Drunk on Geomorphology - Waterpocket Distillery

The next Drunk on Geology is for the Waterpocket Distillery out of Salt Lake City, UT. 

Before leaving Utah I made it a mission to visit the Waterpocket Distillery because there are few alcohols that more encompass the geology than this one. The distillery is named after the characteristic fold in the rocks that encompasses Capitol Reef National Park. According to the distillery's website:

The Waterpocket Fold gives form to the Capitol Reef and the national park that bears this name, and now gives its name to Waterpocket® Distillery.

Some of the offerings from the Waterpocket Distillery

Not only is the Waterpocket Distillery named after a geological feature, they also have geologically themed alcohols within their collection including the Temple of the Moon Gin, the image on the Waterpocket Cocoa & Rum, and the Toadstool Notom Amaro No. 1. 

Entrance sign to Capitol Reef National Park

The most characteristic features of Capitol Reef is the way that the rocks have been folded across the park. With an axis running nearly 100 miles north to south, is a feature called the Waterpocket Fold. There are several different types of folds when we look at rocks. When rocks are folded in a "U" shape, this is called an syncline. When rocks are folded the opposite way, essentially an "A" shape, this is called an anticline. However, when you have a stair-step fold, where one side of the fold is generally horizonal, then its comes down to another horizonal layer, you have what is called a monocline, and that is what the Waterpocket Fold is. You can essentially see this fold in the way that the rocks dip towards the east through much of the park, such as in the image above looking towards the south.

Cross section of the Waterpocket Fold by Ron Blakey. Image courtesy of the NPS. 

Looking west off the Cohab Canyon Overlook  you can see the dip of the beds towards the east as well as most of the rock units we talked about.

Google Earth view of the Water Pocket Fold (VE = 3)

As you can see in the profile above of the Waterpocket Fold, there are several rock formations that make up the rocks in Capitol Reef NP. Folded approximately 50 to 70 million years ago, the rocks within the park mainly range in age from the Early Permian age White Rim Sandstone (~280 million years old) to the Late Jurassic Age Morrison Formation (~150 million years old). Because of the Waterpocket Fold, the older rocks are easier to see in the western portion of the park and the younger rocks are more exposed in the eastern portion of the park. 

Let us focus in on the liquors from the Waterpocket Distillery. In the north part of Capitol Reef National Park is Cathedral Valley, where you can find the Temple of the Moon. The Temple of the Moon is pictured on both The Temple of the Moon Gin, from which the gin was named, and a more stylized version on the Waterpocket Cocoa & Rum. 

The text on the back of the Waterpocket Cocoa & Rum

We take our turbinado sugar & blackstrap molasses rum (fermented & distilled in-house, then aged in used whiskey barrels), and combine it with fermented and sun-dried Caribbean cocoa custom-roasted at the distillery. Open Wild for a decadent rum sipping experience, rich in cacao, spice, and rum flavor. 

The text on the back of the Temple of the Moon Gin

We dedicate this gin to the sacred Temple of the Moon in Capitol Reef's Cathedral Valley. Inspired by the juniper and pinion forests of Utah's high desert country, we crafted a gin of uncompromising artistry and beauty. Made with: Coriander, Lemon Peel, Lavender, Angelica, Ginger, and 10 other botanicals. 

Temples of the Sun and Moon. Image courtesy of William Belvin from thewave.info.

The monoliths of the Temples of the Sun (in the background) and Moon (foreground) are composed of the Entrada Sandstone. Looking at the cross section above, the Entrada sandstone is exposed along the eastern portions of the park and is one of the youngest rocks exposed in the park. The Entrada Sandstone is a buff-pink colored sandstone deposited during the Jurassic age (~150 million years old), formed from a coastal dune environment. The Entrada Sandstone is the same formation that is more well known as the rock that the arches are comprised of in Arches National Park, located to the east of Capitol Reef National Park.

South Window Arch in Arches National Park

The cement in the Entrada Sandstone is one of the key ingredients. Many sandstones are cemented by silica, which is basically a dissolved type of quartz, a very hard mineral. Those types of sandstones are incredibly difficult to erode. The Entrada Sandstone, however, is cemented with calcite, a mineral that easily dissolves in slightly acidic water, such as the calcite in caves. This means that it crumbles fairly easily and is removed rapidly by flowing water. 

