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5. Cryptotephra in the East Antarctic Mount Brown South ice core.

Author

Harlan, Margaret Mallory, Fox, Jodi, Kjær, Helle Astrid, Vance, Tessa R., Svensson, Anders, and Cook, Eliza

Abstract

Ice cores contain stratified layers of impurities scavenged from the atmosphere, which are a vital tool for investigating the Earth system. Reconstructing past eruption records by way of ice core tephrochronology can help us understand ash dispersal, atmospheric circulation processes, and the impacts of volcanic eruptions on climate. This study presents the coastal East Antarctic Mount Brown South (MBS, 69.11° S, 86.31° E; 2084 m ASL) ice core as an untapped tephrochronological archive. We utilize a novel cryptotephra sampling plan, integrating ice core data, HYSPLIT air parcel trajectories, and known eruption records, and identify two distinct cryptotephra horizons at ∼13.3 and ∼17.9 m depth in the MBS-Alpha ice core. We also find sparse tephra grains throughout the core. Through geochemical characterization with electron probe microanalysis (EPMA), we correlate the two cryptotephra horizons with the 1991 eruption of Cerro Hudson and the continuous eruptions of Mt. Erebus throughout the mid-1980s. The volcanic horizons identified here underscore the role of MBS in extending the regional volcanic record, helping to constrain ice core dating efforts, and enhancing understanding of volcanic ash dispersal to East Antarctica. [ABSTRACT FROM AUTHOR]

Published
2024
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6. High resolution continuous flow analysis impurity data from the Mount Brown South ice core, East Antarctica.

Author

Harlan, Margaret, Kjær, Helle Astrid, Campo, Aylin de, Svensson, Anders, Blunier, Thomas, Gkinis, Vasileios, Jackson, Sarah, Plummer, Christopher, and Vance, Tessa

Subjects
*ICE cores, *CORE drilling, *HYDROGEN peroxide, *DATA quality, *MELTWATER
Abstract

The Mount Brown South ice core (MBS 69.111° S 86.312° E) is a new, high resolution ice core drilled in coastal East Antarctica. With mean annual accumulation estimated to be 20–30 cm ice equivalent accumulation throughout the length of the core (∼295 m), MBS represents a high resolution archive of ice core data spanning 1137 years (873–2009 CE), from an area previously underrepresented by high resolution ice core data. Here, we present a high-resolution dataset of chemistry and impurities obtained via continuous flow analysis (CFA). The dataset consists of meltwater electrolytic conductivity, sodium (Na+), ammonium (NH4+), hydrogen peroxide (H2O2), and insoluble microparticle measurements. The data are presented in three datasets: as a 1 mm depth resolution record, 3 cm averaged record, and decadal average record. The 1 mm record represents an oversampling of the true resolution, as due to smoothing effects the actual resolution is closer to 3 cm for some species. Therefore, the 3 cm resolution dataset is considered to be the minimum true resolution given the system setup. We also describe the current Copenhagen CFA system, and provide a detailed assessment of data quality, precision, and functional resolution. The 1 mm averaged, 3 cm averaged, and MBS2023 decadal averaged datasets are available at the Australian Antarctic Data Center: http://dx.doi.org/doi:10.26179/9tke-0s16 (Harlan et al., 2024). [ABSTRACT FROM AUTHOR]

Published
2024
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7. Continuous Flow Analysis of Firn Core Densities: Towards A High Resolution Method

Author

Kjær, Helle Astrid, von Drachenfels, Johanna Katharina, Kjær, Helle Astrid, and von Drachenfels, Johanna Katharina

Abstract

The availability of snow accumulation data is a critical factor in accurate Surface Mass Balance predictions of the Greenland Ice Sheet, which forms the base for predictions of sea level rise in a warming climate. Currently, this data remains deficient due to incomplete geographical coverage and poor temporal resolution. The Lightweight In Situ Analysis (LISA) box is a portable system built for fast and straightforward accumulation measurements on firn cores directly in the field. The sample cores are melted from one end, and Continuous Flow Analysis (CFA) of seasonally varying chemical impurities and conductivity in the melt water reveals annual layers in the firn. With additional firn density measurements with a typical depth resolution of 0.5−1m, the accumulation rate of the years that are represented in the core can be reconstructed to annual resolution. This thesis works towards a high-resolution density measurement method for the LISA box to achieve sub-annual accumulation rate resolution. An ultrasonic distance sensor now automates the melt speed measurement with high resolution. Furthermore, a liquid flow meter continuously measures the flow rate of melt water produced, which is proportional to the density of the melted sample section. The flow meter has an absolute accuracy of 10% for a flow rate of 100mL/min. Theoretically, a firn density measurement with an uncertainty of 15 − 17% could be achieved, with the low uncertainty for cores that are low density, have a large radius, and maintain a regular shape. The uncertainty could be further reduced by choosing a flow meter with higher accuracy. In practice however, to prevent water loss by overflow, the water is drained at a generously set rate. This induces air bubbles to the melt water that alter the flow rate measurements. Detailed sensitivity tests have shown that the effect can be corrected with a linear

Published
2024

8. Arctic mercury flux increased through the Last Glacial Termination with a warming climate

Author

A.P. Moller Foundation, University of Copenhagen, National Science Foundation (US), Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research (Germany), National Institute of Polar Research (Japan), University of Bergen, Swiss National Science Foundation, Institut Polaire Français Paul Emile Victor, Institut des Géosciences de l'Environnement (France), University of Manitoba, Chinese Academy of Sciences, Beijing Normal University, European Commission, Ministry of Earth Sciences (India), Canada Research Chairs, Oeschger Centre for Climate Change Research (Switzerland), Aarhus University Research Foundation, Segato, Delia [0000-0003-3375-3319], Saiz-Lopez, A. [0000-0002-0060-1581], Mahajan, Anoop Sharad `[0000-0002-2909-5432], Wang, Feiyue [0000-0001-5297-0859], Corella, Juan Pablo [0000-0001-5127-9011], Cuevas, Carlos A. [0000-0002-9251-5460], Erhardt, Tobias [0000-0002-6683-6746], Zeppenfeld, Chantal [0000-0002-6340-5836], Kjær, Helle Astrid [0000-0002-3781-9509], Turetta, Clara [0000-0003-3130-2901], Cairns, Warren Raymond Lee [0000-0002-7128-7753], Barbante, Carlo [0000-0003-4177-2288], Spolaor, Andrea [0000-0001-8635-9193], Segato, Delia, Saiz-Lopez, A., Mahajan, Anoop Sharad, Wang, Feiyue, Corella, Juan Pablo, Cuevas, Carlos A., Erhardt, Tobias, Jensen, Camilla Marie, Zeppenfeld, Chantal, Kjær, Helle Astrid, Turetta, Clara, Cairns, Warren Raymond Lee, Barbante, Carlo, Spolaor, Andrea, A.P. Moller Foundation, University of Copenhagen, National Science Foundation (US), Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research (Germany), National Institute of Polar Research (Japan), University of Bergen, Swiss National Science Foundation, Institut Polaire Français Paul Emile Victor, Institut des Géosciences de l'Environnement (France), University of Manitoba, Chinese Academy of Sciences, Beijing Normal University, European Commission, Ministry of Earth Sciences (India), Canada Research Chairs, Oeschger Centre for Climate Change Research (Switzerland), Aarhus University Research Foundation, Segato, Delia [0000-0003-3375-3319], Saiz-Lopez, A. [0000-0002-0060-1581], Mahajan, Anoop Sharad `[0000-0002-2909-5432], Wang, Feiyue [0000-0001-5297-0859], Corella, Juan Pablo [0000-0001-5127-9011], Cuevas, Carlos A. [0000-0002-9251-5460], Erhardt, Tobias [0000-0002-6683-6746], Zeppenfeld, Chantal [0000-0002-6340-5836], Kjær, Helle Astrid [0000-0002-3781-9509], Turetta, Clara [0000-0003-3130-2901], Cairns, Warren Raymond Lee [0000-0002-7128-7753], Barbante, Carlo [0000-0003-4177-2288], Spolaor, Andrea [0000-0001-8635-9193], Segato, Delia, Saiz-Lopez, A., Mahajan, Anoop Sharad, Wang, Feiyue, Corella, Juan Pablo, Cuevas, Carlos A., Erhardt, Tobias, Jensen, Camilla Marie, Zeppenfeld, Chantal, Kjær, Helle Astrid, Turetta, Clara, Cairns, Warren Raymond Lee, Barbante, Carlo, and Spolaor, Andrea

