Posted on 04/20/2016 12:00:18 PM PDT by Ernest_at_the_Beach
From the MASSACHUSETTS INSTITUTE OF TECHNOLOGY and the thank goodness we have plenty of free CO2 in the atmosphere today department comes this claim:
Continental shifting may have acted as a natural mechanism for extreme carbon sequestration
For hundreds of millions of years, Earths climate has remained on a fairly even keel, with some dramatic exceptions: Around 80 million years ago, the planets temperature plummeted, along with carbon dioxide levels in the atmosphere. The Earth eventually recovered, only to swing back into the present-day ice age 50 million years ago.
Now geologists at MIT have identified the likely cause of both ice ages, as well as a natural mechanism for carbon sequestration. Just prior to both periods, massive tectonic collisions took place near the Earths equator a tropical zone where rocks undergo heavy weathering due to frequent rain and other environmental conditions. This weathering involves chemical reactions that absorb a large amount of carbon dioxide from the atmosphere. The dramatic drawdown of carbon dioxide cooled the atmosphere, the new study suggests, and set the planet up for two ice ages, 80 million and 50 million years ago.
Everybody agrees that on geological timescales over hundreds of millions of years, tectonics control the climate, but we didnt know how to connect this, says Oliver Jagoutz, associate professor of Earth, Atmospheric and Planetary Sciences (EAPS) at MIT. I think were the first ones to really link large-scale tectonic events to climate change.
Jagoutz and his colleagues, EAPS Professor Leigh Royden, and Francis McDonald of Harvard University, have published their findings in the Proceedings of the National Academy of Sciences.
Putting the squeeze on
The two tectonic collisions that the team studied stemmed from the same event: the slow northward migration of Gondwana, a supercontinent that spanned the Southern Hemisphere from 300 million to 180 million years ago and eventually broke up to form Antarctica, South America, Africa, India, and Australia.
Around 180 million years ago, tectonic activity began to push fragments of Gondwana up toward the northern supercontinent of Eurasia, which slowly squeezed and eventually closed the Neo-Tethys Ocean, an ancient body of water lying between the supercontinents.
In previous work, Jagoutz and his colleagues developed a model to simulate the tectonic shifting that occurred in and around that ocean as Gondwana fragments were crushed against Eurasia. Through analysis of ancient rocks in todays Himalayas, the team determined a sequence of events as the continents merged.
They found that 90 million years ago, the northeastern edge of the African plate collided and slid under an oceanic plate in the Neo-Tethys Ocean, creating a chain of volcanoes. At 80 million years ago, as Africa continued advancing north, the oceanic plate was pushed further up and over the continent, exposing ocean rock to the atmosphere, while simultaneously terminating the volcanoes. Then, 50 million years ago, India merged with Eurasia in a second collision in which a different region of the oceanic plate was pushed up onto that continent.
Both collisions took place in the Intertropical Convergence Zone (ITCZ), an atmospheric region hovering over the Earths equator, in which trade winds come together to generate a region of intense temperatures and rainfall.
A weathering trigger
For this new paper, the researchers wondered whether the tectonic collisions in this extremely tropical region may have played a part in pulling huge amounts of carbon dioxide out of the atmosphere and triggering the ice ages.
Certain types of rock, if exposed to high heat and heavy rain, undergo chemical reactions and effectively absorb carbon dioxide, a process known as silicate weathering. These rocks include basalts and ultramafic rocks, which are often found within oceanic plates. If these rocks are exposed to the atmosphere in a tropical region, they can act as very efficient carbon sinks.
The team hypothesized that the two collisions, involving Africa and then India, brought basaltic and ultramafic rocks up from the oceans and onto land, creating carbon sinks 80 and 50 million years ago. Both collisions also effectively turned off carbon sources by burying volcanoes that had been emitting carbon dioxide and other gases into the atmosphere.
To know whether such a sequence of events directly reduced carbon dioxide in the atmosphere, the researchers looked to weathering rates of different rock types, including granites, basalts, and ultramafics. These rates, which have been calculated by other researchers, describe the way rocks erode and take up carbon dioxide, given exposure to a certain amount of rainfall.
