Petrologia e Mineralogia de rochas graníticas e gabrodioríticas dos plutons Palermo e Rio Negro, região do Alto Rio Negro, PR-SC, Província Graciosa

Crisma, Pedro Rabello

22 March 2013

Os Plutons Palermo (ca. 250 km2) e Rio Negro (ca. 130 km2) afloram na região Alto Rio Negro (PR) e fazem parte da Província Graciosa, uma província Neoproterozóica (ca. 580 Ma) constituída por granitos e sienitos na região S-SE do Brasil. Em ambos os plutons afloram variedades de rochas graníticas, predominantes, e gabro-dioríticas, bem como rochas híbridas, principalmente granodioritos. Estes plutons apresentam zonamento em geral bem marcado, que é tipicamente inverso caso do Pluton Rio Negro. As rochas graníticas principais correspondem a sieno- e monzogranitos predominantes e álcali-feldspato granitos e quartzo monzonitos subordinados de natureza metaluminosa a levemente peraluminosa. São rochas com estruturas maciças e texturas variadas que apresentam como associação mineral máfica típica hb + bi ± all + zr + ap ± ti + mt + ilm); as rochas gabro-dioríticas incluem gabro-dioritos e quartzo monzogabro-dioritos metaluminosos com estruturas maciças e granulações fina a média, caracterizadas pela associação cpx ± opx + hb + bt ± ti ± ap ± zr. A composição dos plagioclásios nestas rochas varia no intervalo de labradorita a andesina. As rochas híbridas são principalmente granodioritos que se caracterizam por uma variedade de estruturas e texturas indicativas de desequilíbrio, compatíveis com processos de coexistência e mistura parcial entre líquidos ácidos e básico-intermediários que formaram os granitos principais e os gabro-dioritos. Estas rochas são mais comuns no Pluton Rio Negro. A associação mineral máfica é similar, mas com abundâncias distintas de fases, à observada para os granitos principais. Nas rochas graníticas os anfibólios são Fe-hornblenda e Fe-edenita, com valores 0,65 < fe# < 0,95, os valores mais elevados ocorrendo nos álcali-feldspato granitos, as biotitas apresentam 0,71 < fe# < 0,99, observando-se que o componente annítico é também maior nestas últimas rochas. No caso das rochas gabro-dioríticas, os valores fe# variam entre 0,48 e 0,59, 0,41 e 0,56, 0,47 e 0,53 e 0,54 a 0,57 para ortopiroxênio, clinopiroxênio, anfibólio e biotita, respectivamente. As composições médias de orto- e clinopiroxênio coexistentes são \'Wo IND.46\'\' En IND.30\'\' Fe IND.24\' e \'Wo IND.3\'\' En IND.42\'\'Fe IND.55\' e a sugerem uma possível afinidade toleítica, ou cálcio-alcalina, para magma original. Os padrões de elementos terras raras revelam fatores de enriquecimento entre 1-10, 50-70, 100-300 em relação à composição condrítica para ortopiroxênio, clinopiroxênio e anfibólio nas rochas estudadas, com fracionamento bem marcado dos elementos leves em relação aos pesados no ortopiroxênio, não observado no caso de clinopiroxênio e anfibólio. Todos os padrões são caracterizados por anomalia negativa bem marcada de Eu. As pressões de cristalização dos magmas foram estimadas entre 1-3,5 kbar, mas os valores acima de ca. 2 kbar possivelmente não tenham significado real, dadas as composições mais ferroanas dos anfibólios. Temperaturas de saturação de zircão e/ou apatita e de equilíbrio entre orto- e clinopiroxênio, anfibólio-plagioclásio indicam intervalos de cristalização entre ca. 1000 e 750° C para as rochas gabro-dioríticas e entre ca. 900 e 670° C para os granitos principais. As paragêneses minerais e os valores obtidos para o número fe# em biotita em equilíbrio com feldspato alcalino e magnetita