Abstract

Mercury is a pollutant of global concern, especially in the Arctic, where high levels are found in biota despite its remote location. Mercury is transported to the Arctic via atmospheric, oceanic and riverine long-range pathways, where it accumulates in aquatic and terrestrial ecosystems. While present-day mercury deposition in the Arctic from natural and anthropogenic emissions is extensively studied, the control of past climate changes on natural mercury variability remains unknown. Here we present an Arctic mercury record covering the Last Glacial Termination to the early Holocene epoch (15.7–9.0 thousand years before 2000 ce), collected as part of the East Greenland Ice-Core Project. We find a threefold increase in mercury depositional fluxes from the Last Glacial Termination into the early Holocene, which coincided with abrupt regional climate warming. Atmospheric chemistry modelling, combined with available sea-ice proxies, indicates that oceanic mercury evaporation and atmospheric bromine drove the increase in mercury flux during this climatic transition. Our results suggest that environmental changes associated with climate warming may contribute to increasing mercury levels in Arctic ecosystems.

Published
2023

9. High resolution aerosol data from the top 3.8 ka of the EGRIP ice core

Author

Erhardt, Tobias, Jensen, Camilla Marie, Adolphi, Florian, Kjær, Helle Astrid, Dallmayr, Remi, Twarloh, Birthe, Behrens, Melanie, Hirabayashi, Motohiro, Fukuda, Kaori, Ogata, Jun, Burgay, François, Scoto, Federico, Crotti, Ilaria, Spagnesi, Azzurra, Maffezzoli, Niccoló, Segato, Delia, Paleari, Chiara, Mekhaldi, Florian, Muscheler, Raimund, Darfeuil, Sophie, and Fischer, Hubertus

Abstract

Here we present the high-resolution CFA data from the top 479 m of the East Greenland Ice coring Project (EGRIP) ice core covering the past 3.8 thousand years. The data consists of 1 mm-depth-resolution profiles of calcium, sodium, am- monium, nitrate and electrolytic conductivity as well as decadal averages of these profiles. Alongside the data we provide a description of the measurement setup, procedures, the relevant references for the specific methods as well as an assessment of the precision of the measurements, the sample to depth assignment and the depth and temporal resolution of the data set. The nominally 1-mm data represents an oversampling of the record as the true resolution is limited by the analytical setup to approximately 1 cm. The error of absolute depth assignment of the data may be on the order of 1 cm, however relative depth offsets be- tween the records of the individual species is only on the order of 1 mm. The presented data has sub-annual resolution over the entire depth range and has already formed part of the data for an annually layer-counted time scale for the EGRIP ice core used to improve and revise the multi-core Greenland ice-core chronology (GICC05) to a new version,GICC21 (Sinnl et al., 2021). The data is available in full 1-mm resolution and decadal averages on PANGAEA (https://doi.org/10.1594/PANGAEA.945293 (Erhardt et al., 2022b))

Published
2023

11. Arctic mercury flux increased through the Last Glacial Termination with a warming climate

Author

Segato, Delia, Saiz-Lopez, Alfonso, Mahajan, Anoop Sharad, Wang, Feiyue, Corella, Juan Pablo, Cuevas, Carlos Alberto, Erhardt, Tobias, Jensen, Camilla Marie, Zeppenfeld, Chantal, Kjaer, Helle Astrid, Turetta, Clara, Cairns, Warren Raymond Lee, Barbante, Carlo, Spolaor, Andrea, Segato, Delia, Saiz-Lopez, Alfonso, Mahajan, Anoop Sharad, Wang, Feiyue, Corella, Juan Pablo, Cuevas, Carlos Alberto, Erhardt, Tobias, Jensen, Camilla Marie, Zeppenfeld, Chantal, Kjaer, Helle Astrid, Turetta, Clara, Cairns, Warren Raymond Lee, Barbante, Carlo, and Spolaor, Andrea

Abstract

Mercury deposition onto the Greenland Ice Sheet increased from the Last Glacial Termination to early Holocene as the North Atlantic warmed and sea ice retreated, according to an ice-core mercury record and atmospheric chemistry modelling.Mercury is a pollutant of global concern, especially in the Arctic, where high levels are found in biota despite its remote location. Mercury is transported to the Arctic via atmospheric, oceanic and riverine long-range pathways, where it accumulates in aquatic and terrestrial ecosystems. While present-day mercury deposition in the Arctic from natural and anthropogenic emissions is extensively studied, the control of past climate changes on natural mercury variability remains unknown. Here we present an Arctic mercury record covering the Last Glacial Termination to the early Holocene epoch (15.7-9.0 thousand years before 2000 ce), collected as part of the East Greenland Ice-Core Project. We find a threefold increase in mercury depositional fluxes from the Last Glacial Termination into the early Holocene, which coincided with abrupt regional climate warming. Atmospheric chemistry modelling, combined with available sea-ice proxies, indicates that oceanic mercury evaporation and atmospheric bromine drove the increase in mercury flux during this climatic transition. Our results suggest that environmental changes associated with climate warming may contribute to increasing mercury levels in Arctic ecosystems.

Published
2023

12. High-resolution aerosol data from the top 3.8 kyr of the East Greenland Ice coring Project (EGRIP) ice core

Author

Erhardt, Tobias, Jensen, Camilla Marie, Adolphi, Florian, Kjær, Helle Astrid, Dallmayr, Remi, Twarloh, Birthe, Behrens, Melanie, Hirabayashi, Motohiro, Fukuda, Kaori, Ogata, Jun, Burgay, François, Scoto, Federico, Crotti, Ilaria, Spagnesi, Azzurra, Maffezzoli, Niccoló, Segato, Delia, Paleari, Chiara, Mekhaldi, Florian, Muscheler, Raimund, Darfeuil, Sophie, Fischer, Hubertus, Erhardt, Tobias, Jensen, Camilla Marie, Adolphi, Florian, Kjær, Helle Astrid, Dallmayr, Remi, Twarloh, Birthe, Behrens, Melanie, Hirabayashi, Motohiro, Fukuda, Kaori, Ogata, Jun, Burgay, François, Scoto, Federico, Crotti, Ilaria, Spagnesi, Azzurra, Maffezzoli, Niccoló, Segato, Delia, Paleari, Chiara, Mekhaldi, Florian, Muscheler, Raimund, Darfeuil, Sophie, and Fischer, Hubertus

Published
2023

13. Visual Stratigraphy of the EastGRIP Ice Core - Of the Lost Ice Core Orientation, Deformation Structures, Extreme Warm Events, and Trapped Ancient Air