They then applied these weathering rates to their models estimates of the amount of oceanic plate that was pushed up onto Africa and India, at 80 and 50 million years ago, respectively. After determining the amount of carbon dioxide sequestered by these rocks, they calculated the total amount of atmospheric carbon dioxide through time, from 100 million years ago to around 40 million years ago.
The team found that carbon dioxide dipped dramatically at precisely the time the two collisions occurred. The levels of carbon dioxide also mirrored the temperature of the oceans during this interval.
Jagoutz says one reason these two collisions had such an extreme effect on atmospheric carbon dioxide may have been the fact that each continent continued moving north, exposing new basaltic and ultramafic material, like a bulldozer that brings fresh rock to the surface.
Interestingly, a similar process is taking place today, albeit at a smaller scale, near the island of Java. The same tectonic activity that shifted Gondwana northward more than 100 million years ago is today pushing the Australian plate north, and as a result, is piling up basaltic material on Java within the ITCZ, which Jagoutz says is a huge carbon sink.
What nature shows us is, if you put a lot of these rocks in the tropics, where its hot, muggy, wet, and rains every day, and you also have the effect of removing the soil constantly by tectonics and thus exposing fresh rocks, then you have an excellent trigger for ice ages, Jagoutz says. But the question is whether that is a mechanism that works on the timescale that is relevant for us.
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Additional background
ARCHIVE: Newly discovered flux in the Earth may solve missing-mantle mystery
ARCHIVE: India joined with Asia 10 million years later than previously thought
Interesting!
I swear the stupidity in science today is astounding !
CO2 went down because of the ice age ! the plants which consume CO2 DIED because of the ice age and thus CO2 went UP. CO2 didn't CAUSE the iceage! it was a result OF the ice age.
I swear! I kindergartner could figure this out!
For hundreds of millions of years, Earths climate has remained on a fairly even keel,
No it hasn’t. Ice ages & warm periods have occurred at regular intervals. We can expect another one in the future.
All of human history has occurred in one of the arm intervals between ice ages.
Around 80 million years ago, the planets temperature plummeted, along with carbon dioxide levels in the atmosphere. The Earth eventually recovered, only to swing back into the present-day ice age 50 million years ago.
But that happened when the Earth was still Flat, now that it is Round, does it make a difference in their projections???
The next Ice Age is in the wings. We are doomed, someday.
The dead horse beating of CO2 percentage as a climate change cause (effect is a separate matter) must sound like a xylophone by now. Nothing left but dried and hollow bones.
And don’t forget that cold water holds more CO2 than warm water. Cold oceans during ice ages hold tremendous amounts of CO2. when the ice age ends, the CO2 is released.
There is also this gem, "For hundreds of millions of years, Earths climate has remained on a fairly even keel..."
1. Oliver Jagoutz, associate professor of Earth, Atmospheric and Planetary Sciences (EAPS) at MIT.
2. EAPS Professor Leigh Royden,
3. Francis McDonald of Harvard University
Published their findings in the Proceedings of the National Academy of Sciences.
Please get back to us when your peer-reviewed paper is published in the proceedings. Good luck with your research...your attitude is going to really endear you to your colleagues.
lol
so a bunch of environmental nut jobs “reviewed” and “approved” of what a fellow nut job with the same agenda wrote?
big whoop!
I believe this about as much as they would believe research done by scientists hired by Exxon to study the issue.
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Considering the amount of tectonic activity of late, veyyyy interesting indeed.
Ice ages happen..
Gondwana and Eurasia.? Two supercontinents that eventually split into today’s set.
And more than likely, volcanic activity coincided or caused the global cooling. But hey, that is the logical scientific conclusion, not the corrupted science needs more money solution.
or decreased solar output
Ran that whole house fan for an hour, then made and ate egg salad sandwiches with the salvageable ones!!!
That was "interesting," too...
See the Book Eat Fat and GET Thin,,,,by Mark Hyman M.D, ....
Catch his story on your local PBS TV Station.
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