by Stefanie Waldek

January 15, 2026

from Space Website

True-color satellite image of Earth centered on the South Pole

with cloud coverage, during winter solstice at 12 a.m GMT.

This image in orthographic projection was compiled from

data acquired by the Landsat 5 & 7 satellites.

(Image credit: Planet Observer

Universal Images Group

via Getty Images)

Understanding Antarctica's

topography beneath the ice

is crucial to predicting

ice loss and sea level rise...

One of the least-mapped planetary surfaces in our solar system is closer to home than you might expect: the continent of Antarctica.

While Antarctica's icy surface is fairly well-studied, its subglacial bedrock landscape - located up to 3 miles (4.8 km) beneath the ice - is more difficult to discern.

Current methods of mapping require expensive ground-based and airborne surveys, and such activities are few and far between.

To create the most detailed map of Antarctica's subglacial topography yet, a team of researchers led by Helen Ockenden, of the University of Edinburgh and the Institut des Geosciences de l'Environnement in France, applied a modeling technique known as Ice Flow Perturbation Analysis (IFPA).

IFPA uses detailed satellite observations of the ice surface and the physics of ice flow to infer the topography that exists below the ice.

"Our IFPA map of Antarctica's subglacial landscape reveals that an enormous level of detail about the subglacial topography of Antarctica can be inverted from satellite observations of the ice surface, especially when combined with ice thickness observations from geophysical surveys," wrote the team in a new paper on their research.

In creating the map, the researchers discovered previously unknown or poorly resolved geologic features, from steep-sided channels possibly linked to mountain drainage systems to deep valleys reminiscent of U-shaped glacial valleys elsewhere on Earth.

These features might provide insight to an ancient, pre-glacial Antarctica.

Maps like these are key to understanding the movement of the ice above across the continent, which ultimately allows researchers to predict how Antarctic ice might contribute to global sea-level rise.

But while this new IFPA map reveals unprecedented details about Antarctica's hidden topography, there is still room for greater precision.

The reconstruction resolves features at the mesoscale - about 1.2 to 18.6 miles (2 to 30 km) - meaning that smaller landforms remain beyond its reach.

This composite image demonstrates

the higher resolution of the new IFPA maps

of Antarctica's subglacial topography (left)

compared to a previous map (right).

(Image credit: Courtesy of Helen Ockenden)
 

"Our landscape classification and topographic map therefore serve as important guides toward more focused studies of Antarctica's subglacial landscape, informing where future detailed geophysical surveys should be targeted, as well as the extents and resolutions (e.g., flight-track spacing) required to capture the fine details required for ice flow modeling," the team wrote.

And there's no better time than the present to prepare those future surveys.

"The upcoming International Polar Year 2031-2033 presents a timely opportunity for international efforts to integrate expansive observation and modeling approaches to better understand ice sheet and bedrock properties, guided by methods similar to that of Ockenden et al," Duncan Young, of the University of Texas Institute for Geophysics, wrote in a "Perspective" piece accompanying the new study.

The team's research (Complex Mesoscale Landscapes beneath Antarctica Mapped from Space) was published in the journal Science on Jan. 15.