LOCKED AFTER 4901
OZ04020Z
11TRAIN
GDM08
EO
34015 GLOUCESTER
NEH JERSEY
39 47 10.6 075 21 03.8 2 STORED 890527
/TYPA/AHBNT/HELL
XYZ CORPORATION - SITE • 6
DELAHARE RIVER 990160
MIDDLE ATLANTIC DEPTH 22
DATA LOCKED AFTER 4901
02040202
F-41
-------�
JATE 99/06/01
P6M= INDEX - VERSION OF MARCH iZ,
PAGE
AGENCY
PRIME STN NO
11TRAIN
GDH09
FO
ST-CO COUNTY STATE LOCAnON NAME
SECONDARY STATION NUMBERS MINOR BASIN BASIN CODE
LAT/LON6/PREC STORED DATE MAJOR BASIN DEPTH
STATION TYPE CODE
RIVER MILE I IF ) HYDRO UNI'
INDEX I PRESENT ) MILE POINT _.;
34015 GLOUCESTER_ MEM JERSEY XYZ CORPORATION - SITE • 9
DELAHARE RIVER 990160
39 47 06.6 075 21 04.2 2 STORED 890527 MIDDLE ATLANTIC DEPTH 15
/TYPA/AMBNT/HELL DATA LOCKED AFTER 4901
02040202
11TRAIN
GOH01
GO
34015 GLOUCESTER
NEH JERSEY
39 47 28.0 075 22 19.0 2 STORED 890513
/TYPA/MUN/AMBNT/KE LL/SUPPLY
PATTON TOHNSHIP MUNICIPAL tl
DELAHARE RIVER ZONE 2 020600
NORTH ATLANTIC DEPTH 202
DATA LOCKED AFTER 4901
07040202
11TRAIN
GOM02
HO
34015 GLOUCESTER
MEN JERSEY
39 45 35.0 075 20 54.0 2 STORED 890513
/TYPA/MUM/AHBNT/HELL/SUPPLY
BIG CITY HATER COMMISSION *2
DELAHARE RIVER ZONE 2 020600
NORTH ATLANTIC DEPTH 236
DATA LOCKED AFTER 4901
02040202
11TRAIN
GOM03
10
34015 GLOUCESTER
MEN JERSEY
39 46 08.0 075 21 35.0 Z STORED 890513
/TYPA/MUN/AMBNT/MELL/SUPPLY
BIG CITY HATER COMMISSION »
DELAHARE RIVER ZONE 2 020600
NORTH ATLANTIC DEPTH 345
DATA LOCKED AFTER 4901
02040202
END OF INDEX MODULE.
STATION DESCRIPTIONS PROCESSED :
F-42
-------�
f
4-
ENV1RONMENTAL PROTECTION AGENCY
STORE! SYSTEM
ScenarIo 5
Gloucester Co
New Jersey
RCRfl
PROJECTION - flLBERS EQUAL
SCflLE 1:18000
f
-------�
STORET RETRIEVAL GATE 89/Ob/Ol
SCENARIO 5 - GRADIENT OBSERVATIONS
/TYPA/AMBKT/NELL
PGM=RET
PAGE:
GDH04
39 47 10 .8 075 21 22.6 2
XYZ CORPORATION - SITE *
34015 MEN JERSEY
MIDDLE ATLANTIC
OELAMARE RIVER
11TRAIN 890527
0017 FEET DEPTH
GLOUCESTER
950160
02040202
DATE TIME
FROM OF
TO OAV
MEDIUM
SMK 7Z020
OR ELEV
DEPTH FEET AB
(FT) MSL
76/05/05
79/04/24
82/09/16
83/09/20
84/09/17
HATER
HATER
HATER
HATER
HATER
/TYPA/AHBNT/KELL
GOH05
39 47 11.9 075 21 06.4 2
XYZ CORPORATION - SITE • S
34015 NEN JERSEY
MIDDLE ATLANTIC
OELAMARE RIVER
11TRAIN 890527
0026 FEET DEPTH
GLOUCESTER
990160
02040202
DATE TIME
FROM OF
TO DAY MEDIUM
SMK 72020
OR ELEV
DEPTH FEET AB
I FT I MSL
75/11/13
78/03/22
78/06/06
7V04/24
82/09/10
83/09/19
84/09/17
HATER
HATER
HATER
HATER
HATER
HATER
HATER
F-44
-------�
STORE! RETRIEVAL DATE 89/06/01
SCENARIO 5 - GRADIENT OBSERVATIONS
'A/AMBNT/NELL
PGM=RET
PAGE:
GON06
39 47 15.0 075 20 50.I 2
XYZ CORPORATION - SITE • 6
34015 NEH JERSEY GLOUCESTER
MIDDLE ATLANTIC 990160
DELANARE RIVER
11TRAIN 890527 02040202
0004 FEET DEPTH
DATE TIME
FROM OF
TO DAY
MEDIUM
SMK 72020
OR ELEV
DEPTH FEET AB
I FT I MSL
76/05/05
78/03/22
78/06/06
79/04/24
82/09/16
83/09/16
84/09/14
HATER
HATER
HATER
HATER
HATER
HATER
HATER
GDH07
39 47 14.8 075 21 07.7 2
XYZ CORPORATION - SITE • 7
••A/AMBNT/HELL
34O15 MEN JERSEY
MIDDLE ATLANTIC
OELAHARE RIVER
11TRAIN 890527
0008 FEET DEPTH
GLOUCESTER
990160
02040202
DATE TIME
FROM OF
TO DAY
MEDIUM
SMK 72020
OR ELEV
DEPTH FEET AB
«FT1 HSL
78/03/22
78/06/06
79/04/24
82/06/15
83/09/21
83/12/09
84/03/12
84/06/14
84/09/20
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
F-45
-------�
STORET RETRIEVAL DATE 89/06/01
SCENARIO 5 - GRADIENT OBSERVATICMS
/TYPA/AMBNT/WELL
PGN=RET
PAGE:
GOH08
39 47 10.6 075 21 05.a 2
XYZ CORPORATION - SITE • 8
3*015 MEN JERSEY GLOUCESTER
MIDDLE ATLANTIC 990160
DELAHARE RIVER
IITRAIN 890527 02040202
0022 FEET DEPTH
DATE TIME
FROM OF
TO DAY MEDIUM
sm 72020
OR ELEV
DEPTH FEET AB
( FT) HSL
75/11/13
78/03/22
78/06/06
79/04/24
82/09/10
83/09/19
84/09/21
HATER
HATER
HATER
HATER
HATER
HATER
HATER
GON09
39 47 06.6 075 21 04.2 2
XYZ CORPORATION - SITE 8 9
/TYPA/AMBNT/HELL
34015 NEN JERSEY
KIDDLE ATLANTIC
DELAMARE RIVER
IITRAIN 890527
0015 FEET DEPTH
GLOUCESTER
990160
02040202
DATE TINE
FROM OF
TO DAY MEDIUM
SMK 72020
OR ELEV
DEPTH FEET AB
(FT) HSL
82/06/15
82/09/09
83/06/13
83/09/16
83/12/09
84/03/12
84/06/12
84/09/18
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
F-46
-------�
STORET
GDW04
39 47 10.8 075 21 22.6
XYZ CORPORATION - SITE
34015 NEW JERSEY
MIDDLE ATLANTIC
DELflWRRE RIVER
SCENARIO 5 - INCINERATOR PERMIT
4
GLOUCESTER
990160
X
o
i:
o
cc
o
\r>
CM
10
1 1 TRAIN
0017 FEET
890527
DEPTH
1972
02040202
1973 1974 1973 1976
1977
1978
1979
^
1980
1981
STARTING DflTE 70/6 /15
SAMPLE DATE
-------�
5TORET
GDW05
39 47 11.9 075 21 06.4
XYZ CORPORATION - SITE
34015 NEW JERSEY
MIDDLE ATLANTIC
DELAWARE RIVER
11 TRAIN 890527
0026 FEET DEPTH
SCENARIO 5 - INCINERATOR PERMIT
* 5
GLOUCESTER
990160
02040202
o
i:
z:
O
(£.
oo
O
IO
-------�
STORE!
GDW06
39 47 15.0 075 20 50.3
XYZ CORPORATION - SITE
34015 NEW JERSEY
MIDDLE ATLflNTIC
DELflWARE RIVER
MTRfllN 890527
0004 FEET DEPTH
U971 11972 119:3
SCENARIO 5 - INCINERATOR PERMIT
GLOUCESTER
990160
02040202
19T4
1975
1976
1979
1989
11981
x
o
31
O
(X.
_
in
>-
-------�
STORET
GDW07
39 47 14.8 075 21 07.7
XYZ CORPORATION - SITE
34015 NEW JERSEY
MIDDLE ATLANTIC
DELAWARE RIVER
11 TRAIN 890527
0008 FEET DEPTH
11971 19Z2_ 1973
SCENARIO 5 - INCINERATOR PERMIT
* 7
GLOUCESTER
990160
02040202
i
en
O
00
X
o
x:
o
cr:
o
O
ID
CM
o
ID
O
•z.
o
IT)
O
1974
1975
19T6
1977
1978
1979
1983
1981
STARTING DATE 70/6 /15
SAMPLE DATE
-------�
in
5TORET
GDW08
39 47 10.6 075 21 03.8
XYZ CORPORATION - SITE
34015 NEW JERSEY
MIDDLE ATLANTIC
DELAWARE RIVER
11 TRAIN 890527
0022 FEET DEPTH
SCENARIO 5 - INCINERATOR PERMIT
* 8
GLOUCESTER
990160
02040202
00
X
o "-
i:
s:
o
§ o-
s:
to
o
IT)
CM
£ „ -
I
> *^
1 —
O
0
O
-------�
tn
rv>
STORET
GDW09
39 47 06.6 075 21 04.2 2
X^Z CORPORATION - SITE * 9
34015 NEW JERSEY
MIDDLE ATLANTIC
DELAWARE RIVER
11 TRAIN 890527
0015 EEET DEPTH
SCENARIO 5 - INCINERATOR PERMIT
GLOUCESTER
990160
02040202
X
O •""
i;
S
O
O
»_ * >c
3:
tf>
in
^
»
-> ^
\-
•z.
0 <>j
O ~*
0
8
1971
1972
1973
1974
1975
1976
^
1977
1978
A^
"V
1979
-^ti
1980
1981
STARTING DATE 70/6 715
SAMPLE DATE
-------�
Scenario 6
RCRA
STATE PERSPECTIVE
OVERVIEW
A hazardous waste generator who is in good standing with the state
RCRA program office currently stores cyanide plating bath solution in
above ground tanks for a maximum of 30 days before the cyanide is
pumped out for treatment/reclamation. Due to operation changes, the
facility will be processing the bath solution in lagoons on-site and
reclaiming lagoon sediments. This requires a treatment, storage, and
disposal (TSD) permit, which must be obtained through the State
office. The facility is located in a portion of the State which
relies heavily on ground water. Coincidently, nitrate contamination
has been a problem in the past emanating from a sewage lift station
not far from the site. The state monitors water quality in area wells
on a monthly basis. The State is gathering data to support a
recommendation on whether or not to approve TSD status. The facility
and lift station are at 38°02t50" - 079003'38".
OBJECTIVE
To determine, based on historical levels of indicators, if ground-
water contamination is likely to result from long-term storage of
cyanide at a RCRA facility.
SCENARIO LOCATION
Augusta County, Virginia
DATA SOURCE
Data used for the scenario were generated for demonstration purposes.
STORET QUESTIONS/OUTPUT
1. Where are the area monitoring and supply wells?
MAP: LOG; Location map of area supply and monitoring wells.
TABLE: INDEX; header information for wells in lat/lon polygon.
2. What was the earliest instance of elevated nitrate
concentration in area wells? Did nitrates appear in other
area wells? When? Which wells showed the highest
concentrations? Is there cyanide contamination in the vicinity of the
facility?
TABLE: RET: chronological readings of nitrate levels in area wells,
and detects of cyanide.
PLOT; Nitrate concentrations vs time.
SCENARIO 6 RESULT
The state learned that nitrate readings indicated area water supply
would be affected rather quickly from a spill or leak at the
facility. The last 6 months of monitoring data also indicated that
cyanide may already have leaked from the facility.
F-53
-------�
RCRA
STATE PERSPECTIVE
DECISION PATH
QUERY STORET FOR
LOCATION AND TYPE
OF AREA WELLS
EVALUATE IF FACILITY HAS
ALREADY CONTRIBUTED TO
AREA CONTAMINATION
QUERY STORET FOR
HISTORICAL NITRATE
CONTAMINATION LEVELS
DETERMINE APPROXIMATE
TRAVEL TIMES AND
CONCENTRATIONS
DECIDE IF SURFACE
IMPOUNDMENT WILL BE A
SIGNIFICANT THREAT TO
GROUND-WATER QUALITY
H
OFFICE OF GROUND-WATER PROTECTION
OFFICE OF INFORMATION RESOURCES MANAGEMENT
SCENARIO 6 FOR STORET
F-54
-------�
tn
OHtt (9/M/I6
-------�
STORET RETRIEVAL DATE 69/06/16
PGM=LOC - VERSION OF FEB 28,1985
• 101
Facility
AO
BO
CO
DO
EO
FO
GO
HO
10
JO
KO
LO
HO
11TRAIN GDWVA001
11TRAIN GOHVA002
11TRAIN GOHVA003
11TRAIN GDHVA004
11TRAIN GDHVAOOS
11TRAIN GOHVA006
11TRAIN GDHVA007
11TRAIN GOHVA008
11TRAIN GOHVA009
11TRAIN GDHVA010
11TRAIN GDHVA011
11TRAIN GDHVA012
11TRAIN GDHVA013
38
38
38
38
38
38
38
38
38
38
38
38
38
05
02
02
03
04
05
05
05
05
05
06
06
06
00.
53.
59.
56.
32.
33.
35.
45.
47.
52.
03.
39.
46.
7
0
5
0
6
0
0
0
0
0
0
a
7
079
079
079
079
079
079
079
079
079
079
079
079
079
03
03
03
02
05
01
01
02
03
05
04
02
04
38.
35.
11.
50.
07.
34.
47.
15.
02.
07.
OS.
50.
37.
1
0
2
0
2
0
0
0
0
0
0
6
6
1
4
1
4
1
4
4
4
4
4
4
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
58 2 50.0 79 3 38.0
HYPOTHETICAL LANDFILLS, INC.
MONITORING HELL
MONITORING HELL
MONITORING HELL
MONITORING HELL
MONITORING HELL
MONITORING HELL
MONITORING HELL
MONITORING HELL
MONITORING NELL
MONITORING HELL
MONITORING HELL
MONITORING HELL
2
5
4
5
6
7
a
9
10
11
12
13
51015
51015
51015
51015
51015
51015
51015
51015
51015
51015
51015
51015
51015
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
VIRGINIA
AUGUSTA
AUGUSTA
AUGUSTA
AUGUSTA
AUGUSTA
AUGUSTA
AUGUSTA
AUGUSTA
AUGUSTA
AUGUSTA
AUGUSTA
AUGUSTA
AUGUSTA
END OF FOREGROUND ECHO
I
tn
-------�
STORET RETRIEVAL DATE 89/06/16 PGM=INOEX - VERSION OF MARCH 22, 1988
t *
* Scenario 6 *
» Monitoring Site Descriptions »
+ «
PAGE
AGENCY
PRIME STN NO
11TRAIN
GDMVA001
ST-CO COUNTY STATE
SECONDARY STATION NUMBERS
LAT/LONG/PREC STORED DATE
STATION TYPE CODE
RIVER MILE I IF I
INDEX I PRESENT I
LOCATION NAME
MINOR BASIN
MAJOR BASIN
BASIN CODE
DEPTH
AO
51015 AUGUSTA
VIRGINIA
38 05 00.7 079 03 38.1 1 STORED 890527
/TYPA/AMBNT/HELL
HYDRO UNITtSEG
MILEPOINT ON?
HYPOTHETICAL LANDFILLS, INC.
14-POTOMAC-SHENDOAH 021400
02-NORTH ATLANTIC DEPTH 0
DATA LOCKED AFTER 4901
02070005
11TRAIN
GDHVA002
BO
51015 AUGUSTA
38 02 53.0 079 03 35.0
/TYPA/AMBNT/HELL
VIRGINIA
4 STORED 890527
MONITORING HELL f Z
14-POTOMAC-SHENDOAH
02-NORTH ATLANTIC DEPTH 0
DATA LOCKED AFTER 4901
021400
02070005
11TRAIN
GONVA003
CO
51015 AUGUSTA
38 OZ 59.5 079 03 11.2
^TYPA/AMBNT/HELL
VIRGINIA
1 STORED 890527
MONITORING HELL t 3
POTOMAC RIVER
NORTH ATLANTIC DEPTH 0
DATA LOCKED AFTER 4901
021400
02070005
11TRAIN
GOHVA004
DO
51015 AUGUSTA
38 03 56.0 079 02 50.0
/TYPA/AMBNT/HELL
VIRGINIA
4 STORED 890527
MONITORING HELL • 4
14-POTOMAC-SHENDOAH
02-NORTH ATLANTIC DEPTH 0
DATA LOCKED AFTER 4901
021400
02070005
11TRAIN
GDWVA005
EO
51015 AUGUSTA
38 0
-------�
STORET RETRIEVAL DATE 89/06/16
PGM=INOEX - VERSION OF MARCH 22, 1988
PAGE
«-- —
» Scenario 6
* Monitoring Site Descriptions
AGENCY
PRIME STN NO
11TRAIN
GDHVA007
GO
11TRAIN
GDHVA008
-n
i
en
00 HO
11TRAIN
GDHVA009
10
11TRAIN
GOHVA010
JO
11TRAIN
GDHVA011
KO
11TRAIN
GOHVA012
ST-CO COUNTY STATE
SECONDARY STATION NUMBERS
LAT/LONG/PREC STORED DATE
STATION TYPE CODE
RIVER MILE 1 IF 1
INDEX 1 PRESENT 1
51015 AUGUSTA
38 05 35.0 079 01
/TYPA/AMBNT/HELL
51015 AUGUSTA
38 05 45.0 079 02
/TYPA/AMBNT/HELL
51015 AUGUSTA
38 05 47.0 079 03
/TYPA/AMBNT/HELL
I
51015 AUGUSTA
38 05 52.0 079 05
/TYPA/AMBNT/HELL
51015 AUGUSTA
38 06 03.0 079 04
/TYPA/AMBNT/HELL
51015 AUGUSTA
VIRGINIA
47.0 4 STORED 890527
VIRGINIA
15.0 4 STORED 890527
VIRGINIA
02.0 4 STORED 890527
VIRGINIA
07.0 4 STORED 890527
VIRGINIA
05.0 4 STORED 890527
VIRGINIA
*
t
LOCATION NAME
MINOR BASIN BASIN CODE
MAJOR BASIN DEPTH
HYDRO UNIT+SEG
MILEPOINT ON?
MONITORING HELL * 7
14-POTOMAC-SHENDOAH 021400
02 -NORTH ATLANTIC DEPTH 0
DATA LOCKED AFTER 4901
02070005
MONITORING HELL • 8
14-POTOMAC-SHENDOAH 021400
02-NORTH ATLANTIC DEPTH 0
DATA LOCKED AFTER 4901
02070005
MONITORING HELL • 9
14-POTOMAC-SHENDOAH 021400
02-NORTH ATLANTIC DEPTH 0
DATA LOCKED AFTER 4901
02070005
MONITORING HELL * 10
14-POTOMAC-SHENDOAH 021400
02-NORTH ATLANTIC DEPTH 0
DATA LOCKED AFTER 4901
02070005
MONITORING HELL « 11
14-POTOMAC-SHENDOAH 021400
02-NORTH ATLANTIC DEPTH 0
DATA LOCKED AFTER 4901
02070005
MONITORING HELL • 12
14-POTOMAC-SHENDOAH 021400
38 06 39.8 079 02 50.6
/TYPA/AMBNT/HELL
1 STORED 890527
02-NORTH ATLANTIC DEPTH
DATA LOCKED AFTER 4901
02070005
LO
-------�
STORET RETRIEVAL DATE 89/06/16
PGM=INDEX - VERSION OF MARCH 22, 1988
PAGE
Scenario 6
Monitoring Site Descriptions
AGENCY
PRIME STN NO
11TRAIN
GDNVA013
ST-CO COUNTY STATE
SECONDARY STATION NUMBERS
LAT/LONG/PREC STORED DATE
STATION TYPE CODE
RIVER MILE I IF I
INDEX I PRESENT I
51015 AUGUSTA VIRGINIA
38 06 46.7 079 04 37.6 1 STORED 890S27
/TYPA/AMBNT/WELL
LOCATION NAME
MINOR BASIN
MAJOR BASIN
BASIN CODE
DEPTH
HYDRO UNIT+SEG
MILEPOINT ON?
MONITORING NELL • 13
14-POTOMAC-SHENDOAH
02-NORTH ATLANTIC DEPTH 0
DATA LOCKED AFTER 4901
021400
02070005
MO
END OF INDEX MODULE.
STATION DESCRIPTIONS PROCESSED
13
tn
to
-------�
STOREr RETRIEVAL DATE 89/06/16
GDHVA002
38 OZ 55.0 079 03 35.0 4
HONITOHING WELL * Z
PGM=RET
PAGE.
TI
1
Cfi
o
51015 VIRGINIA
OZ-NORTH ATLANTIC
14-POTOMAC-SHENDOAH
11TRAIN 8905Z7
0000 fEET DEPTH
DATE TIME
FROM OF
TO DAY MEDIUM
88/01/11 HATER
88/02/08 HATER
88/03/14 HATER
88/04/16 HATER
88/05/15 HATER
88/06/20 HATER
88/07/17 HATER
88/08/18 HATER
88/09/20 HATER
88/10/13 HATER
88/11/10 HATER
GDWVA003
38 OZ 59. 5 079 03 11.2
MONITORING HELL Yt 3
51015 VIRGINIA
NORTH ATLANTIC
POTOMAC RIVER
11TRAIN 890527
0000 FEET DEPTH
DATE TIME
FROM OF
TO DAY MEDIUM
88/01/17 HATER
88/02/08 HATER
88/03/14 HATER
88/04/16 HATER
88/05/15 HATER
88/06/20 HATER
88/07/17 HATER
88/08/18 HATER
88/09/20 HATER
88/10/13 HATER
aa/ii/ir HATER
AUGUSTA
021400
02070005
SMK 71850
OR NITRATE
DEPTH TOT-N03
IFTI MG/L
17 0
15.0
33.0
65.0
65.0
59.0
50.0
48.0
47.0
50.0
49.0
1
AUGUSTA
021400
02070005
SMK 71850
OR NITRATE
DEPTH TOT-NOS
IFTI MG/L
6.0
5.0
10.0
23.0
45.0
44.0
39.0
47.0
41.0
40.0
42.0
00720
CYANIDE
CN-TOF
MG/L
.007
.001
.002
.004
.029
.110
00720
CYANIDE
CN-TOT
MG/L
Scenario 6
Nitrate and Cyanide Monitoring
/TYPA/AMBNT/NELL
Scenario 6
Nitrate and Cyanide Monitoring
/TYPA/AMBNT/KELL
-------�
STORET RETRIEVAL DATE 89/06/16
GDHVA004
36 05 56.0 079 02 50.0 4
MONITORING HELL » 4
51015 VIRGINIA AUGUSTA
02-NORTH ATLANTIC 031<*00
1 <• -POTOMAC -SHENDOAH
11TRAIN 890527 02070005
0000 FEET DEPTH
PGM=RET
PAGE:
Scenario 6
Nitrate and Cyanide Monitoring
/TYPA/AMBNT/WELL
DATE
FROM
TO
88/01/17
88/02/08
88/03/14
88/04/16
88/05/15
88/06/20
88/07/17
88/08/18
88/09/20
88/10/13
88/11/10
TIME
OF
DAY MEDIUM
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
SHK 71850
OR NITRATE
DEPTH TOT-N03
1 FT 1 MG/L
3.5
5.0
7.0
4.0
10.0
20.0
18.0
17.0
15.0
19.0
20.0
00720
CYANIDE
CN-TOT
MG/L
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STOHET RETRIEVAL DATE 89/06/16 - PGM=PLOT - VERSION OF MAR. 1989
BEGIN PLOT ROUTINE FOR LJH70
TAPE INITIALIZED : 6/16/89 10:12:15.47 AM JES 1470 ACCT A014 ROOM 0 PRI 02 /
1 1.4 1 1100000000 IXF 1 2 10 8.9E+10 8.9E«10 8.9EUO 8.9E«10 8.9E*10 8.9E«10 8.9E»10 8.9E«10 8.9E«10 8.9E+10 1 0
REGRESSION LINE REQUESTED.
HEAD : Scenario 6
HEAD : Nitrate and Cyanide Monitoring
PTITLE : Vicinity of Hazardous iiaste Generator
PLOT USING FACT=1.4 MILL PRODUCE PLOT ABOUT 7.7 INCHES HIGH
1 71850 NITRATE TOT -NO 3 MG/L GDHVA002
11 POINTS SLOPE 32.438 UNITS/YEAR INTCPT 31.425
2 71850 NITRATE TOT-N03 MG/L GDHVA003
11 POINTS SLOPE 49.989 UNITS/YEAR INTCPT 9.676
3 71850 NITRATE TOT-N03 MG/L GDMVA004
11 POINTS SLOPE 21.424 UNITS/YEAR INTCPT 3.413
4 00720 CVANIDE CN-TOT MG/L GDHVAOOZ
6 POINTS SLOPE 0.211 UNITS/YEAR INTCPT -0.016
ALL PARAMETERS PLOTTED
END PLOT ROUTINE FOR LJM70
TAPE CLOSED : 6/16/89 10:12:18.30 AM JES 1470 ACCT A014 ROOM 0 PRI 02/
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STORE!
GDWVA002
38 02 53.0 079 03
MONITORING WELL *
51015 VIRGINIA
02-NORTH ATLANTIC
I 4-POTOMAC-SHENDOAH
11TRRIN 890527
FEET DEPTH
Vicinity of Hazardous Waste Generat
or
35
2
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AUGUSTA
021400
02070005
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STARTING DATE 88/1 711
SAMPLE DATE
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STORE!
