USGS-NWQL: I-7239:  Cobalt, suspended-recoverable, water, FLAA

  • Summary
  • Analytes
  • Revision
  • Data and Sites
Official Method Name
Cobalt, atomic absorption spectrometric, direct
Current Revision
Revised 1985
Media
WATER
Instrumentation
Flame Atomic Absorption
Method Subcategory
Inorganic
Method Source
  USGS-NWQL
Citation
Methods for the Determination of Inorganic Substances in Water and Fluvial Sediments, Techniques of Water-Resources Investigations of the United States Geological Survey, Book 5, Chapter A1 Edited by Marvin J. Fishman and Linda C. Friedman
Brief Method Summary
Cobalt is determined by atomic absorption spectrometry by direct aspiration of the sample into an air-acetylene flame without additional treatment of the sample other than the addition of ammonium chloride to mask certain interferences.
Scope and Application
This method may be used to analyze water and water-suspended sediment containing at least 50 ug/L of cobalt. Samples solutions containing more than 1,000 ug/L need either to be diluted or to be read on a less expanded scale. Sample solutions containing less than 50 ug/L need to be analyzed by the atomic absorption spectrometric chelation-extraction method, providing the interference limits discussed in that method are not exceeded.
Suspended recoverable cobalt is calculated by subtracting dissolved cobalt from total recoverable cobalt.
Applicable Concentration Range
50-1000 ug/L
Interferences
Nitrate at 1 mg/L interferes by suppressing the absorption of the cobalt. This interference is eliminated in solutions containing about 18,000 mg/L of ammonium chloride. Samples adjusted to this concentration of ammonium chloride show no interference from 800 mg/L of nitrate.
Individual concentrations of sodium (9,000 mg/L), potassium (9,000 mg/L), calcium (4,500 mg/L), magnesium (4,500 mg/L), sulfate (9,000 mg/L), chloride (15,000 mg/L), iron (4 X 106 ug/L), and cadmium, nickel, copper, zinc, lead, and chromium (10,000 ug/L) do not interfere. Higher concentrations of each constituent were not investigated.
Quality Control Requirements
Calibrate instrument using calibration standards (CAL). Quality control samples (QCS) and laboratory blanks (LB) analyzed at a minimum of I each after every 10 samples. (Reference OFR 95-443).
Sample Handling
Container Description: 250 mL Polyethylene bottle, acid-rinsed.
Treatment and Preservation: Use unfiltered sample to rinse bottles, then acidify collected sample with HNO3 to pH < 2.
Maximum Holding Time
180 days
Relative Cost
Less than $50
Sample Preparation Methods