12 IKC Poster Technical Programme |
Theme 1: Diamonds |
Poster Number |
Abstract ID |
Title |
Presenter |
Affiliation |
P1-01 |
9 |
When diamonds are not pure diamond: amorphous carbon (a-C) grain boundary complexions in natural diamond aggregates |
Samantha Perritt |
De Beers Group |
P1-02 |
10 |
TiO2 exsolution as a cause of ferropericlase inclusion iridescence in diamond |
Samantha Perritt |
De Beers Group |
|
47 |
Machine learning classification on the chemical compositions of lithospheric diamonds and their inclusions |
Zhou Zhang |
Zhejiang University |
P1-04 |
117 |
Diamonds in the oceanic mantle: a new occurrence on Earth |
Jingsui Yang |
Nanjing University |
P1-05 |
150 |
A first look at diamonds and their inclusions from the Sequoia Kimberlite Complex, Northwest Territories, Canada |
Thomas Stachel |
University of Alberta |
P1-06 |
71 |
Mesoproterozoic diamond formation in the Sask craton mantle root: A far-field link to the Mackenzie large igneous event? |
Sarah EM Milne |
University of Alberta |
P1-07 |
78 |
The Occurrence of Diamond in the HPHT Metal-Chromite-Carbon System: Implications for Diamond in Ophiolites |
Zhiyun Lu |
Zhejiang University |
P1-08 |
86 |
Microdiamonds from Tonian plume-related LIP, North China Craton (NCC) |
Yun Wang |
Nanjing University |
P1-09 |
87 |
Laser ablation of ‘diamonds-in-water’ – a new technique for digging deeper |
Yaakov Weiss |
The Hebrew University of Jerusalem |
P1-10 |
90 |
Diamonds in the Kimberley area formed from mantle volatiles |
Pierre Cartigny |
IPG-Paris |
P1-11 |
92 |
Mineralogical Features and Comparison of Diamonds from Three Kimberlite Belts in Mengyin, China |
Fei Liu |
Institute of Geology, Chinese Academy of Geological Sciences |
P1-12 |
94 |
A snapshot of mantle metasomatism recorded by clinopyroxene inclusions in diamonds |
Kate Kiseeva |
American Museum of Natural History |
P1-13 |
99 |
CO2 nanoinclusions in diamonds |
Oded Navon |
The Hebrew University of Jerusalem |
P1-14 |
115 |
Dynamical properties of defects in diamond |
Razvan Caracas |
Institut de Physique du Globe de Paris |
P1-15 |
53 |
Lessons from Letseng – Evidence in support of the Flamboyant Megacryst |
Norman Lock |
|
P1-16 |
130 |
Trace element compositions of diamond-forming fluids in Voorspoed diamonds |
Yael Kempe |
The Hebrew University of Jerusalem |
P1-17 |
139 |
Characterisation of sublithospheric and lithospheric diamond populations from the Candle Lake C29/30 kimberlite, Sask Craton, Canada |
Andrea Pezzera |
University of Alberta |
p1-18 |
141 |
In-situ U-Pb dating of garnet in diamonds from Venetia, South Africa |
Brendan Hoare |
Trinity College Dublin |
P1-19 |
56 |
Carbon with diamond structure in phlogopite in peridotite, Barr Slope Mine, Dixonville, Pennsylvania |
Chien-Lu Chan |
Henry O. A. Meyer Memorial Research |
P1-20 |
151 |
Macle Diamonds: Primary Fluid Inclusion Entrapment Along the Twinning Plane |
William Henry Towbin |
Gemological Institute of America |
P1-21 |
158 |
Tales from Diamond Surface Features |
David Phillips |
University of Melbourne |
P1-22 |
159 |
Rare natural colored diamonds: diamonds colored by the 480 nm absorption band |
Mei Yan Lai |
Gemological Institute of America |
P1-23 |
179 |
Temporal changes in diamond formation by subduction through Earth history: thermal modeling, seismology, & petrology evidence |
Steven Shirey |
Carnegie Institution for Science |
P1-24 |
188 |
What Inclusions in Diamond Tell Us About the Lithospheric Mantle Beneath Snap Lake Kimberlite Dyke (Northwest Territories, Canada) |
