Showing posts with label south pass. Show all posts
Showing posts with label south pass. Show all posts

Monday, July 24, 2017

Ode to South Pass

Twas the spring of ’78,
When prospectors tipped beer with squirrelly mates, 
At the Mercantile we heard cheers and moans,
Interrupting exaggerations about gold in shear zones.

Along came a geologist named GemHunter Dan,
Twas said to be a hard rock man, 
Surrounded himself with rocks of old,
Including amphibolite, a host for gold.

The GemHunter
In the summer, when snow buried his tent, 
Off to Laramie is where he went,
He swore he would be back with hammer and map,
And would also bring a miner’s cap.

Atlantic City with population of 40,
Dogs, Barbara, Steve, Tony and Shorty,
Blessed by a geologist with all his maps,
Found gold at a mine face covered with bats.

Down the shaft in stopes so cold,
Then up in a raise he was told,
Is where the yellow metal resides so bright,
In tunnels and chutes lit by a miner’s light.

The Carissa kept its secrets deep,
Until the State took her while we weeped,
A billion in gold, now lay with mold, 
So tourists can enjoy a town of old.

There was a Mary Ellen mine and its mill,
With Steve the captain at the wheel,
We descended 240 feet of incline, 
Followed the vein while my assistant whined.

He’s claustrophobic at 240 deep,
Carrying him up a ladder that’s way too steep,
So we yelled “Jay” climb to the light,
He made the head-frame before midnight.

Then there was Barbara so bold and old,
Swindled a tourist with jars of fool’s gold, 
The pyrite was shiny, brassy and cold,
But the tourist was mad when he was told.

He plugged his whiskey bottle with a cork,
Decided to get even by calling her dork,
And that evening, while she slept on a floor,
Barbara’s Cadillac was ablaze from door to door.

Gold panned out of the Rock Creek dredge tailings
Barbara awoke to whisky and flakes,
We wondered who next she would take,
When into the Mercantile strolled a mark,
Dressed like a dandy at the bar he parked.

Where’s the Mary Ellen he asked so kind,
So Barbara offered him title to a mine,
No thanks said the gentleman from Missouri,
You see, I’m really in a big hurry. 

Besides the mine cannot be sold,
After all its my mine he told,
So Barbara drank another shot,
Another swindle and she was caught.

Then there was Shorty with wet pockets and old, 
Sat in his trailer to count his gold,
Cut a hole in a single wide on Rock Creek, 
To fill his honey pot and make everyone reek.

Atlantic City is the place,
To mine gold and investors with hast, 
Dig the gravel and fill a mucker,
A sluice, a pan, or a sucker.

Enough! I said as I headed out with cap,
Grabbed my Brunton and began to map,
Eight quadrangles, 500 square miles, a dozen or so mines completed,
Searched for the yellow stuff and found more Mormons than needed.

Published a paper a book and cried,
Why do bureaucrats have to lie,
Elected a crooked Democrat, 
With a State geologist, a two-bit rat.

So long I said to South Pass of old,
You can keep your Democrat and your gold,
Wyoming democrats smell ripe and old,
Just like Shorty’s honey pot I’ve been told.


Mining districts and mineralized terrains of Wyoming 
(after Hausel, 1997; and Hausel & Hausel, 2011). 
South Pass, what a glorious place! I saw South Pass for my first time in 1978. The vast gold mining region and greenstone belt along Highway 28 at the southern tip of the Wind River Mountains was just south of the town of Lander in western Wyoming. It was love at first site! The geology, the old mines, a couple of tiny towns partially occupied by ghosts - it was a geologist’s paradise. 

I told the greenstone belt, "I will be back to map you". And, I did get back and accumulated fond memories during the five summers in a tent while mapping the 450 to 500-square mile granite-greenstone belt and more than two dozen gold mines.

South Pass is a gold prospector's paradise. At least it use to be. The geology forms a tightly folded, granite-greenstone belt, a geological basin, with banded iron ore deposits along the western and eastern limbs of the belt. If you are unfamiliar with this kind of geology, I recommend searching the Internet for a summary on ‘greenstone belts’. Archean age ‘greenstone belts’ and ‘gold belts’ are often synonymous terms to geologists who work in Archean (older than 2.5 billion years) rocks.

Schematic map of the South Pass granite-greenstone belt 
showing location of the South Pass-Atlantic City and Lewiston 
districts, and McGraw Flats and Oregon Gulch paleoplacers (after Hausel, 1991)
Decades ago, iron ore was mined at US Steel’s Atlantic City mine; a mine that was a show-case for the company. But, the once majestic mine closed and is now a lake (42°32'26"N; 108°44'44"W) sitting along Highway 28.

The iron ore occurs in a rock known as banded iron formation (BIF), or taconite. It consists of alternating layers of magnetite and quartz. BIF is a good source for iron, and some are also sources for gold, particularly where quartz veins and sulfides such as pyrite, chalcopyrite or arsenopyrite occur in the rock. Take the Homestake mine as an example: nearly 40 million ounces of gold were mined at Homestake over a century, and it was classified as iron formation. Other examples of gold in iron formation occur at the Lupin mine in the Northwest Territories, Detour Lake in Ontario, Mt. Morgans in Western Australia, and others in Zimbabwe, India and Brazil.

Folded BIF from the Atlantic City iron ore mine, Wyoming, with
quartz veinlets, 
The BIF at South Pass lies in a meta-sedimentary unit known as the Goldman Meadows Formation that includes mica schist and quartzite resting on older rock of the Diamond Springs Formation. The average iron content of the BIF is upwards to 40%. US Steel operated the mine and recovered more than 90 million tons of iron ore prior to closing the mine in 1983. The geology of the Goldman Meadows formation indicates these rocks were originally deposited in a shallow sea on a stable platform possibly 3 billion years ago.

