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4. GHOSTly flute music: drumlins, moats and the bed of Thwaites Glacier.

Author

Alley, Richard B., Holschuh, Nick, Parizek, Byron, Zoet, Lucas K., Riverman, Kiya, Muto, Atsuhiro, Christianson, Knut, Clyne, Elisabeth, Anandakrishnan, Sridhar, and Stevens, Nathan T.

Subjects
*ICE shelves, *FLUTE music, *DRUMLINS, *GLACIERS, *ABSOLUTE sea level change, *BEDROCK, *ALPINE glaciers, *TOPOGRAPHY, *ICE sheets
Abstract

Glacier-bed characteristics that are poorly known and modeled are important in projected sea-level rise from ice-sheet changes under strong warming, especially in the Thwaites Glacier drainage of West Antarctica. Ocean warming may induce ice-shelf thinning or loss, or thinning of ice in estuarine zones, reducing backstress on grounded ice. Models indicate that, in response, more-nearly-plastic beds favor faster ice loss by causing larger flow acceleration, but more-nearly-viscous beds favor localized near-coastal thinning that could speed grounding-zone retreat into interior basins where marine-ice-sheet instability or cliff instability could develop and cause very rapid ice loss. Interpretation of available data indicates that the bed is spatially mosaicked, with both viscous and plastic regions. Flow against bedrock topography removes plastic lubricating tills, exposing bedrock that is eroded on up-glacier sides of obstacles to form moats with exposed bedrock tails extending downglacier adjacent to lee-side soft-till bedforms. Flow against topography also generates high-ice-pressure zones that prevent inflow of lubricating water over distances that scale with the obstacle size. Extending existing observations to sufficiently large regions, and developing models assimilating such data at the appropriate scale, present large, important research challenges that must be met to reliably project future forced sea-level rise. [ABSTRACT FROM AUTHOR]

Published
2023
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5. Ice Sheets and Sea Level

Author

Oerlemans, Johannes, Dahl-Jensen, Dorthe, Masson-Delmotte, Valérie, Overpeck, Jonathan T., Otto-Bliesner, Bette L., Miller, Gifford H., Alley, Richard B., Muhs, Daniel R., and Marshall, Shawn J.

Published
2006

7. Sea-level rise in Southwest Greenland as a contributor to Viking abandonment.

Author

Borreggine, Marisa, Latychev, Konstantin, Coulson, Sophie, Powell, Evelyn M., Mitrovica, Jerry X., Milne, Glenn A., and Alley, Richard B.

Subjects
ABSOLUTE sea level change, LITTLE Ice Age, GREENLAND ice, ICE sheets, GLACIAL isostasy
Abstract

The first records of Greenland Vikings date to 985 CE. Archaeological evidence yields insight into how Vikings lived, yet drivers of their disappearance in the 15th century remain enigmatic. Research suggests a combination of environmental and socioeconomic factors, and the climatic shift from the Medieval Warm Period (~900 to 1250 CE) to the Little Ice Age (~1250 to 1900 CE) may have forced them to abandon Greenland. Glacial geomorphology and paleoclimate research suggest that the Southern Greenland Ice Sheet readvanced during Viking occupation, peaking in the Little Ice Age. Counterintuitively, the readvance caused sea-level rise near the ice margin due to increased gravitational attraction toward the ice sheet and crustal subsidence. We estimate ice growth in Southwestern Greenland using geomorphological indicators and lake core data from previous literature. We calculate the effect of ice growth on regional sea level by applying our ice history to a geophysical model of sea level with a resolution of ~1 km across Southwestern Greenland and compare the results to archaeological evidence. The results indicate that sea level rose up to ~3.3moutside the glaciation zone during Viking settlement, producing shoreline retreat of hundreds of meters. Sea-level rise was progressive and encompassed the entire Eastern Settlement. Moreover, pervasive flooding would have forced abandonment of many coastal sites. These processes likely contributed to the suite of vulnerabilities that led to Viking abandonment of Greenland. Sea-level change thus represents an integral, missing element of the Viking story. [ABSTRACT FROM AUTHOR]

Published
2023
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15. GHOSTly flute music: drumlins, moats and the bed of Thwaites Glacier.

Author

Alley, Richard B., Holschuh, Nick, Parizek, Byron, Zoet, Lucas K., Riverman, Kiya, Muto, Atsuhiro, Christianson, Knut, Clyne, Elisabeth, Anandakrishnan, Sridhar, and Stevens, Nathan T.

Subjects
*ICE shelves, *FLUTE music, *DRUMLINS, *GLACIERS, *ABSOLUTE sea level change, *BEDROCK, *ALPINE glaciers, *TOPOGRAPHY, *ICE sheets
Abstract

Glacier-bed characteristics that are poorly known and modeled are important in projected sea-level rise from ice-sheet changes under strong warming, especially in the Thwaites Glacier drainage of West Antarctica. Ocean warming may induce ice-shelf thinning or loss, or thinning of ice in estuarine zones, reducing backstress on grounded ice. Models indicate that, in response, more-nearly-plastic beds favor faster ice loss by causing larger flow acceleration, but more-nearly-viscous beds favor localized near-coastal thinning that could speed grounding-zone retreat into interior basins where marine-ice-sheet instability or cliff instability could develop and cause very rapid ice loss. Interpretation of available data indicates that the bed is spatially mosaicked, with both viscous and plastic regions. Flow against bedrock topography removes plastic lubricating tills, exposing bedrock that is eroded on up-glacier sides of obstacles to form moats with exposed bedrock tails extending downglacier adjacent to lee-side soft-till bedforms. Flow against topography also generates high-ice-pressure zones that prevent inflow of lubricating water over distances that scale with the obstacle size. Extending existing observations to sufficiently large regions, and developing models assimilating such data at the appropriate scale, present large, important research challenges that must be met to reliably project future forced sea-level rise. [ABSTRACT FROM AUTHOR]

Published
2022
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18. Global Climate Change

Author

Alley, Richard B., Lynch-Stieglitz, Jean, and Severinghaus, Jeffrey P.