Kelsey Graversen |
De Beers Group |
Theme 2: Emplacement and Economic Geology of Kimberlites and Related Magmas |
Poster Number |
Abstract ID |
Title |
Presenter |
Affiliation |
P2-01 |
55 |
Structural analysis of active quarries in the Quaternary Western Eifel volcanic field and their relevance for the formation of diatremes |
Georg Buechel |
University Jena, Institute of Earth Sciences |
|
146 |
Floating reefs and their relevance for the emplacement of maar-diatreme volcanoes |
Volker Lorenz |
University of Wuerzburg |
P2-03 |
192 |
Evolution of the geological model of Renard 3 Kimberley-type pyroclastic kimberlite over 1,000 metres depth, Quebec, Canada |
Colleen Laroulandie |
Stornoway Diamonds |
Theme 3: The Origin and Evolution of Kimberlites and Related Magmas |
Poster Number |
Abstract ID |
Title |
Presenter |
Affiliation |
P3-01 |
184 |
Secular variation in kimberlite formation: the variable connection to LLSVPs |
Claudia Adam |
Kansas State University |
P3-02 |
22 |
Petrology, geochemistry, and geochronology of the Pikoo Kimberlites, Saskatchewan |
Chiranjeeb Sarkar |
University of Alberta |
P3-03 |
16 |
Nature and origin of lamproite hypabyssal intrusives from the Jharia basin in eastern India |
Parminder Kaur |
Panjab University Chandigarh |
P3-04 |
15 |
Geochemistry of potassic sills and dykes from Jharkhand: Implications for the Cretaceous lamproite magmatism of eastern India in proximity to the Kerguelen mantle plume |
Parminder Kaur |
Panjab University Chandigarh |
P3-05 |
32 |
Kimberlites and basaltic melts as key tracers of Earth’s least processed mantle reservoirs |
Jingao Liu |
China University of Geosciences |
P3-06 |
38 |
Tracing the relative roles of lithospheric and sublithospheric mantle in kimberlite source regions using highly siderophile elements and Re-Os isotope systematics |
Yong Xu |
University of Alberta |
P3-07 |
41 |
Insights in Na-contents of kimberlite melts from experimentally determined partition coefficients between olivine and silicate-carbonate melt |
Rebecca Fabiana Zech |
ETH Zürich |
P3-08 |
60 |
Emplacement of the Argyle diamond deposit into an ancient rift zone triggered by supercontinent breakup |
Luc Doucet |
Curtin University |
P3-09 |
70 |
Petrology and Geochronology of kimberlites from the Victoria Island field, NU/NT, Canada |
Alex Müller |
University of Alberta |
|
83 |
Hollandite group minerals in Lamproites from the Jharia Coalfield, Damodar Valley, India |
Gurmeet Kaur |
Panjab University, Chandigarh |
P3-11 |
89 |
Geochemical Characteristics and U-Pb chronological of Apatite in Diamondiferous Kimberlite Pipes, the North China Craton (NCC) |
Chuqi Cao |
Chinese Academy of Geological Sciences |
P3-12 |
93 |
Petrology, Geochemistry, and Geochronology of the Dharma Kimberlites, Northwest Territories, Canada |
Nikita Kepezhinskas |
|
P3-13 |
138 |
Apatite U-Pb dating of kimberlite: a feasibility study from South China |
Jiawei Zhang |
Guizhou Geological Survey |
P3-14 |
107 |
The effect of crustal xenolith-kimberlite reaction on host kimberlite classification: The Pionerskaya case |
Amy Mailey |
University of British Columbia |
P3-15 |
110 |
Dating Perovskites From Kimberlites Of The Alto Paranaiba Igneous Province, Brazil: Challenges, Strategies And Geodynamic Implications |
Rogério G. Azzone |
Institute of Geosciences (IGc), University of São Paulo |
P3-16 |
126 |
