[Plantagenet]

Methane plumes in the ocean may help remove CO2 from the atmosphere and reduce global warming

methane-seeps-arctic-slowing-global-warming

A new study finds that relatively little methane reaches the surface above known subsurface methane seeps in he ocean near Svalbard. Instead, the methane helps trigger phytoplankton blooms in the ocean that pump down atmospheric CO2.

This is a newly discovered NEGATIVE feedback effect, i.e. as global warming destabilizes methane hydrates in deep water sediments, the methane seeps result in CO2 being removed from the atmosphere above the seeps, slowing global warming.

Just shows how complicated the planet is.....new physical processes are being discovered all the time!

Cheers!

[Cid_Yama]

Here is the link to Rockdoc's paper. https://link.springer.com/article/10.10 ... 015-0004-x

The paper is about how best to reconstruct the evolution of the coastline during the inundation of the ESAS since the Last Glacial Maximum.

It does not support any of the points he was trying to make, and pretty much says that ocean basin deformation elsewhere in the Arctic, should be taken into account as well as glacial melting when modeling coastline evolution since the LGM.

No doubt posted as an obfuscation of the fact that he did not know that northeastern Eurasia was not glaciated during the LGM as reflected in his snarky comment.

[dissident]

Semiletov made a ludicrous claim that basically billions of tons of CH4 would be catastrophically released from the ESAS (basically over ten times the whole current global emissions packed into a tiny fraction of the Earth's surface). It is self-evident that we have to seen any such catastrophic outgassing. Also, it is self-evident that we are not at the beginning of such an event.

This begs the question as to how much dissociated CH4 there is in the ESAS and I have yet to see a proper survey to quantify this amount. Claiming all clathrates in the ESAS are dissociated and held back by collapsing permafrost cap is dubious. This cap has been leaking for the last 18,000 years. Gas is very efficient at leaking so it is consistent with what we see today: period bubble plumes but not eruptions of Biblical proportions. Almost by definition most of the CH4 locked in the ESAS is in clathrate form. Seabed permafrost is not sedimentary cap stone under large pressure. The 50 meters of water depth combined with leaky permafrost in the seabed is not enough to cap vast amounts of gaseous CH4.

Adding to the missing CH4 debate: the ESAS depth is too shallow (50 meters) to have CH4 chemically processed by bacteria before reaching the surface. Also, the catastrophic nature of the predicted release would result in enormous bubbles of pure CH4 heading for the surface. So all of the alleged permafrost capped CH4 would reach the atmosphere. The issues for the ESAS is the amount of gaseous CH4 trapped in the seabed ready to escape. People making wild claims about cataclysmic releases need to provide some evidence instead of "pro-rating" some plumes. This sort of "pro-rating" is BS since every plume would then be sourced from locked up gaseous CH4 and not decomposing clathrates. That is clearly not the case for the Arctic Basin.

[Cid_Yama]

You got it, Plant.

Carolyn Ruppel is petroleum geologist who heads up the USGS gas hydrate project, promoting methane hydrate as an energy source in conjunction with the Oil and Gas industry.

Ruppel has been at the forefront of the methane hydrate disinformation campaign, attacking any papers suggesting methane hydrates are unsafe to extract, or may pose a danger to the environment.

She also recently wrote a paper trying to claim algae consume any methane that reaches the surface.

Actually, she was describing half of a production-consumption cycle, and was ridiculed for her disembling. The research to rebut her claims was already out there.

Methane cycling in Arctic shelf water and its relationship with phytoplankton biomass and DMSP

Methane in situ production occurs frequently in the oxygenated upper ocean. A principal pathway by which methane can be formed is methylotrophic methanogenesis, while an important methylated substrate is DMSP (dimethylsulfoniopropionate) produced by marine phytoplankton. Here we report on an in situ methane production/consumption cycle during a summer phytoplankton bloom and a potential link to DMSP concentration in Storfjorden (Svalbard Archipelago) – a polar shelf region.
We propose that methane in situ production occurs during the summer phytoplankton bloom. The concentration of methane increases up to a certain threshold value, above which methane consumption begins. A methane production-removal cycle is established, which is reflected in the varying methane concentrations and δ13CCH4 values. DMSP and methane are inversely correlated suggesting that DMSP could be a potential substrate for the methylotrophic methanogenesis.

link


Since surface waters release methane to the atmosphere, consumption can only take place on what's left in the water column.

Therefore, Algal blooms are not a sink, but rather a source.

Plant, that is the Ruppel paper that has been debunked, that I referred to in the above post. They only mentioned half of the cycle. An intentional deception that was quickly ridiculed.

Dissident, you are so full of it. No one claimed all hydrates on the shelf were dissociated, and now you are just emoting, and talking nonsense.

Why don't you try presenting an actual argument, present documention to support you position. That sort of thing. Ranting doesn't get you far around here.

