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1.
新疆乌仑古-斋桑泊构造带晚古生代花岗岩类的稀土元素分布模式 总被引:6,自引:0,他引:6
本文选择新疆北部乌仑古-斋桑泊构造带上6个有代表性的花岗岩体,系统进行了岩体地质、显微岩相学、主量元素与稀土元素地球化学研究.根据岩石副矿物类型与主要造岩矿物组成解释了各种岩石类型的稀土配分,根据主量元素-稀土元素相关性闸明了稀土元素在结晶分异过程中的分镏,按照两阶段、不同结晶分异程度模型对各种岩石类型的稀土配分进行了定量模拟;根据不同岩石类型的时空分布及其与构造环境的对应关系探讨了它们的成因。最后,对碱性花岗岩的成因提出了新的解释。 相似文献
2.
阿尔泰造山带花岗岩时空演变、构造环境及地壳生长意义——以中国阿尔泰为例 总被引:23,自引:0,他引:23
阿尔泰造山带横跨中、俄、哈、蒙四国边界,是中亚造山带主要组成部分,发育大量的花岗岩等侵入体。本文研究总结这些岩体的时空演变、成因类型和构造环境,并探讨其增生造山和地壳生长意义。依据锆石年龄,这些岩体可大致分为早中古生代的470~440Ma(中晚奥陶世)和425~360Ma(晚志留世—晚泥盆世)、晚古生代的355~318Ma(早石炭世)和290~270Ma(早二叠世)以及早中生代245~190Ma(中晚三叠世—早侏罗世)3个阶段5个期次,其中425~360Ma花岗岩可进一步细分为425~390Ma和380~360Ma两个峰期。早中古生代(470~360Ma)花岗岩体分布广泛,主要为钙碱性I型,多具不同程度变形,其中470~440Ma岩体变形极强(片麻岩体)。它们为同造山俯冲增生产物,形成于活动陆缘俯冲(470~440Ma)、继续俯冲弧后盆地伸展(420~390Ma)到聚合碰撞(380~360Ma)的过程中。早石炭世岩体发育于造山带南部,为不变形圆形状或不规则状,具典型碱性花岗岩特征,为晚(后)造山产物。早二叠世岩体主要发育于阿尔泰造山带南部,少量分布于造山带内部,多为圆形,不变形,少量变形岩体集中在额尔齐斯构造带内,成因类型以I、A型为特点,伴生有大量基性岩脉(体),显示为后造山底侵伸展环境。早中生代岩体为不变形圆形或不规则状,具有高分异I型和S型花岗岩特征,伴有稀有金属矿产,具有板内环境特点。花岗岩体同位素填图显示,阿尔泰中部块体岩体具有较低的εNd(t)值和老的Nd同位素模式年龄(1~1.3Ga),暗示存在古老地壳基底;由北向南εNd(t)值增高,模式年龄变年轻,显示陆壳向南生长,其中水平和垂向生长率分别为18%~28%和7%~8%。中生代时期阿尔泰造山带保留水平增生结构,没有发生大规模构造块体垂向叠覆。阿尔泰造山带经历了古陆缘构造演化,奥陶纪—志留纪陆缘俯冲,泥盆纪陆弧及陆缘边缘裂解、弧后盆地形成,晚泥盆世最终洋盆闭合及早石炭世各块体拼合的演化过程。该研究表明增生造山带中同样存在构造演化的阶段性;中亚增生造山作用不仅具有弧前增生,而且还存在陆缘裂解再拼合作用。 相似文献
3.
