Petrology and retrograde P-T path in granulites of the Kanskaya formation, Yenisey range, Eastern Siberia

The Kanskaya formation in the Yenisey range, Eastern Siberia is a newly studied example of retrogression of granulite facies rocks. The formation consists of two stratigraphical units: the lower Kuzeevskaya group and the upper Atamanovskaya group. Rocks from both of these units show rare reaction textures such as replacement of cordierite by garnet, sillimanite and quartz, silimanite coronas around spinel and corundum, and garnet rims around plagioclase in metabasites, while plagioclase rims around garnet can be seen in associated metapelites. The paragenesis quartz + orthopyroxene + sillimanite is a feature of the Kuzeevskaya group. In many samples, chemical zoning of garnet and cordierite shows an increase in Mg from core to rim as well as the reverse.
Biotite-garnet-cordierite-sillimanite-quartz as well as spinel±biotite-garnet°Cordierite±sillimanite-quartz assemblages were studied using geothermometers and geobarometers based on both exchange and net-transfer reactions (Perchuk & Lavrent'eva, 1983; Aranovich & Podlesskii, 1983; Gerya & Perchuk, 1989). Detailed investigation of 10 samples including 1000 microprobe analyses revealed decompression (first stage) followed by the near isobaric cooling of the granulites. From geological studies, the 7 km total thickness of the sequence closely corresponds to the pressure difference (∼ 2.2kbar) measured by geobarometers in the samples taken from different levels in the sequence. Individual samples yield P-T paths ranging from 100°C/kbar to 140°C/kbar depending on their locations with respect to the large Tarakskiy granite pluton. In places the 100°C/kbar path changed to the 140°C/kbar due to the influence of the intrusion. In a P-T diagram these trajectories are subparallel lines, whose P-T maxima define the Archaean geotherm between 3.1 and 2.7 Ga, determined isotopically. A petrological model for P-T evolution of the Kanskaya formation is proposed.     

大别山北部石榴辉石麻粒岩流体包裹体研究

大别山北部石榴辉石麻粒岩是一种基性麻粒岩,岩石中富含有大量CO_2、CH_4、H_2S、H_2O流体包裹体,及含子晶多相包裹体。首次在寄主矿物石榴石、透辉石发现有含固相的多相包裹体。经拉曼光谱及电镜分析,固相部分为石榴石,辉石、重晶石和铁的氧化物;气相成分为H_2O、CO、CO_2、H_2S、H_2、CH_4、C_2H_2等,均一温度分别为950℃、975℃。指示着石榴辉石麻粒岩在形成过程中,在还原气氛下曾经发生过局部深熔作用,产生在组成上近于石榴石、辉石的熔体。这种溶体被正在结晶的石榴石,透辉石所捕获。石榴石中早期的含石榴石子晶+CO_2多相包裹体其CO_2密度为0.65～0.626g/cm~3;二相的 CO_2包裹体,CO_2部分的均一温度26～28.2℃,为晚期捕获的低密度CO_2包裹体,密度为0.648～0.688g/cm~3。石英中三相H_2O-CO_2包裹体,Th=331～410℃,CO_2-水合物溶化温度7.3°～8.6℃,是一种低盐度包裹体,CO_2部分均一温度:25.7～28℃,CO_2密度0.65～0.698g/cm~3为早中期捕获的包裹体。整个岩石中未发现高密度CO_2流体包裹体。表明麻粒岩可以形成在低密度CO_2之中。H_2O-NaCl包体均一温度80～475℃,密度0.36～1.026g/cm~3,主要为晚期包裹体,少数高密度H_2O包裹体,为早期捕获的包裹体。通过流体包裹体等容线确立石榴辉石麻粒岩P-T轨迹为     

Fluid inclusion evidence for an anticlockwise metamorphic P-T path in central Massachusetts

