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Auteurs principaux: Della Lunga, Damiano, Müller, Wolfgang, Rasmussen, Sune Olander, Svensson, Anders M, Vallelonga, Paul T
Format: Dataset Open Access
Langue:en
Publié: PANGAEA 2017
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Accès en ligne:https://doi.org/10.1594/PANGAEA.875711
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author Della Lunga, Damiano
Müller, Wolfgang
Rasmussen, Sune Olander
Svensson, Anders M
Vallelonga, Paul T
author_facet Della Lunga, Damiano
Müller, Wolfgang
Rasmussen, Sune Olander
Svensson, Anders M
Vallelonga, Paul T
collection Datos científicos de ciencias marinas y ambientales
contents Several abrupt shifts from periods of extreme cold (Greenland stadials, GS) to relatively warmer conditions (Greenland interstadials, GI) called Dansgaard-Oeschger events are recorded in the Greenland ice cores. Using cryo-cell UV-laser-ablation inductively-coupled-plasma mass spectrometry (UV-LA-ICPMS), we analysed a 2.85 m NGRIP ice core section (~ 250 years; 2691.50–2688.65 m depth) across the transitions of GI-21.2, a short-lived interstadial prior to interstadial GI-21.1 (GI-21.2: 84.87–85.09 ka b2k). GI-21.2 is a ~100-year-long period with d18O values 3–4 per mil higher than the following ~200 years of stadial conditions (GS-21.2), which precede the major GI-21.1 warming. We report concentrations of "major" elements indicative of dust and/or sea salt (Na, Fe, Al, Ca, Mg) at a spatial resolution of ~ 200 µm, while maintaining detection limits in the low-ppb range, thereby achieving sub-annual time resolution even in deep NGRIP ice. We present an improved external calibration and quantification procedure using a set of five ice standards made from aqueous (international) standard solutions. Our results show that element concentrations decrease drastically (more than tenfold) at the warming onset of GI-21.2 at the scale of a single year, followed by relatively low concentrations characterizing the interstadial part before gradually reaching again typical stadial values.
format Dataset Open Access
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institution PANGAEA
language en
publishDate 2017
publisher PANGAEA
record_format pangaea
spellingShingle Major elemental concentrations from NGRIP ice core across the interstadial period GI-21.2
Della Lunga, Damiano
Müller, Wolfgang
Rasmussen, Sune Olander
Svensson, Anders M
Vallelonga, Paul T
Aluminium; Calcium; Cryo-cell UV-laser-ablation inductively-coupled-plasma mass spectrometry; DEPTH, ice/snow; Greenland; ICEDRILL; Ice drill; Iron; Magnesium; NGRIP; North Greenland Ice Core Project; NorthGRIP; Sampling/drilling ice; Sodium
Several abrupt shifts from periods of extreme cold (Greenland stadials, GS) to relatively warmer conditions (Greenland interstadials, GI) called Dansgaard-Oeschger events are recorded in the Greenland ice cores. Using cryo-cell UV-laser-ablation inductively-coupled-plasma mass spectrometry (UV-LA-ICPMS), we analysed a 2.85 m NGRIP ice core section (~ 250 years; 2691.50–2688.65 m depth) across the transitions of GI-21.2, a short-lived interstadial prior to interstadial GI-21.1 (GI-21.2: 84.87–85.09 ka b2k). GI-21.2 is a ~100-year-long period with d18O values 3–4 per mil higher than the following ~200 years of stadial conditions (GS-21.2), which precede the major GI-21.1 warming. We report concentrations of "major" elements indicative of dust and/or sea salt (Na, Fe, Al, Ca, Mg) at a spatial resolution of ~ 200 µm, while maintaining detection limits in the low-ppb range, thereby achieving sub-annual time resolution even in deep NGRIP ice. We present an improved external calibration and quantification procedure using a set of five ice standards made from aqueous (international) standard solutions. Our results show that element concentrations decrease drastically (more than tenfold) at the warming onset of GI-21.2 at the scale of a single year, followed by relatively low concentrations characterizing the interstadial part before gradually reaching again typical stadial values.
title Major elemental concentrations from NGRIP ice core across the interstadial period GI-21.2
topic Aluminium; Calcium; Cryo-cell UV-laser-ablation inductively-coupled-plasma mass spectrometry; DEPTH, ice/snow; Greenland; ICEDRILL; Ice drill; Iron; Magnesium; NGRIP; North Greenland Ice Core Project; NorthGRIP; Sampling/drilling ice; Sodium
url https://doi.org/10.1594/PANGAEA.875711