Post-Collisional Ductile Extensional Tectonic Framework in the UHP and HP Metamorphic Belts in the Dabie-Sulu Region, China

The present-day observable tectonic framework of the ultrahigh-pressure (UHP) and high-pressure (HP) metamorphic belts in the Dabie-Sulu region was dominantly formed by an extensional process, mostly between 200 and 170 Ma, following the Triassic collision between the Sino-Korean and Yangtze cratons. The framework that controls the present spatial distribution of UHP and HP metamorphic rocks in particular displays the typical features of a Cordilleran-type metamorphic core complex, in which at least four regional-scale, shallow-dipping detachment zones are recognized. Each of these detachment zones corresponds to a pressure gap of 0.5 to 2.0 GPa. The detachment zones separate the rocks exposed in the region into several petrotectonic units with different P-T conditions. The geometry and kinematics of both the detachment zones and the petrotectonic units show that the exhumation of UHP and HP metamorphic rocks in the Dabie-Sulu region was achieved, at least in part, by non-coaxial ductile flow in the multi-layered detachment zones, and by coaxial vertical shortening and horizontal stretching in the metamorphic units, under amphibolite- to greenschist-facies conditions, and in an extensional regime. All ductile extensional deformations occurred at depths below 10 to 15 km, i.e. below the brittle/ductile deformation transition.

Structural Evidence for the in-situ Origin of the HP and UHP Eclogites in the Dabie-Sulu Orogenic Belt

Whether the HP and UHP metamorphic rocks of the Dabie-Sulu orogenic belt are of an "in-situ" or "foreign" origin is a long-standing dispute among geologists. Eclogites preserved today in the HP and UHP units constitute merely 5-10%, which are not isolated exotic bodies tectonically intruding into amphibolite facies gneiss, but remnants of once pervasive or widespread eclogite-facies terranes or slabs. The present spatial distribution and forms of the eclogites have resulted from polyphase and progressive deformation and strain partitioning of the HP and UHP slabs. From their formation in deep mantle to their exhumation to the surface, the eclogites have experienced long-term deformation with different strain regimes. The dominant regime responsible for the present spatial distribution and forms of the eclogites is the shear process. The deformation patterns of the eclogites and gneiss matrix also clearly show that the eclogites were metamorphosed in situ. The original distribution area of the eclogites

Petrology of the Non-mafic UHP Metamorphic Rocks from a Drillhole in the Southern Sulu Orogenic Belt,Eastern-Central China

The Drillhole ZK703 with a depth of 558 m is located in the Donghai area of the southern Sulu ultrahigh-pressure (UHP) metamorphic belt, eastern China, and penetrates typical UHP eclogites and various non-mafic rocks, including peridotite, gneiss, schist and quartzite. Their protoliths include ultramafic, mafic, intermediate, intermediate-acidic, acidic igneous rocks and sediments. These rocks are intimately interlayered, which are meters to millimeters thick with sharp and nontectonic contacts, suggesting in-situ metamorphism under UHP eclogite facies conditions. The following petrologic features indicate that the non-mafic rocks have experienced early-stage UHP metamorphism together with the eclogites: (1) phengite relics in gneisses and schists contain a high content of Si, up to 3.52 p.f.u. (per formula unit), while amphibolite-facies phengites have considerably low Si content (<3.26 p.f.u.); (2) jadeite relics are found in quartzite and jadeitite; (3) various types of symplectitic coronas and pseud

Interpretation of Aeromagnetic Anomalies of the Sulu Ultrahigh-Pressure(UHP) Metamorphic Belt,Eastern China

The Sulu ultra-high pressure(UHP)metamorphic belt in Eastern China is well known as the eastern extension of the Qingling-Dabie orogenic belt formed by subduction and collision between the Sino-Korean and Yangtze cratons.The main hole of the Chinese Continental Scientific Drilling(CCSD)project is located at the southern segment of the Sulu UHP metamorphic belt(34°25′N/118°40′E),about 17 km southwest of Donghai County.Integrated geophysical investigations using gravity,magnetic,deep

Zoned Zircon from Eclogite Lenses in Marbles from the Dabie-Sulu UHP Terrane,China: A Clear Record of Ultra-deep Subduction and Fast Exhumation