Geochemistry, petrography, and zircon geochronology of MARID xenoliths from the Kaapvaal craton, southern Africa |
Molly Paul |
Boise State University |
P3-17 |
140 |
New Ar-Ar age and C-O isotope geochemistry of the Piedade (Aps) carbonatite complex of the Ponta Grossa Arch region, Southern Brazil: petrological implications |
Excelso Ruberti |
University of São Paulo, Brazil |
P3-18 |
96 |
(U-Th)/He geochronology of kimberlite zircon megacrysts: a new chronometer for dating emplacement |
Spencer Zeigler |
University of Colorado Boulder |
P3-19 |
142 |
An experimental study on the kimberlitic magma evolution during ascent before emplacement |
Zairong Liu |
Institute of Deep-sea Science and Engineering, Cas |
P3-20 |
154 |
The effect of volatiles on properties of kimberlite melts |
Ana Anzulovic |
University of Oslo |
P3-21 |
163 |
Post-collisional lamprophyres – exploration tools for rare metal deposits |
Thomas Seifert |
TU Bergakademie Freiberg |
P3-22 |
171 |
New Geochemical Insights into the Petrogenesis of South Australian Kimberlites |
Hayden Dalton |
University of Melbourne |
P3-23 |
174 |
The origin of kimberlitic zircon and the search for a “fingerprint” for superdeep diamonds: enhanced classification of source rock using zircon trace element compositions and machine learning |
Graham Pearson |
University of Alberta |
P3-24 |
182 |
A Geochronological Perspective on the Geodynamic Models of Kimberlite and Lamproite Magmatism in Kansas |
Pamela Kempton |
Kansas State University |
P3-25 |
8 |
Geochronology of the Qeqertaa Diamondiferous Ultramafic Lamprophyre, West Greenland |
Mark Thomas Hutchison |
Government of Greenland |
Theme 4: Diamond Deposits – Exploration and Mining |
Poster Number |
Abstract ID |
Title |
Presenter |
Affiliation |
P4-01 |
7 |
Diamond Exploration and Regional Prospectivity of Greenland |
Mark Thomas Hutchison |
Government of Greenland |
P4-02 |
23 |
Sedimentology and source provenance analysis of diamondiferous gravels of the Middle Orange River, Northern Cape Province, South Africa |
Cameron McLaren |
Nelson Mandela University |
P4-03 |
14 |
Dachine Revisited |
Jacques Letendre |
Exploration Renouveau Inc. |
P4-04 |
18 |
Kimberlites and lamproites in Zambia |
Alec Hawkes |
|
P4-05 |
20 |
Reflectance spectroscopy for investigating diamond inclusions and kimberlite indicator minerals |
Edward Cloutis |
University of Winnipeg |
P4-06 |
31 |
Discovery of Tracing Diamond in South Linyi |
Yi Ding |
Hebei GEO University |
P4-07 |
30 |
Several Questions in Searching for Diamondiferous Kimberlite in China |
Yi Ding |
Hebei GEO University |
P4-08 |
186 |
Geology Development and Evaluation of Meya Kimberlite Dyke System, Kono District, Sierra Leone |
Casey Hetman |
SRK Consulting |
P4-09 |
52 |
Evolution of Kimberlite Exploration – Systematic exploration using a ground geophysical toolbox for kimberlites, Slave Craton, NWT, Canada (Part 1) |
Darrell Epp |
Aurora Geosciences Ltd. |
P4-10 |
69 |
Leveraging AI to eliminate bias in kimberlite core logging |
Alexandrina Fulop |
De Beers Canada -Exploration |
P4-11 |
85 |
New technologies: a paradigm shift in kimberlite core logging |
Alexandrina Fulop |
De Beers Canada – Exploration |
P4-12 |
77 |
A21 – Diavik’s Newest Underground Mine |
Philip Lewis |
Rio Tinto Exploration |
P4-13 |
82 |
Geology of the Lulo kimberlite cluster of Lunda Norte Province of Angola |
Richard Price |
Lucapa Diamond Company |
P4-14 |
84 |
Enhancing Large Diamond Recovery: A Comprehensive Overview of X-ray Transmission (XRT) Technology |
