Pétrologie et géochimie de matériaux carbonés et des minéralisations associées en zone de subduction / Petrology and geochemistry of carbonaceous materials and associated mineralization in subduction zone

Galvez, Matthieu

12 December 2011

Le carbone est un élément essentiel à la surface de la Terre. Il entre aussi bien dans la composition de certains minéraux (carbonates) que dans les molécules du vivant. Les roches métamorphiques contiennent également des matériaux carbonés (MC) dont l’origine peut être variée. Les MC sous forme solide (matériaux carbonés partiellement ou parfaitement graphitisés) jouent un rôle majeur dans l’évolution pétrologique et géochimique d’une roche enfouie en zone de subduction. Si notre connaissance des MC métamorphiques a largement progressée ces dernières années sur la base d’études naturalistes, expérimentales ou théoriques, il reste de nombreuses questions par exemple autour de la détermination des sources des MC dans les roches métamorphiques. Le rôle des minéralisations en tant que facteur de préservation des MC d’origine biologique (biogénique) est encore mal compris. Nous avons étudié des échantillons naturels (formation Marybank, Nouvelle Zélande) métamorphisés dans le facies schiste bleu et contenant des fossiles végétaux graphitisés et montrant une remarquable préservation morphologique. Nous dressons ainsi un inventaire des processus minéralogiques et chimiques ayant contribué à préserver, ou oblitérer, certaines informations portées par le matériau biologique originel, et plus généralement par le fossile. Pour ce faire, nous avons employé des techniques de caractérisation minéralogiques et géochimiques à haute résolution spatiale des MC fossiles et des minéraux. Nous montrons ainsi que la remarquable préservation morphologique s’accompagne d’une recristallisation avancée de la minéralogie et des MC constituant le fossile. Nous mettons aussi en évidence la présence spectaculaire de nanoparticules de TiO2 dans les MC des fossiles et nous discutons des mécanismes possibles de formation de ces minéralisations exceptionnelles.Il existe des mécanismes complexes, abiotiques, fortement liés aux interactions fluide-roche et permettant la formation de MC graphitiques dans les roches métamorphiques. Ces processus rendent complexe l’étude et l’interprétation des MC dans les roches. Toutefois, ils révèlent le rôle majeur des fluides et des assemblages minéraux dans la dynamique métamorphique du carbone. Nous avons réalisé l’étude détaillée d’un contact entre des serpentinites et des métasédiments (Malaspina, Corse Alpine) au niveau duquel les métasédiments sont décarbonatés. A cause des conditions réductrices imposées par les serpentinites sous-jacentes, le carbone inorganique ainsi libéré précipite sous forme de graphite. Nous employons des méthodes géochimiques, minéralogiques et pétrologiques complémentaires qui permettent de distinguer différentes catégories de matériaux carbonés dans ces roches, mais aussi de proposer un scénario bien contraint de formation abiotique du graphite. Cette étude permet alors de discuter du rôle des gradients redox sur la dynamique du carbone dans une roche métamorphique. L’ensemble de ces travaux sont autant d’exemples qui soulignent certains aspects encore peu explorés du rôle pétrologique fondamental des MC dans les roches métamorphiques. / Carbon is an essential element on the Earth’s surface. It is involved in the formation of certain minerals (carbonates) as well as biomolecules. Metamorphic rocks also contain carbonaceous materials (CM) with various possible origins. Solid CM (partially or completely graphitized CM) play a major role in the petrological and geochemical evolution of a subducted rock. If our knowledge of metamorphic CM increased over the last years based on naturalist, experimental or theoretical studies, many issues remain as to the source of CM in metamorphic rocks for example.The role of mineralization as a factor of preservation of CM of biological origin (biogenic) is still poorly understood. We studied natural samples (Marybank formation, New Zealand) metamorphozed in the blueschist facies and which contain carbonaceous plant fossils that display a remarkable morphological preservation at the microscopic scale. We investigate mineralogical and chemical processes that contributed to preserve, or obliterate, information carried by the original biomaterial, and, more generally, by the fossil. To do so, we have characterized the fossils and the minerals using analytical technics with high special resolution. We show that the remarkable morphological preservation is accompanied by the advanced recristallization of the mineralogy compositing the fossils. We also show the presence of spectacular TiO2 mineral nanocristals in the CM composing the fossils and we discuss about possible mechanisms leading to the formation of these exceptional mineralizations.Complex abiotic processes, intimately linked to fluid-rock interactions, allow the formation of graphitic CM in metamorphic rocks. These processes hinder the study and interpretation of CM in rocks. Nevertheless, they also reveal the major role of fluids and mineral assemblages in the metamorphic dynamics of carbon. We carried a detailed study of a contact between serpentinites and metasediments (Malaspina, Alpine Corsica) that display complete carbonate destabilization. Because of the reduced conditions imposed by the underlying serpentinite, the inorganic carbon released has precipitated and formed graphite. We use geochemical, mineralogical and petrological complementary tools that allow to distinguish different categories of CM in these rocks, and we propose a well constrained scenario for the formation for this abiotic graphite. This study allows discussing the role of redox gradients on the dynamics of carbon in a metamorphic rock.These are all examples stressing the important, and yet poorly explored, petrological role of CM in metamorphic rocks.