GDWVAei03
38 02 59.5 079 03
MONITORING WELL *
51015 VIRGINIA
NORTH ATLANTIC
POTOMAC RIVER
UTRfllN 890527
0000 FEET DEPTH
11
3
2 t
Vicinity of Hazardous Waste Generator
AUGUSTA
021400
02070005
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GDWVA004
38 03 56.0 079 02 50.0
MONITORING WELL * 4
51015 VIRGINIA
02-NORTH ATLANTIC
14-POTOMAC-SHENOOAH
11 TRAIN 890527
000® FEET DEPTH
Vicinity of
AUGUSTA
021400
02070005
laz.
Waste Generator
ID
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STORET
GDWVA002
38 02 53.0 079 03 35.0 4
MONITORING WELL * 2
51015 VIRGINIA AUGUSTA
02-NORTH ATLANTIC 021400
14-POTOMAC-SHENDOAH
11 TRAIN 890527 02070005
0000 FEET DEPTH
Vicinity of Hazardous Waste Generator
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Scenario 7
CERCLA
EPA REGIONAL PERSPECTIVE
OVERVIEW
An EPA Superfund Site Manager is responsible for a former
electroplating facility which has contaminated surrounding ground
water with inorganic compounds including zinc (parameter 1090),
cadmium (parameter 1025), and chromium (parameter 1030). The
compounds are present in concentrations in excess of Maximum
Contaminant Levels (MCLs). Since inorganics removal is going to be
necessary, the manager needs to establish cleanup goals for the
contaminants in question. For those contaminants which have a
potential risk to human health, cleanup goals will be set as close to
background as possible. It has been determined that the ground-water
gradient moves from northwest to southeast for the area under study.
OBJECTIVE
To establish cleanup goals which meet or exceed MCLs in accordance
with regional ambient conditions as indicated by upgradient wells.
SCENARIO LOCATION
Butte County, California. Site coordinates are 39°45I00"-121°51I0011.
DATA SOURCE
Data used for the scenario reside in STORET.
STORET QUESTIONS/OUTPUT
1. Where are the upgradient (ambient) wells?
TABLE: INDEX; Station descriptor information on ground-water
wells within a lat/lon polygon.
MAP: LOG: ground water monitoring locations within a lat/lon
polygon.
2. What are the concentrations of these inorganics in the
ambient wells? Do any exceed MCLs?
TABLE: RET; Historical concentrations of the three inorganics in
area wells.
3. What is the mean concentration of these inorganics for the
sampling period to define background?
TABLE: INVENT; mean concentrations of the inorganics at selected
wells for the sampling period.
SUPPORTING INFORMATION
Maximum Contaminant Levels for zinc (none), cadmium (10 ug/1), and
chromium (50 ug/1).
SCENARIO 7 RESULT
Based on all information gathered the Manager determined the ambient
concentrations of the 3 inorganics and recommended appropriate cleanup
goals.
F-67
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CERCLA
EPA REGIONAL PERSPECTIVE
DECISION PATH
DETERMINE MCLs FOR
SUBJECT CONTAMINANTS
AND COMPARE THESE
LIMITS IN STORET
RETRIEVAL
QUERY STORET FOR
AMBIENT WELLS
THAT ARE IN THE
AFFECTED AQUIFERS
RETRIEVE INORGANIC PARAMETERS
FOR THESE WELLS AND FLAG
WELLS WITH CONCENTRATIONS
OF INORGANICS THAT EXCEED MCLS
DETERMINE MEAN
CONCENTRATIONS FOR
USE AS BACKGROUND
SELECT CLEANUP
GOALS
OFFICE OF GROUND-WATER PROTECTION
OFFICE OF INFORMATION RESOURCES MANAGEMENT
SCENARIO 7 FOR STORET
F-68
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STORET RETRIEVAL DATE 89/06/02 PGM=INDEX - VERSION OF MARCH 22, 1988
Scenario 7 - Butte Couity Calif.
Inorganic Contanination of GrouiaVa'tar
PAGE
« ST-CO COUNTY STATE
PK JTN NO SECONDARY STATION NUMBERS
LAT/LONG/PREC STORED DATE
STATION TYPE CODE .
RIVER MILE I IF I
INDEX I PRESENT )
LOCATION NAME
MINOR BASIN
MAJOR BASIN
BASIN CODE
DEPTH
HYDRO UNIT+SEG
MILEPOINT ON?
Z1CAL-Z 06007 BUTTE
Z2N/OIE-22A01 M HNE220122A01
39 45 00.0 121 51 00.0
/TYPA/AMBNT/HELL
AO
CALIFORNIA
5 STORED 780420
LAT AND LONG CALCULATED FROM TONNSHIP AND RANGE
SACRAMENTO RIVER 140900
CALIFORNIA DEPTH 0
DATA LOCKED FOR DAYS
18020103 HQ
21CAL-2 06007 BUTTE
22N/01E-22F01 M MNE220122F01
39 45 00.0 1Z1 51 00.0
/TYPA/AMBNT/HELL
BO
CALIFORNIA
5 STORED 780420
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
SACRAMENTO RIVER 140900
CALIFORNIA DEPTH 0
DATA LOCKED FOR DAYS
18020103 HQ
21CAL-2 06007 BUTTE
22N/01E-22H01 M MNE220122H01
39 45 00.0 121 51 00.0
/TYPA/AMBNT/HELL
CALIFORNIA
5 STORED 780420
LAT AND LONG CALCULATED FROM TOUCHIP AHO RANGE
SACRAMENTO RIVER 140900
CALIFORNIA DEPTH 0
DATA LOCKED FOR DAYS
18020103 HQ
21CAL-2 06007 BUTTE
22N/D1E-22P01 M HNE22012ZP01
39 45 00.0 121 51 00.0
/TYPA/AMBNT/HELL
00
CALIFORNIA
5 STORED 780420
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
SACRAMENTO RIVER 140900
CALIFORNIA DEPTH 0
DATA LOCKED FOR DAYS
18020103 HQ
21CAL-2 06007 BUTTE
22N/01E-22Q01 M MNE22012ZQ01
39 45 00.0 121 51 00.0
/TYPA/AMBNT/HELL
EO
CALIFORNIA
5 STORED 780420
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
SACRAMENTO RIVER 140900
CALIFORNIA DEPTH 0
DATA LOCKED FOR DAYS
18020103 HQ
F-69
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TORET RETRIEVAL DATE 89/06/02 PGM=INDEX - VERSION OF MARCH 22. 1988
Scenario 7 - Butte Cointy Calif.
Inorganic Contamination of GrounoViater
PAGE 2
.GENCY
•RIME STN NO
ST-CO COUNTY STATE
SECONDARY STATION NUMBERS
LAT/LONG/PREC
STATION TYPE CODE
STORED DATE
RIVER MILE
INDEX
IF
I
I PRESENT
CALIFORNIA
:1CAL-3G 06007 BUTTE
:2N/01E-22A01 M
39 45 00.0 121 51 00.0 5 STORED 810725
/TYPA/MUN/INTAKE/AMBNT/HELL/SUPPLY
LOCATION NAME
MINOR BASIN
MAJOR BASIN
BASIN CODE
DEPTH
HYDRO UNIT+SEG
MILEPOINT ON?
= = = = = = = = =
04-002 HELL 19-01
SACRAMENTO RIVER
CALIFORNIA
140900
DEPTH 0
18020103 HQ
11CAL-3G 06007 BUTTE CALIFORNIA
'ZN/01E-22F01 M
39 45 00.0 121 51 00.0 5 STORED 810725
/TYPA/MUN/INTAKE/AMBNT/HE LL/SUPPLY
>0
04-002 HELL 17-01
SACRAMENTO RIVER
CALIFORNIA
140900
DEPTH 0
18020103 HQ
UCAL-3G 06007 BUTTE CALIFORNIA
:2N/01E-22H01 M
39 45 00.0 121 51 00.0 5 STORED 810725
/TYPA/MUN/INTAKE/AMBNT/HELL/SUPPLY
04-002 HELL 14-01
SACRAMENTO RIVER
CALIFORNIA
-10
140900
DEPTH 0
18020103 HO
21CAL-3G 06007 BUTTE CALIFORNIA
22N/01E-22P01 M
39 45 00.0 121 51 00.0 5 STORED 810725
/TYPA/MUN/INTAKE/AMBNT/HELL/SUPPLY
04-002 HELL 21-01
SACRAMENTO RIVER
CALIFORNIA
10
140900
DEPTH 0
18020103 HQ
21CAL-3G
22N/01E-2ZQ01 M
06007 BUTTE
CALIFORNIA
39 45 00.0 121 51 00.0 S STORED 810725
/TYPA/MUN/INTAKE/AMBNT/HELL/SUPPLY
JO
04-002 HELL 08-01
SACRAMENTO RIVER
CALIFORNIA
140900
DEPTH 0
18020103 HQ
F-70
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STORET RETRIEVAL DATE 89/06/02 PGM=INDEX - VERSION OF MARCH
Scenario 7 - Butte Cmnty Calif.
Inorganic Contamination of GroundMater
PAGE
t ST-CO COUNTY STATE
Pk. . STN NO SECONDARY STATION NUHBERS
LAT/LONG/PREC STORED DATE
STATION TYPE CODE .
RIVER MILE ( IF )
INDEX I PRESENT )
LOCATION NAME
MINOR BASIN
MAJOR BASIN
BASIN CODE
DEPTH
HYDRO UNIT+SEG
MILEPOINT ON'
21CAL-2 06007 BUTTE
Z2N/01E-Z2D01 M HNE220122D01
39 45 00.0 121 52 00.0
/TYPA/AMBNT/HELL
KO
= = = =
= = = = s
= = = = =
CALIFORNIA
5 STORED 760420
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
SACRAMENTO RIVER 140900
CALIFORNIA DEPTH 0
DATA LOCKED FOR DAYS
18020103 HQ
Z1CAL-3G 06007 BUTTE CALIFORNIA
22N/01E-22001 M
39 45 00.0 121 52 00.0 5 STORED 810725
/TYPA/MUN/INTAKE/AMBNT/NELL/SUPPLY
LO
04-002 HELL 40-01
SACRAMENTO RIVER
CALIFORNIA
140900
DEPTH
18020103 HQ
21CAL-2 06007 BUTTE
22N/01E-21M01 H MNE220121M01
39 45 00.0 121 53 00.0
/TYPA/AMBNT/HELL
CALIFORNIA
5 STORED 780420
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
SACRAMENTO RIVER 140900
CALIFORNIA DEPTH 0
DATA LOCKED FOR DAYS
18020103 HQ
21CAL-3G 06007 BUTTE CALIFORNIA
22N/01E-19E01 M
39 45 00.0 121 53 00.0 5 STORED 810725
/TYPA/HUN/INTAKE/AMBNT/HELL/SUPPLY
NO
04-002 NELL 26-01
SACRAMENTO RIVER
CALIFORNIA
140900
DEPTH
18020103 HQ
21CAL-3G 06007 BUTTE CALIFORNIA
22N/01E-21M01 M
39 45 00.0 121 53 00.0 5 STORED 6X0725
/TYPA/MUN/INTAKE/AMBNT/HE L L/SUPPLY
00
04-002 HELL 47-01
SACRAMENTO RIVER
CALIFORNIA
140900
DEPTH
18020103 HQ
F-71
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STORET RETRIEVAL DATE 89/06/02 PGM=INDEX - VERSION OF MARCH 22, 1988
Scenario 7 - Butte Ccxnty Calif.
Inorganic Contamination of GroinoViater
PAGE
AGENCY ST-CO COUNTY STATE
PRIME STN NO SECONDARY STATION NUMBERS
LAT/LONG/PREC STORED DATE
STATION TYPE CODE -
RIVER MILE I IF )
INDEX I PRESENT )
21CAL-3G 06007 BUTTE CALIFORNIA
22N/01E-15L01 M
39 45 33.0 121 51 05.0 2 STORED 820313
/TYPA/MUN/INTAKE/AMBNT/NELL
LOCATION NAME
MINOR BASIN
MAJOR BASIN
BASIN CODE
DEPTH
HYDRO UNIT+SEG
MILEPOINT ON?
PO
04-002 HELL NO. 52-01
SACRAMENTO RIVER
CALIFORNIA
140900
DEPTH 0
18020103 HQ
11ZHRD 06007 BUTTE
394540121520601
39 45 40.0 121 52 06.0
/TYPA/AHBNT/NELL
CALIFORNIA
2 STORED 780228
022N001E16K03M
DEPTH 0
DATA LOCKED FOR
18020008
DAYS
21CAL-3G 06007 BUTTE CALIFORNIA
22N/01E-15C04 M
39 45 57.0 121 51 22.0 3 STORED 860913
/TYPA/MUN/INTAKE/AMBNT/HELL
RO
04-0040 EAST NELL
SACRAMENTO RIVER
CALIFORNIA
140900
DEPTH
18020103
21CAL-2 06007 BUTTE
22N/01E-10R01 M HNE220110R01
39 46 00.0 121 51 00.0
/TYPA/AMBNT/NE LL
SO
CALIFORNIA
5 STORED 780420
LAT AND LONG CALCULATED FROM TOWNSHIP AND RANGE
SACRAMENTO RIVER 140900
CALIFORNIA DEPTH 0
DATA LOCKED FOR DAYS
18020103 HQ
21CAL-2 06007 BUTTE
22N/01E-15B01 M MNE220115B01
39 46 00.0 121 51 00.0
/TYPA/AMBNT/HELL
TO
CALIFORNIA
5 STORED 780420
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
SACRAMENTO RIVER 140900
CALIFORNIA DEPTH 0
DATA LOCKED FOR DAYS
18020103 HQ
F-72
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5TORET RETRIEVAL DATE 89/06/02 PGM=INDEX - VERSION OF MARCH 22, 1988
Scenario 7 - Butte County Calif.
Inorganic Contamination of Groundwater
PAGE
AC ST-CO COUNTY STATE
PR1,._ ->TN NO SECONDARY STATION NUMBERS
LAT/LONG/PREC STORED DATE
STATION TYPE CODE -
RIVER MILE I IF )
INDEX I PRESENT )
LOCATION NAME
MINOR BASIN
MAJOR BASIN
BASIN CODE
DEPTH
HYDRO UNIT+SEG
MILEPOINT ON?
21CAL-2 06007 BUTTE
22N/01E-15L01 M MNE220115L01
39 46 00.0 121 51 00.0
/TYPA/AMBNT/HELL
UO
CALIFORNIA
5 STORED 780*20
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
SACRAMENTO RIVER 140900
CALIFORNIA DEPTH 0
DATA LOCKED FOR DAYS
18020103 KQ
UCAL-3G 06007 BUTTE CALIFORNIA
22N/01E-15B01 M
39 46 00.0 121 51 00.0 5 STORED 810725
/TYPA/MUN/INTAKE/AMBNT/HELL/SUPPLY
VO
04-002 HELL 30-01
SACRAMENTO RIVER
CALIFORNIA
140900
DEPTH
18020103 HQ
21CAL-2 06007 BUTTE
22N/01E-16H01 M MNE220116H01
39 46 00.0 121 52 00.0
/TYPA/AnBNT/MELL
HO
CALIFORNIA
5 STORED 780420
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
SACRAMENTO RIVER 140900
CALIFORNIA DEPTH 0
DATA LOCKED FOR DAYS
18020103 HQ
21CAL-3G 06007 BUTTE CALIFORNIA
22N/01E-16H01 M
39 46 00.0 121 52 00.0 S STORED 810725
/TYPA/MUN/INTAKE/AMBNT/HELL/SUPPLY
XO
04-002 HELL 27-01
SACRAMENTO RIVER
CALIFORNIA
140900
DEPTH
18020103 HQ
F-73
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3TORET RETRIEVAL DATE 6VG6/Oe PGM=IND£K - VERSION OF MARCH ZZ, 1988
Scenario 7 - Butte Cotnty Calif.
Inorganic Contamination of GrocndViater
PAGE
1GENCY ST-CO COUNTY STATE
3RIME STN NO SECONDARY STATION NUMBERS
LAT/LONG/PREC STORED DATE
STATION TYPE CODE .
RIVER NILE I IF I
INDEX I PRESENT )
LOCATION NAME
MINOR BASIN
MAJOR BASIN
BASIN CODE
DEPTH
HYDRO UNIT+SEG
MILEPOINT ON?
21CAL-2 06007 BUTTE
22N/01E-09M01 M MNE2Z0109H01
39 46 00.0 121 S3 00.0
/TYPA/AMBNT/MELL
YD
CALIFORNIA
5 STORED 780420
LAT AND LOMG CALCULATED FROM TOHNSHIP AND RANGE
SACRAMENTO RIVER 140900
CALIFORNIA DEPTH 0
DATA LOCKED FOR DAYS
16020103 HQ
Z1CAL-2 06007 BUTTE
22N/01E-09N01 M MNE220109N01
39 46 00.0 121 53 00.0
/TYPA/AMBNT/MELL
ZO
CALIFORNIA
5 STORED 780420
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
SACRAMENTO RIVER 140900
CALIFORNIA DEPTH 0
DATA LOCKED FOR DAYS
16020103 HQ
END OF INDEX MODULE.
STATION DESCRIPTIONS PROCESSED
Z6
F-74
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i
>IE (9/I&/OI
-------�
STORE! RETRIEVAL DATE 89/06/01
Scenario 7 - Butte County Calif.
Inorganic Contamination of GrounoVater
/TYPA/AMBNT/NELL
PGM=RET
PAGE:
22N/01E-22A01 M MNE220122A01
39 45 00.0 121 51 00.0 5
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-2 780420 HQ 18020103
0000 FEET DEPTH
DATE TIKE
FROM OF
TO DAY
MEDIUM
SMK 01090 01025 010X0
OR ZINC CADMIUM CHROMIUM
DEPTH ZN.DISS CD.DISS CR.DISS
I FT I UG/L UG/L UG/L
73/10/18
74/04/22
75/02/11
76/03/03
77/06/03
77/06/16
78/07/25
81/07/06
85/12/10
HATER
MATER
HATER
HATER
HATER
HATER
1345 HATER
1320 MATER
1500 HATER
20
10
10
10
30
10
0
70
rio 7 - Butte County Calif.
Inorganic Contamination of Ground>at«r
/TYPA/AMBNT/MELL
22N/01E-22F01 M MNE220122F01
39 45 00.0 1.21 51 00.0 5
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-2 780420 HQ 18020103
0000 FEET DEPTH
DATE TIME
FROM OF
TO DAY
MEDIUM
SMK 01090 01025 01030
OR ZINC CADMIUM CHROMIUM
DEPTH ZNtDISS CD.DISS CR.DISS
I FT I UG/L UG/L UG/L
74/09/11
75/09/24
76/07/13
77/07/24
78/06/12
80/04/09
82/05/12
86/07/08
HATER
HATER
HATER
HATER
1345 HATER
1300 HATER
1245 HATER
0855 HATER
0
50
20
10
80
30
0
0
F-76
-------�
STORET RETRIEVAL DATE 89/06/01
Scenario 7 - Butte County Calif.
I——*inic Contanination of Groundwater
/TYPA/AMBNT/HELL
PGM=RET
PAGE:
22N/01E-22H01 M MNEZZ01ZZH01
39 45 00.0 121 51 00.0 5
LAT AND LONG CALCULATED FROM TONNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-2 780*20 HO 18020103
0000 FEET DEPTH
DATE TIME
FROM OF
TO DAY MEDIUM
SMK 01090 01025 01030
OR ZINC CADMIUM CHROMIUM
DEPTH ZN.DISS CO.DISS CR.DZSS
(FT) UG/L UG/L UG/L
73/06/22
74/0 7/ZS
75/06/03
76/06/15
77/04/28
77/05/09
HATER
KATER
HATER
HATER
HATER
HATER
81/06/05 0700 HATER
20
120
20
50
30
10
Scenario 7 - Butto County Calif.
Inorganic Contaaination of Groundwater
/TYPA/AMBNT/HELL
22N/01E-22P01 M MNE220122P01
39 45 00.0 121 51 00.0 5
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-2 780420 HQ 18020103
0000 FEET DEPTH
DATE TIME
FROM OF
TO DAY
MEDIUM
SMK 01090 01025 01030
OR ZINC CADMIUM CHROMIUM
DEPTH ZN,DISS CD,DXSS CR,DISS
(FT I UG/L UG/L US/L
74/07/25
75/06/03
76/06/15
77/07/24
78/07/25
80/08/04
82/10/08
86/05/07
86/05/07
HATER
HATER
HATER
HATER
1155 HATER
1300 HATER
1705 HATER
1415 HATER
1515 HATER
70
20
100
10
20
40
310
80
80
10
10
F-77
-------�
STORE! RETRIEVAL DATE 89/06/01
Scenario 7 - Butte County Calif.
Inorganic Contamination of GrounAoter
/TYPA/AMBNT/HE LL
PGM=RET
PAGE:
22N/01E-22Q01 H MNEZZ01ZZQ01
39 45 00.0 121 51 00.0 5
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-Z 780420 HtJ 18020103
0000 FEET DEPTH
DATE TIME
FROM OF
TO DAY
MEDIUM
SMK 01090 01025 010SO
OR ZINC CADMIUM CHROMIUM
DEPTH ZH.DISS CO.DISS CR,DISS
(FT) UG/L U6/L U6/L
74/06/13
75/05/02
76/09/13
77/09/07
76/04/11
80/03/05
ai/oa/iz
82/04/08
86/06/17
MATER
HATER
MATER
HATER
0830 HATER
1010 HATER
1300 HATER
1120 HATER
1700 HATER
10
30
30
10
30
40
0
0
0
ario 7 - Butie County Calif.
Inorganic Ccntanination of Grourxioater
/TYPA/AMBNT/HELL
Z2N/01E-22D01 M MNE220122D01
39 45 00.0 121 52 00.0 5
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-2 780420 HQ 18020103
0000 FEET DEPTH
DATE TIME
FROM OF
TO DAY
MEDIUM
SMK 01090 01025 01030
OR ZINC CADMIUM CHROMIUM
DEPTH ZN,OISS CD.DISS CR,DISS
C FT ) UG/L UG/L UG/L
74/09/11 HATER
75/05/02 HATER
76/02/04 HATER
77/04/28 HATER
77/05/02 HATER
78/07/26 1410 HATER
81/10/20 1005 HATER
200
10
30
20
150
20
F-78
-------�
STORET RETRIEVAL DATE 89/06/01
Scenario 7 - Butte Cotnty Calif.
In- -viic Contamination of Grounotater
/TYPA/ArtBNT/HELL
PGM=RET
PAGE:
2ZK/01E-Z1M01 H NNEZZ01Z1M01
59 45 00.0 1Z1 53 00.0 5
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
Z1CAL-Z 780*20 HQ 18020105
0000 FEET DEPTH
DATE TIME
FROM OF
TO DAY
MEDIUM
SMK 01090 0102S 01030
OR ZINC CADMIUM CHROMIUM
DEPTH ZN.DISS CD.DISS CR.DISS
(FT) UG/L UG/L UG/L
74/02/08
75/06/03
74/05/06
77/06/05
78/10/03
80/06/0*
82/10/08
86/05/07
HATER
HATER
HATER
HATER
1Z50 HATER
1245 HATER
1715 HATER
1155 HATER
60
1ZO
40
10
20
190
0
0
Scenario 7 - Butte Ccxnty Calif. -
Inorganic Contamination of GrounoWater
'AMBNT/MELL
22H/01E-10R01 H MNE220110R01
39 46 00.0 121 51 00.0 5
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
Z1CAL-Z 780420 HQ 18020103
0000 FEET DEPTH
DATE TIME
FROM OF
TO DAY
MEDIUM
SMK 01090 010Z5 01030
OR ZINC CADMIUM CHROMIUM
DEPTH ZN.DISS CD,DISS CR.DISS
(FT) UG/L UG/L UG/L
73/06/07
75/05/02
76/05/06
77/09/08
78/06/12
60/02/12
82/04/08
86/06/17
HATER
MATER
HATER
HATER
1320 HATER
1015 HATER
1245 HATER
3600 HATER
20
40
60
130
20
10
30
0
F-79
-------�
STORET RETRIEVAL DATE 89/06/01
Scenario 7 - Buito County Calif.
Inorganic Contamination of Grouncfciater
/TYPA/AMBNT/MELL
PGMsRET
PAGE:
Z2N/01E-15B01 M HNE220115B01
39 46 00.0 1Z1 51 00.0 5
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-2 760420 HQ 18020103
0000 FEET DEPTH
DATE TIME
FROM OF
TO DAY
MEDIUM
SnX 01090 01025 01030
OR ZINC CADMIUM CHROMIUM
DEPTH ZN.DISS CD.OISS CR.DISS
(FT) UG/L UG/L UG/L
70/07/14
74/10/07
7S/OV24
76/06/15
77/10/13
78/03/14
78/10/03
80/05/27
82/05/12
86/04/22
HATER
HATER
HATER
HATER
HATER
1000 HATER
HATER
1100 HATER
1305 HATER
1137 HATER
10
40
20
50
50
0
40
20
0
Scenario 7 - BuVte County Calif.
Inorganic Contamination of Groundnater
/TYP A/AhBNT/HE LL
0
0
10
2ZK/01E-15L01 H MNE220115L01
39 46 00.0 121 51 00.0 5
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-2 780420 HQ 1B02010S
0000 FEET DEPTH
DATE TIKE
FROM OF
TO DAY
MEDIUM
SMK 01090 01025 01030
OR ZINC CADMIUM CHROMIUM
DEPTH ZN.DISS CD.OISS CR.DISS
(FT) UG/L UG/L UG/L
76/04/07 HATER
77/07/24 HATER
78/04/11 1400 HATER
81/01/14 0800 HATER
20
10
70
20
F-80
-------�
STORET RETRIEVAL DATE 89/06/01
Scenario 7 - Butte County Calif.