Published
1999

20. A continuum model (PSUMEL1) of ice mélange and its role during retreat of the Antarctic Ice Sheet.

Author

Pollard, David, DeConto, Robert M., and Alley, Richard B.

Subjects
ICE sheets, ICE calving, GLACIOLOGY, CLIMATE change, SEA level
Abstract

Rapidly retreating thick ice fronts can generate large amounts of mélange (floating ice debris), which may affect episodes of rapid retreat of Antarctic marine ice. In modern Greenland fjords, mélange provides substantial back pressure on calving ice faces, which slows ice front calving rates. On the much larger scales of West Antarctica, it is unknown if mélange could clog seaways and provide enough back pressure to act as a negative feedback slowing retreat. Here we describe a new mélange model, using a continuum-mechanical formulation that is computationally feasible for long-term continental Antarctic applications. It is tested in an idealized rectangular channel and calibrated very basically using observed modern conditions in Jakobshavn fjord, West Greenland. The model is then applied to drastic retreat of Antarctic ice in response to warm mid-Pliocene climate. With mélange parameter values that yield reasonable modern Jakobshavn results, Antarctic marine ice still retreats drastically in the Pliocene simulations, with little slowdown despite the huge amounts of mélange generated. This holds both for the rapid early collapse of West Antarctica and for later retreat into major East Antarctic basins. If parameter values are changed to make the mélange much more resistive to flow, far outside the range for reasonable Jakobshavn results, West Antarctica still collapses and retreat is slowed or prevented only in a few East Antarctic basins. [ABSTRACT FROM AUTHOR]

Published
2018
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21. A continuum model of ice mélange and its role during retreat of the Antarctic Ice Sheet.

Author

Pollard, David, DeConto, Robert M., and Alley, Richard B.

Subjects
ICE sheets, CLIMATE change, SIMULATION methods & models, MATHEMATICAL models
Abstract

Rapidly retreating thick ice fronts can generate large amounts of mélange (floating ice debris), which may affect episodes of rapid retreat of Antarctic marine ice. In modern Greenland fjords, mélange provides substantial back pressure on calving ice faces, which slows ice-front velocities and calving rates. On the much larger scales of West Antarctica, it is unknown if mélange could clog seaways and provide enough back pressure to act as a negative feedback slowing retreat. Here we describe a new mélange model, using a continuum mechanical formulation that is computationally feasible for long-term continental Antarctic applications. It is tested in an idealized rectangular channel, and calibrated very basically using observed modern conditions in Jakobshavn fjord, West Greenland. The model is then applied to drastic retreat of Antarctic ice in response to warm mid-Pliocene climate. With mélange parameter values that yield reasonable modern Jakobshavn results, Antarctic marine ice still retreats drastically in the Pliocene simulations, with little slowdown despite the huge amounts of mélange generated. This holds both for the rapid early collapse of West Antarctica, and later retreat into major East Antarctic basins. If parameter values are changed to make the mélange much more resistive to flow, far outside the range for reasonable Jakobshavn results, West Antarctica still collapses and retreat is slowed or prevented only in a few East Antarctic basins. [ABSTRACT FROM AUTHOR]

Published
2018
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22. Surface formation, preservation, and history of low-porosity crusts at the WAIS Divide site, West Antarctica.

Author

Fegyveresi, John M., Alley, Richard B., Muto, Atsuhiro, Orsi, Anaïs J., and Spencer, Matthew K.

Subjects
*ICE sheets, *SNOWMELT, *SNOW measurement, *SNOW accumulation, *ICE, ENVIRONMENTAL aspects
Abstract

Observations at the West Antarctic Ice Sheet (WAIS) Divide site show that near-surface snow is strongly altered by weather-related processes such as strong winds and temperature fluctuations, producing features that are recognizable in the deep ice core. Prominent "glazed" surface crusts develop frequently at the site during summer seasons. Surface, snow pit, and ice core observations made in this study during summer field seasons from 2008-2009 to 2012-2013, supplemented by automated weather station (AWS) data with short- and longwave radiation sensors, revealed that such crusts formed during relatively low-wind, low-humidity, clear-sky periods with intense daytime sunshine. After formation, such glazed surfaces typically developed cracks in a polygonal pattern likely from thermal contraction at night. Cracking was commonest when several clear days occurred in succession and was generally followed by surface hoar growth; vapor escaping through the cracks during sunny days may have contributed to the high humidity that favored nighttime formation of surface hoar. Temperature and radiation observations show that daytime solar heating often warmed the near-surface snow above the air temperature, contributing to upward mass transfer, favoring crust formation from below, and then surface hoar formation. A simple surface energy calculation supports this observation. Subsequent examination of the WDC06A deep ice core revealed that crusts are preserved through the bubbly ice, and some occur in snow accumulated during winters, although not as commonly as in summertime deposits. Although no one has been on site to observe crust formation during winter, it may be favored by greater wintertime wind packing from stronger peak winds, high temperatures and steep temperature gradients from rapid midwinter warmings reaching as high as -15 °C, and perhaps longer intervals of surface stability. Time variations in crust occurrence in the core may provide paleoclimatic information, although additional studies are required. Discontinuity and cracking of crusts likely explain why crusts do not produce significant anomalies in other paleoclimatic records. [ABSTRACT FROM AUTHOR]

Published
2018
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23. Model insights into bed control on retreat of Thwaites Glacier, West Antarctica.

Author

Schwans, Emily, Parizek, Byron R., Alley, Richard B., Anandakrishnan, Sridhar, and Morlighem, Mathieu M.

