3657 |
Mitigation of the rockburst risk in deep South African gold mines |
Professor Raymond Durrheim |
T18.16 - The Wiwatersrand Goldfields |
3657.pdf |
5493 |
Understanding the origin of groundwater in the Evander basin goldfields to assist mine water management during closure, South Africa |
Mr. Mohammed Musthafa Khaleel |
T18.16 - The Wiwatersrand Goldfields |
5493.pdf |
4588 |
In-situ LA-ICP-MS trace elements analysis of magnetite from the giant Beiya gold-polymetallic deposit, western Yunnan Province, Southwest China |
Dr. Yu Fu |
T18.16 - The Wiwatersrand Goldfields |
4588.pdf |
5213 |
Petrophysical and geological study of the seismically non-reflective Carbon Leader Reef: Witwatersrand Basin |
Ms. Nomqhele Nkosi |
T18.16 - The Wiwatersrand Goldfields |
5213.pdf |
4627 |
Relative timing of alterations in the Witwatersrand Basin |
Dr. Katharina Wulff |
T18.16 - The Wiwatersrand Goldfields |
4627.pdf |
4652 |
Relationships between concentration of phosphorus and evolutionary of small shelly faunas from the Cambrian Maidiping Formation, China |
Mr. Wentian Mi |
T18.16a - Mineral Deposits and Ore Forming Processes |
4652.pdf |
1966 |
Alteration-Mineralization and Element Migration Features of Baiyinchang VMS Deposit in Gansu Province, China |
Dr. Kai Dong
Pro. Shouyu Chen |
T18.16a - Mineral Deposits and Ore Forming Processes |
1966.pdf |
3698 |
FIELD AND PETROGRAPHIC ASPECTS OF KOLOMELA IRON ORE DEPOSIT, POSTMASBURG, SOUTH AFRICA AND THEIR GENETIC SIGNIFICANCE |
Mrs. Vusani Victoria Mathada |
T18.16a - Mineral Deposits and Ore Forming Processes |
3698.pdf |
3994 |
Diamondiferous trend of the kimberlites in the Lunda region (?ngola) |
Dr. Joao Tunga Felix |
T18.16a - Mineral Deposits and Ore Forming Processes |
3994.pdf |
3840 |
Evidence for post-magmatic rare-earth element mobilisation from a microgeochemical in situ ID-TIMS Sm–Nd isochron from a single magmatic eudialyte crystal from the Norra Kärr alkaline complex |
Mr. Axel Sjöqvist |
T18.16a - Mineral Deposits and Ore Forming Processes |
3840.pdf |
5499 |
Gold in West Africa – what does the future hold? |
L Peters |
T18.16a - Mineral Deposits and Ore Forming Processes |
5499.pdf |
58 |
The mining history of Cape Town |
Dr. Doug Cole |
T18.17 - Mineral Deposits and Ore Forming Processes |
58.pdf |
3770 |
Geo-environmental Assessment of Mining Impacts on the Central Rand |
Dr. Fred, N. Mphephu |
T18.17 - Mineral Deposits and Ore Forming Processes |
3770.pdf |
1718 |
In-loop TEM for fast investigation of coal-mine out water-filled zones |
Prof. Guo-qiang Xue |
T18.17 - Mineral Deposits and Ore Forming Processes |
1718.pdf |
3756 |
Antimony / Gold Mineralization of the Murchison Greenstone Belt |
Mr. Trevor Pearton |
T18.17 - Mineral Deposits and Ore Forming Processes |
3756.pdf |
638 |
A review of the history and geology of the Knysna (Millwood) goldfields, Western Cape Province, South Africa. An opportunity missed? |
Mr. Christopher Bargmann |
T18.17 - Mineral Deposits and Ore Forming Processes |
638.pdf |
4696 |
Uniqueness of the Jiaodong terrane constrained by the Penglai Group, Eastern China |
Prof. Hongyan Li |
T18.17a - Crustal Evolution, Geodynamics and Mineral Systems / Mineral Deposits and Ore Forming Processes |
4696.pdf |
5052 |
Intrusions Related Ore Genesis Processes Along The Subduction Line of Bursa Uludag |
Mr. Huseyin Kocaturk |
T18.17a - Crustal Evolution, Geodynamics and Mineral Systems / Mineral Deposits and Ore Forming Processes |
5052.pdf |
5014 |
Understanding Mineral Deposits and Ore Forming Processes - The Self-Organisation Concept and its Importance to the Search for New Mineral Resources |
Dr. Sabine Dietrich |
T18.17a - Crustal Evolution, Geodynamics and Mineral Systems / Mineral Deposits and Ore Forming Processes |
5014.pdf |
4273 |
New discovery of a wolframite-bearing granitic porphyry dike in Pingmiao ore block of the giant Dahutang tungsten deposit (Jiangxi Province, South China): A geochronologic, geochemical and petrogenetic study |
Mr Y.F. Meng |
T18.17a - Crustal Evolution, Geodynamics and Mineral Systems / Mineral Deposits and Ore Forming Processes |
4273.pdf |
905 |
Lithospheric and tectonic settings of IOCG systems in Australia |
Dr. Roger Skirrow |