apontam para condições de cristalização relativamente oxidantes para as rochas félsicas, exceto os álcali-feldspato granitos, e máfico-intermediárias, superiores ao tampão QFM. / The Palermo (ca. 250 km2) and Rio Negro (ca. 130 km2) Plutons crop out in the so called Alto Rio Negro region , Parana state, making part of the Graciosa Province, a NeoProterozoic province (ca. 580 Ma) constituted by granites and syenites in S-SE Brazil. The plutons are made predominant granitic rocks, gabbro-diorites, as well as hybrid rocks constituted mainly by granodiorites. Both plutons show compositional a zoning pattern, which is inversed in the case of the Rio Negro Pluton. The main granitid rocks are mainly metaluminous to slightly peraluminous syeno- and monzogranites with subordinate quartz monzonites and alkcali-feldspar granites. They show a massive structure and a variety of textures, with hb + bi ± all + zr + ap ± ti + mt + ilm as the typical mafic mineral association. Gabbro-dioritic rocks include fine- to medium-grained metaluminous gabro-diorites and quartz monzogabrros and diorites with massive strucure characterized by the mafic mineral associations with cpx ± opx + hb + bt ± ti ± ap ± zr. In these rocks, the plagioclase compositions vary between labradorite and andesine. Hybrid rocks are mainly granodiorites characterized by several strucures and textures indicative of desiquilibrium and mingling/partial mixing between the silicic and basic-intermediate melts that formed the mainn granites and the gabbro-diorites. Such rocks are more abundant in the Rio Negro Pluton. The mafic mineral association is similar, but in contrasted relative abundance, to the ones found in the main granites. In the main granites the amphiboles are Fe-horblende and Fe-edenite, with 0.65 < fe# < 0.95, the higher among these values appearing in the alkali-feldspar granites. Biotite present 0.70 < fe# < 0.99 and the annitic component are also higher in the later rocks. In the case of the gabbro-dioritic rocks, the fe# numbers range between 0.48 and 0.59, 0.41 and 0.56, 0.47 and 0.53 and 0.54 and 0.57 in ortopyroxene, clinopyroxene, amphibole and biotite, respectively. The averaged compositions of coexisting orto- and clinopyroxene are \'Wo IND.46\'\'En IND.30\'\'Fe IND.24\' and \'Wo IND.3\'\'En IND.42\'\'Fe IND.55\' and suggest a tholeiitic or calk-alkaline nature of the original melts. Rare earth element patterns reveal enrichment factors up to 1-10, 50-70, 100-300 relative to the chondritic composition in ortopyroxene, clinopyroxene and amphibole, respectively, with a well marked fractionation of the heavy over the light rare earths in the case of the ortopyroxene, a feature not observed in clinopyroxene and amphibole. All patterns show a notable Eu negative anomaly. Melts crystallization pressures were estimated to be between 1 and 3.5 kbar; however values higher than ca. 2 kbar seems to be unrealistic given the ferroan compositions of some amphiboles. Zircon and apatite saturation temperatures coupled with ortopyroxene-clinopyroxene and amphibole-plagioclase equilibrium temperatures suggest crystallization intervals between ca. 1000 - 750° C in the case of the gabbro-diorites and ca. 900 - 670° C in the case of the main granites. Mineral paragenesis and fe# values in biotite in equilibrium with alkali-feldspar and magnetite suggests relative oxidizing crystallization conditions for the acid and basic-intermediate melts, higher than the QFM buffer, the alkali-feldspat granites being a possible exeption.

