The requirements also contain monitoring requirements, best available technology (BAT) identification, and analytical method requirements pursuant to 41.3(1)"c," and 567-paragraphs 41.3(1)"e" and 43.3(10)"b," respectively.
Contaminant | EPA Contaminant Code | Maximum Contaminant Level (mg/L) |
Antimony | 1074 | 0.006 |
Arsenic* | 1005 | 0.010 |
Asbestos | 1094 | 7 million fibers/liter (longer than 10 micrometers in length) |
Barium | 1010 | 2 |
Beryllium | 1075 | 0.004 |
Cadmium | 1015 | 0.005 |
Chromium | 1020 | 0.1 |
Cyanide (as free Cyanide) | 1024 | 0.2 |
Fluoride** | 1025 | 4.0 |
Mercury | 1035 | 0.002 |
Nitrate | 1040 | 10 (as nitrogen) |
Nitrite | 1041 | 1.0 (as nitrogen) |
Total Nitrate and Nitrite | 1038 | 10 (as nitrogen) |
Selenium | 1045 | 0.05 |
Thallium | 1085 | 0.002 |
*The arsenic MCL changed from 0.05 mg/L to 0.010 mg/L on January 23, 2006.
**The recommended fluoride level is 0.7 milligrams per liter as published by the U.S. Department of Health and Human Services, Public Health Service (July-August 2015). At this optimum level in drinking water, fluoride has been shown to have beneficial effects in reducing the occurrence of tooth decay.
* Quarterly for at least one year following any one sample in which the concentration is greater than or equal to 5.0 mg/L as N. The department may allow a groundwater system to reduce the sampling frequency to annually after four consecutive quarterly samples are reliably and consistently less than 5.0 mg/L as N.
* Monthly for at least one year following any one sample in which the concentration is greater than or equal to 10.0 mg/L as N.
* Annually if all analytical results from four consecutive quarters are less than 5.0 mg/L as N.
* Quarterly for at least one year following any one sample in which the concentration is greater than or equal to 5.0 mg/L as N. The department may allow a surface water system to reduce the sampling frequency to annually after four consecutive quarterly samples are reliably and consistently less than 5.0 mg/L as N.
* Monthly for at least one year following any nitrate MCL exceedance.
* Quarterly for at least one year following any one sample in which the concentration is greater than or equal to 0.50 mg/L as N. The department may allow a system to reduce the sampling frequency to annually after determining the system is reliably and consistently less than 0.50 mg/L.
* Monthly for at least one year following any nitrite MCL exceedance.
INORGANIC CONTAMINANTS ANALYTICAL METHODS
Contaminant | Methodology15 | EPA | ASTM3 | SM | SM Online26 | Other | Detection Limit, mg/L |
Antimony | Atomic absorption; furnace | 3H3B4,27,33 | 3113 B-04, B-10 | 0.003 | |||
Atomic absorption; platform | 200.92 | 0.000812 | |||||
ICP-Mass spectrometry | 200.82 | 0.0004 | |||||
Atomic absorption; hydride | D3697-92, 02, 07, 12 | 0.001 | |||||
Axially viewed inductively coupled plasma-atomic emission spectrometry (AVICP-AES) | 200.5, Revision 4.228 | ||||||
Arsenic16 | ICP-Mass spectrometry Atomic absorption; platform | 200.82200.92 | 0.0014 0.000515 | ||||
Atomic absorption; furnace | D2972-97C, 03C, 08C | 3H3B4,27,33 | 3113 B-04, B-10 | 0.001 | |||
Atomic absorption; hydride Axially viewed inductively coupled plasma-atomic emission spectrometry (AVICP-AES) | 200.5, Revision 4.228 | D2972-97B, 03B, 08B | 3H4B4,27,,.33 | 3114 B-09 | 0.001 | ||
Asbestos | Transmission electron microscopy | 100.19 | 0.01 MFL | ||||
Transmission electron microscopy | 100.210 | ||||||
Barium | Inductively coupled plasma | 200.72 | 3120B18,27,33 | 3120 B-99 | 0.002 | ||
ICP-Mass spectrometry | 200.82 | ||||||
Atomic absorption; direct | 31HD4,27,.33 | 3111 D-99 | 0.1 | ||||
