The role of extensional tectonics at different crustal levels on granite ascent and emplacement: an example from Tuscany (Italy)

The role of regional extension on the rise and emplacement of granites in the crust is still debated. Pluton ascent and emplacement widely occurred in Tuscany (Italy) since late Miocene during the post-orogenic collapse of the inner Apennines, and are presently occurring in the geothermal areas of Amiata and Larderello. Tuscany offers a preferred test site to study the role of regional extension on pluton ascent and emplacement at different crustal levels. Ductile extension enhanced the segregation and ascent of granitic melts in the lower crust, controlling pluton emplacement in correspondence with the brittle–ductile transition. In the brittle crust, magma ascent occurred through subvertical faults and fractures compatible with the regional extension direction; pluton emplacement mainly occurred by means of roof lifting. The case of Tuscany suggests that the extensional structures enhance melt segregation and ascent in the ductile crust, but are not efficient alone to provide a pathway for the ascent of granitic magmas in the brittle-extending crust. The estimated magmatic strain rates due to pluton emplacement in the geothermal areas are much larger than the regional tectonic strain rates. This suggests that regional tectonics did not control magma emplacement in the brittle crust and explains why nontectonic processes (roof lifting) accommodated the space required for pluton emplacement.     

Magmatic history and geophysical signature of a post-collisional intrusive center emplaced near a crustal-scale shear zone: the Plechý granite pluton (Moldanubian batholith,Bohemian Massif)

The Plechy pluton, southwestern Bohemian Massif, represents a late-Variscan, complexly zoned intrusive center emplaced near the crustal-scale Pfahl shear zone; the pluton thus provides an opportunity to examine the interplay among successive emplacement of large magma batches, magmatic fabric acquisition, and the late-Variscan stress field associated with strike-slip shearing. The magmatic history of the pluton started with the emplacement of the porphyritic Plechy and Haidmühler granites. Based on gravity and structural data, we interpret that the Plechy and Haidmühler granites were emplaced as a deeply rooted, ∼NE–SW elongated body; its gross shape and internal fabric (steep ∼NE–SW magmatic foliation) may have been controlled by the late-Variscan stress field. The steep magmatic foliation changes into flat-lying foliation (particularly recorded by AMS) presumably as a result of divergent flow. Magnetic lineations correspond to a sub-horizontal ∼NE–SW finite stretch associated with the divergent flow. Subsequently, the Třístoličník granite, characterized by steep margin-parallel magmatic foliation, was emplaced as a crescent-shaped body in the central part of the pluton. The otherwise inward-younging intrusive sequence was completed by the emplacement of the outermost and the most evolved garnet-bearing granite (the Marginal granite) along the southeastern margin of the pluton. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

The emplacement of the Late Miocene Monte Capanne intrusion (Elba Island,Central Italy): constraints from magnetic fabric analyses

Anisotropy of magnetic susceptibility (AMS) analysis has been carried out in the thermometamorphic aureole surrounding the Late Miocene Monte Capanne pluton (Elba Island, Central Italy). The identification and separation of the main carriers of the magnetic susceptibility by low-temperature and high-field AMS measurements demonstrate that a correct knowledge of the magnetic fabric is needed in order to use AMS for tectonic interpretations. Magnetic fabric data, combined with structural data from the aureole, and their comparison with data from the pluton itself, were used to constraint the mode of pluton emplacement. Results document an intimate linkage between the magmatic flow pattern and the syn-metamorphic fabrics acquired during pluton emplacement in the host rocks. The magnetic/structural fabric in the aureole rocks is dominated by flattening deformation and no systematic relationship with any regional tectonic feature is observed. These results suggest that local processes induced by magma ascent in the upper crust might have played a primary role in space generation for pluton emplacement in the Tuscan Magmatic Province, suggesting a revaluation of the modes of pluton emplacement during the post-orogenic evolution of the northern Apennine system as a whole.     

