NEXT MEETING THURSDAY JANUARY 7, 1998 MEETING MINUTES FOR DECEMBER: Meeting call to Order at 7:30 pm; Minutes read and accepted; Treasurers report read and accepted; 5 -guests was present; ********************************************************************************************************************************** Old business: Washington Gold and Fish Book meeting will be held December 3rd in Seattle. New Business: National Wildlife Federation vs. DEQ Judge halted dredging in 3 Oregon river basins. Discussion was held on the subject. N.W.F. has a web site, and has been around for 36 years. There is going to be at least 4 public hearings. OIM came out with a press release on the subject. Gold dust was given out for the people who had Volunteer hours. President Awards were given out. Elections were held and the new officers are: **President-------Hayden Piper **Vice President--Al Worley **Secretary-------Sue Buchholtz **Treasure--------Lloyd Haines Meeting Closed: CLUB INFORMATION: Information about our club and its bylaws can be found in our yellow Club Guide book. Every paid member of our club should have one, and if you don't please contact Sue Buchholz at (503) 324-0170 to see about getting one. Duane Flackus is getting information for an update to our Club Guide. If you have anything you would like to see added or deleted, or corrected, please get your comments to Duane or any board member. CHETCO CLAIM: It has been brought to the boards attention that the Chetco claim should be sold due to lack of use/interest. Please come to the next club meeting with your input on this important decision. INFORMATION REQUESTED: We need to get any information that the members receive about upcoming meetings, items in the newspaper and other prospecting information to a board member or newsletter editor as soon as you hear about, read or receive notice of such. It is very important that we deep all our members informed and up to date. DEMONSTRATIONS ASKED FOR: If there are any club members who would like to five a demonstration of how their equipment is used, what they do with rocks or the gold that they find or just a talk on their knowledge of prospecting, please contact a board member so we can set you up for a demo at one of our meetings. It doesn't have to be a long demo, but informative and will be set-up during our meeting, not break-time. FUN ACTIVITY OF THE MONTH: Anyone wearing a black button at the January meeting will receive a free raffle ticket. You never know, it might be the winning ticket!! SPECIAL RAFFLE TICKETS: Raffle tickets for the Gold Buddy will be sold again at the January meeting. As soon as enough tickets are sold, some lucky prospector will have their name drawn. Yours could be the one. Tickets are $3.00 Each or 2 for $5.00. Let's see if we can give it away at our January meeting. NAME TAGS: Name tags will be at the January meeting. Make sure you have yours on as the name drawn will receive 5 raffle tickets. The wearing of the name tag helps all our members in getting to know each others names without being embarrassed about asking. THE TECHNIQUES OF GOLD MINING California's Argonauts used methods developed in ancient times By Bob Jones, Rock and Gem Magazine, January 1998 Reprinted from the Washington Prospectors newsletter October 1998) When California's Argonauts struck it rich, they did it using methods that had been developed centuries ago. If an ancient Egyptian had observed the frenzied action at the diggings, he would have known exactly what was happening, since the Egyptians developed methods thousands of years ago which, with refinements, were still being used 150 years ago. Poets and philosophers have tried to explain humankind's proclivity for the metal. It seems it's just an unfathomable lust for what we think is precious and what we know is unusual, beautiful, and has unique properties. For thousands of years, humans have devised ways to gather gold or tear it from the bowels of the earth. Refined, some of these ways have persisted until today. One early recorded search for gold was the Greek fable of Jason and the Argonauts searching for the Gold Fleece. Through a legend, it is based on fact. One of the earliest methods of mining gold was to lay an oily sheepskin in a creek where gold was known, wait while the gold caught in the fleece, then recover the fleece, glittering with gold. The ‘49ers, as they were called, didn't use sheepskin, but they did line the bottoms of their long toms with carpeting which caught the gold dust. The carpeting used was Brussels. Canvas or corduroy were adequate substitutes. The Egyptians sent slaves to work tunneling into the gold-bearing veins. These early miners used fire to heat the rock, dashing it with water to crack it, and then worked it out. Today we use explosives instead of water and fire. In Egypt and later, small children would gather to gold-bearing ore and drag it to the surface, where older men and women beat it with a hammer into dust. When the Spaniards held Mexico, they still used fire and water, still used men to break the rock, used still others to haul the rock out, and often employed captive slaves to crush the ore. Back in Egyptian days, after the ore was crushed, the men would spread the ore dust on a