Subglacial Geology and Geomorphology of the Pensacola‐Pole Basin, East Antarctica

Paxman, Guy J. G.; Jamieson, Stewart S. R.; Ferraccioli, Fausto; Jordan, Tom A.; Bentley, Michael J.; Ross, Neil; Forsberg, R.; Matsuoka, Kenichi; Steinhage, Daniel; Eagles, Graeme; Casal, Tânia

doi:10.1029/2018gc008126

Cited by 32 publications

(57 citation statements)

References 90 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…However, several regions remained free of data (Pritchard, 2014). Other compilations are now due that will incorporate new data that have been acquired to fill many of Bedmap2's gaps, including, for example, across Marie Byrd Land, West Antarctica, the Recovery Basin/South Pole, the Dome F region and Princess Elisabeth Land, as well as newly remastered TUD-NSF-SPRI film data and updated thickness measurements for the Ross Ice Shelf (Tang and others, 2016; Young and others, 2016; Popov, 2017; Humbert and others, 2018; Jordan and others, 2018a; Karlsson and others, 2018; Morlighem and others, 2019; Paxman and others, 2019; Schroeder and others, 2019; Tinto and others, 2019). Compared to Antarctica, surveys of Greenland starting in the 1990s by the University of Kansas as part of NASA's Program for Arctic Regional Climate Assessment (PARCA) and later OIB have led to relatively abundant and mutually interpretable observations of the ice-sheet bed and englacial properties (Bamber and others, 2013; Gogineni and others, 2014; MacGregor and others, 2015a; Morlighem and others, 2017).…”

Section: Datamentioning

confidence: 99%

Five decades of radioglaciology

et al. 2020

View full text Add to dashboard Cite

Radar sounding is a powerful geophysical approach for characterizing the subsurface conditions of terrestrial and planetary ice masses at local to global scales. As a result, a wide array of orbital, airborne, ground-based, and in situ instruments, platforms and data analysis approaches for radioglaciology have been developed, applied or proposed. Terrestrially, airborne radar sounding has been used in glaciology to observe ice thickness, basal topography and englacial layers for five decades. More recently, radar sounding data have also been exploited to estimate the extent and configuration of subglacial water, the geometry of subglacial bedforms and the subglacial and englacial thermal states of ice sheets. Planetary radar sounders have observed, or are planned to observe, the subsurfaces and near-surfaces of Mars, Earth's Moon, comets and the icy moons of Jupiter. In this review paper, and the thematic issue of the Annals of Glaciology on ‘Five decades of radioglaciology’ to which it belongs, we present recent advances in the fields of radar systems, missions, signal processing, data analysis, modeling and scientific interpretation. Our review presents progress in these fields since the last radio-glaciological Annals of Glaciology issue of 2014, the context of their history and future prospects.

show abstract

Section: Datamentioning

confidence: 99%

Five decades of radioglaciology

et al. 2020

View full text Add to dashboard Cite

show abstract

“…Large-scale international aeromagnetic www.nature.com/scientificreports/ exploration in Antarctica has continued since ADMAP-2, with major more recent surveys flown e.g. over the Recovery and South Pole frontiers 48,49 . For Southern Africa (Fig.…”

Section: Methodsmentioning

confidence: 99%

East Antarctica magnetically linked to its ancient neighbours in Gondwana

Ebbing

Dilixiati

Haas

et al. 2021

Sci Rep

Self Cite

View full text Add to dashboard Cite

We present a new magnetic compilation for Central Gondwana conformed to a recent satellite magnetic model (LCS-1) with the help of an equivalent layer approach, resulting in consistent levels, corrections that have not previously been applied. Additionally, we use the satellite data to its full spectral content, which helps to include India, where high resolution aeromagnetic data are not publically available. As India is located north of the magnetic equator, we also performed a variable reduction to the pole to the satellite data by applying an equivalent source method. The conformed aeromagnetic and satellite data are superimposed on a recent deformable Gondwana plate reconstruction that links the Kaapvaal Craton in Southern Africa with the Grunehogna Craton in East Antarctica in a tight fit. Aeromagnetic anomalies unveil, however, wider orogenic belts that preserve remnants of accreted Meso- to Neoproterozoic crust in interior East Antarctica, compared to adjacent sectors of Southern Africa and India. Satellite and aeromagnetic anomaly datasets help to portray the extent and architecture of older Precambrian cratons, re-enforcing their linkages in East Antarctica, Australia, India and Africa.

show abstract

“…Modeling studies that are particularly important in the Antarctic context include making use of the curvature of gravity field (Ebbing et al, 2018), finding the elastic crustal thickness (Chen et al, 2018), comparison of models of, e.g., Moho depth from various approaches (Baranov et al, 2018;Pappa et al, 2019) and integrating density, compositional and thermal models (Haeger et al, 2019). Interpretation of magnetic anomalies combined with other datasets can support delineation of crustal domains (Goodge and Finn, 2010;Aitken et al, 2014;Ruppel et al, 2018;Paxman et al, 2019), and are also used to infer depth to the Curie temperature isotherm (Maule et al, 2005;Martos et al, 2017).…”

Section: Geophysicsmentioning

confidence: 99%

“…Understanding of the subglacial landscape evolution by erosion and deposition calls for an interdisciplinary approach, whereby ice sheet development, geophysical data and geological data are combined to constrain Antarctica's past and present landscape, and isostasy (Jamieson and Sugden, 2008;Jamieson et al, 2010;Mackintosh et al, 2014;Paxman et al, 2016;Paxman et al, 2018;Paxman et al, 2019).…”

Section: Erosion and Depositionmentioning

confidence: 99%

The Antarctic Crust and Upper Mantle: A Flexible 3D Model and Software Framework for Interdisciplinary Research

et al. 2020

View full text Add to dashboard Cite

Interdisciplinary research concerning solid Earth–cryosphere interaction and feedbacks requires a working model of the Antarctic crust and upper mantle. Active areas of interest include the effect of the heterogeneous Earth structure on glacial isostatic adjustment, the distribution of geothermal heat, and the history of erosion and deposition. In response to this research need, we construct an adaptable and updatable 3D grid model in a software framework to contain and process solid Earth data. The computational framework, based on an open source software package agrid, allows different data sources to be combined and jointly analyzed. The grid model is populated with crustal properties from geological observations and geochronology results, where such data exist, and published segmentation from geophysical data in the interior where direct observations are absent. The grid also contains 3D geophysical data such as wave speed and derived temperature from seismic tomographic models, and 2D datasets such as gravity anomalies, surface elevation, subglacial temperature, and ice sheet boundaries. We demonstrate the usage of the framework by computing new estimates of subglacial steady-state heat flow in a continental scale model for east Antarctica and a regional scale model for the Wilkes Basin in Victoria Land. We hope that the 3D model and framework will be used widely across the solid Earth and cryosphere research communities.

show abstract

Subglacial Geology and Geomorphology of the Pensacola‐Pole Basin, East Antarctica

Cited by 32 publications

References 90 publications

Five decades of radioglaciology

Five decades of radioglaciology

East Antarctica magnetically linked to its ancient neighbours in Gondwana

The Antarctic Crust and Upper Mantle: A Flexible 3D Model and Software Framework for Interdisciplinary Research

Contact Info

Product

Resources

About