The Southern Cross Province in the Archean Yilgarn Block of Western Australia comprises large dome-shaped granitoid bodies surrounded by narrow greenstone belts. Determination of the emplacement mechanism of these domes is fundamental for understanding the tectonic history of this region. Many structures in the greenstone belts show trends which reflect their tectonic relationships with the granitoid domes. Some of these structures host large gold occurrences. The domes have concentric foliation patterns, both within the granitoids themselves, and in the neighbouring greenstone belts. The smaller domes only have radial mineral lineation patterns in their wall rocks, but the largest dome, the Ghooli Dome, has also a tangential pattern. The prevailing gentle dip of the foliation in the centre of this dome and the abundance of greenstone xenoliths suggest that the present exposures are close to its roof. Geothermometry and geobarometry on mineral assemblages in the Ghooli granitoid and its xenoliths show that its crystallisation temperature was just above 700 °C at a relatively high pressure of 4.3 to 6.2 kbar. These P-T conditions are higher than those inferred for peak metamorphism in the greenstones. Therefore, this granitoid must have been emplaced initially at crustal levels deeper than the maximum burial of the greenstones which flank the dome. The Ghooli Dome has a SHRIMP U-Pb zircon age of 2691 ± 7 Ma. Diapiric rise of the granitoid plutons taking place in a regional compressive tectonic regime is considered to be the most likely mechanism for the final emplacement of these bodies into their host rock at about 2636–2620 Ma. This concept is preferred over the alternatives because it best reconciles the calculated P-T data, the observed structural patterns, the presence of pegmatites and aplites in the host rock, and the orientation of the mineral-bearing structures. 相似文献
4.
新疆西准噶尔塔北地区晚古生代中酸性侵入岩的成因分析 总被引:2,自引:1,他引:1
塔尔巴哈台-萨吾尔地区位于西准噶尔北部,中酸性岩浆侵入作用十分强烈。本文对塔尔巴哈台-萨吾尔地区西段的塔北地区出露的克孜贝提、哲北、巴斯、卡姆斯台、阿西和科鲁克6个代表性中酸性岩体的地质、成岩年代和地球化学特征进行研究。结果表明,塔北地区中酸性岩浆作用可分为早石炭世早期(343~338Ma)、早石炭世晚期(328~324Ma)和晚石炭世(315Ma)三个阶段:早石炭世早期中酸性岩体包括克孜贝提、哲北岩体;岩性主要为闪长岩,具有碱性、过铝质岩石的特点;早石炭世晚期中酸性岩体包括巴斯、卡姆斯台和阿西岩体,岩性主要为花岗闪长岩,具有钙碱性-碱性和准铝质-过铝质岩石的特点;晚古生代中酸性侵入岩体为科鲁克岩体,岩性为钾长花岗岩,具有碱性和过铝质岩石的特点。从早石炭世至晚石炭世,塔北地区中酸性岩具有向富K、Si和贫Ca演化的趋势,研究源区以壳源为主、有幔源物质混入的特征;岩浆演化具有分离结晶增强、围岩混染减弱的特点。塔北地区早石炭世早期中酸性岩体形成于俯冲岛弧环境,早石炭世晚期-晚石炭世岩浆侵位于后碰撞环境。 相似文献
5.
6.
花岗岩构造与侵位机制研究进展 总被引:7,自引:1,他引:7
近年来对造山带花岗岩构造与侵位机制的研究表明,花岗岩不但可以侵位在区域伸展的构造背景,也可以侵位在区域挤压(缩短)的构造背景。花岗岩侵位受断裂的控制并不是像以前认为的那样明显,而是受多种侵位机制的共同作用,而构造样式和变形组构则是侵位机制研究的基础。提出了一些新的研究思路和方法。此外,对大别山中生代花岗岩构造、侵位机制作了简要讨论。 相似文献
7.
Luchitskaya M. V. Sokolov S. D. Verzhbitsky V. E. Vatrushkina E. V. Ganelin A. V. Golionko B. G. 《Doklady Earth Sciences》2019,484(1):48-52
Doklady Earth Sciences - New U–Pb SIMS zircon datings from granitoid plutons and dikes of Western Chukotka, together with data obtained earlier, confirm that postcollisional granitoid... 相似文献
8.
