Showing posts with label volcanoes. Show all posts
Showing posts with label volcanoes. Show all posts

Thursday, September 19, 2013

Diamonds in lamproite in the Leucite Hills, Wyoming and Ellendale Field, Western Australia

Boars Tusk lamproite (wyomingite) forms a distinct and prominent volcanic neck with Table Mountain in background
The Leucite Hills north of Rock Springs consist of a group of lamproite flows, dikes, volcaniclastics, scoria, and volcanic necks that contain some of the more unusual minerals found on earth and moon for that matter. Unfortunately, most of these minerals are microscopic.

Ellendale diamond-bearing olivine lamproite exposed in
dozer cut.
Similar rocks were identified in the East Kimberley, as well as the Noonkanbah and Ellendale volcanic fields in the West Kimberley region of Western Australia. Even though some of these lamproites had been studied and researched in detail, it wasn't until exploration of East Kimberley for a source of placer diamonds reported by gold prospectors in the late 19th century in that region that a rich diamond deposit was found (in 1979) in an olivine lamproite that became known as the Argyle diamond mine. Since then, the Argyle has been a source of many relatively small diamonds including some of the more valuable fancy diamonds. Some Argyle pinks have now sold for more than US$1 million/carat (pre-Biden prices). One thing of note was that the Argyle lamproite was olivine-rich and much of the olivine had serpentinized producing a soft rock at the surface that eroded faster than much of the surrounding terrain, thus it  hidden under layers of sediment.

Regional map of diamond and lamproite fields in Australia
Later, fancy diamonds were found and mined at the Ellendale lamproite field. Just like the Argyle lamproite, only the olivine rich lamproites in this field in the West Kimberleys contain enough diamond to mine. Again, much of the surface olivine had serpentinized producing a softer rock. Even though there were several exposed leucite lamproites in this field that stood out as hills and knolls (similar to the Leucite Hills), the diamond-bearing lamproites were hidden under a thin layer of soil. So, could a similar diamond deposit occur in the Leucite Hills? It should be noted that diamonds had already been recovered for decades in olivine lamproite at Murfreesboro, Arkansas. So, it only makes sense to search for similar hidden olivine lamproites in the Leucite Hills of Wyoming and in the lamproite and lamprophyre fields of Montana. Are there hidden diamond-rich pipes in Wyoming and Montana? Diamonds were later reported from a kimberlite near the Yellow Water Butte area of Montana - an area I highly recommended for exploration to a couple of mining companies in the past,  and later diamonds were discovered at the location.

In 1985, I collected a group of hand samples from one lamproite in the Leucite Hills of Wyoming, and these were processed and examined for diamonds using a binocular microscope. The chances of finding diamonds in such a small sample was very unfavorable (even it they actually occurred in the rock) as large bulk samples measured in tonnes are necessary for diamond testing. I was surprised when we recovered an exceptional, transparent, micro-octahedron with triangular growth platelets on the octahedral surfaces. Wow! Did we have a diamond? Unfortunately, the crystal was so tiny, that I could not measure its hardness with our primitive tools and I could not measure any surface conductivity. So, we had a problem trying to figure out if we actually had recovered a diamond from this lamproite breccia.

Dan Hausel (left) and Karl Albert (right) in the outback of Australia (1986)
Luckily, our lab technician knew that the Department of Physics at the University of Wyoming (just a few yards from our building) had an x-ray precession diffractometer. So, we took our tiny crystal to the Physics Department and the mineral turned out to be a transparent spinel rather than a diamond. Bummer! Anyway, I wanted to check to see if there was any possibility of diamonds surviving the hot lavas in the Leucite Hills at the earth's surface. So, I took one of our diamonds and broke it with a hammer and places one of the diamond shards in the flame of a Bunsen burner and after a short time, it exploded. Upon examination of the remains, I found carbon (graphite) had replaced the diamond shard. But the Bunsen Burner flame was very high temperature, so I deduced that diamonds could possibly survive in a hot lamproite magma. So after those experiments, I was off to Australia to examine the lamproites in the Kimberley region of Australia in 1986.