Might I suggest you read this interview, so you know the current claims, so you know what you are arguing against.

http://envisionation.co.uk/index.php/ni ... ed-decline

There is a wonderful attached video.

[rockdoc123]

It does not support any of the points he was trying to make, and pretty much says that ocean basin deformation elsewhere in the Arctic, should be taken into account as well as glacial melting when modeling coastline evolution since the LGM.

No doubt posted as an obfuscation of the fact that he did not know that northeastern Eurasia was not glaciated during the LGM as reflected in his snarky comment.

yeah right. Here is from the paper:

In this study, we discussed the influence of GIA on the transgressional evolution of the Laptev and the East Siberian seas. Former reconstructions of the transgressional evolution of the these seas were based on the eustatic sea-level change to reconstruct the evolution of the relative sea-level history, whereas it was assumed that this region is located far enough from Scandinavia and North America to be influenced by the ice loading processes of the respective glacial ice sheets. Solving for geodynamically consistent GIA with a spherical symmetric earth structure, where the sea-level redistribution due to mass conservation and change of the geoid is considered, we tested this assumption and reconstructed the sea-level evolution and transgressional history of the East Siberian Shelf region. To allow for uncertainties in the earth structure, we considered a range of earth models by systematically changing the lithosphere thickness as the upper and lower mantle viscosities.

The results suggest to use GIA models to analyse the evolution of submarine permafrost, which depends on local variations of sea level and shoreline migrations, in continental shelf seas like the Laptev and East Siberian seas. This dependency is especially of importance when extending the study to the early phases of the Weichselian glaciation, where the Kara Sea ice sheet was much larger [21], and so deviations from eustatic sea level in the Laptev Sea were substantial, and in former glaciation periods when an East Siberian ice sheet is proposed

what they say is that East Siberian seas are more influenced by hydro eustacy as compared to their western counterparts where GIA is dominate but not entirely. Isostacy plays a role definitely in the Laptev sea which is adjacent to the ice front and a small role as you move to the east into Eastern Siberia offshore. And the claims of methane release extend into the Laptev sea so GIA is obviously a concern.

Once again who is try to obfuscate here?

[rockdoc123]

Plant, that is the Ruppel paper that has been debunked, that I referred to in the above post. They only mentioned half of the cycle. An intentional deception that was quickly ridiculed.

debunked by who? I checked and could not find a Discussion that had been submitted to the journal in regards to that paper. Ruppel is a co-author, the lead author is J.W. Pohlman.

[Cid_Yama]

Solving for geodynamically consistent GIA with a spherical symmetric earth structure, where the sea-level redistribution due to mass conservation and change of the geoid is considered (as in deformation of the ocean basin), ...

...we tested this assumption and reconstructed the sea-level evolution and transgressional history of the East Siberian Shelf region.

The results suggest to use GIA models to analyse the evolution of submarine permafrost, which depends on local variations of sea level and shoreline migrations,...

This dependency is especially of importance when extending the study to the early phases of the Weichselian glaciation (as in prior to the LGM) ...

and so deviations from [just taking into account] eustatic sea level in the Laptev Sea were substantial, and in former glaciation periods (as in prior to the Weichselian glaciation, which is the most recent one) when an East Siberian ice sheet is proposed

Reading comprehension problem?

eustacy
noun | eu·sta·cy | \ ˈyüstəsē \
: worldwide change of sea level as contrasted with local diastrophic uplift or subsidence of the land

[rockdoc123]

Reading comprehension problem?

did you not even read the conclusions?

The results suggest to use GIA models to analyse the evolution of submarine permafrost, which depends on local variations of sea level and shoreline migrations, in continental shelf seas like the Laptev and East Siberian seas. This dependency is especially of importance when extending the study to the early phases of the Weichselian glaciation, where the Kara Sea ice sheet was much larger [21], and so deviations from eustatic sea level in the Laptev Sea were substantial, and in former glaciation periods when an East Siberian ice sheet is proposed

And what part of the link between GIA and hydro isostatic forces which result in eustacy do you not understand? From the paper

Deformations due to the eustatic sea-level rise appear as hydro-isostasy around the continental margins [10, 20, 31]. The mechanism of hydro-isostasy can be described as the flexure of the lithosphere in response to the changing water load: The global sea-level drop of 120 m during the last glacial maximum (LGM) [10] had unloaded the ocean bottom which resulted in an isostatic uplift of the ocean basins by 40 m when measured against the continents which do not suffer from such a load change (we assumed here the density ratio between water and mantle material to be one-third). During the termination of the glacial ice sheets, the sea level rose again, resulting in a loading of the ocean basins. At the continental margin, the elastic flexure of the lithosphere controls the bending of the lithosphere due to this loading contrast. This flexure is, similar to post- glacial rebound, an ongoing process due to the retarded response of the viscoelastic mantle material with subsi- dence offshore and uplift onshore.

If there was no link between GIA and eustacy there would be a absence of hand-wringing over melt rates in Greenland and Antarctica.