Satoshi Saito Makoto Arima Takashi Nakajima Kenichiro Tani Takashi Miyazaki Ryoko Senda Qing Chang Toshiro Takahashi Yuka Hirahara Jun-Ichi Kimura 《Contributions to Mineralogy and Petrology》2012,163(4):611-629
The Miocene Kaikomagatake pluton is one of the Neogene granitoid plutons exposed in the Izu Collision Zone, which is where
the juvenile Izu-Bonin oceanic arc is colliding against the mature Honshu arc. The pluton intrudes into the Cretaceous to
Paleogene Shimanto accretionary complex of the Honshu arc along the Itoigawa-Shizuoka Tectonic Line, which is the collisional
boundary between the two arcs. The pluton consists of hornblende–biotite granodiorite and biotite monzogranite, and has SiO2 contents of 68–75 wt%. It has high-K series compositions, and its incompatible element abundances are comparable to the average
upper continental crust. Major and trace element compositions of the pluton show well-defined chemical trends. The trends
can be interpreted with a crystal fractionation model involving the removal of plagioclase, biotite, hornblende, quartz, apatite,
and zircon from a potential parent magma with a composition of ~68 wt% SiO2. The Sr isotopic compositions, together with the partial melting modeling results, suggest that the parent magma is derived
by ~53% melting of a hybrid lower crustal source comprising ~30% Shimanto metasedimentary rocks of the Honshu arc and ~70%
K-enriched basaltic rocks of the Izu-Bonin rear-arc region. Together with previous studies on the Izu Collision Zone granitoid
plutons, the results of this study suggest that the chemical diversity within the parental magmas of the granitoid plutons
reflects the chemical variation of basaltic sources (i.e., across-arc chemical variation in the Izu-Bonin arc), as well as
a variable contribution of the metasedimentary component in the lower crustal source regions. In addition, the petrogenetic
models of the Izu Collision Zone granitoid plutons collectively suggest that the contribution of the metasedimentary component
is required to produce granitoid magma with compositions comparable to the average upper continental crust. The Izu Collision
Zone plutons provide an exceptional example of the transformation of a juvenile oceanic arc into mature continental crust. 相似文献
9.
Field studies in the Eucalyptus area, northeastern Yilgarn Block have shown intrusive and extrusive rocks in an Archaean greenstone sequence to be comagma‐tic, and have suggested the sequence of subsequent granitoid intrusion and gold mineralisation. Andesitic volcanic rocks and related subvolcanic granodiorite porphyry and epiclastic sediments were followed by tholeiitic basalt with gabbro/dolerite sills and dykes, which were in turn succeeded by high‐Mg basalt with associated peridotite intrusions. Large, irregular gabbro and peridotite intrusions, which are inferred to represent subvolcanic magma chambers, occur in lower stratigraphic levels, whereas comformable subvolcanic sills occur in higher stratigraphic levels. Granodiorite plutons were followed by adamellite plutons; at least some gold mineralisation was contemporaneous with granitoid emplacement. 相似文献
10.
Four suites of granitoids intruded the supracrustal greenstone sequence in the Murchison Province of the Archaean Yilgarn Craton during a 300 million year period. The earliest granitoid suite intruded the base of the developing greenstone sequence as a series of thin subhorizontal tabular plutons of monzogranite and granodiorite at 2.9Ga. This suite has been deformed and metamorphosed, and is now a pegmatite-banded gneiss. At about 2.7 Ga, thick, subhorizontal, tabular plutons of monzogranite intruded the base of the greenstone sequence. This suite, which now forms much of the regions between greenstone belts, was folded and recrystallized during regional deformation and metamorphism. Two distinct but contemporaneous suites of post-folding granitoids intruded the greenstone belts at 2.6 Ga, largely post-dating regional metamorphism. One suite of post-folding granitoids comprises tonalite, trondhjemite, granodiorite and monzogranite plutons, confined mainly to the north of the Province. The other suite comprises quartz-rich monzogranite and syenogranite plutons, confined mainly to the south of the Province.Pegmatite-banded gneiss, recrystallized monzogranite, and the northern suite of post-folding granitoids were all derived by partial-melting of mafic crustal rocks. Most post-folding granitoids from the southern suite were derived by partial-melting of siliceous crustal material at least as old as basal greenstones. The modes and sites of intrusion of all granitoid plutons were controlled by active tectonic processes or by structural features of the crust. Widespread 2.6 Ga Rb---Sr ages of pegmatite-banded gneiss and recrystallized monzogranite reflect post-metamorphic cooling which was contemporaneous with intrusion of post-folding granitoids. 相似文献
11.
