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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 ; [et al.]

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

Abstract: 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.

Type of Medium: Online Resource

ISSN: 1814-9332

URL: Article

DOI: 10.5194/cp-14-193-2018

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

Language: English

Publisher: Copernicus GmbH

Publication Date: 2018

detail.hit.zdb_id: 2217985-9

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Antarctic climate and ice-sheet configuration during the early Pliocene interglacial at 4.23 Ma

Golledge, Nicholas R. ; Thomas, Zoë A. ; Levy, Richard H. ; [et al.]

Copernicus GmbH ; 2017

In: Climate of the Past Vol. 13, No. 7 ( 2017-07-27), p. 959-975

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In: Climate of the Past, Copernicus GmbH, Vol. 13, No. 7 ( 2017-07-27), p. 959-975

Abstract: Abstract. The geometry of Antarctic ice sheets during warm periods of the geological past is difficult to determine from geological evidence, but is important to know because such reconstructions enable a more complete understanding of how the ice-sheet system responds to changes in climate. Here we investigate how Antarctica evolved under orbital and greenhouse gas conditions representative of an interglacial in the early Pliocene at 4.23 Ma, when Southern Hemisphere insolation reached a maximum. Using offline-coupled climate and ice-sheet models, together with a new synthesis of high-latitude palaeoenvironmental proxy data to define a likely climate envelope, we simulate a range of ice-sheet geometries and calculate their likely contribution to sea level. In addition, we use these simulations to investigate the processes by which the West and East Antarctic ice sheets respond to environmental forcings and the timescales over which these behaviours manifest. We conclude that the Antarctic ice sheet contributed 8.6 ± 2.8 m to global sea level at this time, under an atmospheric CO2 concentration identical to present (400 ppm). Warmer-than-present ocean temperatures led to the collapse of West Antarctica over centuries, whereas higher air temperatures initiated surface melting in parts of East Antarctica that over one to two millennia led to lowering of the ice-sheet surface, flotation of grounded margins in some areas, and retreat of the ice sheet into the Wilkes Subglacial Basin. The results show that regional variations in climate, ice-sheet geometry, and topography produce long-term sea-level contributions that are non-linear with respect to the applied forcings, and which under certain conditions exhibit threshold behaviour associated with behavioural tipping points.

Type of Medium: Online Resource

ISSN: 1814-9332

URL: Article

DOI: 10.5194/cp-13-959-2017

Language: English

Publisher: Copernicus GmbH

Publication Date: 2017

detail.hit.zdb_id: 2217985-9

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Sensitivity of the West Antarctic Ice Sheet to +2 °C (SWAIS 2C)

Patterson, Molly O. ; Levy, Richard H. ; Kulhanek, Denise K. ; [et al.]

Copernicus GmbH ; 2022

In: Scientific Drilling Vol. 30 ( 2022-02-25), p. 101-112

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In: Scientific Drilling, Copernicus GmbH, Vol. 30 ( 2022-02-25), p. 101-112

Abstract: Abstract. The West Antarctic Ice Sheet (WAIS) presently holds enough ice to raise global sea level by 4.3 m if completely melted. The unknown response of the WAIS to future warming remains a significant challenge for numerical models in quantifying predictions of future sea level rise. Sea level rise is one of the clearest planet-wide signals of human-induced climate change. The Sensitivity of the West Antarctic Ice Sheet to a Warming of 2 ∘C (SWAIS 2C) Project aims to understand past and current drivers and thresholds of WAIS dynamics to improve projections of the rate and size of ice sheet changes under a range of elevated greenhouse gas levels in the atmosphere as well as the associated average global temperature scenarios to and beyond the +2 ∘C target of the Paris Climate Agreement. Despite efforts through previous land and ship-based drilling on and along the Antarctic margin, unequivocal evidence of major WAIS retreat or collapse and its causes has remained elusive. To evaluate and plan for the interdisciplinary scientific opportunities and engineering challenges that an International Continental Drilling Program (ICDP) project along the Siple coast near the grounding zone of the WAIS could offer (Fig. 1), researchers, engineers, and logistics providers representing 10 countries held a virtual workshop in October 2020. This international partnership comprised of geologists, glaciologists, oceanographers, geophysicists, microbiologists, climate and ice sheet modelers, and engineers outlined specific research objectives and logistical challenges associated with the recovery of Neogene and Quaternary geological records from the West Antarctic interior adjacent to the Kamb Ice Stream and at Crary Ice Rise. New geophysical surveys at these locations have identified drilling targets in which new drilling technologies will allow for the recovery of up to 200 m of sediments beneath the ice sheet. Sub-ice-shelf records have so far proven difficult to obtain but are critical to better constrain marine ice sheet sensitivity to past and future increases in global mean surface temperature up to 2 ∘C above pre-industrial levels. Thus, the scientific and technological advances developed through this program will enable us to test whether WAIS collapsed during past intervals of warmth and determine its sensitivity to a +2 ∘C global warming threshold (UNFCCC, 2015).

Type of Medium: Online Resource

ISSN: 1816-3459

URL: Article

DOI: 10.5194/sd-30-101-2022

Language: English

Publisher: Copernicus GmbH

Publication Date: 2022

detail.hit.zdb_id: 2207632-3

detail.hit.zdb_id: 2207618-9

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