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TitrePetrographic observations and evaporate mound analysis of quartz-hosted fluid inclusions: Applications to assess metal fertility in granites
AuteurTweedale, F; Hanley, J; Kontak, D; Rogers, N
SourceL'Association géologique du Canada-L'Association minéralogique du Canada, Réunion annuelle conjointe, Recueil des résumés vol. 37, 2014 p. 275-276
Année2014
Séries alt.Secteur des sciences de la Terre, Contribution externe 20130604
ÉditeurGAC-MAC/AGC-AMC
RéunionGAC-MAC Joint annual meeting; Fredericton, NB; CA; mai 2014
Documentpublication en série
Lang.anglais
Mediaen ligne; numérique
Référence reliéeCette publication est reliée à Tweedale, F; Hanley, J J; Kontak, D J; Rogers, N; (2015). Petrographic observations and evaporate mound analysis of quartz-hosted fluid inclusions: applications to assess metal fertility in granites, TGI 4 - Intrusion Related Mineralisation Project: new vectors to buried porphyry-style mineralisation, Commission géologique du Canada, Dossier public 7843
Formatspdf
ProvinceNouvelle-Écosse
SNRC11D; 11E; 21A
Lat/Long OENS -66.0000 -61.5000 45.7500 44.0000
Sujetsroches intrusives; roches granitiques; inclusions fluides; quartz; métallogénie; minéralisation; analyses pétrographiques; altération; Batholite de South Mountain ; pétrologie ignée et métamorphique; géochimie; Dévonien
ProgrammeÉtude des gîtes porphyriques, Initiative géoscientifique ciblée (IGC-4)
LiensOnline - En ligne (PDF 8.75 MB)
Résumé(disponible en anglais seulement)
The 380 Ma South Mountain Batholith (SMB), Nova Scotia, is a large (~7300 km2), contiguous, mesozonal granitoid intrusion consisting of 13 coalesced plutons hosting a variety of mineralized zones (e.g., Sn-Zn-Cu-Ag, Mn-Fe-P, U, Cu-Ag). Given the hydrothermal nature of this mineralization, it is expected that a geochemical fingerprint of the mineralizing fluids might be preserved both petrographically and as secondary fluid inclusions (FIs) in the granites on a scale equal to or larger than the mineralized zones. In this unique study, we investigate the possibility of integrating petrographic observations that reflect fluid:rock interaction and the chemistry of secondary, quartz-hosted FIs in samples from the SMB to assess granite fertility and also the scale of this potential vectoring tool. The protocol involved: (1) detailed petrographic study of >500 archived samples and focused on the extent and degree of alteration (e.g., perthite textures, chlorite alteration of biotite, plagioclase alteration, percent of secondary muscovite, abundance of FI in quartz); and (2) determining fluid chemistry of quartzhosted FIs in >100 samples collected from a 10 × 10 km grid superimposed on the SMB. The petrographic data record highly variable degrees of alteration and the results are being used to design an alteration algorithm that can be used to map the extent of fluid:rock interaction throughout the batholith. The chemistry of FIs, determined using the evaporate mound method, is being used as a proxy for both the mineralizing and altering fluids. At present, results for >600 mounds determined for 68 samples indicate the fluids are dominated by Na-K-Ca-Cl-F, with traces of Fe, Mn, and S, and that two distinct types are present, one Na-rich and the other Ca-rich. Two intriguing results to date include: (1) the pervasive occurrence of F in the mound analysis with up to 40 wt. % when normalized to 100%, even in samples distal to known mineralization; and (2) elevated Ca in many samples, including those from chemically evolved, hence Ca-depleted rocks. This latter feature may reflect extensive albitization of plagioclase, hence liberation of Ca, during fluid-mediated alteration. Thus, our preliminary findings clearly indicate that mappable variation in the degree and extent of alteration is retained in the main mineral phases of the granites and that fluid chemistry, preserved as secondary FIs in quartz, is a potential proxy for fluid:rock interaction and hence a measure of metal fertility.
GEOSCAN ID295918