huge flat rock with grooves cut into it, tilt the entire business, then run water over it to wash the gold out of the powdered rock. In California, the Argonauts ran the sand and gravel through a long tom, or rocker, on the bottom of which were slats nailed across to act as riffles for catching the gold, while the waste washed away. Another ancient people, the Phoenicians, sailed the Mediterranean and discovered vast quantities of gold, mercury, copper, and such in what we now call Spain. The Romans finally came into possession of this area after defeating the Carthaginians, who followed the Phoenicians. Some of the gold in Spain was scattered in sands and gravels impossible to recover. So, the Romans developed a method, which we today call hydraulicing. This was developed to tear away the gold-bearing banks of sand and gravel and recover the metal. They did this by damming water at the head of a gravel bank, then releasing it in a deluge over the gravels. If the gravel bank was recalcitrant, they would tunnel under the bank hollowing out areas to reduce support. When the gravel bank collapsed the gravels ran through sluices lined with brush. But this was no ordinary brush. It was wild Rosemary which oozes a sticky gum resin which captured much of the gold. By burning off the brush, the gold could be recovered. Hydraulicing in California was the same basic technique, with the advantage of a powerful water jet that precluded the need to undermine the gravel. You can imagine the devastating effects this mining had on the land and waterways, however. This method also requires a considerable input of labor and cash, but it was very effective in the pediment highlands, as opposed to dredging, which was most effective in the lower reaches of the rivers. In the United States, Hydraulicing got its start in 1853 at American Hill, near Nevada City. One E. E. Mattson worked with Anthony Chabot and Eli Miller, to devise a system of damming water at a high elevation, lead it through flumes to the base of the target gravel bank and, by running the water through a narrow-mouthed monitor nozzle under gravitational pressure, the gravel would give way and be carried by the huge volume of water to be treated like river gravels in separating devices. The waste ran off into the watershed, creating havoc downstream. This destructive practice was stopped by the Sawyer Decision in 1884, as it was ruining a vast area of farmland and silting the rivers. Early Argonauts used shovels to dig the gold-bearing gravels from the bottom of a stream. In California, the gold dredge was employed at times. This used all the established techniques for running gravels through a recovery process just as the old-time prospector did. The only difference is that the dredge was mechanized and could process tons of gravel a day, instead of a few shovelfuls. Once the gold was extracted, the gravel was cast aside like a trail of excrement, spoiling the land. Dredging did not, however, silt up the rivers, as hydraulicing, because as the dredge worked, the silty spoils were dropped back into the river first, then covered with the cobbles and gravel from the operation. This limited the silting of the rivers, leaving only a snaking pile of cobbles in it wake. More recently, when a gold dredge works, it reclaims the land as it goes. In fact, I spoke to one California dredge operator on the Yuba River not too many years ago. I wondered what his biggest problems might be. I assumed it would be environmental. It was, but not as I expected. He said the biggest problem was beavers! The mining company reclaimed the land by planting shrubs and trees along the new riverbanks. The beavers realized these fresh new trees were great for lunch and ate them, forcing the mining company to plant and re-seed repeatedly. The Romans also developed a means of hoisting ore. Instead of hauling it out on the backs of slaves, they used a rope and winch system. This later developed into the horse whim, a huge barrel-like wheel being turned by an animal to haul ore up a shaft and to lower men and supplies down a shaft. Today, we use electrical power to do the same thing. The Romans also used mercury to recover gold. Since mercury will form an amalgam with gold, separating it from any other rock debris with which it is found, the amalgamation process was very popular. When the California Argonauts recovered gold, they would put a small puddle of mercury at the end of a long tom or sluice to catch the gold fines. Using mercury to recover gold is still a valid, through infrequently used, technique. To crush ore centuries ago, hammers were used. Then crushing devices were developed, primarily the arrastra and the Chilean wheel. Both worked on the principal of dragging or rolling a huge rock over the ore to crush it down. Power was supplied by animal or humans, whichever were cheaper. In the early days of California, these methods were still used and you can see the remains of such devices at museums today. The arrastra and Chilean wheel were hardly models of efficiency and California's mines soon began to employ new mechanical devices if they could afford them. So, the stamp mill was born. The stamp mill consists of a series of very heavy steel hammers which could be lifted