Atomic absorption; furnace | 3H3B4,27,.33 | 3113 B-04, B-10 | 0.002 | ||||
Axially viewed inductively coupled plasma-atomic emission spectrometry (AVICP-AES) | 200.5, Revision 4.228 | ||||||
Beryllium | Inductively coupled plasma ICP-Mass spectrometry Atomic absorption; platform | 200.72 200.82 200.92 | 3120B18,27, 33 | 3120 B-99 | 0.0003 0.0003 0.0000212 | ||
Atomic absorption; furnace | D3645-97B, 03B, 08B | 3H3B4,27,.33 | 3113 B-04, B-10 | 0.0002 | |||
Axially viewed inductively coupled plasma-atomic emission spectrometry (AVICP-AES) | 200.5, Revision 4.228 | ||||||
Cadmium | Inductively coupled plasma | 200.72 | 0.001 | ||||
ICP-Mass spectrometry | 200.82 | ||||||
Atomic absorption; platform | 200.92 | ||||||
Atomic absorption; furnace | 3113B4,27,33 | 3113 B-04, B-10 | 0.0001 | ||||
Axially viewed inductively coupled plasma-atomic emission spectrometry (AVICP-AES) | 200.5, Revision 4.228 | ||||||
Chromium | Inductively coupled plasma | 200.72 | 3120B18,27,33 | 3120 B-99 | 0.007 | ||
ICP-Mass spectrometry | 200.82 | ||||||
Atomic absorption; platform | 200.92 | ||||||
Atomic absorption; furnace | 3H3B4,27,33 | 3113 B-04, B-10 | 0.001 | ||||
Axially viewed inductively coupled plasma-atomic emission spectrometry (AVICP-AES) | 200.5, Revision 4.228 | ||||||
Cyanide | Manual distillation (followed by one of the following four analytical methods:) | D2036-98A, D2036-06A | 4500-CN-C18,27,33 | ||||
Spectrophotometric; amenable14 | D2036-98B, D2036-06B | 4500-CN-G18,27,33 | 4500-CN-G-99 | 0.02 | |||
Spectrophotometric; manual13 Spectrophotometric; semi-automated13 | 335.46 | D2036-98A, D2036-06A | 4500-CN-E18,27,33 | 4500-CN-E-99 | i-3300-855 | 0.02 0.005 | |
Selective electrode13 | 4500-CN-F18,27,33 | 4500-CN-F-99 | 0.05 | ||||
UV, distillation, spectrophotometric22 | KeladaOl20 | 0.0005 | |||||
Micro distillation, flow injection, spectrophotometric 13 | QuikChem 10-204-00-1 -X21 | 0.0006 | |||||
Ligand exchange with amperometry14 Gas chromatography /mass spectrometry headspace | D6888-04 | OIA-1677, DW25 ME355.0129 | 0.0005 | ||||
Fluoride | Ion chromatography | 300.06, 300.I23 | D4327-97, 03, 11 | 4H0B18,27,33 | 4110 B-00 | ||
Manual distillation; colorimetric; SPADNS | 4500F-B.D18, 27,33 | 4500 F-B.D-97 | |||||
Manual electrode Automated electrode | D1179-93B, 99B, D1179-04B, 10B | 4500F-C18, 27, 33 | 4500 F-C-97 | 380-75WE11 | |||
Automated alizarin | 4500F-E18, 27,33 | 4500 F-E-97 | 129-71 W& » | ||||
Capillary ion electrophoresis | D6508, Rev. 224 | ||||||
Arsenite-free colorimetric; SPADNS | Hach SPADNS 2 Method 1022531 | ||||||
Magnesium | Atomic absorption; direct | D511-93, 03B, 09B, 14B | 31HB4,27,33 | 3111 B-99 | |||
ICP | 200.71 | 3120B18, 27,33 | 3120 B-99 | ||||
Complexation Titrimetric Methods | D511-93, 03A, 09A, 14B | 3500-Mg E4 | |||||
3500-Mg B19, 27,33 | 3500-Mg B-97 | ||||||
Ion chromatography | D6919-03, 09 | ||||||
Axially viewed inductively coupled plasma-atomic emission spectrometry (AVICP-AES) | 200.5, Revision 4.228 | ||||||
Mercury | Manual, cold vapor | 245.12 | D3223-97, 02, 12 | 3H2B4,27,33 | 3112 B-09 | 0.0002 | |
Automated, cold vapor | 245.21 | 0.0002 | |||||
ICP-Mass spectrometry | 200.82 | ||||||
Nickel | Inductively coupled plasma | 200.72 | 3120B18,27,33 | 3120 B-99 | 0.005 | ||
ICP-Mass spectrometry | 200.82 | 0.0005 | |||||
Atomic absorption; platform | 200.92 | 0.000612 | |||||
Atomic absorption; direct | 31HB4, 27,33 | 3111 B-99 | |||||
Atomic absorption; furnace | 3H3B4,27,.33 | 3113 B-04, 10 | 0.001 | ||||
Axially viewed inductively coupled plasma-atomic emission spectrometry (AVICP-AES) | 200.5, Revision 4.228 | ||||||