Matériaux carbonés

Métamorphisme

Interactions fluide-roche

Fossilisation

Carbonaceous materials

Metamorphism

Fluid-rock interactions

Fossilization

Mechanizmy frakturace a vzniku žil na ložisku Mokrsko / Mechanisms of fracturing and origin of veins on Mokrsko deposit

Švagera, Ondřej

January 2014

Locality Mokrsko-west is located inside the Josef mining gallery and belongs to the ore district Psí Hory Mountains, known for its high content of micro-granular gold (~ 100 g/t). It is situated within the apophysis of Sázava tonalite, which is a part of Central Bohemian Plutonic Complex, located southerly from Prague. Besides other structural elements, the whole locality contains the network of sheeted quartz veinlets, which is the aim of this thesis. Data from vectorization and image analysis of the photographic documentation from the gallery and electron microscope has been used. The statistical approach has been used to quantify proportions of mineral phases within the quartz veinlets, their cumulative spacing and fractal distribution. Image analysis confirmed the presence of K-feldspathic metasomatism which affects the plagioclase grains. It forms rims on the edges of the quartz veinlets. The proportional relationship of K-feldspar and quartz within the veinlets wasn't confirmed. It's therefore possible that they were two separate processes of the uncertain time relation. Transfer from the lognormal distribution in histograms of vein spacing in drill-cores to the more normal distribution of the veinlets in the gallery walls was observed. Results from the cumulative spacing analysis confirmed...

Patterns of distal alteration zonation around Antamina Cu-Zn skarn and Uchucchacua Ag-base metal vein deposits, Peru : mineralogical, chemical and isotopic evidence for fluid composition, and infiltration, and implications for mineral exploration

Escalante Aramburu, Abraham David

11 1900

Intrusion-related, carbonate rock–hosted replacement deposits are an important source of global base metal production that includes: Cu-Zn skarn, Zn-Pb-Ag carbonate replacement and Ag-base metal deposits. These deposits are located in multiple geological settings and are commonly associated with low-grade Cu-Mo calc-alkaline porphyry districts. Visible alteration halos to these deposits range from ten to hundreds of metres around high temperature skarn deposits, being small to imperceptible around the distal relatively low temperature members of this clan. Patterns of visible and cryptic alteration are described and constrained in this study particularly around paleo-fluid flow zones at different distances and elevations from the ore centre. This was done in order to identify the large-scale zonation, mechanisms, and effects of fluid infiltration especially into the distal portions of these deposits. The main alteration tracers employed included mineralogy, major and trace element geochemistry, oxygen and carbon isotopes, and the fluorescent signature of calcite veins associated with the fluids conduits. Two areas were selected for this study: the large Cu-Zn Antamina skarn and the Ag-base metal Uchucchacua vein deposits in the Peruvian Central Andes as these deposits represent the end-members of the polymetallic carbonate rock-hosted deposits and hence, provide an excellent opportunity to examine the margins and upper sections of these hydrothermal systems. Geochronological analyses of intrusive dikes were used to establish the magmatic and hydrothermal evolution associated with mineralization, as well as the genetic linkage between proximal and distal portions of the mineralizing system at Antamina. Oxygen, carbon and strontium isotope data of vein minerals is also used to constrain the temperature of the fluids proximal and distal to the magmatic centre. Chemical data of fluorescent and non-fluorescent veins were used to determine the main activators of fluorescence and to constrain its relationship with mineralizing fluids. In summary, results of this research identify a large-scale zonation of visible and cryptic alteration around paleo-fluid flow zones demonstrating the linkage between Ag-base metal veins, replacement and skarn deposits. Anomalous halos determined throughout Antamina and Uchucchacua deposits may contribute to the development of a more systematic exploration methodology for these types of deposits.

