Your search keyword '"Steffensen JP"' showing total 3 results

1. A Method for Continuous (239)Pu Determinations in Arctic and Antarctic Ice Cores.

Author

Arienzo MM, McConnell JR, Chellman N, Criscitiello AS, Curran M, Fritzsche D, Kipfstuhl S, Mulvaney R, Nolan M, Opel T, Sigl M, and Steffensen JP

Subjects

Atmosphere, Half-Life, Nuclear Weapons, Ice, Plutonium

Abstract

Atmospheric nuclear weapons testing (NWT) resulted in the injection of plutonium (Pu) into the atmosphere and subsequent global deposition. We present a new method for continuous semiquantitative measurement of (239)Pu in ice cores, which was used to develop annual records of fallout from NWT in ten ice cores from Greenland and Antarctica. The (239)Pu was measured directly using an inductively coupled plasma-sector field mass spectrometer, thereby reducing analysis time and increasing depth-resolution with respect to previous methods. To validate this method, we compared our one year averaged results to published (239)Pu records and other records of NWT. The (239)Pu profiles from the Arctic ice cores reflected global trends in NWT and were in agreement with discrete Pu profiles from lower latitude ice cores. The (239)Pu measurements in the Antarctic ice cores tracked low latitude NWT, consistent with previously published discrete records from Antarctica. Advantages of the continuous (239)Pu measurement method are (1) reduced sample preparation and analysis time; (2) no requirement for additional ice samples for NWT fallout determinations; (3) measurements are exactly coregistered with all other chemical, elemental, isotopic, and gas measurements from the continuous analytical system; and (4) the long half-life means the (239)Pu record is stable through time.

Published

2016

2. Optimization of high-resolution continuous flow analysis for transient climate signals in ice cores.

Author

Bigler M, Svensson A, Kettner E, Vallelonga P, Nielsen ME, and Steffensen JP

Subjects

Antarctic Regions, Dust analysis, Greenland, Quaternary Ammonium Compounds analysis, Aerosols analysis, Air Pollutants analysis, Climate Change, Environmental Monitoring methods, Ice analysis

Abstract

Over the past two decades, continuous flow analysis (CFA) systems have been refined and widely used to measure aerosol constituents in polar and alpine ice cores in very high-depth resolution. Here we present a newly designed system consisting of sodium, ammonium, dust particles, and electrolytic meltwater conductivity detection modules. The system is optimized for high-resolution determination of transient signals in thin layers of deep polar ice cores. Based on standard measurements and by comparing sections of early Holocene and glacial ice from Greenland, we find that the new system features a depth resolution in the ice of a few millimeters which is considerably better than other CFA systems. Thus, the new system can resolve ice strata down to 10 mm thickness and has the potential of identifying annual layers in both Greenland and Antarctic ice cores throughout the last glacial cycle.

Published

2011

3. Sulfate spikes in the deep layers of EPICA-Dome C ice core: evidence of glaciological artifacts.

Author

Traversi R, Becagli S, Castellano E, Marino F, Rugi F, Severi M, de Angelis M, Fischer H, Hansson M, Stauffer B, Steffensen JP, Bigler M, and Udisti R

Subjects

Antarctic Regions, Chromatography, Elements, Europe, Ice Cover chemistry, Sulfates analysis

Abstract

A detailed ionic component record was performed on EPICA Dome C ice core (East Antarctica) to a depth of 3190 m using Ion Chromatography and Fast Ion Chromatography (FIC). At depths greater than 2800 m, the sulfate profile shows intense, sharp spikes which are not expected due to the smoothing of sulfate peaks by diffusion processes. Moreover, these spikes show an "anomalous" chemical composition (e.g., unusually low acidity, high Mg(2+) concentration and high Mg(2+)/Ca(2+) ratio). These peaks and the surrounding layers also exhibit good Mg(2+) vs SO(4)(2-) and Cl(-) vs Na(+) correlations through both glacial and interglacial periods. Furthermore, the high-resolution analysis of two horizontally contiguous ice sections showed that some fraction of the impurities are characterized by a heterogeneous distribution. Altogether, these results suggest the occurrence of long-term postdepositional processes involving a rearrangement of impurities via migration in the vein network, characterized by sulfuric acidity and leading to the formation of soluble particles of magnesium sulfate salts, along with ionic association of ions in the liquid films along boundaries. This evidence should be taken into consideration when inferring information on for rapid climatic and environmental changes from ice core chemical records at great depths. At Dome C, the depth threshold was found to be 2800 m.

Published

2009