Author

Westhoff, Julien, Weikusat, Ilka, Blunier, Thomas, Bons, Paul, Dyonisius, Michael, Fain, Xavier, Franke, Steven, Freitag, Johannes, Jansen, Daniela, Kerch, Johanna, Kipfstuhl, Josef, Kjær, Helle Astrid, Martinerie, Patricia, Sinnl, Giulia, Steffensen, Jørgen Peder, Stoll, Nicolas, Svensson, Anders, Vallelonga, Paul, Vinther, Bo, and Dahl-Jensen, Dorthe

Published
2022

15. Nanoplastics measurements in Northern and Southern polar ice

Author

Sub Atmospheric physics and chemistry, Marine and Atmospheric Research, Materić, Dušan, Kjær, Helle Astrid, Vallelonga, Paul, Tison, Jean Louis, Röckmann, Thomas, Holzinger, Rupert, Sub Atmospheric physics and chemistry, Marine and Atmospheric Research, Materić, Dušan, Kjær, Helle Astrid, Vallelonga, Paul, Tison, Jean Louis, Röckmann, Thomas, and Holzinger, Rupert

Published
2022

16. Magnitude, frequency and climate forcing of global volcanism during the last glacial period as seen in Greenland and Antarctic ice cores (60–9 ka)

Author

Lin, Jiamei, Svensson, Anders, Hvidberg, Christine S., Lohmann, Johannes, Kristiansen, Steffen, Dahl-Jensen, Dorthe, Steffensen, Jørgen Peder, Rasmussen, Sune Olander, Cook, Eliza, Kjær, Helle Astrid, Vinther, Bo M., Fischer, Hubertus, Stocker, Thomas, Sigl, Michael, Bigler, Matthias, Severi, Mirko, Traversi, Rita, Mulvaney, Robert, Lin, Jiamei, Svensson, Anders, Hvidberg, Christine S., Lohmann, Johannes, Kristiansen, Steffen, Dahl-Jensen, Dorthe, Steffensen, Jørgen Peder, Rasmussen, Sune Olander, Cook, Eliza, Kjær, Helle Astrid, Vinther, Bo M., Fischer, Hubertus, Stocker, Thomas, Sigl, Michael, Bigler, Matthias, Severi, Mirko, Traversi, Rita, and Mulvaney, Robert

Abstract

Large volcanic eruptions occurring in the last glacial period can be detected by their accompanying sulfuric acid deposition in continuous ice cores. Here we employ continuous sulfate and sulfur records from three Greenland and three Antarctic ice cores to estimate the emission strength, the frequency and the climatic forcing of large volcanic eruptions that occurred during the second half of the last glacial period and the early Holocene, 60–9 kyr before 2000 CE (b2k). Over most of the investigated interval the ice cores are synchronized, making it possible to distinguish large eruptions with a global sulfate distribution from eruptions detectable in one hemisphere only. Due to limited data resolution and large variability in the sulfate background signal, particularly in the Greenland glacial climate, we only list Greenland sulfate depositions larger than 20 kg km−2 and Antarctic sulfate depositions larger than 10 kg km−2. With those restrictions, we identify 1113 volcanic eruptions in Greenland and 737 eruptions in Antarctica within the 51 kyr period – for which the sulfate deposition of 85 eruptions is found at both poles (bipolar eruptions). Based on the ratio of Greenland and Antarctic sulfate deposition, we estimate the latitudinal band of the bipolar eruptions and assess their approximate climatic forcing based on established methods. A total of 25 of the identified bipolar eruptions are larger than any volcanic eruption occurring in the last 2500 years, and 69 eruptions are estimated to have larger sulfur emission strengths than the Tambora, Indonesia, eruption (1815 CE). Throughout the investigated period, the frequency of volcanic eruptions is rather constant and comparable to that of recent times. During the deglacial period (16–9 ka b2k), however, there is a notable increase in the frequency of volcanic events recorded in Greenland and an obvious increase in the fraction of very large eruptions. For Antarctica, the deglacial period cannot be distinguish

Published
2022

17. Melt in the Greenland EastGRIP ice core reveals Holocene warm events

Author

Westhoff, Julien, Sinnl, Guilia, Svensson, Anders, Freitag, Johannes, Kjær, Helle Astrid, Vallelonga, Paul, Vinther, B. M., Kipfstuhl, Sepp, Dahl-Jensen, Dorthe, Weikusat, Ilka, Westhoff, Julien, Sinnl, Guilia, Svensson, Anders, Freitag, Johannes, Kjær, Helle Astrid, Vallelonga, Paul, Vinther, B. M., Kipfstuhl, Sepp, Dahl-Jensen, Dorthe, and Weikusat, Ilka

Abstract

We present a record of melt events obtained from the East Greenland Ice Core Project (EastGRIP) ice core in central northeastern Greenland, covering the largest part of the Holocene. The data were acquired visually using an optical dark-field line scanner. We detect and describe melt layers and lenses, seen as bubble-free layers and lenses, throughout the ice above the bubble–clathrate transition. This transition is located at 1150 m depth in the EastGRIP ice core, corresponding to an age of 9720 years b2k. We define the brittle zone in the EastGRIP ice core as that from 650 to 950 m depth, where we count on average more than three core breaks per meter. We analyze melt layer thicknesses, correct for ice thinning, and account for missing layers due to core breaks. Our record of melt events shows a large, distinct peak around 1014 years b2k (986 CE) and a broad peak around 7000 years b2k, corresponding to the Holocene Climatic Optimum. In total, we can identify approximately 831 mm of melt (corrected for thinning) over the past 10 000 years. We find that the melt event from 986 CE is most likely a large rain event similar to that from 2012 CE, and that these two events are unprecedented throughout the Holocene. We also compare the most recent 2500 years to a tree ring composite and find an overlap between melt events and tree ring anomalies indicating warm summers. Considering the ice dynamics of the EastGRIP site resulting from the flow of the Northeast Greenland Ice Stream (NEGIS), we find that summer temperatures must have been at least 3 ± 0.6 ∘C warmer during the Early Holocene compared to today.

Published
2022

18. Sea ice fluctuations in the Baffin Bay and the Labrador Sea during glacial abrupt climate changes

Author

European Commission, National Science Foundation (US), Fonds de La Recherche Scientifique (Belgique), Research Foundation - Flanders, National Research Council of Canada, Chinese Academy of Sciences, Innovation Fund Denmark, Institut Polaire Français Paul Emile Victor, Centre National de la Recherche Scientifique (France), Commissariat à l'Ènergie Atomique et aux Ènergies Alternatives (France), Agence Nationale de la Recherche (France), Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research (Germany), Icelandic Centre for Research, National Institute of Polar Research (Japan), Korea Polar Research Institute, Dutch Research Council, Swedish Research Council, Swiss National Science Foundation, Natural Environment Research Council (UK), Scoto, Federico, Sadatzki, Henrik, Maffezzoli, Niccolò, Barbante, Carlo, Gagliardi, Alessandro, Varin, Cristiano, Vallelonga, Paul, Gkinis, Vasileios, Dahl-Jensen, Dorthe, Kjær, Helle Astrid, Burgay, François, Saiz-Lopez, A., Stein, Ruediger, Spolaor, Andrea, European Commission, National Science Foundation (US), Fonds de La Recherche Scientifique (Belgique), Research Foundation - Flanders, National Research Council of Canada, Chinese Academy of Sciences, Innovation Fund Denmark, Institut Polaire Français Paul Emile Victor, Centre National de la Recherche Scientifique (France), Commissariat à l'Ènergie Atomique et aux Ènergies Alternatives (France), Agence Nationale de la Recherche (France), Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research (Germany), Icelandic Centre for Research, National Institute of Polar Research (Japan), Korea Polar Research Institute, Dutch Research Council, Swedish Research Council, Swiss National Science Foundation, Natural Environment Research Council (UK), Scoto, Federico, Sadatzki, Henrik, Maffezzoli, Niccolò, Barbante, Carlo, Gagliardi, Alessandro, Varin, Cristiano, Vallelonga, Paul, Gkinis, Vasileios, Dahl-Jensen, Dorthe, Kjær, Helle Astrid, Burgay, François, Saiz-Lopez, A., Stein, Ruediger, and Spolaor, Andrea

