Stable bromine isotopic composition of methyl bromide released from plant matter

Horst, Axel; Holmstrand, Henry; Andersson, P.; Thornton, Brett F.; Wishkerman, Asher; Keppler, Frank; Gustafsson, Örjan

doi:10.1016/j.gca.2013.10.016

Cited by 25 publications

(14 citation statements)

References 51 publications

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“…The CH 3 Br concentration in northern Sweden was 2-3 times lower than in the Stockholm area, possibly indicating industrial contamination of the latter area. CH 3 Br emissions from plants are about 2 ‰ depleted in 81 Br relative to bromine in the plant (Horst et al 2014). (Fietzke and Eisenhauer 2006;Krabbenhöft et al 2009;Neymark et al 2014).…”

Section: Brominementioning

confidence: 99%

Isotope Fractionation Processes of Selected Elements

Hoefs

2015

Stable Isotope Geochemistry

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Section: Brominementioning

confidence: 99%

Isotope Fractionation Processes of Selected Elements

Hoefs

2015

Stable Isotope Geochemistry

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“…Further at the Abisko site also soil-air samples were collected to determine isotopic fingerprinting and the importance of this source. The results obtained by Horst et al (2013) and indicated that, overall, the air samples showed similar δ 81 Br values for both field studies ranging from −0.47 to +1.75 ‰ versus SMOB for Stockholm samples and −0.14 to +0.48 ‰ versus SMOB for Abisko samples. However, in Stockholm the δ 81 Br range was larger and the mixing ratios of CH 3 Br were higher (14.4 ± 2.1 pptv) whereas for the Abisko samples the mixing ratios (9.8 ± 3.1 pptv) were statistically indistinguishable from global background (8 pptv).…”

Section: Brominementioning

confidence: 63%

“…The first bromine isotope measurements of atmospheric CH 3 Br samples were reported by Horst et al (2013) and . They used the method developed by Thornton et al (2013) to extract enough CH 3 Br from atmospheric samples from sites near Stockholm (an urban site) and Abisko (a rural site) in Sweden.…”

Section: Brominementioning

confidence: 99%

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Natural Variations of Stable Chlorine and Bromine Isotopes on Earth

Eggenkamp

2014

Advances in Isotope Geochemistry

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“…Apart from carbon isotope analysis, hydrogen isotope 10 measurements have been demonstrated for CH3Cl (Nadalig et al, 2013;Keppler et al, 2018;Jaeger et al, 2018). For CH3Br bromine isotope analysis was presented in two studies (Horst et al, 2013;Horst et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

Isotopic Characterization (2H, 13C, 37Cl, 81Br) of the Abiotic Sinks of Methyl Bromide and Methyl Chloride in Water and Implications for Future Studies.

Horst¹,

Bonifacie²,

Bardoux³

et al. 2018

Preprint

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Methyl bromide and methyl chloride are each the largest natural sources of halogens to the stratosphere and hence substantially contribute to stratospheric ozone loss. The atmospheric budgets of both compounds are, despite considerable 10 efforts, still unbalanced with known sinks outweighing known sources. Stable isotope analysis may be capable to provide additional process level information and source differentiation of methyl halides and it is particularly powerful if isotopes of multiple elements in these compounds are measured. In the current study triple-elemental isotope analysis ( 2 H, 13 C, 37 Cl/ 81 Br) was applied to investigate the two main abiotic degradation processes of methyl halides (CH3X) in water: hydrolysis and halide exchange. Both nucleophilic substitution reactions caused large carbon and significant bromine isotope 15 effects in CH3Br and small secondary inverse hydrogen isotope effects. Calculated loss rates indicated that exchange with chloride (Cl -) may be a major abiotic sink for CH3Br in oceans whereas hydrolysis may contribute to degradation in freshwater and soils. For CH3Cl only hydrolysis was observed with large carbon and chlorine isotope effects and a secondary inverse hydrogen isotope effect. Halide exchange could not be detected for CH3Cl at ambient temperatures and may not be a significant sink for this compound. This study demonstrates, to our knowledge, the first triple-elemental isotope analyses of 20 CH3Cl and CH3Br. The presented results have important implications for source apportionment of tropospheric CH3X if viewed in conjunction with results from previous studies.

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Stable bromine isotopic composition of methyl bromide released from plant matter

Cited by 25 publications

References 51 publications

Isotope Fractionation Processes of Selected Elements

Isotope Fractionation Processes of Selected Elements

Natural Variations of Stable Chlorine and Bromine Isotopes on Earth

Isotopic Characterization (2H, 13C, 37Cl, 81Br) of the Abiotic Sinks of Methyl Bromide and Methyl Chloride in Water and Implications for Future Studies.

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