The Leucite Hills were one of my favorite places to visit when I worked at the Wyoming Geological Survey. After the discovery of diamonds in lamproites in Australia in the 1980s, the State Geologist -Gary Glass, was able to wrangle some money out of the legislature to visit the diamond deposits in Australia. The Aussie discovery should have sparked much greater diamond interest in Wyoming - particularly since the Aussies opened diamond mines at the Argyle and Ellendale and produced some of the most valuable diamonds (and gemstones) in the world - pink diamonds - some which have sold for  many tens of thousands of times more valuable than an equivalent weight in gold!

Black Butte lamproite peaks over horizon as if to
say, sample
 me, sample me!
One of the methods used to predict possibilities for diamonds in a lamproite is to test the chemistry of specific minerals found in the rock and then compare the chemistry of these minerals to the chemistry of diamond inclusion minerals (minerals actually found inside of diamond). One particular mineral that is often used is chromite. 

After processing samples from Endlich Hill in the center of the Leucite Hills, we recovered chromite. The chromites where tested for geochemistry using the UW microprobe and a few yielded favorable geochemistry indicating that those particular lamproites began their uprise from the mantle at a depth where diamonds were formed. Thus, this suggested to us that the Leucite Hills represented a good target for diamonds. Later, some researchers from the University of Wyoming repeated my results.

Anthill with a couple of gem-quality pyrope
garnets from
 Butcherknife Draw
So, you would think the legislature would provide the Survey with a little extra cash to do some serious testing. However, this is where we ran into problems. First one has to convince the State Geologist to ask for money. Most state geologists are politicians (although I worked for two excellent State Geologists: Dr. Daniel Miller and Gary Glass), one not so good, and the fourth one made Obama and Hillary Clinton look honest. In Wyoming, they have to declare political affiliation. This is a serious problem when considering science: politicians like to influence science to fit their agenda by offering bribes, grants, and other unethical donations to influence scientists who lack standards - take for instance global warming. We all know how much we can trust politicians whether republican or democrat

Anyway, one has to be able to convince the state geologist to ask the legislature for special funds for various projects and then the State Geologist must ask the legislator for funds and then hope the governor doesn't cut out the funding. I had no political skills and thus, the project died with no funding.

Boars Tusk at sunset
Anyway, one can still visit the Leucite Hills and the Butcherknife Draw area to the southwest and search anthills for pyrope garnet, chromian diopside, peridot and even diamond. At least I hope that's true as the BLM seems to think public land is their land. The Leucite Hills was a beautiful place with some nifty wild horses and few people when I worked in the area.

Even though I didn't find any diamonds (I never got a chance to take any bulk samples needed to test for diamonds), I did find a few thousand gem-quality peridot gemstones. I found peridot in the Leucite Hills in 1997. I did this by searching the Leucite Hills for olivine because of the close connection of olivine in lamproites and diamond in lamproites in Australia. All peridot is, it is a gem-quality olivine. But olivine had been known in the Leucite Hills for more than a century and even described by various research geologists. But, using blinders, no one had ever looked at the quality of the olivine and when I found two anthills covered in the olivine, I took them back to the Wyoming Geological Survey to examine the material for diamonds - no diamonds, just a few thousand carats of peridot!

Boars Tusk volcanic neck lamproite breccia
Southwest of the Leucite Hills, many gem-quality pyrope garnets and chromian diopsides were found at Butcherknife Draw and at Cedar Mountain. By the way, diamonds were discovered in a group of lamprophyres at Cedar Mountain by a couple of different mining companies and diamonds were also discovered in kimberlites in the State Line district south of Laramie and also in the Iron Mountain kimberlites near Farthing in southeastern Wyoming. AND, diamonds were later found in a kimberlite in the Yellow Water Butte area in eastern Montana. So, are there more diamonds deposits to be found in this region of the US - yes, but it will take someone with money to find most of the deposits.

If you would like to read more about the gemstones in this region, have a look at And then you will want to read about my adventures at
And for now, I'm out looking for gold in Arizona and breaking rocks in the east valley of Phoenix. And if you like some of my stories, lies, adventures and other stuff, I have other blogs on the internet and books.

