2006
DOI: 10.1029/2005jd005830
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Temporal variations of mineral dust, biogenic tracers, and anthropogenic species during the past two centuries from Belukha ice core, Siberian Altai

Abstract: In July 2001, a 140 m long ice core was recovered from the Belukha glacier (49°48′26″N, 86°34′43″E, 4062 m a.s.l.) in the Siberian Altai. The ion chemistry of the upper 86 m, covering the last two centuries, is characterized by biogenic emissions (ammonium and formate), aeolian dust (calcium, magnesium, chloride, and sodium) and anthropogenic species (sulfate, nitrate, and ammonium). Particularly high ammonium and formate concentrations indicate pronounced emissions from Siberian forests. The inferred fire fre… Show more

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Cited by 66 publications
(91 citation statements)
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“…7a) and that NO − 3 deposition on the GrIS has doubled since preindustrial times, most likely due to fossil fuel burning (Olivier et al, 2006). The impact of anthropogenic nitrogen deposition on the total nitrogen budget of the western GrIS ablation zone is however likely to be lower than that on some high Arctic glaciers, such as those in Svalbard.…”
Section: Importance Of Nitrogen Fixation To Total Nitrogen Inputs Ontmentioning
confidence: 96%
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“…7a) and that NO − 3 deposition on the GrIS has doubled since preindustrial times, most likely due to fossil fuel burning (Olivier et al, 2006). The impact of anthropogenic nitrogen deposition on the total nitrogen budget of the western GrIS ablation zone is however likely to be lower than that on some high Arctic glaciers, such as those in Svalbard.…”
Section: Importance Of Nitrogen Fixation To Total Nitrogen Inputs Ontmentioning
confidence: 96%
“…Deposition of NO − 3 on Svalbard glaciers has increased 65 % since preindustrial times due to anthropogenic deposition (largely from fossil fuel burning; Kekonen et al, 2005), substantially increasing the total nitrogen deposition on the glaciers (Hodson et al, 2005(Hodson et al, , 2010c. While NO − 3 deposition from precipitation on the GrIS has increased even more over the same period (Olivier et al, 2006), the impact as a percentage of total nitrogen inputs is likely to be ameliorated in part by the dominance of icemelt as a nitrogen input (Fig. 7a).…”
Section: Importance Of Nitrogen Fixation To Total Nitrogen Inputs Ontmentioning
confidence: 99%
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“…factor 3 increase, 1960-1990) [19], East Rongbuk Glacier ( factor 2, 1950-1980) [38] and Belukha (factor 1.6, 1950-1980, followed by plateau) [33]. Modelling work is needed to separate out the influence of higher emissions from that of increased concentrations of sulfate and nitrate that may neutralize gaseous NH 3 , leading to greater NH 4 þ deposition.…”
Section: Ice-core Records: Anthropogenic Change In Ammoniummentioning
confidence: 99%
“…The time scale was derived using the 210 Pb record, a three-parameter annual layer-counting methodology, and a nonlinear regression (Haefeli, 1961) (1963 -3 H maximum) and different volcanic eruptions Olivier et al, 2006;Eichler et al, 2009a). Volcanic horizons are marked by nondust SO 4 2− (exSO 4 2− ) concentration maxima and corresponding minima in the temperature record.…”
Section: Datingmentioning
confidence: 99%