TY - JOUR
T1 - Dust from the dark region in the western ablation zone of the Greenland ice sheet
AU - Wientjes, I.G.M.
AU - van de Wal, R.S.W.
AU - Reichart, G.-J.
AU - Sluijs, A.
AU - Oerlemans, J.
PY - 2011
Y1 - 2011
N2 - A dark region tens of kilometres wide is located
in the western ablation zone of the Greenland ice sheet. The
dark appearance is caused by higher amounts of dust relative
to the brighter surroundings. This dust has either been
deposited recently or was brought to the surface by melting
of outcropping ice. Because the resulting lower albedos
may have a significant effect on melt rates, we analysed
surface dust on the ice, also called cryoconite, from locations
in the dark region as well as locations from the brighter
surrounding reference ice with microscopic and geochemical
techniques to unravel its composition and origin. We find
that (part of) the material is derived from the outcropping
ice, and that there is little difference between dust from the
dark region and from the reference ice. The dust from the
dark region seems enriched in trace and minor elements that
are mainly present in the current atmosphere because of anthropogenic
activity. This enrichment is probably caused by
higher precipitation and lower melt rates in the dark region
relative to the ice marginal zone. The rare earth elemental
ratios of the investigated material are approximately the
same for all sites and resemble Earth’s average crust composition.
Therefore, the cryoconite probably does not contain
volcanic material. The mineralogical composition of the
dust excludes Asian deserts, which are often found as provenance
for glacial dust in ice cores, as source regions. Consequently,
the outcropping dust likely has a more local origin.
Finally, we find cyanobacteria and algae in the cryoconite.
Total Organic Carbon accounts for up to 5 weight per cent of the cryoconite from the dark region, whereas dust samples
from the reference ice contain only 1% or less. This organic
material is likely formed in situ. Because of their high light
absorbency, cyanobacteria and the organic material they produce
contribute significantly to the low albedo of the dark
region.
AB - A dark region tens of kilometres wide is located
in the western ablation zone of the Greenland ice sheet. The
dark appearance is caused by higher amounts of dust relative
to the brighter surroundings. This dust has either been
deposited recently or was brought to the surface by melting
of outcropping ice. Because the resulting lower albedos
may have a significant effect on melt rates, we analysed
surface dust on the ice, also called cryoconite, from locations
in the dark region as well as locations from the brighter
surrounding reference ice with microscopic and geochemical
techniques to unravel its composition and origin. We find
that (part of) the material is derived from the outcropping
ice, and that there is little difference between dust from the
dark region and from the reference ice. The dust from the
dark region seems enriched in trace and minor elements that
are mainly present in the current atmosphere because of anthropogenic
activity. This enrichment is probably caused by
higher precipitation and lower melt rates in the dark region
relative to the ice marginal zone. The rare earth elemental
ratios of the investigated material are approximately the
same for all sites and resemble Earth’s average crust composition.
Therefore, the cryoconite probably does not contain
volcanic material. The mineralogical composition of the
dust excludes Asian deserts, which are often found as provenance
for glacial dust in ice cores, as source regions. Consequently,
the outcropping dust likely has a more local origin.
Finally, we find cyanobacteria and algae in the cryoconite.
Total Organic Carbon accounts for up to 5 weight per cent of the cryoconite from the dark region, whereas dust samples
from the reference ice contain only 1% or less. This organic
material is likely formed in situ. Because of their high light
absorbency, cyanobacteria and the organic material they produce
contribute significantly to the low albedo of the dark
region.
U2 - 10.5194/tc-5-589-2011
DO - 10.5194/tc-5-589-2011
M3 - Article
SN - 1994-0416
VL - 5
SP - 589
EP - 601
JO - The Cryosphere
JF - The Cryosphere
IS - 3
ER -