Corné de Jager |
TOMRA Sorting Pty Ltd |
P4-15 |
75 |
Occurrence and recovery of Rare Earth Elements from kimberlite tailings in diamond mines |
Mohammed Rifkhan Mohammed Nayeem |
Dalhousie University |
P4-16 |
101 |
Diamond Mining in Canada – An Evolving Mine Engineering Knowledge Base |
Jaroslav Jakubec |
SRK Consulting |
P4-17 |
13 |
Jwaneng — The Untold Story of The Discovery of the World’s Richest Diamond Mine |
Norman Lock |
|
P4-18 |
114 |
Vertical Cutter Mining – A sustainable technology for mining of small vertical kimberlite bodies and veins |
Ulrich Schoepf |
Bauer Maschinen GmbH |
P4-19 |
123 |
Major Element Indicator Mineral Chemistry of the Lulo Kimberlite Province, Lunda Norte, Angola |
Paul Allan |
Lucapa Diamond Company |
P4-20 |
136 |
The River Ranch Kimberlite, Zimbabwe |
Leon Daniels |
Pangolin Diamonds |
P4-21 |
147 |
Diamond sources of the Juína region, Amazonian craton: textural and mineral chemical characteristics of Kimberley-type pyroclastic kimberlites |
Izaac Cabral-Neto |
Geological Survey of Brazil |
P4-22 |
161 |
Recovering Population Estimates through Expectation Maximization Techniques |
Yuri Kinakin |
Rio Tinto Exploration |
P4-23 |
166 |
Evolution of Kimberlite Exploration – Advances in Drift Prospecting in Canada’s North (Part 2): Case Studies and Examples |
Patrick DesRosiers |
Palmer/SLR |
P4-24 |
172 |
Comparison of Full-Tensor Magnetic Gradiometry with Conventional Magnetic Data: Implications for Kimberlite Exploration |
Janet Morrissey |
Rio Tinto Exploration |
P4-25 |
175 |
Evolution of Kimberlite Exploration – A New Look at Kimberlite Indicator Morphology from the Southern Slave Craton, NWT |
Tom McCandless |
Mountain Province Diamonds |
P4-26 |
185 |
Updated Northwest Territories Kimberlite Compilation |
Barrett Elliott |
Northwest Territories Geological Survey |
P4-27 |
191 |
Karowe Diamond Mine: Geology and Diamonds of the South Lobe and Implications for Underground Mining |
Kimberley Webb |
SRK Consulting (Canada) Inc. |
P4-28 |
103 |
Find the hidden diamond ore body Nearby No.50 kimberlite pipe in Wafangdian area, Liaoning, China |
Fu Haitao |
Liaoning Geological Exploration and Mining Group |
Theme 5: Cratonic Mantle – Petrology, Geochemistry and Geophysics |
Poster Number |
Abstract ID |
Title |
Presenter |
Affiliation |
P5-01 |
42 |
Constraints on the distribution, composition, and lithology of eclogite-pyroxenite xenoliths from the central Slave Craton mantle root |
Thomas Stachel |
University of Alberta |
P5-02 |
28 |
Probing the northern Kaapvaal craton root with mantle-derived xenocrysts from the Marsfontein orangeite diatreme, South Africa |
Ntando Ngwenya |
University of Johannesburg |
P5-03 |
33 |
V/Sc in garnet xenocrysts: new oxybarometry frontiers for the SCLM |
Lynthener Bianca Takenaka de Oliviera |
SRK Consulting |
P5-04 |
40 |
A sheared ilmenite-dunite xenolith from Lesotho: witness of deformation, metasomatism and perturbation of the lithosphere |
Catharina Heckel |
Goethe University Frankfurt |
P5-05 |
156 |
Classifying crust- and mantle-derived garnet from a structural-chemical perspective |
Song Gao |
Western University |
P5-06 |
44 |
Geodynamic Modelling of Cratonic Basins – Hosts for Diamonds and Gold |
Kristina Kublik |
University of Alberta |
P5-07 |
51 |
Formation and evolution of the subcontinental lithospheric mantle beneath accretionary orogenic belts: implications for the birth of future cratons |
Yuchen Liu |
