| 10 IKC SCIENTIFIC PROGRAMME |
| POSTERS |
| SL NO. |
ABST. ID |
AUTHOR |
TITLE |
| KIMBERLITE GEOLOGY |
| 1 |
127 |
Agashev A M1, Orihashi Y2, Rotman A Ya3, Pokhilenko N P1, Serov I V3, Tolstov A V4 |
RUTILE AND TITANITE AS THE MINERALS FOR DATING KIMBERLITE EMPLACEMENT AGE: AN EXAMPLE OF AMAKINSKAYA AND TAEZHNAYA PIPES OF MIRNY FIELD, SIBERIA. |
| 2 |
131 |
1Buisman*I, 1Sparks RSJ, 1Walter MJ, 2Brown RJ, 3Manya S, 1Kavanagh J |
OLIVINE CHEMISTRY OF EXCEPTIONALLY YOUNG (HOLOCENE) KIMBERLITE OF THE IGWISI HILLS VOLCANO, TANZANIA |
| 3 |
360 |
Chalapathi Rao, N.V.1*, Creaser, R.A.2 and Lehmann, B.3 |
RECONNAISSANCE Re-Os ISOTOPE STUDY OF INDIAN KIMBERLITES AND LAMPROITES: IMPLICATION FOR THEIR MANTLE SOURCE REGIONS |
| 4 |
112 |
Lepine I, Armstrong J |
GEOLOGY OF THE KIMBERLITE PIPES OF THE RENARD CLUSTER, QUEBEC, CANADA |
| 5 |
69 |
Garanin*VK, Anashkin SM, Bovkun AV, Jelsma H, Shmakov II, Garanin KV |
GROUNDMASS MICROCRYSTALLINE OXIDES FROM THE MARSFONTEIN PIPE (REPUBLIC OF SOUTH AFRICA), CATOCA, CAMACHIA AND OTHERS ANGOLAN KIMBERLITE PIPES |
| 6 |
340 |
Gurmeet Kaur*, Mahesh Korkoppa# and Fareeduddin# |
Petrology of P-13 and P-5 kimberlite from Lattavaram kimberlite cluster, Wajrakarur Kimberlite Field, Andhra Pradesh, India |
| 7 |
211 |
Freeman2 L, Nowicki1 TE and Abedu2 B |
INTERNAL GEOLOGY DEVELOPMENT AND EMPLACEMENT OF THE K1 KIMBERLITE PIPE, KOIDU MINE, SIERRA LEONE, WEST AFRICA |
| 8 |
39 |
Lorenz2* V |
KIMBERLITE MAAR CRATERS |
| 9 |
119 |
Mabolani, S Cawthorn, R.G., and Reimold, W.U. |
BENFONTEIN-02 KIMBERLITE, NORTHERN CAPE PROVINCE, SOUTH AFRICA |
| 10 |
249 |
Moss* S1, Nowicki T1, Hetman C2, Freeman L2, Abedu B2 |
GEOLOGY AND EVALUATION OF KIMBERLITE DYKES AT KOIDU, SIERRA LEONE |
| 11 |
262 |
Moss* S1, Webb K1, Hetman C1, Manyumbu A2, Muchechetere C2 |
GEOLOGY OF THE K1 AND K2 KIMBERLITE PIPES AT MUROWA, ZIMBABWE |
| 12 |
63 |
Sokol AG*, Kupriyanov IN, Palyanov YuN, Kruk AN |
WATER ACTIVITY IN KIMBERLITE MAGMAS: CONSTRAINS FROM MELTING EXPERIMENTS AT 6.3 GPA |
| 13 |
33 |
Tretyachenko VV, Bovkun AV, Garanin*KV, Garanin VK, Tretyachenko NG |
FORMATION FEATURES OF THE EARLY-HERCYNIC ALKALINE-ULTRABASIC AND BASIC VOLVANIC COMPLEXES AND DIAMONDIFEROUS CRITERIA OF THE KIMBERLITES FROM ZIMNY BEREG AREA (NORTH-EAST OF ARCHANGELSK REGION, RUSSIA) |
| 14 |
230 |
Webb KJ1*, Hetman CM1^, Nowicki TE1, Harrison S2, Carlson J2, Parson S2' and Paul JL1 |
THE UPDATED GEOLOGICAL MODEL OF THE MISERY KIMBERLITE COMPLEX, EKATI MINE, NORTHWEST TERRITORIES |
| 15 |
272 |
Araújo DP1, Weska*RK2, Correa RS1, Valadão LV1, Kuberek NT1 Gobbo L3 |
THE KIMBERLITE JUINA-5, BRAZIL: TEXTURAL FEATURES AND XENOCRYST CHEMISTRY |
| 16 |
49 |
Yakovlev*DA, Kostrovitsky SI, Suvorova LF |