Nitrate | Ion chromatography | 300.06, 300.123 | D4327-97, 03, 11 | 4110B18,27,33 | 4110 B-00 | B-10118 | 0.01 |
Automated cadmium reduction | 353.26 | D3867-90A | 4500-NO3-F18,27,33 | 45OO-NO3-F-OO | 0.05 | ||
Ion selective electrode | 4500-NO3-D18,27,33 | 45OO-NO3-D-OO | 6017 | 1 | |||
Manual cadmium reduction | D3867-90B | 4500-NO3-E18,27,33 | 45OO-NO3-E-OO | 0.01 | |||
Capillary ion electrophoresis | D6508, Rev. 224 | 0.076 | |||||
Reduction/colorimetric | Systea Easy (1-Reagent)30 NECi Nitrate-Reductase34 | ||||||
Colorimetric; direct | Hach TNTplusT 835/836 Method 1020632 | ||||||
Nitrite | Ion chromatography | 300.06, 300.1" | D4327-97, 03, 11 | 4H0B18,27,33 | 4110 B-00 | B-10118 | 0.004 |
Automated cadmium reduction | 353.26 | D3867-90A | 4500-NO3-F18,27,33 | 45OO-NO3-F-OO | 0.05 | ||
Manual cadmium reduction | D3867-90B | 4500-NO3-E18,27,33 | 45OO-NO3-E-OO | 0.01 | |||
Spectrophotometric | 4500-NO2-B18,27,33 | 4500-NO2-B-00 | 0.01 | ||||
Capillary ion electrophoresis | D6508, Rev. 224 | 0.103 | |||||
Reduction/colorimetric | Systea Easy (1-Reagent)3» NECi Nitrate-Reductase34 | ||||||
Selenium | Atomic absorption; hydride | D3859-98, 03A, 08A | 3114B4.27.33 | 3114 B-09 | 0.002 | ||
ICP-Mass spectrometry | 200.82 | ||||||
Atomic absorption; platform | 200.92 | ||||||
Atomic absorption; furnace | D3859-98, 03B, 08B | 3H3B4.27.33 | 3113 B-04, 10 | 0.002 | |||
Axially viewed inductively coupled plasma-atomic emission spectrometry (AVICP-AES) | 200.5, Revision 4.228 | ||||||
Sodium | Inductively coupled plasma | 200.72 | |||||
Atomic absorption; direct | 31HB4,27,33 | 3111 B-99 | |||||
Ion chromatography | D6919-03, 09 | ||||||
Axially viewed inductively coupled plasma-atomic emission spectrometry (AVICP-AES) | 200.5, Revision 4.228 | ||||||
Thallium | ICP-Mass spectrometry | 200.82 | |||||
Atomic absorption; platform | 200.92 | 0.000712 |
The procedures shall be done in accordance with the documents listed below. The incorporation by reference of the following documents was approved by the Director of the Federal Register in accordance with 5 U.S.C. 552(a) and 1 CFR Part 51. Copies of the documents may be obtained from the sources listed below. Information regarding obtaining these documents can be obtained from the Safe Drinking Water Hotline at (800)426-4791. Documents may be inspected at EPA's Drinking Water Docket, EPA West, 1301 Constitution Avenue, NW, Room B102, Washington, DC 20460 (telephone: (202)566-2426); or at the Office of Federal Register, 800 North Capitol Street, NW, Suite 700, Washington, DC.
1"Methods for Chemical Analysis of Water and Wastes," EPA-600/4-79-020, March 1983. Available at NTIS, PB84-128677.
2"Methods for the Determination of Metals in Environmental Samples-Supplement I," EPA-600/R-94-111, May 1994. Available at NTIS, PB95-125472.
3 Annual Book of ASTM Standards, 1994, 1996, 1999 or 2003, Vols. 11.01 and 11.02, American Society for Testing and Materials (ASTM) International; the methods listed are the only versions that may be used. Copies may be obtained from ASTM International, 100 Barr Harbor Drive, West Conshohocken, PA 19428.
418th and 19th editions of Standard Methods for the Examination of Water and Wastewater, 1992 and 1995, respectively, American Public Health Association; either edition may be used. Copies may be obtained from the American Public Health Association, 800 I Street, NW, Washington, DC 20001-3710.
5Techniques of Water Resources Investigation of the U.S. Geological Survey, Book 5, Chapter A-l, 3rd edition, 1989, Method Available from Information Services, U.S. Geological Survey, Federal Center, Box 25286, Denver, CO 80225-0425.