Ir nic Contamination of Grovnciraier
/TYPA/AMBNT/HELL
PGM=RET
PAGE:
22N/01E-16H01 H MNE220116H01
39 46 00.0 121 52 00.0 5
LAT AND LONG CALCULATED FROM TOWNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-Z 780420 HO 18020103
0000 FEET DEPTH
DATE TIME
FROM OF
TO DAY
MEDIUM
SMK 01090 01025 01030
OR ZINC CADMIUM CHROMIUM
DEPTH ZN.OISS COiOISS CR.DISS
(FT) UG/L UG/L UG/L
74/09/10
75/09/24
76/07/13
77/07/24
HATER
HATER
HATER
HATER
61/04/08 1300 HATER
80
20
30
10
70
F-81
-------�
STORET RETRIEVAL DATE 89/06/02
Scenario 7 - Suite County Calif.
Inorganic Contamination of Grouneiiater
/TYPA/AMBNT/HELL
PGM=INVENT
PAGE:
2ZN/01E-22A01 M MNE22O122A01
39 45 00.0 121 51 00.0 5
LAT AND IONG CALCULATED FROM TOWNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-2 780420 HQ 18020102
0000 FEET DEPTH
CD
ro
PARAMETER MEDIUM
01025 CADMIUM CO.OISS UG/L HATER
01030 CHROMIUM CR.DISS UG/L HATER
01090 ZINC ZN.OISS UC/L HATER
Scenario 7 - Butte Cointy Calif.
Inorganic Contamination of GrounoWater
/TYPA/AMBNT/HELL
PARAMETER MEDIUM
01025 CADMIUM CD.DISS UC/L HATER
01090 ZINC ZN.OISS UG/L HATER
Scenario 7 - Butte Cointy Calif.
Inorganic Contamination of GroundViaier
/TYPA/AMBNT/HELL
RMK
NUMBER MEAN VARIANCE STAN OEV MAXIMUH MINIMUM
2 1.500000 4.500OOO 2.121)00 J 0
2 1.50000O .5000000 .7071100 2 1
8 70.00000 485.7200 22.03900 70 0
BEG DATE END DATE
77/06/16 85/12/10
77/06/16 85/12/10
73/10/18 85/12/10
22N/01E-22F01 M HNE220122F01
19 45 00.0 121 51 00.0 S
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-2 780420 HQ 1802010)
0000 FEET DEPTH
NUMBER MEAN VARIANCE STAN OEV MAXIMUM
1 1 000000 1
8 21 75000 B-'o 7900 28.75400 80
MINIMUM BEG DATE END DATE
1 80/04/04 80/04/09
0 74/09/11 86/07/08
22N/01E-22H01 M HNE220122H01
39 45 00.0 121 51 00.0 5
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO DIVER
21CAL-2 780420 HQ 1802010)
0000 FEET DEPTH
PARAMETER
0102S CADMIUM CO.DISS
01030 CHROMIUM CR.DISS
01090 ZINC ZN.OISS
MEDIUM
UG/L HATER
UG/L HATER
UG/L HATER
RMK
NUMBER MEAN VARIANCE STAN OEV MAXIMUM MINIMUM
1 .0000000 0 0
1 2.000000 2 2
6 41.66700 1656.700 40.70200 120 10
BEG DATE END DATE
77/05/09 77/05/09
77/05/09 77/05/09
73/06/22 81/06/05
-------�
I
oo
to
STORET RETRIEVAL DATE 89/06/02
Scenario 7 - Butte County Calif.
Inorganic Contamination of GrounoViater
/TYPA/AMBNT/HELL
PARAMETER MEDIUM
01025 CADMIUM CO.DISS UG/L HATER
01030 CHROMIUM CR,OISS UG/L HATER
01040 ZINC ZN.DISS UG/L HATER
Scenario 7 - Butte County Calif.
Inorganic Contamination of GrounoViater
/TVPA/AMBNT/HE LL
PGrl-INVENT PAGE.
22N/01E-22P01 M MNE220122P01
19 45 00.0 121 51 00.0 S
LAT AND LONG CALCULATED FROM TOWNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-2 780420 HQ 18020103
0000 FEET DEPTH
RHK
NUMBER MEAN VARIANCE STAN OEV MAXIMUM MINIMUM
2 .0000000 .0000000 .0000000 0 0
2 10.00000 .0000000 .0000000 10 10
9 81.11100 8386.100 91.57600 310 10
BEG DATE END DATE
86/05/07 86/05/07
86/05/07 86/05/07
74/07/25 86/05/07
PARAMETER
01025 CADMIUM CO,DISS
01010 CHROMIUM CR.DISS
01090 ZINC ZN.DISS
MEDIUM
UG/L HATER
UG/L HATER
UG/L HATER
RMK
Scenario 7 - Butte County Calif.
Inorganic Contamination of GrounoViater
/TYPA/AMBNT/HELL
22N/01E-22Q01 M HNE220122Q01
19 45 00.0 121 51 00.0 5
LAT AND LONG CALCULATED FROM TOHMSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-2 780420 HQ 18020103
0000 FEET DEPTH
NUMBER MEAN VARIANCE STAN DEV MAXIMUM MINIMUM BEG DATE END DATE
2 .0000000 .0000000 .0000000 0 0 74/06/13 82/04/08
2 5.000000 2.000000 1.414200 6 4 74/06/13 82/04/08
9 16.66700 250.0000 15.81100 40 0 74/06/13 86/06/17
22N/01E-22D01 M MNE22O122D01
19 45 00.0 121 52 00.0 5
LAT AND LONG CALCULATED FROM TOHMSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-2 780420 HQ 18020103
0000 FEET DEPTH
PARAMETER
01025 CADMIUM CO.DISS
01030 CHROMIUM CR.DISS
01090 ZINC ZN.DISS
MEDIUM
UG/L HATER
UG/L HATER
UG/L HATER
RMK
NUMBER MEAN VARIANCE STAN DEV MAXIMUM MINIMUM
2 .5000000 .5000000 .7071100 1 0
2 3.000000 8.000000 2.828400 5 1
6 71.66700 6696.700 81.83300 200 10
BEG DATE END DATE
77/04/28 81/10/20
77/04/28 81/10/20
74/09/11 81/10/20
-------�
STORET RETRIEVAL DATE 89/06/02
Scenario 7 - Butte County Calif.
Inorganic Contamination of GroundViater
/rVPA/AMBNT/MELL
PARAMETER MEDIUM
01025 CADMIUM CO,DISS UG/L HATER
01030 CHROMIUM CR.OISS UG/L HATER
01090 ZINC ZN.DISS UG/L HATER
Scenario 7 - Butte County Calif.
Inorganic Contamination of GrounoV«ater
/TYPA/AMBNT/HE L L
RMK
I
CO
PGM=INVENT PAGE: 3
22N/01E-21M01 H MNE2Z0121M01
39 45 00.0 121 53 00.0 5
LAT AND LONG CALCULATED FROM TOWNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-2 780420 HQ 18020103
0000 FEET DEPTH
NUMBER MEAN VARIANCE STAN DEV MAXIMUM MINIMUM BEG DATE END DATE
2 .0000000 .0000000 .0000000 0 0 76/10/03 86/05/07
2 6.500000 .5000ZOO .7071200 7 6 78/10/03 86/05/07
8 55.00000 4571.400 67.61200 190 0 74/02/08 86/05/07
22N/01E-10R01 M HNE220110R01
39 46 00.0 121 51 00.0 5
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-2 780420 HQ 18020103
0000 FEET DEPTH
01090
PARAMETER
ZINC ZN.DISS
UG/L
MEDIUM
HATER
RMK
NUMBER MEAN VARIANCE STAN OEV MAXIMUM MINIMUM
8 38.75000 1698.200 41.20900 130 0
BEG DATE END DATE
73/06/07 86/06/17
Scenario 7 - Butte County Calif.
Inorganic Contamination of GroundMater
/TYPA/AMBNT/HE LL
PARAMETER MEDIUM
01025 CADMIUM CO.DISS UG/L HATER
01030 CHROMIUM CR.DISS UG/L HATER
01090 ZINC ZN.DISS UG/L HATER
RMK
22N/01E-15B01 H HNE220115B01
39 46 00.0 121 51 00.0 5
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-2 780420 HQ 18020103
0000 FEET DEPTH
NUMBER MEAN VARIANCE STAN OEV MAXIMUM MINIMUM BEG DATE END DATE
I .0000000 .0000000 .0000000 0 0 78/03/14 86/04/22
3 3.666700 30.33300 5.507600 10 0 78/O3/14 86/04/22
9 25.55600 402.7800 20.06900 50 0 70/07/14 86/04/22
-------�
STORET RETRIEVAL DATE 89/06/02
Scenario 7 - Buite County Calif.
Inorganic Contamination of GrounoWater
/TYPA/AMBNT/NELL
PGM=INVENT PAGE.
22N/01E-15L01 M MNE2Z0115L01
19 46 00.0 121 51 00.0 5
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-2 780420 HQ 1802010!
0000 FEET DEPTH
01090
PARAMETER
ZINC ZN,DISS
UG/L
MEDIUM
HATER
RMK
NUMBER MEAN VARIANCE STAN DEV MAXIMUM MINIMUM
4 JO.00000 733.3300 27.08000 70 10
BEG DATE END DATE
76/04/07 81/01/14
Scenario 7 - Butte County Calif.
Inorganic Contamination of GrounoWater
/TYPA/AMBNT/NELL
22N/01E-16H01 M HNE220116H01
39 46 00.0 121 52 00.0 5
LAT AND LONG CALCULATED FROM TOHNSHIP AND RANGE
06007 CALIFORNIA BUTTE
CALIFORNIA 140900
SACRAMENTO RIVER
21CAL-2 780420 HQ 18020103
0000 FEET DEPTH
I
CO
01090
PARAMETER
ZINC ZN.DISS
UG/L
MEDIUM
NATER
RMK
NUMBER MEAN VARIANCE STAN OEV MAXIMUM MINIMUM
5 42.00000 970.0000 31.14500 80 10
BEG DATE END DATE
74/09/10 81/04/08
-------�
STORET RETRIEVAL GATE 89/06/02 PGM=INVENT PAGE:
GROSS
11 TOTAL STATIONS PROCESSED
Scenario 7 - Butte County Calif.
Inorganic Contamination of Grourxkrater
PARAMETER MEDIUM RMK NUMBER MEAN VARIANCE STAN DEV MAXIMUM MINIMUM BEG DATE END DATE
01025 CADMIUM CO.DISS UG/L MATER 15 .3333300 .6666700 .8165000 3 0 74/06/13 86/05/07
01030 CHROMIUM CR,DISS UG/L HATER 14 4.642900 13.17000 3.629100 10 0 74/06/13 86/05/07
01090 ZINC ZNiDISS UG/L HATER 80 40.25000 2643.000 51.41000 310 0 70/07/14 86/07/08
00
cr>
-------�
Scenario 8
CERCLA
STATE PERSPECTIVE
OVERVIEW
A State Solid Waste Program Manager has been asked to review a draft
remedial investigation/feasibility study (RI/FS) report for a
landfill. The site is situated in an area of the state that relies
exclusively on ground water. The landfill (drum disposal site) is
located at 38°06'21" - 079°03'00».
The State Manager needs to assess if the area supply wells are in
immediate danger and if intermediate measures are necessary to
prevent contamination of area wells until final remediation is
completed.
OBJECTIVE
To investigate the immediate risk to area ground water based on the
gradient in the surficial aquifer and lower aquifers.
SCENARIO LOCATION
Augusta County, Virginia
DATA SOURCE
Data used for the scenario were generated for demonstration purposes.
STORET QUESTIONS/OUTPUT
1. Where are the wells in the vicinity of the site?
MAP: LOG: location of wells within a polygon window.
2. What are the screen depths of the wells, do they draw from
a different aquifer and what are the water levels?
TABLE: RET; Parameters 72057, 72020 and 84069. Elevation of top of
first screen, formation code, and ground-water elevation.
3. Based on water levels, what is the gradient in the area?
MAP: MSP; Map ground-water elevations (parameter 72020) at monitoring
locations.
SCENARIO 8 RESULT
The Manager determined, based on the gradient, that an intermediate
extraction system would provide additional protection for area water
supplies which could potentially become contaminated.
F-87
-------�
CERCLA
STATE PERSPECTIVE
DECISION PATH
QUERY STORET FOR
LOCATION OF
WELLS NEAR SITE
RETRIEVE WELL SCREEN
DEPTHS FROM STORET
BASED ON WATER TABLE
ELEVATIONS, DETERMINE
THE REGIONAL GRADIENT
DETERMINE IF CONTAMINATION
PATTERN AND REGIONAL
GRADIENT INDICATE RISK
TO AREA SUPPLY WELLS
DECIDE ON
INTERMEDIATE
CONTROLS
OFFICE OF GROUND-WATER PROTECTION
OFFICE OF INFORMATION RESOURCES MANAGEMENT
SCENARIO 8 FOR STORET
F-88
-------�
*
s
I
oo
vo
S
£
S
ENVIRONMENTAL PROYECTION AGENCY
STORET SYSTEM
ScenarIo 8
Drum Disposal Site
m STATION LOCATION
PROJECTION - ALBERS EQUAL AREA
SCALE 1:40000
re'01
LandfIII Site
Drum DI3pO3aI
SCALE OF MILES
0.5 1.0
ScenarIo 8
V Irglnla
WVSTO«T mm
•.6Si niirs pen IHOI
IVPIMR
-------�
STORET RETRIEVAL DATE 89/06/19
Scenario 8
Drum Disposal Site
/TYPA/AH8NT/NELL
PGM=RET
PAGE:
DATE TIME
FROM OF
TO DAY
84/05/15
88/06/30
MEDIUM
HATER
HATER
SMK
OR
DEPTH
84069 72020 72057
FORMAT'N ELEV SCRFFN
CODE FEET AB TOI
ALPHA HSL FR MP FT
SURAQ
1405.00
1420.00
Scenario 8
Disposal Site
/TYPA/AMBNT/HELL
VO
O
DATE TIME
FROM OF
TO DAY
82/03/17
88/06/30
MEDIUM
HATER
HATER
SMK
OR
DEPTH
(FT)
84069 72020 72057
FORMAT*N ELEV SCREEN
CODE FEET AS TOP 1ST
ALPHA HSL FR HP FT
SURAQ
1420.00
1440.00
Scenario 8
Drum Disposal Site
/TYPA/AHBNT/HELL
DATE TIME
FROM OF
TO DAY MEDIUM
81/11/13 HATER
88/06/30 HATER
SMK
OR
DEPTH
(FTI
84069 72020 72057
FORMAT'N ELEV SCREEN
CODE FEET AB TOP 1ST
ALPHA HSL FR MP FT
SURAQ
1412.00
1435.00
GDHVA001
38 05 00.7 079 03 38.1 1
HYPOTHETICAL LANDFILLS. INC.
51015 VIRGINIA AUGUSTA
02-NORTH ATLANTIC 021400
14-POTOMAC-SHENDOAH
11TRAIN 890527 02070005
0000 FEET DEPTH
GOHVAOOZ
36 02 53.0 079 03 35.0 4
MONITORING HELL • 2
51015 VIRGINIA
02-NORTH ATLANTIC
14-POTOMAC-SHENDOAH
11TRAIN 890527
0000 FEET DEPTH
021400
02070005
GDHVA003
38 02 59.5 079 03 11.2 1
MONITORING HELL • 3
51015 VIRGINIA
NORTH ATLANTIC
POTOMAC RIVER
11TRAIN 890527
0000 FEET DEPTH
AUGUSTA
021400
02070005
-------�
STORET RETRIEVAL DATE 89/06/19
Scenario 8
Drum Disposal Site
/TYPA/AMBNT/HELL
PGM=RET
PAGE:
GDHVA004
38 03 56.0 079 02 50.0
MONITORING HELL • 4
51015 VIRGINIA
02-NORTH ATLANTIC
14-POTOMAC-SHENDOAH
11TRAIN 890527
0000 FEET DEPTH
AUGUSTA
021400
02070005
DATE TIME
FROM OF
TO DAY
81/11/22
88/06/30
MEDIUM
HATER
HATER
SMK
OR
DEPTH
I FT I
84069
FORMAT
-------�
STORET RETRIEVAL DATE 89/06/19
Scenario 8
Drum Disposal Site
/TYPA/AMBMT/HELL
PGM=RET
PAGE:
DATE TIME
FROM OF
TO DAY
81/10/12
88/06/30
MEDIUM
HATER
HATER
SMK
OR
DEPTH
I FT I
84069 72020
FORMAT'N ELEV
CODE FEET AB
ALPHA HSL
SURAQ
72057
SCREEN
TOP 1ST
FR HP FT
1335.00
1395.00
Scenario 8
Drum Disposal Site
/TYPA/AMBNT/HELL
i
vo
ro
DATE TIME
FROM OF
TO DAY MEDIUM
SMK
OR
DEPTH
I FT I
84069 72020 72057
FORMAT*N ELEV SCREEN
CODE FEET AB TOP 1ST
ALPHA HSL FR HP FT
82/05/03
88/06/30
HATER
HATER
BEOAQ
1330.00
1430.00
Scenario 8
Drum Disposal Site
/TYPA/AHBNT/HELL
DATE TINE
FROM OF
TO DAY
83/08/11
88/06/30
MEDIUM
HATER
HATER
SMK
OR
DEPTH
I FT I
84069 72020
FORMAT*N ELEV
CODE FEET AB
ALPHA MSL
SURAQ
72057
SCREEN
TOP 1ST
FR MP FT
1410.00
1440.00
6DHVA007
38 05 35.0 079 01 47.0
MONITORING HELL f 7
51015 VIRGINIA
02-NORTH ATLANTIC
14-POTOMAC-SHENDOAH
11TRAIN 890527
0000 FEET DEPTH
AUGUSTA
021400
02070005
GDHVA008
38 05 45.0 079 02 15.0 4
MONITORING NELL * 8
51015 VIRGINIA
02-NORTH ATLANTIC
14-POTOHAC-SHENOOAH
11TRAIN 890527
0000 FEET DEPTH
AUGUSTA
021400
02070005
GDHVA009
38 05 47.0 079 03 02.0 4
MONITORING HELL t 9
51015 VIRGINIA
02-NORTH ATLANTIC
14-POTOHAC-SHENDOAH
11TRAIN 890527
0000 FEET DEPTH
021400
02070005
-------�
STORET RETRIEVAL DATE 89/06/19
Scenario 8
Drum Disposal Site
/TYPA/AMBNT/HELL
PGM=RET
PAGE:
DATE TIME
FROM OF
TO DAY MEDIUM
SHK
OR
DEPTH
(FT I
84069 72020 72057
FORMAT'M ElEV SCREEN
CODE FEET AB TOP 1ST
ALPHA MSL FR MP FT
82/10/17
88/06/30
HATER
HATER
BEDAQ
1390.00
1460.00
I
VD
CO
Scenario 8
Drum Disposal Site
/TYP A/AHBNT/HE L L
DATE TIME
FROM OF
TO DAY
84/11/10
88/06/30
MEDIUM
HATER
HATER
SMK
OR
DEPTH
I FT I
84069 72020 72057
FORMAT'N ELEV SCREEN
CODE FEET AB TOP 1ST
ALPHA MSL FR HP FT
SURAQ
1410.00
1460.00
Scenario 8
Drum Disposal Site
/TYPA/AMBNT/HELL
DATE TIME
FROM OF
TO DAY
83/04/50
88/06/30
MEDIUM
HATER
HATER
SMK
OR
DEPTH
I FT)
84069 72020 72057
FORMAT'N ELEV SCREEN
CODE FEET AB TOP 1ST
ALPHA MSL FR HP FT
SURAQ
1452.00
1450.00
GDHVA010
38 05 SZ.O 079 05 07.0 4
MONITORING HELL • 10
51015 VIRGINIA
02-NORTH ATLANTIC
14-POTOMAC-SHENDOAH
11TRAIN 8905Z7
0000 FEET DEPTH
AUGUSTA
021400
02070005
GDHVA011
38 06 03.0 079 04 05.0 4
MONITORING HELL t 11
51015 VIRGINIA
02-NORTH ATLANTIC
14-POTOMAC-SHENDOAH
11TRAIN 890527
0000 FEET DEPTH
AUGUSTA
021400
02070005
GOHVA012
38 06 39.8 079 02 50.6 1
MONITORING HELL f 12
51015 VIRGINIA
02-NORTH ATLANTIC
14-POTOMAC-SHENDOAH
11TRAIN 890527
0000 FEET DEPTH
AUGUSTA
021400
02070005
-------�
STORET RETRIEVAL DATE 89/06/19
Scenario 8
Drum Disposal Site
/TYPA/AMBNT./MELL
PGM=RET
PAGE:
DATE
FROM
TO
82/09/03
86/06/30
TIME
OF
DAY
MEDIUM
HATER
HATER
SHK
OR
DEPTH
I FT I
84069
FORMAT'N
CODE
ALPHA
SURAQ
72020
ELEV
FEET AB
HSL
1470.00
72057
SCREEN
TOP 1ST
FR HP FT
1450.00
GDHVA013
38 06 46.7 079 04 37.6 1
MONITORING HELL t 13
51015 VIRGINIA AUGUSTA
OZ-NORTH ATLANTIC 021400
14-POTOHAC-SHENDOAH
11TRAIN 890527 02070005
0000 FEET DEPTH
-------�
£
ENVIRONMENTAL PROTECTION flGENCY
STORE! SYSTEM
Scenar I o 8
Water Table Gradient Analysis
NfXIMR
<= i4i
1410.0000 TO 1435.0000
* 1435.0000 TO 1440.0000
o > 1440.0000
PROJECTION - ALBERS EQUAL
SCflLE 1:40000
rver
Landfill Site
Gradient Study
SCRLE cr MILES
a 0.5 i.a
Scenar I o 8
Virginia
•.611 HIUS PER INCH
-------�
Scenario 9
WELLHEAD PROTECTION
EPA REGIONAL PERSPECTIVE
OVERVIEW
An EPA Regional Manager has received a State's preliminary Wellhead
Protection plan. The EPA Manager is providing oversight as the State
continues to define critical Wellhead Protection Areas (WHPAs). The
Manager is assisting the state in prioritizing which public water
supplies should be delineated first, based on their proximity to
existing or potential sources of ground-water contamination. The EPA
manager is first examining a portion of the state which is known to
have several hazardous facilities.
OBJECTIVES
To prioritize Wellhead Protection Areas for further delineation based
on the number of potential sources of contamination (hazardous
facilities) which may fall within the boundaries of the WHPA. The
quality of ground water at the facilities identified will be examined.
SCENARIO LOCATION
Southeastern Pennsylvania.
DATA SOURCE
Data used for the scenario reside in STORET.
STORET QUESTIONS/OUTPUT
1. Where are the municipal ground water supplies in the area?
Where are the hazardous industrial sites or landfills in relation to
the municipal supply wells?
MAP: LOG; location map of supply wells.
MAP: LOG: location of hazardous site monitoring wells (HAZARD,
LANDFILL,IMPOUNDMENT).
2. What are the station identification numbers for the
hazardous monitoring sites and what type of sites are they?
MAP: LOG: "Zoomed-in" version of map for affected areas with
station identification numbers plotted.
TABLE: INDEX; Station descriptor information for hazardous site
monitoring locations.
3. Is there any indication of ground-water contamination
emanating from the hazardous sites?
TABLE: INVENT; Examine ground-water quality data for selected
hazardous site monitoring locations to identify areas of degrading
ground-water quality.
SCENARIO 9 RESULT
Several public water supplies were recommended for priority
delineation based on proximity to potential hazards and evidence of
existing ground-water contamination.
F-96
-------�
WELLHEAD PROTECTION
EPA REGIONAL PERSPECTIVE
DECISION PATH
QUERY STORET FOR
LOCATION OF MUNICIPAL
WATER SUPPLIES IN STATE
AND GENERATE MAP
QUERY STORET FOR
SPECIFIC MONITORING
LOCATIONS AND
GENERATE MAP
DETERMINE PROXIMITY
OF SUPPLY WELLS
TO HAZARDOUS SITES
I
DETERMINE TYPE OF
HAZARDOUS FACILITY
EXAMINE GROUND WATER
QUALITY AT THE FACILITY
PRIORITIZE WELLHEAD
PROTECTION AREAS
BASED ON NUMBER
OFSOURCES
AND EXISTING
CONTAMINATION
OFFICE OF GROUND-WATER PROTECTION
OFFICE OF INFORMATION RESOURCES MANAGEMENT
SCENARIO 9 FOR STORET
F-97
-------�
I
n>
oo
76'30*
76*25*
76*20'
WeiIhead Protection Area Study
Water SuppIy We I I 3
SCftLE OF MILES
2
BWSTOKI
1.39 niLES PER INCH
76'I5*
I
76*10'
ScenarIo 9
Pennay I van i a
me DAIE a«/o«/t2
-------�
Wellhead Protection ftrea Study
Hazardous Site Monitoring Wei\3
SCftLE OF MILES
76'10'
Scenar I o 9
Pe nnsy I van i a
EPA/STOUT SYSTEM
1,99 MILC3 PCR INCH
MAP DH1E 89/OA/W
-------�
o
o
o
CO
(3
0
4-
4-
4-
4-
76*26'
76*25
76'24
h-J
76'23
4-
76'22
4
4
4-
76*21
76'20'
We I Ihead Protect ion Area Study
Hazardous Site Monitoring Wells
SCALE OF MILES
0 1
N=l I E==
s
c enar io
9
ennsyI van i a
-------�
STORET RblRIEVAL OAfh 89/06/08
PGMMNDEX - VERSION OF MARCH 22. 1986
PAGE
AGENCY
PRIME STN NO
Scenario 9
Southeast*™ Pennsylvania
ST-CO COUNTY STATE
SECONDARY STATION NUMBERS
LAT/LONG/PREC STORED DATE
STATION TYPE CODE
RIVER MILE I IF I
INDEX I PRESENT I
21PA
SN300628MP03LF
AO
PENNSYLVANIA
LOCATION NAME
MINOR BASIN
MAJOR BASIN
42071 LANCASTER
367SNNG-1031
40 09 42.0 076 23 08.0 4 STORED 830716
/TYPA/AMBNT/HELL/HONITR/DONN/LNDFL/HAZARD
BASIN CODE
DEPTH
HYDRO UNIT+SEG
NILEPOINT ON?
