Improved methodologies for continuous-flow analysis of stable water isotopes in ice cores

Jones, Tyler R.; White, James W. C.; Steig, Eric J.; Vaughn, Bruce H.; Morris, Valerie; Gkinis, Vasileios; Markle, B. R.; Schoenemann, Spruce W.

doi:10.5194/amt-10-617-2017

Cited by 47 publications

(48 citation statements)

References 43 publications

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“…In the case of high resolution measurements carried out with CFA measurement systems, there exist a number of ways to characterize the sampling diffusion length. Typically the step or impulse response of the CFA system can be measured yielding a Gaussian filter specific for the CFA system [23], [41], [19], [32]. The Gaussian filter can be characterized by a diffusion length σ 2 cfa that can be directly used to perform a sampling correction.…”

Section: A the Single Isotopologue Diffusionmentioning

confidence: 99%

“…Real measurements with CFA systems indicate that most likely due to surface effects in the experimental apparatus that lead to sample memory, the transfer functions of such systems depart from the ideal model of Gaussian dispersion showing a slightly skewed behavior. For some systems, this behavior resembles more that of a slightly skewed Log-Normal distribution [23], [41], [19] or a more skewed distribution that in the case of [32] requires the product of two Log-Normal distributions to be accurately modeled. The result of this behavior to the power spectral density is still a matter of further study as high resolution datasets obtained with CFA systems are relatively recent.…”

Section: Outlook With Respect To Ice Core Measurementsmentioning

confidence: 99%

“…With the advent of present commercial high-accuracy, high-precision Infra-Red spectrometers [11], [9], simultaneous measurements of δ 18 O and δD have become easier to obtain. Coupling of these instruments to Continuous Flow Analysis systems [23], [41], [19], [32] can also result in measurements of ultra-high resolution, a necessary condition for accurate temperature reconstructions based on water isotope diffusion.…”

Section: Introductionmentioning

confidence: 99%

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Molecular diffusion of stable water isotopes in polar firn as a proxy for past temperatures

Holme¹,

Gkinis²,

Vinther³

2018

Geochimica et Cosmochimica Acta

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Polar precipitation archived in ice caps contains information on past temperature conditions. Such information can be retrieved by measuring the water isotopic signals of δ 18 O and δD in ice cores. These signals have been attenuated during densification due to molecular diffusion in the firn column, where the magnitude of the diffusion is isotopologoue specific and temperature dependent. By utilizing the differential diffusion signal, dual isotope measurements of δ 18 O and δD enable multiple temperature reconstruction techniques. This study assesses how well six different methods can be used to reconstruct past surface temperatures from the diffusion-based temperature proxies. Two of the methods are based on the single diffusion lengths of δ 18 O and δD, three of the methods employ the differential diffusion signal, while the last uses the ratio between the single diffusion lengths. All techniques are tested on synthetic data in order to evaluate their accuracy and precision. We perform a benchmark test to thirteen high resolution Holocene data sets from Greenland and Antarctica, which represent a broad range of mean annual surface temperatures and accumulation rates. Based on the benchmark test, we comment on the accuracy and precision of the methods. Both the benchmark test and the synthetic data test demonstrate that the most precise reconstructions are obtained when using the single isotope diffusion lengths, with precisions of approximately 1.0 o C. In the benchmark test, the single isotope diffusion lengths are also found to reconstruct consistent temperatures with a root-mean-square-deviation of 0.7 o C. The techniques employing the differential diffusion signals are more uncertain, where the most precise method has a precision of 1.9 o C. The diffusion length ratio method is the least precise with a precision of 13.7 o C. The absolute temperature estimates from this method are also shown to be highly sensitive to the choice of fractionation factor parameterization.