Subjects
*ICE shelves, *GLACIERS, *ICE sheets, *ANTARCTIC ice, *ABSOLUTE sea level change, *PREDICTION models
Abstract

Thwaites Glacier (TG) plays an important role in future sea-level rise (SLR) contribution from the West Antarctic Ice Sheet. Recent observations show that TG is losing mass, and its grounding zone is retreating. Previous modeling has produced a wide range of results concerning whether, when, and how rapidly further retreat will occur under continued warming. These differences arise at least in part from ill-constrained processes, including friction from the bed, and future atmosphere and ocean forcing affecting ice-shelf and grounding-zone buttressing. Here, we apply the Ice Sheet and Sea-level System Model (ISSM) with a range of specifications of basal sliding behavior in response to varying ocean forcing. We find that basin-wide bed character strongly affects TG's response to sub-shelf melt by modulating how changes in driving stress are balanced by the bed as the glacier responds to external forcing. Resulting differences in dynamic thinning patterns alter modeled grounding-line retreat across Thwaites' catchment, affecting both modeled rates and magnitudes of SLR contribution from this critical sector of the ice sheet. Bed character introduces large uncertainties in projections of TG under equal external forcing, pointing to this as a crucial constraint needed in predictive models of West Antarctica. [ABSTRACT FROM AUTHOR]

Published
2023
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24. Oceanic Forcing of Ice-Sheet Retreat: West Antarctica and More.

Author

Alley, Richard B., Anandakrishnan, Sridhar, Christianson, Knut, Horgan, Huw J., Muto, Atsu, Parizek, Byron R., Pollard, David, and Walker, Ryan T.

Subjects
*ICE sheets, *SEA level, *OCEANOGRAPHIC research
Abstract

Ocean-ice interactions have exerted primary control on the Antarctic Ice Sheet and parts of the Greenland Ice Sheet, and will continue to do so in the near future, especially through melting of ice shelves and calving cliffs. Retreat in response to increasing marine melting typically exhibits threshold behavior, with little change for forcing below the threshold but a rapid, possibly delayed shift to a reduced state once the threshold is exceeded. For Thwaites Glacier, West Antarctica, the threshold may already have been exceeded, although rapid change may be delayed by centuries, and the reduced state will likely involve loss of most of the West Antarctic Ice Sheet, causing >3 m of sea-level rise. Because of shortcomings in physical understanding and available data, uncertainty persists about this threshold and the subsequent rate of change. Although sea-level histories and physical understanding allow the possibility that ice-sheet response could be quite fast, no strong constraints are yet available on the worst-case scenario. Recent work also suggests that the Greenland and East Antarctic Ice Sheets share some of the same vulnerabilities to shrinkage from marine influence. [ABSTRACT FROM AUTHOR]

Published
2015
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25. Basal conditions and ice dynamics inferred from radar-derived internal stratigraphy of the northeast Greenland ice stream.

Author

KEISLING, Benjamin A., CHRISTIANSON, Knut, ALLEY, Richard B., PETERS, Leo E., CHRISTIAN, John E.M., ANANDAKRISHNAN, Sridhar, RIVERMAN, Kiya L., MUTO, Atsuhiro, and JACOBEL, Robert W.

Subjects
ICE sheets, RADAR, STRATIGRAPHIC geology, ICE streams, ECHO, DATA analysis
Abstract

We analyze the internal stratigraphy in radio-echo sounding data of the northeast Greenland ice stream to infer past and present ice dynamics. In the upper reaches of the ice stream, we propose that shear-margin steady-state folds in internal reflecting horizons (IRHs) form due to the influence of ice flow over spatially varying basal lubrication. IRHs are generally lower in the ice stream than outside, likely because of greater basal melting in the ice stream from enhanced geothermal flux and heat of sliding. Strain-rate modeling of IRHs deposited during the Holocene indicates no recent major changes in ice-stream vigor or extent in this region. Downstream of our survey, IRHs are disrupted as the ice flows into a prominent overdeepening. When combined with additional data from other studies, these data suggest that upstream portions of the ice stream are controlled by variations in basal lubrication whereas downstream portions are confined by basal topography. [ABSTRACT FROM AUTHOR]

Published
2014
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26. Estuaries beneath ice sheets.

Author

Horgan, Huw J., Alley, Richard B., Christianson, Knut, Jacobel, Robert W., Anandakrishnan, Sridhar, Muto, Atsuhiro, Beem, Lucas H., and Siegfried, Matthew R.

Subjects
*ESTUARIES, *GEOPHYSICAL observations, *ICE sheets, *SUBGLACIAL lakes, *GLACIOLOGY
Abstract

Interactions between subglacial hydrology and the ocean make the existence of estuaries at the grounding zones of ice sheets likely. Here we present geophysical observations of an estuary at the downstream end of the hydrologic system that links the active subglacial lakes beneath Whillans Ice Stream to the ocean beneath the Ross Ice Shelf, Antarctica. This subglacial estuary consists of a hydropotential low upstream of the grounding zone, which is linked to the ocean by a hydropotential trough and a large subglacial channel. This subglacial channel, which is imaged using active source seismic methods, has an apparent width of 1 km and a maximum depth of 7 m. The hydropotential trough continues upstream of the grounding zone and results from an along-flow depression in surface elevations. Pressure differences along the trough axis are within a range that can be overcome by tidally induced processes, making the interaction of subglacial and ocean water likely. [ABSTRACT FROM AUTHOR]

Published
2013
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27. Efficient Flowline Simulations of Ice Shelf-Ocean Interactions: Sensitivity Studies with a Fully Coupled Model.

