Accumulation in coastal West Antarctic ice core records and the role of cyclone activity

J. Scott Hosking; Ryan Fogt; Elizabeth R. Thomas; Vahid Moosavi; Tony Phillips; Jack Coggins; David Reusch

doi:10.1002/2017gl074722

Where might we find evidence of a Last Interglacial West Antarctic Ice Sheet collapse in Antarctic ice core records?

Global and Planetary Change ◽

10.1016/j.gloplacha.2012.03.004 ◽

2012 ◽

Vol 88-89 ◽

pp. 64-75 ◽

Cited By ~ 13

Author(s):

S.L. Bradley ◽

M. Siddall ◽

G.A. Milne ◽

V. Masson-Delmotte ◽

E. Wolff

Keyword(s):

Ice Core ◽

Ice Sheet ◽

Last Interglacial ◽

Antarctic Ice Sheet ◽

West Antarctic Ice Sheet ◽

West Antarctic ◽

Ice Core Records

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Snow Accumulation Variability Over the West Antarctic Ice Sheet Since 1900: A Comparison of Ice Core Records With ERA‐20C Reanalysis

Geophysical Research Letters ◽

10.1002/2017gl075135 ◽

2017 ◽

Vol 44 (22) ◽

pp. 11,482-11,490 ◽

Cited By ~ 8

Author(s):

Yetang Wang ◽

Elizabeth R. Thomas ◽

Shugui Hou ◽

Baojuan Huai ◽

Shuangye Wu ◽

...

Keyword(s):

Ice Core ◽

Ice Sheet ◽

Snow Accumulation ◽

The West ◽

Antarctic Ice Sheet ◽

West Antarctic Ice Sheet ◽

West Antarctic ◽

Ice Core Records

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Orbitally driven changes in seasonal Antarctic temperature during the Holocene

10.21203/rs.3.rs-564788/v1 ◽

2021 ◽

Author(s):

Tyler Jones ◽

Bradley Markle ◽

William Roberts ◽

Kurt Cuffey ◽

Eric Steig ◽

...

Keyword(s):

Temperature Change ◽

Ice Core ◽

Ice Sheet ◽

Early Holocene ◽

Mean Annual Temperature ◽

Seasonal Temperature ◽

West Antarctic Ice Sheet ◽

West Antarctic ◽

Summer Temperatures

Abstract Disentangling the drivers of mean annual temperature change in Antarctica requires an understanding of seasonal temperature change. A high-resolution climate record capable of resolving summer and winter seasons could address long-standing questions about the role of orbitally-driven insolation in driving Antarctic mean-annual temperature change. Here, we present a continuous record of water isotope ratios from the West Antarctic Ice Sheet (WAIS) Divide ice core that reveals both summer and winter temperature change though the last 11,000 years. This novel record shows that summer temperatures increased through the early-to-mid Holocene, reached a plateau at 4 to 2 ka, and then decreased to the present. The observed changes are explained primarily by changes in maximum summer insolation. In the early to mid-Holocene, additional summer warming results from the retreat and thinning of the WAIS. The magnitude of summer temperature change constrains the lowering of the WAIS surface to less than 100 m since the early Holocene, consistent with geologic records. Importantly, annual mean temperatures cannot be fully explained by orbital forcing and ice sheet elevation change alone; in the early Holocene, large wintertime temperature excursions overwhelm the summer signal. These winter excursions indicate that regional heat transport anomalies, rather than local thermodynamics, can dominate the annual mean.

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Parasites in Antarctic krill guts inferred from DNA sequences

Antarctic Science ◽

10.1017/s0954102018000469 ◽

2019 ◽

Vol 31 (1) ◽

pp. 16-22 ◽

Cited By ~ 2

Author(s):

Alison C. Cleary ◽

Maria C. Casas ◽

Edward G. Durbin ◽

Jaime Gómez-Gutiérrez

Keyword(s):

Dna Sequences ◽

High Frequency ◽

Dna Analysis ◽

Antarctic Krill ◽

Euphausia Superba ◽

Gut Contents ◽

The West ◽

West Antarctic ◽

Wide Range

AbstractThe keystone role of Antarctic krill,Euphausia superbaDana, in Southern Ocean ecosystems, means it is essential to understand the factors controlling their abundance and secondary production. One such factor that remains poorly known is the role of parasites. A recent study of krill diet using DNA analysis of gut contents provided a snapshot of the parasites present within 170E. superbaguts in a small area along the West Antarctic Peninsula. These parasites includedMetschnikowiaspp. fungi,Haptoglossasp. peronosporomycetes,LankesteriaandParalecudinaspp. apicomplexa,Stegophorussp. nematodes, andPseudocolliniaspp. ciliates. Of these parasites,Metschnikowiaspp. fungi andPseudocolliniaspp. ciliates had previously been observed inE. superba, as had other genera of apicomplexans, though notLankesteriaandParalecudina.In contrast, nematodes had previously only been observed in eggs ofE. superba, and there are no literature reports of peronosporomycetes in euphausiids.Pseudocolliniaspp., parasitoids which obligately kill their host, were the most frequently observed infection, with a prevalence of 12%. The wide range of observed parasites and the relatively high frequency of infections suggest parasites may play a more important role than previously acknowledged inE. superbaecology and population dynamics.