Eclogite lenses in marbles from the Dabie-Sulu ultrahigh-pressure （UHP） terrane are deeply subducted meta-sedimentary rocks. Zircons in these rocks have been used to constrain the ages of prograde and UHP metamorphism during subduction, and later retrograde metamorphism during exhumation. Inherited （detrital） and metamorphic zircons were distinguished on the basis of transmitted light microscopy, cathodoluminescence （CL） imaging, trace element contents and mineral inclusions. The distribution of mineral inclusions combined with CL imaging of the metamorphic zircon make it possible to relate zircon zones （domains） to different metamorphic stages. Domain 1 consists of rounded, oblong and spindly cores with dark-luminescent images, and contains quartz eclogite facies mineral inclusion assemblages, indicating formation under high-pressure （HP） metamorphic conditions of T = 571-668℃ and P =1.7-2.02 GPa. Domain 2 always surrounds domain 1 or occurs as rounded and spindly cores with white-luminescent images. It contains coesite eclogite facies mineral inclusion assemblages, indicating formation under UHP metamorphic conditions of T = 782-849℃ and P 〉 5.5 GPa. Domain 3, with gray-luminescent images, always surrounds domain 2 and occurs as the outermost zircon rim. It is characterized by low-pressure mineral inclusion assemblages, which are related to regional amphibolite facies retrograde metamorphism of T = 600- 710℃ and P = 0.7-1.2 GPa. The three metamorphic zircon domains have distinct ages; sample H1 from the Dabie terrane yielded SHRIMP ages of 245 ± 4 Ma for domain 1, 235 ± 3 Ma for domain 2 and 215± 6 Ma for domain 3, whereas sample H2 from the Sulu terrane yielded similar ages of 244 ± 4 Ma, 233 ± 4 Ma and 214 ± 5 Ma for Domains 1, 2 and 3, respectively. The mean ages of these zones suggest that subduction to UHP depths took place over 10-11 Ma and exhumation of the rocks occurred over a period of 19-20 Ma. Thus, subduction from - 55 km to 〉 160 km deep mantle depth took place at rates of approximately 9.5-10.5 km/Ma and exhumation from depths 〉160 km to the base of the crust at -30 km occurred at approximately 6.5 km/Ma. We propose a model for these rocks involving deep subduction of continental margin lithosphere followed by ultrafast exhumation driven by buoyancy forces after break-off of the UHP slab deep within the mantle.

Investigation of Curie Point Depth in Sulu Ultrahigh-Pressure Metamorphic Belt,Eastern China

The Curie point depth of continental crust can reflect the regional tectonic pattern and geothermal structures. Analysis of magnetism is an efficient way to obtain the Curie point depth on a regional scale. This study systematically investigated the Curie point depth of Sulu （苏鲁） ultrahigh pressure （UHP） metamorphic belt （33°40＇N to 36°20＇N and 118°E to 120°E, ca. 60 000 km^2）, eastern China using aeromagnetic data. The results show that the Curie point depth of the Sulu region varies from 18.5 to 27 km. The shallowest Curie point depth （ca. 18.5 km） is located in Subei （苏北） subsidence, where the estimated temperature gradient value is about 31.35℃/km, which is comparable with the measured value of 30 ℃/km. In addition, a two-dimensional numerical solution of the heat conduction was used to calculate the temperature field to a depth of 30 km along the profile from Tancheng （郯城） to Lianshui （涟水） with a length of 139 km. The steady state model solved using the finite element method shows that the temperature around the Curie point depth is about 585.36 ℃, which is close to the Curie temperature （580℃） of magnetite at atmospheric pressure. These results provide new insights into the tectonic and continuous thermal structures of the Sulu UHP metamorphic belt.