Author

Walker, Ryan T., Holland, David M., Parizek, Byron R., Alley, Richard B., Nowicki, Sophie M. J., and Jenkins, Adrian

Subjects
HYDRAULICS, ICE sheets, OCEAN dynamics, THERMODYNAMICS, OCEANOGRAPHY, NUMERICAL analysis, DRAG coefficient
Abstract

Thermodynamic flowline and plume models for the ice shelf-ocean system simplify the ice and ocean dynamics sufficiently to allow extensive exploration of parameters affecting ice-sheet stability while including key physical processes. Comparison between geophysically and laboratory-based treatments of ice-ocean interface thermodynamics shows reasonable agreement between calculated melt rates, except where steep basal slopes and relatively high ocean temperatures are present. Results are especially sensitive to the poorly known drag coefficient, highlighting the need for additional field experiments to constrain its value. These experiments also suggest that if the ice-ocean interface near the grounding line is steeper than some threshold, further steepening of the slope may drive higher entrainment that limits buoyancy, slowing the plume and reducing melting; if confirmed, this will provide a stabilizing feedback on ice sheets under some circumstances. [ABSTRACT FROM AUTHOR]

Published
2013
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28. Subglacial bathymetry and sediment layer distribution beneath the Pine Island Glacier ice shelf, West Antarctica, modeled using aerogravity and autonomous underwater vehicle data.

Author

MUTO, Atsuhiro, ANANDAKRISHNAN, Sridhar, and ALLEY, Richard B.

Subjects
GLACIATION, BATHYMETRY, ICE sheets, SUBMARINES (Ships), AUTONOMOUS underwater vehicles
Abstract

Pine Island Glacier (PIG), West Antarctica, has been experiencing acceleration in its flow speed and mass loss for nearly two decades, driven in part by an increase in the delivery of relatively warm Circumpolar Deep Water (CDW). However, at present, the configuration of the sub-ice-shelf cavity and bed conditions beneath the PIG ice shelf that dictate such oceanic influences remain poorly understood. Here, we use aerogravity data and ocean bottom depths measured by an autonomous underwater vehicle (AUV) to model the bathymetry and sediment layer thickness beneath the PIG ice shelf. Results reveal that the deep basins, previously found by AUVon both landward and seaward sides of a submarine ridge, extend substantially to the north and south. The water column thickness of the basins reaches 400-550m on the landward side of the ridge and 500-600m on the seaward side. The sediment layer covers the whole expanse of the seabed beneath the ice shelf, and the thickness is in the range ~200-1000 m. The thinnest sediments (<200 m) are found on the seaward slope of the submarine ridge, suggesting that erosion by advancing ice may have been concentrated in the lee of the topographic high. [ABSTRACT FROM AUTHOR]

Published
2013
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29. Englacial seismic reflectivity: imaging crystal-orientation fabric in West Antarctica.

Author

HORGAN, Huw J., ANANDAKRISHNAN, Sridhar, ALLEY, Richard B., BURKETT, Peter G., and PETERS, Leo E.

Subjects
ANTARCTIC glaciers, ICE sheets, ANTARCTIC ice, VISCOSITY, ATMOSPHERIC temperature
Abstract

The article focuses on a study on the changes and viscosity in the crystal-orientation fabric (COF) near the base of the ice sheet in West Antarctica. It mentions that COFs with deformation evolve from the dependence of viscosity on orientation, marking the importance of COFs when studying ice-sheet dynamics. Results show that the presence of englacial reflectivity in the area has resulted from COF changes, one evidence of which is the consistency between the observations of the reflectivity and understanding of COF development. Another finding of the study states that factors behind the contrasts in COF are strain, impurities and temperature.

Published
2011
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30. History of the Greenland Ice Sheet: paleoclimatic insights

Author

Alley, Richard B., Andrews, J.T., Brigham-Grette, J., Clarke, G.K.C., Cuffey, K.M., Fitzpatrick, J.J., Funder, S., Marshall, S.J., Miller, G.H., Mitrovica, J.X., Muhs, D.R., Otto-Bliesner, B.L., Polyak, L., and White, J.W.C.

Subjects
*PALEOCLIMATOLOGY, *ICE sheets, *GLOBAL warming & the environment, *GLOBAL temperature changes, *CLIMATE change
Abstract

Abstract: Paleoclimatic records show that the Greenland Ice Sheet consistently has lost mass in response to warming, and grown in response to cooling. Such changes have occurred even at times of slow or zero sea-level change, so changing sea level cannot have been the cause of at least some of the ice-sheet changes. In contrast, there are no documented major ice-sheet changes that occurred independent of temperature changes. Moreover, snowfall has increased when the climate warmed, but the ice sheet lost mass nonetheless; increased accumulation in the ice sheet''s center has not been sufficient to counteract increased melting and flow near the edges. Most documented forcings and ice-sheet responses spanned periods of several thousand years, but limited data also show rapid response to rapid forcings. In particular, regions near the ice margin have responded within decades. However, major changes of central regions of the ice sheet are thought to require centuries to millennia. The paleoclimatic record does not yet strongly constrain how rapidly a major shrinkage or nearly complete loss of the ice sheet could occur. The evidence suggests nearly total ice-sheet loss may result from warming of more than a few degrees above mean 20th century values, but this threshold is poorly defined (perhaps as little as 2°C or more than 7°C). Paleoclimatic records are sufficiently sketchy that the ice sheet may have grown temporarily in response to warming, or changes may have been induced by factors other than temperature, without having been recorded. [Copyright &y& Elsevier]

Published
2010
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31. Arctic amplification: can the past constrain the future?

Author

Miller, Gifford H., Alley, Richard B., Brigham-Grette, Julie, Fitzpatrick, Joan J., Polyak, Leonid, Serreze, Mark C., and White, James W.C.

