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Geobulletin
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News from the Geoblogosphere
by Stratigraphy.net
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Blog post recommendation
The Accretionary Wedge 45 - Geological Pilgrimage
The Accretionary Wedge is back for its 45th edition this month and it is a great topic:
Geological Pilgrimage – the sacred geological place that you must visit at least
once in your lifetime.
This topic is further defined as a single place, which is “geologically” unique, relatively remote, and requires some difficulty to get to.
I have thought quite a bit about where I would like to make my pilgrimage too...at first it was tough to narrow it down as great places that I have never been kept jumping into my head: the Grand Canyon, the barren tundra of Antarctica and/or Ellesmere Island, the Everglades (just got back), the diamond fields of South Africa, Mt. St. Helens, Etna, Stromboli, the island of Elba, the mud volcanoes of Kazakhstan, the gem mines of Burma, the zeolite pits in Pune, India, the ancient silver mine in Laurium, Greece...aaahhhhh....the list is almost never-ending actually. However, one place rose to the top of my list:
Iceland!
Long ago a pilgrimage was usually a journey that someone undertook to visit a place at the heart of their religious faith. e.g. Rome or Mecca. The pilgrimages of yore however, were often epic journeys that took months or years and involved great personal risk to the traveler as they ventured through wild and untamed country. Happily in today's world even the most remote places on the globe are accessible by air so in terms of remoteness Iceland is 3,833 km away, so um, I guess that is pretty remote....and in terms of its difficulty to get too...well I have to go all the way to Toronto from Ottawa to fly there and that is a big pain.
The whole point of the pilgrimage though is not necessarily how far you have to go, but the experience of the journey and the place you are venturing to. For my geological pilgrimage I wanted a place that would leave me in awe at the inner workings of the Earth, and that while not only being a spectacular place to visit, would also give me a sense of being somewhere that has a geologic story to tell that integrates many periods of Earth history. The most incredible geologic places that I have stood have all given me the same feeling. It is a sort of heightened awareness of the interconnectedness of the Earth processes that wrought such fantastic things, the time that it took to create them, whether it be millions of years or mere minutes, and finally the Earth is something so much more complex and wonderful than I could ever fully comprehend. A good place for a geologic pilgrimage has to deliver that sort of mind-blowing feeling.
I think that Iceland is just such a place, and here is why:
Relief map of Iceland
Formation
Iceland is located in the North Atlantic and, despite its chilly sounding name, is not covered in ice, although it does have glaciers. Indeed, the origins of Iceland are anything but cool (haha) as it was born out of rifting and volcanism. Approximately 130 million years ago a large magma plume welled up from the mantle under the supercontinent Pangaea. The plume, which had a diameter of 2000 km eventually led to rifting between the North American and Eurasian plate and large scale volcanism about 60-55 million years ago. As the rifting continued the two plates began to separate further and form what is now the North Atlantic ocean. As the plates continued to separate the plume remained fixed as the plates passed over it. This led to a trail of plume material that can be seen in Greenland. To get a better idea of what I am describing imagine you are holding a sheet of paper and pulling it down over a ball. At the beginning the paper simply bulges upward, however if you pull longer and harder eventually it tears. This is analogous to how the crust behaves when a mantle plume is rising under it and how the plume leads to rifting and eventually the breakup of a supercontinent. The mantle plume still exists under Iceland and is the reason for the many earthquakes, volcanic eruptions and continuing geothermal activity that occurs there today.
3D image of the mantle plume under Iceland Over time rifting between the North American plate and the Eurasian plate continued eventually leading to the formation of the Atlantic Ocean. At the centre of the Atlantic ocean is the Mid-Atlantic Ridge which is a place where the two plates are separating due to magma upwelling along the length of the ridge. Imagine a long mountain range of volcanoes along the bottom of the ocean.
The Mid Atlantic Ridge
The island of Iceland sits in the middle of the diverging plates and is actually part of both the North American plate and the Eurasian plate. Iceland has a two large rifts running down its middle and it is actually possible to go stand in the Mid-Atlantic Ridge where it surfaces in Iceland. I would like to go stand there; right in the place where two massive tectonic plates are slowly but inexorably splitting apart changing the face of this planet as they have done for billions of years.
The outcrop of the Mid Atlantic Ridge (note: this photo came from the Smithsonian's list of 43 places to see before you die, so I guess I'm in good company) I have other reasons for going to Iceland as well. Some of these include watching a geysir erupt, glaciers, seeing an active volcano, going in a volcano (I only learned that this was possible today), and seeing some of the incredible cultural history the island has to offer. Hopefully I can check Iceland off my list of places to see soon!!
Matt
References:
Allen, R. M., Nolet, G., Morgan, W. J., Julian, B. R., Pritchard, M., Ragnarsson, S., & Stefa, R. (2002).
Plume driven plumbing and crustal formation in Iceland,
107
. http://eps.berkeley.edu/~rallen/pub/2001icecrust/Allen2002IcelandCrustJGR.pdf
http://www.smithsonianmag.com/specialsections/lifelists/Icelands-Volcanoes.html
http://academic.emporia.edu/aberjame/student/brown3/iceland.htm
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