Loïc Schmidely scite author profile

Abstract. Produced by the incomplete combustion of fossil fuel and biomass, black carbon (BC) contributes to Arctic warming by reducing snow albedo and thus triggering a snow-albedo feedback leading to increased snowmelt. Therefore, it is of high importance to assess past BC emissions to better understand and constrain their role. However, only a few long-term BC records are available from the Arctic, mainly originating from Greenland ice cores. Here, we present the first long-term and high-resolution refractory black carbon (rBC) record from Svalbard, derived from the analysis of two ice cores drilled at the Lomonosovfonna ice field in 2009 (LF-09) and 2011 (LF-11) and covering 800 years of atmospheric emissions. Our results show that rBC concentrations strongly increased from 1860 on due to anthropogenic emissions and reached two maxima, at the end of the 19th century and in the middle of the 20th century. No increase in rBC concentrations during the last decades was observed, which is corroborated by atmospheric measurements elsewhere in the Arctic but contradicts a previous study from another ice core from Svalbard. While melting may affect BC concentrations during periods of high temperatures, rBC concentrations remain well preserved prior to the 20th century due to lower temperatures inducing little melt. Therefore, the preindustrial rBC record (before 1800), along with ammonium (NH4+), formate (HCOO−) and specific organic markers (vanillic acid, VA, and p-hydroxybenzoic acid, p-HBA), was used as a proxy for biomass burning. Despite numerous single events, no long-term trend was observed over the time period 1222–1800 for rBC and NH4+. In contrast, formate, VA, and p-HBA experience multi-decadal peaks reflecting periods of enhanced biomass burning. Most of the background variations and single peak events are corroborated by other ice core records from Greenland and Siberia. We suggest that the paleofire record from the LF ice core primarily reflects biomass burning episodes from northern Eurasia, induced by decadal-scale climatic variations.

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Abrupt CO ₂ release to the atmosphere under glacial and early interglacial climate conditions

Nehrbass-Ahles

Shin

Schmitt

et al. 2020

Science

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Pulse-like carbon dioxide release to the atmosphere on centennial time scales has only been identified for the most recent glacial and deglacial periods and is thought to be absent during warmer climate conditions. Here, we present a high-resolution carbon dioxide record from 330,000 to 450,000 years before present, revealing pronounced carbon dioxide jumps (CDJ) under cold and warm climate conditions. CDJ come in two varieties that we attribute to invigoration or weakening of the Atlantic meridional overturning circulation (AMOC) and associated northward and southward shifts of the intertropical convergence zone, respectively. We find that CDJ are pervasive features of the carbon cycle that can occur during interglacial climate conditions if land ice masses are sufficiently extended to be able to disturb the AMOC by freshwater input.

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An 800 year high-resolution black carbon ice-core record from Lomonosovfonna, Svalbard

Osmont¹,

Wendl²,

Schmidely³

et al. 2018

Preprint

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Loïc Schmidely

An 800-year high-resolution black carbon ice core record from Lomonosovfonna, Svalbard

Abrupt CO ₂ release to the atmosphere under glacial and early interglacial climate conditions

An 800 year high-resolution black carbon ice-core record from Lomonosovfonna, Svalbard

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Loïc Schmidely

An 800-year high-resolution black carbon ice core record from Lomonosovfonna, Svalbard

Abrupt CO 2 release to the atmosphere under glacial and early interglacial climate conditions

An 800 year high-resolution black carbon ice-core record from Lomonosovfonna, Svalbard

Contact Info

Product

Resources

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Abrupt CO ₂ release to the atmosphere under glacial and early interglacial climate conditions