lab processing and analysis of multi increment samples · sampling theory • applies to both field...
TRANSCRIPT
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Lab Processing and Analysis of Multi Increment® Samples
Webinar begins November 15, 10AM HST
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APPL, Inc.• Agriculture and Priority Pollutants Laboratories Inc.• In business for 35 years• ISO IEC 17025:2005 accredited • Department of Defense accredited• NELAC accredited• Certified in 10 states• On the SW846 Methods contract from 1993-2010• Served as a reference laboratory for various methods• Started using MIS in 2006• On ITRC committee for Incremental Sampling• Chuck Ramsey “Accredited”
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Where MIS has been used by APPL
• Hawaii• 24 additional states• EPA Region 3• Afghanistan • Denmark• Japan• Pacific Islands including Guam and Saipan• Puerto Rico
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Laboratory’s Role in MIS
• MULTI INCREMENT® – a comprehensive sampling methodology used to represent a specific population (decision unit) and provide a foundation for defensible decision making.
• The process used is the result of proper planning based on Data Quality Objectives
• MIS does not stop in the field!!!
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Sampling Theory
• Applies to both field and laboratory • Based on the fundamentals of Gy’s sampling
theory• Staff trained prior to performance
– Basic Concepts– Sources of Measurement Error– Fundamentals of Gy’s theory
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Why Use MIS?• Reduces error • Controls sample variability (error) due to heterogeneity• Estimates of mean less uncertain and closer to true mean• More defensible because it is based on science• Cost-effective• Discrete sampling methods are unreliable
– In general underestimate contamination
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Discrete Subsampling Issues
• Sometimes stirred first– Causes finer particles to settle to the bottom– Subsample taken from top of the container
• Insufficient increments to compensate for heterogeneity• Insufficient mass to compensate for fundamental error
– EPA Methods for metals require only 1 gram– Other EPA Methods also have insufficient mass– Likely to underestimate contaminant concentrations
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Typical Discrete Sample
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MIS is Representative of the Entire Sample
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I am looking for……..Data that represents my entire sample!
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Sampling Tools
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Laboratory Processing and Subsampling References for MIS
• Pitard, Francis F. Pierre Gy’s sampling theory and sampling practice: heterogeneity, sampling correctness, and statistical process control / author, Francis F. Pitard. - 2nd ed. 1993 by CRC Press, Inc.
• EPA Method 8330B, Appendix A USEPA SW846 2006• Hawaii State Department of Health (HDOH), Hazard Evaluation
and Emergency Response Office (HEER Office), Technical Guidance Manual – see Section 4. (On-line document, first posted in 2008 and updated last in 2017). www.hawaiidoh.org
• Interstate Technology & Regulatory Council. Incremental Sampling Methodology. ISM-1. http://itrcweb.org/ism-1/Executive Summary.html. February 2012
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Implementing MIS in the Lab
• Start with Data Quality Objectives (DQOs)– What is the question we need to answer?– You need to convey your DQOs to the
lab
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• Must be completely defined• For the field
– Arial extent– Depth– Particle size– Organic/inorganic material
• The decision unit is the same in the field and in the laboratory
Decision Unit (DU)
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Analyte Integrity
• Must be maintained from collection through analysis (reporting)– Compounds of interest – Concentration of concern (action level)– Detection Limits – Sample handling– Preservation Techniques
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Resources• Coordinate with your regulator!
– Understand what they want...This is critical– You only have one attempt
• If you make a mistake…..you resample!!!
• Coordinate with your lab– Lab MUST process and subsample properly or
your field sample design effort is wasted
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Choosing a Laboratory
• What Questions Should I be Asking? – What kinds of sample processing do you do?– Can you provide SOPs for procedures?– What kind of QC do you perform?– What kind of equipment do you use? – What kind of references do you have?
• Schedule an on-site visit!• Trust but verify!
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How Can the Lab Help Me?
