TY - BOOK ID - 61122192 TI - Polymetallic Metallogenic System PY - 2019 SN - 303921294X 3039212931 PB - MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - n/a KW - syenite KW - petrogenesis KW - North China Craton KW - Hongyan deposit KW - Yangshan gold belt KW - mineral geo-thermometry KW - water–rock interaction KW - Pinglidian gold deposit KW - lithospheric architecture KW - Liaodong Peninsula KW - visible gold KW - Zhengchong gold deposit KW - stable isotopes KW - geochemistry KW - ore shoots KW - high fugacity KW - Huangshaping KW - zircon U-Pb dating KW - orogenic gold deposit KW - high-silica adakitic rocks (HSA) KW - zircon U–Pb dating KW - zircon geochronology KW - middle–late Jurassic KW - Rare-Earth Elements KW - Tiantangshan tin polymetallic deposit KW - whole-rock geochemistry KW - fluid inclusions KW - low Sr and high Yb A2-type granite KW - W–Sn skarn KW - Jiaodong area KW - hydrous melts KW - quartz vein KW - hydrothermal alteration halo KW - fluid inclusion KW - archean basement KW - H–O isotope KW - Sizhuang gold deposit KW - South China KW - invisible gold KW - granite petrogenesis KW - Zaorendao gold deposit KW - geostatistics KW - SE China KW - physicochemical condition of mineralization KW - metallogenesis KW - structural control KW - constraints on mineralization KW - Northwestern Yunnan Province KW - ore-forming processes KW - zircon Hf isotopes KW - metallogenic rule KW - rock geochemistry KW - Shizhuyuan KW - Sr–Nd–Pb–Hf isotopes KW - immiscibility KW - Jiaodong Peninsula KW - Mo-polymetallic deposit KW - Permian A-type granite KW - precipitation mechanism KW - Jiangnan orogenic belt KW - Chishan alkaline complex KW - A-type granite KW - in situ study KW - magmatic oxygen fugacity KW - Jiaodong KW - Liaoning Province KW - oxidation state KW - Re–Os dating KW - Saima deposit KW - C–H–O isotopes KW - sericite KW - gold deposition KW - post-collisional slab break-off KW - Hf-Nd isotopic mapping KW - geochronology KW - Sr–Nd isotopes KW - Inner Mongolia KW - Zaozigou deposit KW - Pulang porphyry Cu (–Mo–Au) deposit KW - Haoyaoerhudong gabbro KW - trace element KW - Cu-Au hydrothermal mineralization KW - molybdenite Re-Os dating KW - Hegenshan-Heihe suture zone KW - Late Cretaceous KW - Great Xing’an Range KW - SW China KW - Hongshan skarn deposit KW - tin mineralization KW - Xianghualing KW - Hf isotopes KW - post-collisional KW - hydrothermal calcite KW - molybdenite Re–Os dating KW - LA-ICP-MS zircon U–Pb dating KW - Sanshandao gold deposit KW - China KW - Lu–Hf isotopes KW - orogenic-gold deposit KW - garnet Sm–Nd dating KW - paleo-Tethyan ocean closure KW - Weilasituo Sn-polymetallic deposit KW - West Qinling KW - mantle branch KW - formation temperature KW - ore prospecting target KW - Dongbulage KW - niobium mineralization KW - LA-ICP-MS KW - quartz KW - C–O isotopes KW - acidity KW - Beiya Au deposit KW - ore-controlling structures KW - U–Pb zircon age KW - Koka deposit KW - zircon U–Pb geochronology KW - skarn mineralogy KW - Phapon gold deposit KW - water-rock interaction KW - middle-late Jurassic KW - W-Sn skarn KW - H-O isotope KW - Sr-Nd-Pb-Hf isotopes KW - Re-Os dating KW - C-H-O isotopes KW - Sr-Nd isotopes KW - Pulang porphyry Cu (-Mo-Au) deposit KW - Great Xing'an Range KW - LA-ICP-MS zircon U-Pb dating KW - Lu-Hf isotopes KW - garnet Sm-Nd dating KW - C-O isotopes KW - U-Pb zircon age KW - zircon U-Pb geochronology UR - https://www.unicat.be/uniCat?func=search&query=sysid:61122192 AB - Within the last decade, the high and continuing demand for precious and base metals, as well as critical elements, has prompted a global rush on a scale never before seen. This eventually resulted in the demand for considerable innovation and improvement in mineral deposit genetic modelling and ore formation regimes for the many different types of gold deposits, now recognized, and paralleled by the wide employment of exploration techniques and a rapid expansion of geological databases. This Special Issue will show case studies of porphyry polymetal systems, orogenic gold formations, water–rock reaction, ore-forming structure evolution, mineralogy and petrology of ore deposit, ore formation regime, geochronology and geochemistry of ore deposit, ore-forming evolution, mineral exploration and cutting-edge technology in ore deposit study. ER -