Influence of persistent wind scour on the surface mass balance of Antarctica

Accurate quantification of surface snow accumulation over Antarctica is a key constraint for estimates of the Antarctic mass balance, as well as climatic interpretations of ice-core records. Over Antarctica, near-surface winds accelerate down relatively steep surface slopes, eroding and sublimating...

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Bibliographic Details
Main Authors: Das, Indrani, Bell, Robin E., Scambos, Ted A., Wolovick, Michael J., Creyts, Timothy T., Studinger, Michael, Frearson, Nicholas P., Nicolas, Julien P., Lenaerts, Jan T. M., Van Den Broeke, Michiel R.
Format: Text
Language:unknown
Published: Columbia University 2013
Subjects:
Wind erosion
Snow > Measurement
Remote sensing
Earth sciences
Antarctic
The Antarctic
East Antarctica
Antarc*
Antarctica
ice core
Online Access:https://dx.doi.org/10.7916/d8cj9wx7
https://academiccommons.columbia.edu/doi/10.7916/D8CJ9WX7
Description
Summary:Accurate quantification of surface snow accumulation over Antarctica is a key constraint for estimates of the Antarctic mass balance, as well as climatic interpretations of ice-core records. Over Antarctica, near-surface winds accelerate down relatively steep surface slopes, eroding and sublimating the snow. This wind scour results in numerous localized regions (<=200 km^2) with reduced surface accumulation. Estimates of Antarctic surface mass balance rely on sparse point measurements or coarse atmospheric models that do not capture these local processes, and overestimate the net mass input in wind-scour zones. Here we combine airborne radar observations of unconformable stratigraphic layers with lidar-derived surface roughness measurements to identify extensive wind-scour zones over Dome A, in the interior of East Antarctica. The scour zones are persistent because they are controlled by bedrock topography. On the basis of our Dome A observations,we develop an empirical model to predict wind-scour zones across the Antarctic continent and find that these zones are predominantly located in East Antarctica. We estimate that ~2.7–6.6% of the surface area of Antarctica has persistent negative net accumulation due to wind scour, which suggests that, across the continent, the snow mass input is overestimated by 11–36:5 Gt yr-1 in present surface-massbalance calculations.

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