南秦岭勉略带北光头山花岗岩体群的成因及其构造意义 总被引:31,自引:15,他引:31
南秦岭勉略带北部花岗岩体从闪长岩到花岗闪长岩和花岗岩变化,反映了钙碱性岩岩石组合特征,矿物组成以长石、石英、黑云母和少量角闪石为主,副矿物有锆石、磷灰石、磁铁矿和榍石,岩石化学上它们相对高K、Sr,Zr/Y比值较高,富集LEE和LILE,贫化HFSE,与后碰撞富钾钙碱性I型花岗岩特征一致。此外,它们明显亏损Nb、Ta,低Y、Yb和有较高的 LaN/YbN和Sr/Y比值,多数岩体发育淬冷岩浆结构的暗色闪长质微粒包体,包体与寄主花岗岩的稀土及微量元素存在明显差异,证明它们是地壳增厚背景下,可能由下部地壳拆沉作用导致的分别来自幔源和下部地壳熔融的二元岩浆混合演化的产物。个别高分异岩体的Fetot/Mg比值高、明显亏损Sr、Ba、Ti、P,呈现了向强分异A型花岗岩过渡的后碰撞富钾过铝偏碱性花岗岩特征。因此,结合西部岩体形成年代早于东部岩体分析,西部形成时代较早偏中基性的含有大量闪长质微粒包体的岩体代表了早期下部地壳拆沉作用的发生,东部形成较晚分异程度高的高钾钙碱性Ⅰ型花岗岩体的出现指示了南、北两大陆块碰撞汇聚后向伸展的转折,而更晚期高度分异的姜家坪富钾花岗岩体的出现则表明秦岭造山带已进入主碰撞结束期的伸展拉张演化阶段,并预示了新的板内演化期的到来。 相似文献
12.
南祁连党河南山花岗岩类特征及其构造环境 总被引:4,自引:0,他引:4
党河南山地区地处南祁连重要成矿带,区内花岗岩类岩体包括扎子沟岩体、鸡叫沟岩体及贾公台岩体,伴有不同程度的金、铜矿化。扎子沟岩体主要由花岗闪长岩组成,侵位于震旦纪火山岩系。鸡叫沟岩体主要由石英二长闪长岩组成,贾公台岩体主要由斜长花岗岩组成,两者侵位于奥陶纪碎屑岩系。3个岩体Rb-Sr等时线年龄分别为(510.85±14)Ma、(395.06±51)Ma及(355±91)Ma,前者对应于早-中寒武世,后二者对应于志留纪-泥盆纪。3个岩体均属于钙碱性花岗岩系列,其中扎子沟岩体属于该系列的中钾花岗闪长岩系列,鸡叫沟岩体属于高钾二长岩系列,贾公台岩体属于低钾奥长花岗岩系列。综合岩相学、岩石化学及微量元素和稀土元素的地球化学特征,区内3个岩体均形成于I型活动陆缘环境,为中南祁连造山带加里东期构造岩浆活动的产物。 相似文献
13.