TYPOMORPHIC FEATURES OF GROUNDMASS MINERALS FROM DIAMONDIFEROUS KIMBERLITES OF YAKUTIA |
| 17 |
74 |
Yaxley GM1*, Berry AJ2, Kamenetsky VS3, Woodland AB4, Paterson D5, de Jonge MD5 and Howard DL |
APPLICATION OF Fe K-EDGE XANES DETERMINATIONS OF Fe3+/ÓFe IN GARNET TO PERIDOTITE XENOLITHS FROM THE UDACHNAYA KIMBERLITE |
|
| CRATONIC ROOTS |
| 1 |
26 |
Shchukina* EV1, Malkovets VG1, Golovin NN2, Pokhilenko NP1 |
PERIDOTITIC MANTLE SECTION BENEATH V. GRIB KIMBERLITE PIPE (ARKHANGELSK REGION, RUSSIA): MINERALOGICAL COMPOSITION, P-T CONDITIONS, METASOMATISM |
| 2 |
44 |
Agashev A M 1*, Ionov D A2, Pokhilenko N P1, Golovin A V1, Surgutanova E A 1, Sharygin I S. |
METASOMATISM IN CRATONIC MANTLE ROOT: INSIGHT FROM GEOCHEMISTRY OF DEFORMED PERIDOTITE XENOLITHS OF UDACHNAYA PIPE |
| 3 |
59 |
Pokhilenko NP |
MINERALOGICAL AND PETROLOGICAL EVIDENCES OF LITHOSPHERE THICKNESS VARIATIONS INSIDE ANCIENT CRATONS |
| 4 |
75 |
Rosenthal1* A, Yaxley1 GM, Green1,2 DH, Kovács1,4 I, Hermann1 J, Spandler1,3 CS, Mernagh5 TP |
PHASE AND MELTING RELATIONS OF A RESIDUAL ECLOGITE/PYROXENITE WITHIN AN UPWELLING HETEROGENEOUS UPPER MANLTE |
| 5 |
125 |
A.M. Borst1, B. Davidheisser1, T. Meulemens1, G.R. Davies*1 |
THE ORIGIN AND EVOLUTION OF THE LITHOSPHERIC MANTLE BENEATH THE MAKONDI FOLD BELT IN BOTSWANA: AN EXTENSIVE GEOCHEMICAL STDUY OF PERIDOTITE XENOLITHS FROM THE LETLHAKANE DIAMOND MINE |
| 6 |
126 |
Malygina*EV, Pokhilenko NP |
PECULIARITIES OF COMPOSITION OF COARST PERIDOTITE XENOLITHS OF SOME KIMBERLITE PIPES FROM SOURTH AFRICA |
| 7 |
140 |
Sablukov*SM, Sablukova LI, Stegnitsky YuB and Karpenko MA |
BANDED ALKREMITE XENOLITHS FROM NYURBINSKAYA KIMBERLITE PIPES (NAKYN FIELD, YAKUTIA) |
| 8 |
142 |
Sablukova*LI, Sablukov SM, Stegnitsky YuB and Karpenko MA |
GREEN GARNETS OF THE “WEHRLITE” MANTLE XENOLITHS FROM KIMBERLITES: THEIR COMPOSITION AND ORIGIN (NEWLANDS DIKE, SOUTH AFRICA; NYURBINSKAYA PIPE, NAKYN FIELD, YAKUTIA) |
| 9 |
144 |
Sablukova*LI, Sablukov SM, Verichev EM and Antonov AV |
GROSPYDITE XENOLITHS FROM GRIB PIPE KIMBERLITES (ARKHANGELSK PROVINCE, RUSSIA) |
| 10 |
146 |
Bovkun*AV, Biller AY, Skvortsova VL, Garanin VK |
POLYPHASE HYDROCARBON INCLUSIONS IN GARNET FROM THE MIR PIPE (YAKUTIA, RUSSIA) |
| 11 |
185 |
Malkovets1* VG, Griffin2 WL, Pokhilenko1 NP, O’Reilly2 SY, Dak3 AI, Tolstov4 AV, Serov4 IV, Bazhan1 IS, Kuzmin1,5 DV |
LITHOSPHERE MANTLE STRUCTURE BENEATH THE NAKYN KIMBERLITE FIELD, YAKUTIA |
| 12 |
195 |
Robles-Cruz*aSE, GalíaS, EscayolabM, and MelgarejoaJC |
HETEROGENEOUS MANTLE BENEATH
THE LUNDA AREA IN ANGOLA |
| 13 |
210 |
Dalla Costa*MM1, Santos RV1, Araújo DP1, Gaspar JC1 |