桐柏—大别—苏鲁UHP和HP变质带的结构及流变学演化

在岩石圈流变学基本原理指导下 ,运用现代构造解析学方法 ,在不同尺度上判别和分析了桐柏—大别—苏鲁UHP和HP变质带内深俯冲、同碰撞构造及UHP和HP岩石折返过程中的变形特征 ,重点讨论同碰撞形成的高角度网结状榴辉岩相剪切带阵列、高角闪岩相剪切及有关变形组合以及碰撞期后伸展韧性薄化变形样式 ,强调指出不同地壳层次和物理条件下变形分解作用的重要性 ,而且 ,在UHP和HP变质带内最有效的应变体制是剪切作用 ,并在三维空间上形成不同格式的剪切带网状系统 .以构造学记录为主线 ,结合已有可利用的岩石学、变质作用 pT轨迹和同位素年代学资料 ,提出一个UHP和HP变质带尺度上的流变学演化模式 ,其中 ,UHP和HP变质岩石由地幔深度折返到地壳表层 ,经历了楔状挤出、碰撞期后地壳韧性薄化及晚造山伸展塌陷。

Two Fresh Types of Eclogites in the Dabie-Sulu UHP Metamorphic Belt,China:Implications for the Deep Subduction and Earliest Stages of Exhumation of the Continental Crust

Two fresh types of eclogites, namely the massive eclogite and foliated eclogite, are dis- cernible in large eclogite bodies surrounded by country rock gneisses from the Dabie Sulu UHP metamorphic zone. They are different in mineral assemblage, texture and structure at various scales. The massive eclogite has a massive appearance with a metamorphic inequigranular and grano- blastic texture, which consists mainly of nominally anhydrous minerals such as garnet, omphacite, rutile with inclusions of coesite and rare microdiamond. Massive eclogites which formed at the peak UHP metamorphic conditions （~3.1-4.0 GPa, 800~50 ） within the coesite to diamond stability field recorded the deep continental subduction to mantle depths greater than 100 km during the Triassic （-250-230 Ma）. The diagnostic UHP minerals, mineral assemblages and absence of notable macro- scopic deformation indicate the peak metamorphic ＇forbidden-zone＇ P-T conditions, an extremely low geothermal gradient （〈7 ＂C＇kma） and low differential stress. The foliated eclogite is composed of garnet＋omphacite＋rutile＋phengite＋kyanite＋zoisite＋talc＋nybtite^coesite/quartz pseudomorphs after coesite. It is quite clear that the foliated eclogite bears relatively abundant hydrous mineral, and shows well-developed penetrative foliation carrying mineral and stretching lineation reflecting intense plastic deformation or flow of eclogite minerals. The foliatcd eclogite occurred at mantle levels and recorded the earliest stages of exhumation of UHP metamorphic rocks. At a map scale, the foliated eclogites de- fine UHP eclogite-facies shear zones or high-strain zones. Asymmetric structures are abundant in the zones, implying bulk plane strain or dominant non-coaxial deformation within the coesite stability field. The earliest stages of exhumation, from mantle depths to the Moho or mantle-crust boundary layering, were characterized by a sub-vertical tectonic wedge extrusion, which occurred around 230-210 Ma. The three- dimensional relationship between the massive and foliated eclogites is well displayed a typical ＇block-in-matrix＇ rheological fabric pattern in- dicating the partitioning of deformation and metamorphism in the UHP petrotectonic unit. The existing data support the now widely accepted con- cept of deep continental subduction/collision and subsequent exhumation between the Yangtze and Sino-Korean cratons. The pressure is a constitutive geological variable. The influence of tectonic over- presure on UHP metamorphism is rather limited.

苏鲁超高压带北部中生代岩浆侵入活动与同碰撞—碰撞后构造过程:锆石 U-Pb 年代学

苏鲁超高压变质带北部威海地区发育大量中生代侵入体。本文报道了新的同位素稀释法和 SHRIMP 锆石 U-Pb 同位素年龄数据,确认该区中生代侵入岩浆活动主要有三期,分别是三叠纪晚期～210Ma,侏罗纪晚期160～140Ma 和白垩纪早期～110Ma。三叠纪晚期主要是橄榄安粗岩系列的侵入体,包括邢家碱性辉长岩(211±5Ma 和213±5Ma),甲子山辉石正长岩(211.9±1.5Ma 和209.0±6.5Ma),槎山正长花岗岩(205.7±1.4Ma),它们的形成可能指示深俯冲大陆的板片断离作用。侏罗纪晚期主要有垛崮山花岗闪长岩体(161±1Ma),文登花岗岩体(160±3Ma)和昆嵛山花岗岩体(142±3Ma)。大量700～800Ma 的继承锆石指示这些花岗岩是俯冲的扬子板块部分熔融的产物,它们可能起因于碰撞加厚地壳的拆沉作用。白垩纪早期的侵入体代表性的有六度寺辉石闪长岩(114.5±0.8Ma),秦薄顶钾长巨斑状花岗岩(114±1Ma),三佛山钾长斑状花岗岩(113±1Ma)和伟德山花岗岩(108±2Ma)。这些高钾钙碱系列侵入体,是中国东部普遍发育的岩石圈减薄过程中强烈的壳幔相互作用的产物。