Capping the Entrada Sandstone in these parts is the Curtis Sandstone. A grayish-green sandstone and siltstone that is more more resistant to erosion than the Entrada and protects the monoliths from complete erosion. 

The last bottle pictured above is the Toadstool Notom Amaro No. 1. From the Waterpocket Distillery's website:

Like the toadstools of Escalante's Grand Staircase, the great artistry of these liqueurs and bitters is the delicate balancing act of bitterness, aromatics, and other natural flavors. A warming of the throat and stomach highlights the traditional consumption of this type of spirit as a digestive or digestif, or after-dinner liqueur. We think this also make them perfect for after-ski, after-hike, or as an intense flask-filler for your next adventure into the wilderness.

Toadstools in Grand Staircase Escalante. Image courtesy of Visit Utah.

The Toadstool is named after geological features not in Capitol Reef this time but those a little further to the south in the Grand Staircase-Escalante National Monument. These features are known as the Toadstool Hoodoos. Hoodoos are:

 A column, pinnacle, or pillar of rock produced in a region of sporadic heavy rainfall by differential weathering or erosion of horizontal strata, facilitated by joints and by layers of varying hardness, and occurring in varied and often eccentric or grotesque forms. (Dictionary of Geological Terms, 3rd Ed.)

View of some of the equipment in the distillery. 

Even though these toadstools are much further south than the Temple of the Moon, these are also formed from the Entrada Sandstone, however here instead of being capped by the Curtis Sandstone, they are capped by the Dakota Sandstone. As the Entrada Sandstone erodes away, the much more resistant Dakota Sandstone protects the smaller column in the middle, much like the Temples of the Moon and the Sun. 

The Dakota Sandstone is Early Cretaceous in age, ~100 million years old, and represents the western shore of the very large Cretaceous Interior Seaway. The Dakota is made up of yellow to grey sandstones, mudstones, and a few thin beds of coal. These were deposited within a wide range of coastal environments including deltas, alluvial fans, and coastal deposits.

Overall a very geologically friendly place.

References

https://www.waterpocket.co/#

https://sed.utah.edu/CapReef.htm

https://www.nps.gov/care/learn/nature/geology.htm

https://www.thewave.info/CapitolReef/Capitol%20Reef%20NP/Cathedral%20District/index.html

https://www.nps.gov/places/temples-of-the-sun-and-moon.htm

https://www.visitutah.com/Places-To-Go/Parks-Outdoors/Grand-Staircase-Escalante/Grand-Staircase-Section/Family/The-Toadstools

https://www.visitutah.com/Places-To-Go/Parks-Outdoors/Grand-Staircase-Escalante/Grand-Staircase-Section/Family/The-Toadstools

https://www.grandcanyontrust.org/hikes/cpe-toadstools

Drunk on Glaciology - Park Distillery Vodka Espresso

The next up on the Drunk on Geology series is the Vodka Espresso by the Park Distillery from Banff, Canada.  

Although not geological in name, the image on the bottle, which is the same image on many of the bottles at the distillery, is that of Mount Rundle, a prominent geological landmark within Banff National Park. I had previously done a Geology of the National Parks Through Pictures review of Banff National Park on my other page but I didn't get into Mount Rundle much there so that I could cover it here. 

Here is a close up of the image on the front of the bottle. The mountain is extremely easy to see from the town of Banff, as shown in the picture below. The mountain itself is not glacial in origin, however I have included it in my Drunk on Glaciology portion because of the heavy impact glaciers had on the mountain landscape itself as well as the surrounding region such as the glacially formed U-shaped valleys carved out of the thrust fault valleys described below.

Here is a view of Mount Rundle taken from the Banff Upper Hot Springs facing west. The hot springs actually use water that percolates into the soil from Mount Rundle in the distance. The water initially seeps into the ground in Mount Rundle's high western slopes, then works its way down into the ground through the sedimentary rock layers were it is slowly heated, pressurized, and enriched with local dissolved minerals (including sulphates, calcium, bicarbonate, magnesium, and sodium). After hundreds of years it then rises up towards the surface along the Sulphur Mountain Thrust Fault until it reaches the surface at one of the several outlets, including this one at the Upper Hot Springs. 