OCCURRENCE OF GARNETS WITH ECLOGITIC AND LHERZOLITIC COMPOSITIONS IN GARNET LHERZOLITE XENOLITH FROM THE CANASTRA-01 KIMBERLITE, BRAZIL |
| 14 |
224 |
Kafino*CV, Brod JA, Brod TCJ, Freitas NM. |
MINERAL CHEMISTRY OF MANTLE XENOLITHS FROM KAMAFUGITE DIATREMES IN THE GOIAS ALKALINE PROVINCE, BRAZIL |
| 15 |
233 |
Ashchepkov IV*, Ntaflos T, Pokhilenko LN, Ionov DA Vladykin NV, Kuligin SS, Mityukhin SI, Palessky SV |
MANTLE STRUCTURE BENEATH UDACHNAYA PIPE RECONSTRUCTED BY FRESH MANTLE XENOLITHS FROM BROWN BRECCIA |
| 16 |
234 |
Ashchepkov IV*, Downes H, Mitchell R, Vladykin NV, Vladykin NV, Palessky SV |
MANTLE LITHOSPHERE BENEATH WYOMING BASED ON SLOAN AND KELSEY LAKE - I KIMBERLITE XENOCRYSTS |
| 17 |
235 |
Rezvukhin1 DI, Malkovets1 VG, Gibsher1* AA, Kuzmin1,3 DV, Griffin2 WL, Pokhilenko1 NP, O’Reilly2 SY |
MINERAL INCLUSIONS IN PYROPES FROM SOME KIMBERLITE PIPES OF YAKUTIA |
| 18 |
354 |
Snyder1, DB, Berman1, RG, Kendall2, J-M, & Sanborn-Barrie1,M |
SEISMIC ANISOTROPY AND MANTLE STRUCTURE OF THE RAE CRATON, CENTRAL CANADA, FROM JOINT INTERPRETATION OF SKS SPLITTING AND RECEIVER FUNCTIONS |
|
| ORIGIN, EMPLACEMENT AND EVOLUTION OF KIMBERLITES AND RELATED ROCKS |
| 1 |
57 |
Pokhilenko*LN, Alifirova TA and Yudin DS |
40AR/39AR DATING OF PHLOGOPITE OF MANTLE XENOLITHS FROM KIMBERLITE PIPES OF YAKUTIA: EVIDENCE FOR DEEP ANCIENT METASOMATISM OF THE SIBERIAN PLATFORM |
| 2 |
94 |
Mitchell*, RH, Scott Smith, BH, and Skinner,EMW |
MINERALOGY OF MAGMACLASTS AND INTERCLAST
MATRICES OF KIMBERLEY-TYPE PYROCLASTIC
KIMBERLITES FROM THE KAO, LETSENG-LA-TERAE,
LETHLAKANE AND PREMIER KIMBERLITE PIPES IN
SOUTHERN AFRICA
|
| 3 |
107 |
1Phillips* D, 1Giuliani A, 2Jelsma H and 2Joy S |
40AR/39AR ANALYSES OF KELYPHITE: A NEW APPROACH FOR DATING KIMBERLITES AND RELATED ROCKS |
| 4 |
115 |
Litasov*KD, Shatskiy A, Ohtani E |
MELTING OF PERIDOTITE AND ECLOGITE COEXISTING WITH REDUCED C-O-H FLUID AT 3-16 GPA: FURTHER CONSTRAINTS FOR REDOX MELTING MODELS |
| 5 |
120 |
Luchs*T, Brey GP, Gerdes A, Hoefer HE |
LU-HF AND SM-ND GEOCHRONOLOGY AND GEOTHERMOBAROMETRY OF THE LITHOSPHERIC MANTLE BENEATH THE GIBEON KIMBERLITE FIELD, NAMIBIA |
| 6 |
128 |
Shatskiy*A 1,2, Litasov KD 1,2, Ohtani E 1 |
SEGREGATION RATE AND TRANSPORT MECHANISM OF VOLATILE-BEARING MELT IN THE DEEP MANTLE |
| 7 |
163 |
Brett*RC1, Russell JK2, and Andrews G3 |
KIMBERLITE ASCENT: CHRONICLES OF OLIVINE |
| 8 |
172 |
Sharygin IS, Golovin* AV, Pokhilenko NP |
DJERFISHERITE IN KIMBERLITE-HOSTED MANTLE XENOLITHS: TEXTURAL FEATURES, COMPOSITION AND ORIGIN |
| 9 |
191 |
Chesler*R, Hergt J, Woodhead J and Phillips D |
GEOCHEMISTRY AND GEOCHRONOLOGY OF TANZANIAN KIMBERLITES |
| 10 |
193 |
Heaman LM*1, Grütter HS2, Pell J3, Holmes P3, and Grenon H3 |
