M. Jim Hendry scite author profile

Newly available gas analyzers based on off-axis integrated cavity output spectroscopy (OA-ICOS) lasers have been advocated as an alternative to conventional isotope-ratio mass spectrometers (IRMS) for the stable isotopic analysis of water samples. In the case of H2O, OA-ICOS is attractive because it has comparatively low capital and maintenance costs, the instrument is small and field laboratory portable, and provides simultaneous D/H and 16O/18O ratio measurements directly on H2O molecules with no conversion of H2O to H2, CO, or H2/CO2-water equilibration required. Here we present a detailed assessment of the performance of a liquid-water isotope analyzer, including instrument precision, estimates of sample memory and sample mass effects, and instrumental drift. We provide a recommended analysis procedure to achieve optimum results using OA-ICOS. Our results show that, by using a systematic sample analysis and data normalization procedure routine, measurement accuracies of +/-0.8 per thousand for deltaD and +/-0.1 per thousand delta18O are achievable on nanoliter water samples. This is equivalent or better than current IRMS-based methods and at a comparable sample throughput rate.

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Transformation of Two-Line Ferrihydrite to Goethite and Hematite as a Function of pH and Temperature

Das

Hendry

Essilfie-Dughan

2010

Environ. Sci. Technol.

336

237

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Under oxic aqueous conditions, two-line ferrihydrite gradually transforms to more thermodynamically stable and more crystalline phases, such as goethite and hematite. This temperature- and pH-dependent transformation can play an important role in the sequestration of metals and metalloids adsorbed onto ferrihydrite. A comprehensive assessment of the crystallization of two-line ferrihydrite with respect to temperature (25, 50, 75, and 100 °C) and pH (2, 7, and 10) as a function of reaction time (minutes to months) was conducted via batch experiments. Pure and transformed phases were characterized by X-ray diffraction (XRD), X-ray absorption near-edge spectroscopy (XANES), atomic force microscopy (AFM), and scanning electron microscopy (SEM). The rate of transformation of two-line ferrihydrite to hematite increased with increasing temperature at all pHs studied and followed first-order reaction kinetics. XRD and XANES showed simultaneous formation of goethite and hematite at 50 and 75 °C at pH 10, with hematite being the dominant product at all pHs and temperatures. With extended reaction time, hematite increased while goethite decreased, and goethite reaches a minimum after 7 days. Observations suggest two-line ferrihydrite transforms to hematite via a two-stage crystallization process, with goethite being intermediary. The findings of this study can be used to estimate rates of crystallization of pure two-line ferrihydrite over the broad range of temperatures and pH found in nature.

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High Resolution Pore Water δ²H and δ¹⁸O Measurements by H₂O_(liquid)−H₂O_(vapor) Equilibration Laser Spectroscopy

Wassenaar

Hendry

Chostner

et al. 2008

Environ. Sci. Technol.

205

217

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A new H2O(liquid)-H2O(vapor) pore water equilibration and laser spectroscopy method provides a fast way to obtain accurate high resolution deltaD and delta18O profiles from single core samples from saturated and unsaturated geologic media. The precision and accuracy of the H2O(liquid)-H2O(vapor) equilibration method was comparable to or better than conventional IRMS-based methods, and it can be conducted on geologic cores that contain volumetric water contents as low as 5%. Significant advantages of the H2O(liquid)-H2O(vapor) pore water equilibration method and laser isotopic analysis method include dual hydrogen- and oxygen-isotope assays on single small core samples, low consumable and instrumentation costs, and the potential for field-based hydrogeologic profiling. A single core is sufficient to obtain detailed vertical isotopic depth profiles in geologic, soil, and lacustrine pore water, dramatically reducing the cost of obtaining pore water by conventional wells or physical water extraction methods. In addition, other inherent problems like contamination of wells by leakage and drilling fluids can be eliminated.

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Implications of the distribution of δD in pore waters for groundwater flow and the timing of geologic events in a thick aquitard system

Hendry¹,

Wassenaar²

1999

Water Resources Research

125

180

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Application of Raman spectroscopy to identify iron minerals commonly found in mine wastes

2011

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M. Jim Hendry

High-Precision Laser Spectroscopy D/H and ¹⁸O/¹⁶O Measurements of Microliter Natural Water Samples

Transformation of Two-Line Ferrihydrite to Goethite and Hematite as a Function of pH and Temperature

High Resolution Pore Water δ²H and δ¹⁸O Measurements by H₂O_(liquid)−H₂O_(vapor) Equilibration Laser Spectroscopy

Implications of the distribution of δD in pore waters for groundwater flow and the timing of geologic events in a thick aquitard system

Application of Raman spectroscopy to identify iron minerals commonly found in mine wastes

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M. Jim Hendry

High-Precision Laser Spectroscopy D/H and 18O/16O Measurements of Microliter Natural Water Samples

Transformation of Two-Line Ferrihydrite to Goethite and Hematite as a Function of pH and Temperature

High Resolution Pore Water δ2H and δ18O Measurements by H2O(liquid)−H2O(vapor) Equilibration Laser Spectroscopy

Implications of the distribution of δD in pore waters for groundwater flow and the timing of geologic events in a thick aquitard system

Application of Raman spectroscopy to identify iron minerals commonly found in mine wastes

Contact Info

Product

Resources

About

High-Precision Laser Spectroscopy D/H and ¹⁸O/¹⁶O Measurements of Microliter Natural Water Samples

High Resolution Pore Water δ²H and δ¹⁸O Measurements by H₂O_(liquid)−H₂O_(vapor) Equilibration Laser Spectroscopy