Location of Mount Rundle and Cascade Mountain in relation to the neighboring thrust faults and the town of Banff. Image modified from Travel Tales of Life. 

Mount Rundle is located on the south of the town of Banff, mirroring the equally impressive Cascade Mountain on the northern side of Banff. Both mountains are flanked by the Rundle Thrust Fault to the east and the Sulphur Mountain Thrust Fault to the west. 

Diagram of the formation of Mount Rundle along the thrust fault. Image is shown flipped where the fault should be dipping towards the west (left). Image courtesy of Travel Tales of Life.

The rocks of Mount Rundle were pushed upwards along the thrust from west towards the east, folding along their edge as they went. This thrust produced the westward sloping beds that are so well known along Mount Rundle. These mountains were thrusted up and over the neighboring rocks during the creation of the Canadian Rockies approximately 72 million years ago. 

 

Geology of Mount Rundle highlighted. Image courtesy of the Geological Survey of Canada.
Mr - Mississippian Rundle Limestone; Mb = Mississippi Banff shales; Dp = Devonian Palliser limestone cliffs

Mount Rundle is primarily made up of three geological formations. The Palliser limestone (aka Palliser Formation) is a Late Devonian (~360 million years old) that was deposited along a warm, coastal shelf environment, very similar to the Bahama Banks today. Then above that along the more eroded slopes is the Banff Shale. The Banff Shale (aka Banff Formation) is also a Late Devonian age deposit that was deposited in a sediment rich marine environment. And the top of the mountain is capped with the resistant Rundle limestone. The Rundle Limestone (aka the Rundle Group) is a Mississippian age (~340 million year old) limestone deposited in a marine environment.

Text from the side of the bottle:

"From 100% locally-farmed Alberta grain. Double distilled in our hand-built Kothe copper column still. Steeped with organic espresso beans from the Banff Roasting Company. Just like a rich cup of coffee brewed over an early morning campfire. But with vodka. So even better. 

Vista - Mount Rundle"

References

https://www.researchgate.net/figure/Geological-map-of-Banff-showing-the-locations-of-thrust-faults-Borgeau-Sulphur_fig3_301749044

https://traveltalesoflife.com/iconic-alberta-mountains-rundle-thrust-fault/

http://parkscanadahistory.com/geology/misc-report-1-1960.pdf

https://www.researchgate.net/publication/276829868_Orogenic_pulses_in_the_Alberta_Rocky_Mountains_Radiometric_dating_of_major_faults_and_comparison_with_the_regional_tectono-stratigraphic_record

Drunk on Glaciology - Park Distillery Glacier Rye

The next up on the Drunk on Geology series is the Glacier Rye Unaged Grain Spirit by the Park Distillery from Banff, Canada.  

Located in the heart of Banff National Park, the Park Distillery has many spirits with a geological flair to them. Besides just the name of the "Glacier Rye", the image on the bottle features one of the glaciers within Banff National Park, Crowfoot Glacier. I had previously done a Geology of the National Parks Through Pictures review of Banff National Park on my other page and talked a bit about the Crowfoot Glacier as well as many other geological features within the park. 

Generally, a glacier is a body of ice that doesn't melt during the warmer summer months. It starts off as a snowfield around the higher elevations, often near the peaks of mountains. The snowfield, which also doesn't melt throughout the year, builds up more and more snow over time. Eventually, the snow reaches a thickness where it starts to compact in on itself, forming ice in the lower layers of the snowpack. Eventually this ice gets so thick that is starts to flow and slide down the mountain peaks. At this point it can be deemed a glacier. As the temperature increases down the mountain sides eventually the glacier will reach an elevation where it is too warm to remain frozen for the entire year and will melt. If the local, and really global, temperatures are stable, the glacier will reach a balancing point where the amount of snowfall and ice accumulation at the top will equal the amount of melting at the bottom and the glacier will remain the same size (however always still flowing from top to bottom). If global temperatures are decreasing, the glacier will grow until a new balance point is achieved. If temperatures are increasing, then the glacier will decrease, or even completely disappear, until a new balance point is achieved. 

