Central Mineral Resources Team
Project status is complete. Please check the CMRT project list for currently active projects.
Conventional assessments of undiscovered mineral resources rely on the distribution of known deposits coupled with generalized geologic models for the various deposit types. This approach barely makes use of the fact that, without exception, all types of ore deposits are time bound. There are times in Earth history when a particular deposit type is absent, times when these deposits are present but scarce, times when they are abundant, and still other times for which we yet lack sufficient data. We propose to develop this property as a tool with three broader purposes.
The first and most immediately practical purpose is to improve mineral assessment techniques, especially where there are huge gaps in knowledge of Third World geology. The proposed research will turn geologic age into a key parameter in resource assessment. The value of this approach is shown by the distribution of Mississippi Valley-type MVT deposits through Earth history (Leach et al. 2001). Most of the MVT deposits of the world formed during continental collisions at a few restricted times in Earth history. The late Paleozoic collisions during the formation of Pangea span less than 3% of Earth history, yet this brief interval includes over 70% of the total MVT Pb-Zn metal produced so far! For whatever reasons, only a few Proterozoic MVTs are known, despite abundant host rocks and seemingly suitable tectonic settings; Archean rocks are not known to contain any MVTs at all. Clearly, knowledge like this has the potential to improve resource assessment in frontier areas-regardless of how one might choose to explain the age patterns. Comparable examples of the time-bound nature of gold and sedex deposits are discussed under the task writeups.
The second purpose is to make use of secular trends through Earth history as a natural laboratory in studies of deposit genesis. Continuing with the MVT example, we will look into reasons behind the age distribution. Was the late Paleozoic peak simply the fortuitous side effect of supercontinent formation at low latitudes? In that case, why didn't the preceding supercontinent cycle produce lots of MVT deposits also? Not only have the continents been continuously rearranged through the ages, but major changes have also affected the atmosphere, biosphere, global climate, ocean chemistry, and radiogenic heat production (which, in turn, moves the plates). How have changes like these influenced the formation (or not) of ore deposits?
The third purpose is the reverse of the second, to use the time-bound nature of ore deposits as sensitive indicators of Earth System behavior. Within the scope of a one-year pilot project, this aspect of the proposed research will be limited.
David Leach | Box 25046 MS 973 Denver, CO 80225-0046 |
(303) 236-5522 Email David Leach |
Dwight Bradley | 42000 University Drive Anchorage, AK 99508 |
(907) 786-7434 Email Dwight Bradley |
Mineral Resources | Eastern / Central / Western / Alaska / Minerals Information |
Crustal Imaging & Characterization / Spatial Data |