EPA Method 200.8


ALS - Columbia offers EPA Method 200.8 testing at these laboratories:

Jacksonville Jacksonville, Florida Laboratory
Kelso Kelso, Washington Laboratory
Rochester Rochester, New York Laboratory

Method information displayed is provided for informational purposes only. No warranty (express or implied) is made as to the website accuracy, completeness, or applicability (such as the age of a method and whether or not it applies to your project). Please contact us for assistance. Analytical testing dots

PDF IconView Actual EPA Method 200.8 (PDF File)


EPA Method 200.8:
Determination of Trace Elements in Waters and Wastes by ICP-MS

Summary:
Except for the determination of dissolved analytes aqueous samples are acid preserved prior to sample processing. For the analysis of dissolved analytes, an acidified portion the filtrate is analyzed directly. For the determination of total-recoverable analytes in aqueous samples containing particulate material as well as solid type samples, samples are subjected to acid pretreatment with nitric and hydrochloric acids and gentle refluxing prior to analysis. The method involves multi-element determination by inductively coupled plasma-mass spectrometry. Sample solutions are pneumatically nebulized into a radio-frequency plasma where ionization occurs. The ions are extracted from the plasma through a differentially pumped vacuum interface and separated on the basis of their mass-to-charge ratio by a quadruple mass spectrometer. Separated ions are detected by an electron multiplier or Faraday detector and the ion information processed by a data handling system. Isobaric and polyatomic interferences relating to the technique must be recognized and corrected. Instrument drift and matrix effects must be corrected with the use of internal standards.

Scope:
This method determines 21 elements as dissolved elements in ground waters, surface waters, and drinking water, and total recoverable elements in these waters as well as wastewaters, sludges, and soils samples. Total-recoverable determination data should be reported as "total" (dissolved + suspended fractions) metal data. Organometalic compounds (such as arsenic compounds) are only determined as "total metals" and not as the individual organometalic compounds.

Citation:
Methods for the Determination of Metals in Environmental Samples, Supplement 1 (EPA/600/R-94/111)

Interferences:
(1) Isobaric elemental interferences caused by isotopes of different elements which form singly or doubly charged ions of the same nominal mass-to-charge ratio and cannot be resolved by the mass spectrometer in use.(2) Signals from relatively abundant isotopes can coalesce at the wings of relatively less abundant isotopes leading to loss of resolution and poorer quantitation.(3) Isobaric polyatomic ion interferences are caused by ions consisting of more than one atom with the same nominal charge-to-mass ratio of the isotope of interest.(4) Physical interferences that hinder transport of the sample into the plasma (e.g., viscosity effects, high levels of solids).(5) Memory interferences (carry-over) of isotopes from previous sample runs.

QC Requirements:
Calibration Blanks (CBs), Laboratory Reagent Blanks (LRBs), Laboratory Duplicates (LDs), Laboratory Fortified Sample Matrix (LFM), Quality Control Samples (QCSs)

Maximum Holding Time:
6 months (All metals except Hg - 28 days)

Media:
WATER

Subcategory:
Inorganic

Concentration:
The analytical range depends on the type of detector utilized (electron multiplier or Faraday cup) and extends from the laboratory determined MDL to the upper limit of the linear dynamic range.

Precision:
Data (excluding that for mercury) was from joint EPA-AOAC 13-laboratory round robin validation. The precision and accuracy values presented are based on analyses of spiked reagent water samples. However, the method contains multilaboratory data and regression equations for metals analyses in drinking water, and ground water, and reagent water, as well supplemental single-laboratory data in a variety of matrices and media. NOTE: Mercury data was based on analyses of 3 drinking water samples fortified with mercury. One sample had background concentration above the MDL (0.23).

Detection:
(1) Instrument detection limits (3-sigma) estimated from seven-replicate integrations of the blank (1% v/v nitric acid) following calibration of the instrument with three replicate integrations of a multi-element standard. (2) IDLs were estimated from single-laboratory, reagent water data.

Revision Number:
Revision 5.4, 1994

Test Description:
Trace Elements in Wa

Report Number:
600/R-94-111

Date Issued:
5/1/1994

Instrument used for this test:
ICP-MS

Analytical testing dots
At least 21 analytes can be tested by ALS - Columbia using EPA Method 200.8. Please contact us for all available analytes which can be tested by EPA Method 200.8.

AnalyteCAS Number
Silver7440-22-4
Cadmium7440-43-9
Chromium7440-47-3
Copper7440-50-8
Nickel7440-02-0
Lead7439-92-1
Selenium7782-49-2
Zinc7440-66-6
Aluminum7429-90-5
Arsenic7440-38-2
Barium7440-39-3
Beryllium7440-41-7
Cobalt7440-48-4
Antimony7440-36-0
Manganese7439-96-5
Molybdenum7439-98-7
Thallium7440-28-0
Vanadium7440-62-2
Tin7440-31-5
Titanium7440-32-6
Strontium7440-24-6





Examples:  8260
TO-15

Examples:  Dioxin
Mercury
Analytical testing dots


<-- Search All Test Methods



Suggestions? The test methods page continues to expand and improve. If you have suggestions for improvement, we would enjoy hearing from you. Please contact the webmaster here.


Analytical testing dots