The role of dextral transpressional faulting in the evolution of an early Carboniferous mafic–felsic plutonic and volcanic complex: Cobequid Highlands, Nova Scotia, Canada

The Wentworth plutonic complex, consisting of gabbro and granite, was emplaced in the earliest Carboniferous in the Cobequid shear zone of the northern Appalachians. The plutonic complex is coeval with a 5-km-thick pile of volcanic rocks. Early alkalic A-type granite correlates with thick felsic pyroclastics and minor basalt, which are overlain by 1.5-km-thick basalts that correlate with a large gabbro pluton that is intruded, in turn, by late granites. The basalt and gabbro are Fe-rich tholeiites. The geochemistry of the late granites suggests that they formed by differentiation of a granodioritic magma resulting from assimilation of early granite by the gabbroic magma. The Wentworth plutonic complex lies on the north side of the dextral Rockland Brook fault, near the western tip of wedge-shaped basement block of the Avalon terrane. Field observations of mesoscopic structures and map contacts show that the plutonic bodies at all structural levels are related to transpressive strike–slip faults. Dykes parallel to the mylonitic foliation in the Rockland Brook fault zone and at the contacts between igneous phases suggest that the plutons developed largely through dyke to pluton construction. The plutonism was initiated by dyking related to major faults under transpression that was partitioned into shear zone-bounded blocks, while the sinking of those blocks finally provided the space for mafic magma emplacement. Dyking was active over at least a 10-Ma time period. The overall location of plutonism in the Cobequid shear zone appears related to its position at the intersection of the shear zone bounding the southwestern margin of the Magdalen basin and the E–W transpressional contact of the Avalon and Meguma terranes. Magmatism enabled thermomechanical softening of the crust and the vertical and lateral extrusion of the wedge-shaped basement blocks, whose movement controlled the localisation of the voluminous magmatic activity.     

Cooling history of the Puttetti alkali syenite pluton, southern India

The Puttetti alkali syenite pluton in southern India belongs to the suite of felsic magmatic intrusives emplaced during the Late Neoprotrozoic-Cambrian time during the final phase of amalgamation of the Gondwana supercontinent. In this study, we evaluate the cooling history of this pluton based on various isotopic systems. We present whole-rock Pb-Pb data on the syenite which yields an isochron age of 508±25Ma. Three phlogopite separates from the syenite pluton give K-Ar ages of 454.0±9.0, 448.5±8.9 and 445.6±8.8 Ma indicating cooling age at temperatures of 415°C. U-Pb analyses of zircons from this syenite yielded an age of 572±2 Ma in a previous study. With U-Pb closure temperatures >800 o C, this age probably indicates the timing of emplacement of the Puttetti pluton. Collectively, we estimate from the isotopic age data and respective closure temperatures that the syenite body cooled at about 3.2 o C/Ma from about 800 o C to about 415 o C. The markedly low cooling rate of the syenite pluton, absence of chilled margin effects, and common occurrence of pyroxene, feldspar, phlogopite and zircons megacrysts in the rock indicate that the host granulites were at high temperatures during the emplacement of the syenite magma. The cooling history of Puttetti syenite estimated in this study is closely comparable with the 3–4 o C/Ma cooling rate estimated for a granite pluton in a previous study from Madagascar. Our study suggests protracted cooling rates for the late Pan-African intrusives emplaced within the Gondwana crust, with a long residence history in a hot crust bore they were exhumed to shallower levels.     

Structural,AMS and geochronological study of a laccolith emplaced during Late Variscan orogenic extension: the Rocles pluton (SE French Massif Central)

In the southern French Massif Central, the Rocles leucogranite of Variscan age consists of three petrographic facies; textural analysis shows that they experienced the same subsolidus deformation. New chemical U-Th-Pb dating on monazite yielded 324 ± 4 Ma and 325 ± 5 Ma ages for muscovite-rich and biotite-rich facies respectively. AMS-study results agree with petrostructural observations. The magnetic planar and linear fabrics, which correspond to the preferred orientation of biotite and muscovite, are consistent with the foliation and lineation defined by the preferred mineral orientation. This fabric developed during pluton emplacement. The accordance of this granite foliation with that observed in the host rock, suggests that the Rocles pluton is a laccolith, but its present geometry resulted from post-emplacement southward tilting due to the uplift of the Late Carboniferous Velay dome. Restoration of the primary geometry of the pluton and its country-rocks to a flat-lying attitude places the granite lineation close to the trend measured in other plutons of the area. This restoration further supports the interpretation of the Rocles laccolith as a pluton emplaced along a tectonic contact reactivated during the late-orogenic collapse of the Variscan Belt.     