Copper-stained BIF from the Seminoe Mountains greenstone belt,
Wyoming, with both black and white quartz veinlets
mixed with dark gray magnetite.
When the Atlantic City mine closed, the BIF was unsampled for gold until I asked about archived gold assays. The company was so focused on iron, they didn’t consider the possibility of gold. I got permission to visit the mine, but my annual assay budget at the Wyoming Geological Survey was a pitiful $100 per year (at that time, $100 would cover 3 to 5 assays), so I was unable to test the rock for gold since I had already spent my annual assay budget. Even so, I found quartz veinlets cutting the BIF with pyrite and chalcopyrite as well as other veinlets that penetrated the rock foliation - good signs for gold. Even so, I was unable to prove the rock had any gold. But when the beer started flowing at the Atlantic City Mercantile and I brought up the subject, former iron miners swore they had seen visible gold in the open pit. In 1981, I had found highly anomalous and localized gold in BIF in the Seminoe Mountains greenstone belt east of South Pass, but we still don't know if there is any gold in the BIF at South Pass. 

The Diamond Springs Formation, the lowermost mappable rock unit at South Pass includes primitive, metamorphosed, igneous rock known as amphibolite (metamorphosed basalt) and serpentinite (metamorphosed komatiite). Samples of this material contain 18 to 38% MgO, a trace to 1.0% chromium; and trace to 0.26% nickel. Based on chemistry and rock mineralogy, I interpreted these ancient and altered rocks to originally be basalts and komatiites deposited on the earth’s surface 3 billion years ago. Komatiites are rare volcanic rocks often found in greenstone belts and are essentially restricted to Archean age (older than 2.5 billion years).

Locally, some of the serpentinites have cross-fiber asbestos veinlets that were prospected in the early 20th century for asbestos, while other outcrops are massive, and a few have cumulate texture. Cumulates are magnesium-rich metamorphosed volcanic flows that erupted directly from the earth’s mantle and when they began to cool, tiny olivine grains crystallized in the lava, sank, and accumulated at the bottom of the flow producing a sandstone-like, cumulate texture. 

Rock foliation and bedding of dark gray to black meta-greywacke 
of the Miners Delight Formation is nearly perpendicular to Rock 
Creek with its dredge tailings in the foreground. In other words, the 
bottom of rock creek is lined with many natural riffles to trap gold. 
By the way, the name ‘Miners Delight’ would be better applied to a beer.

Magnesium-rich volcanics are good rocks to prospect for nickel, chromium, platinum-group metals and gold: none of which I detected in anonymous amounts at South Pass. Elsewhere in Wyoming, I found anomalous nickel and palladium in another magnesium-rich rock at Puzzler Hill in the Sierra Madre Mountains, and chromite was found nearly a century ago in serpentinite in the Laramie Mountains near Douglas. Nickel anomalies are also reported in the Laramie Mountains anorthosite complex, where a king’s ransom in labradorite (spectrolite) and iolite gemstones occur. 

As a rock hound or prospector, any time you see the term 'anorthosite', it usually means it's a good place to search for labradorite. And if you are interested in iolite - that is a little more complicated. Look in areas where the rocks have been metamorphosed and have high alumina. Or, simply look for the term 'cordierite' applied to metamorphic rocks. Cordierite is the geologist's designation, and few geologists know what gemstones look like. Often they mention the mineralogical term but completely overlook the fact that the mineral may be gem quality. But remember, there is a lot of cordierite out there that is very poor quality.

At one location north of Laramie based on the few samples I collected on a county road, and based on historical estimates of the amount of cordierite exposed in trenches, there could be a deposit with more than a trillion carats of iolite. Nearby, I found some extraordinary deposits of iolite at Palmer Canyon and Grizzly Creek. Iolite is a low-value gem.

Miners Delight mine was developed on a 3 to 16 foot wide shear zone that has been traced over 2500 feet on the surface. Gravels in nearby Spring Gulch draining this shear zone produced 1500 ounces of gold including several 1 & 2 ounce nuggets, a 6 ounce nugget, and a sample of auriferous quartz described as “the size of a water bucket that was filled with gold”. Samples collected across the shear zone by the the author assayed from 0.01 to 0.36 ounce per ton gold.  A historic prospectus reported there were 2,400 feet of drifts accessed from a 250 foot deep shaft and the mine produced 60,000 ounces. The gold tenor ranged from 0.3 to 110 ounces per ton of gold. It is likely that this property still has considerable ore at depth.
Some gemstones are also found in serpentinites - for instance, my good friend Robert Odell (RIP) found hundreds of tiny, blue sapphires in alumina-rich serpentinite near the Red Dwarf ruby deposit in the Granite Mountains of central Wyoming northwest of Jeffrey City. While exploring northern California for diamonds, I came across chromian diopside in serpentinite. Chromian diopside is considered to be a kimberlitic (diamond) indicator mineral and some specimens yield spectacular emerald-green gems. In central California, east of Sacramento, I also found gem-quality benitoite in the river adjacent to a serpentinized breccia pipe I examined for diamonds. The benitoite was flawless and likely eroded from nearby aluminum-rich serpentinite. I was hoping to get back to that area some day and search for the source for those gemstones, but never did. Even though some serpentinites contain gemstones, the South Pass serpentinites lack anything of value, other than for a few crooked jade dealers who sell it as jade.