Gabbro-diorites rocks

Gabro-dioríticas

Granitic rocks

Graníticas

Metaluminosa

Metaluminous

Palermo Pluton

Peraluminosa

Peraluminous

Pluton Palermo

Pluton Rio Negro

Pressão

Pressures

Rio Negro Pluton

Temperatura

Temperatures

Petrologia e Mineralogia de rochas graníticas e gabrodioríticas dos plutons Palermo e Rio Negro, região do Alto Rio Negro, PR-SC, Província Graciosa

Pedro Rabello Crisma

22 March 2013

Os Plutons Palermo (ca. 250 km2) e Rio Negro (ca. 130 km2) afloram na região Alto Rio Negro (PR) e fazem parte da Província Graciosa, uma província Neoproterozóica (ca. 580 Ma) constituída por granitos e sienitos na região S-SE do Brasil. Em ambos os plutons afloram variedades de rochas graníticas, predominantes, e gabro-dioríticas, bem como rochas híbridas, principalmente granodioritos. Estes plutons apresentam zonamento em geral bem marcado, que é tipicamente inverso caso do Pluton Rio Negro. As rochas graníticas principais correspondem a sieno- e monzogranitos predominantes e álcali-feldspato granitos e quartzo monzonitos subordinados de natureza metaluminosa a levemente peraluminosa. São rochas com estruturas maciças e texturas variadas que apresentam como associação mineral máfica típica hb + bi ± all + zr + ap ± ti + mt + ilm); as rochas gabro-dioríticas incluem gabro-dioritos e quartzo monzogabro-dioritos metaluminosos com estruturas maciças e granulações fina a média, caracterizadas pela associação cpx ± opx + hb + bt ± ti ± ap ± zr. A composição dos plagioclásios nestas rochas varia no intervalo de labradorita a andesina. As rochas híbridas são principalmente granodioritos que se caracterizam por uma variedade de estruturas e texturas indicativas de desequilíbrio, compatíveis com processos de coexistência e mistura parcial entre líquidos ácidos e básico-intermediários que formaram os granitos principais e os gabro-dioritos. Estas rochas são mais comuns no Pluton Rio Negro. A associação mineral máfica é similar, mas com abundâncias distintas de fases, à observada para os granitos principais. Nas rochas graníticas os anfibólios são Fe-hornblenda e Fe-edenita, com valores 0,65 < fe# < 0,95, os valores mais elevados ocorrendo nos álcali-feldspato granitos, as biotitas apresentam 0,71 < fe# < 0,99, observando-se que o componente annítico é também maior nestas últimas rochas. No caso das rochas gabro-dioríticas, os valores fe# variam entre 0,48 e 0,59, 0,41 e 0,56, 0,47 e 0,53 e 0,54 a 0,57 para ortopiroxênio, clinopiroxênio, anfibólio e biotita, respectivamente. As composições médias de orto- e clinopiroxênio coexistentes são \'Wo IND.46\'\' En IND.30\'\' Fe IND.24\' e \'Wo IND.3\'\' En IND.42\'\'Fe IND.55\' e a sugerem uma possível afinidade toleítica, ou cálcio-alcalina, para magma original. Os padrões de elementos terras raras revelam fatores de enriquecimento entre 1-10, 50-70, 100-300 em relação à composição condrítica para ortopiroxênio, clinopiroxênio e anfibólio nas rochas estudadas, com fracionamento bem marcado dos elementos leves em relação aos pesados no ortopiroxênio, não observado no caso de clinopiroxênio e anfibólio. Todos os padrões são caracterizados por anomalia negativa bem marcada de Eu. As pressões de cristalização dos magmas foram estimadas entre 1-3,5 kbar, mas os valores acima de ca. 2 kbar possivelmente não tenham significado real, dadas as composições mais ferroanas dos anfibólios. Temperaturas de saturação de zircão e/ou apatita e de equilíbrio entre orto- e clinopiroxênio, anfibólio-plagioclásio indicam intervalos de cristalização entre ca. 1000 e 750° C para as rochas gabro-dioríticas e entre ca. 900 e 670° C para os granitos principais. As