江西武功山热穹隆变质—岩浆作用及演化

武功山热穹隆,以加里东造山期复式花岗岩为中心,南华一寒武系遭受区域变质形成变质矿物分带,环绕岩体分布,中生代以来伸展形成的韧脆性断裂系统构成外环,共同组合形成穹窿状构造。造山早期（463．2±2．3Ma）,初始重熔岩浆与深埋变质围岩交代形成原地型英云闪长质“混染岩浆”,岩浆上升中,硅铝质组分加入使酸度增加,过渡为花岗闪长质岩浆,并产生岩体边缘混合岩。造山晚期（409．4±5．1Ma）演化为正常花岗岩,构成同源岩浆成分演化序列,并伴有明显构造应力变形。中生代伸展一岩浆作用的复合叠加,进一步强化了热穹窿的构造背景,大致在早白垩世末基本定型。     

Cooling history of the Puttetti alkali syenite pluton,southern India

The Puttetti alkali syenite pluton in southern India belongs to the suite of felsic magmatic intrusives emplaced during the Late Neoprotrozoic-Cambrian time during the final phase of amalgamation of the Gondwana supercontinent. In this study, we evaluate the cooling history of this pluton based on various isotopic systems. We present whole-rock Pb-Pb data on the syenite which yields an isochron age of 508±25Ma. Three phlogopite separates from the syenite pluton give K-Ar ages of 454.0±9.0, 448.5±8.9 and 445.6±8.8 Ma indicating cooling age at temperatures of ∼415°C. U-Pb analyses of zircons from this syenite yielded an age of 572±2 Ma in a previous study. With U-Pb closure temperatures >800 o C, this age probably indicates the timing of emplacement of the Puttetti pluton. Collectively, we estimate from the isotopic age data and respective closure temperatures that the syenite body cooled at about 3.2 o C/Ma from about 800 o C to about 415 o C. The markedly low cooling rate of the syenite pluton, absence of chilled margin effects, and common occurrence of pyroxene, feldspar, phlogopite and zircons megacrysts in the rock indicate that the host granulites were at high temperatures during the emplacement of the syenite magma. The cooling history of Puttetti syenite estimated in this study is closely comparable with the 3–4 o C/Ma cooling rate estimated for a granite pluton in a previous study from Madagascar. Our study suggests protracted cooling rates for the late Pan-African intrusives emplaced within the Gondwana crust, with a long residence history in a hot crust bore they were exhumed to shallower levels.     

Geochronological constraints on the emplacement history of an anorthosite — rapakivi granite suite: U−Pb zircon and baddeleyite study of the Korosten complex,Ukraine

U–Pb zircon/baddeleyite ages obtained for the Korosten anorthosite-rapakivi granite complex, Ukrainian shield, suggest that different magmatic phases were emplaced during a period of ca. 30 million years as a series of distinct igneous episodes. The earliest 1789.1±2.0 Ma anorthosites were followed by 1781.3±3.2 Ma dykes of plagiogranite porphyries. The emplacement of a major rapakivi granite phase took place at 1767.4±2.2 Ma, and was followed by emplacement of layered intrusions of anorthosites, gabbronorites, diabases and ultrabasic rocks between 1761 and 1758 Ma. The minimum duration of magmatism of about 30 million years, the 6–15 million years interval between igneous pulses, and alternation of discrete episodes of basic and felsie magmatism are common features of major anorthositemangerite-charnockite-rapakivi granite complexes. Temporal distribution of igneous activity in the Korosten complex shows that the gabbro-anorthosites and the granites are not comagmatic, although they are possibly cogenetic, and that at least four portions of granitic and basic magmas were generated during a relatively long period of at least 30 million years. The time gap of about 20–25 million years between early basic and later and more voluminous granitic magmatism, characteristic of the Korosten pluton, Wiborg and Salmi batholiths, probably reflects the duration of extensional processes before the generation of large volumes of magma in the lower crust.     

