| Growing Global Copper Resources, Reserves and Prodlictioil: Discovery Is Not the Only Control on Supply |
17 |
| Ore Genesis and Hydrothermal Evolution of the Donggebi Porphyry Mo Deposit, Xinjiang, Northwest China: Evidence from Isotopes (C, H, O, S, Pb), Fluid Inclusions, and Molybdenite Re-Os Dating |
17 |
| Quartz Solubility in the H2O-NaCl System: A Framework for Understanding Vein Formation in Porphyry Copper Deposits |
17 |
| A SHAKE-UP IN THE PORPHYRY WORLD? |
15 |
| MAGMATIC ORIGIN FOR SEDIMENT-HOSTED Au DEPOSITS, GUIZHOU PROVINCE, CHINA: IN SITU CHEMISTRY AND SULFUR ISOTOPE COMPOSITION OF PYRITES, SHUIYINDONG AND JINFENG DEPOSITS |
15 |
| Evolution of Pyrite Trace Element Compositions from Porphyry-Style and Epithermal Conditions at the Lihir Gold Deposit: Implications for Ore Genesis and Mineral Processing |
14 |
| The Metal Content of Magmatic-Hydrothermal Fluids and Its Relationship to Mineralization Potential |
14 |
| Ore-Forming Processes of the Daqiao Epizonal Orogenic Gold Deposit, West Qinling Orogen, China: Constraints from Textures, Trace Elements, and Sulfur Isotopes of Pyrite and Marcasite, and Raman Spectroscopy of Carbonaceous Material |
14 |
| Magma Evolution Leading to Porphyry Au-Cu Mineralization at the Ok Tedi Deposit, Papua New Guinea: Trace Element Geochemistry and High-Precision Geochronology of Igneous Zircon |
12 |
| How Precisely Can the Temperature of a Fluid Event be Constrained Using Fluid Inclusions? |
12 |
| THE ORIGIN OF THE ZHANGJIALONG TUNGSTEN DEPOSIT, SOUTH CHINA: IMPLICATIONS FOR W-Sn MINERALIZATION IN LARGE GRANITE BATHOLITHS |
11 |
| Physicochemical Processes in the Magma Chamber under the Black Mountain Porphyry Cu-Au Deposit, Philippines: Insights from Mineral Chemistry and Implications for Mineralization |
11 |
| Hydrothermal Alteration, Mineralization, and Structural Geology of the Zijinshan High-Sulfidation Au-Cu Deposit, Fujian Province, Southeast China |
11 |
| Alunite Ar-40/Ar-39 and Zircon U-Pb Constraints on the Magmatic-Hydrothermal History of the Zijinshan High-Sulfidation Epithermal Cu-Au Deposit and the Adjacent Luoboling Porphyry Cu-Mo Deposit, South China: Implications for Their Genetic Association |
11 |
| The Genesis of Regolith-Hosted Heavy Rare Earth Element Deposits: Insights from the World-Class Zudong Deposit in Jiangxi Province, South China |
11 |
| Textural Features and Chemical Evolution in Ta-Nb Oxides: Implications for Deuteric Rare-Metal Mineralization in the Yichun Granite-Marginal Pegmatite, Southeastern China |
11 |
| Elevated Magmatic Sulfur and Chlorine Contents in Ore-Forming Magmas at the Red Chris Porphyry Cu-Au Deposit, Northern British Columbia, Canada |
10 |
| The Nature and Origin of Hydrothermal REE Mineralization in the Sin Quyen Deposit, Northwestern Vietnam |
9 |
| The Economic Geology of Scandium, the Runt of the Rare Earth Element Litter |
9 |
| Geology and Isotope Geochemistry of the Wainaulo Cu-Au Porphyry Deposit, Namosi District, Fiji |
8 |
| PROTOLITH-RELATED THERMAL CONTROLS ON THE DECOUPLING OF Sn AND W IN Sn-W METALLOGENIC PROVINCES: INSIGHTS FROM THE NANLING REGION, CHINA |
8 |
| Mineralogical, Fluid Inclusion, and Multiple Isotope (H-O-S-Pb) Constraints on the Genesis of the Sandaowanzi Epithermal Au-Ag-Te Deposit, NE China |
8 |
| In Situ Sr-87/Sr-86 of Scheelite and Calcite Reveals Proximal and Distal Fluid-Rock Interaction During Orogenic W-Au Mineralization, Otago Schist, New Zealand |
7 |
| BORON ISOTOPE MUSCOVITE-TOURMALINE GEOTHERMOMETRY INDICATES FLUID COOLING DURING MAGMATIC-HYDROTHERMAL W-Sn ORE FORMATION |
7 |
| DISTAL Au DEPOSITS ASSOCIATED WITH Cu-Au SKARN MINERALIZATION IN THE FENGSHAN AREA, EASTERN CHINA |
7 |
| Multistage Evolution of the Neoarchean (ca. 2.7 Ga) Igarape Cinzento (GT-46) Iron Oxide Copper-Gold Deposit, Cinzento Shear Zone, Carajas Province, Brazil |