RAYBESTOS FRICTION MATERIALS HELL MP03
CHICKIES CREEK 021200
SUSQUEHANNA DEPTH 35
02050306 HQ
21PA
SH300628HP04LF
80
42071 LANCASTER PENNSYLVANIA
367EPLR-1049
40 09 42.0 076 23 08.0 4 STORED 830716
/TYPA/AMBNT/NE L L/MONITR/OOHN/LNDF L/HAZARD
RAYBESTOS FRICTION MATERIALS NELL MP04
CHICKIES CREEK 021200
SUSqUEHANNA DEPTH 44
02050306 HQ
21PA
SH300628HP06LF
CO
42071 LANCASTER
PENNSYLVANIA
367SNNG-1032
40 09 42.0 076 23 08.0 4 STORED 830716
/TYPA/AHBNT/HELL/MONITR/OOHN/LNDFL/HAZARD
RAYBESTOS FRICTION MATERIALS NELL MP06
CHICKIES CREEK
SUSqUEHANNA DEPTH 25
021200
0205O306 HQ
21PA
SH30062dHP07LF
DO
42071 LANCASTER PENNSYLVANIA
S67EPLR-10SO
40 09 42.0 076 25 08.0 4 STORED 830716
/TYPA/AMBNT/MELL/MONITR/BACK/LNDFL/HAZARD
RAYBESTOS FRICTION MATERIALS HELL NP07
CHICKIES CREEK 021200
SUSQUEHANNA DEPTH 80
02050306 HQ
END OF INDEX MODULE.
STATION DESCRIPTIONS PROCESSED :
-------�
S1ORET REIRIEVAL DATE 89/06/08
SH300626HPOSLF 367SNNG-1031
40 09 42.0 076 23 08.0 4
RAYBESTOS FRICTION MATERIALS NEIL MPOJ
42071 PENNSYLVANIA LANCASTER
SUSQUEHANNA OZ1200
C'HICKIES CREEK
21PA 8107lb HQ 02050306
0055 FEEI DEPTH
PGM IMVENT
PAGE:
Scenario 9
Southeastern Pennsylvania
/TYPA/AHBNT/HELL/MaNITR/DOHN/LNDFL/HAZARO
PARAMETER
00068
00076
00095
00405
00420
00425
00450
00515
00615
00620
00630
00660
00682
-T, 00685
i 00690
0 00920
r\> 0094U
00945
00951
01002
01007
01027
01034
01042
01045
01051
0105S
01077
01092
01147
01501
03501
09501
MAX SAMP
TURO
CNOUCTVY
PH
OH ALK
NCOS ALK
COS ALK
RESIDUE
N02-N
NO1-N
N02IN03
T OHO C
CARBON I
T. INORC
T -CARBON
sr.niUM
..HI ORIOE
SULFATE
FLUORIDE
ARSENIC
BARIUM
CADMIUM
CHROMIUM
COPPER
IRON
LEAD
tUNGNESE
SILVER
ZINC
SELENIUM
ALPHA
BETA
RA-226
DEPTH
TRBIOHTR
AT 25C
LAB
CAC05
CAC03
CAC03
OISS-105
TOTAL
TOTAL
N-TOTAL
C
NIORG.DI
C
C
NA .TOT
TOTAL
SO4-TOT
F. TOTAL
AS, TOT
BA.TOT
CO, TOT
CR.TOT
CU.TOT
FE .TOT
PB.TOT
MN
AG.TOT
ZN.TOT
SE.TOT
TOTAL
TOTAL
TOTAL
FEET
HACH FTU
HICROMHO
SU
MG/L
MG/L
MG/L
C MG/L
MG/L
MG/L
MG/L
MG/L
SS.HG/L
HG/L
MG/L
HG/L
MG/L
MG/L
MG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/t
UG/L
UG/L
PC/L
PC/L
PC/L
MEDIUM
MATER
MATER
MATER
HATER
MATER
HATER
MATER
MATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
MATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
RMK 1
K
K
TOT
K
K
TOT
K
TOT
K
K
4UMBEI
1
1
1
!
i
1
"
4
i
*
6
t
4
3
\
i
i
i
!
;
1
<
i
<
3
) MEAN
SO. 00000
63.75000
3817.200
7.266400
1.000000
1624.000
2.000000
2990.000
.0050000
.1130000
. 2 S 20000
144.3400
4S20.000
445.0000
447.0000
i 264.6000
S 63.68000
> 1341.800
i 1.687500
t 2.850000
E 1.000000
i 1.925000
> 225.0000
» 7.500000
\ 19.00000
1 20.00000
i 4848.000
>. 9.000000
I 5.66*700
» 7.000000
> 3144.000
I IS. 33300
1 10.00000
I 12.50000
1 290.0000
( 1.000000
I 1.225000
I 23.46700
1 i. 000000
VARIANCE
.0000000
380.2500
594440.0
.0143800
.0103070
29437.00
14983.00
1234.500
278410.0
. 2450300
4.805000
.0000000
2.742500
2500.000
6.513300
430.6700
100.0000
14007000
2.000000
16.33300
12.00000
1209900
33.33400
25.00000
29100.00
.0000000
3.295800
158.4500
STAN OEV 1
.0000000
19.50000
771.0000
.1199200
.1015200
171.5700
122.4100
35.1S600
527.6500
.4950000
2.192000
.0000000
1.656100
50.00000
I. 886800
20.75300
10.00000
1742.500
1.414200
4.041500
3.464100
1100.000
5.773500
5.000000
170.5900
. ooooooo
1.815500
12.58800
1AXIMIJM 1
30.0
80.0
5200
7.4
1
1624
2
2990
.005
.227
.21
446.2
4520.0
445.0
447.0
452.00
115
1930
2.40
4
1
4
300
10
50
SO
10100
10
10
10
5000.0
20.0
10.0
20.0
480
1
4
38
3.0
1INIHUM
SO.O
36.0
2900
7.0
1
1624
2
2990
.005
.015
.23
2.0
4520.0
445.0
447.0
158.00
34
871
1.31
1
1
1
200
5
6
10
ISO
a
2
2
2360.0
10.0
10.0
10.0
150
1
0
16
3.0
BEG DATE
82/02/24
81/11/18
81/11/18
81/11/18
84 /OS/26
84/03/26
84/03/26
84/03/26
81/11/18
81/11/18
81/11/18
81/11/18
81/11/18
81/11/16
81/11/18
81/11/18
81/11/1B
81/11/18
81/11/18
82/09/09
81/11/18
81/11/18
81/11/18
81/11/18
61/11/18
62/02/24
61/11/16
82/02/24
81/11/18
61/11/18
81/11/18
61/11/18
82/02/24
81/11/18
82/02/24
81/11/16
81/11/16
81/11/16
82/02/24
END DATE
8S/08/04
82/11/17
84/OS/26
84/03/26
84/03/26
84/03/26
84/03/26
84/03/26
81/11/18
82/11/17
81/11/18
84/OS/26
81/11/18
81/11/18
81/11/18
84/03/26
84/03/26
84/03/26
82/11/17
82/11/17
82/02/24
62/11/17
82/11/17
82/11/17
82/11/17
62/11/17
84/OS/26
82/09/09
84/05/26
84/03/26
84/05/26
82/11/17
62/02/24
82/11/17
82/11/17
82/11/17
82/11/17
82/11/17
82/02/24
-------�
STORET RETRIEVAL DATE 89/06/08
SH30062BHP03LF 167SNNG-1031
40 09 42.0 07* 21 08.0 4
RAVBESTOS FRICTION MATERIALS HELL HPOS
42071 PENNSYLVANIA LANCASTER
SUSQUEHANNA 021200
CHICKIES CREEK
ZIP* 830716 HQ OZOS0306
0035 FEET DEPTH
PGM=INVENT
PAGE:
Scenario 9
Southeastern Pennsylvania
/TYPA/AHBNT/HELL/HONITR/OOHM/LNDFL/MAZARD
PARAMETER MEDIUM
11507 TOT COL I HPN COMP /100ML HATER
32730 PHENOLS TOTAL U6/L HATER
19390
39400
39480
39730
S9740
39782
70104
71900
72019
781 IS
81175
ENDRIN
TOXAPHEN
HTHXVCLM
2,4-0
2.4.S-T
LINOANE
SOLIDS,
MERCURV
OEPTH-FT
TOX
HALOGEN
HHL SHPL
NHL SHPL
HHL SHPL
HHL SHPL
OISS.TO
H6.TOTAL
BL LAND
HALOGEN
OR6ANICS
TOT UG/L
TOTUB/L
06/L
UB/L
UG/L
UG/L
T.HG/L
UG/L
SURFACE
UG/L
H6/L
HATER
HATER
HATEM
HATER
HATCH
HATER
HATER
HATER
HATER
HATER
HATER
RHK NUMBER
K
TOT
K
K
K
K
K
K
R MEAN
2.000000
16.00000
5.000000
71.80000
.0133330
.4666700
.1000000
1.000000
1.000000
.0133330
331S.800
1.875000
14.11500
2176*. 00
22.06700
VARIANCE
1822.000
1558.700
.0000333
.0833340
.0000000
. 0000000
.0000000
.0000333
755500.0
4.395800
104.6500
1642E»06
146.8100
STAN DEV
42.68500
19.48000
.0057715
.2886800
.0000000
. 0000000
.0000000
.0057715
069.2400
X. 096600
10.21000
40512.00
18.62300
MAXIMUM H
2
100
5
100
.020
1.000
.100
1.000
1.000
.020
4616
5.0
15.00
96750.00
17.00
INIMUH
2
11
5
5
.010
.500
.100
1.000
1.000
.010
2176
.5
9.17
24.00
1.20
BEG DATE
81/11/18
82/02/24
81/11/18
81/11/18
82/02/24
82/02/24
82/O2/24
82/02/24
82/02/24
82/02/24
82/02/24
81/11/18
82/02/24
82/11/17
81/11/18
END DATE
81/11/18
84/01/26
81/11/18
84/01/26
82/11/17
82/11/17
82/11/17
82/11/17
82/11/17
82/11/17
81/11/07
82/11/17
81/11/07
84/01/26
82/09/09
o
CO
-------�
STORET RETRIEVAL DATE 89/06/08
SHS00628MP04LF 367EPLR-1049
40 09 42.0 076 23 08.0 4
RAYBESTOS FRICTION MATERIALS HELL MP04
4Z071 PENNSYI • »ITA LANCASTER
SUSQUEHANNA 021200
CHICKIES CREEK
21PA BJ07I6 HQ 02050306
0044 FEET DEPTH
PGM=INVENT
PAGE:
Scenario 9
Southeastern Pennsylvania
/ r YPA/AHBNT/NE LL/HONI TR/DONN/LNDFL/HAZARO
PARAMETER
00068
OOO76
00095
O040S
00410
00420
00425
O0430
00515
00615
00620
00630
00680
•n
i
H- 00682
2 00685
00690
O0929
00940
00945
00951
01002
01007
01027
01034
01042
MAX SAMP
TURB
CNOUCTVY
PH
T ALK
OH ALK
HC03 ALK
COS ALK
RESIDUE
N02-N
NOS-N
N02IN03
T ORG C
CARBON I
T. INOR6
T-CARBON
SODIUM
CHLORIDE
SULFATE
FLUORIDE
ARSENIC
BARIUM
CADMIUM
CHROMIUM
COPPER
DEPTH
TRBIOMTR
AT 25C
LAB
CACOS
CACOS
CACOS
CACOS
DISS-105
TOTAL
TOTAL
N-TOTAL
C
NIORG.DI
C
C
NA.TOT
TOTAL
SO4-TOT
F. TOTAL
AS. TOT
BA.TOT
CO, TOT
CR.TOT
CU.TOT
FEET
HACH FTU
HICROMHO
SU
HG/L
MG/L
HG/L
MG/L
C HG/L
MG/L
HG/L
MG/L
HG/L
SS.HG/L
MO/L
MG/L
MG/L
HG/L
HG/L
HG/L
UG/L
UG/L
UG/L
UB/L
UG/L
MEDIUM
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
01045 IRON FE.TOT
O1051 LEAD
PB.TOT
O1055 MANGNESE MN
01077 SILVER AG.TOT
01092 ZINC ZN,TOT
01147 SELENIUM SE.TOT
UG/L HATER
UG/L HATER
UG/L HATER
UB/L HATER
UG/L HATER
UG/L HATER
RHK NUHBE
1
t
2<
2(
1
K
K
1
K
TOT 1
j
j
2(
<
K <
«
K 1
K <
<
K i
TOT «
11
K 1
TOT 2C
i
K «
TOT I
:
K «
t
K «
» MEAN
1 42.94700
» 4.950000
& 1024.200
& 7.onnnno
5 342.2000
1.000000
520.0000
1.000000
1090.000
.0020000
S. SO 7500
4.900000
60.07000
1.000000
54.70000
348.0000
57.00000
59.00000
i 37.06000
i 18. 78000
I 121.3300
i .2700000
i 1.000000
i 100.0000
> 7.500000
» 8.750000
i 17.50000
! 30.00000
> 21.66700
) 1098.400
40.00000
1 1045.500
> 30.00000
> 20.35300
1 22.75000
> 342.0000
10.00000
85.00000
1.000000
VARIANCE
2.276100
23.13000
69877.00
.0769140
5999.200
9.476100
3386.800
3365.300
337.1200
34.19200
4784.600
.0305330
.0000000
.0000000
8.S3SSOO
6.250000
91.66700
.0000000
96.66700
990970.0
994820.0
800.0000
534.6700
516.2200
99370.00
.0000000
1590.000
.0000000
STAN DEV n
1.508700
4.809400
264.3400
.2773300
63.23900
3.078300
58.19600
58.01100
18.36100
5.847400
69.17100
.1747400
.0000000
.0000000
2.886800
C. 500000
9.574300
.0000000
9.832000
995.4700
997.4100
28.28400
23.12300
22.72000
315.2300
.0000000
59.87500
.0000000
AXIMUM M
44.0
12.0
1527
7.8
440
1
520
1
1090
.002
6.860
4.90
15S.5
1.0
153.5
348.0
57.0
59.0
61.30
24
111
.46
1
100
10
10
30
SO
SO
3370
40
3370
SO
50
50
740.0
10.0
140
1
INIHUM
40.0
1.6
565
6.4
210
1
520
1
1090
.002
.600
4.90
2.0
1.0
1.0
348.0
57.0
59.0
12.00
9
33
.04
1
100
5
5
10
SO
10
110
40
40
10
2
2
10.0
10.0
20
1
BEG DATE
78/04/12
81/11/18
78/04/12
78/04/12
78/04/12
84/03/26
84/03/26
84/03/26
84/03/26
81/11/18
81/11/18
81/11/18
81/11/18
82/11/17
81/11/18
81/11/18
81/11/18
81/11/18
81/11/18
81/11/18
78/04/12
81/11/18
81/11/18
81/11/18
81/11/18
81/11/18
78/11/06
79/11/06
78/11/06
78/04/12
84/03/26
78/04/12
78/11/06
79/11/06
78/11/06
81/11/18
81/11/18
78/11/06
81/11/18
END DATE
83/08/04
82/11/17
84/03/26
84/03/26
81/08/11
84/03/26
84/03/26
84/03/26
84/03/26
81/11/18
82/11/17
81/11/18
84/03/26
82/11/17
84/03/26
81/11/18
81/11/18
81/11/18
84/03/26
84/03/26
84/03/26
82/11/17
82/11/17
82/11/17
82/11/17
82/11/17
82/11/17
80/11/10
82/11/17
82/11/17
84/03/26
84/03/26
81/11/18
84/03/26
84/03/26
84/03/26
82/11/17
82/11/17
82/11/17
-------�
STORET RETRIEVAL DATE 89/06/08
&N300628MP04LF S67EPLR-1049
40 09 42.0 076 23 08.0 4
RAYBESTOS FRICTION MATERIALS NELL MP04
42071 PENNSYLVANIA LANCASTER
SUSQUEHANNA OZ1ZOO
CHICKIES CREEK
21PA 830716 HQ 020SOS06
0044 FEET DEPTH
= INVENT
PAGE:
Scenario 9
Southeastern Pennsylvania
/lYPA/AHBNr/HELL/MONITR/OONN/LNDFL/HAZARD
PARAMETER
-n
*— •
c
in
01501
03S01
315O7
32730
39390
39400
39480
39730
39740
39782
70104
71900
72019
78115
ALPHA
BETA
TOT COL I
PHENOLS
ENDR1N
TOXAPHEN
MTHXYCLR
2.4-D
2.4. S-T
LINOANE
SOLIDS.
MERCURY
OEPTH-FT
TOX
TOTAL
TOTAL
HPN COMP
TOTAL
NHL SMPL
NHL SMPL
NHL SMPL
NHL SMPL
OISS.TO
HG. TOTAL
BL LAND
HALOGEN
PC/L
PC/L
/100HL
UG/L
TOT UG/L
TOTUG/L
UG/L
UG/L
UG/L
UG/L
T.MG/L
UG/L
SURFACE
UG/L
MEDIUM
MATER
NATER
NATER
NATER
NATER
NATER
NATER
NATER
NATER
NATER
NATER
NATER
NATER
NATER
81375 HALOGEN ORGANICS MG/L NATER
RHK NUMBER MEAN
3 1.300000
K 1 .5000000
TOT 4 I. 100000
2 12.15000
K 1 7.500000
TOT 3 10.53300
1 8.000000
13 7.153900
K 7 4.142900
TOT 20 6.100000
K
K
K
K
K
K
K
Z
K
TOT
K
TOT
.0133330
.6666700
. 1000000
1 . 000000
1.000000
.0133330
855.7800
. 7500000
7.325200
9846.500
20.00000
7389.900
10.08600
10.00000
10.05700
VARIANCE
1.830000
1 . 380000
248.6500
132.1600
7.641100
. 1428700
7.042100
.0000333
.0833340
.0000000
.0000000
.0000000
.0000333
25298.00
.0833330
71.68700
2333E«05
.0000000
1873E«OS
196.5800
98.29000
STAN OEV
1.352800
1.174700
15.76900
11.49600
2.764300
.3779800
2.653700
.0057735
.2686800
.0000000
.0000000
.0000000
.0057735
159.0600
.2886800
8.466800
15276.00
.0000000
1S689.00
14.02100
9.914100
MAXIMUM MINIMUM
S
.5
3
21
7
2S
8
12
5
12
.020
1.000
.100
1.000
1.000
.020
1049
1.0
44.00
31500.00
20.00
31500.00
20.00
1O.OO
20 00
0
.5
0
1
7
1
8
4
4
4
.010
.500
.100
1 000
1 000
010
636
.5
1.00
10.00
20.00
10.00
.17
10.00
.17
BEG DATE
81/11/18
82/02/24
81/11/18
82/09/09
81/11/18
81/11/18
81/11/18
78/04/12
79/02/06
78/04/12
82/02/24
82/02/24
82/02/24
82/02/24
82/02/24
82/02/24
82/02/24
81/11/18
78/04/12
82/11/17
84/03/26
82/11/17
82/02/24
81/11/18
81/11/18
END DATE
82/11/17
82/02/24
82/11/17
82/11/17
81/11/18
82/11/17
81/11/18
84/03/26
81/11/18
84/0 S/26
82/11/17
82/11/17
82/11/17
82/11/17
82/11/17
82/11/17
83/11/07
82/11/17
83/11/07
84/03/26
84/03/26
84/03/26
82/09/09
81/11/18
82/09/09
-------�
SIOREf RETRIEVAL DATE 89/06/08
SH30062BHP06LF 367SNNG-1032
40 09 42.O 076 23 08.0 4
RAYBESTOS FRICTION MATERIALS HELL HP06
42071 PENNSYLVANIA LANCASTER
SUSQUEHAMNA 021200
CHICKIES CREEK
21PA 830716 HO 02050J06
0025 FFET DEPTH
PGH-INVENT
PACE:
Scenario 9
Southeastern Pennsylvania
/TYPA/AHBNT/MELL/NDNITR/BaHN/LNDFL/lMZARO
PARAMETER
OO068
00076
00095
00403
00420
00425
00410
00515
00615
00620
00610
00680
00682
0068S
00690
00929
00940
00945
00951
01002
01007
MAX SAMP
TURB
CNDUCTVY
PH
OH ALK
HCOJ ALK
COS ALK
RESIDUE
N02-N
N03-N
NO21N03
T ORG C
CARBON I
T. INOR6
T -CARBON
SODIUM
CHLORIDE
SULFATE
FLUORIDE
ARSENIC
BARIUM
DEPTH
TRBIOHTR
AT 25C
LAB
CAC03
CAC03
CAC03
OISS-105
TOTAL
TOTAL
N-TOTAL
C
NIORC.DI
C
C
HA. TOT
TOTAL
S04-TOT
F. TOTAL
AS. TOT
BA.TOT
FEET
HACH FTU
MICRONHO
SU
MG/L
MG/L
MG/L
C MG/L
MG/L
MG/L
MG/L
MG/L
SS MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
M6/L
UG/L
UG/L
MEDIUM
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
01027 CADMIUM CD.TOT UG/L HATER
01034 CHROMIUM CR.TOT
UG/L HATER
01042 COPPER CU.TOT UG/L HATER
01045 IRON FE.TOT UG/L HATER
01OS1 LEAD
PB.TOT UG/L HATER
010B5 MANGNESE UN
UG/L HATER
RMK NUHBEI
1
1
K
R
1
K
TOT 1
K
K
TOT
K
TOT
K
TOT
K
TOT !
,
K 3
TOT !
!
1 MEAN
20.16700
5.375000
2039.700
7.0*6200
1. 000000
S6Z.OOOO
1.000000
1710.000
.0020000
1.485500
4.200000
16. 59500
.5000000
15.11200
1998.000
97.00000
97.00000
9.214000
9.940000
1051.600
.4100000
1 .000000
131.3300
100.0000
125.0000
7.5S3500
10.00000
B. 000000
B. 333300
10.00000
S. 750000
43.33100
947.5000
40.00000
i 766.0000
I 8.000000
1 5.666700
i 6.600000
i 192.0000
VARIANCE
.0839840
34 . 90900
67718.00
.0201420
3.459300
1303.600
1305.200
1.603800
63.26800
52906.00
.0264670
.000(1000
3333.400
2500.000
S. 333400
5.333300
8.333400
6.250000
3S.3S400
855030.0
805980.0
8.000000
16.33100
11.80000
8470.000
STAN OEV 1
.2898000
5.908400
160.2300
.1419200
1.859900
36.10500
36.12700
1.266400
7.954100
230.0100
.1626900
.0000000
57.73500
50.00000
2.309400
2.309400
2.886800
2.500000
S. 773700
924.6800
897.7600
2.828400
4.041500
1.435100
92.03300
tAXIMUM 1
' 20.5
14.0
2470
7.2
1
36Z
1
1710
.002
4.200
4.20
116.7
.5
116.7
1998.0
97.0
97.0
11.00
24
1JJO
.59
1
200
100
200
10
10
10
10
10
10
50
2SOO
40
2300
10
10
10
540.0
1INIMUH
20. 0
1.3
1784
6.8
I
362
1
1710
.002
.002
4.20
2.0
.5
.5
1998.0
97.0
97.0
8.00
5
715
.24
1
100
100
100
6
10
6
5
10
5
40
220
40
40
6
2
2
290.0
BEG DATE
82/02/24
81/11/18
81/11/18
81/11/18
84/03/26
84/03/26
84/03/26
84/03/26
81/11/18
81/11/18
ai/ii/ia
82/02/24
81/11/18
81/11/18
81/11/18
81/11/18
81/11/18
81/11/18
81/11/18
81/11/18
81/11/18
81/11/18
81/11/18
82/09/09
81/11/18
82/02/24
81/11/18
81/11/18
81/11/18
82/02/24
81/11/18
82/02/24
81/11/18
84/03/26
81/11/18
81/11/18
82/02/24
81/11/18
81/11/18
END DATE
83/08/04
82/11/17
84/0 3/26
84/03/26
84/01/26
84/03/26
84/03/26
84/03/26
81/11/18
82/11/17
81/11/18
84/03/26
81/11/18
84/03/26
81/11/18
81/11/18
81/11/18
84/03/26
84/03/26
84/03/26
82/11/17
82/11/17
82/11/17
82/09/09
82/11/17
82/11/17
81/11/18
82/11/17
82/11/17
82/02/24
82/11/17
82/11/17
82/11/17
84/03/26
84/03/26
82/09/09
84/03/26
84/03/26
84/01/26
-------�
S1ORLT NEIRIEVAL DATE 89/06/08
SH300628MP06LF 367SNNG-1032
40 09 42.0 076 23 08.0 4
RAVBESTOS FRICTION MATERIALS NELL KP06
42071 PENNSYLVANIA LANCASTER
SUSqUEHANNA 021200
CHICKIES CREEK
21PA 810716 HQ 02050306
0025 FEET DEPTH
PGMMNVENT
HAUt:
Scenario 9
Southeastern Pennsylvania
/TYPA/AHBNT/HELL/MONITR/OOHN/LNDFL/HAZARD
PARAMETER
01077 SILVER AG.TOT
01092 ZINC ZN.TOr
01147 SELENIUM SE.TOT
01501 ALPHA TOTAL
UG/L
MEDIUM
NATER
UG/L NATER
UG/L HATER
PC/L NATER
03501 BETA TOTAL PC/L NATER
09S01 RA-226 TOTAL PC/L NATER
31507 TOT COLI MPN COKP /100HL NATER
32730 PHENOLS TOTAL UG/L NATER
I—"
O
•VI
39390
39400
39480
39730
39740
39782
70304
71900
72019
78115
ENDRIN
TOXAPHEN
HTHXYCLR
2,4-0
2,4,5-T
LINOANE
SOLIDS.