Anyway, I enjoyed my work at the Wyoming Geological Survey and loved to go to work every morning. I had dozens of leads and many more ideas on where to find more gemstones in Wyoming and the western US and I believe I would have found many more diamond, ruby and sapphire, iolite, and gold deposits in Wyoming by now, as I had many areas (based on favorable geology and geochemistry) where some more deposits should be found.

And did I know what I was doing? Well, heck yah (at least that's what I'm going to tell you). Actually, there were times I didn't know what I was doing, but I persevered, drank some beer with some prospectors, went out by myself with my tent and 44 magnum and continued to look until I made a discovery and then told everyone I knew exactly what I was doing.  Now that's exploration!

Mt Gytha, Noonkabob lamproite field, Western Australia. Note the large layered sandstone xenolith in the side of this lamproite volcano.
Some gemstones I found including light green peridot from the Leucite Hills, red
to purple red pyrope garnet from Butcherknife Draw, and emerald green chromian
diopside from Butcherknife Draw.
Mining small diamonds with small equipment in Australia

And if you can dig the olivine out of the lamproite, or take them
from an anthill covered with fierce ants, this is what one can do - produce a nice,
faceted, peridot gemstone. Can you imagine, these were examined
by geologists for more than 100 years, even described in professional papers
and books, yet nobody ever noticed they were mostly gemstones.
A few things I immediately noticed when I visited Australia is their rabbits hop higher and are much larger than Wyoming's - they also spoke a strange dialect of English - but after a few Aussie beers, it didn't matter. Here is the Argyle diamond mine as it appeared in 1986. It is much deeper now.
Olivine lamproite from Black Butte, Wyoming. Note the large olivine crystal in the sample - about 0.4 inch across.


Lamproite breccia, Wortmans dike, Leucite Hills
Lamproite scoria from Zirkel Mesa in the Leucite Hills.
A diamond in the rough - wild horses in the Leucite Hills. It is tragic, but the BLM has done its best to eradicate these horses. Even still, a few of them survive.
Leucite Hills from the south. One can never have enough volcanoes
Emmons Mesa, Leucite Hills

Kind of an ugly, uninteresting rock wouldn't you say? When this olivine lamproite was discovered at Argyle, Australia, it yielded some of the richest diamond ore on earth. I collected this particular sample from a zone that had an average grade of 6.8 carats per ton.
Badger's teeth lamproite breccia, Leucite Hills.



Pegmatitic lamproite from Walgidee Hills, Australia.


Diamond-bearing olivine lamproite from the Ellendale field, Australia
Chocolate diamonds from the Argyle lamproite, Australia. Are there similar
diamonds in a hidden lamproite pipe(s) in the Leucite Hills? We may never know.
Ellendale 9 diamondiferous olivine lamproite, Australia

Diamond Deposits by the GEmHunter
Great book about how to find Gemstones
Booklet about the Leucite Hills of Wyoming.  During 30 years of employment
at the Wyoming Geological Survey at the University of Wyoming, the GemHunter
published many more books, papers and maps than the entire geological survey combined,
discovered more mineral deposits than the entire university & geological survey and presented more
talks and field trips than the entire geological survey - yet, one State Geologist harassed
the GemHunter and more than a dozen other staff members until they resigned, ended
up on heart monitors, retired, transferred, or died.  Of a staff of only about 20 people, 3 people
died while being harassed by the director. The only investigation was by the Wyoming
Public Employees Association which reportedly delivered a 3-inch thick document of
complaints to the State Attorney and the Democrat Governor. It was said that both didn't even
bother looking at the complaints and tossed the document into the garbage in front of the WPEA
representative.  So, is the GemHunter mad about this - NO, of course not, at least he got away
with his life. So, why no investigations?

Typical leucite lamproite with considerable mica, Leucite Hills.

Gem peridots from the Leucite Hills, Wyoming

pyrope garnet faceted from gem material from Butcherknife Draw, Wyoming


Below - GemHunter (right) with Caleb King outside the DiamonEx Ltd USA office 
in Laramie where I searched for diamonds in the 1970s, 1980s and then
again in 2006-2008 with Caleb.

Hey, that good-looking guy is me mapping in the Leucite Hills in 1997. And I do get back to Wyoming
 periodically to consult on various diamond, gold and gemstone projects as well as to visit my beautiful daughter and fantastic son and grandkids.