paragêneses minerais e os valores obtidos para o número fe# em biotita em equilíbrio com feldspato alcalino e magnetita apontam para condições de cristalização relativamente oxidantes para as rochas félsicas, exceto os álcali-feldspato granitos, e máfico-intermediárias, superiores ao tampão QFM. / The Palermo (ca. 250 km2) and Rio Negro (ca. 130 km2) Plutons crop out in the so called Alto Rio Negro region , Parana state, making part of the Graciosa Province, a NeoProterozoic province (ca. 580 Ma) constituted by granites and syenites in S-SE Brazil. The plutons are made predominant granitic rocks, gabbro-diorites, as well as hybrid rocks constituted mainly by granodiorites. Both plutons show compositional a zoning pattern, which is inversed in the case of the Rio Negro Pluton. The main granitid rocks are mainly metaluminous to slightly peraluminous syeno- and monzogranites with subordinate quartz monzonites and alkcali-feldspar granites. They show a massive structure and a variety of textures, with hb + bi ± all + zr + ap ± ti + mt + ilm as the typical mafic mineral association. Gabbro-dioritic rocks include fine- to medium-grained metaluminous gabro-diorites and quartz monzogabrros and diorites with massive strucure characterized by the mafic mineral associations with cpx ± opx + hb + bt ± ti ± ap ± zr. In these rocks, the plagioclase compositions vary between labradorite and andesine. Hybrid rocks are mainly granodiorites characterized by several strucures and textures indicative of desiquilibrium and mingling/partial mixing between the silicic and basic-intermediate melts that formed the mainn granites and the gabbro-diorites. Such rocks are more abundant in the Rio Negro Pluton. The mafic mineral association is similar, but in contrasted relative abundance, to the ones found in the main granites. In the main granites the amphiboles are Fe-horblende and Fe-edenite, with 0.65 < fe# < 0.95, the higher among these values appearing in the alkali-feldspar granites. Biotite present 0.70 < fe# < 0.99 and the annitic component are also higher in the later rocks. In the case of the gabbro-dioritic rocks, the fe# numbers range between 0.48 and 0.59, 0.41 and 0.56, 0.47 and 0.53 and 0.54 and 0.57 in ortopyroxene, clinopyroxene, amphibole and biotite, respectively. The averaged compositions of coexisting orto- and clinopyroxene are \'Wo IND.46\'\'En IND.30\'\'Fe IND.24\' and \'Wo IND.3\'\'En IND.42\'\'Fe IND.55\' and suggest a tholeiitic or calk-alkaline nature of the original melts. Rare earth element patterns reveal enrichment factors up to 1-10, 50-70, 100-300 relative to the chondritic composition in ortopyroxene, clinopyroxene and amphibole, respectively, with a well marked fractionation of the heavy over the light rare earths in the case of the ortopyroxene, a feature not observed in clinopyroxene and amphibole. All patterns show a notable Eu negative anomaly. Melts crystallization pressures were estimated to be between 1 and 3.5 kbar; however values higher than ca. 2 kbar seems to be unrealistic given the ferroan compositions of some amphiboles. Zircon and apatite saturation temperatures coupled with ortopyroxene-clinopyroxene and amphibole-plagioclase equilibrium temperatures suggest crystallization intervals between ca. 1000 - 750° C in the case of the gabbro-diorites and ca. 900 - 670° C in the case of the main granites. Mineral paragenesis and fe# values in biotite in equilibrium with alkali-feldspar and magnetite suggests relative oxidizing crystallization conditions for the acid and basic-intermediate melts, higher than the QFM buffer, the alkali-feldspat granites being a possible exeption.