MERCURY
OEPTH-FT
TOX
NHL SHPL
NHL SHPL
NHL SHPL
NHL SHPL
DISS.TO
HG. TOTAL
BL LAND
HALOGEN
TOT UG/L
TOTUG/L
UG/L
UG/L
UG/L
UG/L
T.MG/L
UG/L
SURFACE
UG/L
NATER
HATER
HATER
NATER
HATER
NATER
NATER
NATER
HATER
NATER
81375 HALOGEN ORGANICS MG/L NATER
RHK NUMBE
K
TOT
K
K
TOT
K
K
K
TOT
K
K
K
K
K
K
K
•
t
K <
TOT 1
1
1 MEAN VARIANCE STAN OEV MAXIMUM
10.00000 10.0
10.00000 .0000000 .0000000 10.0
10.00000 .0000000 .0000000 ,10.0
8500.000 1690000 1300.000 9300
1.000000 .0000000 .0000000 1
1.600000 2.830000 1.682300 4
1 . SOOOOO 2
1.575000 1.889200 1.374500 4
8.966700 57.80300 7.602900 16
3.000000 3.0
2.000000 2
9.333300 6.333500 2.516700 12
3.500000 4.500000 Z. 121300 5
7.000000 14.50000 3.807900 12
.0133330 .0000333 .0057735 .020
.6666700 .0833340 .2886800 1.000
.0733330 .0021333 .0461880 .100
1.000000 .0000000 .0000000 1.000
1.000000 .0000000 .0000000 1.000
.0133330 .0000333 .0057735 .020
2041.800 54381.00 237.4500 2296
.7500000 .0833330 .2886800 1.0
> 15.56400 3.754800 1.937700 16.75
I 7204 BOO 81311000 9017.300 18750.00
i 20.00000 .0000000 .0000000 20.00
1 3612.400 49596000 7042.500 18750.00
1 15.36400 199.9400 14.14000 28.00
MINIMUM BEG DATE END DATE
10.0 82/11/17 82/11/17
10.0 81/11/18 82/09/09
10.0 81/11/18 82/11/17
7000 82/02/24 82/11/17
81/11/18 82/11/17
82/02/24 82/11/17
81/11/18 81/11/18
81/11/18 82/11/17
81/11/18 82/11/17
3. 82/02/24 82/02/24
81/11/18 81/11/18
82/02/24 82/11/17
81/11/18 84/03/26
81/11/18 84/03/26
.010 82/02/24 82/11/17
.500 82/02/24 82/11/17
.020 82/02/24 82/11/17
1.000 82/02/24 82/11/17
1.000 82/02/24 82/11/17
.010 82/02/24 82/11/17
1686 82/02/24 83/11/07
.5 81/11/18 82/11/17
12.12 82/02/24 83/11/07
6.00 82/11/17 83/11/07
20.00 84/03/26 84/03/26
6.00 82/11/17 84/03/26
.09 81/11/18 82/09/09
-------�
STOREI RETRIEVAL DATE 89/06/08
SHlOObZMUWlF 367CPLR-105D
07
42071 PENNSYLVANIA LANCASTER
SUSQUEHANNA 021ZOO
CHICKIES CREEK
ZIPA 83071t HQ 02O50I06
FEET DEPTH
PCM = INVENT
PAGE:
Scenario 9
Southeastern Pennsylvania
/T VP A/AHBNT/HE L L/HONITR/BACK/LNDFL/HAZ»RD
PARAMETER
00068
00076
00095
00403
00420
00425
00430
00515
00615
00620
00630
-n 00680
1
>— •
O
CO
00682
00685
00690
00929
00940
00945
00951
01002
01007
01027
01034
01042
01045
01051
01 OSS
01077
. 01092
MAX SAMP
TURB
CNDUCTVV
PH
OH ALK
HCOJ ALK
COS ALK
RESIDUE
N02-N
NOS-N
N02IN03
T OR6 C
CARBON I
T. INORG
T -CARBON
SODIUM
CHLORIDE
SULFATE
FLUORIDE
ARSENIC
BARIUM
CADMIUM
CHROMIUM
COPPER
IRON
LEAD
HANGMESE
SILVER
ZINC
DEPTH
TRBIONTR
AT 2SC
LAB
CACO3
CAC03
CAC03
DISS-105
TOTAL
TOTAL
N-TOTAL
C
NIORG.DI
C
C
NA.TOT
TOTAL
SO4-TOT
F. TOTAL
AS. TOT
BA.TOT
CD, TOT
CR.TOT
CU.TOT
FE.TOT
PB.TOT
MM
AC, TOT
7N.TOT
FEET
HACK FTU
MICROMHO
SU
MG/L
HG/L
MG/L
C HG/L
HG/L
HG/L
MG/L
HG/L
SS.MG/L
HG/L
HG/L
HG/L
MG/L
HG/L
HG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
MEDIUM
NATER
MATER
NATER
NATER
NATER
NATER
NATER
NATER
NATER
NATER
NATER
NATER
NATER
NATER
NATER
HATER
HATER
MATER
HATER
NATER
NATEH
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
RHK NUMBER
K
K
K
K
TOT
K
K
TOT
K
TOT
K
TOT
K
TOT
K
4
4
14
14
1
1
1
1
1
4
1
14
4
4
4
5
5
5
4
4
3
1
4
4
1
I
4
I
4
1
5
3
2
5
4
1
5
4
3
HE AN
54.50000
5.000000
873.1900
7.474300
1.000000
270.0000
1.000000
606.0000
.0050000
4.377500
1.100000
22.32200
557.0000
78.00000
62.00000
43.04000
14.92000
126. WOO
.5300000
1.000000
133.3300
100.0000
125.0000
7.500000
18.00000
10.00000
12.00000
23.33300
295.0000
40.00000
244.0000
15.13300
S.SOOOOO
10.60000
25.00000
20.00000
24.00000
10.00000
60.00000
VARIANCE
ai. ooooo
24 . 16000
7681.000
.0353440
11.15300
766.4000
142.6700
1.333100
.0000000
140.6100
10.53200
126.1600
.004*676
.0000000
3333.400
2500.000
8.333300
.0000000
16.00000
33.33400
134500.0
113880.0
65.33400
4.500000
75.80000
300.0000
Z SO. 0000
.0000000
3700.000
STAN DEV MAXIMUM MINIMUM
9.000000
4.915300
87.64100
.1880000
3.339600
27.68400
11.94400
1.154700
.0000000
11.85800
3.245300
11.23200
.0697680
.0000000
57. 73500
50.00000
2.866800
.0000000
4.000000
S. 773500
366.7400
337.4600
8.082900
2.121300
8.706300
17.32100
15.16600
.0000000
bo.azaoo
68.0
.12.0
1025
7.7
1
270
1
606
.005
7.500
1.10
91.0
568 0
79.0
82.0
57.00
24
141
.63
1
200
100
200
10
18
10
18
SO
840
40
840
20
5
20
50. 0
20.0
50. 0
10.0
130
50.0
1.2
720
7.1
1
270
1
606
.005
1.100
1.10
1.8
540.0
77.0
82.0
34.00
15
114
.47
1
100
100
100
5
16
10
10
20
60
40
40
6
2
2
10.0
20.0
10.0
10.0
20
BEG DATE
82/02/24
81/11/20
81/11/20
61/11/20
84/03/26
84/03/26
84/03/26
84/03/26
81/11/20
81/11/20
81/11/20
81/11/20
81/11/20
81/11/20
81/11/20
81/11/20
81/11/20
81/11/20
81/11/20
81/11/20
81/11/20
82/09/09
81/11/20
81/11/20
82/09/09
81/11/20
81/11/20
82/02/24
81/11/20
84/03/26
61/11/20
81/11/20
02/09/09
81/11/ZO
81/11/20
84/03/26
ai/ii/zo
81/11/20
B2/02/24
END DATE
83/08/04
82/11/17
84/03/26
84/03/26
84/03/26
84/03/26
84/03/26
84/03/26
81/11/20
82/11/17
81/11/20
84/03/26
81/11/20
81/11/20
81/11/20
84/03/26
84/03/26
84/03/26
82/11/17
82/11/17
82/11/17
82/09/09
82/11/17
82/11/17
82/09/09
82/11/17
82/11/17
82/11/17
82/11/17
84/03/26
84/03/26
82/11/17
84/03/26
84/03/26
82/11/17
at/03/26
B4/03/26
82/11/17
ez/n/17
-------�
STORET RETRIEVAL DATE 84/06/08
SM30062BMP07LF 367EPLR-10SO
40 09 42.0 076 23 08.0 4
RAY8ESTOS FRICTION MATERIALS HELL WO7
4Z07I PENNSYLVANIA LANCASTER
SUSQUEHANNA O21ZOO
CHICKIES CREEK
Z1PA a3071b HQ 020S0306
0080 FEET DEPTH
PGM:INVENT
PAGE.
Scenario 9
Southeastern Penmylvama
/TVPA/'AHBNT/HELL/HONITR/BACKXLNOFL/NAZARO
PARAMETER
01147 SELENIUM SE.TOT
01SOI ALPHA TOTAL
05501 BETA TOTAL
31SOJ TOT COLI KPN COMP
327X0 PHENOLS TOTAL
MEDIUM
UG/L HATER
PC/L MATER
PC/L MATER
/100HL MATER
UG/L MATER
-n
i
0
10
39390
59400
39480
39750
39740
39782
70 304
71900
72019
781 IS
ENDRIN
TOXAPHEN
MTHXVCLR
2,4-0
2,4,5-r
LIMOANE
SOLIDS.
MERCURY
DEPTH-FT
TOX
MHL SMPL
NHL SMPL
MHL SMPL
MHL SMPL
OISS.TO
HG. TOTAL
BL LAND
HALOGEN
TOT UG/L
TOTUG/L
UG/L
UG/L
UG/L
UG/L
T.MG/L
UG/L
SURFACE
UG/L
MATER
MATER
MATER
HATER
MATER
HATER
HATER
HATER
HATER
HATER
811/5 HALOGEN ORGANICS MG/L HATER
RHK NUHBEI
K
K
K
TOT
K
K
K
K
K
K
K
K
TOT
i MEAN
1.000000
.7750000
3.100000
10.00000
9.666700
5.500000
7. 200000
.0133330
.6666700
.1000000
1.000000
I.OOOOOO
.013333O
610.0700
. 7500000
16 .48800
56257.00
20.00000
28138.00
23.35200
VARIANCE
.0000000
.4425000
26.13000
12.33400
4.500000
18.70000
.0000533
.0833340
.0000000
.0000000
. ooooooo
.0000333
670.0000
.0833330
1.736400
1122E*07
.0000000
5712E«06
244.4200
STAN DEV
.0000000
.6652100
5. 111800
3.S11900
2.121300
4.324400
.0057735
.2886800
.0000000
.0000000
.OOOOOOO
.0057735
25.88400
.2886800
1.317700
10S930.0
.0000000
75584.00
15.63400
MAXIMUM
1
2
9
10
13
5
13
.020
1.000
.100
1.000
1.000
.020
639
1.0
17.58
215000.0
20.00
215000.0
46.00
MINIMUM
1
.2
0
10
6
2
2
.010
.500
.100
1.000
1.000
.010
572
.5
13.92
6.00
20.00
6.00
.11
BEG DATE
81/11/20
81/11/20
81/11/20
81/11/20
82/02/24
81/11/20
81/11/20
82/02/24
82/02/24
8Z/OZ/Z4
82/02/24
82/02/24
82/02/24
82/02/24
81/11/20
82/02/24
82/11/17
84/03/26
82/11/17
81/11/20
END DATE
82/11/17
82/11/17
82/11/17
81/11/20
82/11/17
84/03/26
84/05/26
82/11/17
82/11/17
82/11/17
82/11/17
82/11/17
82/11/17
83/11/07
82/11/17
83/11/07
83/11/07
84/03/26
84/05/26
82/09/09
-------�
STORET RETRIEVAL DATE 89/06/08
<• TOIAL STATIONS PROCESSED
Scenario 9
O Pennsylvania
PCM* INVENT
GROSS
PAGE:
<1970
1470
1971
1972
197S
1974
1975
1976
1977
I97»
1979
1980
1981
1981
1981
1984
19BS
1986
1987
1988
1989
TOTAL
STA BEG
0
0
0
0
0
0
0
0
0
1
0
0
s
0
0
0
0
D
0
0
0
4
STA END
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
4
0
0
0
0
0
4
B OF DBS 8 OF SAMPLE
0 0
0 0
0 0
0 0
0 0
0 0
0 0
0 0
0 0
IS 4
IS 4
IS 4
161 10
404 1Z
76 12
108 16
0
0
0
0
0
8S4 62
STA END-PERIOD OF RECD IN VRS
=0 <
. S "5
0000
0000
0000
0 0 O
0 0 O
000
000
0 0 O
000
000
0
0
0
0
0
0
0
0
0
0
0
0
0
s
0
0
000
000
000
DOS
-------�
STORET REIRIEVAL DATE 89/06/08
<• TOTAL STATIONS PROCESSED
Scenario 9
Southeastern Pennsylvania
PGMMNVENT
GROSS
PAGE:
10
PARJ
00068 MAX SAMP
00076 TURB
0009S CNOUCTVY
00403 PH
00410 T ALK
00420 OH ALK
00425 HCOS ALK
004 SO COS ALK
00515 RESIDUE
006 IS NOZ-N
00620 NOS-N
006SO N02INOJ
00680 T OR6 C
00682 CARBON I
00685 T. INORG
00690 T-CARBON
00929 SODIUM
00940 CHLORIDE
00945 SULFATE
00951 FLUORIDE
01002 ARSENIC
01007 BARIUM
01027 CADMIUM
01034 CHROMIUM
01042 COPPER
O104S IRON
IMETER
DEPTH
TRBIOMTR
AT 25C
LAB
CAC03
CAC03
CACOJ
CACOJ
DISS-105
TOTAL
TOTAL
N-TOTAL
C
NIORG.OI
C
C
NA.TOT
TOTAL
S04-TOT
F. TOTAL
AS. TOT
BA.TOT
CO. TOT
CR.TOT
CU.TOT
FE.TOr
FEET
HACK FTU
HICROMHO
SU
MG/L
HG/L
MG/L
MG/L
C MG/L
MG/L
MG/L
MG/L
MG/L
SS.MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
UG/L
UC/L
UG/L
UG/L
UG/L
UG/L
MEDIUM
MATER
MATER
MATER
MATER
MATER
MATER
MATER
HATER
MATER
MATER
MATER
MATER
MATER
MATER
MATER
MATER
MATER
MATER
MATER
MATER
MATER
MATER
MATER
HATER
HATER
HATER
RNK
K
K
TOT
K
TOT
K
TOT
K
TOT
K
TOT
K
TOT
K
TOT
K
TOT
XJMBER
SO
16
62
62
IS
4
16
4
45
2
47
7
7
7
20
20
35
16
2
14
16
14
2
16
3
13
16
8
a
16
13
2
15
32
3
35
MEAN
40.48300
19.76900
1665.800
7.196800
342.2000
1.000000
694.0000
2 . 000000
1.000000
1 . 250000
1599.000
.0035000
2.320900
2.608000
64.15200
. 7500000
61.45400
1299.200
130.1400
133.0000
88.48400
28.08000
429.7000
.7243800
2.6SOOOO
1.000000
1.231300
150.0000
100.0000
143.7500
7.333300
71. 692 300
7.625000
14.87500
9.375000
12.12500
25.38500
30.00000
26.00000
1572.800
40.00000
W4 1.400
VARIANCE
98.73400
780.2900
1318100
.0731020
3999.200
.0000000
395060.0
.0000000
.2500000
1064100
.0000030
7.693200
S. 235700
10192.00
.1250000
9916.600
2328400
19411.00
19295.00
14310.00
743.0300
290710.0
.4002300
4.805000
.0000000
.7196200
4230.800
.0000000
3958.300
C. 333400
6.730800
6.116700
216.4100
3.125000
110.5200
160.2600
.0000000
140.0000
4660900
.0000000
4439200
STAN DEV 1
9.936500
27.93400
1148.200
.2703700
63.23900
.0000000
628.5400
.0000000
.5000000
1031.600
.0017321
2.773700
2.288200
100.9600
.3535500
99.68200
1525.900
139.3200
138.9100
119.6200
27.25900
539.1700
.6326400
2.192000
.0000000
.8483100
65.04400
.0000000
62.91500
2.309400
2.594400
2.473200
14.71100
1.767800
10.51300
12.65900
.0000000
11.83200
2158.900
.0000000
2106.900
1AXIHUM h
68.0
80.0
, 5200
7.8
440
1
1624
2
1
2
Z990
.005
7.500
4.90
446.2
1.0
446.2
4520.0
445.0
447.0
452.00
115
1930
2.40
4
1
4
300
100
300
10
10
10
50
10
50
50
30
50
10100
40
10100
INIMUM
20.0
1.2
565
6.4
210
1
270
2
1
1
606
.002
.002
.23
1.8
.5
.5
348.0
57.0
59.0
8.00
5
33
.04
1
1
1
100
100
100
6
5
5
5
5
5
10
30
10
60
40
40
BEG DATE END DATE
78/04/12 83/08/04
81/11/18 82/11/17
76/04/12 84/03/26
78/04/12 84/03/26
78/04/12 81/08/11
84/03/26 84/03/26
84/03/26 84/03/26
84/03/26 84/03/26
84/03/26 84/03/26
84/03/26 84/03/26
84/03/26 84/03/26
81/11/18 81/11/20
81/11/18 82/11/17
81/11/18 81/11/20
81/11/18 84/03/26
81/11/18 82/11/17
81/11/18 84/03/26
81/11/18 81/11/20
81/11/18 81/11/20
81/11/18 81/11/20
81/11/18 84/03/26
81/11/18 84/03/26
78/04/12 84/03/26
81/11/18 82/11/17
82/09/09 82/11/17
81/11/18 82/11/17
81/11/18 82/11/17
81/11/18 82/11/17
82/09/09 02/09/09
81/11/18 82/11/17
82/02/24 82/11/17
81/11/18 82/11/17
81/11/18 82/11/17
81/11/18 82/11/17
81/11/18 82/11/17
81/11/18 82/11/17
78/11/06 82/11/17
79/11/06 80/11/10
78/11/06 82/11/17
78/04/12 84/03/26
84/03/26 84/03/26
78/04/12 64/03/26
-------�
STORET RETRIEVAL DATE 69/06/06
4 TOTAL STATIONS PROCESSED
Scenario 9
Southeastern Pennsylvania
PGM=INVENT
6HOSS
PAGE:
11
PARAMETER
01051 LEAD PB.TOT
01055 HANGNESE MN
01077 SILVER AG.TOT
01092 ZINC ZN.TOT
01147 SELENIUM SE,TOT
01501 ALPHA TOTAL
I
t—•
t—'
rsa
OSS01 BETA
TOTAL
MEDIUM
UG/L HATER
U6/L HATER
UG/L HATER
UG/L HATER
U8/L HATER
PC/L HATER
PC/L HATER
09501 RA-226 TOTAL
31507 TOT COLI MPN COMP
527SO PHENOLS TOTAL
PC/L
/mom.
HATER
HATER
UG/L HATER
39390
19400
39480
39730
39740
39782
70304
71900
72019
78115
ENORIN
TOXAPHEN
HTHXVCLR
2,4-0
2.4,5-T
LINDANE
SOLIDS.
MERCURY
OEPTH-FT
TOX
NHL SMPL
NHL SMPL
NHL SMPL
NHL SMPL
DISS.TO
KG,TOTAL
BL LAND
HALOGEN
TOT UG/L
TOTU6/L
UG/L
UG/L
UG/L
UG/L
T.MG/L
UG/L
SURFACE
UG/L
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
81375 HALOGEN ORGANICS HG/L HATER
RMK
K
TOT
K
TOT
K
TOT
K
K
TOT
K
TOT
K
K
TOT
K
TOT
K
K
K
K
K
K
K
K
TOT
K
TOT
NUMBER
9
14
23
19
1
20
4
12
16
15
16
14
2
16
11
1
12
2
1
3
4
23
12
35
12
12
12
12
12
12
24
16
38
22
10
32
14
1
IS
HE AN
15.55600
11.64300
13.17400
1025.800
20.00000
975.5000
12.50000
10.00000
10.62500
1804.000
1.000000
1.192900
1.000000
1.168800
11.90000
7.300000
11.51700
3.000000
8.000000
4.666700
5.500000
12.78300
4.000000
9.771400
.0133330
.6666700
.0933330
1.000000
1.000000
.0133330
1705.900
l'. 031 300
10.93100
22139.00
2Q. 00000
15227.00
19.47000
10.00000
18.83800
VARIANCE
194.7800
272.5600
235.7000
2003300
1948400
25.00000
.0000000
6.250000
12264000
.0000000
1.674600
.5000000
1.489000
139.3000
128.4000
.0000000
21.33300
17.00000
374.0000
1.090900
260.2400
.0000242
.0606060
.0005133
.0000000
.0000000
.0000242
1389500
1.182300
70.48600
252SE*06
.0000000
1819E»06
219.2000
209.5200
STAN OEV
13.95600
16.50900
15.35200
1415.400
1S95.900
5.000000
.0000000
2.500000
3502 . 000
.0000000
1.294100
.7071100
1.220200
11.80300
11.33200
.0000000
4.618800
4.123100
19.33900
1.044500
16.13200
.0049237
.2461800
.0230940
.0000000
.0000000
.0049237
1178.800
1.087300
8.395600
50253.00
.0000000
42652.00
14.80500
14.47500
MAXIMUM
50
50
50
5000.0
, 20.0
5000.0
20.0
10.0
20.0
9300
1
4
2
4
38
7
38
3.0
8
10
10
100
5
100
.020
1.000
.100
1.000
1.000
.020
4636
5.0
44.00
215000.0
20.00
215000.0
46.00
10.00
46.00
MINIMUM
6
2
2
10.0
20.0
10.0
10.0
10.0
10.0
20
1
0
.5
0
0
7
0
3.0
8
2
2
4
2
2
.010
.500
.020
1.000
1.000
.010
572
.5
3.00
6.00
20.00
6.00
.09
10.00
.09
BEG DATE
78/11/06
79/11/06
78/11/06
81/11/18
84/OS/26
81/11/18
81/11/18
81/11/18
81/11/18
78/11/06
81/11/18
81/11/18
81/11/18
81/11/18
81/11/18
81/11/18
81/11/18
82/02/24
81/11/18
81/11/18
81/11/18
78/04/12
79/02/06
78/04/12
82/02/24
82/02/24
82/02/24
82/02/24
82/02/24
82/02/24
82/02/24
81/11/18
78/04/12
82/11/17
84/03/26
82/11/17
81/11/18
81/11/18
81/11/18
END DATE
82/11/17
84/03/26
84/03/26
84/03/26
84/03/26
84/03/26
82/11/17
82/11/17
82/11/17
82/11/17
82/11/17
82/11/17
82/02/24
82/11/17
82/11/17
81/11/18
82/11/17
82/02/24
81/11/18
81/11/20
81/11/20
84/03/26
84/03/26
84/03/26
82/11/17
82/11/17
82/11/17
82/11/17
82/11/17
82/11/17
83/11/07
82/11/17
83/11/07
84/03/26
84/03/26
84/03/26
82/09/09
81/11/18
82/09/09
-------�
Scenario 10
WELLHEAD PROTECTION
STATE PERSPECTIVE
OVERVIEW
A State Geologist is in the process of delineating a Wellhead
Protection Area (WHPA). The geologist knows the pumping wells induce
recharge from an adjacent stream and is interested in determining if
there have been any instances of ground-water or surface water
contamination which may threaten the water supply in question.
OBJECTIVES
To determine if any known potential sources of contamination (such as
RCRA facilities) exist upstream of the supply wells, and then
evaluate if ground-water or surface water quality indicate any
additional sources or contamination problems.
SCENARIO LOCATION
Monterey County, California
DATA SOURCE
Data used for the scenario reside in STORET.
STORET QUESTIONS/OUTPUT
1. Map the area under consideration.
MAP: LOG; Map of area under consideration.
2. Are there any known waste storage facilities near the well
field which may threaten water quality?
TABLE: INVENT: RCRA monitoring locations within a Lat/Lon polygon
including basic statistics of sample data.
3. What is the historical water quality in the stream; are
there any indications of contamination?
TABLE: INVENT; Summary of water quality parameters for the stream.
4. Are any of the following indicator chemicals (which would
indicate a source) present in the monitoring or supply wells
near the well field? Have they been detected in the past?
INDICATOR POTENTIAL SOURCE
TCE CERCLA sites
Cadmium, chromium RCRA sites
nitrates sewage, agriculture
TABLE: RET; Instances of indicator chemical contamination in ground
water within the lat/lon polygon.