The base of the South Pass greenstone belt is interleaved with gneiss. Similar gneiss found elsewhere in the Wind River Mountains is dated from 2.8 to as much as 3.8 billion years old. Age dates in the South Pass granite-greenstone belt include the Louis Lake granitic batholith (which intrudes the greenstone belt) and is dated at 2.6 billion years old. Some poor quality helidor (yellow-green beryl) and rare aquamarine beryl occurs in granite pegmatite associated with this batholith. A 2.8 billion year age (isochron) was determined for the Miners Delight Formation metamorphic event that recrystallized all of the rocks of the greenstone belt. A similar age was determined for a vein at the Snowbird mine located in the Miners Delight Formation, suggesting that a temporal connection exists between metamorphism (rock recrystallization) and gold mineralization. It is likely much of the primary gold at South Pass leached out of the rock during metamorphism and migrated to zones of lower pressure (i.e., fractures), such as shear zones that lie parallel to near-parallel to regional rock foliation. Thus, when prospecting at South Pass, it is important to learn as much as possible about these shear zones.

False bedrock on Rock Creek (42°29'10"N; 108°42'22"W). Layers of false 
bedrock can lead placer miners to give up after they recover gold from a 
pay-streak thinking they are on bedrock. The handle of the shovel rests 
against the massive clay layer (claystone) that acts as a barrier to gold. 
Siting above this layer, cobbles and pebbles in the overlying conglomerate 
are characteristic of stream gravel and this material carries gold which 
is enriched at the interface between the conglomerate and the claystone. 
Below the claystone, more gold-bearing steam gravel is visible. As one 
digs further down into the placer on Rock Creek, similar false bed rock 
layers will likely be found. On Smith Gulch (42°31'3"N; 108°42'19"W), 
two placer miners (Hank Hudspeth and Buddy Presgrove) found a similar 
false bedrock layer with considerable gold sitting on false bedrock and  
found additional gold below the layer on actual bedrock. 

Sitting on the Goldman Meadows Formation is the Roundtop Mountain Greenstone Formation - a belt of metamorphosed pillow basalts deposited in an ancient sea. Some pillow basalts are so well preserved that I was able to use them the tell which way was up in this part of the stratigraphic section. This is helpful when mapping rocks in greenstone belts, because most greenstone belts were compressed and squeezed like an accordion during tectonic stress, and many rock units can be overturned. 

If you are not familiar with pillow basalt but familiar with the Black Cat snake fireworks made from sodium bicarbonate and sugar, you have a good idea of what pillow basalts look like. Pillow basalts erupt under water expanding like snakes. Where they rest on a rock layer, they tend to sag until they completely solidify and look like a pillow. Since they sag, one can determine which way was up at the time of deposition. The pillow basalts at South Pass are now tilted nearly 90o.

The Roundtop Mountain Greenstone is overlain by the Miners Delight Formation, which is estimated to be 5,000 to 20,000 feet thick and seen throughout much of the exposed greenstone belt. Determination of the thickness of this unit is complicated by folding and faulting, and in most places it has been tilted nearly 90o and many places it is overturned. This formation consists primarily of dark gray to brownish black meta-greywacke. Greywacke (or meta-greywacke) is nothing more than dirty sandstone deposited along the edge of an ancient continent.

Non-mineralized rocks of the Miners Delight Formation contain a trace to 0.051 ppm Au (gold) (compared to a worldwide average of 0.002 ppm. Essentially all of the rock units at South Pass exhibit above average gold content and these were deposited in a shallow to moderately deep oceanic basin by volcanic activity and erosion of an adjacent continental shelf. All of the old Archean rocks were intruded by a belt of gabbroic rocks along a rift. These intrusive rocks are now classified as amphibolite but were originally gabbro, diabase, andesite and komatiite. 

As the entire belt was compressed and folded along the edge of the subduction zone 2.8 billion years ago, shear zones formed along the contact between the Miners Delight meta-greywacke and the amphibolites due to the competency contrast between the two rock types. This is a very important concept for gold prospectors. Wherever you find shear zones at South Pass, you usually find quartz stringers, quartz lenses, fractures, limited hydrothermal rock alteration and gold! So, take a look at Google Earth and scan from South Pass City (42°28'7"N; 108°48'10"W), to Atlantic City (42°29'46"N; 108°43'49"W), to the Miners Delight ghost town (42°31'60"N; 108°40'51"W) and place pins (placemarks) on mines, trenches and prospect pits. Not only will your fingers wear out placing pins in prospect pits, but soon you will visualize the trend of the shear zones. They form a northeasterly belt running along the western limb of the greenstone belt. If you do the same for the Lewiston district 11 miles to the east, you will see a similar pattern emerge.

The Duncan mine and mill, 1989
Parts of the South Pass greenstone belt are overlain by geologically young sedimentary rocks of Tertiary age (65 to 2.6 million years old) that include gold-bearing conglomerates in the Wasatch, White River, Arikaree, and South Pass Formations. When you prospect at South Pass, you will periodically see lenses of younger rocks scattered high and dry away from any known drainages - if they look like they have pebbles, cobbles, and boulders, dry pan them for gold. On past gold prospecting and geology field trips, I often stopped at one or two of these sites (42°28'45"N; 108°42’58"W) so prospectors could see another type of gold deposit found in the greenstone belt that has been overlooked. 

The more I mapped South Pass, the more it was clear that only a portion of the greenstone belt was visible at the surface and large parts of the complex continued under younger sedimentary rocks to the north and south. Geophysical exploration and drilling by Hecla Mining Company discovered greenstone belt rocks under a thick layer of sedimentary rocks, 6 miles south of South Pass City. Hecla had an excellent gold target at that location that their geologist (Foster Howland) interpreted as a buried, sulfide-rich iron formation, but the drilling project was cut short due to a recession.