U-PB GEOCHRONOLOGY, SR- AND ND-ISOTOPE COMPOSITIONS OF GROUNDMASS PEROVSKITE FROM THE CHIDLIAK AND QILAQ KIMBERLITES, BAFFIN ISLAND, NUNAVUT |
| 11 |
229 |
Barbosa* ESR1,2, Brod JA1,2,3, Junqueira-Brod TC1,3, Cordeiro PFO2,3, Santos RV2,3, Dantas EL2,3 |
PHOSCORITES FROM THE SALITRE ALKALINE COMPLEX, BRAZIL: ORIGIN AND PETROGENETIC IMPLICATIONS |
| 12 |
243 |
M. Felgate*, J. Hergt, D. Phillips, J. Woodhead |
THE BRAZILIAN KIMBERLITE-KAMAFUGITE ASSOCIATION: A NEW AND IMPROVED GEOCHRONOLOGICAL AND GEOCHEMICAL INVESTIGATION |
| 13 |
246 |
Fulop, A.1, Kurszlaukis, S.1 & Winter, F.2 |
FACTORS CONTROLLING THE INTERNAL FACIES ARCHITECTURE OF KIMBERLITE PIPES |
| 14 |
251 |
Kjarsgaard BA |
KIMBERLITE PIPE MODELS: SIGNIFICANCE FOR EXPLORATION |
| 15 |
277 |
Lokhov K.I.*, Lukyanova L.I.**, Lepekhina E.N.**, Kapitonov I.N.**, Antonov A.V.**, Polekhovsky Yu.S.*,Afanas’eva Z.L.*, Bogomolov E.S.***, Sergeev S.A.** |
U-PB AND LU-HF ISOTOPIC SYSTEMS IN ZIRCONS AND HF-ND ISOTOPIC SYSTEMATIZATION OF THE KIMOZERO KIMBERLITES (KARELIA) |
| 16 |
280 |
Lokhov K.I.*, Lukyanova L.I.**, Kapitonov I.N.**, Lepekhina E.N.**, Antonov A.V.**, Shokalsky S.P.**, Sergeev S.A.** |
U-PB AND LU-HF ISOTOPIC SYSTEMS IN ZIRCONS FROM SOME KIMBERLITES OF THE SIBERIAN PLATFORM AND FROM EBELIAKH ALLUVIAL DEPOSIT: AGE AND GEOCHEMIC PECULIARITIES OF THE SOURCE ROCKS. |
| 17 |
293 |
Barbosa* ESR1,2,3, Brod JA1,2,3, Junqueira-Brod TC1,3, Cordeiro PFO2,3, Dantas EL2,3, Santos RV2, 3 |
MINERALOGY AND PETROLOGY OF THE SALITRE I PHOSCORITE-CARBONATITE-ALKALINE COMPLEX, BRAZIL |
| 18 |
295 |
Antonov1* AV, Lepekhina1 EN, Belyatsky2 BV and Lehmann3 B |
KIMBERLITIC ZIRCON: RESULTS OF MAGMA INTERACTION |
| 19 |
297 |
Ogilvie-Harris, RC1*, Brooker, RA1, Sparks, RSJ1 and Walter, MJ1 |
AN EXPERIMENTAL INVESTIGATION OF THE CARBONATITE-KIMBERLITE MELT |
| 20 |
299 |
O’Brien* HE, Birnie AC and Spencer RG |
DIAMONDIFEROUS MEGACRYSTAL GARNET AND ORTHOPYROXENE FROM LIQHOBONG, LESOTHO |
| 21 |
361 |
L. Melluso1, Rajesh K. Srivastava2*, C.M. Petrone3, V. Guarino1, A.K. Sinha2 |
PALAEOPROTEROZOIC ULTRAMAFIC LAMPROPHYRES AND ASSOCIATED CARBONATITES FROM THE MAHAKOSHAL SUPRACRUSTAL BELT, CENTRAL INDIA: EVIDENCE FOR A CARBONATE-RICH METASOMATISED MANTLE
|
| 23 |
372 |
Gernon TM, Brown RJ, Tait M, Hincks TK |
The origin of pelletal lapilli in explosive kimberlite eruptions |
|
| PETROLOGY AND GEOCHEMISTRY OF METASOMATISED LITHOSPHERIC MANTLE MAGMAS |
| 1 |
74 |
Yaxley GM1*, Berry AJ2, Kamenetsky VS3, Woodland AB4, Paterson D5, de Jong MD5 and Howard DL5 |
APPLICATION OF Fe K-EDGE XANES DETERMINATIONS OF Fe3+/∑Fe IN GARNET TO PERIDOTITE XENOLITHS FROM THE UDACHNAYA KIMBERLITE |
| 2 |
85 |
Solov’eva*LV, Kostrovitsky SI, Yasnygina TA |
