quality assurance of analytical measurements of co2 parameters
TRANSCRIPT
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Quality assurance of analytical measurements of CO2 parameters
Andrew G. Dickson
1Wednesday, November 4, 2009
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Quality assurance constitutes the system by which an analytical laboratory can assure outside users that the analytical results they produce are of proven and known quality.
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So what is quality?
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The Metaphysics of Quality
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So what is quality?
Quality is fitness for purpose.
Fitness for purpose: the property of data produced by a measurement process that enables a user of the data to make technically correct decisions for a stated purpose.
Fitness for purpose therefore refers to the magnitude of the uncertainty associated with a measurement in relation to the needs of the application area.
Has implications for the level of resources needed!
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Two facets of quality assurance
Quality control: The overall system of activities whose purpose is to control the quality of a measurement so it meets the need of users. The aim is to ensure that data generated are of known accuracy to some stated, quantitative, degree of probability, and thus provide quality that is satisfactory, dependable, and economic.
Quality assessment: The overall system of activities whose purpose is to provide assurance that quality control is being done effectively.
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Effective quality control requires
• Well-trained people• Suitable and properly maintained equipment
and facilities• Well documented, validated, measurement
procedures• Regular and appropriate use of reference
materials to evaluate measurement performance• Appropriate documentation of measurements
and associated quality control information
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Effective quality control requires
• Well-trained people• Suitable and properly maintained equipment
and facilities• Well documented, validated, measurement
procedures• Regular and appropriate use of reference
materials to evaluate measurement performance• Appropriate documentation of measurements
and associated quality control information
9Wednesday, November 4, 2009
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http://cdiac.ornl.gov/oceans/Handbook_2007.html
documented, validated, measurement procedures
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Reference materials
Reference materials are stable substances for which one or more properties are established sufficiently well to calibrate a chemical analyzer or to validate a measurement process.Ideally, such materials are based on a matrix similar to that of the sample of interest, in this case sea water. The most useful reference materials are those for which one or more of the properties have been certified as accurate, preferably by the use of a definitive method in the hands of two or more analysts.
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Sea water based reference material, poisoned with HgCl2, stored in Schott Duran® glass sealed with a greased, ground-glass stopper.
Certified for salinity (0.005) total dissolved inorganic carbon (1 µmol kg–1), and total alkalinity (1 µmol kg–1).
Information values for nutrients
Stability ≥ 3 years
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Other certified materials available from my lab (in small quantities)
Equimolal tris buffer in synthetic sea waterStored in 125 mL Schott Duran® bottlepH certified (H2 cell) to 0.003Stability ~1 year
Hydrochloric acid solution (0.1 mol kg–1) in a sodium chloride background (0.6 mol kg–1)Stored in 1 L Schott Duran® bottleCertified (coulometry) to 0.00002 mol kg–1
stability >5 years
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Internal techniques Repetitive measurements Internal test samples Control charts Interchange of operators Interchange of equipment Independent measurements Measurements using a definitive method AuditsExternal techniques Collaborative tests Exchange of samples External reference materials Certified reference materials Audits
Quality control approaches
Remember, need quality control for both the sampling and the measurement process.
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Using a control chartnot “in control”
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Cruise data control chart (using CRMs)
instrument has a flaw!16Wednesday, November 4, 2009
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Interlaboratory comparisons
Collaborative testing of methodsComparisons of alternate methodsProficiency tests
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1900
1920
1940
1960
1980
2000
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
Laboratory
CT
µmol kg–1
Interlaboratory comparison (1991)of extraction / coulometry methods
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CT
µmol kg–1
1965
1970
1975
1980
1985
1990
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
Laboratory
pooled std. dev. 1.6 µmol kg–1
Interlaboratory comparison (1991)of extraction / coulometry methods
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What’s needed for OA research?
Robust, reliable, analytical techniques that can be used conveniently (ideally on small samples)Each will need a suitable QA/QC plan including1. Development of standard methods
a. Written SOPsb. Collaborative testing of methodsc. Establishment of figures of merit
2. Regular use of reference materials in quality control
3. Proficiency tests using blind samples
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Quality assurance constitutes the system by which an analytical laboratory can assure outside users that the analytical results they produce are of proven and known quality.
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