Acadian (Late Silurian to Early Devonian) metamorphism in the Central Maine Terrane (CMT) in central Massachusetts is characterized by an early low-P, high-T (Buchan-type) metamorphism followed by thickening at high temperature (>650d? C) and then by cooling to 100-200d? C below peak recorded temperatures before eventual unroofing. Mineralogical and textural evidence for this path includes sillimanite pseudomorphs after early andalusite, abundant cordierite in pelitic lithologies, replacement of low-P cordierite-bearing assemblages by high-P garnet-bearing assemblages, and recrystallization of mylonites associated with late shear zones to form lower-T and higher-P assemblages. Peak conditions in the highest grade rocks were 685-780d? C and 5-6 kbar; the cooling path passed through 550d? C at about 6.5 kbar. The well-constrained P-T path documented from geological and mineralogical evidence for the CMT offers an unusual opportunity to examine characteristics of fluid inclusions that have experienced a long-lived metamorphic event spanning a broad range of P-T conditions. Fluid inclusion data from the CMT document a range of fluid compositions (CO₂-rich, mixed CO₂-N₂-rich, N₂-rich and H₂O-rich) and densities during metamorphism. Densities of CO₂ fluid inclusions range from 0.20 to 1.03 g cm^-3. Medium-density CO₂ fluid inclusions are contained in quartz inclusions within garnets in partial melt leucosomes, and in quartz grains within migmatites. Fluid inclusions within the quartz inclusions indicate trapping conditions of 650-700d? C at pressures below 5 kbar. Other CO₂ fluid inclusions from matrix quartz yield isochores which pass through 700d? C and 5.2 kbar. The highest density inclusions associated with rocks containing the late high-P assemblages have isochores which pass below the estimated P-T conditions for recrystallization of the mylonite. Fluid inclusion evidence suggests an early low-P heating event, followed by thickening at high temperature, and then by nearly isobaric cooling to about 500d? C with later decompression. This interpretation is also consistent with previously published petrological models and supports an anticlockwise P-T path for the CMT of south-central Massachusetts.     

Fluid inclusions in high-pressure granulites of the Pan-African belt in Tanzania (Uluguru Mts): a record of prograde to retrograde fluid evolution

The high-pressure granulites of the Uluguru Mountains are part of the Pan-African belt of Tanzania, the metamorphic evolution of which is characterized by an anticlockwise P-T path. Mineral assemblages that represent distinct metamorphic stages are selected for fluid inclusion studies in order to deduce the fluid evolution in metapelites and pyroxene granulites from the prograde to the retrograde stage. Fluid inclusion data improve the petrologically derived P-T path and confirm the anticlockwise evolution. Fluid inclusions in quartz enclosed in garnet porphyroblasts in metapelites preserve prograde fluids of CO₂–N₂ composition and later-trapped pure CO₂. During isochoric heating at temperatures near the peak of metamorphism, deformation and recrystallization led to fluid homogenization yielding N₂-poor CO₂ composition in the metapelites. Near-peak CO₂–N₂ fluid inclusions in quartz of metapelites and CO₂ inclusions in garnet-pyroxene granulites are characterized by perfect negative crystal shape. Garnet formed in veins and as coronas around orthopyroxene represent the near-isochoric/isobaric cooling stage which is characterized by high-density CO₂-rich fluid inclusions. Up to 15 mol% N₂ in some primary CO₂ inclusions in corona garnet indicate small-scale fluid heterogeneity during the static garnet growth. The fact that high-density fluid inclusions are preserved, suggests a shallow dP/dT slope of the uplift path. Nevertheless, some fluid inclusions decrepitated or re-equilibrated and low-density CO₂ inclusions were trapped in the garnet-pyroxene granulite while N₂–CH₄ inclusions formed in the metapelites. Different fluid compositions in metapelite and metabasite argue for an internal control of the fluid composition by phase equilibria. In shear zones where the pyroxene granulite was transformed into scapolite-biotite schist, CO₂–N₂ and low-density N₂–CH₄ fluid inclusions indicate several stages of tectonic activity and suggest fluid influx from the nearby metapelites. High- and low-salinity aqueous inclusions observed beside CO₂ inclusions in garnet-pyroxene granulites, in vein quartz and shear zones could be of high-grade origin but are mainly re-equilibrated or re-trapped along healed microfractures during lower-grade stages. Received: 21 May 1997 / Accepted: 6 October 1997     