T18.2 - Ore-forming processes associated with hypabyssal magmatic and related volcanic systems (Sponsored by IAGOD) |
905.pdf |
963 |
Volcanic-Hosted Massive Sulphide Deposits in mainland SE Asia: Their Potential and Prospectivity |
Prof. khin Zaw |
T18.2 - Ore-forming processes associated with hypabyssal magmatic and related volcanic systems (Sponsored by IAGOD) |
963.pdf |
2067 |
The 2650 Ma to 2600 Ma Magmatic Event and its Economic Importance for the Archean LCT Pegmatite Budget |
Dipl.-Geol Thomas Dittrich |
T18.2 - Ore-forming processes associated with hypabyssal magmatic and related volcanic systems (Sponsored by IAGOD) |
2067.pdf |
5307 |
The sources of ore-forming materials from the Anqing skarn type Cu-Fe deposit, Anhui Province, China |
Mr. Guangshu Yang |
T18.2 - Ore-forming processes associated with hypabyssal magmatic and related volcanic systems (Sponsored by IAGOD) |
5307.pdf |
2733 |
MINERALOGY AND CHEMISTRY OF ALTERATION ZONE ASSOCIATED WITH MASSIVE SULPHIDE ORES OF THE ARIAB DISTRICT, RED SEA HILLS, SUDAN |
Dr. Samia Ibrahim |
T18.2 - Ore-forming processes associated with hypabyssal magmatic and related volcanic systems (Sponsored by IAGOD) |
2733.pdf |
1476 |
IOCG deposits on the Palaeozoic-Mesozoic continental margins: a deposit clan formed during basin inversion |
Prof. Huayong Chen |
T18.2 - Ore-forming processes associated with hypabyssal magmatic and related volcanic systems (Sponsored by IAGOD) |
1476.pdf |
2293 |
Iron-oxide apatite deposits in eastern China formed by accumulation of magmatic hydrosaline chloride liquids |
Dr. Xin-Fu Zhao |
T18.3 - Ore-forming processes associated with hypabyssal magmatic and related volcanic systems (Sponsored by IAGOD) |
2293.pdf |
1319 |
Geochemical characteristics and metallogenic significance of igneous rocks from Zhunuo porphyry copper deposit, Tibet |
Mr. Ying-Chun Pang |
T18.3 - Ore-forming processes associated with hypabyssal magmatic and related volcanic systems (Sponsored by IAGOD) |
1319.pdf |
2259 |
Geochronology of the giant Beiya gold–polymetallic deposit in Yunnan Province, Southwest China and its relationship with the petrogenesis of alkaline porphyry |
Dr. Xiaoming Sun |
T18.3 - Ore-forming processes associated with hypabyssal magmatic and related volcanic systems (Sponsored by IAGOD) |
2259.pdf |
3123 |
Dictionema Shales and Obolus Sandstone (Phosphorite) of the Baltic Sedimentary Basin: New Type of Complex Ore for Renium and Uranium, Platinoids and Rare-Earth Metals |
Dr. Vladimir Vyalov |
T18.3 - Ore-forming processes associated with hypabyssal magmatic and related volcanic systems (Sponsored by IAGOD) |
3123.pdf |
3322 |
Nucleus deposit: a superposed (?) Au-Bi-As-Cu mineralized system at Mountain Freegold, Yukon, Canada, with constraints from molybdenite Re/Os and titanite U/Pb geochronology |
Dr. Thierry Bineli Betsi |
T18.3 - Ore-forming processes associated with hypabyssal magmatic and related volcanic systems (Sponsored by IAGOD) |
3322.pdf |
3570 |
Molybdenite Re–Os, zircon U–Pb dating and Lu-Hf isotopic analysis of the Xiaerchulu Au deposit, Inner Mongolia Province, China |
PhD. candidate Wang Jiaxin |
T18.3 - Ore-forming processes associated with hypabyssal magmatic and related volcanic systems (Sponsored by IAGOD) |
3570.pdf |
1365 |
Nano- to micron-particulate gold hosted by magnetite from the Beiya gold deposit, SW China |
Dr. Haoyang Zhou |
T18.3 - Ore-forming processes associated with hypabyssal magmatic and related volcanic systems (Sponsored by IAGOD) |
1365.pdf |
2177 |
A Cretaceous granite-related stratiform Cu ore hosted in Triassic basalt, SW China |
Mr. Jiawei Zhang |
T18.3 - Ore-forming processes associated with hypabyssal magmatic and related volcanic systems (Sponsored by IAGOD) |
2177.pdf |
3436 |
Field observations bearing on the origin of UG1/UG2 chromitites in the Bushveld Complex |
Mr. Rais Latypov |
T18.4 - Processes governing ore formation in the Bushveld Complex and other mafic and ultramafic magmatic systems (IAGOD-CODMUR sponsored) |
3436.pdf |
3052 |
A step forward in understanding 3D magmatic structures and ore deposits |
Dr. Emma J. Hunt |
T18.4 - Processes governing ore formation in the Bushveld Complex and other mafic and ultramafic magmatic systems (IAGOD-CODMUR sponsored) |
