矿床地球化学国家重点实验室知识库

The Cretaceous Mina Justa iron oxide copper-gold (IOCG) deposit in southern Peril is an important deposit in the Central Andean IOCG mineralization belt. At Mina Justa, Stage I alteration is represented by albite-actinolite, followed by Stage II K-feldspar-magnetite alteration. Stage III alteration is composed mainly of prismatic actinolite, and Stage IV of specular hematite. In-situ SIMS sulfur isotope and LA-ICP-MS trace element analyses were conducted on the major sulfide phases, i.e., pyrite from the magnetite-pyrite-K-feldspar alteration (Stage V) and chalcopyrite from the Cu mineralization (Stage VI). Results show that the delta S-34 values of Stage V pyrite range from -0.5 to +6.4 parts per thousand, indicating that the sulfur is mainly magmatic and has possible late external fluid incursion. Co/Ni (0.1 to 209) and Se/S (0.3 to 1.4 x 10(-4)) ratios show clear coupling with the delta S-34 values, which is also indicative of external fluid incursion during Stage V pyrite formation. Two distinct fluid sources were identified for Stage V: One shows magmatic affinity with low delta S-34 (< + 2.5 parts per thousand) and Co/Ni (< 1) but high Se/S (1.2 to 1.4 x 10(-4)), and the other shows non-magmatic fluid (e.g., basinal brine) affinity with high delta S-34 (> +2.5 parts per thousand, up to +6.4 parts per thousand) and Co/Ni (> 10, up to 209) but low Se/S (as low as 0.3 x 10(-4)). The Stage VI chalcopyrite grains that did not replace Stage V pyrite have delta S-34 values clustering around + 1.0 parts per thousand, suggestive of a magmatic-like origin. Given the low homogenization temperature of fluid inclusions (similar to 88 to 220 degrees C, mode similar to 130 degrees C) and Ca-rich nature of the fluids in Stage VI, the ore-forming materials may have derived from the andesitic host rocks, although derivation via mixing with magmatic fluids may have also been possible. For the Stage VI chalcopyrite grains that replaced Stage V pyrite, both their delta S-34 values and trace element patterns show inheritance of the replaced pyrite. In summary, Stage V ore-forming fluids was likely magmatic initially, with external fluid incursion occurring later in this stage; whereas the fluids of Cu mineralization stage may have come mainly from the external fluids that leached the andesitic wall rocks, during which the external fluids had inherited certain sulfur isotope and trace element signatures of the pyrite they replaced.