新疆东准噶尔老鸦泉碱性岩及相关锡矿的岩石地球化学特征

老鸦泉富碱花岗岩杂岩体与侵入其中的富碱花岗斑岩岩体及云英岩型锡矿体、石英脉型锡矿体等REE配分曲线类似,均具有强烈的Eu亏损,它们的微量元素蛛网图等岩石地球化学特征也类似,是同源岩浆结晶分异演化的结果。锡矿体是老鸦泉富碱岩浆分异演化及以钠质为主的强烈碱交代自变质作用的最终产物。侵入于老鸦泉岩体内的花岗斑岩为锡矿体的直接围岩,它是岩浆结晶分异更晚期混入了更多地壳组分,并向酸性方向演化的产物,该花岗斑岩经自变质热液蚀变作用造成锡的富集并成矿。因此,碱性岩浆结晶分异晚期混有地壳组分,岩浆向酸性演化可能是碱性花岗岩形成锡矿的重要条件之一。     

幔源岩浆在地壳中分层侵位的控制因素：二维热-力学模拟

幔源岩浆在地壳内的上升和聚集样式不仅依赖于岩浆自身的性质, 还取决于围岩的强度和热状态。已有数值和物理模型大多关注岩浆自身物性对其上升过程的影响, 而对围岩流变强度或热状态如何影响岩浆的上升和聚集过程的研究相对薄弱, 尤其是周期性的幔源岩浆在壳内分层侵位的受控因素仍然不清楚。本文利用二维热-力学数值模拟方法, 通过发展多期岩浆脉冲和岩墙生成算法, 研究了岩浆从深部地幔上升至地壳内部侵位的动力学过程, 系统测试了地壳(围岩)地温梯度(上、下地壳的地温梯度分别以G_UC和G_LC表示)和地壳强度对岩浆上升过程和聚集样式的影响。模拟结果表明: (1)地壳地温梯度对岩浆的侵位深度有重要影响, 岩浆侵入冷地壳(G_UC=G_LC=12.5K/km), 岩浆主体在岩石圈深度聚集, 地表的相对高差小于140m;岩浆侵入温地壳(G_UC=G_LC=15K/km)在下地壳底部聚集形成岩浆房, 上升至上、下地壳界面, 岩浆房上方的地表地形呈现中心拗陷两翼隆起的形态, 地表最大高程可达3km; 岩浆侵入热地壳(G_UC=G_LC=17.5K/km)仅在下地壳底部聚集形成岩浆房, 地形演化特征与温地壳背景的情况类似, 但最大高程小于1.5km。(2)在同等地壳地温梯度条件下, 上、下地壳的相对强度决定了岩浆的聚集样式: 下地壳的强度越弱, 岩浆更易在下地壳聚集形成岩浆房; 上地壳的强度越弱, 岩浆更易在地表喷发。进一步分析表明: 岩浆的聚集样式受地壳地温梯度与地壳流变分层性的共同控制, 地壳越热且流变强度分层性越显著则越有利于岩浆在地壳中的多层级侵位; 每一期岩浆脉冲的供给均会导致岩浆房内部的超压值骤增。我们的模拟结果对理解火山喷发前壳内岩浆的赋存状态及岩浆活动区的地形演化具有启示意义。

     

Emplacement of the Ardara pluton (Ireland): new constraints from magnetic fabrics, rock fabrics and age dating