Distal alteration

Geochemical halos

Oxygen and carbon isotopes

UV fluorescence

Mineral exploration Peru

Fluid-rock interactions

Linkages

Antamina and Uchucchacua fluid sources

Patterns of distal alteration zonation around Antamina Cu-Zn skarn and Uchucchacua Ag-base metal vein deposits, Peru : mineralogical, chemical and isotopic evidence for fluid composition, and infiltration, and implications for mineral exploration

Escalante Aramburu, Abraham David

11 1900

Intrusion-related, carbonate rock–hosted replacement deposits are an important source of global base metal production that includes: Cu-Zn skarn, Zn-Pb-Ag carbonate replacement and Ag-base metal deposits. These deposits are located in multiple geological settings and are commonly associated with low-grade Cu-Mo calc-alkaline porphyry districts. Visible alteration halos to these deposits range from ten to hundreds of metres around high temperature skarn deposits, being small to imperceptible around the distal relatively low temperature members of this clan. Patterns of visible and cryptic alteration are described and constrained in this study particularly around paleo-fluid flow zones at different distances and elevations from the ore centre. This was done in order to identify the large-scale zonation, mechanisms, and effects of fluid infiltration especially into the distal portions of these deposits. The main alteration tracers employed included mineralogy, major and trace element geochemistry, oxygen and carbon isotopes, and the fluorescent signature of calcite veins associated with the fluids conduits. Two areas were selected for this study: the large Cu-Zn Antamina skarn and the Ag-base metal Uchucchacua vein deposits in the Peruvian Central Andes as these deposits represent the end-members of the polymetallic carbonate rock-hosted deposits and hence, provide an excellent opportunity to examine the margins and upper sections of these hydrothermal systems. Geochronological analyses of intrusive dikes were used to establish the magmatic and hydrothermal evolution associated with mineralization, as well as the genetic linkage between proximal and distal portions of the mineralizing system at Antamina. Oxygen, carbon and strontium isotope data of vein minerals is also used to constrain the temperature of the fluids proximal and distal to the magmatic centre. Chemical data of fluorescent and non-fluorescent veins were used to determine the main activators of fluorescence and to constrain its relationship with mineralizing fluids. In summary, results of this research identify a large-scale zonation of visible and cryptic alteration around paleo-fluid flow zones demonstrating the linkage between Ag-base metal veins, replacement and skarn deposits. Anomalous halos determined throughout Antamina and Uchucchacua deposits may contribute to the development of a more systematic exploration methodology for these types of deposits.

Distal alteration

Geochemical halos

Oxygen and carbon isotopes

UV fluorescence

Mineral exploration Peru

Fluid-rock interactions

Linkages

Antamina and Uchucchacua fluid sources

Caractéristiques, chronologie et rôles des circulations fluides dans le bassin d'Athabasca et son socle : implications dans la formation et l'évolution du gisement d'uranium de Cigar Lake / Characteristics, chronology and roles of fluid circulations in the Athabasca Basin and its basement : implications for the formation and evolution of the Cigar Lake uranium deposit

Martz, Pierre

13 December 2017

Les principales cibles d'exploration pour les gisements d’uranium de type discordance du bassin d’Athabasca (Canada) sont les structures graphiteuses du socle. Toutes ces structures ne sont pourtant pas fertiles et elles présentent des histoires plus ou moins complexes de circulations fluides successives. Cette thèse propose de déconvoluer les caractéristiques propres à chaque évènement de circulations fluides par une étude multidisciplinaire focalisée sur l’exemple de l’environnement proche du gisement de Cigar Lake. Au cours de l’exhumation tardi-orogénique du socle, la formation de failles ductile-cassantes associées à une circulation intense de fluides à C-O-H-N a permis des enrichissements en graphite et une première évolution pétrophysique des zones endommagées. Ces structures du socle particulièrement fragilisées par la déformation cassante fini-Hudsonienne ont pu être réactivées après dépôt du bassin et devenir des lieux favorables à la convection de saumures sédimentaires. La circulation de saumures sodiques dans le socle a favorisé des interactions fluides-roches à l’origine de la solubilisation de l’uranium, d’altérations K-Mg et d’évolution de composition du fluide vers un pôle plus calcique de plus forte salinité. Enfin une méthodologie d’analyse intégrée des compositions élémentaires majeures, traces et isotopiques U-Pb-O sur oxydes d’uranium est proposée, permettant de déconvoluer les effets des évènements fluides ultérieurs sur la minéralisation primaire. Cinq évènements ont ainsi contribué aux caractéristiques actuelles du gisement de Cigar Lake : Un évènement primaire de circulation de saumures à 1290-1380 Ma, à l’origine de l’ensemble du stock d’uranium ; un événement de circulations fluides à ca. 900 Ma à l’échelle régionale qui n’est pas associé à une reprécipitation d’uranium mais a brechifié et perturbé la chimie des oxydes primaires ; deux évènements tardifs de circulations fluides à ca. 340 et 220 Ma qui ont significativement remobilisé le stock primaire d’uranium. Enfin un dernier épisode récent de circulation d’eaux météoriques est à nouveau à l’origine d’un changement de chimie des oxydes antérieurs et d’une remise à zéro des systèmes isotopiques / The main exploration targets for unconformity-related U deposits of the Athabasca Basin are the graphite-rich structures in the basement. But these are not necessarily fertile. They show distinct features expressing specific events of fluid circulations. This study aims, through a multidisciplinary approach, at unravelling the complex history of fluid flow events recorded in the vicinity of the Cigar Lake deposit. During the basement uplift, at the end of the Trans-Hudson Orogeny, the formation of ductile-brittle shear zones associated to the circulation of C-O-H-N fluids led to hydrothermal graphite enrichments and a petrophysical evolution of damages zones. These graphite-rich shear zones that were specifically weakened by the ante-Athabasca brittle reactivation have been reactivated once more after basin deposition allowing the formation of a developed damage zone especially favorable for sedimentary brine convection. Circulations of NaCl-rich brines in the basement led to brine-rock interactions, and subsequent uptake of uranium and other metals from the basement rocks. The latter have subsequently undergone strong K-Mg alteration whereas the NaCl dominated brines evolved toward a CaCl2-dominated composition with higher salinities. Finally, this thesis sets out an integrated methodology allowing to decipher the complex superimposed geochemical signatures of distinct fluid flow events on the primary uranium oxides. Five fluid flow events contributed to the present day state of the Cigar Lake deposit: a primary event of brine circulation occurred at 1290-1380 Ma and is at the origin of the main U stock; a second basin-scale event of fluid flow occurred at ca. 900 Ma, it brecciated and strongly disturbed the deposit; two later events of fluid flow strongly remobilized the deposit at ca. 340 and 220 Ma and greatly contributed to the actual state of the deposit. Finally a last, rather recent event of fluid flow was at the origin of strong chemical changes in the uranium oxides compositions and strong isotopic resetting