The Carissa mine was developed in an intensely folded and faulted structure known as a shear zone. The primary high-grade gold-
bearing shear structure is 1.5 to 80 feet wide. This high-grade zone is enclosed by a much larger, completely unmined, low-grade shear envelope that is as much as 1000 feet wide! The envelope is almost completely untested even though samples show potential for a major gold deposit! A 97-foot composite chip sample that I collected on the south side of the high-grade shear within this low-grade zone yielded 0.023 ounces per ton. Another 30-foot sample on the north side of the high-grade shear yielded 0.07 ounces per ton of gold! The remainder of the envelope (about 850 to 900 feet) remains untested!.

The Carissa ore deposit is structurally controlled and appears to represent a saddle reef deposit where high-grade gold is localized in fold closures and rehealed fractures similar to the Homestake mine. Geological evidence suggests the Carissa orebody continues to great depth. Support for the presence of a major ore deposit includes drilling that tested the mineralized shear below the mine workings. Drilling by Consolidated McKinney Resources identified a highly anomalous zone that was up to 80 feet wide. Assays of drill core from this zone ranged from 0.03 to 2.54 ounces per ton gold (the shear envelop was not tested). This mineralized structure was intersected at depths up to 930 feet. In addition, Carissa Gold Inc. made the following reserve estimates on the property using a very high reserve cutoff grade. They reported the mine had 208,000 tons of ore with an average grade of 0.343 ounces per ton and a geological reserve of 37,000 tons of ore averaging 0.85 ounces per ton!

Anaconda Minerals also drilled the property and all of their reported drill holes interested ore grade material. They intersected a high grade ore zone over widths of 2.3 to 16.1 feet that yielded 0.11 to 0.36 ounces per ton gold at depths up to 700 feet. Again, they also ignored the shear envelop, which likely contains considerable gold that is minable at today’s gold prices.
In this region near Oregon Buttes (42°15'19"N; 108°51'21"W) and Dickie Springs (42°18'30"N; 108°51'48"W), Wasatch Formation conglomerates are estimated to be 1,300 feet thick and cover 8 mi2. Some gold-bearing oil well cuttings were recovered from depths of 6,500 to 7,000 feet just north of the Continental Fault to the north of Oregon Buttes. This vast gold-bearing paleoplacer has been mostly ignored for decades, except at the Dave Freeman prospect, where Dave has been recovering gold from the dry placer. 

Erosion over millions of years left behind extensive Eocene paleoplacers along the north and south ends of the greenstone belt. One estimate by the US Geological Survey suggested the paleoplacers south at Dickie Springs and Oregon Gulch could contain 28.5 million ounces of gold! But the gold is distributed throughout a very large volume of conglomerate, and little to no standing water is available except at Dickie Springs. So, one either brings water to the conglomerate or vise versa. But just like any placer, these paleoplacers have pay streaks associated with black sands that contain magnetite, so a search using magnetic surveys may assist in identifying pay streaks.

Remains of the E.T. Fisher washing plant on Rock Creek. This mine operated from the 1933 to 1941. How good are your eyes?
 Can you see the beginning of World War 2 in this photo? It's pretty obvious. When WW2 broke out, all non-essential mines were
 ordered closed by the War Miners board - which included all gold mines. This placer operation on Rock Creek was still recovering
 commercial amounts of gold, when it was ordered to close. The mine (like many gold mines at that time) never reopened. Gold
 prices were $35.5 per ounce in 1941 as compared to $1,250 per ounce today. Few people have ever tried to reopen these old
 placer and lode gold mines that were ordered to close, even though they are almost guaranteed to be commercial. 
Learn as much as you can about shear zones: this is where the primary gold will be found. And, all of the good placer gold deposits are found a short distance downstream from shear zones. As you dig for placer gold in the drainages, keep in mind you will likely find pay streaks on false bed rock surfaces, with additional pay streaks on bedrock.

There are undoubtedly pay streaks downstream from many shear zones in the South Pass-Atlantic City-Miners Delight district and in the Lewiston district to the east. If I were to look for nuggets, I would examine places like Hermit Gulch (42°28'29"N; 108°47'23"W) since it is down slope from many good gold-bearing shear zones near the Carissa mine. Then there is Little Beaver Creek (42°29'26"N; 108°45'5"W) downstream from the Duncan, Mary Ellen and other mines. Spring Gulch lies downstream from the Miners Delight mine (42°31'55"N; 108°40’57”W) where many nuggets were found in the past and in the Lewiston district, there are several, small, immature, dry drainages downstream from shear zones. Most do not have much dirt, but that dirt likely has some gold. Some of these lie near a couple of shear zones that host the Goodhope (42°26'32"N; 108°32'22"W), Mint (42°26'32"N; 108°32’45”W), Gold Leaf and other mines that produced some excellent gold specimens in the 1980s and likely in the 1800s and early 1900s. The more you look around these shear zones, the more targets you will spot.

In the past, some of the better placer gold was collected on Rock Creek (I’ve seen over a hundred nuggets from the area) and Big Atlantic Gulch, and the better gold-bearing rock samples were collected at the Carissa mine (42°28'29"N; 108°47'42"W). So common was visible gold at the Carissa mine, that every field trip I led to the area, at least one person found a very attractive gold specimen on the mine dump. And I’m sure there were many I never heard about.