FLUID AND MAGMA TRANSFER IN SUBCONTINENTAL LITHOSPHERICMANTLE OF THE SIBERIAN CRATON AND ITS GEOCHEMICAL EVOLUTION |
| 3 |
89 |
Kostrovitsky SI, Gornova MA, Solovyeva LV, Yakovlev DA |
ISOTOPE HETEROGENEITY FROM OXYGEN IN ROCKS OF LITHOSPHERE MANTLE |
| 4 |
114 |
Litasov*KD 1,2, Shatskiy A 1,2, Ohtani E 1, Pokhilenko NP 2 |
MELTING PHASE RELATIONS IN THE SYSTEMS PERIDOTITE-H2O-CO2 AND ECLOGITE-H2O-CO2 AT PRESSURES UP TO 27 GPA |
| 5 |
117 |
Giuliani* A, Kendrick MA and Phillips D |
HALOGEN AND AR GEOCHEMISTRY OF METASOMATIC MANTLE XENOLITHS FROM THE BULTFONTEIN PIPE (KIMBERLEY DISTRICT, SOUTH AFRICA) |
| 6 |
118 |
Kiseeva1*ES, Litasov2,3KD, Yaxley1GM, Ohtani2E |
CARBONATED ECLOGITE AT 3.5-5.5 GPA – THE EFFECT OF THE CAPSULE MATERIAL ON SOLIDUS TEMPERATURES |
| 7 |
130 |
Sablukov SM |
TA-SC DIAGRAM, THE UNIVERSAL DISCRIMINATION DIAGRAM FOR GEOCHEMICAL CLASSIFICATION OF THE KIMBERLITIC ROCKS |
| 8 |
143 |
Golubkova*A and Schmidt MW |
THE ROLE OF SEDIMENT DERIVED CARBONATITIC MELTS IN THE ORIGIN OF CARBONATED K-RICH MANTLE DOMAINS |
| 9 |
157 |
Sirotkina*EA, Bobrov AV, Garanin VK, Bovkun AV, Shkurskii B.B. and Korost DV |
EXSOLUTION TEXTURES IN MAJORITIC GARNETS FROM THE MIR KIMBERLITE PIPE (YAKUTIA, RUSSIA) |
| 10 |
178 |
Spetsius ZV1* and Kamenetsky VS2 |
MAPPING OF MINERAL PHASES AROUND DIAMONDS IN ECLOGITE XENOLITHS FROM THE UDACHNAYA KIMBERLITE PIPE (YAKUTIA): REMARKS TO THEIR METASOMATIC GENESIS |
| 11 |
179 |
Maibam B. |
MINERAL CHEMISTRY OF THE PERIDOTITES FROM THE NAGA OPHIOLITE BELT, NORTHEASTERN INDIA AND THEIR PETROLOGICAL SIGNIFICANCE |
| 12 |
188 |
Gibsher1* AA, Malkovets1 VG, Griffin2 WL, O’Reilly2 SY |
PETROGENESIS OF COMPOSITE XENOLITHS FROM ALKALINE BASALTS (WEST SANGILEN, RUSSIA) |
| 13 |
197 |
Nikolenko* EI, Afanasiev VP, Chepurov AI |
FE-RICH ILMENITE AND KIMBERLITE MELT INTERACTION, EXPERIMENTAL RESEARCHES |
| 14 |
227 |
Tychkov* NS, Agashev AM, Pokhilenko NP |
REFERTILISATION GRADE ESTIMATION OF LITHOSPHERE ROOTS BY THE CHEMICAL COMPOSITION OF GARNETS FROM SIBERIAN KIMBERLITES |
| 15 |
288 |
Shu* Q; Brey GP; Gerdes A; Hoefer HE |
ULTRA-DEPLETED ECLOGITES: RESIDUES OF TTG MELTING |
| 16 |
312 |
Preston, R. F.1, Wyatt, B. A.2 and Perritt, S.1 |
LITHOSPHERIC STRUCTURE BENEATH THE CRETACEOUS ORAPA KIMBERLITE FIELD, BOTSWANA: 4D LITHOSPHERE IMAGING USING GARNET INDICTOR MINERAL CHEMISTRY |
| 17 |
341 |
Bhaskara Rao* KS1, Patel SC2, Ravi S3, Akhtar J2 |
CLINOPYROXENE MACROCRYSTS IN PROTEROZOIC KIMBERLITES FROM SOUTHERN INDIA |
| 18 |
342 |
Nayak* SS1, Ravi S2, Patel SC3, Akhtar J3 |
ILMENITE MACROCRYSTS IN PROTEROZOIC KIMBERLITES FROM SOUTHERN INDIA |
| 19 |
363 |
Parijat Roy and Vysetti Balaram |
