2005
DOI: 10.1007/s00382-005-0063-y
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The glacial inception as recorded in the NorthGRIP Greenland ice core: timing, structure and associated abrupt temperature changes

Abstract: The mechanisms involved in the glacial inception are still poorly constrained due to a lack of high resolution and cross-dated climate records at various locations. Using air isotopic measurements in the recently drilled NorthGRIP ice core, we show that no evidence exists for stratigraphic disturbance of the climate record of the last glacial inception ($123-100 kyears BP) encompassing Dansgaard-Oeschger events (DO) 25, 24 and 23, even if we lack sufficient resolution to completely rule out disturbance over DO… Show more

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Cited by 73 publications
(57 citation statements)
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“…The uncertainties associated with the durations of GIS/GS 24, 23, 22 and 21 represent less than 19% of the duration of each DO event. This general agreement makes the Huber et al (2006) and Landais et al (2006) provide a quantification of abrupt temperature change through air isotopes measurements of most of the rapid events over the last glacial period and our study provides new results of temperature estimates at the onset of GIS 21 and GIS 22. d Spatial slope deduced at the onset of each rapid event as α= δ 18 O ice / T . Note that a ±2.5 • C uncertainty on temperature change is translated to an error of ∼0.2 in the calculation of α. e GS durations are given (1) on the GICC05 age scale for GS 2 to GS 12 Svensson et al, 2008), (2) on ss09sea age scale for GS 18 to GS 20 (NorthGRIP c.m., 2004) and (3)on the EDML-NorthGRIP synchronised timescale for GS 21 to GS 24 .…”
Section: Synchronising Northgrip and Edml Ice Coressupporting
confidence: 70%
See 1 more Smart Citation
“…The uncertainties associated with the durations of GIS/GS 24, 23, 22 and 21 represent less than 19% of the duration of each DO event. This general agreement makes the Huber et al (2006) and Landais et al (2006) provide a quantification of abrupt temperature change through air isotopes measurements of most of the rapid events over the last glacial period and our study provides new results of temperature estimates at the onset of GIS 21 and GIS 22. d Spatial slope deduced at the onset of each rapid event as α= δ 18 O ice / T . Note that a ±2.5 • C uncertainty on temperature change is translated to an error of ∼0.2 in the calculation of α. e GS durations are given (1) on the GICC05 age scale for GS 2 to GS 12 Svensson et al, 2008), (2) on ss09sea age scale for GS 18 to GS 20 (NorthGRIP c.m., 2004) and (3)on the EDML-NorthGRIP synchronised timescale for GS 21 to GS 24 .…”
Section: Synchronising Northgrip and Edml Ice Coressupporting
confidence: 70%
“…The "iconic" DO event structure is depicted as a GIS, beginning with an abrupt warming of 8 to 16 • C in mean annual surface temperature within a few decades (Severinghaus et al, 1998;Lang et al, 1999;Landais et al, 2004a;Landais et al, 2006; see also Wolff et al, 2009a for a review). The GIS is then usually characterized by a gradual cooling phase lasting several centuries and its end is marked by a rapid cooling towards a relatively stable cold phase (GS) that persists over several centuries to a thousand of years.…”
Section: E Capron Et Al: Millennial Scale Climatic Variations and Bmentioning
confidence: 99%
“…Using δ 15 N data and firn modeling, past surface temperature variations can be reconstructed (Schwander et al, 1997;Goujon et al, 2003). This method has already been applied to specific DO events on the NGRIP, GRIP and GISP2 ice cores (Lang et al, 1999;Huber et al, 2006;Landais et al, 2004aLandais et al, , 2005Goujon et al, 2003;Severinghaus and Brook, 1999;Capron et al, 2010) and will be applied here for the first time to the NEEM ice core.…”
Section: Introductionmentioning
confidence: 99%
“…3. The δ 18 O atm values reach a first minimum following MIS 5.5 that is coincident with the first minimum in atmospheric methane, which the speleothem chronologies place at 116 ka, just at the transition from Glacial Stadial (GS) 25 to GIS 25 (Landais et al, 2006). We show the EDC ice core methane record because it is higher resolution than Vostok methane (note that both are on the same timescale).…”
Section: Comparison To Ice Core Recordsmentioning
confidence: 78%