Gabro-dioríticas

Graníticas

Metaluminosa

Peraluminosa

Pluton Palermo

Pluton Rio Negro

Pressão

Temperatura

Gabbro-diorites rocks

Granitic rocks

Metaluminous

Palermo Pluton

Peraluminous

Pressures

Rio Negro Pluton

Temperatures

Ο Γρανίτης της Τήνου και οι συνδεόμενοι με αυτόν σχηματισμοί Skarn

Μάστρακας, Νικόλαος

19 November 2007

Η παρούσα έρευνα αναφέρεται στην πετρολογική και κοιτασματολογική μελέτη του πλουτωνίτη της νήσου Τήνου και την συνδεδεμένη μ' αυτόν μεταλλοφορία σεελίτη (βολφραμιούχος) τύπου skarn. Ο ασβεσταλκαλικού χαρακτήρα πλουτωνίτης δείχνει τεκτονικού-θερμομεταφορικού τύπου επαφή με τα πετρώματα του πλαισίου. Συνίσταται άπό δύο βασικές λιθολογικές φάσεις: έναν μεταργιλικού χαρακτήρα βιοτιτικό-κεροστιλβικό γρανοδιορίτη που τοποθετήθηκε γύρω στους 17 Μα σε καθεστώς συμπίεσης σε θερμοκρασία ~770οC και πίεση ~5,2 Kbars. Ο γρανοδιορίτης προήλθε από ένα μάγμα που ήταν αποτέλεσμα μερικής τήξης υλικών μανδυακής προέλευσης και πετρωμάτων του ανώτερου φλοιού. Ο δεύτερος λιθότυπος πλουτωνίτη είναι ένας περιφερειακά αναπτυσσόμενος υπεραργιλικός γρανιτικός - βιοτιτικός λευκογρανίτης. Ο λευκογρανίτης τοποθετήθηκε γύρω στα 14 Μα σε καθεστώς διαστολής σε θερμοκρασία ~680οC και πίεση ~2Kbars. Κρυσταλλώθηκε από μάγμα που προήλθε από την μερική τήξη του γρανοδιορίτη και των περιβαλλόντων μεταϊζημάτων. Γύρω από τον πλουτωνίτη σχηματίσθηκε άλως επαφής πάχους ~1km. Μέσα στην ζώνη του πυροξενικού κερατίτη εντοπίστηκαν σε δύο περιοχές της δυτικής επαφής του πλουτωνίτη οι σχηματισμοί skarn πυροξένου - γρανάτη. Ο τύπος του skarn είναι "οξειδωτικός" εντούτοις διατηρούνται υπολέιμματα του αναγωγικού σταδίου (πλούσιοι σε εδεμβεργίτη πυρόξενοι και πλούσιοι σε γροσσουλάριο πυρήνες γρανατών που έχουν υποστεί ανθρακορρωγμάτωση). Η μεταλλοφορία του σεελίτη εντοπίστηκε μέσα στην ζώνη του πυροξενικού κερατίτη ως αποτέλεσμα διηθητικών - μετασωματικών διαδικασιών. Οι μεγακρύσταλλοί του βρίσκονται σε ισορροπία με τον υδροθερμικό γρανάτη (ζωνώδεις κρύσταλλοι πλούσιοι σε ανδραδίτη με παλμική ζώνωση και ανισοτροπία) και έχουν αποτεθεί σε θερμοκρασία ~375 οC (από ρευστά εγκλείσματα) και πίεση μικρότερη των 500 bars. / The present work is a petrological and mineralization study of the Tinos pluton and particularly of the tungsten skarn ie scheelite mineralization associated with this intrusion. the calcalkaline pluton displays a thermal - tectonic contact with the country rocks. It consists of two lithotypes: a metaluminous biotite- hornblende granodiorite and emplaced ca.17Ma under compression at T~700oC and P ~ 5.2kbars. The granodiorite represents a partial melt of mantle derived and upper crustal materials. The second lithotype of Tinos pluton is a peripherally occurring metaluminous garnet - biotite leucogranite that was emplaced ca. 14Ma at T ~ 680oC and P ~ 2kbars. The leucogranite crystallized from a magma representing a hybrid partial melt from the granodiorite and the encasing metasedimentary rocks. A contact halo of ~1km was formed around the Tinos pluton. In the pyroxene hornfels zone in the western part of the halo, mineralized pyroxene - garnet skarns were developed in two areas as a result of pyrometasomatism followed by infiltration metasomatism. The type of the Tinos skarn is "oxidized" however retains "reduced" characteristics such as hedenbergite and garnet rich in grossular component. The carbofractured grossular garnet cores with hourglass twinning are overgrown by anisotropic, oscillatory - zoned andradite - rich mantles. The scheelite megacrysts are in equilibrium with the latter, hydrothermal garnet. Fluid inclusion studies indicate that the scheelite has crystallized at T~375oC and pressure lesser than 500bars.

Τεκτονική συμπίεση

Τεκτονική διαστολή

Ανθρακορωγμάτωση

552.3

Metaluminous granodiorite

Tectonic compression

Peraluminous leucogranite

Tectonic extension

Intermediate leucocratic Lithoptypes

Scheelitee skarn mineralization

Carbofracturing

Infiltration metasomatism