7 |
| The Dynamic Sulfide Saturation Process and a Possible Slab Break-off Model for the Giant Xiarihamu Magmatic Nickel Ore Deposit in the East Kunlun Orogenic Belt, Northern Qinghai-Tibet Plateau, China |
7 |
| Geochronological, Petrological, and Geochemical Studies of the Daxueshan Magmatic Ni-Cu Sulfide Deposit in the Tethyan Orogenic Belt, Southwest China |
7 |
| Distinguishing Ore Deposit Type and Barren Sedimentary Pyrite Using Laser Ablation-Inductively Coupled Plasma-Mass Spectrometry Trace Element Data and Statistical Analysis of Large Data Sets |
7 |
| Trace Element Composition of Igneous and Hydrothermal Magnetite from Porphyry Deposits: Relationship to Deposit Subtypes and Magmatic Affinity |
7 |
| TEXTURES AND CHEMICAL COMPOSITIONS OF MAGNETITE FROM IRON OXIDE COPPER-GOLD (IOCG) AND KIRUNA-TYPE IRON OXIDE-APATITE (IOA) DEPOSITS AND THEIR IMPLICATIONS FOR ORE GENESIS AND MAGNETITE CLASSIFICATION SCHEMES |
7 |
| Geology and Genesis of the Giant Pulang Porphyry Cu-Au District, Yunnan, Southwest China |
7 |
| Mineralogy, Fluid Inclusion, and Stable Isotope Studies of the Chengchao Deposit, Hubei Province, Eastern China: Implications for the Formation of High-Grade Fe Skarn Deposits |
7 |
| DETECTION OF GOLD NANOPARTICLES IN HYDROTHERMAL FLUIDS |
7 |
| A SHALLOW-BURIAL MINERALIZATION MODEL FOR THE UNCONFORMITY-RELATED URANIUM DEPOSITS IN THE ATHABASCA BASIN |
6 |
| Geochronology of the Tumpangpitu Porphyry Au-Cu-Mo and High-Sulfidation Epithermal Au-Ag-Cu Deposit: Evidence for Pre- and Postmineralization Diatremes in the Tujuh Bukit District, Southeast Java, Indonesia |
6 |
| Zircon Alteration as a Proxy for Rare Earth Element Mineralization Processes in Carbonatite-Nordmarkite Complexes of the Mianning-Dechang Rare Earth Element Belt, China |
6 |
| Evaluating the Use of the Molybdenite Re-Os Chronometer in Dating Gold Mineralization: Evidence from the Haigou Deposit, Northeastern China |
6 |
| THE INFLUENCE OF CO2 ON THE SOLUBILITY OF QUARTZ IN SINGLE-PHASE HYDROTHERMAL FLUIDS: IMPLICATIONS FOR THE FORMATION OF STOCKWORK VEINS IN PORPHYRY COPPER DEPOSITS |
6 |
| White Mica Geochemistry of the Copper Cliff Porphyry Cu Deposit: Insights from a Vectoring Tool Applied to Exploration |
6 |
| The Genesis of the Giant Dajiangping SEDEX-Type Pyrite Deposit, South China |
6 |
| THE XILING Sn DEPOSIT, EASTERN GUANGDONG PROVINCE, SOUTHEAST CHINA: A NEW GENETIC MODEL FROM Ar-40/Ar-39 MUSCOVITE AND U-Pb CASSITERITE AND ZIRCON GEOCHRONOLOGY |
6 |
| New Insights for the Formation of Kiruna-Type Iron Deposits by Immiscible Hydrous Fe-P Melt and High-Temperature Hydrothermal Processes: Evidence from El Laco Deposit |
6 |
| A Modified Placer Origin for Refractory Gold Mineralization Within the Archean Radioactive Quartz-Pebble Conglomerates from the Eastern Part of the Singhbhum Craton, India |
6 |
| ANDRADITE GARNET U-Pb GEOCHRONOLOGY OF THE BIG GOSSAN SKARN, ERTSBERG-GRASBERG MINING DISTRICT, INDONESIA |
6 |
| Quantifying Exhumation at the Giant Pulang Porphyry Cu-Au Deposit Using U-Pb-He Dating |
6 |
| Application of Imaging Spectroscopy for Mineral Exploration in Alaska: A Study over Porphyry Cu Deposits in the Eastern Alaska Range |
5 |
| Hematite Breccia-Hosted Iron Oxide Copper-Gold Deposits Require Magmatic Fluid Components Exposed to Atmospheric Oxidation: Evidence from Prominent Hill, Gawler Craton, South Australia |
5 |
| Mineral and Lithologic Mapping Capability of WorldView 3 Data at Mountain Pass, California, Using True- and False-Color Composite Images, Band Ratios, and Logical Operator Algorithms |
5 |
| Geology of the Boyongan and Bayugo Porphyry Cu-Au Deposits: An Emerging Porphyry District in Northeast Mindanao, Philippines |
5 |