The Ardara pluton as part of the Donegal batholith was intruded into Neoproterozoic metasediments and metadolerites at mid-crustal levels. The emplacement mechanism of the Ardara granite is very controversial, and mechanisms ranging from diapirism, ballooning and stoping followed by nested diapirism have been proposed. Magnetic fabrics, rock fabrics and K/Ar dating of micas are used here to constrain the emplacement history. The compositional zoning of the Ardara pluton is clearly reflected in the different bulk magnetic susceptibilities between the outer quartz monzodiorite and the central granodiorite, whereas the intervening tonalite is of intermediate nature. The magnetic carriers are characterized by the anisotropy of the magnetic susceptibility (AMS), thermomagnetic measurements and through high field analyses (HFA). The separation of the ferrimagnetic and paramagnetic contributions revealed that biotite and magnetite control the AMS in the quartz monzodiorite. Both minerals are oriented in such a way that their summed contribution is constructive and originates from the shape fabric of magnetite and the texture of biotite. Biotite is responsible mainly for the AMS in the tonalite and granodiorite. The magnetic foliation can be directly related to the macroscopic foliation and also to the D4 structures in the country rocks. The foliation is consistent with the geometry of the roughly circular shape and has a mostly steep to vertical dip. Towards the central granodiorite the magnetic foliation dies out, although plagioclase texture measurements indicate a weak magmatic shape fabric. With the exception of the tail, the K_max axes (magnetic lineation) vary from steeply to gently plunging. The so-called lineation factor is approximately 1.01 and therefore points to a less significant axial symmetry. These observations coincide with strain estimates on mafic enclaves that show a very consistent pattern of K ∼0 flattening strain. Texture analyses of biotite and quartz additionally support the observations made by the strain analyses and the magnetic fabric data. Microstructural investigations give evidence that the fabrics are associated with the emplacement over a range of temperatures from truly magmatic to high-temperature solid-state conditions. The age of the intrusion is still under discussion, but a new cooling age was determined by K/Ar dating of biotite at 403.7±8 Ma corresponding to a temperature range between 450 and 300°C. For a mylonite along the southern contact between the Ardara pluton and the country rock a K/Ar muscovite age of 378.8±7 Ma indicates a minimum age for the shear zone when the Ardara pluton must have already been cooled down below 350±50°C. Received: 28 January 1999 / Accepted: 28 December 1999     

A magnetic fabric study of the Shap region in the English Lake District

The magnetic susceptibility anisotropy technique was applied to 50 sites, comprising 280 core samples from the Shap Granite and the surrounding country rocks from both within and outside the thermal aureole. The magnetic fabrics of individual cores from the granite pluton indicate preferred orientations of non-equi-dimensional magnetite grains. This fabric developed during the slow ascent and consequent cooling of the magma. The sites from the metamorphic rocks from the immediate contact with the Shap Granite show weak axial shortening directions which are subnormal to the granite contact. Core samples from the surrounding Ordovician and Silurian rocks within the thermal metamorphic aureole but further from the granite have oblate magnetic- fabric ellipsoids with subvertical magnetic foliations trending approximately NE-SW, parallel to the regional Caledonian cleavage planes. This suggests that the magnetic fabric observed in the granite is primary with respect to the time of emplacement of the magma, and that this emplacement post-dates the main compressive phase of the Caledonian Orogeny. The effect of the granite on the country rock is mainly thermal metamorphism with mechanical deformation limited to a very narrow strip around the granite.     

广西海洋山花岗岩体侵位构造特征

花岗岩是大陆地壳的重要组成部分,是地球动力学演化的示踪剂。花岗岩体侵位构造的研究对于揭示花岗岩体的变形历史和侵位机制具有重要的科学价值。本文研究了海洋山花岗岩体的内部构造、与岩浆侵位应力有的围岩构造及热接触变质带特征,探讨了岩体和围岩的应变状态。研究发现,从岩浆侵位到冷凝固结,海洋山花岗岩体经历了液态流动、塑性变形和“半固态”冷凝阶段的演化。岩体各单元的应变类型分别是单轴压扁、平面应变、单轴压缩,     

Emplacement and deformation of the ca. 1.45 Ga Karlshamn granitoid pluton,southeastern Sweden,during ENE-WSW Danopolonian shortening