Gisements d’Uranium

Athabasca

Inclusions fluides

Interactions fluides-roches

Uraninite

Graphite

Altération hydrothermale

Uranium deposits

Athabasca

Fluid inclusions

Fluid-rock interactions

Uraninite

Graphite

Hydrothermal alteration

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Patterns of distal alteration zonation around Antamina Cu-Zn skarn and Uchucchacua Ag-base metal vein deposits, Peru : mineralogical, chemical and isotopic evidence for fluid composition, and infiltration, and implications for mineral exploration

Escalante Aramburu, Abraham David

11 1900

Intrusion-related, carbonate rock–hosted replacement deposits are an important source of global base metal production that includes: Cu-Zn skarn, Zn-Pb-Ag carbonate replacement and Ag-base metal deposits. These deposits are located in multiple geological settings and are commonly associated with low-grade Cu-Mo calc-alkaline porphyry districts. Visible alteration halos to these deposits range from ten to hundreds of metres around high temperature skarn deposits, being small to imperceptible around the distal relatively low temperature members of this clan. Patterns of visible and cryptic alteration are described and constrained in this study particularly around paleo-fluid flow zones at different distances and elevations from the ore centre. This was done in order to identify the large-scale zonation, mechanisms, and effects of fluid infiltration especially into the distal portions of these deposits. The main alteration tracers employed included mineralogy, major and trace element geochemistry, oxygen and carbon isotopes, and the fluorescent signature of calcite veins associated with the fluids conduits. Two areas were selected for this study: the large Cu-Zn Antamina skarn and the Ag-base metal Uchucchacua vein deposits in the Peruvian Central Andes as these deposits represent the end-members of the polymetallic carbonate rock-hosted deposits and hence, provide an excellent opportunity to examine the margins and upper sections of these hydrothermal systems. Geochronological analyses of intrusive dikes were used to establish the magmatic and hydrothermal evolution associated with mineralization, as well as the genetic linkage between proximal and distal portions of the mineralizing system at Antamina. Oxygen, carbon and strontium isotope data of vein minerals is also used to constrain the temperature of the fluids proximal and distal to the magmatic centre. Chemical data of fluorescent and non-fluorescent veins were used to determine the main activators of fluorescence and to constrain its relationship with mineralizing fluids. In summary, results of this research identify a large-scale zonation of visible and cryptic alteration around paleo-fluid flow zones demonstrating the linkage between Ag-base metal veins, replacement and skarn deposits. Anomalous halos determined throughout Antamina and Uchucchacua deposits may contribute to the development of a more systematic exploration methodology for these types of deposits. / Science, Faculty of / Earth, Ocean and Atmospheric Sciences, Department of / Graduate

Distal alteration

Geochemical halos

Oxygen and carbon isotopes

UV fluorescence

Mineral exploration Peru

Fluid-rock interactions

Linkages

Antamina and Uchucchacua fluid sources