2015
DOI: 10.5194/acp-15-9435-2015
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Investigation of post-depositional processing of nitrate in East Antarctic snow: isotopic constraints on photolytic loss, re-oxidation, and source inputs

Abstract: Abstract. Snowpits along a traverse from coastal East Antarctica to the summit of the ice sheet (Dome Argus) are used to investigate the post-depositional processing of nitrate (NO − 3 ) in snow. Seven snowpits from sites with accumulation rates between 24 and 172 kg m −2 a −1 were sampled to depths of 150 to 300 cm. At sites from the continental interior (low accumulation, < 55 kg m −2 a −1 ), nitrate mass fraction is generally > 200 ng g −1 in surface snow and decreases quickly with depth to < 50 ng g −1 . C… Show more

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Cited by 52 publications
(89 citation statements)
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References 71 publications
(103 reference statements)
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“…Photolysis is associated with large fractionation of N ( 15 ε between −48 and −56 ‰) and O ( 18 ε = −34 ‰) which tends to increase δ( 15 N) and δ( 18 O) in the remaining snowpack NO − 3 if the NO x produced is removed from the system Erbland et al, 2013;Berhanu et al, 2015;Geng et al, 2015). In situ recycling of NO − 3 can also reduce δ( 18 O) and ( 17 O) due to oxygen isotope exchange with water Shi et al, 2015), which has a different isotopic signature than atmospheric oxidants. This means that the negative 18 ε is not expressed in the residual snow NO − 3 and, in fact, the apparent overall oxygen isotope fractionation can be positive (between 9 and 13 ‰, Berhanu et al, 2015).…”
Section: Precipitation Chemistry Nitrogen Deposition and Post-deposimentioning
confidence: 99%
“…Photolysis is associated with large fractionation of N ( 15 ε between −48 and −56 ‰) and O ( 18 ε = −34 ‰) which tends to increase δ( 15 N) and δ( 18 O) in the remaining snowpack NO − 3 if the NO x produced is removed from the system Erbland et al, 2013;Berhanu et al, 2015;Geng et al, 2015). In situ recycling of NO − 3 can also reduce δ( 18 O) and ( 17 O) due to oxygen isotope exchange with water Shi et al, 2015), which has a different isotopic signature than atmospheric oxidants. This means that the negative 18 ε is not expressed in the residual snow NO − 3 and, in fact, the apparent overall oxygen isotope fractionation can be positive (between 9 and 13 ‰, Berhanu et al, 2015).…”
Section: Precipitation Chemistry Nitrogen Deposition and Post-deposimentioning
confidence: 99%
“…Frey et al (2009) proposed a theoretical framework to estimate the isotopic fractionation constant (ε) for NO 3 − via photolysis, and the calculated ε generally agreed with field observations at Dome C (Blunier et al, 2005;Frey et al, 2009). Following photolytic loss of NO 3 − from snow, 15 N is enriched in the remaining NO 3 − , but the heavy oxygen isotopes have been observed to be depleted due to reoxidation and oxygen-exchange reactions between the photoproducts and H 2 O/OH (McCabe et al, 2005;Shi et al, 2015). Following photolytic loss of NO 3 − from snow, 15 N is enriched in the remaining NO 3 − , but the heavy oxygen isotopes have been observed to be depleted due to reoxidation and oxygen-exchange reactions between the photoproducts and H 2 O/OH (McCabe et al, 2005;Shi et al, 2015).…”
Section: Introductionmentioning
confidence: 57%
“…The findings suggest that the isotopic effects of NO 3 − volatilization in snow are closely related to temperature.which is thought to inversely depend on snow accumulation rate (Grannas et al, 2007;Röthlisberger et al, 2002;Shi et al, 2015;Weller et al, 2004;Zatko et al, 2016). Here we discuss results from experiments in field Antarctic snow investigating isotopic fractionation of nitrate due to volatilization.…”
mentioning
confidence: 91%
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“…However, there are many uncertainties and speculations over the sources of nitrate, its seasonality, and post-depositional losses (e.g. Traversi et al, 2014;Shi et al, 2015).…”
Section: Introductionmentioning
confidence: 99%