Sentences with phrase «from hydrate deposits»

[20] Other problems facing commercial exploitation are detection of viable reserves and development of the technology for extracting methane gas from the hydrate deposits.

Methane escapes from hydrate deposits even when the pieces don't float to the surface intact.

In March, Japan became the first country to successfully extract methane from frozen undersea deposits called gas hydrates.

Furthermore, the project will investigate potential future climate effects from destabilisation of methane hydrate deposits in a warming climate, and will focus on scenarios in 2050 and 2100.

It just magically pulls water from the air around us and deposits it on the skin — voila, you have hydrated and younger - looking skin.»

I have posted on RealClimate about 4 times in the past 5 years regarding the potential thaw of the methal hydrate deposits at the bottom of the oceans.I stated in my posts on your website that I believe firmly that those deposits are in quite a good bit of danger of melting from climate change feedback mechanisms.On Nov 8th, ScienceDaily posted a huge new study on the PETM boundary 55 million years ago, and some key data on how the methane at that point may very well have melted and contributed to the massive climate shift.I am an amateur who reads in the new a lot about climate change.I'd now like to say «I told you so!!!»

SkS: In your JGR paper from 2010 you state that methane hydrate in Siberia can occur at depths as shallow as 20 m. Have any such remarkably shallow methane hydrate deposits on the ESAS been directly observed / sampled and if so, how could methane hydrate have formed at such depths?

That Shakhova 2010 paper opens with: «The sharp growth in methane emission (50 Gt over 1 - 5 years) from destructed gas hydrate deposits on the ESS should result in an increase in the global surface temperature by 3.3 C by the end of the current century instead of the expected 2C.»

It seems quite likely that continued global warming will increase the emissions of methane from permafrost deposits and marine hydrates.

Furthermore, the project will investigate potential future climate effects from destabilisation of methane hydrate deposits in a warming climate, and will focus on scenarios in 2050 and 2100.

You left out the stark tragedies of ocean acidification and the very real possibility of a runaway methane release from warming permafrost and methane hydrate deposits.

And I assume from the article that if the methane hydrate deposit is melting then the bottom water will have a high level of dissolved methane.

RealClimate is wonderful, and an excellent source of reliable information.As I've said before, methane is an extremely dangerous component to global warming.Comment # 20 is correct.There is a sharp melting point to frozen methane.A huge increase in the release of methane could happen within the next 50 years.At what point in the Earth's temperature rise and the rise of co2 would a huge methane melt occur?No one has answered that definitive issue.If I ask you all at what point would huge amounts of extra methane start melting, i.e at what temperature rise of the ocean near the Artic methane ice deposits would the methane melt, or at what point in the rise of co2 concentrations in the atmosphere would the methane melt, I believe that no one could currently tell me the actual answer as to where the sharp melting point exists.Of course, once that tipping point has been reached, and billions of tons of methane outgass from what had been locked stores of methane, locked away for an eternity, it is exactly the same as the burning of stored fossil fuels which have been stored for an eternity as well.And even though methane does not have as long a life as co2, while it is around in the air it can cause other tipping points, i.e. permafrost melting, to arrive much sooner.I will reiterate what I've said before on this and other sites.Methane is a hugely underreported, underestimated risk.How about RealClimate attempts to model exactly what would happen to other tipping points, such as the melting permafrost, if indeed a huge increase in the melting of the methal hydrate ice WERE to occur within the next 50 years.My amateur guess is that the huge, albeit temporary, increase in methane over even three or four decades might push other relevent tipping points to arrive much, much, sooner than they normally would, thereby vastly incresing negative feedback mechanisms.We KNOW that quick, huge, changes occured in the Earth's climate in the past.See other relevent posts in the past from Realclimate.Climate often does not change slowly, but undergoes huge, quick, changes periodically, due to negative feedbacks accumulating, and tipping the climate to a quick change.Why should the danger from huge potential methane releases be vievwed with any less trepidation?