SCENARIO 10 RESULT
The geologist learned that there was a RCRA facility upstream and
recommended additional water quality monitoring in vicinity of the
F-113
-------�
WELLHEAD PROTECTION
STATE PERSPECTIVE
DECISION PATH
QUERY STORE! FOR
ANYRCRA
MONITORING
LOCATIONS
MAP AREA
UNDER
CONSIDERATION
QUERY STORET
FOR HISTORICAL
QUALITY OF WATER
IN THE STREAM
QUERY STORET FOR
INSTANCES OF
CONTAMINATION
IN AREA WELLS BY
INDICATOR CHEMICALS
IDENTIFY CONTAMINANT
SOURCES WITHIN
STREAM WATERSHED
i
RECOMMEND
MONITORING
OR CONTROLS TO
PROTECT PUBLIC SUPPLY
OFFICE OF GROUND-WATER MANAGEMENT
OFFICE OF INFORMATION RESOURCES MANAGEMENT
SCENARIO 10 FOR STORET
F-114
-------�
RETRIEVAL PROGRAM
PGI1=LOC
THIS PROGRAM GENERATES A HAP OF STATION LOCATIONS WITHIN A DEFINED AREA. THE MAP IS DRAWN ON
A CALCOMP PLOTTER AND HAILED UNDER SEPARATE COVER
STATION SELECTION HAS BIT:
LATITUDE/LONGITUDE COORDINATES OR AREA SURROUNDING A SPECIFIED COORDINATE
STATIONS SELECTED HERE RESTRICTED TO:
STATION TYPEISI AND/OR SPECIFIC PARAMETER COVERAGE
AGENCIES WHOSE DATA HAS NOT BEEN MIETIREO'
CONTACTS FOR AGENCY CODES RETRIEVED:
AGENCY PRIMARY CONTACT NAME ORGANIZATION PHONE NUMBER!S>
2ICAL-1 DANIELS, PHIL CA HATER RES CONTROL BRD 19161322-4514
tlCAL-4 DANIELS. PHIL CA HATER RES CONTROL BRO (916)322-4514
2ICARG UILSQN. ERIC USEPA REGION 9 1415)974-8277 IFTSI454-S277
01
**«*• £ND OF SUKTURT SECTION ««*««
-------�
S10RET RETRIEVAL DATE 69/06/06 LCC IMAP) - VERSION OF FEB 26,1985
MAP PHt-PROCLSSIMG BEGINS
PROJECTION = ALBERS
SCALE = 1:50000
REFERENCE LATITUDE = 36 48 30 REFERENCE LONGITUDE = 121 47 30
LATITUDE MINIMUM = 36 46 42 IONUITLDE MINIMUM = 121 44 30
LATITUDE MAXIMUM = 36 50 IB LONUITUOE MAXIMUM = 121 50 30
MIUDOM X-INCHES = 6.96
UINDOM V-iriCHES = 5.29
HAP PRE-PROCESSING COMPLETE
-------�
STOHtl HEIKIEVAL DATE 69/06/06
LCC (STORPLT) - VERSION OF FEB Z6.19B5
PGM=LUC IS10RPLTI LOG OF MAPS
Mil
• II
• II
MM
Mil
»•
MM
BEGIN JOB
PLOTMSC
PIOTMSG
PLOIHSG
EIIO MAP 101
END JOB
HC001 &/ cl/69 11:59:06.16 An JES 0001
: PENJ-REDlF-ENI-BLACKlPENZ-BLUE
: THANO FOR PLOTTING SO MANY HAPS FOR THE
: REGIONAL FORUMS. OLOF
HC001 */ U/69 11:59:14.11 AH JES 6001 FOREGROUND POINTS 17
HC001 6/ U/B9 11:59:14.11 An JES 6001
BACKGROUND POINTS 93
PGM=LOC (3TQRPLT) NORMAL END
-------�
STORET RETRIEVAL DATE 89/06/08
PGn=LOC - VERSION OF FEB 28.1985
2ICAL-I
2ICAL-4
2ICAL-1
21CAL-4
2ICAL-1
2ICAL-4
2ICARG
2ICAR6
2ICARG
2ICARG
2ICARG
2ICARG
2ICARG
21CARG
21CAL-1
2ICAL-I
21CAL-4
01311430
HB03013II430
01311)10
HB030131I330
01311)30
UB030I311130
CAT080011653U14
CATOaODI1653DHl
CAT0800ll6530n2
CAT060D1I653JH5
CATOeOOl 16530.13
CATOaOOII653DH6
C»T0800ll653Una
CAT06001I653DH7
01315030
01311030
HB03D13I1030
16 4/ 00.
16 4r oo.
16 4/ 22.
16 4/ 22.
26 4* 00.
26 4d 00.
26 46 14.
26 4d 14.
26 4d 15.
26 4d IB.
26 4« 18.
26 4tt IB.
26 4ri 20.
26 4d 21.
26 4d 36.
26 4tt SB.
26 4d SB.
) 121 45 58. (
121 45 58.
121 45 10.
121 45 10.
121 47 15.
121 47 15.
121 46 44.
121 46 47.
121 46 48.
121 46 44.
121 46 48.
121 46 33.
121 46 30.
121 46 33.
121 47 00.
121 47 IB.
121 47 IB.
> 2
2
2
2
2
2
MORRO COJO 3LU HB HE OF HHY I
tlORRO COJO SLU HB NE OF KMT 1
MORRO COJO SLU EB A RR S OF DOLA
MORHO COJO SLU EB A RR S DOLAN
OLD SALINAS R CH AB FIRST TIDE 6
OLD SALINAS R CH AB 1ST TIDE 6T
PGE MOSS LANDING RCRA HELL H4 UP
P6E tlOSS LANDING RCRA HELL HI DO
PCE MOSS LANDING RCRA HELL HZ DO
PGE MOSS LANDING RCRA NELL H5 UP
PGE MOSS LANDING RCRA HELL H3 DO
PGE MOSS LANDING RCRA HELL M6 DO
PGE MOSS LANDING RCRA HELL MB UP
PGE MOSS LANDING RCRA HELL H7 DO
ELKHDRN SLOUGH AT HIBHHAT 1
BENNETT SLU AB TIDE GT
BENNETT SLOUGH AB TIDE GATE
06051
06053
06053
06053
06053
06053
06053
06053
06053
06053
06053
06053
06053
06053
06053
06053
06053
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
CALIFORNIA
HOMTERE
HON1ERC
MONT ERE
MOM IE RE
HOt ME RE
riONTERE
HONTERS
HON1ERE
riOXIERE
nOMIERE
MONTERE
HOMTERE
HOMTERE
HOMTERE
HOril ERE
HONIERE
MONT ERE
END OF FOREGROUND ECHO
00
-------�
S10RIT RETRIEVAL DATE 89/06/08
P
Rl
H P
DSCXT
J V
OOlOOISampling Sites
002001 in SIORET
003001Monterey Co
00400ICBli forma
005001
I000000999999C00000999999
77777777 3F
DUM.ORDER:ll
36500CO
36470CO
121450CO
12150000
3647000
3650000
12145000
12150000
EXTRACT/MASKJMS OPTION PERFORMED
13,03647000.12150000.03650000•121£0000,03650000.12145000,03647000,12145000,,
CLR000052
STATIONS SELECTED = 17
TORET RETRIEVAL DATE 89/06/08
6n=LOC.
- ECHO OF ORIGINAL REQUEST
„ REQUEST NAME: SCtNlOl
CREATED BY: HCU
^ DATE: 89/06/08
o TIME: 11:52
REQUEST DESCRIPTION:
MAP WITH SAMPLE SITES IN POLYGON WINDOW
MONTEREY CO
CALIFORNIA
< STATION SELECTION >
OPTION 4 - WITHIN AN AREA DEFINED BY LAT/LONG POLYGONS OR CIRCLES
DEFINE RECTANGLE! SI BY SPECIFYING NOIiTH/SOUTH/EAST/NEST LIMITS
OLY=LLRET, L=3647000.L=12150000. L=J650000iL=12150000.
L-36SOOOO.L=12145000, L= 4647000,L=12145000.
< STATION RESTRICTION >
STATION TYPES AKD/OII PARAMETER ATTRIBUTES
NLYATTR=AMBMT,
< HAP BACKGROUND >
COUNTY BOL-NDAIIIES
REACH TRACES
REACH NUMBERS
ACKG90UMD=COUHTIES( 1),
ACKGROUMD=REACHES(2 I.
ACKGROUHD=R£ACHNUMSf 1 ),
L01MSG=PEN3-REDlPENl-BLACKIPEN2-BLUE,
OLY=MAPCHECK, L=3647000.L=121500CD. L=3650000,L=12150000,
-------�
L1ICS=(!< —
/HCO JOB IA017STORP.D068I,'SCENJ01 - LOC',TIHE=CO,10),PRTV=2.
/ MSGLEV£L=(0,0»,NOTIFY=HCO
«ROUrE PRINT HOLD
HJOBPARM LINES=999
/FT10F001 DO OISP=(MOD,CATLG).UNIT=OI!iK.
/ DCB=(RECFM=F,LRECL=flOO,BLKSIZE-80QJ,
/ SPACE = (TRK,( 10.10),RLSE),
/ DSN=HCOA017.SCEN101
/PLOTREC DO OUnnY,DCB=(RECFM:FB.LRECL-80.BLKSIZE=4240l
I
I—*
ro
-------�
ft,
I2)'»* I21'49* 121*48* 121*47
ENVIRONMENTAL PROTECTION AGENCY
STORE! SYSTEM
Samp ling Sites
m STORET
Monterey Co
Co I ! forn I a
+ STATION LOCATION
PROJECTION - ALBERS EQUAL AREA
SCALE 1:50000
Steinbeck Country Scenario 10
Monterey County Wellhead Protection Example
3Cfll£CF MILES
HIIO rai um
w*> turn •*/(*/*•
-------�
STORET RETRIEVAL DATE 69/06/08
CAT06001I653UM4 MMAI-M4
36 46 14.4 121 46 44.4 t
PGE HOSS LANDING RCRA MCLL H4 UP
06053 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
2ICARG 850622 HQ 18060011
0071 FEET DEPTH
PGM=INVENT
SCENARIO 10
HELUtEAO PROTECTION
MONTEREY CO
CALIFORNIA
SUMMARY OF HAZARD SITES
/TY PA/INO/AKBNT/MELL/HAZARD
PAGE:
K)
ro
PARAMETER
00010
00011
00076
00095
00400
00530
00620
00600
00929
00940
00945
00951
01002
01007
01027
01032
01034
01042
01045
HATER
MATER
TURB
CNOUCTVY
PH
RESIDUE
N31-N
T ORG C
SODIUM
CHLORIDE
SULFATE
FLUORIDE
ARSENIC
BARIUH
CADMIUM
CHROMIUM
CHROMIUM
COPPER
IRON
TEMP
TEMP
TRBIDNTR
AT 25C
TOT NFtT
TOTAL
C
NA,TOT
TOTAL
S04-TOT
F. TOTAL
AS, TOT
BA.TOT
CD. TOT
HEX-VAL
CR.TOT
CU.TOT
FE.TOT
CENT
FAHN
HACH FTL*
MICROMHC
SU
ns/i
M6/L
MG/L
MG/L
HG/L
MG/L
MG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
MEDIUM
RCKAGM
RCIIAGM
RCIIAGM
RCIIAGH
RCKAGM
RCKAGM
RCI.'AGM
RCIIAGH
RCIIAGM
RCItAGM
RCIIAGM
RdlAGM
RCKAGM
RCHAGM
RCIIAGM
RCIIAGM
RCItAGM
RCIIAGM
RCIIAGM
01051 LEAD
PB.TOT
01OSS HANSNESE HN
01077 SILVER A6,TOT
01067 VANADIUM V.TOT
01147 SELENIUM SE.TOT
31501 TOT COLI MFIMENDO
UG/L RCKAGM
UG/L RCItAGM
UG/L RCIIAGH
UG/L RCItAGM
UG/L RCIIAGM
/100HL RCI.'AGH
327JO PHENOLS TOTAL
39045 2,4,5-TP UTR SHPL
39390 ENDRIN
39400 TOXAPHEN
39480 rtTHXYCLR UNL SHPL
39710 2.4-0 MHL SMPL
39762 LIN9ANE MHL SMPL
UG/L RCI'AGU
UG/L RCIiAGH
TOT UG/L RCIIAGH
TOTUG/L RCI.'AGH
UG/L RCI.'AGM
UG/L RCI.'AGM
UG/L RCIIAGM
RHK NUMBER MEAN
• 12 16.94500
12 62.50000
2 .6800000
16 I25Z.500
16 6.816300
1
U
u
u
u
u
TOT
U
TOT
U
U
u
u
L
U
TOT
U
U
U
U
U
677.0000
2.600000
3.050000
230.0000
95.00000
49.00000
.4333300
.0060000
.1666700
.0073333
.0186670
.0031000
.0100000
.0800000
.0200000
.0600000
.0020000
.0855000
.0576670
.0100000
.0137000
.2000000
.0203330
220.0000
16.00000
2.000000
79.33300
.0366670
.1000000
.1000000
1.000000
.2000000
U 2 .5000000
U 2 .0500000
VARIANCE
.2527100
.6161800
.0050011
66353.00
.0356450
1.690000
.1706900
1300.000
50.00000
.0000000
.0316340
.0133330
.0001203
.0007403
.0032000
.0028000
.0142610
.0094643
.0000000
.0005189
.0006603
14689.00
.0030063
.0000000
.0000000
.0000000
.0000000
.0000000
.0000000
STAN DEV MAXIMUM MINIMUM
.5027000
.9045300
.0707160
261.4500
.1666000
1.300000
.4131500
36.05600
7.071100
.0000000
.1776600
.1154700
.0109700
.0272090
.0565690
.0529150
.1195000
.0972650
.0000000
.0227810
.0260630
122.0200
.0546460
.0000000
.0000000
.0000000
.0000000
.0000000
.0000000
17.2
63.0
.9
1560
7.12
677
4.100
3.4
270.00
100
49
.56
.006
.3
.02
.05
.003
.01
.1
.02
.1
.002
.2
.2
.01
.04
.2
.05
220
16
2
220
.1
.100
.100
1.000
.200
.500
.050
15.6
60.0
.6
900
6.60
677
1.600
2.2
200.00
90
49
.23
.006
.1
.001
.001
.003
.01
.04
.02
.02
.002
.001
.001
.01
.0001
.2
.001
220
16
2
2
.005
.100
.100
1.000
.200
.500
.050
BEG DATE
63/08/24
63/06/24
63/06/25
63/06/24
63/06/24
84/02/15
63/06/25
83/08/24
63/06/25
63/06/25
83/08/25
63/08/25
63/06/25
83/08/25
63/08/25
63/06/25
63/06/25
63/06/25
63/06/25
64/02/15
63/06/25
63/08/25
83/11/16
63/06/25
63/08/25
63/08/25
63/08/25
63/06/25
63/11/16
63/08/25
64/02/15
63/06/25
63/06/25
63/08/25
63/06/25
83/06/25
63/06/25
63/06/25
63/08/25
END DATE
64/05/14
64/05/14
64/02/15
64/05/14
64/05/14
84/02/15
64/02/15
64/05/14
64/02/15
64/02/15
64/02/15
64/02/15
63/06/25
64/02/15
64/02/15
64/02/15
63/06/25
63/06/25
63/11/16
64/02/15
64/02/15
63/08/25
64/02/15
64/02/15
64/02/15
64/02/15
63/08/25
84/02/15
63/11/16
63/08/25
84/02/15
84/02/15
64/02/15
64/02/15
64/02/15
64/02/15
64/02/15
64/02/15
64/02/15
-------�
STORE! RETRIEVAL DATE 89/06/08
CAT080011653UM4 MMA1-M4
36 48 14.4 121 46 44.4 2
PGE MOSS LANDING RCRA HELL M4 UP
06053 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
21CARS 85062Z HQ 1606C011
0071 FEET DEPTH
PGt1=INVENT
PAGE:
SCENARIO 10
WELLHEAD PROTECTION
MONTEREY CO
CALIFORNIA
SUMMARY OF HAZARD SITES
/TYPA/IND/AMBNT/HELL/HAZARD
rv>
ui
PARAMETER MEDIUM
70353 TOX IN WATER UG/L CL RCIIAGW
71900 MERCURY HG.TOTAL UG/L RCIIA6H
71993 ELEVAT'N 6M/SL FEET RCKAGW
72001 TOT DPTH OF HOLE FT RCIIAGH
72004 PPG/FLOM PRIOR TO SMP-HINS RCKAGH
72008 TOT DPTH OF WELL FT RCIIAGH
73666 CASING THICKNES INCH RCIIAGM
73668 WIDTH OF OPENING. 001 INCH RCIIAGW
82546 DEPTH FR H WL TO HP I FT I RCIIAGW
84000 GEOLOGIC AGE CODE RCI.'AGW
84001 AQUIFER NAME CODE RCKAGH
84055 AVAIL. LOGS CODE RCIIAGW
84059 WELL OWN ERSHIP CODE RCHA6W
84060 TOPCG- RAPHY CODE RCKAGM
84061 WELL USE CODE RCIIAGH
84063 DRILLING METHOD CODE RCHA6W
84111 LITHLOGC MODIFIER CODE RCIIAGW
84112 SOURCEOF GEOHYDAT CODE RCIIAGH
84114 WELLCAS MATERIAL CODE RCIIAGW
84116 DRILLING FLUID CODE RCIIAGH
84117 SURFACE SEAL CODE RCIIAGU
84118 METHODOF DEVELOPM CODE RCItAGH
84120 PACKING MATERIAL CODE RCIIAGW
RKK NUMBEI
1
U
11
t
I
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
1 MEAN VARIANCE STAN DEV MAXIMUM MINIMUM
J 7.098300 104.8200 10.23800 24.000 .190
! .0007333 .0000012 .0010970 .002 .0001
J 4.457200 .0536970 .2317300 4.79 4.17
1 71.00000 71.0 71.0
k 15.00000 .0000000 .0000000 15.0 15.0
71.00000 71.0 71.0
4.000000 4.00 4.00
.0200000 .02 .02
i 60.00000
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
.0000000
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
0000000
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
60.00
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
60.00
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
BEG DATE END DATE
63/11/16 64/05/14
63/06/25 84/02/15
83/08/24 64/05/14
66/06/06 66/06/06
63/06/24 63/08/25
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
63/06/24 84/05/14
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
-------�
STORET RETRIEVAL DATE 69/06/08
CAT0800116530M7 HMA2-M7
36 48 21.4 121 46 33.6 2
P6E MOSS LANDING RCRA HELL H7 DOWN
06053 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
21CARG 659622 KQ 1806C011
0046 FEET DEPTH
PGt1= INVENT
SCENARIO 1€
HELLHEAD PROTECTION
MONTEREY CO
CALIFORNIA
SUMMARY OF HAZARD SITES
/TYPA/IND/ArtBNT/MELL/HAZARD
PAGE:
IS
PARAMETER
00010
00011
00076
00095
00400
00530
00620
00660
00929
OQ940
•n 00945
' 00951
ro 01002
*• 01007
01027
01032
01034
01042
01045
HATER
HATER
TURB
CNDUCTVY
PH
RESIDUE
NOJ-H
T ORG C
SODIUM
CHLORIDE
SULFATE
FLUORIDE
ARSENIC
BARIUM
CADMIUM
CHROMIUM
CHROMIUM
COPPER
IRON
TEMP
TEMP
TRBIOMTR
AT 25C
TOT NFLT
TOTAL
C
NA.TOT
TOTAL
S04-TOT
F. TOTAL
AS.TOT
BA.TOT
CO. TOT
HEX-VAL
CR.TOT
CU.TOT
FE.TOT
CENT
FAHN
HACH FTU
niCROMHC
SU
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
HG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
MEDIUM
RCKAGM
RCIIAGH
RCKAGH
RCKAGH
RCHAGH
RCKAGH
RCKAGH
RCIIAGH
RCIiAGM
RCKAGM
RCIIAGM
RCKAGH
RCKAGH
RCKAGM
RCKAGM
RQIAGM
ROIAGH
RCKAGM
RCIIAGM
01051 LEAD
PB.TOT
01055 HANSNESE HN
01077 SILVER AG.TOT
01087 VANADIUM V.TOT
01147 SELENIUM SE.TOT
UG/L RCIIAGH
UG/L RCKAGH
UG/L RCIIAGH
UG/L RCIiAGM
UG/L RCKAGH
31S01 TOT COLZ MFIHENDO /100HL RCIIAGH
32710 PHENOLS TOTAL UG/L RCKAGM
39045 2.4,5-TP HTR SHPL UG/L RCKAGM
39390 ENP TOT UG/L RCKAGM
39400 TO.' TOTUG/L RCKAGH
39460 MTt. HML SMPL UG/L RCIIAGH
RMK NUMBER MEAN
* 8 18.86900
8 66.00000
2 .3350000
12 4916.700
12 6.651700
1 V>04.000
! 60000
12 b. £.06100
U
U
u
U
TOT
U
TOT
U
U
U
TOT
L
U
TOT
U
U
U
U
U
616.6700
1369.000
238.0000
.0966670
.0010000
.1366700
.0073333
.0186670
.0050000
.0100000
.0600000
.0200000
.0333330
.0010000
.0855000
.0573330
.3433300
.0137000
.2000000
.0060000
.0300000
.0220000
4.000000
16.00000
2.000000
7.333300
.0366670
.1000000
.1000000
1.000000
.2000000
VARIANCE
.3526100
1.142900
.0040500
157320.0
.0011097
.2802700
15.27400
1734.000
450.0000
18.00000
.0024333
.0220330
.0001203
.0007403
.0000000
.0005333
.0142810
.0095203
.0066334
.0005189
.0008000
.0005920
57.33300
.0030083
.0000000
.-"•flOOO
100
JOO
STAN DEV MAXIMUM MINIMUM
.5938100
1.069100
.0636390
396.6400
.0333130
.5294100
3.908200
41.64100
21.21300
4.242600
.0493290
.1484400
.0109700
.0272090
.0000000
.0230940
.1195000
.0975720
.0814460
.0227810
.0282840
.0243310
7.571900
.0548480
.0000000
.0000000
.0000000
.0000000
19.4
67.0
.4
5500
6.69
3504
14.000
13.6
650.00
1384
241
.13
.001
.3
.02
.05
.005
.01
.06
.02
.Of
.001
.2
.2
.4
.04
.2
.006
.05
.05
4
16
Z
16
.1
.100
.100
1.000
.200
18.3
65.0
.3
4570
6.60
3504
13.000
1.3
570.00
1354
235
.04
.001
.01
.001
.001
.005
.01
.06
.02
.02
.001
.001
.001
.3
.0001
.2
.006
.01
.006
4
16
t
2
.005
.100
.100
1.000
.ZOO
BEG DATE
63/08/25
83/08/25
83/08/25
83/08/25
83/08/25
84/02/15
83/08/25
83/08/25
83/08/25
83/08/25
83/08/25
83/08/25
83/08/25
83/08/25
63/08/25
83/06/25
83/08/25
63/06/25
83/11/16
83/08/25
63/08/25
63/08/25
83/11/16
03/06/25
83/08/25
63/08/25
83/08/25
63/08/25
83/11/16
63/08/25
63/11/16
83/08/25
64/02/15
63/08/25
63/08/25
83/08/25
83/08/25
83/08/25
83/08/25
END DATE
84/05/14
84/05/14
64/02/15
64/05/14
84/05/14
84/02/15
84/02/15
84/05/14
84/02/15
84/02/15
64/02/15
64/02/15
63/08/25
64/02/15
64/02/15
84/02/15
83/08/25
63/08/25
83/11/16
64/02/15
64/02/15
83/08/25
64/02/15
84/02/15
84/02/15
84/02/15
83/08/25
83/08/25
64/02/15
64/02/15
83/11/16
83/06/25
84/02/15
84/02/15
84/02/15
64/02/15
84/02/15
64/02/15
64/02/15
-------�
STORET RETRIEVAL DATE 69/06/08
CAT0800116530M7 HMA2-M7
36 48 21.4 121 46 33.6 2
P6E MOSS LANDING RCRA WELL M7 DOHK
06053 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
21CAR6 650622 HQ 1806C011
0046 FEET DEPTH
PGM=INVENT
PAGE:
16
SCENARIO 10
WELLHEAD PROTECTION
MONTEREY CO
CALIFORNIA
SUMMARY OF HAZARD SITES
/TYPA/IND/AMBNT/HELL/HAZARD
ro
en
PARAMETER
39730 2.4-0 NHL SMPL
39702 LINDANE HHL SMPL
70353 TOX IN HATER
71900 MERCURY KG,TOTAL
MEDIUM
UG/L RCI.'AGH
UG/L RCIiAGH
U5/L CL RCI.'AGU
UG/L RCIiAGH
71993
72001
72004
72008
73666
73666
62546
84000
64001
64055
64059
84060
84061
84063
64111
84112
84114
84116
84117
84116
84120
ELEVAT'N
TOT OPTH
PPS/FLOH
TOT DPTH
CASING
WIDTH OF
DEPTH FR
GEOLO5IC
AQUIFER
AVAIL.
HELL OWN
TOPOS-
HELL USE
DRILLINS
LITHLCGC
SO'JRCEOF
HELLCAS
DRILLING
SURFACE
METHCOOF
PACKING
GH/SL
OF HOLE
PRIOR TO
OF HELL
THICKNES
OPENING.
