Spatial Geochemistry: A Characterisation of Heterogeneity in Reference Materials |
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Authors: | L Paul Bédard Alexandre Néron |
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Institution: | Sciences de la Terre, Université du Québec à Chicoutimi, 555 boul. Université Chicoutimi, , Chicoutimi, G7H 2B1 Canada |
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Abstract: | Geochemical reference materials (RMs) for microbeam techniques are typically characterised by averages and dispersion statistics (e.g., standard deviation, variance) that are calculated for a number of measurements (beam shots). It is proposed that the mapping of RMs will add spatial information that better characterises the grouping and magnitudes of the heterogeneities and provides the information necessary to define a minimum analytical mass. A simple mathematical solution is proposed, which can be easily computed and understood. The analogous notions to sill and range from geostatistics are applied to the minimum analytical mass versus the relative standard deviation. To assess grouping and magnitudes of the heterogeneities, a ‘proximity number’ is computed for each average value ± ‘n’ standard deviations (magnitude). Different chemical anomalies have been simulated to demonstrate the behaviour of the proximity number. To further test the proposed spatial geochemistry concept, sulfide‐ and oxide‐bearing RMs have been selected because many are crippled with nugget effect. They have been mapped with a micro‐XRF apparatus, and results are presented for CHR‐Bkg, CHR‐Pt+, MASS‐1, MASS‐3, WMS‐1 and WMS‐1a. MASS‐1 and MASS‐3 are the most suitable RMs for microbeam techniques. Spatial geochemistry offers a new approach to better characterise reference materials. |
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Keywords: | reference materials spatial geochemistry microbeam micro‐XRF heterogeneities maté riaux de ré fé rence spatiale gé ochimie microfaisceau microXRF hé té rogé né ité s |
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