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A 2000-year record of ocean influence on Jakobshavn Isbræ calving activity, based on marine sediment cores
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Article de revue
Este ítem está publicado en
The Holocene. 2018-08-30, vol. 28, n° 11, p. 1731-1744
Resumen en inglés
The Greenland Ice Sheet has experienced significant mass loss in recent years. A substantial component of this is attributable to the retreat of marineterminating
outlet glaciers, which lose mass through increases in ...Leer más >
The Greenland Ice Sheet has experienced significant mass loss in recent years. A substantial component of this is attributable to the retreat of marineterminating
outlet glaciers, which lose mass through increases in calving, submarine melting and terrestrial meltwater discharge. In terms of iceberg
production, Jakobshavn Isbræ is the largest marine-terminating glacier in Greenland, yet relatively little is known about its history before the first glacier
margin observations in 1851. Two marine sediment cores obtained 15 and 19 km northwest from the mouth of Jakobshavn Isfjord were analysed to
reconstruct the past behaviour of Jakobshavn Isbræ and to investigate the response of the glacier system to ocean forcing. These records provide longterm
(~2000) context for assessing the significance of the rapid changes in glacier stability over the last century. The X-ray imagery and high-resolution
grain size analysis from both cores reveal distinct multi-centennial-scale changes in the flux of iceberg-rafted debris (IRD) from Jakobshavn Isbræ.
Foraminiferal analysis shows that variability in the relatively warm West Greenland Current (WGC) may have been an important driver of calving activity
at Jakobshavn Isbræ. We find that iceberg rafting and WGC inflow were relatively high from onset of the record, at 60 BC, until AD 1100. Subsequently,
the inflow of the WGC into Disko Bugt decreased. This was accompanied by a dramatic reduction in IRD from AD 1500 to 1850, which is attributed
to the establishment of a floating ice tongue. We also show that ocean warming in the 20th century is part of a longer-term warming trend in the WGC
which started at around AD 1700. Finally, these new records underline the complexity of glaciomarine sediments; IRD variability was driven by the inflow
of the WGC but was also modulated by a complex interplay of air temperature, sea-ice coverage and ice margin proximity< Leer menos
Palabras clave en inglés
Disko Bugt
foraminifera
Greenland
Holocene
ice-rafted debris
Jakobshavn Isbræ
palaeoclimatology
West Greenland Current
Centros de investigación