[Tanada]

December 2017: 1859.3 ppb
December 2016: 1850.9 ppb

[M_B_S]

The Arctic is warming up more than twice as fast as the rest of the world, due to numerous feedbacks. At times, large areas over the Arctic Ocean can become 30°C or 54°F warmer than 1979-2000, as illustrated by the image below.



=>
On March 1, 2018, methane levels as high as 3087 were recorded. Note the solid magenta-colored areas over the ESAS on the image below.



WARNING WARNING WARNING

https://www.youtube.com/watch?v=m6pFDu7lLV4

https://www.youtube.com/watch?v=XUI4IcqDEz4

[Tanada]

Personally if I am looking at a temperature map I find the absolute values much more useful than the anomaly values. If the temperature is typically -70 C and it has warmed to -40 C that is interesting and all, but just a fact. If on the other hand the temperature has gone from -20 C to +10 C that is a critical change.

[dissident]

The increasing ice free and ice slush period is the real story. It means that the Arctic Ocean is now accumulating a lot more heat energy. At the same time the lack of thick ice sheet allows atmospheric winds to impose more mechanical forcing of the ocean surface layer. This increases the exchange of water with lower latitudes via more robust currents. So this is yet another source of warming.

The warming Arctic Ocean will exert a progressively larger influence on the polar climate. Even if the surface temperature in winter is low, there is an accumulating thermal plume working its way into both the seabed and the permafrost regions. This will force CH4 release from cryospheric reservoirs.

[M_B_S]

Personally if I am looking at a temperature map I find the absolute values much more useful than the anomaly values. If the temperature is typically -70 C and it has warmed to -40 C that is interesting and all, but just a fact. If on the other hand the temperature has gone from -20 C to +10 C that is a critical change.

Tanada

Calculate the huge amounts of energy injection to get 30 C°+ warming over the arctic ocean.

Millions of hiroshima bombs/year.

Now the reader can see the dramtic effect.

=> https://4hiroshimas.com

Our climate is absorbing a lot of heat. When scientists add up all of the heat warming the oceans, land, and atmosphere and melting the ice, they find our climate is accumulating 4 Hiroshima atomic bombs worth of heat every second.

This warming is due to more heat-trapping greenhouse gases in the atmosphere. The burning of fossil fuels means we are emitting billions of tonnes of carbon dioxide every year. This is the main contributor to global warming.

https://www.youtube.com/watch?v=3wxWNAM8Cso

Not enough?

I have another one

https://www.youtube.com/watch?v=ncq_Wye43TM


There is only one thing we human mankind can do : SURRENDER and give up war against our Habitat.

Get off burning fossil fuels!

And to the leaders of the fossile fuel industry i advise you to make sepukku!
https://www.youtube.com/watch?v=hcO4MMzdYE8
***************

Soon (this century) the whole planet will burn to desert.

[dohboi]

http://siberiantimes.com/other/others/n ... emissions/

Apparently, somehow those craters from exploding pingos can erupt again!

[vtsnowedin]

http://siberiantimes.com/other/others/news/crater-formed-by-exploding-pingo-in-arctic-erupts-a-second-time-from-methane-emissions/

Apparently, somehow those craters from exploding pingos can erupt again!

I think the use of the term explosion paints the wrong picture in peoples minds. From all the pictures there was no flame or burning gas involved. It is more like the bursting of a giant bubble only the skin of the bubble is ice and frozen earth instead of soapy water. To move that much material there had to be a large amount of gas under a lot of pressure but it could have been compressed nitrogen instead of flammable methane and achieved the same result.
With about twelve of these spread across the vastness of Siberia in the last couple of years perhaps this has been going on right along only there was no one on the ground to witness it.

[dohboi]

I guess that word could give people that wrong impression, but note that the actual definition of 'explosion' includes many other sources than combustion:

"burst or shatter violently and noisily as a result of rapid combustion, decomposition, excessive internal pressure, or other process, typically scattering fragments widely."

I'm not sure what mechanism would concentrate that much pressurized nitrogen to build up in that area, so methane certainly seems like the most likely culprit.

[vtsnowedin]

I guess that word could give people that wrong impression, but note that the actual definition of 'explosion' includes many other sources than combustion:

"burst or shatter violently and noisily as a result of rapid combustion, decomposition, excessive internal pressure, or other process, typically scattering fragments widely."

I'm not sure what mechanism would concentrate that much pressurized nitrogen to build up in that area, so methane certainly seems like the most likely culprit.

I was not proposing that it might have been some other gas then methane, just that a gas is a gas and one can be put under the same pressures as another ( not talking liquefaction pressures here just what is needed to lift and move the ice).
Yes you are correct on the definition of an explosion but people today have watched so many movies where the heroes run and jump fast enough to avoid being killed by an "explosion" and not one of them happened without a very movie land satisfying fire ball.