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The Amundsen Sea Low: Variability, Change, and Impact on Antarctic Climate

Bulletin of the American Meteorological Society ◽

10.1175/bams-d-14-00018.1 ◽

2016 ◽

Vol 97 (1) ◽

pp. 111-121 ◽

Cited By ~ 119

Author(s):

M. N. Raphael ◽

G. J. Marshall ◽

J. Turner ◽

R. L. Fogt ◽

D. Schneider ◽

...

Keyword(s):

Sea Ice ◽

Climate Model ◽

Ross Sea ◽

Ice Core ◽

Meridional Wind ◽

West Antarctica ◽

Sea Ice Extent ◽

Amundsen Sea ◽

West Antarctic ◽

Climate Model Simulations

Abstract The Amundsen Sea low (ASL) is a climatological low pressure center that exerts considerable influence on the climate of West Antarctica. Its potential to explain important recent changes in Antarctic climate, for example, in temperature and sea ice extent, means that it has become the focus of an increasing number of studies. Here, the authors summarize the current understanding of the ASL, using reanalysis datasets to analyze recent variability and trends, as well as ice-core chemistry and climate model projections, to examine past and future changes in the ASL, respectively. The ASL has deepened in recent decades, affecting the climate through its influence on the regional meridional wind field, which controls the advection of moisture and heat into the continent. Deepening of the ASL in spring is consistent with observed West Antarctic warming and greater sea ice extent in the Ross Sea. Climate model simulations for recent decades indicate that this deepening is mediated by tropical variability while climate model projections through the twenty-first century suggest that the ASL will deepen in some seasons in response to greenhouse gas concentration increases.

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Reconstructing an Interdecadal Pacific Oscillation Index from a Pacific Basin–Wide Collection of Ice Core Records

Journal of Climate ◽

10.1175/jcli-d-20-0455.1 ◽

2021 ◽

Vol 34 (10) ◽

pp. 3839-3852

Author(s):

Stacy E. Porter ◽

Ellen Mosley-Thompson ◽

Lonnie G. Thompson ◽

Aaron B. Wilson

Keyword(s):

Ice Core ◽

Ice Cores ◽

Tropical Pacific ◽

Ice Age ◽

Pacific Basin ◽

Interdecadal Pacific Oscillation ◽

The Pacific ◽

Instrumental Period ◽

The Tropical Pacific ◽

Ice Core Records

AbstractUsing an assemblage of four ice cores collected around the Pacific basin, one of the first basinwide histories of Pacific climate variability has been created. This ice core–derived index of the interdecadal Pacific oscillation (IPO) incorporates ice core records from South America, the Himalayas, the Antarctic Peninsula, and northwestern North America. The reconstructed IPO is annually resolved and dates to 1450 CE. The IPO index compares well with observations during the instrumental period and with paleo-proxy assimilated datasets throughout the entire record, which indicates a robust and temporally stationary IPO signal for the last ~550 years. Paleoclimate reconstructions from the tropical Pacific region vary greatly during the Little Ice Age (LIA), although the reconstructed IPO index in this study suggests that the LIA was primarily defined by a weak, negative IPO phase and hence more La Niña–like conditions. Although the mean state of the tropical Pacific Ocean during the LIA remains uncertain, the reconstructed IPO reveals some interesting dynamical relationships with the intertropical convergence zone (ITCZ). In the current warm period, a positive (negative) IPO coincides with an expansion (contraction) of the seasonal latitudinal range of the ITCZ. This relationship is not stationary, however, and is virtually absent throughout the LIA, suggesting that external forcing, such as that from volcanoes and/or reduced solar irradiance, could be driving either the ITCZ shifts or the climate dominating the ice core sites used in the IPO reconstruction.

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Spatial patterns of multi–centennial surface air temperature trends in Antarctica over 1–1000 CE: Insights from ice core records and modeling

Quaternary Science Reviews ◽

10.1016/j.quascirev.2021.107205 ◽

2021 ◽

Vol 271 ◽

pp. 107205

Author(s):

Zhiqiang Lyu ◽

Hugues Goosse ◽

Quentin Dalaiden ◽

François Klein ◽

Feng Shi ◽

...

