The interplay of glacial dynamics, glaciofluvial and aeolian transport in proglacial
landscapes plays an important role in local environmental systems and in the global
context by affecting the amount of dust generated and transported at different
phases of glacial-interglacial cycles. Glacial outwash plains are a significant source
of dust, however the processes involved in dust generation on proglacial floodplains
are poorly documented. We report a study of the quantity and characteristics of
aeolian suspended sediment transport in Sandflugtdalen, a valley containing a
proglacial floodplain and aeolian dunefield in West Greenland. Although the
surface sediment of both the floodplain and dunefield contain a considerable
amount of sand-sized material, wind speeds recorded were insufficiently strong to
mobilise this material; this is probably due to the armouring effect of coarser
particles in the surface deposits. Nevertheless, fine (dust-sized) aeolian sediments
were transported down valley in suspension and the source of this material was a
silt-dominated meltwater deposit up valley from the monitoring sites. Dust transport
ranged from 0.0008-0.082 g m-w s-1 over seven days and 0.0035-0.011 g m-w s-1
over a further 57 days during which no additional fluvial sediments were deposited.
The reduction in sediment transport rate is attributed to both a depleted sediment
supply and a decrease in above threshold winds. The supply of fine sediments to
this proglacial region is dependent on meltwater suspended sediment loads which
are predicted to increase during glacier retreat; reworking of the floodplain during
ice retreat may also make more material available for aeolian transport.
History
School
Social Sciences
Department
Geography and Environment
Citation
BULLARD, J.E. and AUSTIN, M.J., 2011. Dust generation on a proglacial floodplain, West Greenland. Aeolian Research, 3 (1), pp. 43-54.