and dropped by mechanical means usually a water wheel, later a steam engine. Below each stamp was a heavy steel plate tipped at a slight angle. The partially crushed ore was carried by water under these huge stamps, which crushed the ore down fine. Below the stamps was a copper sheet coated with mercury. Mercury was them retorted, which means it was boiled away in a vessel so the mercury vapor could be caught and condensed for use again while the gold was left behind as a nearly pure-gold sponge. My favorite story about using mercury to amalgamate and recover gold has to do with a potato. Old-timers used to hollow out a potato, put the gold/mercury amalgam in it, wire the potato closed and throw the potato on the fire. The mercury would vaporize into the potato, and the gold sponge would be left behind. The story goes that a prospector decided to get rid of his partner and keep the diggings for himself. He fed his unsuspecting partner the mercury-laden potato! The early use of fire and water continued into relatively recent times. By the time the Spaniards conquered Mexico, it was still being used in a very limited way, and only in the absence of black powder, or the money to obtain this explosive. The use of black powder was very dangerous. With the least spark, it ignites. Just packing it into a crack or drill hole can set it off. More dangerous is the act of setting off the blast, since very unpredictable fuses of black powder were the tried and true method of ignition in the early days. The fuse might burn just right...or too rapidly, whereby the miners would be caught in the explosion. Or it might not go off at all, until the miner returned to investigate the cause. Things got better when the Englishman, Bickford, developed the first dependable fuse that could be timed. His work saved a lot of fingers, arms, even heads. And this was followed by Noble's discovery of dynamite, shortly after the California rush, thus making the handling of explosives almost routine. Yet, either with fire and water, or these more shocking techniques, the goal is the same, Break up the rock for extraction. Reviewing the development of mining and milling of gold, you come to the realization that the earlier techniques discovered through trial and error, thousands of years ago, in some cases were still valid in mining until 1887. In that year, an event occurred that should be considered the most dramatic change in mining since the development of explosives that replaced fire and water. I refer here to the chemical extraction of gold using cyanide. Cyanide is a genie in a bottle. It can be more dangerous than black powder, yet it has saved many a mining project, including the great reef mines of South Africa. Cyanide is a stable chemical compound. It is not explosive or corrosive. Unfortunately, it is a deadly poison, a property that causes environmentalists to go ballistic, and rightly so. Even in dilute condition, as used in gold recovery it can despoil the environment in a flash. Yet, it can also squeeze every last gram of gold from a crushed rock. It was in 1887 that three men, a metallurgical chemist, J.W. MacArthur, and two doctor brothers, J. and J.W. Forrest, through long experimentation, found that sodium cyanide had as great an affinity for gold as did mercury, itself a quite poisonous chemical. Their discovery had a profound effect on mining. With cyanide, all the gold that had been lost during the wasteful milling processes of the past could be recovered. Old dumps could be reworked. New mines could become more profitable. Low-grade deposits suddenly became viable. The process is relatively simple: crush the gold ore to a flour consistency, add it to a 0.005 percent solution of sodium cyanide, stir it in an open container, and the cyanide will effect a marriage with the gold. Once consummated, this metallurgical marriage is easily broken by draining off the gold-laden liquid and running it through a vat filled with powdered or flaked zinc. The zinc has an affinity for the cyanide and the gold comes free. With zinc there might be clinging to the gold is easily vaporized off just like mercury from a gold amalgam. For gold mines, cyanide has been a boon. For the environment it is a disaster if the cyanide genie gets out of the bottle. That is the biggest problem facing gold mining today, keeping the cyanide under control. From time immemorial, right into the days of the great California Gold Rush and beyond, the mining and milling methods of gold ore have changed but little. They are still valid and useful today. That's why a visit to California's gold country is such a treat. You can relive the thrill of the Rush while enjoying a window into mining history that spans thousands of years. (Continued) Go to page 2 Northwest Mineral Prospectors Newsletter NWMP Club Web page http://www.Geocities.com/Yosemite/Gorge/6503/ NWMP Ore/Wash Gazetteer Newsletter http://www.Geocities.com/Yosemite/Gorge/7278/ OIM Web page Http://www.grantgg.Com/-OIM/ NEWSLETTER SUBMISSIONS: Submissions to newsletter can be sent to: Gary Klier at 8433 SE Lambert Street, Space #139 Portland, Oregon 97266. E-mail address: glk@grpmack.com Deadline for articles is the 15th of the month.

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