Pan-African decompressional P-T path recorded by granulites from central Dronning Maud Land, Antarctica

A high-grade metamorphic complex is exposed in Filchnerfjella (6–8°E), central Dronning Maud Land. The metamorphic evolution of the complex has been recovered through a study of textural relationships, conventional geothermobarometry and pseudosection modelling. Relicts of an early, high-P assemblage are preserved within low-strain mafic pods. Subsequent granulite facies metamorphism resulted in formation of orthopyroxene in rocks of mafic, intermediate to felsic compositions, whereas spinel + quartz were part of the peak assemblage in pelitic gneisses. Peak conditions were attained at temperatures between 850–885 °C and 0.55–0.70 GPa. Reaction textures, including the replacement of amphibole and garnet by symplectites of orthopyroxene + plagioclase and partial replacement of garnet + sillimanite + spinel bearing assemblages by cordierite, indicate that the granulite facies metamorphism was accompanied and followed by decompression. The observed assemblages define a clock-wise P-T path including near-isothermal decompression. During decompression, localized melting led to formation of post-kinematic cordierite-melt assemblages, whereas mafic rocks contain melt patches with euhedral orthopyroxene. The granulite facies metamorphism, decompression and partial crustal melting occurred during the Cambrian Pan-African tectonothermal event.     

Feldspar and oxide thermometry of granulites in the Adirondack Highlands

Thermometry of regionally metamorphosed granulites of the Adirondack Highlands has been undertaken using feldspar and iron-titanium-oxide equilibria. Electron microprobe analyses of 20 coexisting oligoclase (An_18–30) and microcline perthite (Or_57–87) pairs from charnockites and granitic gneisses give K_D[Na/(Na+Ca+K]_plag/[Na/(Na+Ca+K)]_or = 2–3 yielding temperatures of 650 ° to 750 ° C in comparison to Seck's (1971) experimental and Stormer's (1975) calculated temperatures for inferred pressures of 8 kilobars. Microprobe analyses of 10 coexisting titaniferous magnetite (ulvöspinel_ss 16–45) and ilmenite (hematite_ss 4.7–6.5) pairs from the Marcy massif anorthosite and related gabbros give temperatures of 620 ° to 800 ° C in comparison to Buddington and Lindsley's (1964) experimental data. Oxygen fugacities buffered by this assemblage range between 10^–20 and 10^–16 and always lie within 10⁺¹ of the f buffered by fayalite-magnetite-quartz. Exsolved albite in alkali feldspar and ilmenite (oxidized ulvöspinel lamellae) must be reintegrated to infer metamorphic temperatures. Both thermometers give internally consistent, reproducible and geologically reasonable results. The inferred 750 ° and 700 ° C isotherms wrap around the anorthosite massif in roughly concentric circles. Maximum metamorphic temperatures (790 ± 50 ° C) occur between Saranac Lake and Tupper Lake, New York.Contribution No. 336 from the Mineralogical Laboratory, Department of Geology and Mineralogy, The University of Michigan, Ann Arbor, Michigan, 48109. U.S.A.     

A critical evaluation of two-pyroxene thermometry in Adirondack granulites

Temperatures have been calculated from the composition of sixty-five coexisting ortho- and clinopyroxene pairs from the Adirondacks, New York, using calibrations proposed by Wood & Banno (1973), Ross & Huebner (1975), Saxena (1976) and Wells (1977), in order to test the accuracy and precision of pyroxene thermometers in metamorphic granulites. Calculated temperatures are highly scattered ($\text{<600–900°}\text{C}$) and show no systematic variation within the Adirondack terrane. Several pyroxene pairs from very localized areas near Colton (N.W. Adirondacks) and Tupper Lake (C. Adirondacks) yield similar scattered temperatures (600–900°C), which disagree with feldspar and oxide thermometry and are inconsistent with the stability of various silicate and/or sulfide assemblages. All pyroxene thermometer models are sensitive to ferrous-ferric ratios with variations of up to 50°C when Fe³⁺ is estimated from pyroxene stoichiometry of pyroxene compositions obtained by microprobe analysis. These data suggest that the present pyroxene thermometers are sufficiently inconsistent, inaccurate and imprecise that they should not be used as quantitative thermometers in metamorphic rocks.     

