Scientist Spots High Geothermal Heat Flux In East Greenland – ‘Dramatic Consequences For Ice Basal Melting’


Geothermal heat flux can foment upper mantle temperature anomalies of 800–1000?°C, and these extreme heat intensities have been found to stretch across 500 km of central-east Greenland. This could result in “a significant contribution of ice melt to the ice-drainage system of Greenland” (Artemieva et al., 2019).

Evidence of more than 100,000 formerly or currently active volcanic vents permeate the Earth’s sea floor (Kelley, 2017).

Active volcanoes spew 380°C sulfuric acid and “metal-laden acidic fluids” into the bottom waters of the world ocean on a daily basis. In other words, literal ocean acidification is a natural phenomenon.

The carbon dioxide concentrations present in these acidic floods reach “astounding” levels, dwarfing the potential for us to even begin to appreciate the impact this explosive geothermal activity has on the Earth’s carbon cycle (Kelley, 2017).

scientist spots high geothermal heat flux in east greenland dramatic consequences for ice basal melting - Scientist Spots High Geothermal Heat Flux In East Greenland – ‘Dramatic Consequences For Ice Basal Melting’

Image Source: Kelley, 2017

Geothermal heat “explains the observed melting of the ice sheet’s base”

Just as impacts of sea floor volcanism may be largely unheralded, the ice-melt significance of high geothermal heat flux beneath the polar ice caps may still be in the early stages of exploration.

The geothermal heat contribution to the basal melt rates of Antarctic glaciers is substantial.


scientist spots high geothermal heat flux in east greenland dramatic consequences for ice basal melting 1 - Scientist Spots High Geothermal Heat Flux In East Greenland – ‘Dramatic Consequences For Ice Basal Melting’

Image Source: Loose et al., 2018, Shroeder et al., 2014

Significant melting at the base of the north-central and northeastern Greenland ice sheet occurs in close proximity to high geothermal heat flux regions, and “several thousands” of 55-62°C hot springs have been identified “all over Greenland.”

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Image Source: Rogozhina et al., 2016, Rysgaard et al., 2018

High geothermal heat flux has “dramatic consequences” for ice basal melting in central-eastern Greenland

In a new paper, Dr. Irina Atemieva employs a new method to assess the accelerated basal melting occurring across wide swaths (extending 500 kilometers inland) of the Greenland ice sheet associated with high geothermal heat flux.

“Huge” near-surface temperature anomalies reaching amplitudes of 800–1000?°C have been spotted.

Geothermal heat flux is suggested to be “an important contributor to the Northeast Greenland Ice Stream in Central Greenland.”

Artemieva, 2019

Lithosphere thermal thickness and geothermal heat

flux in Greenland from a new thermal isostasy method

“East Greenland has anomalous crustal structure, thin (50-100 km) lithosphere, high mantle temperatures and a strong GHF [geothermal heat flux] anomaly of >100 mW/m2 centered in the Fjordland region. … High GHF [geothermal heat flux] promotes basal ice melting. The moderately high GHF anomaly (>70?mW/m2 and possibly >90?mW/m2), where intensive ice melting may occur, extends inland below the ice sheet, and its western and northern boundaries cannot be established with the present data coverage on the Moho depth.”
“In East Greenland this anomalous belt merges with a strong GHF anomaly of >100?mW/m2 in the Fjordland region. The anomaly is associated with a strong lithosphere thinning, possibly to the Moho, that requires advective heat transfer such as above active magma chambers, which would accelerate ice basal melting. The anomaly may extend 500?km inland with possibly a significant contribution of ice melt to the ice-drainage system of Greenland.”
“The present results also show a huge temperature anomaly in the upper mantle of central-east Greenland (Domain 3) with the amplitude of ca. 800–1000?°C with respect to the cratonic stations. Such a temperature anomaly cannot be explained by conductive nor radiogenic mechanisms.”
A high heat flux from the Earth’s interior enhanced by a hot fluid percolation above active magma chambers at the edge of the ice cap may have dramatic consequences for ice basal melting in the central-eastern Greenland, and may be an important contributor to the Northeast Greenland Ice Stream in Central Greenland.”

scientist spots high geothermal heat flux in east greenland dramatic consequences for ice basal melting 3 - Scientist Spots High Geothermal Heat Flux In East Greenland – ‘Dramatic Consequences For Ice Basal Melting’

Image Source: Artemieva, 2019
Updated: December 17, 2020 — 12:47 am

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