Abstract

Sea ice decline in the North Atlantic and Nordic Seas has been proposed to contribute to the repeated abrupt atmospheric warmings recorded in Greenland ice cores during the last glacial period, known as Dansgaard-Oeschger (D-O) events. However, the understanding of how sea ice changes were coupled with abrupt climate changes during D-O events has remained incomplete due to a lack of suitable high-resolution sea ice proxy records from northwestern North Atlantic regions. Here, we present a subdecadal-scale bromine enrichment (Brenr) record from the NEEM ice core (Northwest Greenland) and sediment core biomarker records to reconstruct the variability of seasonal sea ice in the Baffin Bay and Labrador Sea over a suite of D-O events between 34 and 42 ka. Our results reveal repeated shifts between stable, multiyear sea ice (MYSI) conditions during cold stadials and unstable, seasonal sea ice conditions during warmer interstadials. The shift from stadial to interstadial sea ice conditions occurred rapidly and synchronously with the atmospheric warming over Greenland, while the amplitude of high-frequency sea ice fluctuations increased through interstadials. Our findings suggest that the rapid replacement of widespread MYSI with seasonal sea ice amplified the abrupt climate warming over the course of D-O events and highlight the role of feedbacks associated with late-interstadial seasonal sea ice expansion in driving the North Atlantic ocean-climate system back to stadial conditions.

Published
2022

19. Canadian forest fires, Icelandic volcanoes and increased local dust observed in six shallow Greenland firn cores

Author

Kjaer, Helle Astrid, Zens, Patrick, Black, Samuel, Lund, Kasper Holst, Svensson, Anders, Vallelonga, Paul, Kjaer, Helle Astrid, Zens, Patrick, Black, Samuel, Lund, Kasper Holst, Svensson, Anders, and Vallelonga, Paul

Abstract

Greenland ice cores provide information about past climate. Few impurity records covering the past 2 decades exist from Greenland. Here we present results from six firn cores obtained during a 426 km long northern Greenland traverse made in 2015 between the NEEM and the EGRIP deep-drilling stations situated on the western side and eastern side of the Greenland ice sheet, respectively. The cores (9 to 14 m long) are analyzed for chemical impurities and cover time spans of 18 to 53 years (+/- 3 years) depending on local snow accumulation that decreases from west to east.The high temporal resolution allows for annual layers and seasons to be resolved. Insoluble dust, ammonium, and calcium concentrations in the six firn cores overlap, and the seasonal cycles are also similar in timing and magnitude across sites, while peroxide (H2O2) and conductivity both have spatial variations, H2O2 driven by the accumulation pattern, and conductivity likely influenced by sea salt.Overall, we determine a rather constant dust flux over the period, but in the data from recent years (1998-2015) we identify an increase in large dust particles that we ascribe to an activation of local Greenland sources. We observe an expected increase in acidity and conductivity in the mid-1970s as a result of anthropogenic emissions, followed by a decrease due to mitigation. Several volcanic horizons identified in the conductivity and acidity records can be associated with eruptions in Iceland and in the Barents Sea region. From a composite ammonium record we obtain a robust forest fire proxy associated primarily with Canadian forest fires (R = 0.49).

Published
2022

22. Magnitude, frequency and climate forcing of global volcanism during the last glacial period as seen in Greenland and Antarctic ice cores (60–9 ka)

Author

Lin, Jiamei, primary, Svensson, Anders, additional, Hvidberg, Christine S., additional, Lohmann, Johannes, additional, Kristiansen, Steffen, additional, Dahl-Jensen, Dorthe, additional, Steffensen, Jørgen Peder, additional, Rasmussen, Sune Olander, additional, Cook, Eliza, additional, Kjær, Helle Astrid, additional, Vinther, Bo M., additional, Fischer, Hubertus, additional, Stocker, Thomas, additional, Sigl, Michael, additional, Bigler, Matthias, additional, Severi, Mirko, additional, Traversi, Rita, additional, and Mulvaney, Robert, additional

Published
2022
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26. Five thousand years of fire history in the high North Atlantic region: natural variability and ancient human forcing

Author

Segato, Delia, primary, Villoslada Hidalgo, Maria Del Carmen, additional, Edwards, Ross, additional, Barbaro, Elena, additional, Vallelonga, Paul, additional, Kjær, Helle Astrid, additional, Simonsen, Marius, additional, Vinther, Bo, additional, Maffezzoli, Niccolò, additional, Zangrando, Roberta, additional, Turetta, Clara, additional, Battistel, Dario, additional, Vésteinsson, Orri, additional, Barbante, Carlo, additional, and Spolaor, Andrea, additional

Published
2021
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27. A portable lightweight in situ analysis (LISA) box for ice and snow analysis

Author

Kjær, Helle Astrid, Lolk Hauge, Lisa, Simonsen, Marius, Yoldi, Zurine, Koldtoft, Iben, Hörhold, Maria, Freitag, Johannes, Kipfstuhl, Sepp, Svensson, Anders, Vallelonga, Paul, Kjær, Helle Astrid, Lolk Hauge, Lisa, Simonsen, Marius, Yoldi, Zurine, Koldtoft, Iben, Hörhold, Maria, Freitag, Johannes, Kipfstuhl, Sepp, Svensson, Anders, and Vallelonga, Paul

Abstract

There are enormous costs involved in transporting snow and ice samples to home laboratories for “simple” analyses in order to constrain annual layer thicknesses and identify accumulation rates of specific sites. It is well known that depositional noise, incurred from factors such as wind drifts, seasonally biased deposition and melt layers can influence individual snow and firn records and that multiple cores are required to produce statistically robust time series. Thus, at many sites, core samples are measured in the field for densification, but the annual accumulation and the content of chemical impurities are often represented by just one core to reduce transport costs. We have developed a portable “lightweight in situ analysis” (LISA) box for ice, firn and snow analysis that is capable of constraining annual layers through the continuous flow analysis of meltwater conductivity and hydrogen peroxide under field conditions. The box can run using a small gasoline generator and weighs less than 50 kg. The LISA box was tested under field conditions at the East Greenland Ice-core Project (EastGRIP) deep ice core drilling site in northern Greenland. Analysis of the top 2 m of snow from seven sites in northern Greenland allowed the reconstruction of regional snow accumulation patterns for the 2015–2018 period (summer to summer).

Published
2021

28. An age scale for the first shallow (sub-)Antarctic ice core from Young Island, Northwest Ross Sea

Author

Moser, Dorothea Elisabeth, Jackson, Sarah, Kjær, Helle Astrid, Markle, Bradley, Ngoumtsa, Estelle, Pedro, Joel B., Segato, Delia, Spolaor, andrea, Tetzner, Dieter, Vallelonga, Paul, Thomas, Elizabeth R., Moser, Dorothea Elisabeth, Jackson, Sarah, Kjær, Helle Astrid, Markle, Bradley, Ngoumtsa, Estelle, Pedro, Joel B., Segato, Delia, Spolaor, andrea, Tetzner, Dieter, Vallelonga, Paul, and Thomas, Elizabeth R.

