I bet there is also some water between the localized plume and the ice which delutes that measurement unlike averaged annual surface energy inputs.
Yes, exactly.
There is a huge volume of published literature arguing about the heat flux causing the wet bottom and speed of the NE ice stream.
The consensus at this time tends to be that it is similar to the flux at the Yellowstone Caldera.
The Bedmap data has been quoted as showing recent volcanic features in in some of the literature. That would not have survived more than a few thousand years. Unfortunately apart from a few specific area, although interpolated at 50m resolution, they have only an actual data resolution of 500m to 1.5km.
Most of the heat is being pumped away by water through subbasement strata at present. The radar cannot penetrate liquid water.
There was another central blowup a few days ago visible on the Nullschool, chem, surface SO2 maps, starting under the NE ice stream head. And emerging at and off the coasts, both east and west, within 24 to 48 hrs. I have 16 frames to animate of that one. But internet here is sporadic. Perhaps I will get some clear reception tonight.
Mid event image attached.
These have been regularly occurring since September, mostly at full and new moons when tidal forces are highest, and strongly correlate with Antipodal Ross Archipelago thru transantarctic mountains events. The P waves refocus on the other side of the planet, and the compression-decompression triggers the chemical energy release I explained above.
You can also see PGAS and north Baffin Island SO2 hotspots in this image though the Baffin one may be anthropogenic, the PGAS one is certainly not.
If you want the best understanding in the world of these processes rope in Veli. He can explain all the high pressure chemistry and nuclear processes that are involved near the core mantle boundary at the base of these hotspot systems better than anyone else in the world. For example the high He3 anomaly at Jan Mayen compared to Iceland.
As for Grace, Bedmap is just a snapshot. With fast cyclic changing pressures and magmatic and hydrothermal responses at the base of the ice sheet. We don't know how much basal compressions and uplifts, and changing densities in the magma chambers... are affecting attempts to quantify the ice sheet volume. And Grace is appallingly low resolution.
I think someone forgot the prefix "milli" on that problem in 1000 to 2000 years comment.
The tide buoy network in NZ for example is now showing a polynomial best fit of three meters of sea level fall by 2050 from the last five years data. They are lucky on that side of the planet. Antarctica is mostly bedded below sealevel on that side of the planet. And perhaps some remember about a decade ago the modelling of earth's centre of mass shifting the axis it spins on by about 150 m towards the Atlantic if just West Antarctica collapsed?
In the last five years we have learned that East Antarctica on that side is mostly bedded below sealevel too. And thus vunerable too to rapid collapse.
Sorry Oren. This stuff was all resolved globally in and presented in pretty three D images by NASA 15 years ago. The deep fluid basalt conduits connecting continental keels to the Mid oceanic spreading zones, combined with surprise data showing identical chemical makeup of sections of those MOSZ up to 600 km long, and current heat fluxes at the MOSZ'S Similar to subduction zones at the continental shelves. Well..
That killed steady state mantle convection driven plate tectonics models right there and then.
Not up for attempting reproving such done and dusted ancient history geology with the much compromised search engines and paywalled and buried literature access of this "Brave New World".
Good luck.
