Online: | |
Visits: | |
Stories: |
Story Views | |
Now: | |
Last Hour: | |
Last 24 Hours: | |
Total: |
http://tradcatknight.blogspot.com/2017/03/earth-changes-7000-mysterious.html
A recent discovery in Siberia’s remote Bely Island has raised concerns for the regions of Yamal and Gydan peninsulas. According to reports, a recent discovery has been made revealing the ground had started bubbling in certain locations. At the time of the discovery, only 15 of these swollen bubbles had been identified however with further investigations in the wider region of the Yamal and Gydan peninsulas it has been revealed that 7,000 or more of these mysterious bubbles have appeared and the concern now is that they could explode at any moment.
Scientists have discovered as many as 7,000 gas-filled ‘bubbles’ expected to explode in Actic regions of Siberia during field and satellite surveys.
7,000 Huge Gas Bubbles Have Formed Under Siberia, and Could Explode at Any Moment. Via The Siberian Times
The bulging bumps in the Yamal and Gydan peninsulas are believed to be caused by thawing permafrost releasing methane.
Bulging bumps in the Yamal and Gydan peninsulas believed to be caused by thawing permafrost releasing methane. Pictures: Yamal Region Via The Siberian Times
The region has seen several recent examples of sudden ‘craters’ or funnels forming from pingos after what scientists believe are caused by eruptions from methane gas released by the thawing of permafrost which is triggered by climate change.
Here’s an image of one bubble found by Bogoyavlensky that has swelled immensely. via Science Alert
Scientists believe that thawing permafrost is a suspected reason for the cause of underground gas bubble formation.
While collapsed bubbles can form fairly small ‘pockmarks’ in the ground, they’ve also been linked to the massive sinkholes and craters that have been appearing across Siberia Via The Siberian Times
Analysis last year of the 15 Bely island underground gas pockets showed multiple excesses of greenhouse gas content compared with average levels in the atmosphere.