2020
DOI: 10.1029/2019gl085176
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The Northwestern Greenland Ice Sheet During The Early Pleistocene Was Similar To Today

Abstract: The multi‐million year history of the Greenland Ice Sheet remains poorly known. Ice‐proximal glacial marine diamict provides a direct but discontinuous record of ice sheet behavior; it is underutilized as a climate archive. Here, we present a novel multiproxy analysis of an Early Pleistocene marine diamict from northwestern Greenland. Low cosmogenic nuclide concentrations indicate minimal near‐surface exposure, similar to modern terrestrial sediment. Detrital apatite (U‐Th‐Sm)/He (AHe) ages all predate glaciat… Show more

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Cited by 15 publications
(20 citation statements)
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“…The cobbles were most likely derived from areas of warm-based ice, or areas that had warm-based ice during at least one time, in order for plucking or freeze-on to have occurred. This overrepresentation of erosive areas is similar to biases in records developed from marine sediment cores (Bierman et al, 2016;Christ et al, 2019;Flesche-Kleiven et al, 2002;Helland and Holmes, 1997;Larsen et al, 1994) and studies of sediment emanating from glacial drainages (Nelson et al, 2014). The cobbles therefore resulted from processes operating in sediment source areas beneath the ice sheet, presumably areas of warm-based and erosive ice, rather than the subglacial landscape as a whole.…”
Section: Subglacial Cobbles Generally Record Deep Subglacial Erosionsupporting
confidence: 71%
See 1 more Smart Citation
“…The cobbles were most likely derived from areas of warm-based ice, or areas that had warm-based ice during at least one time, in order for plucking or freeze-on to have occurred. This overrepresentation of erosive areas is similar to biases in records developed from marine sediment cores (Bierman et al, 2016;Christ et al, 2019;Flesche-Kleiven et al, 2002;Helland and Holmes, 1997;Larsen et al, 1994) and studies of sediment emanating from glacial drainages (Nelson et al, 2014). The cobbles therefore resulted from processes operating in sediment source areas beneath the ice sheet, presumably areas of warm-based and erosive ice, rather than the subglacial landscape as a whole.…”
Section: Subglacial Cobbles Generally Record Deep Subglacial Erosionsupporting
confidence: 71%
“…However, the depth of scouring, spatial distribution of erosive versus non-erosive areas, and mechanisms of sediment entrainment and transport remain uncertain due to the inaccessibility of the subglacial landscape. Ice retreat during interglacial periods can expose a limited view of surfaces that are usually covered by ice, and studies of sediments deposited in the marine realm (Bierman et al, 2016;Christ et al, 2019;Flesche-Kleiven et al, 2002;Helland and Holmes, 1997;Larsen et al, 1994) provide an offshore view of glacial processes. Analysis of bedrock at the bottom of ice cores (Schaefer et al, 2016) provides a direct sampling of the subglacial landscape, albeit at a single point in space.…”
Section: Introductionmentioning
confidence: 99%
“…Ice cover grew substantially at 3.3 Ma ( 14) and culminated in an expanded GrIS by 2.7 Ma (1). Cosmogenic isotopic analyses of IRD and other glacial-marine sediment suggest that glacial erosion began stripping the preglacial landscape by 7 Ma and had eroded most shallow regolith by 1.8 to 2.0 Ma (2,15). Charcoal and organic debris in outwash near the Hiawatha Crater (16) and pollen in marine sediment in Baffin Bay and the Labrador Sea indicates that boreal forests in humid, cool-temperate to sub-Arctic climates during the Late Pliocene transitioned to tundra vegetation in a cold polar climate during the Early Pleistocene (17,18).…”
mentioning
confidence: 99%
“…Both in the present and in the geological past, ice streams have been important conduits for ice sheet mass redistribution and sediment delivery to ice sheet margins (Vorren and Laberg, 1997). Mega-scale glacial lineations (MSGLs) are elongated landforms (typically 1-10 km long) that form by the streamlining (Clark et al, 2003) or accretion of subglacial sediments (Spagnolo et al, 2016) beneath fast-flowing ice (Clark, 1993). This association is supported by observations of similar MSGL features beneath the present-day Rutford Ice Stream in West Antarctica (King et al, 2009).…”
Section: Introductionmentioning
confidence: 99%