苏北榴辉岩中水晶的形成时代及其对超高压变质岩折返的示踪意义

江苏东海水晶以其晶体粒大和产量巨大而闻名,在地质上也因其产于高压超高压变质带而独具特色。在对大别—苏鲁超高压变质带的区域成矿作用进行研究和对中国大陆科学钻探工程(CCSD)主孔岩心进行编录的过程中,认识到超高压带存在着超低压成矿现象,包括中国最主要的水晶矿床成矿带在内的许多矿床都可能是在超高压变质之后退变质结束阶段的超低压环境中形成的,对水晶进行流体包裹体的Rb-Sr等时线年代学研究,获得208 Ma的等时线年龄,表明成矿时代为印支期。该年代可视为超高压变质带折返并经历了退变质之后而“稳定”下来的时间。

苏鲁仰口超高压岩石SHRIMP锆石U/Pb定年与部分熔融时限

在大型碰撞造山带中,在陆壳物质深俯冲或快速折返早期,在超高压-高压条件下,易熔组分可能发生水致或脱水部分熔融,形成花岗质熔体。在超高压-高压条件下,苏鲁超高压岩石发生过部分熔融作用,形成长英质多晶体包裹体和不同尺度的花岗质岩石,导致可观的地球化学效应。为确定苏鲁超高压岩石部分熔融的时限,对山东仰口超高压副片麻岩和其中平行片麻理的同构造钾质花岗岩脉进行了SHRIMP锆石U/Pb地质年代学、全岩地球化学和锆石内矿物包裹体的研究。副片麻岩的锆石具有典型的核-幔-边结构。核部锆石为碎屑锆石,206Pb/238U年龄大于282Ma,可能反映了副片麻岩的原岩包含不同成因的物质;幔部和边部的Th/U比都小于0.1,分别给出233±3Ma和214±4Ma的206Pb/238U年龄,分别对应于超高压变质和角闪岩相退变质年龄。同构造花岗岩脉是富钾过铝质花岗岩(A/CNK=1.2),锆石也具有核-幔-边结构;核部锆石年龄与副片麻岩的核部锆石年龄相当,反映了该花岗岩脉的源区可能是变沉积岩;除幔部锆石的一个点具有206Pb/238U年龄为234.6±3.9Ma之外,其它幔部锆石位于谐和线附近,给出206Pb/238U年龄为220.8±2.9Ma,该年龄代表着该花岗岩脉的形成年龄。上述数据表明,在仰口地区,超高压岩石的部分熔融作用早于角闪岩相退变质作用。

胶东荣成榴辉岩中含铜磁黄铁矿出溶结构的磷灰石的发现及其意义

在苏鲁超高压变质带东北部胶东荣成地区的退变金红石榴辉岩中,我们发现了具含铜磁黄铁矿出溶结构的磷灰石。磷灰石在该榴辉岩中含量较高(≈5%),多为不规则形状,颗粒大小不一,粗大者可达1．2mm×0．6mm。样品中几乎所有的磷灰石均发育出溶结构,出溶棒可能分为相互垂直的两组,各自分别沿同一方向分布,出溶棒密度大,形状规则,宽度相似,长度最长可达0．1mm。在扫描电子显微镜下,利用X射线能谱仪测定出溶棒主要由Fe、Cu和S三种元素组成。由于很难准确确定三者的比例,暂将其定为含铜磁黄铁矿((Fe_(1-x)Cu_x)S)。报道的磷灰石含铜磁黄铁矿出溶结构,与江苏赣榆地区磷灰石的磁黄铁矿出溶结构,同产于苏鲁超高压变质带中,具有可对比性；磷灰石中Cu、Fe的溶解度可能是温压条件的函数；因此进一步精确研究磷灰石中这些出溶结构的成分和成因,将为深入探讨苏鲁超高压变质带不同地体变质条件、成因的差异及俯冲折返机制等问题提供重要线索。