Abstract

The climate of the sub-Antarctic is important in understanding the environmental conditions of Antarctica and the Southern Ocean. However, regional climate proxy records from this region are scarce. In this study, we present the stable water isotopes, major ion chemistry, and dust records from the first ice core from the (sub-)Antarctic Young Island. We present and discuss various dating approaches based on commonly used ice core proxies, such as stable water isotopes and seasonally deposited ions, together with site-specific characteristics such as melt layers. The dating approaches are compared with estimated precipitation rates from reanalysis data (ERA5) and volcanic cryptotephra shards likely presenting an absolute tie point from a 2001 CE eruption on neighboring Sturge Island. The resulting ice core age scale spans the period 2016 to 1995, with an uncertainty of ±2 years.

Published
2021

29. Sea ice in the northern North Atlantic through the Holocene:Evidence from ice cores and marine sediment records

Author

Maffezzoli, Niccolo, Risebrobakken, Bjorg, Miles, Martin W., Vallelonga, Paul, Berben, Sarah M. P., Scoto, Federico, Edwards, Ross, Kjaer, Helle Astrid, Sadatzki, Henrik, Saiz-Lopez, Alfonso, Turetta, Clara, Barbante, Carlo, Vinther, Bo, Spolaor, Andrea, Maffezzoli, Niccolo, Risebrobakken, Bjorg, Miles, Martin W., Vallelonga, Paul, Berben, Sarah M. P., Scoto, Federico, Edwards, Ross, Kjaer, Helle Astrid, Sadatzki, Henrik, Saiz-Lopez, Alfonso, Turetta, Clara, Barbante, Carlo, Vinther, Bo, and Spolaor, Andrea

Abstract

Sea ice plays a pivotal role in Earth's climate and its past reconstruction is crucial to investigate the connections and feedbacks with the other components of the climate system. Among the available archives that store information of past sea ice are marine and ice cores. Recent studies on the IP 25 biomarker extracted from marine sediments has shown great skill to infer past changes of Arctic sea ice. In ice matrixes, sodium, bromine and iodine have shown potential to store the fingerprint of sea ice presence. The development of an unambiguous sea ice proxy from ice cores, however, has proven to be a challenging task especially in the Arctic realm.In this work we analyze the sodium, bromine and iodine records in the RECAP ice core, coastal eastern Greenland, to investigate the sea ice variability in the northern North Atlantic Ocean through the last 11,000 years of the current interglacial, i.e. the Holocene. We compare the RECAP records with marine sea ice proxy records available from the northern North Atlantic.We suggest that RECAP sodium concentrations can be associated with variability of sea ice extent, while the bromine-to-sodium ratios and iodine are associated respectively with seasonal sea ice and bioproductivity from open ocean and fresh sea ice surfaces.According to our interpretation, we find that sea ice was at its lowest extent and seasonal in nature during the early Holocene in all regions of the North Atlantic. Increasing sea ice signals are seen from ca. 8-9 ka b2k, in line with long-term Holocene cooling. The increasing sea ice trend appears uninterrupted in the Fram Strait and North Iceland while reaching a maximum ca. 5 ka b2k in the East Greenland region. Sea ice modifications during the last 5000 years display great variability in East Greenland with intermediate conditions between the early and mid Holocene, possibly associated with local fjord dynamics. The last sea ice maximum was reached across all regions 1000 y

Published
2021

30. Sea-ice reconstructions from bromine and iodine in ice cores

Author

Vallelonga, Paul, Maffezzoli, Niccolo, Saiz-Lopez, Alfonso, Scoto, Federico, Kjaer, Helle Astrid, Spolaor, Andrea, Vallelonga, Paul, Maffezzoli, Niccolo, Saiz-Lopez, Alfonso, Scoto, Federico, Kjaer, Helle Astrid, and Spolaor, Andrea

Abstract

As the intricacies of paleoclimate dynamics are explored, it is becoming understood that sea-ice variability can instigate, or contribute to, climate change instabilities commonly described as "tipping points". Compared to ice sheets and circulating ocean currents, sea-ice is ephemeral and continentalscale changes to sea ice cover occur seasonally. Sea-ice greatly influences polar albedo, atmosphere-ocean gas exchange and vertical mixing of polar ocean masses. Major changes in sea ice distribution and thickness have been invoked as drivers of deglaciations as well as stadial climate variability described in Greenland climate records as "Dansgaard-Oeschger" cycles and described in Antarctic climate records as "Antarctic Isotopic Maxima".The role of halogens in polar atmospheric chemistry has been studied intensively over the past few decades. This research has been driven by the role of bromine, primarily as gas-phase bromine monoxide (BrO), which exerts a key control on polar tropospheric ozone concentrations. Initial findings led to the discovery of boundary-layer self-catalyzing heterogeneous bromine reactions fed by sunlight and ozone, known as bromine explosions. First-year sea-ice and blowing snow have been identified as key components for this heterogeneous bromine recycling in the polar boundary layer. This understanding of polar halogen chemistry - supported by an expanding body of observations and modeling - has formed the basis for investigating quantitative links between halogen concentrations in the polar atmospheric boundary layer and sea-ice presence and/or extent.Despite the clear importance of sea-ice in paleoclimate research, the ice core community lacks a conservative and quantitative proxy for sea-ice extent. The most commonly applied proxy, methanesulphonic acid (MSA), is volatile and has not been demonstrated reliably for ice core records extending beyond the last few centuries. Sodium has also been applied to reconstruct sea-ic

Published
2021

31. Five thousand years of fire history in the high North Atlantic region:natural variability and ancient human forcing

Author

Segato, Delia, Villoslada Hidalgo, Maria Del Carmen, Edwards, Ross, Barbaro, Elena, Vallelonga, Paul, Kjaer, Helle Astrid, Simonsen, Marius, Vinther, Bo, Maffezzoli, Niccolo, Zangrando, Roberta, Turetta, Clara, Battistel, Dario, Vesteinsson, Orri, Barbante, Carlo, Spolaor, Andrea, Segato, Delia, Villoslada Hidalgo, Maria Del Carmen, Edwards, Ross, Barbaro, Elena, Vallelonga, Paul, Kjaer, Helle Astrid, Simonsen, Marius, Vinther, Bo, Maffezzoli, Niccolo, Zangrando, Roberta, Turetta, Clara, Battistel, Dario, Vesteinsson, Orri, Barbante, Carlo, and Spolaor, Andrea

Abstract

Biomass burning influences global atmospheric chemistry by releasing greenhouse gases and climate-forcing aerosols. There is controversy about the magnitude and timing of Holocene changes in biomass burning emissions from millennial to centennial timescales and, in particular, about the possible impact of ancient civilizations. Here we present a 5 kyr record of fire activity proxies levoglucosan, black carbon, and ammonium measured in the RECAP (Renland ice cap) ice core, drilled in coastal eastern Greenland, and therefore affected by processes occurring in the high North Atlantic region. Levoglucosan and ammonium fluxes are high from 5 to 4.5 kyr BP (thousand years before 2000 CE) followed by an abrupt decline, possibly due to monotonic decline in Northern Hemisphere summer insolation. Levoglucosan and black carbon show an abrupt decline at 1.1 kyr BP, suggesting a decline in the wildfire regime in Iceland due to the extensive land clearing caused by Viking colonizers. All fire proxies reach a minimum during the second half of the last century, after which levoglucosan and ammonium fluxes increase again, in particular over the last 200 years. We find that the fire regime reconstructed from RECAP fluxes seems mainly related to climatic changes; however over the last mil-lennium human activities might have influenced wildfire frequency/occurrence substantially.

