Choosing optimal exposure times for <scp>XRF</scp> core‐scanning: Suggestions based on the analysis of geological reference materials

Huang, Jyh-Jaan Steven; Löwemark, Ludvig; Chang, Queenie; Lin, Tzu-Yu; Chen, Huei-Fen; Song, Sheng-Rong; Wei, Kuo-Yen

doi:10.1002/2016gc006256

Cited by 31 publications

(20 citation statements)

References 38 publications

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“…With 100 seconds exposure time, the correlation coefficients between scanning intensities and reference concentrations of laboratory-prepared reference resins are all higher than 0.97 for pollution related elements such as Cr, Mn, Ni, Cu, Zn, and Pb. Moreover, as suggested by Huang et al (2016) from the experience of sediment reference standards, the strong linear relationship between scanning intensities and reference concentrations of resins remains similar even with exposure time as brief as 1 second. Thus, this method provides a fast and inexpensive method to quantitatively assess multiple element concentrations in the resins, and can be used as an environmental monitoring tool for large geographic areas in order to understand the variations of environmental contaminants across a landscape.…”

Section: Ion Exchange Resin Samplesmentioning

confidence: 56%

Practical guidelines and recent advances in the Itrax XRF core-scanning procedure

Löwemark

Bloemsma²,

Croudace

et al. 2019

Quaternary International

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XRF core scanning has evolved to become a standard analytical technique for the rapid assessment of elemental, density and textural variations in a wide range of sediments and other materials, with applications ranging from palaeoceanography, paleoclimatology, geology, and environmental forensics to environmental protection. In general, scanning provides rapid, non-destructive acquisition of elemental and textural variations at sub-millimetre resolution for a wide range of materials. Numerous procedural adaptations have been developed for the growing number of applications, such as analyses of unconsolidated, water-rich sediments, powdered soil samples, or resin bags. Here, practical expertise and guidance from the Itrax community, gained over 15 years, is presented that should provide insights for new and experienced users.

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Section: Ion Exchange Resin Samplesmentioning

confidence: 56%

Practical guidelines and recent advances in the Itrax XRF core-scanning procedure

Löwemark

Bloemsma²,

Croudace

et al. 2019

Quaternary International

Self Cite

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“…The 10 th percentile of the distribution, which avoids outliers at the tail of the SNR distribution, could be used to determine whether particular values of tube voltage, current and exposure time are likely to deliver measurements above the LOQ for the majority of the element profile. Although Huang et al (2016) concluded that increasing Itrax XRF exposure time gives insignificant improvements in accuracy, Figure 4 demonstrates that for elements such as Rb and Zr increasing exposure time can substantially increase the proportion of measurements with SNRs greater than the LOQ.…”

Section: The Factors Inmentioning

confidence: 98%

Signal-to-noise ratios, instrument parameters and repeatability of Itrax XRF core scan measurements of floodplain sediments

Jones

Turner

Daly

et al. 2019

Quaternary International

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This study used signal-to-noise ratios to assess the effects of increasing Itrax XRF instrument parameters, namely tube voltage, tube current and exposure time, on XRF spectra and measurement repeatability. Tests were performed on cores from British and Irish floodplains.Seven combinations of tube voltage and current and six exposure times were compared using signal-to-noise ratios for eight target elements. Signal-to-noise ratios may be substantially improved by selecting instrument parameters, particularly tube voltage, for specific target elements. They can also be used to assess element profile suitability for interpretation by comparison with the limit of quantification. Repeatability was assessed using the standard deviation of measurements in nine repeat scans. The variation in element levels in the majority of profiles is considerably greater than the variability in individual measurements.

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“…The scanner was fitted with a Mo-tube and a magnetic susceptibility meter, with XRF scans performed on each core at 30 kV and 55 mA using 10 s exposure time and sampled at 500 μm step size. In comparison, Itrax analysis of the Little Pigeon Bay cores were carried out using similar settings at the University of Auckland [8], with a negligible difference of 4 s exposure time between the two datasets [20].…”

Section: Itrax Data and Analysismentioning

confidence: 99%

Tsunami Elemental Signatures in the Samoan Islands: A Case Study

Williams¹

2020

Applied Geochemistry With Case Studies on Geological Formations, Exploration Techniques and Environmental Issues

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This study uses Itrax X-ray fluorescence element data available for Samoan sediment cores, obtained from three separate locations after the 2009 tsunami in this region, to identify its elemental characteristics in the coastal landscape. Normalization of data using Al reveals a distinct elevated elemental signature for this event at sites which had experienced inundation. This provides benchmarks for identifying comparable signatures in the core profiles which likely represent past tsunamis to have inundated each site. Such information can support a better understanding of the frequency and longer-term threats posed by tsunamis in this region. The findings presented are consistent with benchmark tsunami Itrax observations at Little Pigeon Bay following the 2016 Kaikōura Tsunami in New Zealand. Furthermore, they reinforce the normalization of Itrax element data using Al to interpret tsunami episodes in sediment cores, in addition to using high resolution core scanning as an effective non-destructive tool to screen likely tsunami deposits for more targeted multi-proxy analysis.

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Choosing optimal exposure times for XRF core‐scanning: Suggestions based on the analysis of geological reference materials

Cited by 31 publications

References 38 publications

Practical guidelines and recent advances in the Itrax XRF core-scanning procedure

Practical guidelines and recent advances in the Itrax XRF core-scanning procedure

Signal-to-noise ratios, instrument parameters and repeatability of Itrax XRF core scan measurements of floodplain sediments

Tsunami Elemental Signatures in the Samoan Islands: A Case Study

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