V／Sc在CCSD主孔榴辉岩中的系统关系:一种可透视变质作用并指示基性岩浆作用的地球化学工具

和Fe一样,V和Sc都是过渡族金属元素,它们在地幔部分熔融和岩浆分异中的地球化学行为是近年来行星地质和岩石地球化学的研究热点之一。通过分析V和Sc在部分熔融和岩浆分异过程中的地球化学行为,发现V／Sc是可以透视岩浆成岩后所经历的变质、交代或流体作用的新的地球化学工具。本文通过系统分析中国大陆科学钻探工程主孔100～600米榴辉岩,尤其是540—600米钛铁矿-赤铁矿榴辉岩的V／Sc比值的变化特征,来进一步限定榴辉岩原岩可能的成岩过程。在CCSD主孔岩心中,和100～540m榴辉岩相比,540～600m段榴辉岩表现出以下十分特别的地球化学特征:(1)相当高的V,但十分低的Nb和Ta;(2)较高的TFeO,Fe2O3／FeO比值,高度变化且较高的Eu正异常(Eu／Eu*高达2．9);(3)异常高的V／Sc比值(8．39—43．23,平均15．07),V／Sc比值和MgO之间呈负相关关系,但和Fe2O3／FeO之间呈正相关关系;(4)近乎正相同步变化的V和Fe2O3／FeO,但反相变化的V和Eu／Eu*。这些地球化学特征反映了原岩形成过程中,高度动态的斜长石分离结晶作用与岩浆氧逸度之间的负耦合关系,即在原始基性岩浆中,斜长石的分离结晶作用导致岩浆氧逸度升高,诱发钛磁铁矿和斜长石及单斜辉石的同步分离结晶作用,优先猎取大量的V和Fe,Sc主要分布在单斜辉石,导致所成堆晶的V和Fe含量升高及高度变化且增高的V／Sc比值,同时MgO,SiO2相对降低。这种过程导致上述的V和Fe2O3／FeO之间近乎同相变化关系,但反相变化的V和Eu／Eu*。CCSD主孔100-600m榴辉岩的V／Sc和MgO系统关系实际上透视了上述的过程,即除橄榄石堆晶作用外,含钛铁矿物相的分离结晶作用对形成的堆晶及相应岩浆的V、Sc和V／Sc比值的强烈控制作用。CCSD及区域地质所揭示的南北长约2000m,宽约500m的反S型、层序较完整的基性-超基性杂岩体所经历的岩浆过程有可能代表着大别-苏鲁超高压带中榴辉岩原岩经历了类似的过程。通过对较大规模榴辉岩及其伴生的超基性岩的V、Sc和V／Sc系统关系的系统研究可能进一步揭示更多类似的基性-超基性杂岩体,为厘定大别-苏鲁超高压带的碰撞前的物理和化学状态提供更好的限定。

大陆板片多重性俯冲与折返的动力学模式——苏鲁高压超高压变质地体的折返年龄限定

苏鲁高压-超高压变质地体自南而北由高压(HP)、很高压(VHP)和超高压(UHP)变质叠覆岩片组成,前者依次叠覆在后者之上,岩片之间的界限为韧性剪切带.根据超高压变质岩片中角闪岩相岩石与高压变质岩片中绿片岩相岩石的黑云母和白云母Ar-Ar和Rb-Sr测年新结果,结合前人在该区所做的锆石SHRIMP U-Pb、全岩Sm-Nd、Rb-Sr等测年数据综合分析表明,超高压变质岩石的峰期变质年龄为240～220 Ma,折返年龄为220～200Ma;而高压变质岩石的峰期变质年龄大于258 Ma,起始折返年龄为258 240 Ma,折返年龄比超高压变质岩石早30～40Ma.这说明扬子板片并不是整体俯冲和折返的.由于具组分和密度差异,俯冲板块的不同部位沿岩性或构造界面先后分片俯冲和折返,在北苏鲁超高压变质板片开始俯冲时,南苏鲁高压变质板片已开始折返.