M HL TO
AGE
NAME
LOGS
ERSHIP
RAPHT
METHOD
MODIFIER
GEOHVDAT
MATERIAL
FLUID
SEAL
DEVELOPM
MATERIAL
FEET
FT
SMP-MINS
FT
INCH
001 INCH
MP I FT)
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
RCIIAGM
RCIIAGM
RCIiAGH
RCIiAGH
RCIIAGH
RCIiAGH
RCItAGH
RCIIAGH
RCIIAGH
ROIAGH
RCIiAGH
RCI.'AGH
RCIiAGH
RCIIAGH
RCI.'AGH
RCIiAGH
RCIiAGH
RCIIAGH
RCIIAGH
RCI.'AGH
RCIIAGH
RMK NUMBER MEAN VARIANCE STAN DEV MAXIMUM MINIMUM
U 2 .5000000 .0000000 .0000000 .500 .500
U 2 .0500000 .0000000 .0000000 .050 .050
6 34.56900 1350.200 36.74600 73.000 .230
1 .0001000 .0001 .0001
U 2 .0015000 .0000005 .0007071 .002 .001
TOT 3 .0010133 .0000009 .0009504 .002 .0001
14 4.849300 .0278700 .1669400 5.21 4.67
1 47.00000 47.0 47.0
4 20.00000 .0000000 .0000000 20.0 20.0
45.00000 45.0 45.0
4.000000 4.00 4.00
.0200000 .02 .02
1
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
k 35.71400 3.297600 1.616000
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
40.00
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
35.00
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
BEG DATE END DATE
83/08/25 64/02/15
83/08/25 64/02/15
83/11/16 84/05/14
83/06/25 63/06/25
83/11/16 64/02/15
63/06/25 84/02/15
83/08/25 84/05/14
66/06/06 66/06/06
63/06/25 63/06/25
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
63/06/25 64/05/14
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
66/06/06 66/06/06
-------�
STORET RETRIEVAL DATE 09/06/08
8 TOTAL STATIONS PROCESSED
SCENARIO 10
WELLHEAD PROTECTION
riCNTEREY CO
CALIFORNIA
SUnriART OF HAZARD SITES
PGn=IMVENT
GROSS
PAGE:
17
I
t->
ro
STA BEC
<1970 I
1970 C
1971 (
1972 (
1973 (
1974 (
1975 (
1976 (
1977 «
1976
1979
1980
1981
1982
1983
1964
1965
1966
1967
1968
1969
TOTAL
• STA EN
1 0
1 0
1 0
1 0
1 0
1 0
I 0
1 0
1
0
0
0
6
• OF OBS • OF SAMPLE
76
62
0
0
0
1557
STA END-PERIOD OF RECD IN YRS
=0 <.5 <3 >=3
0000
0000
0000
0000
0000
0000
0000
0000
7
6
0
0
0
0
0
0
0
0
0
0
0
0
0
-------�
STORET REIR1EVAL DATE 89/06/08
6 TOTAL STATIONS PROCESSED
SCENARIO 10
HELLHEAD PROTECTION
MONTEREY CO
CALIFORNIA
SUMMARY OF HAZARD SITES
PGM=INVENT
GROSS
PAGE:
PARAMETER
-V*
• 1
1
I—"
ro
00010
00011
00076
00095
00400
00530
00620
00680
00929
00940
00945
00951
01002
HATER
HATER
TURB
CNDUCTVV
PH
RESIDUE
N03-N
T ORG C
SODIUM
CHL09IDE
SULFATE
FLUORIDE
ARSENIC
TEMP
TEMP
TRBIDMTR
AT 25C
TOT NFLT
TOTAL
C
NA.TOT
TOTAL
S04-TOT
F. TOTAL
AS. TOT
CENT
FAHN
HACH FTC
MICROMHC
SU
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
UG/L
MEDIUM
RCIIAGH
RCI.'AGH
RCIiAGH
RCIiAGH
RCIiAGH
RCIiAGH
RCIiAGH
RCIiAGH
RCIiAGH
RCItAGH
RCI'AGH
RCItAGH
RCIiAGH
01007 BA9IUM BA.TOT
01027 CADMIUM CO,TOT
01032 CHROMIUM HEX-VAL
01034 CHROMIUM CR.TOT
UG/L RCIiAGH
UG/L RCI'AGH
UG/L RCIIAGH
UG/L RCIiAGH
01042 COPPER CU.TOT UG/L RCI.'AGH
01045 IRON FE.TOT UG/L RCItAGH
01051 LEAD
PB.TOT UG/L RCIiAGH
01055 MAMGNESE MN
UG/L RCIiAGH
01077 SILVER AC,TOT UG/L RCIiAGH
01087 VANADIUM V.TOT UG/L RCI.'AGH
01147 SELENIUM SE.TOT UG/L RCIIAGH
31501 TOT COLI MFIMENDO /100ML RCIiAGU
RMK
•
U
TOT
U
U
U
U
TOT
U
TOT
U
TOT
U
TOT
U
TOT
U
U
U
TOT
L
U
TOT
NUMBER
64
64
16
116
116
8
24
116
24
16
16
24
4
4
6
24
24
24
7
1
6
4
4
a
10
14
24
7
17
24
15
9
24
24
8
4
20
24
11
4
9
24
MEAN
18.61100
65.50000
.4531300
2970.400
6.620600
2092.600
8.483300
4.691400
452.0800
753.6900
197.5600
.1966700
.0032500
.0010000
.0021250
.1554200
.0073333
.0166670
.0053429
.0012000
. 0048250
.0100000
.0100000
.0100000
.1700000
.0200000
.0825000
.0018572
.0805290
.0575630
.2100000
.0100000
.1350000
.0137000
.2000000
.0050000
.0242000
.0210000
61.29100
16.00000
2.000000
31.50800
VARIANCE
1 . 394400
4.518100
.0579030
1810200
.0409990
1175000
45.75800
15.77000
26991.00
248250.0
8322.700
.0196320
.0000042
.0000000
.0000032
.0117650
.0000637
.0005150
.0000066
.0000078
.0000000
.0000000
.0000000
.0645330
.0000000
.0387650
.0000004
.0075603
.0065937
.0156140
.0000000
.0192670
.0003610
.0000000
.0000066
.0004764
.0004495
13117.00
.0000000
.0000000
6510.000
STAN DEV MAXIMUM MINIMUM
1.180900
2.125600
.2406300
1345.400
.2024800
1084.000
6.764500
3.971200
164.2900
496.2500
91.22900
.1401100
.0020616
.0000000
.0016077
.1064700
.0091493
.0226940
.0025858
.0026065
.0000000
.0000000
.0000000
.2907500
.0000000
.1969400
.0006900
.0869500
.0612020
.1249600
.0000000
.1386600
.0190010
.0000000
.0025620
.0216740
.0212030
114.5300
.0000000
.0000000
60.66400
20.6
69.0
.9
5500
7.12
3504
21.000
15.8
670.00
1364
396
.56
.006
.001
.006
.3
.02
.05
.01
.001
.01
.01
.01
.01
1.0
.02
1.0
.003
.2
.2
.4
.01
.4
.04
.2
.008
.05
.05
350
16
2
350
15.6
60.0
.1
900
6.10
677
1.800
1.0
200.00
90
49
.04
.001
.001
.001
.01
.001
.001
.003
.001
.001
.01
.01
.01
.04
.02
.02
.001
.001
.001
.04
.01
.01
.0001
.2
.002
.001
.001
2
16
2
2
BEG DATE
83/08/24
63/06/24
63/06/25
81/11/16
81/11/16
64/02/15
63/08/25
81/11/16
63/06/25
83/08/25
63/06/25
83/08/25
83/08/25
83/06/25
83/08/25
63/06/25
63/06/25
83/06/25
63/06/25
63/06/25
83/06/25
63/06/25
83/06/25
83/08/25
83/08/25
83/06/25
63/08/25
63/08/25
83/06/25
63/06/25
83/08/25
63/08/25
63/08/25
63/06/25
83/08/25
63/08/25
83/08/25
63/06/25
63/08/25
63/06/25
63/11/16
63/08/25
END DATE
84/05/14
84/05/14
84/02/15
64/05/14
64/05/14
64/02/15
84/02/15
84/05/14
84/02/15
64/02/15
84/02/15
64/02/15
83/08/25
63/08/25
83/08/25
64/02/15
84/02/15
84/02/15
63/08/25
83/08/25
83/08/25
83/08/25
83/08/25
83/08/25
83/11/16
64/02/15
84/02/15
83/08/25
84/02/15
64/02/15
84/02/15
84/02/15
64/02/15
84/02/15
83/06/25
63/06/25
64/02/15
64/02/15
63/11/16
63/06/25
64/02/15
84/02/15
-------�
S10RET RETRIEVAL DATE 69/06/08
6 TOTAL STATIONS PROCESSED
SCENARIO 10
WELLHEAD PROTECTION
MONTEREY CO
CALIFORNIA
SUnnART OF HAZARD SITES
PGH=IHVENT
GROSS
PAGE:
19
O3
PARAMETER
32730 PHENOLS TOTAL
39045 2.4,5-TP HTR SflPL
39390 ENQHIN
39400 TOXAPHEN
39460 HTHX.YCLR NHL SflPL
39730 2.4-D NHL SMPL
39762 LINOANE NHL SHPL
MEDIUM
UG/L ROUGH
U6/L RCItAGM
TOT UG/L RCIIAGH
TOTUG/L RCIIAGM
UG/L RCI.'AGH
UG/L BCI.'AGH
UG/L RCIIAGM
70353 TOX
71900 MERCURY
IN HATER
HG.TOTAL
71993
72001
72004
72006
73666
73668
82546
84000
64001
64055
64059
B4060
64061
84063
84111
G4112
64113
64114
84116
64117
64116
84120
ELEVAT'N
TOT OPTH
PPG/FLOM
TOT OPTH
CASING
WIDTH OF
DEPTH FR
GEOLOSIC
AQUIFER
AVAIL.
HELL OWN
TOPOG-
MELL USE
DRILLING
LITHLOGC
SOURCEOF
UELLINTK
UELLCAS
DRILLING
SURFACE
METHOOOF
PACKING
LK5/L CL RCIIAGM
UG/L RCKAGH
GU/SL
OF HOLE
PRIOR TO
OF NELL
THICKNES
OPENING.
n HL TO
AGE
NAME
LOGS
ERSHIP
RAPHY
METHOD
MODIFIER
GEOHYDAT
FINISH
MATERIAL
FLUID
SEAL
DEVELOPH
MATERIAL
FEET
FT
SMP-niNS
FT
INCH
001 INCH
HP (FT)
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
RCIIAGH
RCIIAGH
RCIIAGH
RCItAGU
RCHAGU
RCIIAGH
RCIIAGH
RCIIAGM
RCIIAGM
RCIIAGM
RCIIAGH
RCHAGU
RCIIAGH
RCIIAGH
RCItAGM
RCIIAGM
RCIIAGM
RCIIAGM
RCIIAGM
RCIIAGH
RCIIAGM
RCIIAGM
RMK NUMBER
U
U
U
U
U
U
U
TOT
U
TOT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
24
16
16
16
16
16
1
15
16
62
3
21
24
132
6
32
6
6
6
132
6
6
6
6
8
7
a
a
6
2
8
8
6
8
a
MEAN
.0291670
.1000000
.1000000
1.000000
.2000000
.5000000
.0500000
.0500000
.0500000
15.29500
.0001000
.0008666
.0007706
4.943000
61.00000
20.00000
58.00000
4.000000
.0200000
49.27500
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
VARIANCE
.0017471
.0000000
.0000000
.0000000
.0000000
.0000000
.0000000
.0000000
509.9900
.0000000
.ooooooa
.0000006
15.75200
134.8000
146.3900
115.4300
.0000000
.0000000
112.7700
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
STAN DEV MAXIMUM MINIMUM
.0417980
.0000000
.0000000
.0000000
.0000000
.0000000
.0000000
.0000000
22.58300
.0000000
.0009313
.0009062
3.968900
11.61000
12.18200
10.74400
.0000000
.0000000
10.62000
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
.1
.100
.100
1.000
.200
.500
.050
.050
.050
73.000
.0001
.002
.002
50.00
76.0
50.0
76.0
4.00
.02
65.00
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
.005
.100
.100
1.000
.200
.500
.050
.050
.050
.190
.0001
.0001
.0001
3.00
47.0
10.0
45.0
4.00
.02
4.26
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
BEG DATE
83/08/25
83/08/25
83/06/25
83/08/25
63/06/25
83/08/25
83/08/25
83/06/25
63/08/25
61/11/16
63/06/25
83/06/25
63/06/25
61/11/16
66/06/06
63/06/24
66/06/06
66/06/06
66/06/06
81/11/16
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
END DATE
84/02/15
64/02/15
64/02/15
64/02/15
64/02/15
84/02/15
63/08/25
84/02/15
84/02/15
64/05/14
63/08/25
84/02/15
84/02/15
64/05/14
66/06/06
83/06/25
66/06/06
66/06/06
66/06/06
84/05/14
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
-------�
STORET RETRIEVAL DATE 69/06/08
01311430
36 47 00.0 121 45 58.0 2
MORRO COJO SLU MB NE OF HHY I
PGM=INVENT
06053 CALIFORNIA
CENTRAL COASTAL BASIN
SALINAS RIVER BASIN
ZICAL-1 770601
0000 FEET DEPTH
MONTEREY
140400
SCENARIO 10
WELLHEAD PROTECTION
MONTEREY CO
CALIFORNIA
ALL AMBIENT SITES
/TYPA/AMBNT/STREArt
PAGE:
16060011
ro
to
PARAMETER
00027 COLLECT AGENCY
00076 TURB TRBIDMTR
00095 CNOUCTVV AT 25C
00300 DO
00310 BOD 5 DAY
00400 PH
00530 RESIDUE TOT NFLT
00610 NHJ«NH4- N TOTAL
00613 N02-N DISS
00616 N03-N DISS
00625 TOT KJEL N
00629 TOT OR6 KJELOL N
00665 PHOS-TOT
00671 PHOS-OIS ORTHO
00660 T ORG C C
00900 TOT HARD CAC03
00915 CALCIUM CA.OISS
00925 MGNSIUM MB,DISS
01002 ARSENIC AS.TOT
01034 CHROMIUM CR.TOT
01042 COPPER CU.TOT
01045 IRON FE.TOT
01051 LEAD PB.TOT
46570 CAL HARD CA H6
70300 RESIDUE DISS-160
71900 MERCURY HG,TOTAL
64026 ANALYZE AGENCY
64029 FIELD IDENT
CODE
HACH FTU
MICROHHO
flG/L
MG/L
SU
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MS/L P
MG/L P
MG/L
MG/L
MG/L
MG/L
UG/L
UG/L
UG/L
UG/L
UG/L
MG/L
C MG/L
UG/L
CODE
NUMBER
MEDIUM
MATER
MATER
MATER
MATER
MATER
MATER
MATER
MATER
MATER
HATER
HATER
HATER
HATER
HATER
MATER
MATER
MATER
MATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
HATER
RMK NUMBER
t
TXT
TXT
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
MEAN
5050.000
6.500000
4225.000
5.000000
2.600000
6.100000
9.500000
.1400000
.1450000
24.00000
1 . 950000
1.600000
.5250000
.1250000
19.00000
706.0000
98.00000
112.5000
.0000000
.0000000
10.00000
480.0000
5.000000
707.9600
2610.000
.1000000
TEXT
TEXT
VARIANCE
.0000000
.5000000
446.0000
18.00000
.3200100
.0200500
.5000000
.0002000
.0004500
.0000000
.0050001
.0000000
.0144510
.0004499
.0000000
.0000000
6.000000
4.500000
.0000000
.0000000
.0000000
200.0000
50.00000
3.062500
200.0000
.0000000
TEXT
TEXT
STAN DEV MAXIMUM MINIMUM
.0000000
.7071100
21.16600
4.242600
.5656900
.1416000
.7071100
.0141420
.0212130
.0000000
.0707120
.0000000
.1202100
.0212120
.0000000
.0000000
2.626400
2.121300
.0000000
.0000000
.0000000
14.14200
7.071100
1.750000
14.14200
.0000000
TEXT
TEXT
5050
7.0
4240
6.0
3.0
8.20
10
.150
.160
24.00
2.000
1.60
.610
.340
19.0
708
100.0
114.0
0
0
10
490
10
709
2620
.1
TEXT
TEXT
5050
6.0
4210
2.0
2.2
6.00
9
.130
.130
24.00
1.900
1.60
.440
.310
19.0
706
96.0
111.0
0
0
10
470
0
707
2600
.1
TEXT
TEXT
BEG DATE
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
END DATE
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
-------�
STORET RETRIEVAL DATE 89/06/08
P6H=INVENT
GROSS
PAGE :
Z8
17 TOTAL STATIONS PROCESSED
SCENARIO 10
WELLHEAD PROTECTION
MONTEREY CO
CALIFORNIA
ALL AMBIENT SITES
PARAMETER
0100Z ARSENIC AS,TOT
01007 8AR1UH BA.TOT
01020 BORON B.DZSS
D10Z7 CADMIUM CD.TOT
01032 CHROMIUM MEX-VAL
01034 CHROMIUM CR.TOT
01042 COPPER CU.TOT
01045 IRON FE.TOT
01051 LEAD PB.TOT
01055 HANGNESE MN
01077 SILVER AC,TOT
01007 VANADIUM V.TOT
01147 SELENIUM SE,TOT
MEDIUM
UG/L RCRAGM
HATER
UG/L RCRAGM
U8/L HATER
US/L RCRAGM
UG/L RCRAGM
UG/L RCRAGM
HATER
UG/L RCRAGM
HATER
UG/L RCRAGM
HATER
U6/L RCRAGM
HATER
UG/L RCRAGM
UG/L RCRAGM
UG/L RCRAGM
UG/L RCRAGM
31501 TOT COLI MFIHENDO /100ML RCRAGM
31505 TOT COLI MPN CONF /IOOHL HATER
31506 TOt i MPN CONF TUBECODE MATER
rrr ..„< T MPN TUBECOOE HATER
RMK f
U
TOT
U
U
U
U
TOT
U
TOT
U
TOT
U
TOT
U
TOT
U
U
U
TOT
L
U
TOT
K
TOT
(UMBER
4
4
8
16
24
1
24
24
7
1
A
16
4
4
e
16
to
14
24
16
7
17
24
16
15
9
24
24
8
4
20
24
11
2
MEAN
.0032500
.0010000
.0021250
1.250000
. 1554200
4800.000
.0073333
.0186670
.0053429
.0012000
.0048250
1.250000
.0100000
.0100000
.0100000
11.25000
.1700000
.0200000
.0825000
642.5000
.0018572
.0805290
.0575830
6.250000
.2100000
.0100000
.1350000
.0137000
.2000000
.0050000
.0242000
.0210000
61.29100
16.00000
2.000000
31.50800
953.3300
30.00000
722.5000
2.000000
2.000000
VARIANCE
.0000041
.0000000
.0000032
11.66700
.0117650
.0000837
.0005150
.0000066
.0000078
11.66700
.0000000
.0000000
.0000000
65.00000
.0845330
.0000000
.0387850
135330.0
.0000004
.0075603
.0065937
25.00000
.0156140
.0000000
.0192870
.0003610
.0000000
.0000066
.0004784
.0004495
13117.00
.0000000
.0000000
6510.000
1569600
9600
DOOO
.nvOOOO
STAN DEV nt
.0020616
.0000000
.0018077
3.415700
.1084700
.0091493
.0226940
.0025858
.0028065
3.415700
.0000000
.0000000
.0000000
8.062300
.2907500
.0000000
.1969400
367.8700
.0006900
.0869500
.0812020
5.000000
.1249600
.0000000
.1388600
.0190010
.0000000
.0025620
.0218740
.0212030
114.5300
.0000000
.0000000
60.68400
1252.900
1122.300
.0000000
.0000000
hXIMUM M
.006
.001
.006
10
.3
4600
.02
.05
.01
.001
.01
10
.01
.01
.01
30
1.0
.02
1.0
1400
.003
.2
.2
10
.4
.01
.4
.04
.2
.008
.05
.05
350
16
2
350
2400
30
2400
2
2
INIHUM
.001
.001
.001
0
.01
4600
.001
.001
.003
.001
.001
0
.01
.01
.01
0
.04
.02
.02
400
.001
.001
.001
0
.04
.01
.01
.0001
.2
.002
.001
.001
2
16
2
2
230
30
30
2
2
BEG DATE
83/08/25
83/08/25
83/08/25
77/01/12
83/08/25
53/03/06
83/08/25
83/06/25
83/08/25
83/08/25
63/08/25
77/01/12
63/08/25
83/06/25
63/08/25
77/01/12
83/06/25
63/08/25
63/08/25
77/01/12
63/08/25
83/08/25
63/06/25
77/01/12
63/06/25
83/08/25
63/08/25
83/08/25
63/08/25
63/08/25
83/08/25
63/06/25
83/08/25
63/08/25
83/11/16
83/08/25
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
END DATE
83/08/25
83/08/25
83/08/25
77/01/12
64/02/15
53/03/06
64/02/15
64/02/15
83/08/25
83/08/25
83/08/25
77/01/12
63/08/25
63/06/25
63/08/25
77/01/12
63/11/16
84/02/15
84/02/15
77/01/12
63/08/25
64/02/15
64/02/15
77/01/12
64/02/15
84/02/15
84/02/15
64/02/15
63/06/25
83/06/25
84/02/15
84/02/15
83/11/16
83/06/25
84/02/15
84/02/15
77/01/12
77/01/12
77/01/12
77/01/12
77/01/12
-------�
STORET RETRIEVAL DATE 89/06/05
17 TOTAL STATIONS PROCESSED
SCENARIO 10
WELLHEAD PROTECTION
MONTEREY CO
CALIFORNIA
ALL AMBIENT SITES
PGI1=INVENT
GROSS
PACE;
29
PARAMETER
32710 PHENOLS TOTAL
39045 2.4,5-TP WTR SflPL
39390 ENDRIN
39400 TOXAPHEN
39480 MTHXYCLR HHL SMPL
39730 2,4-0 HHL SMPL
39702 LINDANE HHL SHPL
MEDIUM
UG/L RCRAGH
U6/L RCRAGH
TOT US/L RCRAGH
TOTUS/L RCRAGH
US/L RCRAGH
US/L RCRAGH
US/L . RCRA6H
46570 CAL HARD CA MG MG/L HATER
70300 RESIDUE OISS-180 C MG/L HATER
70353 TOX IN HATER UG/L CL RCRAGH
71851 NITRATE DISS-N03 MG/L HATER
71900 MERCURY HG,TOTAL UG/L RCRAGU
71993
72001
72004
72008
73666
7366B
82546
84000
84001
84028
84029
84055
84059
84060
84061
84063
84111
84112
84113
84114
84116
84117
84118
84120
ELEVAT'N
TOT DPTH
PPG/FLOU
TOT OPTH
CASING
HIOTH OF
DEPTH FR
GEOLOGIC
AQUIFER
ANALYZE
FIELD
AVAIL.
HELL OWN
TOPOS-
HELL USE
DRILLING
L1THLOGC
SOURCEOF
MELLINTK
NELLCAS
DRILLING
SURFACE
METHODOF
PACKING
GH/SL
OF HOLE
PRIOR TO
OF WELL
THICKNES
OPENING.
H HL TO
AGE
NAME
AGENCY
IDENT
LOGS
ERSHIP
RAPHY
METHOD
MODIFIER
6EOHYDAT
FINISH
MATERIAL
FLUID
SEAL
DEVELOPH
MATERIAL
FEET
FT
snp-niNS
FT
INCH
001 INCH
HP (FT)
CODE
CODE
CODE
NUMBER
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
CODE
HATER
RCRAGH
RCRAGH
RCRAGH
RCRAGH
RCRAGH
RCRAGH
RCRAGH
RCRAGH
HATER
HATER
RCRAGM
RCRAGH
RCRAGH
RCRAGU
RCRAGU
RCRAGH
RCRAGH
RCRAGH
RCRAGH
RCRAGH
RCRAGU
RCRAGH
RCRAGH
RMK NUMBER
U
U
U
U
U
U
U
TOT
«
U
TOT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXT
TXf
TXT
24
16
16
16
16
16
1
15
16
8
4
82
1
3
21
24
16
132
6
32
8
8
e
132
6
a
18
18
8
8
a
7
8
a
a
2
a
a
a
a
a
MEAN
.0291670
.1000000
.1000000
1.000000
.2000000
.5000000
.0500000
.0500000
.0500000
2109.600
2610.000
15.29500
.7000000
.0001000
.0008666
.0007708
.1125000
4.943000
61.00000
20.00000
58.00000
4.000000
.0200000
49.27500
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
VARIANCE
.0017471
.0000000
.0000000
.0000000
.0000000
.0000000
.0000000
.0000000
2658100
133.3300
509.9900
.0000000
.0000008
.0000008
.0011667
15.75200
134.8000
148.3900
115.4300
.0000000
.0000000
112.7700
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
STAN OEV MAXIMUM MINIMUM
.0417980
.0000000
.0000000
.0000000
.0000000
.0000000
.0000000
.0000000
1630.400
11.54700
22.58300
.0000000
.0009313
.0009062
.0341570
3.968900
11.61000
12.18200
10.74400
.0000000
.0000000
10.62000
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
.1
.100
.100
1.000
.200
.500
.050
.050
.050
4361
2620
73.000
.7
.0001
.002
.002
.2
50.00
76.0
50.0
76.0
4.00
.02
65.00
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
.005
.100
.100
1.000
.200
.500
.050
.050
.050
707
2600
.190
.7
.0001
.0001
.0001
.1
3.00
47.0
10.0
45.0
4.00
.02
4.26
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
TEXT
BEG DATE
03/08/25
63/06/25
83/08/25
83/08/25
83/08/25
83/08/25
83/08/25
83/08/25
83/08/25
77/01/12
77/01/12
81/11/16
53/03/06
83/08/25
83/08/25
83/08/25
77/01/12
81/11/16
66/06/06
83/08/24
66/06/06
66/06/06
66/06/06
81/11/16
66/06/06
66/06/06
53/03/06
53/03/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
END DATE
04/02/15
04/02/15
64/02/15
04/02/15
64/02/15
84/02/15
03/00/25
04/02/15
04/02/15
77/01/12
77/01/12
04/05/14
53/03/06
63/08/25
64/02/15
64/02/15
77/01/12
64/05/14
66/06/06
03/08/25
66/06/06
66/06/06
66/06/06
84/05/14
66/06/06
66/06/06
77/01/12
77/01/12
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
66/06/06
-------�
cu
PO
STORET RETRIEVAL DATE 89/06/08
CAT080011653UM4 UMA1-H4
36 4fi 14.4 121 46 44.4 2
PSE MOSS LANDING RCRA HELL M4 UP
06053 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
21CARG 850622 HQ 18060011
0071 FEET DEPTH
STATION DESCRIPTION
SCENARIO 10
WELLHEAD PROTECTION
MONTEREY CO
SEVERAL INDICATOR CHEMICALS
/TYPA/IND/AMBNT/UELL/HAZARD
PAGE:
DESCRIPTIVE PARAGRAPH
-------�
STORE! RETRIEVAL DATE 89/06/06
CAT060011653UM4 HMA1-H4
36 46 14.4 121 46 44.4 2
P6E HOSS LANDING RCRA HELL M4 UP
06053 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
21CARG 650622 HQ 16060011
0071 FEET DEPTH
PGN=RET
PAGE:
SCENARIO 10
HELLHEAO PROTECTION
MONTEREY CO
SEVERAL INDICATOR CHEMICALS
/TTPA/IND/AtlBNT/NELL/HAZARD
DATE
FROM
TO
TINE
OF
DAY
MEDIUM
snx
OR
DEPTH
(FT)
39180
TRICHLOR
EYNVLENE
TOT U6/L
01027
CAoniun
CO, TOT
UG/L
01032
CHRONZUH
HEX-VAL
UG/L
01034
CHROMIUM
CR.TOT
UG/L
00618
N03-N
DISS
M6/L
00620
N03-N
TOTAL
M6/L
83/06/25 1200 RCRAGH 0
UHK FOR ABOVE SAMPLE > 10230620
63/11/16 1000 RCRAGH 0
UHK FOR ABOVE SAMPLE > 10230620
84/02/15 RCRAGH 0
UKK FOR ABOVE SAMPLE > 10230620
.001U .005U
.001U .001U
.02U .OSU
.003
1.600
4.100
1.900
bO
U)
-------�
STORET RETRIEVAL DATE 89X06/08
CAT080011653DM1 MMAI-HI
36 48 14.4 121 46 47.5 2
P6E HOSS LANDING RCRA WELL Ml DOWN
06053 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
21CAR6 85062Z HQ 18060011
0052 FEET DEPTH
STATION DESCRIPTION
SCENARIO 10
WELLHEAD PROTECTION
MONTEREY CO
SEVERAL INDICATOR CHEMICALS
/TYPA/IND/AMBMT/HELL/HAZARD
PAGE:
I
I—•
CO
DESCRIPTIVE PARAGRAPH
MONITORING HELL DRILLED 8/2/83 TO 8/6/83. FACILITY ON RISE BETWEEN
MORO COJO SLOUGH, ELKHORN SLOUGH AND MOUTH OF OLD SALINAS RIVER.