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Section: A the Single Isotopologue Diffusionmentioning

confidence: 99%

Section: Outlook With Respect To Ice Core Measurementsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Molecular diffusion of stable water isotopes in polar firn as a proxy for past temperatures

Holme¹,

Gkinis²,

Vinther³

2018

Geochimica et Cosmochimica Acta

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“…Several researchers have developed customised calibration systems and protocols, mainly based on the Picarro and LGR designs, to provide improved performance for long-term automated monitoring of water vapour isotope compositions and flash evaporation systems for ice-core analysis. 1,[6][7][8][9] Wang et al 10 used a LI-610 Dew Point Generator (DPG) from LI-COR (Lincoln, NE, USA) in manual mode to calibrate an LGR DLT-100 water vapour isotope analyser (WVIA). The DPG produces a water-saturated air stream with a known dew point (± 0.2°C) from a liquid water reservoir.…”

Section: Introductionmentioning

confidence: 99%

Automated calibration of laser spectrometer measurements of δ¹⁸O and δ²H values in water vapour using a Dew Point Generator

Munksgaard

Cheesman

Gray‐Spence

et al. 2018

Rapid Comm Mass Spectrometry

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“…Recent advances in laser absorption spectrometry have allowed continuous flow analysis (CFA) to become common in ice core studies and are an essential measurement technique for obtaining highresolution climate records (e.g. Kaufmann et al, 2008;Gkinis et al, 2011;Kurita et al, 2012;Emanuelsson et al, 2015;Jones et al, 2017). However, the simultaneous operation of seven measurement systems and the continuous nature of CFA pose challenges for calibration and uncertainty estimation.…”

Section: Introductionmentioning

confidence: 99%

Calculating uncertainty for the RICE ice core continuous flow analysis water isotope record

et al. 2018

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Abstract. We describe a systematic approach to the calibration and uncertainty estimation of a high-resolution continuous flow analysis (CFA) water isotope (δ 2 H, δ 18 O) record from the Roosevelt Island Climate Evolution (RICE) Antarctic ice core. Our method establishes robust uncertainty estimates for CFA δ 2 H and δ 18 O measurements, comparable to those reported for discrete sample δ 2 H and δ 18 O analysis. Data were calibrated using a time-weighted two-point linear calibration with two standards measured both before and after continuously melting 3 or 4 m of ice core. The error at each data point was calculated as the quadrature sum of three factors: Allan variance error, scatter over our averaging interval (error of the variance) and calibration error (error of the mean). Final mean total uncertainty for the entire record is δ 2 H = 0.74 ‰ and δ 18 O = 0.21 ‰. Uncertainties vary through the data set and were exacerbated by a range of factors, which typically could not be isolated due to the requirements of the multi-instrument CFA campaign. These factors likely occurred in combination and included ice quality, ice breaks, upstream equipment failure, contamination with drill fluid and leaks or valve degradation. We demonstrate that our methodology for documenting uncertainty was effective across periods of uneven system performance and delivered a significant achievement in the precision of highresolution CFA water isotope measurements.

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Improved methodologies for continuous-flow analysis of stable water isotopes in ice cores

Cited by 47 publications

References 43 publications

Molecular diffusion of stable water isotopes in polar firn as a proxy for past temperatures

Molecular diffusion of stable water isotopes in polar firn as a proxy for past temperatures

Automated calibration of laser spectrometer measurements of δ¹⁸O and δ²H values in water vapour using a Dew Point Generator

Calculating uncertainty for the RICE ice core continuous flow analysis water isotope record

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Improved methodologies for continuous-flow analysis of stable water isotopes in ice cores

Cited by 47 publications

References 43 publications

Molecular diffusion of stable water isotopes in polar firn as a proxy for past temperatures

Molecular diffusion of stable water isotopes in polar firn as a proxy for past temperatures

Automated calibration of laser spectrometer measurements of δ18O and δ2H values in water vapour using a Dew Point Generator

Calculating uncertainty for the RICE ice core continuous flow analysis water isotope record

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Product

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Automated calibration of laser spectrometer measurements of δ¹⁸O and δ²H values in water vapour using a Dew Point Generator