Isotopically characterised N<sub>2</sub>O reference materials for use as community standards

Mohn, Joachim; Biasi, Christina; Bodé, Samuel; Boeckx, Pascal; Brewer, Paul J.; Eggleston, Sarah; Geilmann, Heike; Guillevic, Myriam; Kaiser, Jan; Kantnerová, Kristýna; Moossen, Heiko; Müller, Joanna; Nakagawa, Mayuko; Pearce, Ruth; Rein, Isabell; Steger, David J.; Toyoda, Sakae; Wanek, Wolfgang; Wexler, Sarah K.; Yoshida, Naohiro; Yu, Longfei

doi:10.1002/rcm.9296

Cited by 9 publications

(2 citation statements)

References 70 publications

(197 reference statements)

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“…All samples and replicates (both BSIA and CSIA) were measured via a Thermo Fisher Scientific elemental analyzer IsoLink peripheral device connected to a Thermo Fisher Scientific Delta V Plus IRMS for C and N isotopes. Specifically, in this method, the EA was run without the addition of oxygen gas; thus thermal decomposition of the samples occurred instead of “traditional” combustion. ,− This was possible due to the nature of explosives and explosive components containing fuel to oxidizer ratios facilitating quantitative conversion to gas without requiring supplemental oxygen …”

Section: Methodsmentioning

confidence: 99%

Forensic Discrimination of Smokeless Powders Using Carbon and Nitrogen Isotope Ratios

Hlohowskyj

Kew

Stern

et al. 2023

J. Am. Soc. Mass Spectrom.

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Improvised explosive devices pose a threat to the public by way of terrorism and criminal activities. In the United States a commonly used low explosive in improvised explosive devices is smokeless powder (SP), due to its ease of access. Traditionally, forensic examinations are often sufficient in determining the physical and chemical characteristics of SPs. However, these exams are limited in differentiating or associating SPs when comparing two materials which are physically and/or chemically consistent. Stable isotope analysis of carbon and nitrogen has been used for explosives to further forensic chemical comparisons and aid in sample differentiation. In this manuscript we explore the utility of stable isotope analysis of SPs to differentiate manufacturer and geographic origin. Both bulk isotope analysis and component isotope analysis of carbon and nitrogen via an extraction method using dichloromethane were evaluated to compare the overall isotope signature of individual SPs. Through the combination of bulk and component isotope measurements of SPs, we were able to identify geographic relationships; however, the manufacturer origins were not as clearly discriminated. This technique demonstrates a potential improvement to traditional forensic examinations of smokeless powder by adding additional information when explosives are chemically and/or physically consistent.

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Section: Methodsmentioning

confidence: 99%

Forensic Discrimination of Smokeless Powders Using Carbon and Nitrogen Isotope Ratios

Hlohowskyj

Kew

Stern

et al. 2023

J. Am. Soc. Mass Spectrom.

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“…The isotope ratios of dissolved N 2 O were measured using a custom-built autosampler coupled with a purge-and-trap isotope ratio mass spectrometer (IRMS) (Elementar Isorpime precION, Germany). We followed the method outlined by Kelly et al 28 to correct and calibrate N 2 O isotope ratios using two reference materials (USGS52 29 and RM3A 30 ) and an IRMS N 2 O reference gas, which was calibrated by Karen Casciotti (Stanford University). The 15 N/ 14 N and 18 O/ 16 O ratios of N 2 O were expressed in δ notation, defined as δ 15 N or δ 18 O = (R sample /R standard − 1) × 1000, where R standard for δ 15 N is the 15 N/ 14 N ratio of air and R standard for δ 18 O is the 18 O/ 16 O ratio of Vienna Standard Mean Ocean Water (VSMOW).…”

Section: Sample Collection and Measurementsmentioning

confidence: 99%

Hydrologic Connectivity Regulates Riverine N₂O Sources and Dynamics

Hu,

Yu,

Griffis

et al. 2024

Environ. Sci. Technol.

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Indirect nitrous oxide (N2O) emissions from streams and rivers are a poorly constrained term in the global N2O budget. Current models of riverine N2O emissions place a strong focus on denitrification in groundwater and riverine environments as a dominant source of riverine N2O, but do not explicitly consider direct N2O input from terrestrial ecosystems. Here, we combine N2O isotope measurements and spatial stream network modeling to show that terrestrial–aquatic interactions, driven by changing hydrologic connectivity, control the sources and dynamics of riverine N2O in a mesoscale river network within the U.S. Corn Belt. We find that N2O produced from nitrification constituted a substantial fraction (i.e., >30%) of riverine N2O across the entire river network. The delivery of soil-produced N2O to streams was identified as a key mechanism for the high nitrification contribution and potentially accounted for more than 40% of the total riverine emission. This revealed large terrestrial N2O input implies an important climate–N2O feedback mechanism that may enhance riverine N2O emissions under a wetter and warmer climate. Inadequate representation of hydrologic connectivity in observations and modeling of riverine N2O emissions may result in significant underestimations.

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Isotopically characterised N₂O reference materials for use as community standards

Mohn

Biasi

Bodé

et al. 2022

Rapid Comm Mass Spectrometry

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Rationale: Information on the isotopic composition of nitrous oxide (N 2 O) at natural abundance supports the identification of its source and sink processes. In recent years, a number of mass spectrometric and laser spectroscopic techniques have been developed and are increasingly used by the research community. Advances in this active research area, however, critically depend on the availability of suitable N 2 O isotope Reference Materials (RMs).Methods: Within the project Metrology for Stable Isotope Reference Standards (SIRS), seven pure N 2 O isotope RMs have been developed and their 15 N/ 14 N, 18 O/ 16 O, 17 O/ 16 O ratios and 15 N site preference (SP) have been analysed by specialised laboratories against isotope reference materials. A particular focus was on the 15 N site-specific isotopic composition, as this measurand is both highly diagnostic for source appointment and challenging to analyse and link to existing scales.

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Isotopically characterised N₂O reference materials for use as community standards

Cited by 9 publications

References 70 publications

Forensic Discrimination of Smokeless Powders Using Carbon and Nitrogen Isotope Ratios

Forensic Discrimination of Smokeless Powders Using Carbon and Nitrogen Isotope Ratios

Hydrologic Connectivity Regulates Riverine N₂O Sources and Dynamics

Isotopically characterised N₂O reference materials for use as community standards

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Isotopically characterised N2O reference materials for use as community standards

Cited by 9 publications

References 70 publications

Forensic Discrimination of Smokeless Powders Using Carbon and Nitrogen Isotope Ratios

Forensic Discrimination of Smokeless Powders Using Carbon and Nitrogen Isotope Ratios

Hydrologic Connectivity Regulates Riverine N2O Sources and Dynamics

Isotopically characterised N2O reference materials for use as community standards

Contact Info

Product

Resources

About

Isotopically characterised N₂O reference materials for use as community standards

Hydrologic Connectivity Regulates Riverine N₂O Sources and Dynamics

Isotopically characterised N₂O reference materials for use as community standards