Hematite-stained quartz breccia with considerable visible gold in vugs
found at the Carissa mine. This became a common occurrence over
the years. Essentially every field trip the author led to South Pass
someone found specimens with visible gold. Most were found at
the Carissa mine. Other localities where visible gold in quartz was
 found included the Duncan, Miners Delight, Mary Ellen,
Good Hope, Mint and others
Based on assay samples taken at the Carissa mine (42°28'29"N; 108°47'42"W) by past mining companies and myself, a significant gold deposit continues along the Carissa-Duncan-Mary Ellen trend and down-dip for at least a thousand feet. At the Carissa, the mineralized shear zone is as much as a thousand feet wide. Past miners focused only on the high-grade gold in the narrow, prominent, shear structure, and completely ignored a very large envelope of low-grade gold. Past drilling showed the gold-bearing structure was mineralized to depths of 930 feet. This was the deepest any drill hole penetrated the gold structure - so, it could easily continue another 30 feet, 300 feet, 3,000 feet, or 30,000 feet. We don’t know. So, all of that gold-bearing rock from depths of 400 to 930 feet was never penetrated by the Carissa mine tunnels. And the low-grade envelope was left completely untouched from the surface to 930 feet. This same shear structure continues along strike for at least 1,000 feet before it narrows. Even so, the shear can be traced 8.5 miles from Willow Creek (42°27'49"N; 108°47'9"W) through the Carissa mine, and all the way to the northern edge of the greenstone belt near Meadow Gulch (42°32'4"N; 108°38'58"W) where it is buried by younger sedimentary rock.

In the mid-1980s, I applied for grants to map South Pass. The entire greenstone belt was wide open with no fences (except around the iron ore mine), and I often went for days, weeks and in some cases, an entire summer without seeing another person. But now there are more man-made structures and fences appearing in the belt. There is even a place called Rock Creek Hollow (42°26'25"N; 108°37'25"W) that didn’t exist when I mapped the greenstone belt. The Hollow has amphitheaters, fire pits, and even a parking lot with a bus turnaround. Near the end of my project, I was actually ran off the road by buses and a flatbed truck filled with portable outhouses. at this area. A barren hillside near this parade, sat a lemonade stand manned by women dressed like pioneers. It is clear that South Pass was changing, and my hope is that the area remains a gold-mining district and some of these people can learn to be friendly and share the road.

The Duncan gold mine and mill as it appeared to me when I first visited South Pass in 1978. I later detected significant gold in a
 distinct fold near the old glory hole. A 2.5 foot long channel sample yielded 0.96 ounce per ton gold!
During my project, I took one Saturday afternoon off to drive to the Mercantile in Atlantic City to have a beer and find out if the world still existed. I met a prospector who was looking for a place to pan for gold: I sent him to Strawberry Creek (42°26'1"N; 108°29'49"W) where he used a man-powered sluice with a hand shovel and managed to stay out of site of the BLM for a month. He was soon chased out of the area even though it was public land. In the fall, he stopped by my office at the University of Wyoming to tell me he had essentially filled his pockets with gold before being chased off of public land. These federal bureaucrats also need to learn to work with people and quit overstepping their bounds. After all, they work for us, not themselves.
Map of the Wyoming province showing locations
of Greenstone belts including South Pass.




As I mapped, I periodically took samples along various shear zones. I noted in between mines, outcrops and prospect pits, most of the shear zone structures were buried under a few inches to possibly a few feet of dirt. Potentially, more than 90% of the gold-bearing structures are hidden. If only I had a way to see through that dirt. Of course there was a possibility of using geophysics, but it would tell me what I already knew - there were miles of gold-bearing shear zones. But, I identified more than a hundred gold anomalies along these structures, and if I could have seen the buried structures, who knows what I would have found? This should give some prospectors some ideas on other placers to search for gold.

A couple of years ago I consulted on a gold placer project at Rock Creek, and it was clear that the 1930s dredging operation did a poor job, missed many areas, and lost a significant part of the gold where it mined. The operation was poorly designed, and even today, one can still find considerable gold (both fine and nuggets) in the dredge tailings.

While mapping, I found chips of rock with alteration characteristic of gold mineralization associated with shear zones elsewhere. These chips were found in the Crows Nest area (42°29'17"N; 108°36’43"W) of the greenstone belt. A short time later, a prospector (Gary Nunn) found several, nice, jewelry grade gold nuggets in the area using a metal detector. So, the Crows Nest also contains hidden shear zones that remain mostly untouched. 

Then there is Willow Creek - likely a very rich placer. But, the state government closed much of this creek to prospecting because it is reportedly filled with mercury! But, there is no known natural source for mercury in the belt; and if there is mercury in the stream, it was accidentally dumped by 19th century mining operations at the Carissa mine, and by now much of it would have worked its way to bed rock and be out of reach of most placer miners. Even more important, if there really is much mercury, it is a finite source that would soon be cleaned up by placer miners. Most of Willow Creek is unprospected and has limited dredge tailings (42°27'49"N; 108°47’9"W).

Many field trips to South Pass were led by the GemHunter to educate the public 
on gold prospecting. These trips were free to the public
Some placers at South Pass contain significant coarse gold. XL Dredging mined portions of Big Atlantic Gulch in about 1910 and recovered nuggets weighing 0.07 to 1 ounce. The ET Fisher Company dredged Rock Creek from 1933 to 1941 and produced 11,000 to 30,000 ounces: 75% of the gold was found within 3 feet of bedrock. Some of the gold was coarse and many nuggets were recovered. Nuggets recovered from Rock Creek include many small nuggets and some large nuggets as well as a boulder that reportedly had 630 ounces of gold.

