1774 |
Quantifying structural control on ore deposition using anisotropy of magnetic susceptibility (AMS): Case studies from the Cloncurry IOCG/ Sedex province. |
Dr. James Austin |
T17.11 - Quantitative geoscience data analysis for mineral exploration targeting |
1774.pdf |
122 |
Quantitative prediction and evaluation of seafloor hydrothermal sulfide resources in the Indian Ocean |
Prof. Jianping Chen |
T17.11 - Quantitative geoscience data analysis for mineral exploration targeting |
122.pdf |
1857 |
Mathematical assumptions of prospectivity modelling with special emphasis on joint conditional independence |
Mr. Helmut Schaeben |
T17.11 - Quantitative geoscience data analysis for mineral exploration targeting |
1857.pdf |
1084 |
Application of the pattern recognition technique to locate subsurface magnetic anomaly |
Mr. John Stephen Kayode |
T17.11 - Quantitative geoscience data analysis for mineral exploration targeting |
1084.pdf |
2705 |
Scale dependence of structural control on gold deposits in Kumasi Basin, Ghana |
Ms. Bijal Chudasama |
T17.12 - Quantitative geoscience data analysis for mineral exploration targeting |
2705.pdf |
5664 |
Women In Geoscience Presentation - Sponsored by South32 |
|
T17.12 - Quantitative geoscience data analysis for mineral exploration targeting |
|
0 |
Women in Geoscience presentation - sponsored by South32 |
Noleen Pauls |
T17.12 - Quantitative geoscience data analysis for mineral exploration targeting |
|
4120 |
Application of a Singular Value Decomposition (SVD) for Identification of Au Anomalies in the Jiaodong Gold Field, Eastern Shandong Peninsula, Eastern China |
Ms. Luxue Qin |
T17.12 - Quantitative geoscience data analysis for mineral exploration targeting |
4120.pdf |
5378 |
Rank Statistical Analysis of Selected South African Gold Endowment |
Mr. John Paul Hunt |
T17.12 - Quantitative geoscience data analysis for mineral exploration targeting |
5378.pdf |
4641 |
Mineral Resource Assessment of Porphyry Cu-Mo Deposits in Gobi Desert Landscape of Eastern Tianshan, China |
Prof. JIANGUO CHEN |
T17.12 - Quantitative geoscience data analysis for mineral exploration targeting |
4641.pdf |
2162 |
3D gravity imaging based on inversion of pseudomagnetic amplitude data |
Mr. Zelin Li |
T17.12 - Quantitative geoscience data analysis for mineral exploration targeting |
2162.pdf |
2457 |
Assessment of Geological-geophysical methods for prospecting of chromite deposits in Camagüey province, Cuba |
Mr. Ruben Gonzalez |
T17.13 - Quantitative geoscience data analysis for mineral exploration targeting |
2457.pdf |
5331 |
Towards the resolution of dipping contacts in the Capricorn Orogen using AEM |
Ms. Sasha Banaszczyk |
T17.13 - Quantitative geoscience data analysis for mineral exploration targeting |
5331.pdf |
4522 |
Geological analysis of aeromagnetic and gravity data from Eastern Tianshan, China: implications for potential porphyry Cu-Mo polymetallic deposits exploration |
Dr. Fan Xiao |
T17.13 - Quantitative geoscience data analysis for mineral exploration targeting |
4522.pdf |
4310 |
Integrated Exploration Platform: Software Tools for Integrated Multi-Data Interpretation |
Prof. Eun-Jung Holden |
T17.13 - Quantitative geoscience data analysis for mineral exploration targeting |
4310.pdf |
1563 |
Molybdenum Mines Prospecting Using New Developed MTEM System |
Professor Qingyun Di |
T17.13 - Quantitative geoscience data analysis for mineral exploration targeting |
1563.pdf |
4664 |