Subjects
*GLOBAL temperature changes, *CLIMATE change, *QUATERNARY paleoclimatology, *ABSOLUTE sea level change, *ICE sheets
Abstract

Abstract: Arctic amplification, the observation that surface air temperature changes in the Arctic exceed those of the Northern Hemisphere as a whole, is a pervasive feature of climate models, and has recently emerged in observational data relative to the warming trend of the past century. The magnitude of Arctic amplification is an important, but poorly constrained variable necessary to estimate global average temperature change over the next century. Here we evaluate the mechanisms responsible for Arctic amplification on Quaternary timescales, and review evidence from four intervals in the past 3 Ma for which sufficient paleoclimate data and model simulations are available to estimate the magnitude of Arctic amplification under climate states both warmer and colder than present. Despite differences in forcings and feedbacks for these reconstructions compared to today, the Arctic temperature change consistently exceeds the Northern Hemisphere average by a factor of 3–4, suggesting that Arctic warming will continue to greatly exceed the global average over the coming century, with concomitant reductions in terrestrial ice masses and, consequently, an increasing rate of sea level rise. [Copyright &y& Elsevier]

Published
2010
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32. Rapid response of modern day ice sheets to external forcing

Author

Bamber, Jonathan L., Alley, Richard B., and Joughin, Ian

Subjects
*ANTARCTIC ice, *ICE caps, *ICE sheets, *CLIMATE change
Abstract

Abstract: The great ice sheets covering Antarctica and Greenland were, traditionally, believed to take thousands of years to respond to external forcing. Recent observations suggest, however, that major changes in the dynamics of parts of the ice sheets are taking place over timescales of years. These changes were not predicted by numerical models, and the underlying cause(s) remains uncertain. It has been suggested that regional oceanic and/or atmospheric warming are responsible but separating the influence and importance of these two forcings has not been possible. In most cases, the role of atmospheric versus oceanic control remains uncertain. Here, we review the observations of rapid change and discuss the possible mechanisms, in the light of advances in numerical modelling and our understanding of the processes that may be responsible. [Copyright &y& Elsevier]

Published
2007
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33. The PSU/UofC finite-element thermomechanical flowline model of ice-sheet evolution

Author

Parizek, Byron R., Alley, Richard B., and MacAyeal, Douglas R.

Subjects
*ICE caps, *ICE sheets, *SEMICONDUCTOR doping, *SOLID solutions
Abstract

Abstract: Ice-sheet modeling to understand past changes and project future ones remains limited by uncertainties in key parameters as well as by shortage of computational resources. A fast two-dimensional dynamic/thermodynamic flowline ice-sheet model has been developed and benchmarked to complement three-dimensional models by allowing a more-thorough exploration of parameter space. A nonlinear Glen flow law with an exponent equal to 3 is assumed for ice. A diffusion formulation of the continuity equation for mass balance of ice sheets is employed. The ice-sheet model is coupled to an elastic lithosphere/relaxed asthenosphere isostatic bedrock model. Snow and superimposed ice thicknesses are determined using advective continuity equations. These thicknesses are then used in the parameterization of the surface accumulation and ablation rates under specified meteorological conditions constrained by ice- and ocean-core data. Heat-flow continuity is maintained by the time-dependent advection/diffusion equation in the ice and time-dependent diffusion equation in the underlying rock. We conduct the first benchmarking of which we are aware of a 2-D model against the European Ice-Sheet Modeling Initiative''s (EISMINT) Level 2 and Level 3 intercomparison “Greenland” experiments. Appropriate behavior is simulated, with deviations from results of a three-dimensional model that are fully explainable as arising only from the change in dimensionality. Basal temperatures are quite accurate when compared to data and results from 3-D models. [Copyright &y& Elsevier]

Published
2005
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34. Automatic Weather Stations and Artificial Neural Networks: Improving the Instrumental Record in West Antarctica.

Author

Reusch, David B. and Alley, Richard B.

Subjects
*METEOROLOGICAL stations, *ICE sheets
Abstract

Automatic weather stations (AWSs) currently provide the only year-round, continuous direct measurements of near-surface weather on the West Antarctic ice sheet away from the coastal manned stations. Improved interpretation of the ever-growing body of ice-core-based paleoclimate records from this region requires a deeper understanding of Antarctic meteorology. As the spatial coverage of the AWS network has expanded year to year, so has the meteorological database. Unfortunately, many of the records are relatively short (less than 10 yr) and/or incomplete (to varying degrees) due to the vagaries of the harsh environment. Climate downscaling work in temperate latitudes suggests that it is possible to use GCM-scale meteorological datasets (e.g., ECMWF reanalysis products) to address these problems in the AWS record and create a uniform and complete database of West Antarctic surface meteorology (at AWS sites). Such records are highly relevant to the improved interpretation of the expanding library of snow-pit and ice-core datasets. Artificial neural network (ANN) techniques are used to predict 6-hourly AWS surface data (temperature, pressure) using large-scale features of the atmosphere (e.g., 500-mb geopotential height) from a region around the AWS. ANNs are trained with a calendar year of observed AWS data (possibly incomplete) and corresponding GCM-scale data. This methodology is sufficient both for high quality predictions within the training set and for predictions outside the training set that are at least comparable to the state of the art. For example, the results presented herein for temperature prediction are approximately equal to those from a satellite-based methodology but with no exposure to problems from surface melt events or sensor changes. Similarly, the significant biases seen in ECMWF surface temperatures are absent from the predictions here, resulting in an rms error that is half as large with respect to the original AWS observations. These... [ABSTRACT FROM AUTHOR]

Published
2002
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35. A northern lead in the orbital band: north–south phasing of Ice-Age events

Author

Alley, Richard B., Brook, Edward J., and Anandakrishnan, Sridhar

Subjects
*ICE sheets, *OCEANOGRAPHY, *OXYGEN isotopes
Abstract

Re-analysis of existing data sets shows that they are fully consistent with northern-insolation control of Ice-Age cycles, and do not provide strong support for alternate models invoking tropical or southern controls. The coldest time of the last 100 ka in central Greenland was nearly synchronous with the minimum in summer insolation about 24 ka BP (thousand years before 1950). Approximately one-third of the total Termination-I warming since then was achieved over the almost 10 ka before the abrupt warming into the Bolling, which some workers have interpreted as the start of the warming. Southern warming as recorded in the Byrd Station, Antarctica ice-isotopic record lagged northern warming. CO2 rise was roughly synchronous with southern warming, methane rise may have been delayed a little as was sea-level rise, and the change in the isotopic composition of atmospheric oxygen was delayed significantly. The data for the extrema just before Termination II are consistent with occurrence of the same phasing as for Termination I, but with somewhat different progression of the two terminations once initiated, perhaps because of differences in the forcing. [Copyright &y& Elsevier]

Published
2002
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36. Ice-core evidence of abrupt climate changes.