Text from the back of the bottle:

"We distill in the purest place on the planet. Out water originates at six Rocky Mountain glaciers, and our grain is sourced from high-altitude family farms in the Alberta foothills. Our Spirits are like no other in the world, because there is no other place in the world like Banff.

From 100% locally-farmed Alberta rye. Double pot distilled in our hand-built Kothe copper still. The remarkable nature of this 100% heart cut spirit demanded we bottle some unaged. The way a sky-blue, glacier-fed lake demands you dive right in. Which you don't. Because it's freezing [see below]. 

Vista - Crowfoot Mountain at Bow Lake, Banff National Park" 

As noted in the description, the image on the bottle is of Crowfoot Mountain at Bow Lake. Here is a panoramic shot of Bow Lake with Crowfoot Mountain on the left side of the image. Along with the formation of a glacier, there are many different features that are characteristic of glacial landscapes. These are both erosional and depositional. When a glacier is sliding down the side of a mountain it collects the rocks, soil, and pretty much anything that gets in its way and carries it down the mountain with it. Once it reaches the end of the glacier, where the ice is melting, the glacier acts like a conveyor belt and all of the material that it is carrying gets dropped into one big pile. This big pile is called a moraine, while the debris within the moraine is called till. 

Glaciers also carve out the valleys that they are travelling in. Starting as stream valleys, the profile of the valley will start out in a "V-shape" due to the stream carving down into the ground at the one central point. However, a glacier will often fill the valley it is traveling in, carving out the sides of the valley as well as the base of the valley. This will smooth out the "V", creating what is known as a "U-shaped" valley. Landscapes impacted by glaciers are often very easy to identify by these U-shaped valleys. A lot of times these features will overlap, like here at Bow Lake. Bow Lake is what is known as a moraine-dammed lake. This was a valley initially carved out by a glacier, forming a U-shaped valley. At the end of the valley, where the end (or toe) of the glacier was located, it formed a moraine. After the glacier melted away, the meltwater from the glacier flowed down into the valley but was dammed up by the moraine, forming Bow Lake that you see here.  

A close up shot of Crowfoot Mountain and the Crowfoot Glacier that can be seen on the front of the bottle. The Crowfoot Glacier is part of a much larger icefield, the Wapta Icefield, all of which are found along the Icefields Parkway at Banff National Park. The icefields located within Banff and other national parks in the region, are so large that they frequently have several glaciers that stick out from them, traveling down the surrounding mountain ranges. 

As the glaciers grow and slide down the mountain they form a bowl-shaped depression that they sit in known as a cirque. Eventually, should the glacier melt, the cirque, which is often cut down into the bedrock, provides an ideal location for a lake to develop. Crowfoot Glacier sits within the cirque that it has carved out and hopefully will remain there for a long time. However, with global temperatures rising, the amount of glaciers within Banff have been quickly decreasing and the size of the glaciers that are still present have all been shrinking. So, it is only a matter of time before these glaciers are gone for good.

I reemphasize what the back of the bottle says: "The way a sky-blue, glacier-fed lake demands you dive right in. Which you don't. Because it's freezing." 

We visited the park towards the end of July, which is around the warmest part of the year and even then the water was COLD, because they are direct runoffs from the melting glaciers. Here is another view of Bow Lake with the Bow Glacier up in the background, another glacier that is part of the Wapta Icefield. Both Bow Glacier and Crowfoot Glacier melt into Bow Lake. 

The beauty of Banff National Park can't be understated and the fact that Park Distillery highlights one of the most ideal glaciers to see along the main Icefields Parkway within the national park is no accident. This park is a sight to behold. 

Drunk on Seismology - Aftershock

What better alcohol to follow up on the last entry's Earthquake with than this liqueur - After Shock.

After Shock is a product of the Jim Beam company with several varieties. The main one I am aware of (and the one pictured below) is the Hot and Cool Cinnamon version. It is a rather strong drink (80 Proof) with a strong cinnamon taste.