6"Methods forthe Determination of Inorganic Substances in Environmental Samples," EPA-600-R-93-100, August 1993. Available atNTIS, PB94-120821.
7The procedure shall be done in accordance with the Technical Bulletin 601, "Standard Method of Test for Nitrate in Drinking Water," July 1994, PN221890-001, Analytical Technology, Inc. Copies may be obtained from ATI Orion, 529 Main Street, Boston, MA 02129.
8Method B-1011, "Waters Test Method for Determination of Nitrite/Nitrate in Water Using Single Column Ion Chromatography," August 1987. Copies may be obtained from Waters Corporation, Technical Services Division, 34 Maple Street, Milford, MA 01757; telephone: (508)482-2131.
9Method 100.1, "Analytical Method for Determination of Asbestos Fibers in Water," EPA-600/4-83-043, EPA, September 1983. Available at NTIS, PB83-260471.
10Method 100.2, "Determination of Asbestos Structure Over 10 Microns in Length in Drinking Water," EPA-600/R-94-134, June 1994. Available at NTIS, PB94-201902.
11Industrial Method No. 129-71W, "Fluoride in Water and Wastewater," December 1972, and Method No. 380-75WE, "Fluoride in Water and Wastewater," February 1976, Technicon Industrial Systems. Copies may be obtained from Bran & Luebbe, 1025 Busch Parkway, Buffalo Grove, IL 60089.
12Lower MDLs are reported using stabilized temperature graphite furnace atomic absorption.
13Screening method for total cyanides.
14Measures "free" cyanides when distillation, digestion, or ligand exchange is omitted.
15Because MDLs reported in EPA Methods 200.7 and 200.9 were determined using a 2X preconcentration step during sample digestion, MDLs determined when samples are analyzed by direct analysis (i.e., no sample digestion) will be higher. For direct analysis of cadmium by Method 200.7, sample preconcentration using pneumatic nebulization may be required to achieve lower detection limits. Preconcentration may also be required for direct analysis of antimony and thallium by Method 200.9, and antimony by Method 3113B, unless multiple in-furnace depositions are made.
16If ultrasonic nebulization is used in the determination of arsenic by Method 200.8, the arsenic must be in the pentavalent state to provide uniform signal response. For direct analysis of arsenic with Method 200.8 using ultrasonic nebulization, samples and standards must contain 1 mg/L of sodium hypochlorite.
17Reserved.
18The 18th, 19th, and 20th editions of Standard Methods for the Examination of Water and Wastewater, 1992, 1995, and 1998, respectively, American Public Health Association; any edition may be used, except that the versions of 3111B, 3111D, 3113B, and 3114B in the 20th edition may not be used. Copies may be obtained from the American Public Health Association, 800 I Street, NW, Washington, DC 20001-3710.
19The 20th edition of Standard Methods for the Examination of Water and Wastewater, 1998, American Public Health Association. Copies may be obtaining from the American Public Health Association, 800 I Street, NW, Washington, DC 20001-3710.
20The description for the Kelada 01 Method, "Kelada Automated Test Methods for Total Cyanide, Acid Dissociable Cyanide, and Thiocyanate," Revision 1.2, August 2001, EPA #821-B-01-009 for cyanide is available from NTIS PB 2001-108275. NOTE: A 450W UV lamp may be used in this method instead of the 5 50 W lamp specified if it provides performance within the quality control acceptance criteria of the method in a given instrument. Similarly, modified flow cell configurations and flow conditions may be used in the method, provided that the quality control acceptance criteria are met.
21The description for the Quik Chem Method 10-204-00-1-X, "Digestion and distillation of total cyanide in drinking water and wastewaters using MICRO DIST and determination of cyanide by flow injection analysis," Revision 2.1, November 30, 2000, for cyanide is available from Lachat Instruments, 6645 W. Mill Road, Milwaukee, WI 53218, telephone (414)358-4200.
22Measures total cyanides when UV-digestor is used, and "free" cyanides when UV-digestor is bypassed.
23"Methods for the Determination of Organic and Inorganic Compounds in Drinking Water," Volume 1, EPA 815-R-00-014, August 2000. Available at NTIC, PB2000-106981.
24Method D6508, Rev. 2, "Test Method for Determination of Dissolved Inorganic Anions in Aqueous Matrices Using Capillary Ion Electrophoresis and Chromate Electrolyte," available from Waters Corp., 34 Maple Street, Milford, MA 01757; telephone: (508)482-2131; fax: (508)482-3625.