PGE GEOCHEMISTRY OF DIAMONDIFEROUS AND NON-DIAMONIDFEROUS KIMBERLITES FROM EASTERN DHARWAR CRATON, SOUTHERN INDIA: IMPLICATION FOR UNDERSTANDING THE NATURE OF MANTLE BELOW DHARWAR. |
| 20 |
364 |
McInnes BIA1,2*, Evans NJ1,2, Jourdan F2, McDonald BJ1,2, Danišík, M3 and Mayers C1,2 |
ZIRCON U-TH-PB-HE DOUBLE-DATING OF NORTH AUSTRALIAN DIAMOND FIELDS: ELLENDALE (WA), SEPPELT (WA) AND MERLIN (NT) |
| 21 |
366 |
Srivastava1* RK, Melluso L2, Petrone3 CM, Guarino2 V, Sinha2 AK |
EVOLUTION OF THE EARLY CRETACEOUS ALKALINE JASRA COMPLEX, SHILLONG PLATEAU, NORTHEASTERN INDIA |
| 22 |
367 |
Smelov *AP and Zaitsev *AI |
THE AGE AND LOCALIZATION OF KIMBERLITE MAGMATISM IN THE YAKUTIAN KIMBERLITE PROVINCE - CONSTRAINTS FROM ISOTOPE GEOCHRONOLOGY |
| 23 |
285 |
Brey*GP1, Luchs T1, Shu Q1, Lazarov M1, 2, Becker H 3 |
COMBINED TRACE ELEMENT, SM-ND, LU-HF- AND RE-OS STUDIES CONSTRAIN THE AGE, ORIGIN AND THE DEVELOPMENT OF THE KAAPVAAL SUBCRATONIC MANTLE |
|
| DIAMONDS |
| 1 |
36 |
Smith* CB1, Bulanova GP1, Walter MJ1, Kohn SC1, Mikhail S2,3, Gobbo L4 |
ORIGIN OF DIAMONDS FROM THE DACHINE ULTRAMAFIC, FRENCH GUYANA |
| 2 |
52 |
Mainkar* D1, Gupta T2, Patel SC2, Lehmann B3, Diwan P4, Kaminsky FV5, Khachatryan GK5 |
PHYSICAL AND INFRARED CHARACTERISTICS OF DIAMONDS FROM BEHRADIH KIMBERLITE, BASTAR CRATON, INDIA |
| 3 |
65 |
Kriulina GY, Vasiliev EA, Garanin* VK, Garanin KV |
DIAMONDS STRUCTURAL CHARACTERISTICS FROM DIFFERENT PETROCHEMICAL TYPES OF KIMBERLITES |
| 4 |
89 |
Y. Weiss, I. Kiflawi, W.L. Griffin and O. Navon |
FLUID MICROINCLUSIONS IN MONOCRYSTALLINE DIAMONDS |
| 5 |
95 |
Zhang *Z1, 2, Fedortchouk *Y1 |
DIAMOND DISSOLUTION IN THE MANTLE: LINKS WITH METASOMATISM |
| 6 |
96 |
SkvortsovaVL*1, PetrovskyVA2, KriulinaGY1 |
“SHELLS” (IMPRINTS) OF DIAMOND IN KIMBERLITE |
| 7 |
97 |
Smith* CB1, Bulanova GP1, Presser, J.L.B.2, |
DIAMONDS FROM CAPIIBARY, PARAGUAY |
| 8 |
102 |
Smith EM1*, Kopylova MG1, Nowell GM2, Pearson DG3, Ryder J4, Afanasiev VP5, and Beeby, A2 |
THE CONTRAST IN TRACE ELEMENT CHEMISTRY AND VOLATILE COMPOSITION BETWEEN FLUID INCLUSIONS IN FIBROUS AND OCTAHEDRAL DIAMONDS |
| 9 |
121 |
Chapman J.1*, De Corte K.2, Van Royen J.2, Willems B.2 |
FTIR FEATURES IN ARGYLE, DIAVIK AND MUROWA DIAMONDS |
| 10 |
150 |
Hunt L.1*, Marcheggiani-Croden V.1, Stachel T.1, Muehlenbachs K.1 and Eichenberg D.2 |
POLYCRYSTALLINE AND FIBROUS DIAMONDS FROM THE DIAVIK DIAMOND MINE, CANADA |
| 11 |
155 |
Bobrov*AV, Litvin YA and Ismailova LS |
DIAMOND-FORMING EFFICIENCY OF CHLORIDE-SILICATE-CARBONATE MELTS: THE ROLE OF CHLORIDES |
| 12 |
161 |
Kriulina*GY, Makeyev AB |
METAL FILMS ON THE SURFASE AND IN THE INTERNAL STRUCTURE OF DIAMONDS FROM RUSSIAN AND WORLD DIAMONDIFEROUS PROVINCES |
| 13 |
175 |
Kiflawi I, Weiss Y and Navon*O |