Published
2021

32. Continuous flow analysis of the Mount Brown South ice core

Author

Harlan, Margaret, Kjær, Helle Astrid, Vance, Tessa, Vallelonga, Paul, Gkinis, Vasileios, Blunier, Thomas, Svensson, Anders, Moy, Andrew, Plummer, Chris, Jackson, Sarah, Peensoo, Kerttu, Campo, Aylin de, Harlan, Margaret, Kjær, Helle Astrid, Vance, Tessa, Vallelonga, Paul, Gkinis, Vasileios, Blunier, Thomas, Svensson, Anders, Moy, Andrew, Plummer, Chris, Jackson, Sarah, Peensoo, Kerttu, and Campo, Aylin de

Published
2021

33. Melt in the Greenland EastGRIP ice core reveals Holocene warming events

Author

Westhoff, Julien, Sinnl, Giulia, Svensson, Anders, Freitag, Johannes, Kjær, Helle Astrid, Vallelonga, Paul, Vinther, Bo, Kipfstuhl, Sepp, Dahl-Jensen, Dorthe, Weikusat, Ilka, Westhoff, Julien, Sinnl, Giulia, Svensson, Anders, Freitag, Johannes, Kjær, Helle Astrid, Vallelonga, Paul, Vinther, Bo, Kipfstuhl, Sepp, Dahl-Jensen, Dorthe, and Weikusat, Ilka

Published
2021

34. Forty years later:High resolution continuous flow analysis of the Dye3 ice core

Author

Kjær, Helle Astrid, Harlan, Margaret, Vallelonga, Paul, Svensson, Anders, Blunier, Thomas, Sowers, Todd, Menking, James Andrew, Campo, Aylin de, Venkatesh, Janani, Liisberg, Jesper, Soestmeyer, David, Morris, Valerie, Vaughn, Bruce, Vinther, Bo, Kjær, Helle Astrid, Harlan, Margaret, Vallelonga, Paul, Svensson, Anders, Blunier, Thomas, Sowers, Todd, Menking, James Andrew, Campo, Aylin de, Venkatesh, Janani, Liisberg, Jesper, Soestmeyer, David, Morris, Valerie, Vaughn, Bruce, and Vinther, Bo

Published
2021

35. Magnitude, frequency and climate forcing of global volcanism during the last glacial period as seen in Greenland and Antarctic ice cores (60–9 ka)

Author

Lin, Jiamei, Svensson, Anders, Hvidberg, Christine S., Lohmann, Johannes, Kristiansen, Steffen, Dahl-Jensen, Dorthe, Steffensen, Jørgen Peder, Rasmussen, Sune Olander, Cook, Eliza, Kjær, Helle Astrid, Vinther, Bo M., Fischer, Hubertus, Stocker, Thomas, Sigl, Michael, Bigler, Matthias, Severi, Mirko, Traversi, Rita, Mulvaney, Robert, Lin, Jiamei, Svensson, Anders, Hvidberg, Christine S., Lohmann, Johannes, Kristiansen, Steffen, Dahl-Jensen, Dorthe, Steffensen, Jørgen Peder, Rasmussen, Sune Olander, Cook, Eliza, Kjær, Helle Astrid, Vinther, Bo M., Fischer, Hubertus, Stocker, Thomas, Sigl, Michael, Bigler, Matthias, Severi, Mirko, Traversi, Rita, and Mulvaney, Robert

Published
2021

37. A first chronology for the East Greenland Ice-core Project (EGRIP) over the Holocene and last glacial termination

Author

Mojtabavi, Seyedhamidreza, primary, Wilhelms, Frank, additional, Cook, Eliza, additional, Davies, Siwan M., additional, Sinnl, Giulia, additional, Skov Jensen, Mathias, additional, Dahl-Jensen, Dorthe, additional, Svensson, Anders, additional, Vinther, Bo M., additional, Kipfstuhl, Sepp, additional, Jones, Gwydion, additional, Karlsson, Nanna B., additional, Faria, Sergio Henrique, additional, Gkinis, Vasileios, additional, Kjær, Helle Astrid, additional, Erhardt, Tobias, additional, Berben, Sarah M. P., additional, Nisancioglu, Kerim H., additional, Koldtoft, Iben, additional, and Rasmussen, Sune Olander, additional

Published
2020
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38. Surface velocity of the Northeast Greenland Ice Stream (NEGIS): assessment of interior velocities derived from satellite data by GPS

Author

Hvidberg, Christine S., primary, Grinsted, Aslak, additional, Dahl-Jensen, Dorthe, additional, Khan, Shfaqat Abbas, additional, Kusk, Anders, additional, Andersen, Jonas Kvist, additional, Neckel, Niklas, additional, Solgaard, Anne, additional, Karlsson, Nanna B., additional, Kjær, Helle Astrid, additional, and Vallelonga, Paul, additional

Published
2020
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39. Bipolar volcanic synchronization of abrupt climate change in Greenland and Antarctic ice cores during the last glacial period

Author

Svensson, Anders, primary, Dahl-Jensen, Dorthe, additional, Steffensen, Jørgen Peder, additional, Blunier, Thomas, additional, Rasmussen, Sune O., additional, Vinther, Bo M., additional, Vallelonga, Paul, additional, Capron, Emilie, additional, Gkinis, Vasileios, additional, Cook, Eliza, additional, Kjær, Helle Astrid, additional, Muscheler, Raimund, additional, Kipfstuhl, Sepp, additional, Wilhelms, Frank, additional, Stocker, Thomas F., additional, Fischer, Hubertus, additional, Adolphi, Florian, additional, Erhardt, Tobias, additional, Sigl, Michael, additional, Landais, Amaelle, additional, Parrenin, Frédéric, additional, Buizert, Christo, additional, McConnell, Joseph R., additional, Severi, Mirko, additional, Mulvaney, Robert, additional, and Bigler, Matthias, additional

Published
2020
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40. Bipolar volcanic synchronization of abrupt climate change in Greenland and Antarctic ice cores during the last glacial period

Author

Svensson, Anders, Dahl-Jensen, Dorthe, Steffensen, Jørgen Peder, Blunier, Thomas, Rasmussen, Sune O., Vinther, Bo M., Vallelonga, Paul, Capron, Emilie, Gkinis, Vasileios, Cook, Eliza, Kjær, Helle Astrid, Muscheler, Raimund, Kipfstuhl, Sepp, Wilhelms, Frank, Stocker, Thomas F., Fischer, Hubertus, Adolphi, Florian, Erhardt, Tobias, Sigl, Michael, Landais, Amaelle, Parrenin, Frédéric, Buizert, Christo, McConnell, Joseph R., Severi, Mirko, Mulvaney, Robert, Bigler, Matthias, Svensson, Anders, Dahl-Jensen, Dorthe, Steffensen, Jørgen Peder, Blunier, Thomas, Rasmussen, Sune O., Vinther, Bo M., Vallelonga, Paul, Capron, Emilie, Gkinis, Vasileios, Cook, Eliza, Kjær, Helle Astrid, Muscheler, Raimund, Kipfstuhl, Sepp, Wilhelms, Frank, Stocker, Thomas F., Fischer, Hubertus, Adolphi, Florian, Erhardt, Tobias, Sigl, Michael, Landais, Amaelle, Parrenin, Frédéric, Buizert, Christo, McConnell, Joseph R., Severi, Mirko, Mulvaney, Robert, and Bigler, Matthias