Reaction history of sapphirine granulites and a decompressional P-T path in a granulite complex from the Eastern Ghats

The sapphirine granulites from G. Madugula, Eastern Ghats preserve a variety of mineral textures and reactions. Corona and reaction textures are used in conjunction with mineral compositions to construct a sequence of metamorphic reactions describing the mineralogical evolution of sapphirine granulites. An early stage is characterized by the development of sapphirine + quartz, spinel + quartz in textural equilibrium, and possible relicts after osumilite during peak metamorphic conditions. Sapphirine/spinel crystals were later detached from quartz in the form of mineral coronas. During a subsequent sapphirine-cordierite stage, several cordierite forming reactions reflect decreasingP-T conditions. Finally during the late stage, a few samples show evidence of retrogressive hydration. Sapphirine is rather iron-rich (12.8 wt%) and the Mg number in the analysed minerals varies in the order: cordierite > phlogopite > sapphirine > orthopyroxene > spinel > garnet.P-T conditions of metamorphism have been constrained through the application of geothermobarometry and thermodynamically calibrated MAS equilibria.P-T vectors from granulite facies rocks in the G. Madugula area indicate that the rocks experienced substantial decompression (up to 3 kbar) and moderate cooling (150–200°C) subsequent to peak conditions of metamorphism (8.4 kbar, > 900°C). The decompressionalP-T history of sapphirine granulites interpreted from textural features and thermobarometric estimates suggest that they may have eventually resulted from exhumation of thickened crust.     

Genesis of the New Quebec and Adirondack granulites: Evidence for their production by partial melting

Materials balance calculations on amphibolite facies and granulite facies rocks from the Adirondack region and from some areas of New Quebec demonstrate that the rocks of the two facies differ by near granite-minimum melt compositions. The implication of these results are; granulites of both regions result from partial melting of greywacke-type metasedimentary rocks during upper amphibolite facies metamorphism. The New Quebec region contains granuites produced by partial melting as well as granulites produced by simple mineral dehydration reactions (no melting of the rocks occurred). These observations combined with the knowledge that some New Quebec granulites have produced abnormally high quantities of melts provide evidence that large sources and sinks for H₂O exist in the lower crust and that there is significant H₂O transport between these regions.     

Constraining the prograde and retrograde P-T paths of granulites using decomposition of initially zoned garnets: an example from the Central Indian Tectonic Zone