Dayu Zhang Feng Yuan Noel White Pete Hollings Wenjiao Xiao 《International Geology Review》2017,59(9):1082-1096
ABSTRACTThe Dayinsu area is located in the northern part of the West Junggar district near the border between China and Kazakhstan and is an important component of the Central Asian Orogenic Belt (CAOB). The Dayinsu area hosts numerous granitoid plutons in Devonian–Carboniferous volcano–sedimentary strata. The older Laodayinsu and Kubei (345–330 Ma) plutons are located in the west with the younger Bayimuzha and Qianfeng (330–325 Ma) plutons in the east. The whole-rock SiO2 contents of the four granitoid plutons range from 52.22 to 68.42 wt.% and total alkaline contents (K2O + Na2O) range from 4.94 to 9.16 wt.%. The granites are enriched in large ion lithophile elements and light rare earth elements with depletions in Nb, Ta, Ce, Pr, P, and Ti. The plutons are metaluminous with I-type signatures. The geochemistry of the intrusions suggests that they formed in a subduction zone setting, and subsequently underwent fractional crystallization during emplacement, with higher degrees of fractionation in the eastern sector than in the west. Similarities in the geochronology and geochemical characteristics of the granitoid plutons in Dayinsu to those in the Tabei district (west to Dayinsu area) suggest that both districts are part of the Carboniferous Tarbagatay Mountain intrusive event. The early Carboniferous (345–324 Ma) granitoid intrusions in the Tarbagatay Mountain likely formed in an island arc subduction setting during the evolution of the CAOB. 相似文献
14.
Veridiana T. de S. Martins Wilson Teixeira Carlos M. Noce Antonio C. Pedrosa-Soares 《Gondwana Research》2004,7(1):75-89
Nd and Sr isotope data were obtained for three plutonic suites (595–505 Ma) and distinct young granitoid intrusions (503 Ma), from the southern part of the Neoproterozoic Araçuaí Orogen. The Sr and Nd isotopes (87Sr/86Sr, eNd) and TDM values from the plutons and distinct basement rocks are used to constrain the magma genesis of the granitoid plutons. These isotopic parameters, with eNd values ranging from −4 to −24 and TDM ages from 1.3 to 2.8 Ga, for the granitoid suites, and −5 to −40 and 3.5 to 1.5 Ga, for the distinct Archean and Proterozoic basement complexes, suggest that the Jequitinhonha Complex metasediments are the main crustal source for most of these plutons, except for the youngest granitoid intrusions, which may have a protolith similar to the Mantiqueira and Guanhães complexes. Furthermore, the isotope data indicate a minor, but important, participation of Neoproterozoic oceanic lithosphere in the granite genesis, which corroborates with a confined orogenic model and a narrow oceanic consumption (B-subduction) for the Araçuaí Orogen. 相似文献
15.
新疆准噶尔晚古生代陆壳垂向生长(Ⅰ)——后碰撞深成岩浆活动的时限 总被引:71,自引:56,他引:71
准噶尔是新疆北部古生代造山带的重要组成部分,以广泛发育晚古生代后碰撞花岗岩为特征,是中亚造山带中显生宙陆壳生长作用非常显著的地区之一。根据新近获得的SHRIMP锆石U-Pb年龄,并参考已经发表的锆石U-Pb年龄,本文重新厘定了准噶尔晚古生代后碰撞深成岩浆活动的时限。按照最新的国际地质年表中石炭纪和二叠纪划分方案(Gradstein et a1.,2004),准噶尔后碰撞深成岩浆活动是从早石炭世中-晚维宪期开始、于早二叠世末期结束的。东准噶尔后碰撞深成岩浆活动发生在330-265Ma之间,而西准噶尔后碰撞深成岩浆活动的时限在340-275Ma之间,持续时间分别约65Ma。但是,在东准噶尔,后碰撞深成岩浆活动集中在330~310Ma和305~280Ma两个时段发生,而在西准噶尔,后碰撞深成岩浆活动的高峰发生在310~295Ma之间。准噶尔晚古生代后碰撞深成岩浆活动在空间上没有受到重要地质界线(如蛇绿岩带)的分隔控制,在有的地方花岗岩还可以侵位在蛇绿岩带之中。而晚古生代后碰撞深成岩浆活动不但在准噶尔分布广泛,而且在准噶尔北邻的阿尔泰造山带和南邻的天山造山带中均有出现,具有广泛的区域性。 相似文献
16.