• Answer questions, ask questions• Explain what will the processing do to my
compounds of interest• Explain the equipment used and how it may affect
the samples• Preservation techniques• Proper container selection• Provide pictures for documentation
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What Particle Size Do I Need?• Soil
– Generally defined as particles <2mm • Bioaccessiblility
– For Lead and Arsenic prior to 2016 <250um– Updated by the EPA in 2016 to <150um for ingestion
• Particle size separation with different size sieves• Mechanical grind with puck mill for particle size reduction
– Results in particle size of <75um
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Particle size
• May analyze more than one particle size fraction– The DU may contain more than one particle
size (various receptors)
• May need to answer multiple questions– Bioaccessibility– Totals
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Particle Size Separation
0.1570 4000 50.0132 3350 60.1110 2820 70.0937 2380 80.0787 2000 100.0661 1680 120.0555 1410 140.0469 1190 160.0394 1000 180.0331 841 200.0278 707 250.0234 595 300.0197 500 350.0165 420 400.0139 354 450.0117 297 500.0098 250 600.0083 210 700.0083 177 800.0059 149 1000.0049 125 1200.0041 105 1400.0035 88 1700.0029 75 2000.0052 63 2300.0021 53 2700.0017 44 3520.0015 38 4000.0010 25 5000.0008 20 635
0.0010.0008
0.00250.00210.00180.0015
0.00490.00420.003510.003
0.00980.00830.00710.0059
0.01970.01670.014
0.0118
0.03940.03350.028
0.0236
0.07870.06690.05510.0465
0.15750.13190.11020.0929
Particle Size
Inches Microns
U.S. Std. Sieve
Std. Sieve Opening in inches
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To Process Soil at 2mm
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MIS Options in the Lab• Literally hundreds of ways to process
samples (and that’s a good thing)– Dry or not dry– Sieve or not sieve– Grind or not grind
• Multiple stages of sieving, grinding subsampling
• Multiple ways to subsample
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Approximately 1 to 2 Kilos
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Drying the Bulk MI Sample
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Wet MI Subsampling
• Spread entire sample evenly• Break up clumps with gloved hand• 2-dimensional slab cake min 30 increments• Avoid selection of particles (gravel/sticks)
that are obviously over 2mm• Collect additional MI sample to determine
moisture content of sample (up to 50 grams)
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Sieving Without Drying
• Pass through a #10 sieve slowly• Brake up dirt clods with gloved hand
– Gently push sample through sieve• Lay out sample as flat and evenly as possible and
subsample immediately• Subsample using 2-dimensional Japanese slab
cake• Collect additional MI sample to determine
moisture content of sample (up to 50 grams)
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Dry and Sieve (no Grinding)
• Dry completely (typically air-dried)• Sieve through #10 sieve (2mm)• Or other sieve can be used
– Depends on particle size needed• Break up aggregates during sieving• Mortar and pestle soil • Only gravel and sticks left on sieve
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Dry Weight vs. Wet Weight
• In HI data for direct exposure risk based on dry weight
• Air dried samples meet requirement• Wet and wet sieved samples will need
moisture determination
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Make sure the Lab Processes the Entire Sample
• This takes time and time is money! – And people can be lazy!– This is the biggest mistake labs make!
• We take pictures of every sample!• How do you make sure the entire sample is
processed? ASK!
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Sieving followed by Grinding
• Mortar and Pestle is not mechanical grinding– Not all Grinders are created equal
• Need proper equipment– APPL, Inc. uses a Puck Mill
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Grinds to 75 microns
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Blank Sand
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Sample Mass
• Sample mass is important!• Determine mass based on fundamental error• At least 5 grams for Hg in HI• At least 10 grams for metals in HI• Grinding reduces fundamental error
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Grinding Study • Twenty-four soil samples were analyzed for
metals pre- and post-grinding– Al, Sb, As, Be, Cd, Ca, Cr, Co, Cu, Fe, Pb, Mg, Mn, Ni,
K, Ag, Na, Tl, V, Zn
• Only one metal showed statistically significant post-grinding concentration increases– Chromium (15.3 ppm)
• Results are consistent with other studies
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QC to Demonstrate Reproducibility
• One triplicate recommended per batch– Maximum 10 in a batch
• Randomly chosen• Compare results • If %RSD greater than 20% contact client
– May need to analyze a larger mass– May need to reanalyze or grind finer
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Sectorial Splitter
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MIS for Volatiles• Wide or narrow top
containers available• Max. 30 mL MeOH per
container• Max. 1L per ice chest• 1:1 ratio of soil (g) to
MeOH (mL)
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Common MIS Mistakes• Incomplete communication
– From the client – From the lab
• Cutting corners during processing in the lab– Not processing entire sample – Not doing complete desegregation– Inconsistent subsampling
• Not grinding the sample at the appropriate stage– Need to MIS all unground aliquots before grinding– MIS before or after drying…or both?
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Common MIS Mistakes
• Insufficient mass used to decrease sampling error• Grinding times need to be specified and followed• Wrong sieve size used/Sieve size not specified• Wrong type of grinder used• Poor communication between laboratory sections
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Lab Communication
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Pros and Cons for Grinding
• Pro: Decreases fundamental error• Pro: Need fewer increments• Pro: Need less mass• Pro: Improves precision• Con: Loss of some analytes e.g. volatiles• Con: Bio availability prior to grinding
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Reporting Requirements• Communicate reporting requirements• Information in final report• Size of sample submitted• Sample preparation information
– Include lab replicate data and analysis– Enough Information in final report
• To understand entire lab process and data• For all analytes• To reference specific SOPs
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Take Away Information
• Many processing possibilities with MIS• The entire sample must be processed
– But you must define the sample• The lab must understand what is needed • All samples are sub sampled incrementally• 10% of samples should be run in triplicate
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Additional Information• Diane Anderson, Technical Director APPL, Inc
– [email protected]• John Peard, HDOH, HEER Office
– [email protected]• Roger C. Brewer, Sr. Environmental Scientist
– [email protected]• Chuck Ramsey, EnviroStat, Inc.
– [email protected]• Josh Barber, RPM at EPA Region 3
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Sampling for Defensible Environmental Decisions
• Presented by EnviroStat, Inc.– Feb. 26-March 1, 2018– http://www.envirostat.org/training.htm
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Questions?