3052.pdf |
981 |
The Bushveld Complex: an overview of its structure, concepts on its origin, age and outstanding controversial issues |
Prof. Allan Wilson |
T18.4 - Processes governing ore formation in the Bushveld Complex and other mafic and ultramafic magmatic systems (IAGOD-CODMUR sponsored) |
981.pdf |
1164 |
Bushveld’s base has foundered |
Prof. Nicholas Arndt |
T18.4 - Processes governing ore formation in the Bushveld Complex and other mafic and ultramafic magmatic systems (IAGOD-CODMUR sponsored) |
1164.pdf |
2778 |
Results of a high resolution mineralogical and geochemical study within the Merensky reef, Western Limb, Bushveld complex |
Mrs. Justine Magson |
T18.5 - Processes governing ore formation in the Bushveld Complex and other mafic and ultramafic magmatic systems (IAGOD-CODMUR sponsored) |
2778.pdf |
3947 |
The emplacement mechanism of the UG-1 chromitite in the Bushveld Complex, South Africa |
Dr. Ria Mukherjee |
T18.5 - Processes governing ore formation in the Bushveld Complex and other mafic and ultramafic magmatic systems (IAGOD-CODMUR sponsored) |
3947.pdf |
3833 |
Trace element profiles through the Bushveld UG2 chromitite: alkali mobility and post-cumulus reworking in a redox potential gradient |
Dr. Robert Trumbull |
T18.5 - Processes governing ore formation in the Bushveld Complex and other mafic and ultramafic magmatic systems (IAGOD-CODMUR sponsored) |
3833.pdf |
3337 |
In situ Sr isotope evidence for plagioclase mingling in the UG2 layer of the Bushveld complex (South Africa) |
Dr. Ilka Kleinhanns |
T18.5 - Processes governing ore formation in the Bushveld Complex and other mafic and ultramafic magmatic systems (IAGOD-CODMUR sponsored) |
3337.pdf |
4439 |
Magmatic reaction and replacement phenomena associated with iron-rich melts migrating through the Upper Critical Zone, Rustenburg Layered Suite, Bushveld Complex |
Prof. David Reid |
T18.5 - Processes governing ore formation in the Bushveld Complex and other mafic and ultramafic magmatic systems (IAGOD-CODMUR sponsored) |
4439.pdf |
3058 |
Sm-Nd isotopic evidence for sampling of multiple sources during the emplacement of the Upper Critical Zone, Bushveld Complex, South Africa |
Dr Roger Scoon |
T18.5 - Processes governing ore formation in the Bushveld Complex and other mafic and ultramafic magmatic systems (IAGOD-CODMUR sponsored) |
3058.pdf |
3061 |
The metallogenesis of the lithospheric mantle and its bearing on the Bushveld magmatic event: Evidence from lamprophyric dykes and critical metals in mantle xenolith sulphides |
Dr. Hannah Hughes |
T18.6 - Processes governing ore formation in the Bushveld Complex and other mafic and ultramafic magmatic systems (IAGOD-CODMUR sponsored) |
3061.pdf |
4182 |
Offset PGE reefs revisited: equilibrium and diffusive partitioning in action |
Dr. David Holwell |
T18.6 - Processes governing ore formation in the Bushveld Complex and other mafic and ultramafic magmatic systems (IAGOD-CODMUR sponsored) |
4182.pdf |
3359 |
Anatomy of a LIP-forming conduit system in the Deep Crust: The Seiland Igneous Province, Northern Norway |
Dr. Rune Larsen B. |
T18.6 - Processes governing ore formation in the Bushveld Complex and other mafic and ultramafic magmatic systems (IAGOD-CODMUR sponsored) |
3359.pdf |
4566 |
Distinguishing multiple sulphide zones in the Platreef within a single core from the Turfspruit Farm prospect, Northern Limb of the Bushveld Complex. |
Ms. Eva Marquis |
T18.6 - Processes governing ore formation in the Bushveld Complex and other mafic and ultramafic magmatic systems (IAGOD-CODMUR sponsored) |
4566.pdf |
1384 |
Platinum-group element contents of some Karelian and Kaapvaal kimberlites: implications for the PGE budget of the sub-continental lithospheric mantle |
Prof. Wolfgang Maier |
T18.6 - Processes governing ore formation in the Bushveld Complex and other mafic and ultramafic magmatic systems (IAGOD-CODMUR sponsored) |
1384.pdf |
2843 |
Top down formation of the Sonju Lake intrusion (Duluth Complex USA) with implications for formation of PGE reef deposits |
Dr. Craig Lundstrom |
T18.6 - Processes governing ore formation in the Bushveld Complex and other mafic and ultramafic magmatic systems (IAGOD-CODMUR sponsored) |
2843.pdf |