In the Archaean Murchison Province of Western Australia, granitoid batholiths and plutons that intruded into the ca. 2.7–2.8
Ga and ca. 3.0 Ga greenstone belts can be divided into three major suites. Suite I is a ca. 2.69 Ga monzogranite-granodiorite
suite, which was derived from anatexis of old continental crust and occurs as syn-tectonic composite batholiths over the entire
province. Suite II is a trondhjemite-tonalite suite (termed I-type) derived from partial melting of subducted basaltic crust,
which intruded as syn- to late-tectonic plutons into the greenstone belts in the northeastern part of the province where most
of the major gold deposits are situated. One of the Suite II trondhjemite plutons has a Pb−Pb isochron age of 2641±36 Ma,
and one of the structurally youngest tonalite plutons has a minimum Pb−Pb isochron age of 2630.1±4.3 Ma. Suite III is a ca.
2.65–2.62 Ga A-type monzogranite-syenogranite suite which is most abundant in the largely unmineralised southwestern part
of the province. Gold deposits in the province are mostly hosted in brittle-ductile shear zones, and were formed at a late
stage in the history of metamorphism, deformation and granitoid emplacement. At one locality, mineralisation has been dated
at 2636.8±4.2 Ma through a pyritetitanite Pb−Pb isochron. Lead and Sr isotope studies of granitoids and gold deposits indicate
that, although most gold deposits have initial Pb isotope compositions most closely similar to those of Suite II intrusions,
both Suite I and Suite II intrusions or their source regions could have contributed solutes to the ore fluids. These preliminary
data suggest that gold mineralisation in the Murchison Province was temporally and spatially associated with Suite II I-type
granitoids in the northeastern part of the province. This association is consistent with the concept that Archaean gold mineralisation
was related to convergent-style tectonic settings, as generation of both Suite II I-type granitoids and hydrothermal ore fluids
could have been linked to the dehydration and partial fusion of subducted oceanic crust, and old sialic crust or its anatectic
products may also contribute solutes to the ore fluids. Integration of data from this study with other geological and radiogenic
isotope constraints in the Yilgarn Block argue against direct derivation of gold ore fluids from specific I-type granitoid
plutons, but favour a broad association with convergent tectonics and granitoid magmatism in the late Archaean. 相似文献
17.
花岗岩与大地构造 总被引:6,自引:2,他引:4
花岗岩(广义)是地球有别于其它星球及地球上大陆地壳有别于大洋地壳的物质标志,是大陆上分布最广的岩石之一。在已有研究基础上,本文系统阐述了花岗岩大地构造的内涵、研究思路、研究内容和发展方向。花岗岩大地构造将花岗岩视为一种构造标志体、地质体,是从花岗岩角度,探索解决大地构造问题,其研究内容可概括为物理特性(构造)、物质组成(岩石地化)和年代学三大方面,具体研究内容包括:(1)巨量花岗岩浆侵位的物理特性变化及其构造意义,包括岩浆上升迁移、汇聚定位及岩体(带)形成/构建过程;(2)花岗岩体变形改造及其构造意义;(3)花岗岩物源与大陆生长及深部结构,以新老物质组成,划分造山带类型;(4)巨型花岗岩带发育过程与大陆聚散,探索超大陆和中小板块聚散的岩浆响应。花岗岩大地构造丰富了大地构造研究内容,也有助深化花岗岩体(带)形成、发育过程和构造背景的认识。它的提出是当今地球科学学科交叉、融合发展的必要。 相似文献
18.