THE IR ABSORPTION SPECTRUM OF WATER IN MICROINCLUSIONS IN DIAMONDS |
| 14 |
176 |
Rubanova a* EV, Griffina WL, Piazoloa S, O’Reillya SY, Stachelb T, Sternb R, Birniec AC |
GEOCHEMISTRY AND MICROSTRUCTURE OF DIAMONDITES |
| 15 |
184 |
Hutchison*MT1, Dale CW, Nowell GM2 and Pearson DG3 |
AGE CONSTRAINTS ON ULTRA-DEEP MANTLE PETROLOGY SHOWN BY JUINA DIAMONDS |
| 16 |
203 |
D.F.Wiggers de Vries*1, J.W. Harris2, D.G. Pearson3, G.R. Davies*1 |
RE-OS ISOTOPE CONSTRAINTS ON THE AGES OF DIAMONDS FROM MWADUI, TANZANIA |
| 17 |
212 |
Gaillou* E, Shirey SB, Bulanova GP, Marks B, Smith CB, Wang J, Kohn SC, Walter MJ. |
SULFIDE INCLUSION RE-OS AGES AND CARBON, NITROGEN OF DIAMONDS FROM THE MUROWA KIMBERLITES: IMPLICATIONS FOR ZIMBABWE CRATON EVOLUTION |
| 18 |
244 |
Yelisseyev AP, Afanasiev VP, Kopylova MG, Bulbak TA |
THE EFFECT OF METAMORPHIC ANNEALING AND BETAIRRADIATION IN OPTICAL PROPERTIES OF TYPE IaA
DIAMONDS |
| 19 |
228 |
Fedorova EN, Logvinova*AM, Mashkovtsev RI, Sobolev NV |
INTERNAL STRUCTURE AND COLOR OF THE NATURAL PLASTICALLY DEFORMED DIAMONDS FROM THE INTERNATSIONALNAYA KIMBERLITE PIPE (YAKUTIA) |
| 20 |
242 |
Nestola F1, Nimis*P1 and Harris JW2 |
CRYSTALLOGRAPHIC RELATIONSHIPS BETWEEN DIAMOND AND ITS OLIVINE INCLUSIONS |
| 21 |
271 |
Araújo*DP1 Silveira FV2, Weska RK2, Rachid F1, Neto FEB1, Ireland T4, Holden P4 and Gobbo L5 |
DIAMONDS FROM THE SÃO FRANCISCO AND AMAZON CRATONS, BRAZIL |
| 22 |
189 |
Ben Hartea and Steve Richardson |
DIAMONDS FROM JUINA, BRAZIL, TRAK THE EVOLUTION OF A SUBDUCTED MANTLE. |
| 23 |
51 |
Spetsius Z.V., Kovalchuck O.E. and Bogush I.N. |
PROPERTIES OF DIAMONDS IN XENOLITHS FROM KIMBERLITES OF YAKUTIA: IMPLICATION TO THEIR ORIGIN AND EXPLORATION |
| 24 |
218 |
Bulanova* GP, Marks A., Smith CB, Kohn SC, Walter MJ, Gaillou E, Shirey SB. Trautman R. and Griffin B.J |
DIAMONDS FROM SESE AND MUROWA KIMBERLITES (ZIMBABWE)– EVIDENCE OF EXTREME PERIDOTITIC LITHOSPHERE DEPLETION AND Ti-REE METASOMATISM. |
| 25 |
220 |
Bulanova GP.*, Wiggers de Vries DF., Beard A., Pearson DG., Mikhail S.5, Smelov AP., Davies GR. |
TWO-STAGE ORIGIN OF ECLOGITIC DIAMONDS RECORDED BY A SINGLE CRYSTAL FROM THE MIR PIPE (YAKUTIA) |
|
| DIAMOND EXPLORATION, MINING AND SUSTAINABLE DEVELOPMENTS |
| 1 |
21 |
Ustinov V.N. |
DIAMOND-BEARING TERRIGENOUS ROCKS:
KEY ROLE IN PREDICTION AND EXPLORATION OF
BURIED DEPOSITS
|
| 2 |
67 |
A. M. Lyukhin |
The way of diamond placers of South-West Africa came into being |
| 3 |
71 |
Davies* R and Davies AW |
KIMBERLITE INDICATOR MINERALS AND “LATERITE”, CANADIAN ARCTIC |
| 4 |
79 |
Kupsch* BG and Armstrong JP |
EXPLORATION AND GEOLOGY OF THE QILALUGAQ KIMBERLITES, RAE ISTHMUS, NUNAVUT, CANADA |
| 5 |
103 |
