TY - JOUR
T1 - Drifting snow climate of the Greenland ice sheet: a study with a regional climate model
AU - Lenaerts, J.T.M.
AU - van den Broeke, M.R.
AU - van Angelen, J.H.
AU - van Meijgaard, E.
AU - Déry, S.J.
PY - 2012
Y1 - 2012
N2 - This paper presents the drifting snow climate of
the Greenland ice sheet, using output from a high-resolution
( 11 km) regional climate model. Because reliable direct
observations of drifting snow do not exist, we evaluate
the modeled near-surface climate instead, using automatic
weather station (AWS) observations from the K-transect and
find that RACMO2 realistically simulates near-surface wind
speed and relative humidity, two variables that are important
for drifting snow. Integrated over the ice sheet, drifting
snow sublimation (SUds) equals 24±3 Gt yr−1, and is significantly
larger than surface sublimation (SUs, 16±2 Gt yr−1).
SUds strongly varies between seasons, and is only important
in winter, when surface sublimation and runoff are small.
A rapid transition exists between the winter season, when
snowfall and SUds are important, and the summer season,
when snowmelt is significant, which increases surface snow
density and thereby limits drifting snow processes. Drifting
snow erosion (ERds) is only important on a regional scale.
In recent decades, following decreasing wind speed and rising
near-surface temperatures, SUds exhibits a negative trend
(0.1±0.1 Gt yr−1), which is compensated by an increase in
SUs of similar magnitude.
AB - This paper presents the drifting snow climate of
the Greenland ice sheet, using output from a high-resolution
( 11 km) regional climate model. Because reliable direct
observations of drifting snow do not exist, we evaluate
the modeled near-surface climate instead, using automatic
weather station (AWS) observations from the K-transect and
find that RACMO2 realistically simulates near-surface wind
speed and relative humidity, two variables that are important
for drifting snow. Integrated over the ice sheet, drifting
snow sublimation (SUds) equals 24±3 Gt yr−1, and is significantly
larger than surface sublimation (SUs, 16±2 Gt yr−1).
SUds strongly varies between seasons, and is only important
in winter, when surface sublimation and runoff are small.
A rapid transition exists between the winter season, when
snowfall and SUds are important, and the summer season,
when snowmelt is significant, which increases surface snow
density and thereby limits drifting snow processes. Drifting
snow erosion (ERds) is only important on a regional scale.
In recent decades, following decreasing wind speed and rising
near-surface temperatures, SUds exhibits a negative trend
(0.1±0.1 Gt yr−1), which is compensated by an increase in
SUs of similar magnitude.
U2 - 10.5194/tc-6-891-2012
DO - 10.5194/tc-6-891-2012
M3 - Article
SN - 1994-0416
VL - 6
SP - 891
EP - 899
JO - The Cryosphere
JF - The Cryosphere
ER -