Author

Alley, Richard B.

Subjects
*ICE sheets, *CLIMATE change, *PALEOTHERMOMETRY
Abstract

Focuses on ice cores showing records of climate changes. Use of snow layers to determine age; Correlation technique used for dating; Ice cores as local paleothermometers; Ice-core records from Greenland; Implications of the events.

Published
2000
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37. Sticky spots under ice streams.

Author

Alley, Richard B.

Subjects
*ICE sheets
Abstract

Studies the movement of ice streams in West Antarctica. Detection of sticky spots; Raised regions in the surface leading to sticky spots in the bed; Mechanisms causing sticky spots on the bed.

Published
1992

38. Ice-cliff failure via retrogressive slumping.

Author

Parizek, Byron R., Christianson, Knut, Alley, Richard B., Voytenko, Denis, Vaňková, Irena, Dixon, Timothy H., Walker, Ryan T., and Holland, David M.

Subjects
*ICE cliffs, *ICE sheets, *GLACIERS, *ABSOLUTE sea level change
Abstract

Retrogressive slumping could accelerate sea-level rise if ice-sheet retreat generates ice cliffs much taller than observed today. The tallest ice cliffs, which extend roughly 100 m above sea level, calve only after ice-flow processes thin the ice to near flotation. Above some ice-cliff height limit, the stress state in ice will satisfy the material-failure criterion, resulting in faster brittle failure. New terrestrial radar data from Helheim Glacier, Greenland, suggest that taller subaerial cliffs are prone to failure by slumping, unloading submarine ice to allow buoyancy-driven full-thickness calving. Full-Stokes diagnostic modeling shows that the threshold cliff height for slumping is likely slightly above 100 m in many cases, and roughly twice that (145-285 m) in mechanically competent ice under well-drained or low-melt conditions. [ABSTRACT FROM AUTHOR]

Published
2019
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39. Relating bed character and subglacial morphology using seismic data from Thwaites Glacier, West Antarctica.

Author

Muto, Atsuhiro, Anandakrishnan, Sridhar, Alley, Richard B., Horgan, Huw J., Parizek, Byron R., Koellner, Stephen, Christianson, Knut, and Holschuh, Nicholas

Subjects
*SEISMIC wave velocity, *ICE sheets, *SEDIMENTARY basins, *UPLANDS, *SEISMIC surveys
Abstract

Abstract Seismic measurements on Thwaites Glacier show a spatially variable bed character, with implications for ice-sheet stability. The West Antarctic Ice Sheet is losing mass rapidly through outlet glaciers and ice streams in the Amundsen Sea Embayment, including Thwaites Glacier, where limited observations and modeling suggest that ice-flow rates depend on bed properties. Here we characterize bed properties of Thwaites Glacier based on amplitude analysis of reflection-seismic data from a ∼40-km-long profile collected in the approximate flow direction and two ∼10-km-long profiles transverse to flow. The upstream portion of the seismic profile reveals a ∼12-km long sedimentary basin with ice-flow-aligned bedforms capped by a continuous till layer that is likely soft and deforming (porosity ∼0.4–0.45), with several locations where water has pooled at the bed. Downstream of the sedimentary basin, the bed rises by ∼400 m over ∼25 km into subglacial highlands. Our seismic survey of these subglacial highlands reveals strong spatial variations in bed character across rugged topography (∼200 m amplitude at ∼2- to 5-km wavelength) resembling crag-and-tails. Till on the stoss sides (facing upglacier) of topographic highs is more consolidated (porosity ∼0.3–0.35 or lower), whereas the lee sides (facing downglacier) and flat regions exhibit porosity similar to the till of the upstream sedimentary basin. Modeling studies could use the observed correlation between bed character and bed aspect and slope to extend our observations to other parts of Thwaites Glacier, resulting in more-realistic models of future grounding-line retreat. Our findings highlight the need for more geophysical constraints on bed properties for important outlets in Antarctica and Greenland. Highlights • P -wave reflectivities show bed character varies with subglacial morphology. • Relatively flat, ∼12-km-long basin is "soft" bedded, capped by dilatant till. • "Hard" beds on stoss, "soft" beds on lee sides of topography in subglacial highlands. • Localized water layers are scattered beneath upper Thwaites Glacier. [ABSTRACT FROM AUTHOR]

Published
2019
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40. West antarctic ice sheet collapse: Chimera or clear danger?

Author

Alley, Richard B. and Macayeal, Douglas R.

Subjects
*ICE sheets
Abstract

Reviews the result of the study on the west antarctic ice sheet collapse. Lubricated surges of the Laurentide ice sheet in the Heinrich layers in the North Atlantic; Changes in the modern west antarctic ice sheet; Thinning of the modern ice sheet.

Published
1993

41. Icing the North Atlantic.

Author

Alley, Richard B.

Subjects
*ICE sheets, *PALEOCLIMATOLOGY
Abstract

Describes research which studied climate changes related to the extent and movement of the British Ice Sheet. North Atlantic climate changes; Research by McCabe and Clark in this issue; Impact of the Laurentide ice sheet; Oscillations in North Atlantic paleoclimatic records; Observations of Heinrich layers; Models for oscillations; Growth of the Laurentide Ice Sheet; Correlations between Antarctic and Greenland ice cores.

Published
1998
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42. Potential Antarctic Ice Sheet retreat driven by hydrofracturing and ice cliff failure.

Author

Pollard, David, DeConto, Robert M., and Alley, Richard B.