The present study from the Sausar Mobile Belt (SMB) in the southern part of the Central Indian Tectonic zone (CITZ) demonstrates how microdomainal compositional variation of a single garnet porphyroblast in a metapelite granulite sample records the different segments of a near complete P-T path of metamorphic evolution. The microdomainal variation is ascribed to the preservation of growth zoning and heterogeneous distribution of diverse inclusion mineral assemblages. Subsequent mineral reactions under changing P/T conditions were controlled by this compositional heterogeneity. Four stages of metamorphic evolution have been deciphered. An early prograde stage (M_o) is implied by the rare presence of staurolite-biotite-quartz and in places of kyanite inclusion assemblages in other metapelite samples, together with the growth zoning preserved in garnet. The peak metamorphism (M₁) at ~9.5 kbar, ~850 °C is consistent with the biotite dehydration melting that produced garnet-K-feldspar and granitic leucosomes. This was followed by near isothermal decompression (M₂) at ~6 kbar, ~825 °C, during which different garnet segments behaved as separate microscale bulk compositions and decomposed both internally and externally to produce different retrograde mineral assemblages. In the quartz-bearing domain of almandine-rich and grossular-rich garnet core, grossular components in garnet reacted with included sillimanite and quartz to produce coronal plagioclase (X_An=0.90). By contrast, grossular-rich garnet in quartz-absent domain reacted with included sillimanite to produce layered spinel_ss {X_Mg (Mg/Mg+Fe²⁺) = 0.23–0.26}, X_Al (Al/Al+Fe³⁺)=0.71–0.81}-plagioclase (X_An=0.91)-cordierite {X_Mg (Mg/Mg+Fe²⁺) = 0.80–0.83} coronas both in the core and inner rim region of garnet. During post-decompression cooling, reactions occurred at about 600 °C (M₃), whereby quartz-bearing, sillimanite-absent microdomains of pyrope-rich, grossular-poor garnet outer rim decomposed to form relatively magnesian assemblages of cordierite-anthophyllite and cordierite-biotite-quartz. M₂ spinel_ss decomposed to polyphase domains of spinel-magnetite±högbomite at this stage. Collating the textural and geothermobarometric results, a clockwise P-T path has been deduced. The deduced P-T loop is consistent with a model of crustal thickening due to continental collision, followed by rapid vertical thinning, which appears to be the general feature of the Sausar Mobile Belt. Using model calculations of the preserved growth and diffusion zoning in garnet, we demonstrate rather short-lived nature of this collision orogeny (in the order of 40–60 Ma).Editorial responsibility: W. Schreyer     

Reaction textures in calc-silicate granulites from the Bolingen Islands, Prydz Bay, East Antarctica: implications for the retrograde P–T path

Calc-silicate granulites from the Bolingen Islands, Prydz Bay, East Antarctica, exhibit a sequence of reaction textures that have been used to elucidate their retrograde P–T path. The highest temperature recorded in the calc-silicates is represented by the wollastonite- and scapolite-bearing assemblages which yield at least 760°C at 6 kbar based on experimental results. The calc-silicates have partially re-equilibrated at lower temperatures (down to 450°C) as evidenced by the successive reactions: (1) wollastonite + scapolite + calcite = garnet + CO₂, (2) wollastonite + CO₂= calcite + quartz, (3) wollastonite + plagioclase = garnet + quartz, (4) scapolite = plagioclase + calcite + quartz, (5) garnet + CO₂+ H₂O = epidote + calcite + quartz, and (6) clinopyroxene + CO₂+ H₂O = tremolite + calcite + quartz.
The reaction sequence observed indicates that a CO₂ was relatively low in the wollastonite-bearing rocks during peak metamorphic conditions, and may have been further lowered by local infiltration of H₂O from the surrounding migmatitic gneisses on cooling. Fluid activities in the Bolingen calc-silicates were probably locally variable during the granulite facies metamorphism, and large-scale CO₂ advection did not occur.
A retrograde P–T path, from the sillimanite stability field ( c. 760°C at 6 kbar) into the andalusite stability field ( c. 450°C at <3 kbar), is suggested by the occurrence of secondary andalusite in an adjacent cordierite–sillimanite gneiss in which sillimanite occurs as inclusions in cordierite.     

