GLORIA — GEOMAR Library Ocean Research Information Access

1

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Back to the Future: Using Long-Term Observational and Paleo-Proxy Reconstructions to Improve Model Projections of Antarctic Climate

Bracegirdle, Thomas J. ; Colleoni, Florence ; Abram, Nerilie J. ; [weitere]

MDPI AG ; 2019

In: Geosciences Vol. 9, No. 6 ( 2019-06-07), p. 255-

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In: Geosciences, MDPI AG, Vol. 9, No. 6 ( 2019-06-07), p. 255-

Kurzfassung: Quantitative estimates of future Antarctic climate change are derived from numerical global climate models. Evaluation of the reliability of climate model projections involves many lines of evidence on past performance combined with knowledge of the processes that need to be represented. Routine model evaluation is mainly based on the modern observational period, which started with the establishment of a network of Antarctic weather stations in 1957/58. This period is too short to evaluate many fundamental aspects of the Antarctic and Southern Ocean climate system, such as decadal-to-century time-scale climate variability and trends. To help address this gap, we present a new evaluation of potential ways in which long-term observational and paleo-proxy reconstructions may be used, with a particular focus on improving projections. A wide range of data sources and time periods is included, ranging from ship observations of the early 20th century to ice core records spanning hundreds to hundreds of thousands of years to sediment records dating back 34 million years. We conclude that paleo-proxy records and long-term observational datasets are an underused resource in terms of strategies for improving Antarctic climate projections for the 21st century and beyond. We identify priorities and suggest next steps to addressing this.

Materialart: Online-Ressource

ISSN: 2076-3263

URL: Article

DOI: 10.3390/geosciences9060255

Sprache: Englisch

Verlag: MDPI AG

Publikationsdatum: 2019

ZDB Id: 2655946-8

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2

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The Ross Sea Dipole – temperature, snow accumulation and sea ice variability in the Ross Sea region, Antarctica, over the past 2700 years

Bertler, Nancy A. N. ; Conway, Howard ; Dahl-Jensen, Dorthe ; [weitere]

Copernicus GmbH ; 2018

In: Climate of the Past Vol. 14, No. 2 ( 2018-02-21), p. 193-214

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In: Climate of the Past, Copernicus GmbH, Vol. 14, No. 2 ( 2018-02-21), p. 193-214

Kurzfassung: Abstract. High-resolution, well-dated climate archives provide an opportunity to investigate the dynamic interactions of climate patterns relevant for future projections. Here, we present data from a new, annually dated ice core record from the eastern Ross Sea, named the Roosevelt Island Climate Evolution (RICE) ice core. Comparison of this record with climate reanalysis data for the 1979–2012 interval shows that RICE reliably captures temperature and snow precipitation variability in the region. Trends over the past 2700 years in RICE are shown to be distinct from those in West Antarctica and the western Ross Sea captured by other ice cores. For most of this interval, the eastern Ross Sea was warming (or showing isotopic enrichment for other reasons), with increased snow accumulation and perhaps decreased sea ice concentration. However, West Antarctica cooled and the western Ross Sea showed no significant isotope temperature trend. This pattern here is referred to as the Ross Sea Dipole. Notably, during the Little Ice Age, West Antarctica and the western Ross Sea experienced colder than average temperatures, while the eastern Ross Sea underwent a period of warming or increased isotopic enrichment. From the 17th century onwards, this dipole relationship changed. All three regions show current warming, with snow accumulation declining in West Antarctica and the eastern Ross Sea but increasing in the western Ross Sea. We interpret this pattern as reflecting an increase in sea ice in the eastern Ross Sea with perhaps the establishment of a modern Roosevelt Island polynya as a local moisture source for RICE.

Materialart: Online-Ressource

ISSN: 1814-9332

URL: Article

DOI: 10.5194/cp-14-193-2018

DOI: 10.5194/cp-14-193-2018-supplement

Sprache: Englisch

Verlag: Copernicus GmbH

Publikationsdatum: 2018

ZDB Id: 2217985-9

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3

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A 2700-year annual timescale and accumulation history for an ice core from Roosevelt Island, West Antarctica

Winstrup, Mai ; Vallelonga, Paul ; Kjær, Helle A. ; [weitere]

Copernicus GmbH ; 2019

In: Climate of the Past Vol. 15, No. 2 ( 2019-04-10), p. 751-779

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In: Climate of the Past, Copernicus GmbH, Vol. 15, No. 2 ( 2019-04-10), p. 751-779