Subjects
*SEA level, *MARINE geodesy, *ICE sheets, *CONTINENTAL glaciers
Abstract

Geological data indicate that global mean sea level has fluctuated on 10 3 to 10 6 yr time scales during the last ∼25 million years, at times reaching 20 m or more above modern. If correct, this implies substantial variations in the size of the East Antarctic Ice Sheet (EAIS). However, most climate and ice sheet models have not been able to simulate significant EAIS retreat from continental size, given that atmospheric CO 2 levels were relatively low throughout this period. Here, we use a continental ice sheet model to show that mechanisms based on recent observations and analysis have the potential to resolve this model–data conflict. In response to atmospheric and ocean temperatures typical of past warm periods, floating ice shelves may be drastically reduced or removed completely by increased oceanic melting, and by hydrofracturing due to surface melt draining into crevasses. Ice at deep grounding lines may be weakened by hydrofracturing and reduced buttressing, and may fail structurally if stresses exceed the ice yield strength, producing rapid retreat. Incorporating these mechanisms in our ice-sheet model accelerates the expected collapse of the West Antarctic Ice Sheet to decadal time scales, and also causes retreat into major East Antarctic subglacial basins, producing ∼17 m global sea-level rise within a few thousand years. The mechanisms are highly parameterized and should be tested by further process studies. But if accurate, they offer one explanation for past sea-level high stands, and suggest that Antarctica may be more vulnerable to warm climates than in most previous studies. [ABSTRACT FROM AUTHOR]

Published
2015
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43. On the nature of the dirty ice at the bottom of the GISP2 ice core

Author

Bender, Michael L., Burgess, Edward, Alley, Richard B., Barnett, Bruce, and Clow, Gary D.

Subjects
*ICE sheets, *GLACIERS, *ICE caps, *ARGON isotopes, *ISOTOPE separation, *PERMAFROST, *GREENLAND ice
Abstract

Abstract: We present data on the triple Ar isotope composition in trapped gas from clean, stratigraphically disturbed ice between 2800 and 3040m depth in the GISP2 ice core, and from basal dirty ice from 3040 to 3053m depth. We also present data for the abundance and isotopic composition of O2 and N2, and abundance of Ar, in the basal dirty ice. The Ar/N2 ratio of dirty basal ice, the heavy isotope enrichment (reflecting gravitational fractionation), and the total gas content all indicate that the gases in basal dirty ice originate from the assimilation of clean ice of the overlying glacier, which comprises most of the ice in the dirty bottom layer. O2 is partly to completely depleted in basal ice, reflecting active metabolism. The gravitationally corrected ratio of 40Ar/38Ar, which decreases with age in the global atmosphere, is compatible with an age of 100–250ka for clean disturbed ice. In basal ice, 40Ar is present in excess due to injection of radiogenic 40Ar produced in the underlying continental crust. The weak depth gradient of 40Ar in the dirty basal ice, and the distribution of dirt, indicate mixing within the basal ice, while various published lines of evidence indicate mixing within the overlying clean, disturbed ice. Excess CH4, which reaches thousands of ppm in basal dirty ice at GRIP, is virtually absent in overlying clean disturbed ice, demonstrating that mixing of dirty basal ice into the overlying clean ice, if it occurs at all, is very slow. Order-of-magnitude estimates indicate that the mixing rate of clean ice into dirty ice is sufficient to maintain a steady thickness of dirty ice against thinning from the mean ice flow. The dirty ice appears to consist of two or more basal components in addition to clean glacial ice. A small amount of soil or permafrost, plus preglacial snow, lake or ground ice could explain the observations. [ABSTRACT FROM AUTHOR]

Published
2010
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44. Magnetic anisotropy and debris-dependent rheological heterogeneity within stratified basal ice.

Author

Hopkins, Nathan R., Evenson, Edward B., Bilardello, Dario, Alley, Richard B., Berti, Claudio, and Kodama, Kenneth P.

Subjects
*MAGNETIC anisotropy, *WATER supply, *ICE, *ICE sheets, *MAGNETIC susceptibility, *ALPINE glaciers, *MARINE debris, *SHEAR flow
Abstract

Basal ice of glaciers and ice sheets frequently contains a well-developed stratification of distinct, semi-continuous, alternating layers of debris-poor and debris-rich ice. Here, the nature and distribution of shear within stratified basal ice are assessed through the anisotropy of magnetic susceptibility (AMS) of samples collected from Matanuska Glacier, Alaska. Generally, the AMS reveals consistent moderate-to-strong fabrics reflecting simple shear in the direction of ice flow; however, AMS is also dependent upon debris content and morphology. While sample anisotropy is statistically similar throughout the sampled section, debris-rich basal ice composed of semi-continuous mm-scale layers (the stratified facies) possesses well-defined triaxial to oblate fabrics reflecting shear in the direction of ice flow, whereas debris-poor ice containing mm-scale star-shaped silt aggregates (the suspended facies) possesses nearly isotropic fabrics. Thus, deformation within the stratified basal ice appears concentrated in debris-rich layers, likely the result of decreased crystal size and greater availability of unfrozen water associated with high debris content. These results suggest that variations in debris-content over small spatial scales influence ice rheology and deformation in the basal zone. [ABSTRACT FROM AUTHOR]

Published
2019
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45. Basal characteristics of the main sticky spot on the ice plain of Whillans Ice Stream, Antarctica.

