Portable X-ray fluorescence measurements on exploration drill-cores: comparing performance on unprepared cores and powders for ‘whole-rock’ analysis

Bourke, Alexandre; Ross, Pierre-Simon

doi:10.1144/geochem2014-326

Cited by 34 publications

(31 citation statements)

References 23 publications

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“…Overall, the analyses of the samples’ surfaces with pXRF provided comparable results with those using ICP‐AES, especially when analysing the fine‐ to medium‐grained volcanic rocks and averaging multiple measurements on different spots of a clean surface of the artefact. These results are in agreement with other assessments of the analytical accuracy of this technique (Bourke & Ross ). However, the analyses of coarse‐grained material and/or weathered surfaces are more divergent (especially in the measurement of MnO, Sr and Y), which is probably related to textural variation and chemical weathering as shown in the online Supporting Information Figure .…”

Section: Methodssupporting

confidence: 92%

Geochemical sourcing of volcanic materials imported into Teti'aroa Atoll shows multiple long‐distance interactions in the Windward Society Islands, French Polynesia

Hermann

Molle

Maury

et al. 2019

Archaeology in Oceania

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Teti'aroa, located 28 nautical miles (52 km) north of Tahiti, lies at the periphery of the Windward Society islands. At the end of the eighteenth century, this atoll was presumably controlled by the chiefdom of Porionu'u, which included the districts of Pare and Arue on the north coast of Tahiti. This situation is confirmed by a number of ethnohistorical accounts and oral traditions describing an intense traffic of basic resources between the atoll and Tahiti island as well as the specific function of Teti'aroa for Tahitian social elites visiting the atoll for ceremonial or recreational purposes. However, the prehistory of the atoll remains largely unknown and the time-depth of dominance by Tahitian elites on the atoll is unclear. In this paper, we investigate potential inter-island relationships between Teti'aroa and other islands in the archipelago and beyond. We present geochemical analyses (energy dispersive X-ray fluorescence and inductively coupled plasma-atomic emission spectrometry) of stone tools and elements of ceremonial architecture (marae), which were necessarily imported given the complete subsidence of the volcanic substratum of the island. Our results confirm the regional origin of a majority of artefacts, but also indicate several later long-distance relationships maintained by Tahitian chiefs. RESUME L'atoll de Teti'aroa, situéà 28 miles nautiques (52 km) au nord de l'île de Tahiti, se trouveà la périphérie des Iles du Vent dans l'archipel de la Société. A la fin du 18`e me siècle, cet atollétait intégré au territoire de la chefferie de Porionu'u qui dominait les districts Pare et d'Arue sur la côte nord de Tahiti. Cette situation est confirmée par de nombreux témoignages ethno-historiques et traditions orales décrivant l'intenseéchange de ressources et de biens entre l'atoll et l'île de Tahiti, ainsi que le rôle de Teti'aroa pour lesélites tahitiennes qui y séjournaient pour des durées plus ou moins courtes, dans le cadre de cérémonies particulières ou pour se retirer lors de périodes de conflits. Dans cet article, nous traitons des relations interinsulaires qui impliquait Teti'aroa et d'autresîles de l'archipel et au-delà. Nous présentons les analyses des compositions chimiques (ED-XRF et ICP-AES) d'un ensemble d'outils en pierre etéléments d'architecture cérémonielle (marae), qui furent nécessairement transportés depuis uneîle haute, puisque le substrat volcanique de l'île est enfoui par subsidence. Nos résultats conferment l'origine régionale de la plupart des artefacts, et indiquentégalement plusieurs connexionsà très longue distance maintenues par les chefferies tahitiennesà uneépoque relativement récente.

