USGS-NWQL: I-5800:  Strontium, recoverable-from-bottom-material, dry wt, atomic absorption spectrometric

  • Summary
  • Analytes
  • Revision
  • Data and Sites
Official Method Name
Strontium, atomic absorption spectrometric, direct
Current Revision
1972
Media
SOILS/SEDIMENT
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
Strontium is determined by atomic absorption spectrometry. Lanthanum chloride and excess potassium chloride are added to mask interferences and control ionization of strontium in the flame (Fishman and Downs, 1966). This procedure may be automated by the addition of a sampler, a proportioning pump, and a strip-chart recorder or a printer or both (fig.1).
Scope and Application
This method may be used to analyze bottom material containing at least 1.0 ug/g of strontium. If the sample solution contains more than 5,000 ug/L of strontium, it must be diluted.
Recoverable strontium from bottom material needs to undergo preliminary digestion-solubilization by method I-5485 before being determined.
Samples containing more than 2,500 mg/L of total solutes need first to be diluted. If the strontium concentration in the diluted sample is below detection, the undiluted sample needs to be analyzed by the standard-addition method.
Applicable Concentration Range
10 to 5000 ug/L
Interferences
Sodium and potassium decrease the strontium ionization in the flame. To control the ionization, 1,000 mg/L of potassium are added to both standards and samples.
Aluminum, phosphate, and silica interfere but are masked by the addition of lanthanum.
Nitrate interferes, but in the presence of lanthanum chloride-potassium chloride solution at least 2,000 mg/L can be tolerated. The addition of nitric acid in the field to preserve samples causes no problem.
Low strontium values result even in the presence of potassium and lanthanum if the dissolved-solids concentration exceeds 2,500 mg/L. For this reason, brines and highly mineralized waters must either be diluted or analyzed by the standard-addition method. For the standard-addition method, the dissolved solids content of the samples must be reduced to less than 20,000 mg/L.
Quality Control Requirements
Calibrate instrument using calibration standards (CAL); quality control samples (QCS); and laboratory blanks (LB) analyzed at a minimum of 1 for every 10 samples.
Sample Handling
Container description: Bottom Material (stream bed sediment) 500 mL wide mouth propylene bottle; no treatment or preservation requirements.
Maximum Holding Time
Relative Cost
Less than $50
Sample Preparation Methods
I-5485