Keyword(s):

Spatial Patterns ◽

Air Temperature ◽

Ice Core ◽

Surface Air Temperature ◽

Temperature Trends ◽

Ice Core Records

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Modeling of tropical cyclone activity over the North Indian Ocean using generalised additive model and machine learning techniques: role of Boreal summer intraseasonal oscillation

Natural Hazards ◽

10.1007/s11069-021-05116-7 ◽

2021 ◽

Author(s):

Md Wahiduzzaman ◽

Jing-Jia Luo

Keyword(s):

Additive Model ◽

Intraseasonal Oscillation ◽

North Indian Ocean ◽

Machine Learning Techniques ◽

Boreal Summer ◽

Cyclone Activity ◽

Generalised Additive Model ◽

The North ◽

Learning Techniques

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Towards a quasi-complete reconstruction of past atmospheric aerosol load and composition (organic and inorganic) over Europe since 1920 inferred from Alpine ice cores

Climate of the Past ◽

10.5194/cp-9-1403-2013 ◽

2013 ◽

Vol 9 (4) ◽

pp. 1403-1416 ◽

Cited By ~ 25

Author(s):

S. Preunkert ◽

M. Legrand

Keyword(s):

World War Ii ◽

Organic Carbon ◽

Atmospheric Aerosol ◽

Ice Core ◽

Ice Cores ◽

Organic Aerosol ◽

Water Soluble ◽

Climate Forcing ◽

World War ◽

Ice Core Records

Abstract. Seasonally resolved chemical ice core records available from the Col du Dôme glacier (4250 m elevation, French Alps), are here used to reconstruct past aerosol load and composition of the free European troposphere from before World War II to present. Available ice core records include inorganic (Na+, Ca2+, NH4+, Cl−, NO3−, and SO42−) and organic (carboxylates, HCHO, humic-like substances, dissolved organic carbon, water-insoluble organic carbon, and black carbon) compounds and fractions that permit reconstructing the key aerosol components and their changes over the past. It is shown that the atmospheric load of submicron aerosol has been increased by a factor of 3 from the 1921–1951 to 1971–1988 years, mainly as a result of a large increase of sulfate (a factor of 5), ammonium and water-soluble organic aerosol (a factor of 3). Thus, not only growing anthropogenic emissions of sulfur dioxide and ammonia have caused the enhancement of the atmospheric aerosol load but also biogenic emissions producing water-soluble organic aerosol. This unexpected change of biospheric source of organic aerosol after 1950 needs to be considered and further investigated in scenarios dealing with climate forcing by atmospheric aerosol.

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Centennial-scale variability of the Southern Hemisphere westerly wind belt in the eastern Pacific over the past two millennia

Climate of the Past ◽

10.5194/cp-10-1125-2014 ◽

2014 ◽

Vol 10 (3) ◽

pp. 1125-1144 ◽

Cited By ~ 30

Author(s):

B. G. Koffman ◽

K. J. Kreutz ◽

D. J. Breton ◽

E. J. Kane ◽

D. A. Winski ◽

...

Keyword(s):

Particle Size ◽

Wind Speed ◽

Atmospheric Circulation ◽

Southern Hemisphere ◽

Zonal Wind ◽

Ice Core ◽

Eastern Pacific ◽

The Past ◽

West Antarctic ◽

Lower Elevation

Abstract. We present the first high-resolution (sub-annual) dust particle data set from West Antarctica, developed from the West Antarctic Ice Sheet (WAIS) Divide deep ice core (79.468° S, 112.086° W), and use it to reconstruct changes in atmospheric circulation over the past 2400 years. We find a background dust flux of ~4 mg m−2 year−1 and a mode particle size of 5–8 μm diameter. Through comparing the WAIS Divide record with other Antarctic ice core particle records, we observe that coastal and lower-elevation sites have higher dust fluxes and coarser particle size distributions (PSDs) than sites on the East Antarctic plateau, suggesting input from local dust sources at these lower-elevation sites. In order to explore the use of the WAIS Divide dust PSD as a proxy for past atmospheric circulation, we make quantitative comparisons between both mid-latitude zonal wind speed and West Antarctic meridional wind speed and the dust size record, finding significant positive interannual relationships. We find that the dust PSD is related to mid-latitude zonal wind speed via cyclonic activity in the Amundsen Sea region. Using our PSD record, and through comparison with spatially distributed climate reconstructions from the Southern Hemisphere (SH) middle and high latitudes, we infer that the SH westerlies occupied a more southerly position from circa 1050 to 1400 CE (Common Era), coinciding with the Medieval Climate Anomaly (MCA). Subsequently, at ca. 1430 CE, the wind belt shifted equatorward, where it remained until the mid-to-late twentieth century. We find covariability between reconstructions of El Niño–Southern Oscillation (ENSO) and the mid-latitude westerly winds in the eastern Pacific, suggesting that centennial-scale circulation changes in this region are strongly influenced by the tropical Pacific. Further, we observe increased coarse particle deposition over the past 50 years, consistent with observations that the SH westerlies have been shifting southward and intensifying in recent decades.

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