Abstract

The last glacial period is characterized by a number of millennial climate events that have been identified in both Greenland and Antarctic ice cores and that are abrupt in Greenland climate records. The mechanisms governing this climate variability remain a puzzle that requires a precise synchronization of ice cores from the two hemispheres to be resolved. Previously, Greenland and Antarctic ice cores have been synchronized primarily via their common records of gas concentrations or isotopes from the trapped air and via cosmogenic isotopes measured on the ice. In this work, we apply ice core volcanic proxies and annual layer counting to identify large volcanic eruptions that have left a signature in both Greenland and Antarctica. Generally, no tephra is associated with those eruptions in the ice cores, so the source of the eruptions cannot be identified. Instead, we identify and match sequences of volcanic eruptions with bipolar distribution of sulfate, i.e. unique patterns of volcanic events separated by the same number of years at the two poles. Using this approach, we pinpoint 82 large bipolar volcanic eruptions throughout the second half of the last glacial period (12-60 ka). This improved ice core synchronization is applied to determine the bipolar phasing of abrupt climate change events at decadal-scale precision. In response to Greenland abrupt climatic transitions, we find a response in the Antarctic water isotope signals (delta O-18 and deuterium excess) that is both more immediate and more abrupt than that found with previous gas-based interpolar synchronizations, providing additional support for our volcanic framework. On average, the Antarctic bipolar seesaw climate response lags the midpoint of Greenland abrupt delta O-18 transitions by 122 +/- 24 years. The time difference between Antarctic signals in deuterium excess and delta O-18, which likewise informs the time needed to propagate the signal as described by the theory of the bipolar seesaw but is

Published
2020

41. Supplementary material to 'Bipolar volcanic synchronization of abrupt climate change in Greenland and Antarctic ice cores during the last glacial period'

Author

Svensson, Anders, Dahl-Jensen, Dorthe, Steffensen, Jørgen Peder, Blunier, Thomas, Rasmussen, Sune O., Vinther, Bo M., Vallelonga, Paul, Capron, Emilie, Gkinis, Vasileios, Cook, Eliza, Kjær, Helle Astrid, Muscheler, Raimund, Kipfstuhl, Sepp, Wilhelms, Frank, Stocker, Thomas F., Fischer, Hubertus, Adolphi, Florian, Erhardt, Tobias, Sigl, Michael, Landais, Amaelle, Parrenin, Frédéric, Buizert, Christo, McConnell, Joseph R., Severi, Mirko, Mulvaney, Robert, Bigler, Matthias, Svensson, Anders, Dahl-Jensen, Dorthe, Steffensen, Jørgen Peder, Blunier, Thomas, Rasmussen, Sune O., Vinther, Bo M., Vallelonga, Paul, Capron, Emilie, Gkinis, Vasileios, Cook, Eliza, Kjær, Helle Astrid, Muscheler, Raimund, Kipfstuhl, Sepp, Wilhelms, Frank, Stocker, Thomas F., Fischer, Hubertus, Adolphi, Florian, Erhardt, Tobias, Sigl, Michael, Landais, Amaelle, Parrenin, Frédéric, Buizert, Christo, McConnell, Joseph R., Severi, Mirko, Mulvaney, Robert, and Bigler, Matthias

Published
2020

42. New data from the 40 year old Dye3 core

Author

Blunier, Thomas, Venkatesh, Janani, Soestmeyer, David Aaron, Liisberg, Jesper Baldtzer, Rhodes, Rachael, Menking, James Andrew, Severinghaus, Jeffrey P., Harlan, Meg, Kjær, Helle Astrid, Vallelonga, Paul, Blunier, Thomas, Venkatesh, Janani, Soestmeyer, David Aaron, Liisberg, Jesper Baldtzer, Rhodes, Rachael, Menking, James Andrew, Severinghaus, Jeffrey P., Harlan, Meg, Kjær, Helle Astrid, and Vallelonga, Paul

Published
2020

43. A first chronology for the East Greenland Ice-core Project (EGRIP) over the Holocene and last glacial termination

Author

Mojtabavi, Seyedhamidreza, Wilhelms, Frank, Cook, Eliza, Siwan M., Davis, Sinnl, Giulia, Skov Jensen, Mathias, Dahl-Jensen, Dorthe, Svensson, Anders, Vinther, Bo Møllesøe, Kipfstuhl, Sepp, Gwydion, Jones, Karlsson, Nanna Bjørnholt, Henrique Faria, Sergio, Gkinis, Vasileios, Kjær, Helle Astrid, Erhardt, Tobias, Berben, Sarah M. P., Nisancioglu, Kerim H., Koldtoft, Iben, Rasmussen, Sune Olander, Mojtabavi, Seyedhamidreza, Wilhelms, Frank, Cook, Eliza, Siwan M., Davis, Sinnl, Giulia, Skov Jensen, Mathias, Dahl-Jensen, Dorthe, Svensson, Anders, Vinther, Bo Møllesøe, Kipfstuhl, Sepp, Gwydion, Jones, Karlsson, Nanna Bjørnholt, Henrique Faria, Sergio, Gkinis, Vasileios, Kjær, Helle Astrid, Erhardt, Tobias, Berben, Sarah M. P., Nisancioglu, Kerim H., Koldtoft, Iben, and Rasmussen, Sune Olander

Published
2020

44. Surface velocity of the Northeast Greenland Ice Stream (NEGIS):assessment of interior velocities derived from satellite data by GPS

Author

Hvidberg, Christine S., Grinsted, Aslak, Dahl-Jensen, Dorthe, Khan, Shfaqat Abbas, Kusk, Anders, Andersen, Jonas Kvist, Neckel, Niklas, Solgaard, Anne, Karlsson, Nanna B., Kjaer, Helle Astrid, Vallelonga, Paul, Hvidberg, Christine S., Grinsted, Aslak, Dahl-Jensen, Dorthe, Khan, Shfaqat Abbas, Kusk, Anders, Andersen, Jonas Kvist, Neckel, Niklas, Solgaard, Anne, Karlsson, Nanna B., Kjaer, Helle Astrid, and Vallelonga, Paul

Abstract

The Northeast Greenland Ice Stream (NEGIS) extends around 600 km upstream from the coast to its onset near the ice divide in interior Greenland. Several maps of surface velocity and topography of interior Greenland exist, but their accuracy is not well constrained by in situ observations. Here we present the results from a GPS mapping of surface velocity in an area located approximately 150 km from the ice divide near the East Greenland Ice-core Project (EastGRIP) deep-drilling site. A GPS strain net consisting of 63 poles was established and observed over the years 2015-2019. The strain net covers an area of 35 km by 40 km, including both shear margins. The ice flows with a uniform surface speed of approximately 55 m a(-1) within a central flow band with longitudinal and transverse strain rates on the order of 10(-4) a(-1) and increasing by an order of magnitude in the shear margins. We compare the GPS results to the Arctic Digital Elevation Model and a list of satellite-derived surface velocity products in order to evaluate these products. For each velocity product, we determine the bias in and precision of the velocity compared to the GPS observations, as well as the smoothing of the velocity products needed to obtain optimal precision. The best products have a bias and a precision of similar to 0.5 m a(-1). We combine the GPS results with satellite-derived products and show that organized patterns in flow and topography emerge in NEGIS when the surface velocity exceeds approximately 55 m a(-1) and are related to bedrock topography.