China University of Geosciences |
P5-08 |
58 |
Cr-rich Megacrysts in Kimberlite |
Dan Schulze |
University of Toronto |
|
61 |
Mapping Global Lithospheric Mantle Pressure-Temperature Conditions by Machine Learning-Based Thermobarometry |
Chenyang Ye |
Zhejiang University |
P5-10 |
68 |
Metasomatism of the deep root of the Slave craton by melts from subducted oceanic crust |
Sarah Brooker |
University of Texas |
P5-11 |
91 |
Thermal and chemical structure of on- and off-craton lithosphere in central Africa from kimberlite indicator minerals |
Philip Janney |
University of Cape Town |
p5-12 |
17 |
Water in cratonic eclogites and pyroxenites from the Sask and Superior Cratons: impacts of tectonothermal events on mantle lithosphere evolution and dynamics |
Rondi Davies |
Queensborough Community College, CUNY |
P5-13 |
104 |
Southeast Slave Craton Lithosphere, Revisited |
Bruce Kjarsgaard |
Geological Survey of Canada, Natural Resources Canada |
P5-14 |
111 |
Mantle compositional architecture and diamond potential for the Alto Paranaíba Igneous Province, Brazil: compositional signatures from garnet xenocrysts in kimberlites |
Julia Cristina Bandeira Lino De Souza |
University of São Paulo |
P5-15 |
112 |
Kimberlites from Chicoria Creek, Juina, Brazil: Two broadly differing diamond and indicator mineral suites pointing to subduction and plate melting |
Harrison Cookenboo |
Consulting Geologist |
P5-16 |
113 |
Effects of melt depletion and metasomatism on U-Th-Pb behavior in cratonic mantle |
Diego Toro Vivanco |
University of Bern |
P5-17 |
119 |
Ferric iron measurements of coexisting garnet and clinopyroxene in grospydite xenoliths from Zagadochnaya kimberlite pipe (Yakutia, Siberian craton) |
Giulia Marras |
Sapienza University of Rome |
|
124 |
Arc Mantle Redox since Archean: Insights from Machine Learning, Statistics and Thermodynamic Modeling |
Chun-Tao Liu |
Zhejiang University |
P5-19 |
129 |
Origins and timing of amphibole and phlogopite formation in kimberlite-borne eclogite and pyroxenite xenoliths |
Sonja Aulbach |
Goethe University |
P5-20 |
128 |
Imaging the cratonic mantle lithosphere-kimberlite system beneath Kimberley (Kaapvaal craton) with in-situ U-Pb and geochemical analyses |
Sonja Aulbach |
Goethe University |
P5-21 |
95 |
Kimberlite apatite (U-Th)/He thermochronology of the Canadian Arctic: what fraction of kimberlites were eroded? |
Spencer Zeigler |
University of Colorado |
P5-22 |
131 |
Quantifying the thickness of the Archean lithosphere beneath the western Kaapvaal craton at the time of Zero kimberlite emplacement (1.6 Ga) |
Zuko Qashani |
Trinity College Dublin |
P5-23 |
135 |
Age and origin of the lithospheric mantle below the Ancient Gneiss Complex, Eswatini |
Kananelo Letete |
University of The Witwatersrand |
P5-24 |
143 |
Transitional pyroxenitic-lherzolitic xenoliths from Roberts Victor, Kaapvaal craton |
Karen Smit |
University of the Witwatersrand |
P5-25 |
148 |
Determining the origin of fluids in the cratonic lithosphere |
Emma Tomlinson |
Trinity College Dublin |
|
149 |
The Origin of Eclogitic Corundum and Garnet Xenocrysts from the Kareevlei Kaapvaal Lamproite (Group II Kimberlite) |
Anele Joni |
University of Cape Town |
P5-27 |
152 |
Quantifying the melting conditions of Archean cratonic peridotites |
Jarious Kaekane |
Trinity College Dublin |
P5-28 |
127 |
Probing the Diamond potential of the North American Lithosphere using seismic tomography |
Andrew Schaeffer |
Geological Survey of Canada |