Post-metamorphic CO2-rich fluid inclusions in granulites

In granulite-facies samples from the Adirondack Mountains, NY, estimates of peak-metamorphic CO₂ fugacities based on mineral equilibria are not consistent with estimates based on data for high-density, CO₂-rich fluid inclusions. Of the 21 Adirondack samples investigated for this study, all contain CO₂-rich inclusions. Inclusions occur in quartz, apatite, and garnet. They range in size from 3 to 50 m and are without visible H₂O. In a few of the inclusions, freezing point determinations and preliminary Laser Raman spectroscopy show the presence of small amounts (<3%) of other fluids (N₂ and H₂S). CO₂ liquid-vapor homogenization temperatures are between –46 and +31° C, corresponding to densities between 1.14 and 0.5 gm/cc. Some of these densities are consistent with peak-metamorphic entrapment (1.06 to 1.1 gm/cc).Peak metamorphic fluid compositions in these samples are inferred from fluid-buffering equilibria that restrict the fugacity of CO₂ (f CO₂) directly (i.e., calcite+quartz+wollastonite) or buffer the fugacity of oxygen (f O₂). Assemblages that bufferf O₂ are important because knowledge off O₂ places an upper limit onf CO₂. In 13 of the 21 samples, estimates of peak-metamorphic fluid compositions based on these equilibria show that the mole fraction of CO₂ (XCO₂) in equilibrium with the rock was low, in some cases less than 0.2.The contradiction of mineral equilibria and fluid inclusion data shows that the inclusions record post-metamorphic conditions. At present, there are no criteria to distinguish these primary appearing CO₂-rich inclusions from those found in other granulite-facies terranes. Therefore, inferences of pressure-temperature conditions and peakmetamorphic fluid compositions based on fluid inclusions must be viewed with caution.     

豫西东闯金矿床流体包裹体及稳定同位素研究

东闯金矿床位于华北板块南缘的小秦岭金成矿带中部地区。矿体呈脉状、透镜状赋存于东西向压扭性断裂中,赋矿围岩为太古界太华群变质岩系。成矿作用可分为4个阶段,从早到晚,流体包裹体均一温度分别为296~342℃、257~341℃、250~314℃和175~267℃;对应流体盐度w(NaCleq)为5.23%~6.63%、1.63%~8.77%、3.38%~8.61%和8.55%~11.1%,以5%~9%为主,流体成分以H2O-NaCl-CO2为主。估算成矿压力为100~160MPa,静岩压力深度3.6~5.3 km。包裹体水的δDV-SMOW值为-49‰~80.2‰,多数在50‰~60‰之间,δ18O水计算值为3.33‰~7.88‰。碳酸盐矿物δ13CV-PDB为-5.1‰~-1.3‰,δ18OV-SM为9.9‰~15.29‰。矿石硫化物的δ34SV-CDT为-2.75‰~5.52‰,均值1.11‰,而其206Pb/204Pb=16.973‰~17.068‰、207Pb/204Pb=15.322‰~15.394‰、208Pb/204Pb=37.323‰~37.491‰。流体包裹体研究以及H-O、S、C、Pb同位素结果表明,东闯金矿床的成矿流体主要来自深部岩浆,矿质主要来自太华群地层。该矿床为低盐度、中成、中高温岩浆热液型金矿床。     

Carbonic fluid inclusions in South Indian granulites: evidence for entrapment during charnockite formation

Field evidence and fluid inclusion studies on South Indian incipient charnockites suggest that charnockite formation occurred during a decompressional brittle regime following the ‘peak’ of metamorphism and regional deformation. The most abundant type of inclusions in quartz and garnet grains in these charnockites contain high-density carbonic fluids, although lower-density fluids occur in younger arrays of inclusions. Discrete fluid inclusion generations optically are observed to decrepitate over well-defined temperature intervals, and quantitative measurements of CO₂ abundance released from these inclusions by stepped thermal decrepitation show up to a four-fold increase (by volume) in the incipient charnockites relative to the adjacent gneisses from which they are derived. Studies based on optical thermometry, visual decrepitation and stepped-heating inclusion release together indicate that entrapment of carbonic fluids coincided with charnockite formation. We confirm that an influx of carbon dioxide-rich fluids is associated with the amphibolite-granulite transition, as recorded by the incipient charnockites, the remnants of which are commonly preserved as the earliest generation of high-density fluid inclusions.     