Published
2020

46. A novel approach to process brittle ice for continuous flow analysis of stable water isotopes

Author

Pyne, Rebecca L., Keller, Elizabith D., Canessa, Silvia, Bertler, Nancy A., Pyne, Alex R., Mandeno, Darcy, Vallelonga, Paul Travis, Semper, Stefanie, Kjær, Helle Astrid, Hutchison, Ed, and Baisden, W. Troy

Subjects
010504 meteorology & atmospheric sciences, Isotope, Continuous flow, Mineralogy, Drilling, 010501 environmental sciences, Climate history, 01 natural sciences, Brittleness, Ice core, Scientific method, Paleoclimatology, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes
Abstract

Brittle ice, which occurs in all intermediate-depth and deep ice cores retrieved from high-latitude regions, presents a challenge for high-resolution measurements of water isotopes, gases, ions and other quantities conducted with continuous flow analysis (CFA). We present a novel method of preserving brittle ice for CFA stable water isotope measurements using data from a new ice core recovered by the Roosevelt Island Climate Evolution (RICE) project. Modest modification of the drilling technique and the accommodation of non-horizontal fractures (‘slanted breaks’) in processing led to a substantial improvement in the percentage of brittle ice analyzed with CFA (87.8%). Whereas traditional processing methods remove entire fragmented pieces of ice, our method allowed the incorporation of a total of 3 m of ice (1% of the 261 m of brittle ice and ~1300 years of climate history) that otherwise would not have been available for CFA. Using the RICE stable water isotope CFA dataset, we demonstrate the effect of slanted breaks and analyze the resulting smoothing of the data with real and simulated examples. Our results suggest that retaining slanted breaks are a promising technique for preserving brittle ice material for CFA stable water isotope measurements.

Published
2018
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47. A 120 000-year record of sea ice in the North Atlantic?

Author

Maffezzoli, Niccolò, primary, Vallelonga, Paul, additional, Edwards, Ross, additional, Saiz-Lopez, Alfonso, additional, Turetta, Clara, additional, Kjær, Helle Astrid, additional, Barbante, Carlo, additional, Vinther, Bo, additional, and Spolaor, Andrea, additional

Published
2019
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48. Holocene atmospheric iodine evolution over the North Atlantic

Author

Corella, Juan Pablo, primary, Maffezzoli, Niccolo, additional, Cuevas, Carlos Alberto, additional, Vallelonga, Paul, additional, Spolaor, Andrea, additional, Cozzi, Giulio, additional, Müller, Juliane, additional, Vinther, Bo, additional, Barbante, Carlo, additional, Kjær, Helle Astrid, additional, Edwards, Ross, additional, and Saiz-Lopez, Alfonso, additional

Published
2019
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49. NEEM to EastGRIP Traverse - spatial variability, seasonality, extreme events and trends in common ice core proxies over the past decades.

Author

Kjær, Helle Astrid, Zens, Patrick, Black, Samuel, Lund, Kasper Holst, Svensson, Anders, and Vallelonga, Paul

Abstract

Greenland ice cores provide information about past climate. However, the number of firn and ice cores from Greenland are limited and thus the spatial variability of the chemical impurities used as proxies is largely unconstrained. Furthermore, few impurity records covering the past two decades exist from Greenland. We have by means of Continuous Flow analysis investigated 6 shallow firn cores obtained in Northern Greenland as part of the NEEM to EastGRIP traverse in 2015. The oldest reach back to 1966. The annual mean and quartiles of the insoluble dust, ammonium, and calcium concentrations in the 6 firn cores spanning a distance of 426 km overlap, and also the seasonal cycles have similar peaks in timing and magnitude across sites. Peroxide (H2O2) is accumulation dependent and varies from site to site and conductivity, likely influenced by sea salts, also vary spatially. The temporal variability of the records is further assessed. We find no evidence for increases in total dust concentration, but find an increase in the large dust particle fluxes that we contribute to an activation of Greenland local sources in the recent years (1998-2015). We observe the expected acid and conductivity increase in the mid 70's as a result of anthropogenic contamination and the following decrease due to mitigation. After detrending using the five year average the conductivity and acid records several volcanic horizons were identified and associated with Icelandic eruptions and volcanic eruptions in the Barents sea region. By creating a composite based on excess ammonium compared to the five year running average, we obtain a robust forest fire proxy associated primarily with Canadian forest fires (R=0.51). We also note that the peak ammonium in the individual firn cores appear more scattered between cores than the peak volcanic layers, suggesting that the forest fire signal is more dispersed in the atmosphere than the acid from volcanic eruptions. [ABSTRACT FROM AUTHOR]

Published
2021
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50. Magnitude, frequency and climate forcing of global volcanism during the last glacial period as seen in Greenland and Antarctic ice cores (60-9 ka).

Author

Jiamei Lin, Svensson, Anders, Hvidberg, Christine S., Lohmann, Johannes, Kristiansen, Steffen, Dahl-Jensen, Dorthe, Steffensen, Jørgen P., Rasmussen, Sune O., Cook, Eliza, Kjær, Helle Astrid, Vinther, Bo M., Fischer, Hubertus, Stocker, Thomas, Sigl, Michael, Bigler, Matthias, Severi, Mirko, Traversi, Rita, and Mulvaney, Robert

Abstract

Large volcanic eruptions occurring in the last glacial period can be detected in terms of their deposited sulfuric acid in continuous ice cores. Here we employ continuous sulfate and sulfur records from three Greenland and three Antarctic ice cores to estimate the emission strength, the frequency and the climatic forcing of large volcanic eruptions that occurred during the second half of the last glacial period and the early Holocene, 60-9 ka years before AD 2000 (b2k). The ice cores are synchronized over most of the investigated interval making it possible to distinguish large eruptions with a global sulfate distribution from eruptions detectable in one hemisphere only. Due to limited data resolution and to a large variability in the sulfate background signal, particularly in the Greenland glacial climate, we only detect Greenland sulfate depositions larger than 20 kg km-2 and Antarctic sulfate depositions larger than 10 kg km-2. With those restrictions, we identify 1113 volcanic eruptions in Greenland and 740 eruptions in Antarctica within the 51ka period - where the sulfate deposition of 85 eruptions is defined at both poles (bipolar eruptions). Based on the relative Greenland and Antarctic sulfate deposition, we estimate the latitudinal band of the bipolar eruptions and assess their approximate climatic forcing based on established methods. The climate forcing of the five largest eruptions is estimated to be higher than -70 W m-2. Twenty-seven of the identified bipolar eruptions are larger than any volcanic eruption occurring in the last 2500 years and 69 eruptions are estimated to have larger sulfur emission strengths than the VEI-7 Tambora eruption that occurred in Indonesia in 1815 AD. The frequency of eruptions larger than the typical VEI-7 (VEI-8) eruption by the comparison of sulfur emission strength is found to be 5.3 (7) times higher than estimated from geological evidence. Throughout the investigated period, the frequency of volcanic eruptions is rather constant and comparable to that of recent times. During the deglacial period (16-9 ka b2k), however, there is a notable increase in the frequency of volcanic events recorded in Greenland and an obvious increase in the fraction of very large eruptions. For Antarctica, the deglacial period cannot be distinguished from other periods. These volcanoes documented in ice cores provide atmospheric sulfate burden and climate forcing for further research on climate impact and understanding the mechanism of the Earth system. [ABSTRACT FROM AUTHOR]

Published
2021
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