Grütter HS*1, Gerdes A2, Marko L2 and Heaman LM3 |
U-PB GEOCHRONOLOGY OF PEROVSKITE AND ZIRCON FROM THE CHIGICHERLA KIMBERLITES, ANANTAPUR DISTRICT, INDIA |
| 6 |
106 |
Nikiforova AYu |
NEW DATA ABOUT TYPOCHEMISM OF GARNETS FROM VARIOUS PRODUCTIVITY KIMBERLITES OF THE YAKUTIAN DIAMONDIFEROUS PROVINCE |
| 7 |
108 |
Korobkov* IG, Novopashin AV, Evstratov AA |
VOLCANIC-TECTONIC STRUCTURES OF WESTERN YAKUTIA AND THEIR ROLE IN FORMATION OF HIGH-DIAMONDIFEROUS KIMBERLITES |
| 8 |
109 |
Bessmertnyy* SF, Shishmarev RA |
STUDYING SPECIFIC FEATURES OF DALDYN-ALAKIT DIAMONDIFEROUS REGION CONSOLIDATED CRUST STRUCTURE ACCORDING TO REGIONAL SEISMIC DATA
BY CMP METHOD AND ELECTRICAL PROSPECTING
BY MT SOUNDING |
| 9 |
113 |
de Bruin* D1 and Gräser P2 |
QUALITY CONTROL PROCEDURES APPLIED TO ROUTINE ELECTRON PROBE ANALYSES OF KIMBERLITE INDICATOR MINERALS |
| 10 |
134 |
O’Brien* HE and Spencer RG |
LEMPHANE KIMBERLITE DIAMOND PROJECT: PETROLOGY UPDATE |
| 11 |
136 |
Macdonald*AI and Napier S2 |
CHEMICAL AND TEXTURAL CHARACTERISATION OF NON-KIMBERLITIC CHROMIAN SPINEL POPULATIONS FROM DIAMOND EXPLORATION PROGRAMMES |
| 12 |
162 |
Neilson* S1, Grütter H2, Pell J1, Grenon H1 |
THE EVOLUTION OF KIMBERLITE INDICATOR MINERAL INTERPRETATION ON THE CHIDLIAK PROJECT, BAFFIN ISLAND, NUNAVUT |
| 13 |
165 |
Dyakonov DB, Garanin VK, Garanin*KV, Bushueva EB, Enalieva MA, Vvedensky ES |
SEARCHING FOR NEW DIAMOND DEPOSITS IN WESTERN LIBERIA |
| 14 |
170 |
Armstrong JP1*, Fitzgerald C1, Kjarsgaard BA2, Heaman L3, Tappe S3 |
KIMBERLITES OF THE CORONATION GULF FIELD, NORTHERN SLAVE CRATON, NUNAVUT CANADA |
| 15 |
182 |
Hutchison*MT |
DIAMOND EXPLORATION AND PROSPECTIVITY OF THE NORTHERN TERRITORY OF AUSTRALIA |
| 16 |
273 |
Weska* RK1, Brod JA2 , Dantas EL3, Araújo DP3 |
MINERAL CHEMISTRY OF GARNETS AND ILMENITES OF THE PEPPER-1 AND COSMOS-3 INTRUSIONS, ESPIGÃO D’OESTE, RONDÔNIA, BRAZIL |
| 17 |
208 |
A.V. Bovkun, D.A. Varlamov, V.K. Garanin, A.V. Lapin |
OXIDES FROM GROUNDMASS ROCKS OF THE MAJHGAWAN PIPE (CENTRAL INDIA) |
| 18 |
296 |
Silveira*FV1, Britto RS1, Matos L1 and Araujo DP2 |
DIAMANTE BRASIL PROJECT |
| 19 |
300 |
McNulty*, WK and O’Brien, HE |
SEITAPERÄ GROUP II KIMBERLITE/OLIVINE LAMPROITE: LARGE 1200 MA DIAMONDIFEROUS PIPE IN KUHMO, EASTERN FINLAND |
| 20 |
301 |
P. Strand (1), A. Banas (2), Jennifer Burgess (3), M. Baumgartner (4) |
TWO DISTINCT KIMBERLITE TYPES AT THE CHURCHILL DIAMOND PROJECT, NUNAVUT, CANADA |
| 21 |
357 |
JANSE AJA |
DIAMOND PRODUCTION AND DISCOVERIES OVER THE LAST FIFTEEN YEARS |
| 22 |
374 |
Castillo-Oliver* M, Galí S, Gonçalves AO, Melgarejo JC |
USE OF INDICATOR MINERALS IN DIAMOND EXPLORATION: A COMPARISON BETWEEN BARREN AND FERTILE KIMBERLITES IN ANGOLA |
| |