内蒙古浩尧尔忽洞金矿位于华北地台北缘西段中元古代白云鄂博台缘凹陷带西部,矿区内有大面积花岗质岩体和岩脉出露,其岩性主要包括石英二长闪长岩、二长花岗岩和碱长花岗岩。通过岩相学特征和岩石地球化学特征分析,结合区域上同类型岩体的侵入时代,认为浩尧尔忽洞岩体形成于华北板块与西伯利亚板块同碰撞-后碰撞环境。其中二长花岗岩形成于同碰撞环境,该环境下由于板片持续俯冲,引起俯冲板片及地幔楔发生熔融,其上侵带来的热量致使下地壳物质部分熔融而形成该类型岩石的母岩浆;石英二长闪长岩形成于碰撞后隆起环境,是加厚下地壳熔融的产物;碱长花岗岩属于晚造山期A型花岗岩系列,该阶段地幔玄武质岩浆底侵,导致下地壳物质熔融,部分与其发生混染。结合浩尧尔忽洞金矿的成矿年龄、成矿流体特征及赋矿岩石有机地球化学特征,认为岩体的侵位提供了矿床形成必不可少的热量及部分成矿流体来源。 相似文献
19.
Sita Bora 《International Geology Review》2015,57(11-12):1686-1706
The northern part of the central India tectonic zone (CITZ) is occupied by the Proterozoic Mahakoshal Belt, which is mainly comprised of granitoids and volcano-sedimentary lithounits. The granitoids (ca. 1880–1710 Ma) are exposed as small circular to elliptical-shaped, stock-like intrusive bodies, such as Nerueadamar granitoids (NG), Tumiya granitoids (TG), Jhirgadandi granitoids (JG), Dudhi granite gneiss (DG), Raspahari granitoids (RG), Katoli granitoids (KG), and Harnakachar granitoids (HG), collectively forming the granite gneissic complex (GGC). The geochemistry of biotites, host granitoids, and enclaves from these plutons has been investigated in order to understand the redox condition and likely tectonic affinity of host granitoids. The Al2O3–MgO–FeOt contents and operated elemental substitution in biotites strongly suggest the diverse nature of host magmas such as calc-alkaline, metaluminous (I-type), peraluminous (S-type), and transitional between I- and S-types, which appear to have formed in subduction zone and syn-collisional tectonic settings. The transitional (I-S)-type granitoids inferred based on biotite compositions, however, represent both metaluminous (HG) and peraluminous (DG and KG) granitoids in terms of whole-rock molar A/CNK (Al2O3/CaO + Na2O + K2O) ratios. Ages of granitoid magmatism and its field association with contemporaneous volcano-sedimentary lithounits clearly mark the post-collisional tectonic setting, which contradicts the subduction-related tectonic setting inferred from biotites of JG and microgranular enclave (JE) hosted in JG. Whole-rock major and trace elements broadly suggest the existence of collision tectonics during the formation of granitoid plutons. The JG, KG, and DG contain a bt-Kf-mag-qtz assemblage, and their parental magmas evolved under moderate oxidizing environments (?O2 = ?12.03 to ?13.27 bars). On the other hand, RG (bt-gt-Kf-pl-qtz), NG (bt-ms-Kf-pl-qtz), and TG (bt-ms-Kf-pl-qtz) represent pure crustal-derived magmas evolved in strongly reducing conditions formed under a syn-collisional tectonic setting as evident from their mineral assemblages and biotite and whole-rock compositions. Granitoid plutons of the Mahakoshal Belt were most likely formed during amalgamation of the Columbian supercontinent. 相似文献
20.
Khotylev A. O. Mayorov A. A. Khudoley A. K. Ershova V. B. Kalmykov G. A. Khubanov V. B. Chervyakovskaya M. V. 《Geotectonics》2021,55(2):219-239
Geotectonics - In our research we summarized data obtained on the composition, structure, and geochemical characteristics of the granitoid plutons of the eastern part of the Krasnoleninsky arch of... 相似文献