Anisotropy of magnetic susceptibility and structural geology of the ca. 1.45 Ga Karlshamn pluton (southern Sweden) are used to study its emplacement and structural evolution. The Karlshamn pluton is one of the largest metaluminous A-type granitoid intrusions in southern Sweden. It is a multiphase body made up of two suites that differ in composition but which have similar crystallization ages. The magmatic foliation, ductile shear zones and granite–pegmatite filled fractures were mapped as well as the metamorphic foliation and extension lineation in the metamorphic host rocks. The anisotropy of magnetic susceptibility was used to map the magnetite petrofabric of the pluton, providing a larger data set for both the magmatic foliations and lineations, which could not be mapped in the field. The fabrics within the pluton are continuous with the metamorphic fabrics in the country rocks. Both the pluton and the country rock fabrics were folded during ENE–WSW compression, while the pluton was still a magma mush. The stress field orientation during cooling of the pluton is determined on the basis of magmatic, ductile and brittle structures in the Karlshamn pluton that formed successively as the pluton cooled. The compressional event is referred to as the Danopolonian orogeny and therefore the Karlshamn granitoids, and other plutons of similar composition and age in central and southern Sweden, on the Danish Island of Bornholm, and in Lithuania, may be considered as syntectonic intrusions and not as anorogenic, as was previously thought.     

Prolonged postcollisional shoshonitic magmatism in the southern Svecofennian domain – a case study of the Åva granite–lamprophyre ring complex

The Åva ring complex is one of four Paleoproterozoic postcollisional shoshonitic ring complexes in southwestern Finland. It is composed of ring dykes of K-feldspar megacryst-bearing granite, mingled in places with a shoshonitic monzonite, and lamprophyre dykes crosscutting all the rocks in a radial pattern. A survey was undertaken to trace the magma chamber beneath the ring complex to date it and measure some intensive parameters to clarify the crystallisation conditions at depth before the granite was emplaced in the upper crust. Mineral separates were extracted from the core zones of K-feldspar megacrysts in the granite, heavy mineral fractions (including zircons) from these separates were used for P-T assessment and age determinations, and the results were compared to data obtained from bulk rock samples. It appears that magma differentiation took place in a midcrustal magma chamber (at 4 to 7 kbar) possibly 30 Ma before the emplacement of the ring complex in the upper crust (deep assemblage 1790 Ma, shallow assemblage 1760 Ma). Relatively high activity of the alkalies and a low oxygen fugacity characterised the midcrustal chamber. The juvenile Svecofennian crust was invaded by shoshonitic magmas from an enriched lithospheric mantle over a long period of time. Some of these magmas were stored and differentiated in the middle crust before transportation to the upper crust. The results also show that coarse-grained granites may provide evidence for several magmatic evolutionary episodes, e.g., differentiation and crystallisation in different environments prior to final emplacement.     

望云山复式花岗岩体磁性组构特征及其动力学意义

为了分析望云山复式花岗岩体侵位时的动力学状态，对该岩体进行了岩石磁组构参数测定，磁化率的变化特征反映了望云山得式岩体侵位过程中构造环境的变化和单元岩石的暗色矿物组成及其性程度的高低；磁面理的产状与岩体形态和岩石单元分布相吻合，清晰地反映了不同构造单元岩浆侵位方式；磁线理指示岩体的侵位中心，线理表现形式不一，标示侵位方式与受构造应力的不同；晚期岩浆对早期岩浆中的磁线理有一定的改造作用，磁线理方向基本上反映了岩浆原始流动状态；从磁化率椭球参数可以看出岩浆侵位的应变状态；岩浆应力场分布体现了岩浆侵位方式及其所处构造环境，岩体岩石磁组构参数佐证了区域构造,围岩构造及岩体内部其他构造所反映的岩体侵位机制。     