Fluid inclusions in granulites, granulitized eclogites and garnet clinopyroxenites from the Dabie–Sulu terranes, eastern China

Minor granulites (believed to be pre-Triassic), surrounded by abundant amphibolite-facies orthogneiss, occur in the same region as the well-documented Triassic high- and ultrahigh-pressure (HP and UHP) eclogites in the Dabie–Sulu terranes, eastern China. Moreover, some eclogites and garnet clinopyroxenites have been metamorphosed at granulite- to amphibolite-facies conditions during exhumation. Granulitized HP eclogites/garnet clinopyroxenites at Huangweihe and Baizhangyan record estimated eclogite-facies metamorphic conditions of 775–805 °C and ≥15 kbar, followed by granulite- to amphibolite-facies overprint of ca. 750–800 °C and 6–11 kbar. The presence of (Na, Ca, Ba, Sr)-feldspars in garnet and omphacite corresponds to amphibolite-facies conditions. Metamorphic mineral assemblages and P–T estimates for felsic granulite at Huangtuling and mafic granulite at Huilanshan indicate peak conditions of 850 °C and 12 kbar for the granulite-facies metamorphism and 700 °C and 6 kbar for amphibolite-facies retrograde metamorphism. Cordierite–orthopyroxene and ferropargasite–plagioclase coronas and symplectites around garnet record a strong, rapid decompression, possibly contemporaneous with the uplift of neighbouring HP/UHP eclogites.

Carbonic fluid (CO₂-rich) inclusions are predominant in both HP granulites and granulitized HP/UHP eclogites/garnet clinopyroxenites. They have low densities, having been reset during decompression. Minor amounts of CH₄ and/or N₂ as well as carbonate are present. In the granulitized HP/UHP eclogites/garnet clinopyroxenites, early fluids are high-salinity brines with minor N₂, whereas low-salinity fluids formed during retrogression. Syn-granulite-facies carbonic fluid inclusions occur either in quartz rods in clinopyroxene (granulitized HP garnet clinopyxeronite) or in quartz blebs in garnet and quartz matrices (UHP eclogite). For HP granulites, a limited number of primary CO₂ and mixed H₂O–CO₂(liquid) inclusions have also been observed in undeformed quartz inclusions within garnet, orthopyroxene, and plagioclase which contain abundant, low-density CO₂±carbonate inclusions. It is suggested that the primary fluid in the HP granulites was high-density CO₂, mixed with a significant quantity of water. The water was consumed by retrograde metamorphic mineral reactions and may also have been responsible for metasomatic reactions (“giant myrmekites”) occurring at quartz–feldspar boundaries. Compared with the UHP eclogites in this region, the granulites were exhumed in the presence of massive, externally derived carbonic fluids and subsequently limited low-salinity aqueous fluids, probably derived from the surrounding gneisses.     

Fluid inclusions in Scourian granulites from the Lewisian complex of NW Scotland: evidence for CO2-rich fluid in Late Archaean high-grade metamorphism

In this paper the first fluid-inclusion data are presented from Late Archaean Scourian granulites of the Lewisian complex of mainland northwest Scotland. Pure CO₂ or CO₂-dominated fluid inclusions are moderately abundant in pristine granulites. These inclusions show homogenization temperatures ranging from − 54 to + 10 °C with a very prominent histogram peak at − 16 to − 32 °C. Isochores corresponding to this main histogram peak agree with P-T estimates for granulite-facies recrystallization during the Badcallian (750–800 °C, 7–8 kbar) as well as with Inverian P-T conditions (550–600 °C, 5 kbar). The maximum densities encountered could correspond to fluids trapped during an early, higher P-T phase of the Badcallian metamorphism (900–1000 °C, 11–12 kbar). Homogenization temperatures substantially higher than the main histogram peak may represent Laxfordian reworking (≤ 500 °C, < 4 kbar). In the pristine granulites, aqueous fluid inclusions are of very subordinate importance and occur only along late secondary healed fractures. In rocks which have been retrograded to amphibolite facies from Inverian and/or Laxfordian shear zones, CO₂ inclusions are conspicuously absent; only secondary aqueous inclusions are present, presumably related to post-granulite hydration processes. These data illustrate the importance of CO₂-rich fluids for the petrogenesis of Late Archaean granulites, and demonstrate that early fluid inclusions may survive subsequent metamorphic processes as long as no new fluid is introduced into the system.     