25Method OIA-1677, DW "Available Cyanide by Flow Injection, Ligand Exchange, and Amperometry," January 2004. EPA-821-R-04-001. Available from ALPKEM, a division of OI Analytical, P.O. Box 9010, College Station, TX 77542-9010.
26Standard Methods Online is available at www.standardmethods.org. The year in which each method was approved by the Standard Methods Committee is designated by the last two digits in the method number. The methods listed are the only online versions that may be used.
27Standard Methods for the Examination of Water and Wastewater, 21st edition (2005). Available from American Public Health Association, 800 I Street, NW, Washington, DC 20001-3710.
28EPA Method 200.5, Revision 4.2: "Determination of Trace Elements in Drinking Water by Axially Viewed Inductively Coupled Plasma-Atomic Emission Spectrometry," 2003. EPA/600/R-06/115. Available at www.nemi.gov .
29Method ME355.01, Revision 1.0, "Determination of Cyanide in Drinking Water by GC/MS Headspace," May 26, 2009. Available at www.nemi.gov or from H & E Testing Laboratory, 221 State Street, Augusta, ME 04333; telephone: (207)287-2727.
30Systea Easy (1-Reagent), "Systea Easy (1-Reagent) Nitrate Method," February 4, 2009. Available at www.nemi.gov or from Systea Scientific, LLC, 900 Jorie Blvd., Suite 35, Oak Brook, IL 60523.
31Hach Company Method, "Hach Company SPADNS 2 (Arsenic-free) Fluoride Method 10225 - Spectrophotometric Measurement of Fluoride in Water and Wastewater," January 2011. 5600 Lindbergh Drive, P.O. Box 389, Loveland, CO 80539. Available atwww.hach.com .
32Hach Company Method, "Hach Company TNTplus" 835/836 Nitrate Method 10206 - Spectrophotometric Measurement of Nitrate in Water and Wastewater," January 2011. 5600 Lindbergh Drive, P.O. Box 389, Loveland, CO 80539. Available at www.hach.com .
33Standard Methods for the Examination of Water and Wastewater, 22nd edition (2012), American Public Health Association. Available from the American Public Health Association, 800 I Street, NW, Washington, DC 20001-3710.
34Nitrate Elimination Company, Inc. (NECi). "Method for Nitrate Reductase Nitrate-Nitrogen Analysis of Drinking Water," February 2016. Superior Enzymes, Inc., 334 Hecla Street, Lake Linden, MI 49945.
SAMPLING METHODS FOR IOCs
Contaminant | Preservative1 | Container2 | Time3 |
Antimony | HN03 | P or G | 6 months |
Arsenic | HNO3 | P or G | 6 months |
Asbestos | 4 degrees C | P or G | 48 hours for filtration5 |
Barium | HNO3 | P or G | 6 months |
Beryllium | HNO3 | P or G | 6 months |
Cadmium | HNO3 | P or G | 6 months |
Chromium | HNO3 | P or G | 6 months |
Cyanide | 4 degrees C, NaOH | P or G | 14 days |
Fluoride | None | P or G | 1 month |
Mercury | HNO3 | P or G | 28 days |
Nickel | HNO3 | P or G | 6 months |
Nitrate4 | 4 degrees C | P or G | 48 hours |
Nitrate-Nitrite4 | H2S04 | P or G | 28 days |
Nitrite4 | 4 degrees C | P or G | 48 hours |
Selenium | HNO3 | P or G | 6 months |
Thallium | HNO3 | P or G | 6 months |
1When indicated, samples must be acidified at the time of collection to pH < 2 with concentrated acid, or adjusted with sodium hydroxide to pH > 12. Samples collected for metals analysis may be preserved by acidification at the laboratory, using a 1:1 nitric acid solution (50 percent by volume), provided the shipping time and other instructions in Section 83. of EPA Methods 200.7, 200.8, and 200.9 are followed. When chilling is indicated, the sample must be shipped and stored at 4 degrees C or less.
2P: plastic, hard or soft; G: glass, hard or soft.
3In all cases, samples should be analyzed as soon after collection as possible. Follow additional (if any) information on preservation, containers, or holding times that is specified in the method.
4Nitrate may only be measured separate from nitrite in samples that have not been acidified. Measurement of acidified samples provides a total nitrate (sum of nitrate plus nitrite) concentration. Acidification of total nitrate (nitrate plus nitrite) samples must be done in the field at the time of sample collection.
5Instructions for containers, preservation procedures, and holding times as specified in Method 100.2 must be adhered to for all compliance analyses, including those conducted with Method 100.1.
Iowa Admin. Code r. 567-41.3