After five years of mapping, I produced eight 1:24,000 scale geological maps - these should still be available at the Wyoming Geological Survey. I also produced a regional 1:50,000 scale geological map for the pocket of my 129-page book on South Pass published in 1991. This book should be available at the Wyoming Geological Survey. Along with these, I published dozens of books, papers, abstracts and tour guides on South Pass to assist mining companies and prospectors on where to find gold in this region (a partial list of my bibliography is available on my website at http://GemHunter.webs.com), and I wore out a tent, two pairs of field boots, and nearly a dozen tires. It was a dream come true and I feel blessed that I was able to spend so much time at South Pass, meet so many interesting prospectors and few scam artists.   


One of the locals at South Pass

REFERENCES
Hausel, W.D., 1991, Economic geology of the South Pass granite-greenstone belt, Wind River Mountains, western Wyoming: Geological Survey of Wyoming Report of Investigations 44, 129 p.

Hausel, W.D., 1993, Mining history and geology of some of Wyoming's metal and gemstone districts: Wyoming Geological Association Jubilee Anniversary Field Conference Guidebook, p. 39-63.

Hausel, W.D., 1997, The Geology of Wyoming's Copper, Lead, Zinc, Molybdenum and Associated Metal Deposits: Geological Survey of Wyoming Bulletin 70, 224 p.

Hausel, W.D., 2014, A Guide to Finding Gemstones, Gold, Minerals and Rocks: GemHunter’s Books, Amazon, 368 p. 

Hausel, W.D., and Hausel, E.J., 2011, Gold - A Field Guide for Prospectors and Geologists (Wyoming Examples), Self Published, Amazon, 366 p. 

Hausel, W.D., and Hull, J., 1990, Guide to gold mineralization and Archean geology of the South Pass greenstone belt, Wind River Range, Wyoming, in Roberts, S., Geologic field trips to western Wyoming: Geological Survey of Wyoming Public Information 29, p. 178-191.

Hausel, W.D., 1994, Mining history of Wyoming's gold, copper, iron, and diamond districts: Mining History Association 1994 Annual, Reno, Nevada, p. 27-44.

Hausel, W.D., and Love, J.D., 1991, Guide to the geology and mineralization of the South Pass area, in S. Roberts, editor, Mineral Resources of Wyoming: Wyoming Geological Association 42nd Annual Field Conference Guidebook, p. 181-200.

Snyder, G.L., Hausel, W.D., Klein, T.L., Houston, R.S., and Graff, P.J., 1989, Precambrian rocks and mineralization, Wyoming Province: 28th International Geological Congress guide to field trip T-332, July 19-25, 48 p.


A portion of the Radium Springs Quadrangle by the author, showing rocks, mines, veins,
Laramide faults, and shear zones. 
Simplified map of the Lewiston gold district

Simplified geological map of the South Pass-Atlantic City district.

Tailings along Rock Creek, Wyoming


Sunday, August 23, 2015

South Pass gold reports

SOUTH PASS GRANITE-GREENSTONE BELT
During the 1980s, the author completed 8 geological quadrangles covering more than 350 square miles of surface area within the South Pass region along the southern tip of the Wind River Mountains. This project resulted not only in the production of this group of geological maps, but also several underground mine maps were completed, dozens of gold anomalies were detected, and many structural controls (or guides) for gold mineralization were recognized including a few gold targets of potential size.
Much of the data was published in several reports and compiled into an overall summary on this important greenstone terrain. South Pass has historically been the state's most productive gold and iron ore district ( see Hausel, 1991, WSGS, Report of Investigations 44).
Many of the other papers published by various outside journals and conference proceedings may be available at various University libraries.
The B & H mine overlooking the South Pass Greenstone Belt, WY