Fluid inclusions: tectonic indicators

During the first half of the 20th century fluid inclusions have been studied in ore geology in order to determine the chemistry and physical parameters (density) of the mineralising fluids. Apart from a few pioneering works in the middle of the century, fluid inclusions were not used as structural markers before the late 1980s. During the same time, experiments as well as observations of natural samples have shown that the volume, shape and density of fluid inclusions may change when submitted to pressure–temperature conditions different from their trapping isochores.In view of these experiments, and based on natural examples from the Higher Himalaya metamorphic rocks, it is evident how fluid inclusions can be used as thermobarometric, structural and tectonic markers. Points of interest for further studies on fluid inclusions in nature and experiments are also stressed.     

桐柏山地区低温榴辉岩变质作用的P-T轨迹

桐柏山地区发育南、北两条低温高压榴辉岩带,中间被桐柏山高级变质杂岩所分隔。本文对两条带内的4个保存完好的榴辉岩体及其退变产物进行了详细的岩石学研究和P—T条件估算。结果表明,北带榴辉岩的形成温压条件较高,为530～6100C、1．7～2．0GPa,南带榴辉岩较低,为470～5200C、1．3～1．7GPa,说明两条榴辉岩带不属于同一个高压岩片。实际上,二者分别对应于西大别地区的浒湾榴辉岩带（Ⅰ带）和七角山榴辉岩带（Ⅴ带）。电子探针分析发现,所有榴辉岩中的石榴石都展示了进变质环带,而退变榴辉岩的成分环带更为复杂,即保留了早期的进变环带,也显示了晚期的低温取代以及后期相对高温条件下的再生长,由此为榴辉岩的变质作用推导出一个“发卡式”演化轨迹。这种轨迹表明,榴辉岩先是在降温条件下缓慢向上回返的,这与目前已建立的多数高压、超高压岩石的快速抬升模式有所差异,而后在其进入到中地壳后又在相对较高的地温梯度下遭受退变质作用的改造。     

新疆西天山哈勒尕提铁铜矿床流体包裹体和氢氧同位素特征及其成矿意义

哈勒尕提铁铜矿床位于新疆西天山博罗科努多金属成矿带,矿体呈似层状、透镜状产于晚泥盆世中酸性侵入体与上奥陶统碳酸盐岩接触带上,是一个典型的矽卡岩矿床。本文从流体包裹体和氢氧同位素研究入手,讨论了成矿流体的特征、来源和演化及其与成矿的关系。岩相学观察表明,本矿床热液矿物中流体包裹体存在5种类型:富液相气液两相盐水包裹体(Ⅰ类)、含子矿物多相包裹体(Ⅱ类)、富气相气液两相盐水包裹体(Ⅲ类)、纯液相水包裹体(Ⅳ类)和纯气相水包裹体(Ⅴ类)。其中,Ⅰ类包裹体数量最多,各阶段热液矿物中均有发育;Ⅱ类包裹体数量较少,只见于进化交代蚀变阶段的石榴石和早退化阶段的绿帘石中;Ⅲ、Ⅳ和Ⅴ类包裹体数量最少,主要发育于晚退化阶段的石英和方解石中。流体包裹体显微测温表明,从进化交代蚀变阶段→早退化阶段→晚退化阶段,成矿流体经历了从高温(404~562℃)、中-高盐度(11.1%~51.6%NaC leqv)、中-低密度(0.47~0.80g/cm~3)到中-高温(207~465℃)、中-低盐度(2.9%~44.1%NaC leqv)、中-低密度(0.64~0.89g/cm~3)再到中-低温(117~337℃)、低盐度(1.6%~4.5%NaC leqv)、中-高密度(0.90~0.97g/cm~3)的演化过程。氢氧同位素研究表明,进化交代蚀变阶段和早退化阶段的成矿流体主要源于岩浆水,晚退化阶段则有大气降水的加入。根据流体包裹体岩相学特征,结合矿床宏观地质特征,认为流体不混溶(沸腾)是导致本矿区金属沉淀成矿的主要机制。