gsweet
New member
see points 1 and 2...:up:
this type of system produces different deposit types at varying depths, so i'll outline them briefly below:
-porphyry-type mineralization (Cu-Au + or - Mo) occurs within and immediately surrounding the intrusive body. out in the field, if you happy upon a porphyry stock, it's very obvious. the mineralization is frequently contained within a series of stockwork veins within the intrusive phases. this reflects infill of the aforementioned hydrostatically-induced cracks (see point 1 above) by the depressurizing supercritical fluid. again, this requires a uniquely high pressure environment (3+ km depth) and would not be possible at surface pressures.
-epithermal mineralization (Au-Ag + or - Pb-Zn-Te and others) is still driven by the same heat source as porphyry mineralization, but is frequently distal to the magmatic body. the deposition of this metal budget (very distinctly different from the porphyry metal budget) is generally 1 or 2 km from the surface.
-hydrothermal and lithocap alteration/mineralization are the surface product
when exploration companies explore porphyry targets today, we frequently find a fairly predictable vertical variation through these deposit types and their associated mineralization/alteration. if you look at 1000 or 2000 meters of drill core (though it is rare that a company will drill that much), you'll see changes in metal budgets, alteration mineral assemblages, etc that coincide with a change in pressure. i guess what i'm trying to say here is:
yes, we do find porphyry-type mineralization at the surface today. however, we also find porphyry type deposits at much greater depths via drilling, and we find these other deposit types above them in the stratigraphic column. this type of mineralization is a system, and it varies laterally and vertically a great deal. because of the nature of porphyry mineralization and the inherent "demand" for high levels of lithostatic pressure, it's not possible for porphyry deposits to form at shallow depths, never mind the surface. when these fluid/brine rich magmatic bodies do get too close to the surface, they erupt forming a volcano or a diatreme (which one depends on a lot of factors).
see above for the explanation about vertical fluid movement with respect to porphyry environments. the fact that we have ore within the crystallized magmatic body indicates that this was at depth. shallow level mineralization does occur (hydrothermal and sometimes epithermal), but it is distinctly different in alteration assemblage (the minerals added to the rock as a byproduct of the fluid moving through them) and metal budget. that said, there's also a whole realm of porphyry study that centers around "telescoping" of a system; this refers to relatively rapid uplift/erosion of country rock above an active porphyry environment, resulting in the overprinting of epithermal and hydrothermal deposits ontop of formed or partially formed porphyry deposits.
and full circle to the age issue: it takes a lot of time for a large magmatic body to fully crystallize. Bob's citation of gold mineralization at lihir as an example of a young earth is negating the fact that in order to reach the point of Au-rich fluid production and deposition, many tens to hundreds of thousands of years must be accounted for.
for a porphyry deposit, no; Cu-Au-Mo deposition is formed at depth. Lihir is a bit of an anomaly with respect to depth, though, as it's metal budget is atypical. Stuart Simmon's work on Lihir tends to lean towards a cataclysmic collapse of a side of a volcano above where the Lihir deposit currently is...hence rapid depressurization. however, this does not negate the fact that in order for those Au-bearing fluids to form, the deposit had to initially be highly pressurized at depth. i tried to illustrate this using a standard porphyry model above, as just jumping into the atypical Lihir deposit would produce a lot of confusion.
such as? i'm not sure i can think of something else that would produce the same effect as a magmatic body. you have to remember, this magma contains a lot of water that is isotopically distinct from the meteoric water that's already present in the surrounding country rock. we see this reflected in the lateral variation of isotopes within the alteration minerals...
if you have some ideas though, i'm all about it. this was what my previous comment to Jukia on "lack of processes" revolved around; if you have some alternative hypotheses, lets discuss them, test them and figure out whether or not they're valid!
Sure. It'd help a discussion if you could restate what's going on in more user friendly terms, but I'll read anything.
just let me know; i've got a collection of fairly good "intro to porphyry-style deposits" papers. some are a bit old and bits and pieces are outdated, but most are pretty good...
perhaps. but i do enjoy these discussions, Stripe, and i don't like it when one side of the argument come's off as intentionally dishonest: it makes life harder for me as well, as i end up having to drag data back into the discussion. data "picking" is frowned upon in general, and i see no reason not to call someone on it...
Tasty?
indeed. though in my hastiness to emphasize my previous post the other night, i didn't really consider the gastronomic repercussions of eating a mace...:doh: it's been a rough day.
my intention was not to belittle, but rather to call out an issue as i saw it. one of my major qualms with respect to YEC creationism has to do with methodology: where uniformitarianistic science compiles data, interprets and then provides models. YEC creationism tends to just attempts to disprove these models. any time one of the models is questioned or changed, it is declared a "success" (for example, all of Bob's points above). walt brown's work is the closest thing to creationist science that i've encountered. but with that said, i still have trouble with his theories as they are not based on data: from what i can tell, he speculates and produces a model. i've yet to see his multi-leveled evidence (i.e. microscopic, small and large scale evidence) and/or data that backs up his model. but i should say that i really haven't read into his work in detail, nor have i read his book. one day, Stripe, you and i will discuss Walt's theories at length...perhaps this spring? but now is not the time...gotta stay focused on this porphyry stuff!
Lighthouse said:
what PB said. these interpretations are based on data; as time goes by, the data set grows; gaps in the data are filled in and what were previously known as anomalies become explainable. this demands a change in our model, or even a new model all together. either way, it is a continued improvement towards an accurate explanation (something that we may reach or not, depending on the subject) via a higher and higher resolution of understanding...