川西石棉花岗岩的锆石U-Pb年龄和岩石地球化学特征: 岩石成因与构造意义

扬子西缘新元古代岩浆岩分布广泛, 目前对其成因和构造背景还存在很大争议.对扬子西缘康滇裂谷北段石棉花岗岩体进行了系统的SHRIMP锆石U-Pb年龄、岩石学和元素-Nd同位素地球化学研究, 结果表明该岩体是弱铝质的高钾钙碱性Ⅰ型花岗岩, 形成于818±7 Ma, 是由前存年轻(中元古代末-新元古代初)岛弧地壳物质部分熔融形成的, 并混染了少量古老地壳物质.石棉花岗岩形成于扬子地块西缘由会聚挤压向陆内伸展的转折时期, 其"岛弧地球化学特征"是继承了源岩的地球化学特征的结果, 不代表其形成时的构造环境.      

The Genesis of the Cornubian Batholith (South-West England): the example of the Carnmenellis Pluton

The origin of the Carnmenellis granite is discussed in the lightof new petrographic and chemical data which suggest that thepresent mineral assemblage comprises refractory, magmatic, subsolidusand hydrothermal phases. The present homogeneity of the plutonresults from subsolidus to pervasive hydrothermal reworkinginvolving selective leaching of alkalis and Fe-Mg and an increasein Li, F, B, and Rb, which were introduced, or redistributed,through high temperature hydrothermal circulation. The compositionsof the primary minerals were re-equilibrated with respect tothese water-rock interactions. Rb-Sr systematics demonstratethat whole rock samples show lower ages than the minerals (260and 285 Ma, respectively). The perturbation in the former isotopedistribution is in agreement with the chemical re-equilibrationof the mica with external Rb-rich and Sr-depleted solutions.The distribution of rare-earths reveal that most reside in afew accessory phases, viz. monazite, zircon, and apatite; theirnear-liquidus fractionation is responsible for the loweringof the bulk REE content compared to pelitic source materialand for the present REE pattern of the pluton. Conditions of magma generation by partial melting of cordierite-sillimanite-spinelpelitic gneisses were estimated to be around 800?C and 5 kbwith water content in the magma of about 4 wt. per cent. H₂Osaturation was reached late during the ascent of the magma,making possible the crystallization of muscovite from the residualmelt. The highly evolved peraluminous composition of the plutonis not explained by a simple magmatic differentiation. Comparedto the Carnmenellis pluton, the Land's End massif of similarmineralogy appears less evolved, either because of less subsolidusreworking or deeper structural emplacement.     

Structural and magnetic fabric study of the Marimanha granite (Axial Zone of the Pyrenees)

The structural and magnetic fabric study of the Marimanha granite, Axial Zone of the Pyrenees, provides new data to characterize the zonation and the internal structure of the pluton. The Marimanha granite intrudes Cambro–Ordovician clastic rocks and Silurian–Devonian limestones and slates. The zonation of the low field magnetic susceptibility, consistent with the petrological zonation of the igneous body, indicates a concentric arrangement of rock types, with more basic compositions at the external areas. This pluton is characterized by a low susceptibility, and rock–magnetic studies indicate a majority of “paramagnetic” samples. Magnetic foliations strike parallel to petrographic contacts and to contours of zonation of magnetic susceptibility, and show a dominant NE–SW strike, steeply dipping towards the North. Locally, in the northern border of the pluton foliation directions become perpendicular to petrographic contacts and depict sigmoidal trajectories. Magnetic lineations are characterized by the predominance of NE–SW trends with shallow plunges to the NE and SW. These foliations and lineations are parallel to the slight elongation of internal petrographic zonation. Magnetic fabric within the granitoid body and internal elliptical shape of petrographic zonation, suggest an intrusion contemporary with a transpressional regime and NNW–SSE shortening, syntectonic with the late stages of the Variscan orogeny. These results are in accordance with anisotropy of magnetic susceptibility studies of others plutons in the Pyrenees. To explain the origin of the Marimanha granite we propose magma ascent through faults at depth and emplacement by ballooning in situ at the rheological boundary between Cambro–Ordovician and Siluro–Devonian metasediments.