[defrost]

And it essentially is true, minor bumps aside.

Early gold mining (and tin, lead, etc) followed rich veins with good rewards for hand tools.

Throughout history gold mining has had bursts of finding new rich grounds, but the essential trajectory has been more effort (in the sense of moving more material) to extract less target material, often with more complex processing and harmful side effects (leaching trace amounts from paydirt).

Years back I did the computational backend for a mine modelling program (under ground and pit) with application here at the superpit [1].

The dimensions of this hole are .. large - the volume of material removed is large, and the energy requirements to lift that volume free and the sort it for discard, crushing, refining, etc are also large.

This is just for gold, which is mostly useless (aside from some jewellery and some actual essential use in space electronics the bulk of gold goes to bullion and is valuable because, well, it's gold (go figure)).

You can (I have, and others do) plot the per tonne increased extraction costs of target materials against deposit richness as reserves are depleted.

The entire notion of peak oil is predicated against increasing effort for diminished returns.

[1] https://www.youtube.com/watch?v=8Wykx-_RWDw

[eesmith]

> rich veins with good rewards for hand tools

I'm far from knowledgeable about the topic. Still, I'm twinging on your earlier use of the "costs", which is different than "good rewards".

If something is rare, people may pay a lot for it. Labor-intensive manual mining (and we mustn't forget the use of slave labor hides the economic costs and adds a human cost) might not move as much material, but may still have high costs.

> plot the per tonne increased extraction costs of target materials against deposit richness as reserves are depleted.

I do understand that. But what does 'dense deposit' mean?

I took it to mean gold deposits where manual mining provided good rewards. Gold cyanidation is for low-grade ore, says Wikipedia, and the result gave good rewards for South African mine owners, yes?

What I don't know is the cost per unit production of either method.

I fully understand that new methods may make previously low-grade material economically profitable, but I don't think those should be re-categorized as "dense".

In looking around, I believe iodine production might be another case to consider. As I understand it, the historical production was from sea water through bioaccumulation in kelp, which was then dried and processed.

We've since moved to richer sources, either mineral (caliche) or brine.

[defrost]

"Dense deposit" means there's a lot of gold per tonne of not gold.

Manual mining produces good rewards in nugget rich grounds with dense primary rewards, if you move (say) 10,000 tonnes of material you find a lot of gold, even without extra processing (such as gold cyanidation).

When you hit low grade regions there simply isn't as much gold present - not only do you still need to move 10,000 tonnes of material, you know also need to chemically bind and extract in order to get less gold overall.

The pattern is, the easy is cheap (in terms of effort), the harder stuff costs more (in terms of effort), and minor advances in technique aside .. everything ladders upwards to cost more in extraction effort for less return.

It's been true for gold, for copper, for fossil fuels, etc.

Historically you can see hard data for this in something like [1] which is sadly a subscription service.

[1] https://www.spglobal.com/marketintelligence/en/campaigns/met...

[eesmith]

> "Dense deposit" means there's a lot of gold per tonne of not gold.

I do understand that.

In 1880s South Africa (before cyanide was used), was that remaining ore considered a dense deposit? I don't know.

https://en.wikipedia.org/wiki/Gold_extraction#Industrial_era informs me "mining ... began to slow down ... as the new deposits being found tended to be pyritic ore. The gold was difficult to extract from such ores."

I interpret this as meaning that with the technology of the 1880s it was not considered a dense deposit, and earlier dense deposits were being exhausted.

This is tied back to your original statement "once dense deposits are exhausted extraction costs substantally increase even in the face of more sophisticated technology."

If it wasn't a dense deposit, then did the costs substantially increase with cyanidation? (Not total cost, but cost per unit production.)

[defrost]

> If it wasn't a dense deposit, then did the costs substantially increase with cyanidation? (Not total cost, but cost per unit production.)

I made a broad long term statement that's true over multiple decades and centuries - if you take a keyhole view there will be times when the long term trend is bucked.

I don't specifiaclly know the exact answer to your question (although it can be worked out by a research student with a month or two to spare) but I would hazard that profits from gold mining were dwindling with a high cost of getting some value from fines .. and then cyanidation made things profitable again.

It's a market with supply | demand and a finite amount of gold in the crust - nuggets are no longer laying aboutto be picked up, and now many tonnes of sand and grit need to be centifuged | screened | shaken to get a concentrate .. and as the profit from that dwindles and price/kilo rise due to limited supply - it become possible get more gold from the concentrate with a little additional cost (in time + chemical) and profits rise again.

Whatever specifically happened in a short time window in a specific location though; the long term trend remains, more effort for less return of product.

[eesmith]

I understand how you can think of it as a keyhole view.

Instead, I think it's that I want "dense deposit" to mean something fixed, so we can look at a Roman gold extraction operation and say "yes, that is a dense deposit" or at a South African mine and say "no, that is not a dense deposit" independent of the technology in use.

Here's a thought experiment for that research student - which would cost more using current wages:

- extract 1 ton of gold from a deposit as rich as (say) the Dolaucothi Gold Mines when it used by the Romans, and using only Roman techniques.

- extract 1 ton of gold from a deposit equivalent to a South African mine in 1900, using cyanidation techniques of that era.

(I don't know if 1 ton is too low or too high to be reasonable.)

> nuggets are no longer laying about to be picked up

This isn't entirely true. People do still fund nuggets by happenstance. A news search finds things like https://www.yahoo.com/entertainment/family-finds-24k-gold-nu... from a few years ago.

But yes, they aren't the types which kick of a new gold rush.

In any case, Roman gold extraction wasn't just from picking up nuggets either, so I'm not sure that's quite the right comparison.

[eesmith]

Helium is another case where the dense deposits were not found first.

Helium was first extracted as gas from rock. Wikipedia says it was first isolated from cleveite. Onnes's 1908 paper on liquefying helium says his helium came from monazite sand. https://web.archive.org/web/20180809111624/https://babel.hat...

Oh, and as a really edge case, argon gases is a renewable resource which is extracted from the air. It's cost has almost certainly gone down over time as we have improved methods for refrigeration.

(Oxygen is likely also in the same category.)