2019
DOI: 10.1016/j.epsl.2018.11.003
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Elevated geothermal surface heat flow in the Amundsen Sea Embayment, West Antarctica

Abstract: Keywords: skin depth for geothermal gradients spatial variation of geothermal heat flow on small scales in situ temperature measurements geotherm transitionThe thermal state of polar continental crust plays a crucial role for understanding the stability and thickness of large ice sheets, the visco-elastic response of the solid Earth due to unloading when large ice caps melt and, in turn, the accuracy of future sea-level rise prediction. Various studies demonstrate the need for precise measurements and estimati… Show more

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Cited by 62 publications
(15 citation statements)
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“…Whilst large (>10 °C) seasonal temperature variations are dampened by ~90% at water depths of 3-5 m (Müller et al, 2016), long-term variations (e.g. climate-controlled variations in Circumpolar Deep Water over the last ~12 kyr; Hillenbrand et al, 2017) are likely recorded in the upper 3 m at 400 m water depth, 2 m at 700 m depth, and even the upper ~1 m at 1000 m depth (Dziadek et al, 2019).…”
Section: Marine and Onshore Unconsolidated Sedimentsmentioning
confidence: 99%
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“…Whilst large (>10 °C) seasonal temperature variations are dampened by ~90% at water depths of 3-5 m (Müller et al, 2016), long-term variations (e.g. climate-controlled variations in Circumpolar Deep Water over the last ~12 kyr; Hillenbrand et al, 2017) are likely recorded in the upper 3 m at 400 m water depth, 2 m at 700 m depth, and even the upper ~1 m at 1000 m depth (Dziadek et al, 2019).…”
Section: Marine and Onshore Unconsolidated Sedimentsmentioning
confidence: 99%
“…Similarly to borehole temperature measurements, a time delay must be considered between penetration of the sediments and temperature measurement. A ten minute delay between sediment penetration and measurement is sufficient to allow decay of frictional heating, as the temperature decay takes ~100 s (Dziadek et al, 2019;Pfender and Villinger, 2002).…”
Section: Marine and Onshore Unconsolidated Sedimentsmentioning
confidence: 99%
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“…ences from satellite magnetic data (∼55-65 mW/m 2 ; FoxMaule et al, 2005), seismic data (∼70 mW/m 2 ;An et al, 2015a), airborne magnetic data (∼60-75 mW/m 2 ;Martos et al, 2017), and in situ measurements in continental shelf sediments in the Amundsen Sea Embayment (mean ∼65 mW/m 2 ;Dziadek et al, 2019). Our preferred ∼60 mW/m 2 heat flow at PIG3 again contrasts with the ∼110 mW/m 2 modelled byShapiro & Ritzwoller (2004); however, their modelled standard deviations are of comparable magnitude to their inferred heat flows.Our preferred heat flow of ∼50 mW/m 2 at node 1624 in the Ellsworth Mountains is lower than estimates based on satellite magnetic data(∼70 mW/m 2 ; Fox Maule et al, 2005) and airborne magnetic data (∼65-70 mW/m 2 ; Martos et al, 2017), but reasonably consistent with recent seismic-based inferences (∼55 mW/m 2 ; An et al, 2015a).…”
mentioning
confidence: 99%