Diving the tropical reefs of Winterfell – 300 Mya

Westeros 300 million years ago. Click to enlarge.

Long ago, the territory surrounding Winterfell was not prowled by direwolves, but rather by corals, fish, and perhaps the occasional reef shark.  While we know that Winterfell’s protective walls are made of granite, the grey hue of the majority of the fortress suggests a different building material, which we interpret as limestone (a common building material during the middle ages on Earth).  And limestone, if you have not already surmised, is formed by large “carbonate factories” typically associated with shallow seas and reefs.  The evidence for limestone is indirect but compelling, and requires a step back to survey the territory surrounding Winterfell more broadly.  To the southwest of Winterfell lie the Flint Cliffs (which we choose to interpret literally).  Flint is a form of chert, a siliceous rock that forms on the shallow ocean floor.  The proximity of shallow ocean rocks to Winterfell suggests an oceanic origin to the stones used to build the castle.  The presence of caves used as crypts by the family Stark suggests karst topography, which is indicative of limestone and the “swiss cheese” geology associated with subsurface water eroding complex cave systems (think, Carlsbad Caverns in New Mexico, USA, or Waitomo Caves in New Zealand).  The rapidly flowing subsurface water would also help explain the Green Fork River, originating near The Twins.  The rivers that pass through The Twins are somewhat problematic given that the vast majority (~99.9%) of rivers on Earth begin in areas of higher elevation (like mountain ranges).  Yet these rivers seem to simply appear, much like the Warlocks.  We propose that these rivers originate from complex subsurface water pathways making their way to the surface through the chert and limestone, emerging as springs.  Again, while indirect, the combined observations of grey building stones, flint, karst topography, and the Green Fork River strongly suggest that Winterfell sits near large limestone deposits.

Life in a carbonate factory. The hours kind of suck, but you do get to work outside. (via Wikipedia Commons)

Dating the Winterfell limestone is more complicated, but not impossible.  Reefs on Earth only appear within a narrow range of latitudes, approximately 30° north to 30° south (at least in the modern climate – during warmer greenhouse conditions, the latitudinal range is much broader).  Currently, Winterfell sits at near 60° north, far too cold for coral reefs, even during greenhouse conditions.  This suggests that Winterfell, and indeed the entire continent, has moved over the eons, further supporting our early assertion of active tectonics.  Earlier, we concluded that the limestone was likely uplifted during the Moon Orogeny, 80-100 Mya.  Therefore, we know that the Winterfell limestone is older than 100 million years. More exact dating requires comparison to similar rocks on Earth: the Carboniferous Limestone of Great Britain and Ireland.  The Carboniferous Limestone currently sits at similar (within 5°) latitude as Winterfell, and like the Winterfell Limestone, formed as ocean sediments much closer to the equator.  The Carboniferous Limestone is approximately 350 million years old, and required an elongate and curvilinear journey to move from the tropics to its current location.  We assume a more direct path for the Winterfell Limestone, and therefore place an approximate age of 280-300 million years.

(previous) <– As the Moon rose, so did the Lannisters

(next) The sand ran red –>

The sand ran red – 450 Mya

Westeros 450 million years ago. Click to enlarge.

The scandalous wedding of young Robb Stark to Jeyne Westerling isn’t the only thing to have been stained red in the history of Westeros (spoiler!).  The Red Keep, home to the Iron Throne in King’s Landing, appears to be made of red-hued sandstone.  We again assume that the quarry is near King’s Landing to facilitate construction, and that the sand was likely eroded from the aptly named Red Mountains to the south.  The crimson coloration might come from a variety of sources, including ferric iron oxide hematite (an iron mineral) that also binds together the New Red Sandstone found in the UK on Earth.  This mineral is indicative of terrestrial origin, suggesting formation within a desert environment.  From our analysis of the size of the Game of Thrones planet, we know that deserts form within a narrow latitude range near 30°.  And our analysis of the Winterfell Limestone suggests that Winterfell was located near 25° north 300 Mya.  We therefore conclude that the Red Keep Sandstone originated in a terrestrial desert environment on southern Westeros around 450 Mya, when King’s Landing, and the entirety of southern Westeros, was within the southern hemisphere.  This approximate age is constrained by the eons required for tectonic forces to translate southern Westeros to its eventual collision with northern Westeros 350 million years later.

(previous) <– Diving the tropical reefs of Winterfell

(next) The first mountains –>

The first mountains – 500 Mya

Westeros 500 million years ago. Click to enlarge.

The Red Orogeny is the earliest piece of Westeros’ geologic history that we can infer with the available data.  From our analysis of the Red Keep Sandstone and the Winterfell Limestone, we know that Westeros has moved gradually north throughout its history.  From this, we can infer that the Red Mountains formed as oceanic crust to the south subducted beneath continental crust to the north.  An oceanic spreading ridge (like the mid-Atlantic ridge) located south of the map likely drives this process.  When the Red Mountains formed, they likely extended into southern Essos as the oceanic plate subducted beneath the entire continent.  Due to their age, and perhaps more dominant weathering and erosion on the eastern flank of the range due to climatic conditions, the Red Mountains in Essos have been lost to time.  The Red Mountains are notably lower in elevation and far easier to traverse, betraying their true age.  The morphology of such weathered mountains is similar to the Appalachian Mountains in the eastern US, which formed around 500 Mya.  We infer a similar age for the Red Mountains.

(previous) <– The sand ran red

Fire with Fire

Hello Gen Anthro fans! Today’s episode is a little bittersweet because we have to announce two things: 1) producer Leslie will be leaving the show (at least for a little while) while she travels across the country to learn how to become an even better producer!  2) Generation Anthropocene will be going on hiatus for the next few months as producers Mike and Miles complete their PhD programs.  We will be back! But it might be a few months.
BUT, before this happens, team GenAnthro got together for one final story!  As part of KCRW’s Radio Race event, we completed a story about “the last thing you’d expect.”  At the turn of the century, an American General lines the streets of a major American city with barrels of dynamite.  This is the story of what happened when he lit the fuses.  We call the story Fire with Fire and we hope you enjoy!  Thank you for all of your support and we’ll see you soon!


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ps. If you like our show, and you’d like to give Leslie a shout out for all of her amazing work and give her best wishes as she continues to be an awesome producer, please send those along to GenAnthropocene <at> gmail <dot> com.