Author

Luthra, Tarun, Anandakrishnan, Sridhar, Winberry, J. Paul, Alley, Richard B., and Holschuh, Nicholas

Subjects
*ICE sheets, *GLACIERS, *MASS budget (Geophysics), *SEISMIC reflection method, *LONGITUDINAL waves
Abstract

Understanding the processes that affect streaming ice flow and the mass balance of glaciers and ice sheets requires sound knowledge of their subglacial environments. Previous studies have shown that an extensive deformable subglacial sediment layer favors fast ice-stream flow. However, areas of high basal drag, termed sticky spots, are of particular interest because they inhibit the fast flow of the overriding ice. The stick-slip behavior of Whillans Ice Stream (WIS) is perhaps the most conspicuous manifestation of a subglacial sticky spot. We present new ice-thickness and seismic-reflection measurements collected over the main sticky spot in the ice plain of WIS, allowing us to elucidate its role in the behavior of the ice stream. Ice-thickness and surface-elevation data show that the sticky spot occupies a subglacial topographic high. Water flow in response to the hydrological potential gradient will be routed around the sticky spot if effective pressures are similar on the sticky spot and elsewhere. The seismic experiment imaged a laterally continuous basal layer approximately 6 m thick, having compressional wave velocities of greater than 1800 m s −1 and density greater than 1800 kg m −3 , indicative of a till layer that is stiffer than corresponding till beneath well-lubricated parts of the ice stream. This layer likely continues to deform under the higher shear stress of the sticky spot, and some water may be pumped up onto the sticky spot during motion events. [ABSTRACT FROM AUTHOR]

Published
2016
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46. Subglacial Lake Whillans — Seismic observations of a shallow active reservoir beneath a West Antarctic ice stream

Author

Horgan, Huw J., Anandakrishnan, Sridhar, Jacobel, Robert W., Christianson, Knut, Alley, Richard B., Heeszel, David S., Picotti, Stefano, and Walter, Jacob I.

Subjects
*SUBGLACIAL lakes, *ICE sheets, *ICE streams, *THICKNESS measurement, *ALTIMETERS, *METEOROLOGICAL observations, *SEDIMENTS
Abstract

Abstract: Active subglacial lakes concentrate the distribution of water beneath ice sheets in both space and time. Seismic and surface observations from Subglacial Lake Whillans (SLW), West Antarctica, reveal that this active lake forms a persistent, albeit fluctuating, reservoir beneath Whillans Ice Stream. Imaging and phase observations using active-source seismic data show that SLW is a perpetually shallow feature. When surveyed near its low-stand, a water column was resolvable by seismic techniques along only 5km of the 45km profiled, with a maximum depth of less than 8m. Satellite altimetry shows that the high-stand adds no more than 3–4m to this. This water column presents a suitable drill site at S 84.240° W 153.694°. Elsewhere, the majority of the bed appears wet with soft sediment or water thicknesses of less than the imaging resolution of our data of approximately 2m. The surface expression of the active lake, previously revealed by ICESat elevation data and image differencing, generally corresponds to the seismic estimate of soft sediment or water, with notable exceptions occurring at the upstream and downstream ends of the lake. These exceptions indicate that SLW''s water column is very shallow or absent in places at low-stands, or has disconnected or transiently active and inactive portions. [Copyright &y& Elsevier]

Published
2012
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47. Glaciohydraulic supercooling in former ice sheets?

Author

Larson, Grahame J., Lawson, Daniel E., Evenson, Edward B., Alley, Richard B., Knudsen, Óskar, Lachniet, Mathew S., and Goetz, Staci L.

Subjects
*GLACIERS, *ICE caps, *ICE sheets, *CRYOSCOPY
Abstract

Abstract: Glaciohydraulic supercooling has been observed at many modern glaciers and has been shown to generate thick zones of debris-laden basal ice which, when exposed to melting, can produce debris-flow and melt-out till deposits, as well as hummocky terrain. Glaciohydraulic supercooling probably occurred in former continental ice sheets, especially where ice flowed out of deep basins, or up steep slopes. Evidence to support glaciohydraulic supercooling in former ice sheets, however, is limited but may include sedimentary sequences of melt-out till and debris-flow deposits and hummocky terrain along the distal rim of overdeepenings and crests of adverse bed slopes. [Copyright &y& Elsevier]

Published
2006
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48. Interpretation of topography and bed properties beneath Thwaites Glacier, West Antarctica using seismic reflection methods.

Author

Clyne, Elisabeth R., Anandakrishnan, Sridhar, Muto, Atsuhiro, Alley, Richard B., and Voigt, Donald E.

Subjects
*SEISMIC reflection method, *TOPOGRAPHY, *ANTARCTIC ice, *ICE sheets
Abstract

Thwaites Glacier (TG), West Antarctica, is losing mass in response to oceanic forcing. Future evolution could lead to deglaciation of the marine basins of the West Antarctic Ice Sheet, depending on ongoing and future climate forcings, but also on basal topography/bathymetry, basal properties, and physical processes operating within the grounding zone. Hence, it is important to know the distribution of bed types of TG's interior and grounding zone, and to incorporate them accurately in models in order to improve estimates of retreat rates and stability. Here we estimate properties of the bed by determining its acoustic impedance from amplitude analysis of reflection seismic data. We report on the results from two lines – a longitudinal (L-Line) and a transverse (N-Line) – on a central flowline of TG ∼100 km inland from the grounding zone. The data show considerable spatial variability in bed forms and properties, similar to results from a comparable survey farther inland. Notably, we find the same pattern here of hard (presumed bedrock) material on the stoss side of bumps and soft (presumed till) on the lee side. Physical understanding indicates the basal flow law describing motion over different regions of TG's bed likely varies from nearly-viscous over the bedrock regions to nearly-plastic over till regions, providing guidance for modeling. • The "hard" stoss and "soft" lee bed pattern persists downstream of prior observations. • Localized regions of water occur in the lees of bumps and the downstream end of lower Thwaites Glacier. • "Stoss-side-moats" in regions with high topographic relief are "hard" and may be locations of increased scour. [ABSTRACT FROM AUTHOR]

Published
2020
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49. Response.

Author

Overpeck, Jonathan T., Otto-Bliesner, Belie L., Miller, Gifford H., Alley, Richard B., Muhs, Daniel R., and Marshall, Shawn J.

Subjects
*LETTERS to the editor, *ICE sheets
Abstract

A response by the authors to a letter about their articles on the stability of the Antarctic and Greenland Ice Sheets in the March 24, 2006 issue is presented.

Published
2006

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