Kurzfassung: Abstract. We present a 2700-year annually resolved chronology and snow accumulation history for the Roosevelt Island Climate Evolution (RICE) ice core, Ross Ice Shelf, West Antarctica. The core adds information on past accumulation changes in an otherwise poorly constrained sector of Antarctica. The timescale was constructed by identifying annual cycles in high-resolution impurity records, and it constitutes the top part of the Roosevelt Island Ice Core Chronology 2017 (RICE17). Validation by volcanic and methane matching to the WD2014 chronology from the WAIS Divide ice core shows that the two timescales are in excellent agreement. In a companion paper, gas matching to WAIS Divide is used to extend the timescale for the deeper part of the core in which annual layers cannot be identified. Based on the annually resolved timescale, we produced a record of past snow accumulation at Roosevelt Island. The accumulation history shows that Roosevelt Island experienced slightly increasing accumulation rates between 700 BCE and 1300 CE, with an average accumulation of 0.25±0.02 m water equivalent (w.e.) per year. Since 1300 CE, trends in the accumulation rate have been consistently negative, with an acceleration in the rate of decline after the mid-17th century. The current accumulation rate at Roosevelt Island is 0.210±0.002 m w.e. yr−1 (average since 1965 CE, ±2σ), and it is rapidly declining with a trend corresponding to 0.8 mm yr−2. The decline observed since the mid-1960s is 8 times faster than the long-term decreasing trend taking place over the previous centuries, with decadal mean accumulation rates consistently being below average. Previous research has shown a strong link between Roosevelt Island accumulation rates and the location and intensity of the Amundsen Sea Low, which has a significant impact on regional sea-ice extent. The decrease in accumulation rates at Roosevelt Island may therefore be explained in terms of a recent strengthening of the ASL and the expansion of sea ice in the eastern Ross Sea. The start of the rapid decrease in RICE accumulation rates observed in 1965 CE may thus mark the onset of significant increases in regional sea-ice extent.

Materialart: Online-Ressource

ISSN: 1814-9332

URL: Article

DOI: 10.5194/cp-15-751-2019

DOI: 10.5194/cp-15-751-2019-supplement

Sprache: Englisch

Verlag: Copernicus GmbH

Publikationsdatum: 2019

ZDB Id: 2217985-9

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4

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Antarctic climate variability on regional and continental scales over the last 2000 years

Stenni, Barbara ; Curran, Mark A. J. ; Abram, Nerilie J. ; [weitere]

Copernicus GmbH ; 2017

In: Climate of the Past Vol. 13, No. 11 ( 2017-11-17), p. 1609-1634

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In: Climate of the Past, Copernicus GmbH, Vol. 13, No. 11 ( 2017-11-17), p. 1609-1634

Kurzfassung: Abstract. Climate trends in the Antarctic region remain poorly characterized, owing to the brevity and scarcity of direct climate observations and the large magnitude of interannual to decadal-scale climate variability. Here, within the framework of the PAGES Antarctica2k working group, we build an enlarged database of ice core water stable isotope records from Antarctica, consisting of 112 records. We produce both unweighted and weighted isotopic (δ18O) composites and temperature reconstructions since 0 CE, binned at 5- and 10-year resolution, for seven climatically distinct regions covering the Antarctic continent. Following earlier work of the Antarctica2k working group, we also produce composites and reconstructions for the broader regions of East Antarctica, West Antarctica and the whole continent. We use three methods for our temperature reconstructions: (i) a temperature scaling based on the δ18O–temperature relationship output from an ECHAM5-wiso model simulation nudged to ERA-Interim atmospheric reanalyses from 1979 to 2013, and adjusted for the West Antarctic Ice Sheet region to borehole temperature data, (ii) a temperature scaling of the isotopic normalized anomalies to the variance of the regional reanalysis temperature and (iii) a composite-plus-scaling approach used in a previous continent-scale reconstruction of Antarctic temperature since 1 CE but applied to the new Antarctic ice core database. Our new reconstructions confirm a significant cooling trend from 0 to 1900 CE across all Antarctic regions where records extend back into the 1st millennium, with the exception of the Wilkes Land coast and Weddell Sea coast regions. Within this long-term cooling trend from 0 to 1900 CE, we find that the warmest period occurs between 300 and 1000 CE, and the coldest interval occurs from 1200 to 1900 CE. Since 1900 CE, significant warming trends are identified for the West Antarctic Ice Sheet, the Dronning Maud Land coast and the Antarctic Peninsula regions, and these trends are robust across the distribution of records that contribute to the unweighted isotopic composites and also significant in the weighted temperature reconstructions. Only for the Antarctic Peninsula is this most recent century-scale trend unusual in the context of natural variability over the last 2000 years. However, projected warming of the Antarctic continent during the 21st century may soon see significant and unusual warming develop across other parts of the Antarctic continent. The extended Antarctica2k ice core isotope database developed by this working group opens up many avenues for developing a deeper understanding of the response of Antarctic climate to natural and anthropogenic climate forcings. The first long-term quantification of regional climate in Antarctica presented herein is a basis for data–model comparison and assessments of past, present and future driving factors of Antarctic climate.