REPORTS ON SOUTH PASS PREPARED BY THE WSGS
Hausel, W.D., 1980, Gold districts of Wyoming: Geological Survey of Wyoming Report of Investigations 23, 71 p.
Hausel, W.D., 1983, Field notes (and mine map) on the Gold Dollar mine, South Pass district, Wyoming: Geological Survey of Wyoming unpublished Mineral Report MR83-1, 5 p(scale 1:240)
Hausel, W.D., 1983, Field report (and mine map) on the Dream gold mine, Lewiston district, South Pass greenstone belt, Wyoming: Geological Survey of Wyoming unpublished Mineral Report MR83-2, 5 p. (scale 1:240).
Hausel, W.D., 1983, Field notes (and mine map) on the Carrie Shield gold mine, South Pass district, Wyoming: Geological Survey of Wyoming unpublished Mineral Report MR83-3, 5 p. (scale 1:240).
Hausel, W.D., 1983, Assay report on samples collected from the Lewiston, Burr, and section 33 mines, Lewiston district, South Pass: Geological Survey of Wyoming unpublished Mineral Report MR83-5, 3 p.
Hausel, W.D., 1983, Assay report on samples collected from the Caribou gold mine, South Pass district, Wyoming: Geological Survey of Wyoming unpublished Mineral Report MR83-6, 3 p.
Hausel, W.D., 1983, Report on B&H mine dump samples, South Pass district, Wyoming: Geological Survey of Wyoming unpublished Mineral Report MR83-7, 3 p.
Hausel, W.D., 1983, Field notes and assay report for the Franklin mine, South Pass district, Wyoming: Geological Survey of Wyoming unpublished Mineral Report MR83-18, 3 p.
Hausel, W.D., 1983, Geochemistry of the Exchange gold vein, South Pass greenstone belt, Fremont County, Wyoming: Geological Survey of Wyoming unpublished Mineral Report MR83-19, 14 p.
Hausel, W.D., 1984, Preliminary geologic map of the Doc Barr gold mine, South Pass: Geological Survey of Wyoming unpublished Mineral Report MR84-1, scale: 1:240.
Hausel, W.D., 1984, Geologic map of the Wilson Bar adit, South Pass, Wyoming: Geological Survey of Wyoming unpublished Mineral Report MR84-3, scale: 1:240.
Hausel, W.D., 1984, Geologic map of the Big Chief gold mine, South Pass: Geological Survey of Wyoming unpublished Mineral Report MR84-4, scale: 1:240.
Hausel, W.D., 1984, The Soules & Perkins gold mine, South Pass, Wyoming: Geological Survey of Wyoming unpublished Mineral Report MR84-6, 2 p. (scale: 1:240).
Hausel, W.D., 1984, Tour guide to the geology and mining history of the South Pass gold district, Fremont County, Wyoming: Geological Survey of Wyoming Public Information Circular 23.
Hausel, W.D., and King, J.K., 1985, Geologic map of the St. Louis mine: Geological Survey of Wyoming unpublished Mineral Report MR85-1, (scale: 1:240).
Hausel, W.D., and King, J.K., 1985, Geologic map of the Smith Gulch adit: Geological Survey of Wyoming unpublished Mineral Report MR85-2, (scale: 1:240).
Hausel, W.D., and King, J.K., 1985, Geologic map of the Big Atlantic Gulch adit: Geological Survey of Wyoming unpublished Mineral Report MR85-3, (scale: 1:240).
Hausel, W.D., and King, J.K., 1985, Geologic map of the Old Hermit mine, South Pass-Atlantic City district: Geological Survey of Wyoming unpublished Mineral Report MR85-4, (scale: 1:240).
Hausel, W.D., and Gyorvary, Steve, 1985, Geologic map of the Tornado mine, South Pass-Atlantic City district: Geological Survey of Wyoming unpublished Mineral Report MR85-5, (scale: 1:240).
Hausel, W.D., 1985, Geology and gold mineralization of the South Pass granite-greenstone terrain, western Wyoming: Utah Geological Association 1985 Guidebook, p. 183-192.
Hausel, W.D., 1985, Structural and stratigraphic control of Archean gold mineralization within the South Pass greenstone terrain, Wyoming [abstract]: The Contact, Wyoming Geological Association, v. 31, no. 12, p. 1-2.
Hausel, W.D., 1985, Road log to South Pass geology: International Archean Geochemistry Field Conference, August 12, 12 p.
Hausel, W.D., 1986, Preliminary report on the geology and gold mineralization of the South Pass granite-greenstone terrain, Wind River Mountains, western Wyoming (USA), in Workshop on the Tectonic Evolution of Greenstone Belts: Lunar and Planetary Institute, Houston, Texas, p. 114-115.
Hausel, W.D., 1986, Preliminary report on the geology and gold mineralization of the South Pass greenstone belt, Wind River Mountains, Wyoming: Society of Mining Engineers of AIME Preprint 86-15, 10 p.
Hausel, W.D., 1986, Geologic map of the Lewiston gold district, Radium Springs Quadrangle, Fremont County, Wyoming: Geological Survey of Wyoming Open File Report 86-25 (scale 1:24,000).
Hausel, W.D., 1986, Geologic map of the Anderson Ridge Quadrangle, Fremont County, Wyoming: Geological Survey of Wyoming Open File Report 86-26 (scale 1:24,000).
Graff, P.J. , and Hausel, W.D., 1986, Gold from Wyoming greenstone belts - production and prognostications, in Roberts, S., editor, Metallic and Nonmetallic Deposits of Wyoming and Adjacent Areas, 1983 Conference Proceedings: Geological Survey of Wyoming Public Information Circular 25, p.13-21.
Hausel, W.D., 1987, Preliminary report on the gold mineralization, petrology, and geochemistry of the South Pass granite-greenstone belt, Wind River Mountains, Wyoming: Wyoming Geological Association 38th Annual Field Conference Guidebook, p. 287-304.
Hausel, W.D., 1987, Structural control of Archean gold mineralization within the South Pass greenstone terrain, Wyoming (USA), in The Practical Applications of Trace Elements and Isotopes to Environmental Biogeochemistry and Mineral Resources Evaluation, Theophrastus Publications, Athens, Greece, p.199-216.
Hausel, W.D., 1987, Structural control of gold deposits in the South Pass granite-greenstone belt, Wind River Mountains, Wyoming, in North American Conference on Tectonic Control of Ore Deposits Proceedings, University of Missouri-Rolla, p. 160-165.
Hausel, W.D., 1987, Revised geologic map of the Miners Delight Quadrangle, Fremont County, Wyoming: Geological Survey of Wyoming Open File Report 87-10 (scale 1:24,000).
