I just got an e-mail from Alan Watson, of Belfast, who read my article in Geotimes about geological travels in Northern Ireland. (This was one of my first topics on this blog, so newcomers may be interested in revisiting some of those old posts in the December and January archives.)

Anyhow, Alan clued me in to a new series from the BBC called "Blueprint," wherein they examine the natural history of the Emerald Isle. There's a cool interactive aspect to the website where you get a map of Ireland and a choice between "Plants/Animals," "Humans," and "Land." Choose "Land" and then select what you want to learn more about. Then you get a series of images, conversations, or videos about different aspects of Northern Ireland's geologic history. It's pretty cool -- there's a really enthusiastic dude (William Crawley) talking about the eruption of the Giant's Causeway, and also examinations of "the Chalk," graptolites, and granite gneiss. They even mention the Iapetus Ocean! (Which was a big focus of the field trip I led today!)

Labels: chalk, giants causeway, northern ireland, websites

Geological travels in Northern Ireland, Part VI:

The word "joint" in geology refers to any fracture in a rock unit along which movement has NOT occurred. (If movement DOES occur along a fracture, that makes it a fault.)

The Giant's Causeway in County Antrim, Northern Ireland, shows jointing of a particular pattern: the intersection of the joints divide the rock into column-shaped pieces, shaped roughly like an un-sharpened pencil.

This is an image of two of the "Causeway basalt" layers exposed in a gorge east of the Giant's Causeway itself. Note their difference in size: slower cooling produces larger columns. Faster cooling produces smaller columns. Therefore the lower flow cooled off more rapidly than the upper flow.



Lava, when hot, takes up more volume than cold igneous rock. As it cools, the solidifying lava contracts. Because the whole volume of rock is contracting, evenly-spaced centers of contraction develop. Cracks open up to accomodate that contraction. This makes a honeycomb-style pattern, because 3 crack orientations is the minimum number necessary to allow contraction in every direction. These three orientations meet at an average angle of 120º.

The same phenomenon can be seen at Devils Tower, Wyoming.

The weird columnar jointing patterns at the Giants Causeway were used on the cover of Led Zeppelin's album Houses of the Holy (1973). While I was there, I thought about re-creating the album cover with geologists (clothed!) in the same positions as these kids, but I forgot to bring along the album as a reference. Tragic, isn't it?

The overall loss of volume of the (hot versus cold) rock can be estimated with a photograph like this. Divvie the photo into equal units of area, and then count up how many are solid rock and how many are empty air. About 1% shrinkage is seen here -- more than in other places I've seen columnar jointing.

Once formed, these joints allow water to penetrate into the lava flow. Water encourages both physical and chemical weathering of the basalt, enlarging the size of the fractures. Water, being the universal solvent, helps catalyze many chemical reactions. Basalt is a rock that is stable under certain conditions in the Earth's interior, but it is not stable at the Earth's surface, where conditions of temperature, pressure, and humidity encourage it to break down. These break-down chemical reactions start on the surface of the column and work their way inward, like a thousand mice nibbling on the exterior of a large block of cheese. Physical weathering takes place when the water freezes. When water becomes ice, it expands in volume by about 9%. This "wedges" open the cracks even more. Once widened, they can accomodate more liquid water, which can then freeze again, widening the cracks further.
The end result of these physical and chemical weathering processes is to break down the rock, from the outside in. Rotten rock sloughs off in sheets, exposing fresh rock from the interior for weathering to attack. This produces an overall "onion skin" effect. An original polygonal chunk of rock become spheroidal over time, as weathering reduces it in size and volume. Pound coin for scale.

Labels: antrim coast, basalt, geology, giants causeway, northern ireland, structure, weathering

Geological travels in Northern Ireland, part V:

A hike east from the Giant's Causeway on the "Shepherd's Trail" takes you along the edge of a steep escarpment, where you can look down and see all kinds of cool things.

Here, I was struck by how plainly the sequence of geologic layers was revealed. The oldest exposed layer here is the sequence of lava flows known as the "Lower basalts." (I mentioned this layer earlier, in my post about the Antrim Coast.)

Atop them is a laterite layer. Laterite is a tropical soil, red in color due to the presence of oodles of oxidized iron. Of course, basalt is a mafic rock, meaning it is very rich in iron. When that iron-rich rock is exposed to warm, wet conditions, a lateritic soil develops atop it. The laterite layer therefore represents a time of relative calm in County Antrim, a time between eruptions, when the land was in a tropical latitude & climate.

Finally, atop the laterite is another series of basalt flows. These are sometimes called the "Interbasalt" layers, or more commonly "The Causeway basalts" since they are typified by columnar jointing of the type exposed at the Giant's Causeway. Here, you can see multiple layers exhibiting strong columnar jointing. (The stratum directly above the laterite layer is the one that filled the paleo-valley that is exposed today as the Giant's Causeway itself.) The Causeway basalts have been dated to about 60 million years ago, in the early Paleogene (about 5 million years after the extinction of the dinosaurs). Their tectonic cause was the rifting of Laurentia, separating Greenland from Europe. These basalts are part of a larger basaltic province, the Thulean Plateau, which can also been found in Scotland, the Faroe Islands, Iceland, and parts of Norway, as well as the eponymous area of Thule, Greenland.

Labels: antrim coast, basalt, geology, giants causeway, laterite, northern ireland

Geological travels in Northern Ireland, part IV:


"The Giants Causeway" is the name of this peninsula of land sticking out into the North Sea. Note the people on it for a sense of scale. Admittedly, it doesn't look too impressive from a distance. But when you get closer, an interesting pattern emerges...



The Causeway is made of thousands of columns of basalt. Oriented a few degrees shy of vertical, these columns formed when an ancient lava flow cooled down and contracted. Cracks developed on the top of the flow (the coolest part) and propagated downward, dividing the rock into these uniformly-shaped chunks.





Viewed from above, each column's shape becomes apparent: they are polygonal: mostly 6-sided, but there are also 5-sided, 7-sided, 8-sided, and 9-sided columns. There is a one-pound coin placed on the middle column in this photo to provide a sense of scale.

Casey sits in a natural "throne" made by the columns as they have been weathered by the pounding waves. You can see here that they are not quite vertical on the west side of the Causeway -- but instead are plunging steeply to the west.







On the east side of the Causeway, a tall outcrop of columns shows them plunging steeply in the opposite direction -- to the east. In between the two sides (down the middle) of the Causeway, the columns are approximately vertical. Note also the ~horizontal joints which divided each column into a series of cake-like stacks. You can tell that these joints came later, because they do not continue uniformly across columns (look at the lack of alignment at the bottom of these columns, for instance).












The overall sequence in the events of the formation of the Causeway would look something like this diagram, shown in cross-sectional view.

First, the "Lower Basalts" were eroded, and a valley was carved out.

Second, the "Causeway Basalts" were erupted, filling the valley. Columnar jointing began at the top of the flow and propagated downward.

Third, the "Causeway Basalt" lava had completely solidified, with columnar jointing dividing up the igneous rock into subterranean columns. Note the radial "splay" of columns in the paleo-valley. On the eastern side, they plunge to the east. On the western side, they plunge to the west.

Fourth, erosion attacks the landscape, removing some material. The Causeway itself pokes up above sea level.


Tourists clustered on the tip of the Causeway.

Labels: antrim coast, basalt, geology, giants causeway, northern ireland, structure