Granite-related rare earth elements prospectivity mapping of the Bushveld Complex, South Africa |
Dr. Alazar Yosef Billay |
T17.14 - The Mineral system approach: the paradigm and future trends |
4664.pdf |
5409 |
What Controls the Formation of Large Surficial Uranium Systems? A comparative study of Langer Heinrich, Namibia and Yeelirrie, Western Australia |
Ms. Bijal Chudasama |
T17.14 - The Mineral system approach: the paradigm and future trends |
5409.pdf |
2245 |
Systematization of deep-sea polymetallic sulfides of the Mid-Atlantic Ridge |
Svetlana Babaeva |
T17.14 - The Mineral system approach: the paradigm and future trends |
2245.pdf |
907 |
Mapping mineral potential at continental to regional scales using a mineral systems approach: Ni-Cu-PGE and IOCG systems in Australia |
Dr. Roger Skirrow |
T17.14 - The Mineral system approach: the paradigm and future trends |
907.pdf |
5161 |
Brownfield Exploration as a Strategic Initiative to Extending the Life of Mine |
Mr. Hendrik Pretorius |
T17.14 - The Mineral system approach: the paradigm and future trends |
5161.pdf |
5210 |
The international diamond business: the role of southern African producers in change and consolidation |
Dr. John Bristow |
T17.14 - The Mineral system approach: the paradigm and future trends |
5210.pdf |
2127 |
Deep Cu-Ag deposits – a chance for progress in the copper industry |
Prof. Stanislaw Speczik |
T17.14 - The Mineral system approach: the paradigm and future trends |
2127.pdf |
4455 |
Chemostratigraphy and geochemical vectoring at the Rapla prospect, Rathdowney Trend, Ireland |
Mr. Oakley Turner |
T17.2 - Mineral deposit footprints |
4455.pdf |
5366 |
Vanadium, Iron, Titanium and Phosphate mineralisation in the Upper Zone of the Northern Limb of the Bushveld Complex |
Mr. Troth Saindi |
T17.2 - Mineral deposit footprints |
5366.pdf |
5053 |
The “Montaña de Manganeso” Mn deposit, San Luis Potosí, Mexico: mineralizing fluids and deposit typology |
Mr. Joseph Madondo |
T17.2 - Mineral deposit footprints |
5053.pdf |
4959 |
The Groenfontein and Zaaiplaats Tin Deposits – a model for the future of Tin Exploration? |
Dr. Luke Longridge |
T17.2 - Mineral deposit footprints |
4959.pdf |
5342 |
Bisie - World’s Largest and Richest Undeveloped Tin Deposit |
Ms. Helen Pein |
T17.2 - Mineral deposit footprints |
5342.pdf |
5211 |
The Orange and Riet River alluvial diamond deposits in the vicinity of Douglas, Northern Cape Province: geology, evaluation, and exploitation of unique South African large diamond producing deposits |
Mr Lyndon De Meillon |
T17.2 - Mineral deposit footprints |
5211.pdf |
5400 |
Prospectivity mapping of the Bushveld granite-related mineralisation in selected areas, South Africa. |
Mr. Litshedzani Mutele |
T17.2 - Mineral deposit footprints |
5400.pdf |
1190 |
The Zn-Nonsulphides district of Bongarà (Northern Peru) |
Prof. Maria Boni |
T17.3 - Greenfields exploration in regolith-dominated terrains |
1190.pdf |
4671 |
New C- and O-isotopic compositions of smithsonite from Skorpion and Rosh Pinah Zn-(Pb) deposits (Namibia): preliminary results and implications |
Mr. Giuseppe Arfè |
T17.3 - Greenfields exploration in regolith-dominated terrains |
4671.pdf |
1826 |
Nanogeochemistry: metal migration mechanism and greenfield exploration in regolith-covered terrains |
Dr. Xueqiu Wang |
T17.3 - Greenfields exploration in regolith-dominated terrains |
1826.pdf |
3466 |
Geochemical exploration through cover in deeply weathered terrains |
Dr. Ravi Anand |