ESTUARY 1100 FT H OF FACILITY. UNDERLYING IS PURISIMA FOUNDATION.
AROMAS RED SANDS AND ^DIFFERENTIATED MARINE AND ESTUARINE DEPOSITS.
-------�
STORET RETRIEVAL DATE 89/06/06
CAT080011653DM1 MHA1-M1
36 48 14.4 121 46 47.5 2
P6E MOSS LANDING RCRA UELL HI DOWN
06053 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
21CAR6 850622 HQ 10060011
0052 FEET DEPTH
PGM=RET
PAGE:
SCENARIO 10
WELLHEAD PROTECTION
MONTEREY CO
SEVERAL INDICATOR CHEMICALS
/TYPA/IIID/AHBNT/HELL/HAZARD
DATE TIME
FROM OF
TO DAY
MEDIUM
SMK
OR
DEPTH
IFTI
39180
TRICHLOR
EYHYLENE
YOT UB/L
01027
CADMIUM
CO. TOT
UG/L
01032
CHROMIUM
HEX-VAL
UG/L
01034
CHROMIUM
CR.TOT
UG/L
00618
N03-N
DISS
MG/L
00620
N03-N
TOTAL
MG/L
83/08/25 1045 RCRAGU 0
UMK FOR ABOVE SAMPLE > 10230620
83/11/16 0900 RCRAGM 0
UMK FOR ABOVE SAMPLE > 10230620
84/02/15 RCRAGM 0
UMK FOR ABOVE SAMPLE > 10230620
.001U .005U
.001U .001U
.02U .05U
.003
2.900
4.600
4.700
CO
en
-------�
STORET RETRIEVAL DATE 89/06/08
CAT060CM651DnZ UIU1-MZ
36 48 15.0 121 46 48.0 Z
PGE rtOSS LANDING RGRA HELL IK ODHN
06053 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
Z1CAR6 65062Z HQ 18060011
0059 FEET DEPTH
STATION DESCRIPTION
SCENARIO 10
WELLHEAD PROTECTION
MONTEREY CO
SEVERAL INDICATOR CHEMICALS
/TYPA/IHD/AMBNT/HELL/HAZARD
PAGE:
DESCRIPTIVE PARAGRAPH
HELL CONSTRUCTED 8/1/85, 50 FT DOWN FROM METAL CLEANING HASTE POND 1
DRILLED BT HOLLOW STEM AUGER.
OJ
-------�
STORET RETRIEVAL DATE 89/06/08
CAT0800H653DM2 WflAl-MZ
36 46 15.0 121 46 48.0 2
PGE MOSS LANDING RCRA HELL M2 DOHN
06053 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
21CARG 850622 HQ 18060011
0059 FEET DEPTH
PGH=RET
PAGE:
SCENARIO 10
HELLHEAO PROTECTION
MONTEREY CO
SEVERAL INDICATOR CHEMICALS
/TYPA/IND/AMBNT/ME LL/HAZARD
DATE TIME
FROM OF
10 DAY MEDIUM
SMX 39180 01027
OR TRICNLOR CADMIUM
DEPTH ETHVLENE CO.TOT
I FT) TOT UG/L UG/L
01032 01034
CHROMIUM CHROMIUM
HEX-VAL CR.TOT
UG/L UG/L
81/08/25 1300 RCRAGM 0
UHK FOR ABOVE SAMPLE > 10230620
83/11/16 1100 RCRAGM 0
UHK FOR ABOVE SAMPLE > 10230620
84/02/15 RCRAGM 0
UHK FOR ABOVE SAMPLE > 10230620
.001U .005U
.001U .001U
.02U .05U
.003
00616 00620
N03-N N03-N
OISS TOTAL
M6/L NG/L
3.800
5.000
5.500
Co
-------�
STORE! RETRIEVAL DATE 69/06/06
CAToeoomsJuns MMAI-MS
36 48 18.0 121 46 44.4 2
PGE MOSS LANDING RCRA HELL M5 UP
06053 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
2ICAR6 65062Z HQ 18060011
0076 FEET DEPTH
STATION DESCRIPTION
SCENARIO 10
WELLHEAD PROTECTION
HONTEREY CO
SEVERAL INDICATOR CHEMICALS
/T YPA/IND/AHBNT/HE LL/HAZARD
PAGE:
DESCRIPTIVE PARAGRAPH
CO
GO
-------�
STORET RETRIEVAL DATE 89/06/08
CAT08001I653UH5 MMAI-H5
36 46 IB.O 121 46 44.4 2
PGE I10SS LANDING RCRA HELL H5 UP
06051 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
21CARS 650622 HQ 18060011
0076 FEET DEPTH
Pfin=HET
PAGE:
SCENARIO 10
WELLHEAD PROTECTION
MONTEREY CO
SEVERAL INDICATOR CHEMICALS
/TY PA/INO/AMBNT/UE LL/HAZARO
DATE TIME
FROM OF
TO DAY
MEDIUM
SMK 39180 01027
OR TRICHLOR CAOHIUH
DEPTH ETHYLENE CO.TOT
IFT1 TOT US/L U6/L
01032 01034
CHRoniun CHRoniun
HEX-VAL CR.TOT
UG/L UG/L
03/08/25 1540 RCRAGH 0
IMC FOR ABOVE SAHPLE > 10230620
83/11/16 1325 RCRA6M 0
UIK FOR ABOVE SAMPLE > 10230620
84/02/15 RCRAGH 0
UK FOR ABOVE SAMPLE > 10230620
.001U .005U
.001U .001U
.02U .05U
.001U
00616 00620
N03-N N03-N
DISS TOTAL
MG/L HG/L
2.800
3.900
3.200
CO
<£>
-------�
STOHET RETRIEVAL DATE 69/06/08
36 48 18.4 121 46 48.0 2
PGE MOSS LANDING RCRA WELL M3 DOWN
06053 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
21CARG 650622 HQ 1B060011
0064 FEET DEPTH
STATION DESCRIPTION
SCENARIO 10
WELLHEAD PROTECTION
MONTEREY CO
SEVERAL INDICATOR CHEMICALS
/TYPA/II1D/AMBNT/HELL/HAZARO
PAGE:
DESCRIPTIVE PARAGRAPH
-------�
STORET RETRIEVAL DATE 69/06/08
CAT080011653DM3 MMA1-M3
36 48 18.4 12) 46 46.0 2
PGE nOSS LANDING RCRA HELL M3 DOWN
PGH=RET
PAGE:
10
06053 CALIFORNIA
CALIFORNIA
CENTRAL COASTAL
21CARG 850622
0064 FEET DEPTH
MONTEREY
140400
HQ 18060011
SCENARIO 10
WELLHEAD PROTECTION
MONTEREY CO
SEVERAL INDICATOR CHEMICALS
/TYPA/IND/AtlBNT/HELL/HAZARD
DATE
FROM
TO
TIME
OF
DAY
MEDIUM
SMK
OR
DEPTH
(FT)
39180
TRICHLOR
ETHYLENE
TOT UG/L
01027
CADMIUM
CD,TOT
UG/L
01032
CHROMIUM
HEX-VAL
UG/L
83/08/25 1400 RCRAGU 0
UHK FOR ABOVE SAMPLE > 10230620
83/11/16 1155 RCRAGM 0
UMK FOR ABOVE SAMPLE > 10230620
84/02/15 RCRAGM 0
UnK FOR ABOVE SAMPLE > 10230620
.001U .005U
.001U .001U
.02U .05U
01034
CHROMIUM
CR.TOT
UG/L
.006
00618
N03-N
DISS
MG/L
00620
N03-N
TOTAL
MG/L
2.800
3.500
3.800
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STORET RETRIEVAL DATE 69/06/08
CATOB00116530rt6 M1AZ-H6
36 48 18.8 121 46 33.6 2
PGE HOSS LANDING RCRA HELL 116 DOWN
060S3 CALIFORNIA NOMTERET
CALIFORNIA 140400
CENTRAL COASTAL
2ICAR6 850622 HQ 18060011
0050 FEET DEPTH
STATION DESCRIPTION
SCENARIO 10
NELLNEAD PROTECTION
KOMTEREY CO
SEVERAL INDICATOR CHEMICALS
/TVPA/IND/AIIBNT/HELL/HAZARD
PAGE:
II
DESCRIPTIVE PARAGRAPH
-------�
STORET RETRIEVAL DATE 69/06/06
CATQ600ll*53Dn6 UNAZ-M
36 46 lA.A 121 46 33.6 2
PGE MOSS LANDING RCRA HELL 116 DOWN
06053 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
21CARG 650622 H«J 16060011
OOSO FEET DEPTH
PGNsRET
PAGE:
SCENARIO 10
MELLHEAD PROTECTtOH
MONTEREY CO
SEVERAL INDICATOR CHEMICALS
/TYPA/IND/AUBNT/MELL/NAZARO
DATE TIME
FROM OF
TO OAT
riEoiun
SHK
OR
DEPTH
CFTI
39160
TRICNLOR
ETHTLENE
TOT U6/L
01027
CAomun
CO,TOT
ue/L
01032
owoniun
HEX-VAL
U6/L
61/08/25 1636 RCRAGU 0
UKK FOR ABOVE SAMPLE > 10230620
63/11/16 1440 RCRA6H 0
UMK FOD ABOVE SAHPLE > 10230620
64/02/1S RCRAGU 0
UKK FOR ABOVE SAMPLE > 10230620
.001U .005U
.001U .001U
.02U .05U
01034
cmoniun
CR.TOT
U6/L
.01
00616
N03-N
DISS
ttS/L
00620
N03-N
TOTAL
ItS/L
19.600
12.000
21.000
CO
-------�
STORET RETRIEVAL DATE 69/06/06
CAT0600116631*16 M1At-H8
36 46 ZO.O Itl 46 30.0 t
P6E ROSS LANDING RCRA HELL H6 UP
66053 CALIFORNIA HOMTERCY
CALIFORNIA 140406
CENTRAL COASTAL
21CARC 6S06E2 HQ 18066011
0056 FEET DEPTH
STATION DESCRIPTION
SCENARIO 10
HELLHEAO PROTECTION
MONTEREY CO
SEVERAL INDICATOR CHEMICALS
/TYPA/IND/AHBNT/MELL/HAZARO
PAGE:
13
DESCRIPTIVE PARAGRAPH
-------�
STORET RETRIEVAL DATE 69/06/08
CAT080011653UM8 HHA2-K8
36 48 20.0 121 46 30.0 2
PGE MOSS LANDING RCRA HELL MS UP
06053 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
21CARG 850622 HQ 18060011
0056 FEET DEPTH
PGM=RET
PAGE:
14
SCENARIO 10
WELLHEAD PROTECTION
MONTEREY CO
SEVERAL INDICATOR CHEMICALS
/TYPA/IND/AHBNT/HELL/HAZARD
DATE TIME
FROM OF
TO DAY
MEDIUM
SMK
OR
DEPTH
(FTI
39180
TRICHLOR
ETHYLENE
TOT UB/L
01027
CADMIUM
CD.TOT
UG/L
01032
CHROMIUM
HEX-VAL
UG/L
83/08/25 1637 RCRAGH 0
UMK FOR ABOVE SAMPLE > 10230620
63/11/16 1635 RCRAGH 0
UMK FOR ABOVE SAMPLE > 10230620
84/02/15 RCRAGH 0
UMK FOR ABOVE SAMPLE > 10230620
.001U .005U
.001U .001U
.02U -05U
01034
CHROMIUM
CR.TOT
UG/L
.007
00618
K03-N
DISS
MG/L
00620
N03-N
TOTAL
MG/L
18.900
19.000
18.000
-p.
en
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STOREr RETRIEVAL DATE e?/o6/oa
CATO«00116530t17 W1A2-H7
36 46 21.4 1Z1 46 33.6 Z
P6E nOSS LANDING RCRA HELL t!7 DOHH
06053 CALIFORNIA HONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
2ICARS OS06ZZ HQ 18060011
0046 FEET DEPTH
STATION DESCRIPTION
SCENARIO 10
WELLHEAD PROTECTION
MONTEREY CO
SEVERAL INDICATOR CHEMICALS
/TYPA/IUD/AMEHT/HELL/HAZARD
PAGE:
15
DESCRIPTIVE PARAGRAPH
-------�
STORET RETRIEVAL DATE 89/06/08
CAT06001I6530I17 MI1A2-H7
36 48 21.4 121 46 33.6 Z
PGE tlOSS LANDING RCRA HELL H7 DOWN
06053 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
21CAR6 8S06Z2 HQ 18060011
0046 FEET DEPTH
P6H=REY
PAGE:
16
SCENARIO 10
MELLMEAD PROTECTION
MONTEREY CO
SEVERAL INDICATOR CHEMICALS
/TYPA/IND/ATIBNT/HELL/HAZARD
DATE TIME
FROM OF
YO DAY
MEDIUM
SHK
OR
DEPTH
(FTI
39180
TRICHLOR
ETHYLENC
TOY UG/L
01027
CADHIUH
CO, TOT
U6/L
01032
CHROMIUM
HEX-VAL
UG/L
01034
CHROMIUM
CR.YOY
UG/L
00618
N03-N
DISS
MG/L
00620
N03-N
YOYAL
M6/L
83/08/25 1741 RCRAGH 0
UHX FOR ABOVE SAMPLE > 10230620
83/11/16 1530 RCRA6M 0
UHX FOR ABOVE SAMPLE > 10230620
84/02/15 RCRAGH 0
UMK FOR ABOVE SAMPLE > 10230620
.001U .005U
.001U .001U
.02U .05U
.005
13.800
14.000
13.000
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STORET RETRIEVAL DATE 89/06/08 STATION DESCRIPTION PAGE: 17
I3S/02E-07AOI H SCENARIO 10
36 49 ZO.O tZl 46 56.0 3 WELLHEAD PROTECTION
27-0895 WELL NO.01 CAPPURO BROS. HATER SYSTEM 81 MONTEREY CO
04053 CALIFORNIA MONTEREY SEVERAL INDICATOR CHEMICALS
CALIFORNIA 140400
CENTRAL COASTAL /TYPA/HUN/INTAKE/AMBNT/MELL
21CAL-3G 8707Z5 18060011
0000 FEET DEPTH
DESCRIPTIVE PARAGRAPH
OIST 05 CAPPURO BROS. MATER SYSTEM •!
-n TRAVEL 0.15 MILES SOUTH ON HIGHWAY 1 FROM STROVE ROAD
i
£ HELL IS 20 FEET NEST OF THE ROAD
00
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STOBET RETRIEVAL DATE 69/06/08 PGt1=RET PA6E:
13S/OZE-07A01 H SCEtlARIO 10
36 49 20.0 IZ1 46 56.0 3 NELLHEAD PROTECTION
27-0695 HELL NO.01 CAPPUHO BROS. HATER SYSTEM • ! HONTEREY CO
06053 CALIFORNIA MONTEREY SEVERAL INDICATOR CHEMICALS
CALIFORNIA 140400
CENTRAL COASTAL /TYPA/MUM/INTAKE/AMBNT/HELL
2ICAL-3G 870725 18060011
0000 FEET DEPTH
DATE TIME
FROM OF
TO DAY MEDIUM
87/05/10 1352 MATER 0 -SOUK
SMK
OK
DEPTH
(FT)
39180
TRICHLOR
ETHYLENC
TOT UG/L
01027
CADMIUM
CO. TOT
US/L
01032
CHROMIUM
HEX-VAL
UG/L
01034
CHROMIUM
CR.TOT
UG/L
00618
N03-N
OISS
MG/L
00620
N03-N
TOTAL
MG/L
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5TORCT RETRIEVAL DATE 69/06/08
13S/OZE-06NOI n
36 49 49.0 121 47 44.5 1
27-9998 WELL NO. 01 CAPPURO BROS. 12
06053 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENTRAL COASTAL
2ICAL-3G 670725 16060011
0000 FEET DEPTH
STATION DESCRIPTION
SCENARIO 10
WELLHEAD PROTECTION
MONTEREY CO
SEVERAL INDICATOR CHEMICALS
/TYPA/MUN/INTAKE/AMBNT/HELL
PAGE:
19
DESCRIPTIVE PARAGRAPH
DIST 05 CAPPURO BROS. i2
TRAVEL .3 MILES NORTH WEST ON STRUVE ROAD PROM HIGHWAY 1
THEN 60 1.0 MILES NORTH WEST ON A PRIVATE ROAD
WELL IS .18 MILES WEST OF THE ROAD
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STORET RETRIEVAL DATE 89/06/08
133/02E-06M01 M
36 49 49.0 121 47 44.5 3
27-9996 WELL NO. 01 CAPPURO BROS. 9Z
06053 CALIFORNIA MONTEREY
CALIFORNIA 140400
CENIRAL COASTAL
21CAL-3G 670725 16060011
ODOO FEET DEPTH
PGM=RET
PAGE:
20
SCENARIO 10
WELLHEAD PROTECTION
rtONTERET CO
SEVERAL INDICATOR CHEHICALS
/TYPA/HUN/INTAKE/AMBNT/MELL
DATE TINE
FROM OF
TO DAY
MEDIUM
SMK
OR
DEPTH
IFTI
39100
TRICHLOR
ETHYLENE
TOT U6/L
01027
CADMIUM
CO, TOT
US/L
01032
CHROMIUM
HEX-VAL
U6/L
01034
CHROMIUM
CR.TOT
U6/L
00616
N03-N
DISS
Mfi/L
00620
N03-N
TOTAL
MG/L
57/05/16 1405 HATER
.BOOK
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Appendix G
Glossary
n
-------�
GLOSSARY
AOP: Automated Data Processing
AFP: IBM's Advanced Function Printing software
APA: All Points Addressable graphics
ARC-INFO: A geographical information system
AWPO: Assessment and Watershed Protection Division of Office of Water
Regulations and Standards, formerly Monitoring and Data Support Division, (MDSD)
BAT: Best Available Treatment technology economically feasible, under section
304(b)(2)(B) of the Clean Water Act
BCF: Basin Characteristic File
BIOS: Biological Information System
BLITZ: A STORET interactive procedure which allows retrieval of all data
(station location and parametric) for a single STORET station
BOD: Biochemical oxygen demand
BPT: Best practical control technology currently available; technology-based
effluent limitations for direct dischargers in section 301(b)(l)(A) of the FHPCA
BROWSE: A STORET interactive procedure that allows examination of selected
station locations and parametric data
Baud: A unit expressing the rate at which data can be transmitted over telephone
lines, e.g., 2400 baud
CAD: Computer Assisted Design
CPU: Central Processing Unit
i
CD: Cataloging Unit, the 8-digit numeric code that uniquely identifies U.S.
watersheds, implemented by USGS and adopted as a FTPS standard
dBase: Software package for PCs for data management; several versions (dBase
II, III, III+, & IV) have been released
DECAL: Sediment accumulation model available on ODES
DLG: USGS Digital Line Graph data
DMR: Discharge Monitoring Report
DO: Dissolved oxygen
6-1
-------�
DWS: Drinking Water Supplies File
EDDM: Environmental Data Display Manager, a part of WQAS which allows access
to water information from a variety of data sources for graphical display
FIPS: Federal Information Processing Standard
FTS: Federal Telephone System
FWPCA: Federal Water Pollution Control Act
Field Survey File: A BIOS file containing data on distribution, abundance, and
physical condition of aquatic organisms, and habitat descriptors
GDDM: Graphical Display Data Manager
GIS: Geographical Information System
GNIS: USGS Geographic Names Information System, contains every named feature
on the 1:24,000 USGS topographic maps
General Retrieval Path: One of 2 retrieval paths that can be selected when using
the menu-driven interface to the STORE! WQS
IFD: Municipal/Industrial Facility Discharge File
IPS: PCS/STORET Interface, a part of WQAS which allows simultaneous access to
PCS and STORET
ISPF: Interactive System Productivity Facility
JCL: Job Control Language
JNUM: Job Number, an SDSF input queue term
LAN: Local Area Network
LOC: STORET map making tool
MOU: Memorandum of Understanding
MWDI: Master Water Data Index
Modem: A device used for transmitting and receving computer (non-voice) data
via telephone
NAWDEX: National Water Data Exchange
NCC: U.S. EPA National Computer Center in Research Triangle Park, North Carolina
NDPD: US EPA's National Data Processing Division
NEEDS: The Needs Survey General Query software to access database from biennial
needs survey to estimate cost of construction of needed U.S. POTWs
G-2
-------�
NODC: National Oceanographic Data Center
NPDES: National Pollution Discharge Elimination System
NTIS: National Technical Information Service
ODES: Ocean Data Evaluation System
OGWP: Office of Ground Water Protection
OGVIP Ground Water Path: One of 2 retrieval paths that can be selected when using
the menu-driven interface to the STORET WQS. This path provides special menus
for accessing ground water sampling and analytical methods data.
OIRM: Office of Information Resources Management
PC: Personal Computer or microcomputer
PCB: Polychlorinated biphenyl
PCRF: PC Reach File, a software package that allows users to perform Reach File
operations from PCs or terminals
PCS: Permit Compliance System
POTW: Publicly owned treatment works
PRTY: Priority, an SDSF input queue term
Primary Option Menu: The first screen that appears after entering the ISPF, from
which STORET may be accessed
QUEUE: Mainframe output utility which controls the priority, the order in which
batch jobs are completed and available for output/access.
REACH: The Reach File
RJE: Remote Job Entry
RPA: Reach Pollutant Assessment program
RTP: Research Triangle Park, North Carolina
SAS: Statistical Analysis System, a commercial software package that supports
a wide range of statistical analyses and graphical data displays
SOSF: Spool Display and Support Facility, a commercial system utility which
allows the STORET user to locate and process requests submitted for execution
by the interface (e.g., purge, fetch, route, and view jobs)
SIC: Standard industrial classification
SMSA: Standard Metropolitan Statistical Area
G-3
-------�
SPLIT: An ISPF command the horizontally splits the screen display at the cursor
position
STORE!: Storage and retrieval of water-related environmental data
TSO: Time Sharing Option
TVA: Tennessee Valley Authority
The Daily Flow System: A "family member" of the STORET system which contains
daily observations of flow and miscellaneous water quality parameters gathered
at USGS gaging stations
UNIRAS: Software used by WQAS on EPA computer to generate device independent
graphics
USGS: U.S. Geological Survey
WAN: Wide Area Network
WBS: Water-body System
WIC: Washington Information Center
WQAS: Water Quality Analysis System
G-4
-------�
Appendix H
Regional Forum
Evaluation Forms
i
a.
x
X
-------�
Name.
FORUM RESPONSE CHECKLIST State^
MAINFRAME ISSUES
Connections/Compatibility
Access Time.
RTF Support.
Training.
Documentation
EQUIPMENT ISSUES
Connections/Compatibility.
Availability.
Regional OIRM Support.
Training.
Documentation
SYSTEM ISSUES
Access
Ease Of Use
Usefulness
Accuracy.
HQ Support.
Training.
Documentation.
STORET
BIOS
WBS
WQAB
NEEDS
ODES
-------�
SPECIFIC
The STORET umbrella encompasses several systems. For this feedback, we
are only considering the Water Quality System (WQS), the Biological Data
System (BIOS), and the Daily Flow System (DFS).
Our plans for these systems are as follows:
Complete'the menu-driven retrieval capability for the WQS
Complete the menu-driven station storage capability (WQS & BIOS)
Complete the two remaining BIOS files: tissue residue and toxicity
Incorporate the Rapid Bioassessment Protocol into BIOS
Develop or support a PC station/data storage capability for WQS
Develop a menu-driven retrieval capability for BIOS
Develop or support a PC station/data storage capability for BIOS
"Integrate" the DFS into the WQS in order to retrieve flow information
through a "STORET" retrieval
Make any additions you like and rank the entire list. (Highest priority being 1)
What should the system be able to do, that it is not, which could make your
job easier?
What should the STORET User Assistance Group be supporting that they don't?
How can training be improved?
Should the STORET Users Meeting(s) be reinstituted? Yes No
May we contact you for any clarification to your answers? Yes No
Name Telephone
-------�
STORET FEEDBACK
GENERAL
Over the next 5 to 10 years:
- What primary types of information will your agency need?
(locational, hydrological, parametric, analytical,
biological, other)
- For what purposes (uses) will this information be needed?
- To what other data bases would you need access?
- Is your affiliation - EPA, State, Other Federal Agency, Other?
Your comments on BIOS, the menu-driven retrieval capability, and STORET as
a ground-water data management tool.
(OVER)
-------�
jo*
Evaluation of Forum Data Systems
Page 1 of 2
STORET
Ground WQA
STORET
Surface WQA
WQAS
WBS
<305fe Report*)
REACH
Hydrotogte
Analysis ;
NEEDS
(Facility data)
BIOS
(Biological data
storage/analysts)
ODES
!marlne data
storage/analysis)
uabia
•1
Pr»*m1?
VM/NO
II »••
Plan !•
Incrtn.
y»»T
(T»p. or PCi.gr .phle
l*rfnln»l(,
communlMl leni )
lnl«r«tt*d
hi loflow-u
tr*liln|?
Y*t/No
Unlaminw
with •y»t*m
V»/H»
If not using 1
••»•«•
net VMfiri
V»I/N«
[PA Sritwn
HIV* own
•r*l*m
Y*«/N»
•. whv?
N*
H»rdw«r«
V»/No
No lr«bi«r«/hirdw«r»)
i
i
i
See next page
-------�
name
•\gency
.'hone Number Evaluation of Forum Data Systems Page 2 of 2
If not addressed on Page I:
What are your primary needs/Issues requiring use of data systems? (continue on separate sheet, if needed)
1. Groundwater
2. Surface Water.
3. Marine Waters.
4. Biological Data
What Innovative approaches are you using presently to address these issues? (continue on separate sheet if
needed)
1.
2.
3.
Do you have any suggestions for improving the Forums? (continue on separate sheet if needed)
Any other comments? (continue on separate sheet, if necessary)
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