Hausel, W.D., 1988, Revised geologic map of the South Pass City Quadrangle, Fremont County, Wyoming: Geological Survey of Wyoming Open File Report 88-2 (scale 1:24,000).
Hausel, W.D., 1988, Preliminary geologic map of the Lewiston Lakes Quadrangle, Fremont County, Wyoming: Geological Survey of Wyoming Open File Report 88-3 (scale 1:24,000).
Hausel, W.D., 1988, Revised geologic map of the Atlantic City Quadrangle, Fremont County, Wyoming: Geological Survey of Wyoming Open-File Report 88-7 (scale 1:24,000).
Hausel, W.D., 1988, Reconnaissance geologic map of the Halls Meadow Springs Quadrangle, Fremont and Sublette Counties, Wyoming: Geological Survey of Wyoming Open-File Report 88-8 (scale 1:24,000).
Hausel, W.D., 1988, Revised geologic map of the Louis Lake Quadrangle, Fremont County, Wyoming: Geological Survey of Wyoming Open-File Report 88-12 (scale 1:24,000).
Hausel, W.D., 1988, Geologic map of the Radium Springs Quadrangle, including the Lewiston gold district, Fremont County, Wyoming: Geological Survey of Wyoming Map Series 26 (scale 1:24,000).
Hausel, W.D., 1988, Wyoming - a frontier for gold exploration: The Mining Claim, Wyoming Mining Association, v. 13, no. 3, p. 10-11.
Hausel, W.D., 1988, Gold in Wyoming, in Modreski, P.J., editor, Mineralogy of precious metal deposits - a symposium on the mineralogy of gold and silver deposits in Colorado and other areas: Colorado Chapter, Friends of Mineralogy - Department of Geology, Colorado School of Mines joint conference, p. 122-124.
Hausel, W.D., 1988, The geology of Wyoming's precious metal lode and placer deposits (abstract): The Contact, Wyoming Geological Association, vol. 34, no. 3, p. 3.
Hausel, W.D., 1989, The Geology of Wyoming’s Precious Metal Lode and Placer Deposits: Wyoming State Geological Survey Bulletin 68, 248 p.
Day, W. C., Hill, R.H., Kulik, D.M., Scott, D.C., and Hausel, W.D., 1989, Mineral resources of the Sweetwater Canyon wilderness study area, Fremont County, Wyoming: U.S. Geological Survey Bulletin 1757-D, 22 p.
Snyder, G.L., Hausel, W.D., Klein, T.L., Houston, R.S., and Graff, P.J., 1989, Precambrian rocks and mineralization, Wyoming Province: 28th International Geological Congress guide to field trip T-332, July 19-25, 48 p.
Hausel, W.D., 1989, Revised geologic map of the Atlantic City quadrangle, Fremont County, Wyoming: Geological Survey of Wyoming Map Series MS-28 (scale 1:24,000).
Hausel, W.D., 1989, Structural control of Wyoming gold deposits [abstract]: The Contact Newsletter, Wyoming Geological Association, v. 35, no. 10, p. 2.
Hausel, W.D., 1990, Archean gold mineralization within the South Pass greenstone terrain, Wyoming in Hollister, V.T., editor, Case histories of gold deposits, Volume 2, Discoveries of valuable minerals and precious metals deposits related to intrusions and faults: Society for Mining, Metallurgy, and Exploration, Inc., Littleton, Colorado, p. 361-373.
Hausel, W.D., 1990, Geologic map of the South Pass granite-greenstone belt, southern Wind River Range, western Wyoming: Geological Survey of Wyoming, Report of Investigations 44-plate 1, scale 1:48,000.
Hausel, W.D., and Hull, J., 1990, Guide to gold mineralization and Archean geology of the South Pass greenstone belt, Wind River Range, Wyoming, in Roberts, S., Geologic field trips to western Wyoming: Geological Survey of Wyoming Public Information 29, p. 178-191.
Hausel, W.D., 1990, Precious metal deposits of Wyoming, in D.M. Hausen, editor, Gold '90: Society of Mining, Metallurgy, and Exploration of AIME, Littleton, CO. p. 53-63.
Hausel, W.D., 1991, Precious and base metal deposits of Wyoming: Northwestern Mining Association Convention Paper 21, 19 p.
Hausel, W.D., 1991, Economic geology of the South Pass granite-greenstone belt, Wind River Mountains, western Wyoming: Geological Survey of Wyoming Report of Investigations 44, 129 p.
Hausel, W.D., 1991, The form, distribution, and geology of gold, platinum, palladium, and silver deposits in Wyoming: Colorado Mining Association National Western Mining Convention Paper, Denver, CO., 18 p.
Hausel, W.D., Edwards, B.E., and Graff, P.J., 1991, Geology and mineralization of the Wyoming Province: Society for Mining, Metallurgy, and Exploration of AIME, Littleton, CO., Preprint 91-72, 12 p.
Hausel, W.D., and Love, J.D., 1991, Guide to the geology and mineralization of the South Pass area, in S. Roberts, editor, Mineral Resources of Wyoming: Wyoming Geological Association 42nd Annual Field Conference Guidebook, p. 181-200.
Hausel, W.D., and Love, J.D., 1991, Guide to the geology and mineralization of the South Pass area: Wyoming State Geological Survey Reprint 49, 20 p.
Hausel, W.D., 1992, Revised geologic map of the Miners Delight quadrangle, Fremont County, Wyoming: Geological Survey of Wyoming Map Series MS-38, (scale 1:24,000).
Hausel, W.D., 1993, Gold mineralization in the Archean Wyoming Province, USA [abstract]: Gold Society of China International Symposium on Gold, Beijing, 2 p.
Hausel, W.D., 1997, The geology of Wyoming's copper, lead, zinc, molybdenum, and associated metal deposits in Wyoming: Geological Survey of Wyoming Bulletin 70, 224 p.
Hausel, W.D., 1999, The Carissa Gold Mine, South Pass, Wyoming – A sleeper?: International California Mining Journal, v.68, no. 11, p. 14-16.
Hausel, W.D., 2001, The South Pass gold placers, western Wyoming: International California Mining Journal, v.70, no. 8, p. 29-35 & 41-42.
Hausel, W.D., 2001, Placer and Lode Gold Deposits: International California Mining Journal, v. 71, no. 2, p. 7-34.

Hausel, W.D., 2002, Searching for gold in Wyoming: Wyoming State Geological Survey Information Pamphlet 9, 12 p.
Hausel, W.D., and Hausel, E.J., 2011, Gold - Field Guide for Prospectors & Geologists, GemHunter Publications, 366 p.