T17.3 - Greenfields exploration in regolith-dominated terrains |
3466.pdf |
473 |
Titaniferous lateritic-bauxite (TLB) capping over Sung Valley Pyroxenite: A host for REE mineralisation (?) in Meghalaya, India |
Mr. Mohd. Sadiq |
T17.3 - Greenfields exploration in regolith-dominated terrains |
473.pdf |
1369 |
Past and present climate controlling the formation of Zn-(Pb) supergene Nonsulfide ores |
Prof. Maria Boni |
T17.3 - Greenfields exploration in regolith-dominated terrains |
1369.pdf |
960 |
Identification of concealed geological structures in a Grassland Area in Inner Mongolia, China: A Perspective from Temperature Vegetation Dryness Index |
Dr. Chengbin Wang |
T17.3 - Greenfields exploration in regolith-dominated terrains |
960.pdf |
1317 |
Mineral exploration in regolith-dominated terrains: considerations, challenges and new approaches |
Dr. Ignacio Gonzalez-Alvarez |
T17.3 - Greenfields exploration in regolith-dominated terrains |
1317.pdf |
1144 |
Mineralogy and Osmium Isotope Composition of Placer Platinum Group Element and Gold Grains Recovered from Offshore Southern Namibia: Possible Source Rocks in the Gariep Belt? |
Dr. Evelyn Mervine |
T17.4 - Mineral deposit footprints |
1144.pdf |
2715 |
Characterizing behavior of trace elements in source rocks using mathematical modeling |
Professor Yongzhang Zhou |
T17.4 - Mineral deposit footprints |
2715.pdf |
1723 |
Effect of the gypsum-salt layer oxidation barrier for ore-formation of Iron-Oxide-Apatite and skarn type iron deposits in the Middle-Lower Yangtze River polymetallic ore Belt, China |
Dr. Yan He Li |
T17.4 - Mineral deposit footprints |
1723.pdf |
777 |
The contribution of bismuth melts to gold mineralization: a case study from the Baolun gold ore deposit in Hainan Province of South China |
Mr. Deru Xu |
T17.4 - Mineral deposit footprints |
777.pdf |
5072 |
Mineral exploration models from simple fiction to complex reality |
Prof. Reimar Seltmann |
T17.4 - Mineral deposit footprints |
5072.pdf |
2341 |
Geological and geochemical prospecting models of porphyry Mo deposits in China |
Dr. Wei Wan |
T17.5 - New theories and methods in resources exploration |
2341.pdf |
2257 |
Crustal Evolution and Gold Metallogeny in Peninsular India - Studies for Exploration Target Selection |
Dr. Dhawan Gopal |
T17.5 - New theories and methods in resources exploration |
2257.pdf |
1722 |
Can drilling fluids be a useful sample media for mineral exploration? |
Dr. Nathan Reid |
T17.5 - New theories and methods in resources exploration |
1722.pdf |
3007 |
Regolith mapping and geochemical exploration in the Chapada-Mara Rosa Cu-Au district, Central Brazil |
Dr. Claudio Porto |
T17.5 - New theories and methods in resources exploration |
3007.pdf |
1314 |
Types and genesis of the BIF-hosted high-grade iron ores in China |
Dr. Houmin Li |
T17.5 - New theories and methods in resources exploration |
1314.pdf |
5412 |
Remote estimation of dielectric properties of palaeochannel-fill sediments in Tubas Area, Namibia: implications for surficial uranium exploration |
Ms. Sanchari Thakur |
T17.6 - From Ore Deposits to Global Metallogeny: implications for exploration success (Sponsored by IAGOD) |
5412.pdf |
4858 |
Geochronology and Nd-Sr-Pb isotopic compositions of Early Cretaceous intrusions and associated porphyry Cu deposits in eastern Alaska |
Dr. Garth Graham |
T17.6 - From Ore Deposits to Global Metallogeny: implications for exploration success (Sponsored by IAGOD) |
4858.pdf |