Materialart: Online-Ressource

ISSN: 1814-9332

URL: Article

DOI: 10.5194/cp-13-1609-2017

DOI: 10.5194/cp-13-1609-2017-supplement

Sprache: Englisch

Verlag: Copernicus GmbH

Publikationsdatum: 2017

ZDB Id: 2217985-9

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5

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The role of Amundsen–Bellingshausen Sea anticyclonic circulation in forcing marine air intrusions into West Antarctica

Emanuelsson, B. Daniel ; Bertler, Nancy A. N. ; Neff, Peter D. ; [weitere]

Springer Science and Business Media LLC ; 2018

In: Climate Dynamics Vol. 51, No. 9-10 ( 2018-11), p. 3579-3596

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In: Climate Dynamics, Springer Science and Business Media LLC, Vol. 51, No. 9-10 ( 2018-11), p. 3579-3596

Materialart: Online-Ressource

ISSN: 0930-7575 , 1432-0894

URL: Article

DOI: 10.1007/s00382-018-4097-3

Sprache: Englisch

Verlag: Springer Science and Business Media LLC

Publikationsdatum: 2018

ZDB Id: 382992-3

ZDB Id: 1471747-5

SSG: 16,13

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6

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

PYNE, REBECCA L. ; KELLER, ELIZABETH D. ; CANESSA, SILVIA ; [weitere]

Cambridge University Press (CUP) ; 2018

In: Journal of Glaciology Vol. 64, No. 244 ( 2018-04), p. 289-299

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In: Journal of Glaciology, Cambridge University Press (CUP), Vol. 64, No. 244 ( 2018-04), p. 289-299

Kurzfassung: 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.

Materialart: Online-Ressource

ISSN: 0022-1430 , 1727-5652

URL: Article

DOI: 10.1017/jog.2018.19

Sprache: Englisch

Verlag: Cambridge University Press (CUP)

Publikationsdatum: 2018

ZDB Id: 2140541-4

SSG: 14

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7

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Deglacial grounding-line retreat in the Ross Embayment, Antarctica, controlled by ocean and atmosphere forcing

Lowry, Daniel P. ; Golledge, Nicholas R. ; Bertler, Nancy A. N. ; [weitere]

American Association for the Advancement of Science (AAAS) ; 2019

In: Science Advances Vol. 5, No. 8 ( 2019-08-02)

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In: Science Advances, American Association for the Advancement of Science (AAAS), Vol. 5, No. 8 ( 2019-08-02)

Kurzfassung: Modern observations appear to link warming oceanic conditions with Antarctic ice sheet grounding-line retreat. Yet, interpretations of past ice sheet retreat over the last deglaciation in the Ross Embayment, Antarctica’s largest catchment, differ considerably and imply either extremely high or very low sensitivity to environmental forcing. To investigate this, we perform regional ice sheet simulations using a wide range of atmosphere and ocean forcings. Constrained by marine and terrestrial geological data, these models predict earliest retreat in the central embayment and rapid terrestrial ice sheet thinning during the Early Holocene. We find that atmospheric conditions early in the deglacial period can enhance or diminish ice sheet sensitivity to rising ocean temperatures, thereby controlling the initial timing and spatial pattern of grounding-line retreat. Through the Holocene, however, grounding-line position is much more sensitive to subshelf melt rates, implicating ocean thermal forcing as the key driver of past ice sheet retreat.

Materialart: Online-Ressource

ISSN: 2375-2548

URL: Article

DOI: 10.1126/sciadv.aav8754

Sprache: Englisch

Verlag: American Association for the Advancement of Science (AAAS)

Publikationsdatum: 2019

ZDB Id: 2810933-8

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8

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Trajectory modeling of modern dust transport to the Southern Ocean and Antarctica

Neff, Peter D. ; Bertler, Nancy A. N.

American Geophysical Union (AGU) ; 2015

In: Journal of Geophysical Research: Atmospheres Vol. 120, No. 18 ( 2015-09-27), p. 9303-9322

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In: Journal of Geophysical Research: Atmospheres, American Geophysical Union (AGU), Vol. 120, No. 18 ( 2015-09-27), p. 9303-9322

Kurzfassung: Dust transport is modeled using 35 years of daily forward trajectories Strongest transport to southern high latitudes is from Patagonia and New Zealand Southward transport modified by both low‐ and high‐latitude climate variability

Materialart: Online-Ressource

ISSN: 2169-897X , 2169-8996

URL: Issue

URL: Article

DOI: 10.1002/jgrd.v120.18

DOI: 10.1002/2015JD023304

Sprache: Englisch

Verlag: American Geophysical Union (AGU)