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Section: Methodssupporting

confidence: 92%

Geochemical sourcing of volcanic materials imported into Teti'aroa Atoll shows multiple long‐distance interactions in the Windward Society Islands, French Polynesia

Hermann

Molle

Maury

et al. 2019

Archaeology in Oceania

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“…For till samples, and Sarala (2016) used three repeated measurements to increase accuracy and to diminish matrix and heterogeneity effects. Bourke and Ross (2016) reported that repeating measurements (3 to 7 times) at the surface of a core produced the same accuracy as milling, for fine to medium-grained metavolcanics.…”

Section: Matrix Heterogeneity Issuesmentioning

confidence: 96%

A review of pXRF (field portable X-ray fluorescence) applications for applied geochemistry

Lemière

2018

Journal of Geochemical Exploration

152

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In the last thirty years, portable X-ray fluorescence (pXRF) has grown from prototypes to being a key technique for field geochemical analyses, especially for mining and environmental applications. This technology provides real-time or near real-time decision support for operational field decisions (exploration, mining, site remediation or waste management), provides a cost-saving alternative to classical laboratory analysis programs, and deals efficiently with remote or harsh field conditions. The ability to rapidly collect a large number of samples and replicate analyses facilitates acquisition of higher data density compatible with geostatistics.pXRF can be used profitably for sample screening and selection tasks, dynamic sampling plans based on field observations and measurements, grid mapping of a site and determining relative element abundance. In waste management and remediation, pXRF is used to identify unknown waste composition, and verify waste loads before disposal or treatment.In all applications, having robust QA/QC plans and systematic laboratory controls on selected samples are essential for ensuring reliable measurements. The best overall results are usually achieved through a clever combination of field (pXRF) and lab data, with pXRF providing the bulk of the data at low cost, on larger data sets and potentially with better reliability than lab-based campaigns based on a limited number of samples.

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“…Consequently, critical elements can be detected and reliably quantified in geological materials devoid of interfering elements or when enriched. Generally, pXRF data need to be corrected or re-calibrated to yield accurate results, which is mostly achieved through linear correlation (e.g., [3,5,10,[25][26][27][28]. This is frequently done without checking the energy spectra corresponding to pXRF measurements for spectral interferences and, in particular, for false positives.…”

Section: Introductionmentioning

confidence: 99%

The Influence of Spectral Interferences on Critical Element Determination with Portable X-Ray Fluorescence (pXRF)

Gallhofer

Lottermoser

2018

Minerals

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Field portable X-ray fluorescence (pXRF) spectrometers are routinely used in mineral resources studies. To date, mineral resources studies have largely focussed on the application of pXRF to the exploration for deposits of base and precious metals. By contrast, studies using pXRF for the quantification of critical elements in geological materials are scarce since these elements are difficult to determine with energy-dispersive pXRF technology. This study explores the capability of pXRF spectrometers to detect and quantify critical elements (Ba, P, Nb, V, Co, REE, W, Bi, Hf, and Ta) in certified reference materials (CRMs). While precision of many critical elements is acceptable (<20% RSD), accuracy can be poor (>50% difference) when using pre-installed factory calibration software. Spectra collected during the pXRF measurements show that poor accuracy and false positives tend to be associated with spectral interferences. Distinct combinations of spectral interferences (line overlaps, Compton scattered peaks, and Si escape peaks) were observed in the different matrix types. Our results show that critical elements may be determined in common geological materials when pronounced peaks occur in the spectra and that matrix-match of standards and samples is essential. Hence, XRF spectra should be routinely reviewed to identify erroneous quantification due to spectral interferences.

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Portable X-ray fluorescence measurements on exploration drill-cores: comparing performance on unprepared cores and powders for ‘whole-rock’ analysis

Cited by 34 publications

References 23 publications

Geochemical sourcing of volcanic materials imported into Teti'aroa Atoll shows multiple long‐distance interactions in the Windward Society Islands, French Polynesia

Geochemical sourcing of volcanic materials imported into Teti'aroa Atoll shows multiple long‐distance interactions in the Windward Society Islands, French Polynesia

A review of pXRF (field portable X-ray fluorescence) applications for applied geochemistry

The Influence of Spectral Interferences on Critical Element Determination with Portable X-Ray Fluorescence (pXRF)

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