Publikationsdatum: 2015

ZDB Id: 710256-2

ZDB Id: 2016800-7

ZDB Id: 2969341-X

SSG: 16,13

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9

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Calculating uncertainty for the RICE ice core continuous flow analysis water isotope record

Keller, Elizabeth D. ; Baisden, W. Troy ; Bertler, Nancy A. N. ; [weitere]

Copernicus GmbH ; 2018

In: Atmospheric Measurement Techniques Vol. 11, No. 8 ( 2018-08-13), p. 4725-4736

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In: Atmospheric Measurement Techniques, Copernicus GmbH, Vol. 11, No. 8 ( 2018-08-13), p. 4725-4736

Kurzfassung: Abstract. We describe a systematic approach to the calibration and uncertainty estimation of a high-resolution continuous flow analysis (CFA) water isotope (δ2H, δ18O) record from the Roosevelt Island Climate Evolution (RICE) Antarctic ice core. Our method establishes robust uncertainty estimates for CFA δ2H and δ18O measurements, comparable to those reported for discrete sample δ2H and δ18O analysis. Data were calibrated using a time-weighted two-point linear calibration with two standards measured both before and after continuously melting 3 or 4 m of ice core. The error at each data point was calculated as the quadrature sum of three factors: Allan variance error, scatter over our averaging interval (error of the variance) and calibration error (error of the mean). Final mean total uncertainty for the entire record is δ2H=0.74 ‰ and δ18O=0.21 ‰. Uncertainties vary through the data set and were exacerbated by a range of factors, which typically could not be isolated due to the requirements of the multi-instrument CFA campaign. These factors likely occurred in combination and included ice quality, ice breaks, upstream equipment failure, contamination with drill fluid and leaks or valve degradation. We demonstrate that our methodology for documenting uncertainty was effective across periods of uneven system performance and delivered a significant achievement in the precision of high-resolution CFA water isotope measurements.

Materialart: Online-Ressource

ISSN: 1867-8548

URL: Article

DOI: 10.5194/amt-11-4725-2018

DOI: 10.5194/amt-11-4725-2018-supplement

Sprache: Englisch

Verlag: Copernicus GmbH

Publikationsdatum: 2018

ZDB Id: 2505596-3

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10

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Deglacial evolution of regional Antarctic climate and Southern Ocean conditions in transient climate simulations

Lowry, Daniel P. ; Golledge, Nicholas R. ; Menviel, Laurie ; [weitere]

Copernicus GmbH ; 2019

In: Climate of the Past Vol. 15, No. 1 ( 2019-01-30), p. 189-215

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In: Climate of the Past, Copernicus GmbH, Vol. 15, No. 1 ( 2019-01-30), p. 189-215

Kurzfassung: Abstract. Constraining Antarctica's climate evolution since the end of the Last Glacial Maximum (∼18 ka) remains a key challenge, but is important for accurately projecting future changes in Antarctic ice sheet mass balance. Here we perform a spatial and temporal analysis of two transient deglacial climate simulations, one using a fully coupled GCM (TraCE-21ka) and one using an intermediate complexity model (LOVECLIM DGns), to determine regional differences in deglacial climate evolution and identify the main strengths and limitations of the models in terms of climate variables that impact ice sheet mass balance. The greatest continental surface warming is observed over the continental margins in both models, with strong correlations between surface albedo, sea ice coverage, and surface air temperature along the coasts, as well as regions with the greatest decrease in ice surface elevation in TraCE-21ka. Accumulation–temperature scaling relationships are fairly linear and constant in the continental interior, but exhibit higher variability in the early to mid-Holocene over coastal regions. Circum-Antarctic coastal ocean temperatures at grounding line depths are highly sensitive to the meltwater forcings prescribed in each simulation, which are applied in different ways due to limited paleo-constraints. Meltwater forcing associated with the Meltwater Pulse 1A (MWP1A) event results in subsurface warming that is most pronounced in the Amundsen and Bellingshausen Sea sector in both models. Although modelled centennial-scale rates of temperature and accumulation change are reasonable, clear model–proxy mismatches are observed with regard to the timing and duration of the Antarctic Cold Reversal (ACR) and Younger Dryas–early Holocene warming, which may suggest model bias in large-scale ocean circulation, biases in temperature reconstructions from proxy records, or that the MWP1A and 1B events are inadequately represented in these simulations. The incorporation of dynamic ice sheet models in future transient climate simulations could aid in improving meltwater forcing representation, and thus model–proxy agreement, through this time interval.

Materialart: Online-Ressource

ISSN: 1814-9332

URL: Article

DOI: 10.5194/cp-15-189-2019

DOI: 10.5194/cp-15-189-2019-supplement

Sprache: Englisch

Verlag: Copernicus GmbH

Publikationsdatum: 2019

ZDB Id: 2217985-9

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