苏鲁超高压岩石部分熔融时间的准确限定:来自含黑云母花岗岩中锆石U-Pb定年、REE和Lu-Hf同位素的证据

在北苏鲁超高压变质带中,广泛分布强变形的新三叠纪含黑云母花岗岩和伟晶岩脉。锆石中矿物包体激光拉曼测试、阴极发光图像分析、不同性质锆石微区LA-(MC)-ICP-MS和SHRIMP U-Pb定年、REE及Lu-Hf同位素测试等综合研究结果表明,北苏鲁威海地区超高压正片麻岩在构造折返的(高压)麻粒岩相升温减压阶段,发生部分熔融(深熔)作用形成了花岗质岩浆,并在临近角闪岩相退变质作用之前结晶结束形成了含黑云母的花岗岩。该类含黑云母花岗岩中的锆石成因复杂,可划分为三类锆石微区。第一类为强发光效应(白色)继承性岩浆锆石(微区Ⅰ),具有典型的岩浆结晶环带,矿物包体为Otz+Kfs+Ap,记录的^(206)Pb/^(238)U年龄为790～782Ma;第二类为新生锆石微区(微区Ⅱ),发光强度相对较弱(灰色-灰白色),也具有较明显的岩浆结晶环带,矿物包体为Qtz+Kfs+Ab+Ap,记录的^(206)Pb/^(238)U年龄为222～217Ma,加权平均年龄为219±2Ma,表明苏鲁超高压地体的部分熔融(深熔)作用发生在新三叠纪,这组年龄比苏鲁地体超高压变质时代(235～225Ma)明显偏新,指示部分熔融(深熔)作用的时代要晚于苏鲁地体的超高压变质时代;第三类锆石微区(微区Ⅲ)围绕第二类锆石微区分布,发光强度最弱(黑色),也具有典型的岩浆结晶环带,矿物包体十分少见,为Qtz+Ap,记录的^(206)Pb/^(238)U年龄集中于216～209Ma之间,加权平均年龄为214±2Ma,应代表部分熔融(深熔)而成的岩浆结晶结束的年龄,这组年龄比苏鲁地体构造折返晚期角闪岩相退变质时代(210～200Ma)偏老,表明新生岩浆结晶结束的时间要早于角闪岩相退变质时代。继承性岩浆结晶锆石(微区Ⅰ)^(176)Hf/^(177)Hf(t)=0.281975～0.281984,^(176)Lu/^(177)Hf=0.00196～0.00221,ε_(Hf)(t)=-11.6～-11.8,相应的t_(DM2)=2160～2170Ma,与研究区周围新元古代(795～730Ma)正片麻岩继承性岩浆结晶锆石的Lu-Hf同位素特征十分相似,表明新元古代正片麻岩是新三叠纪部分熔融(深熔)成因的含黑云母花岗岩的母岩。新三叠纪新生岩浆结晶锆石的核部(微区Ⅱ)和边部(微区Ⅲ)具有类似的^(176)Hf/^(177)Hf(t)、^(176)Lu/^(177)Hf比值和ε_(Hf)(t)值,^(176)Hf/^(177)Hf(t)=0.282110～0.282199,^(176)Lu/^(177)Hf=0.00041～0.00183,ε_(Hf)(t)=-15.8～-19.1,t_(DM2)=1980～2130Ma,表明新三叠纪由超高压正片麻岩部分熔融而成的岩浆自结晶开始到结束是在一个相对封闭体系条件下完成的。晚期角闪岩相退变质作用对其Lu-Hf同位素体系也未造成破坏。

中国大陆科学钻探主孔540～600m榴辉岩中赤铁矿-钛铁矿固溶体出溶结构的特征及对榴辉岩折返动力学过程的意义

在中国大陆科学钻探主孔540-600m榴辉岩中集中发育了一种具特殊出溶结构的不透明金属矿物——具高度精细共生结构的赤铁矿-钛铁矿固溶体。在这段榴辉岩中,这种固溶体少部分以细小圆粒状包裹体分布于单斜辉石和石榴石内部,大部分则呈海绵陨铁状充填于单斜辉石和石榴石空隙之间。出溶分多个不同的期次,相对粗粒的赤铁矿质钛铁矿和钛铁矿质赤铁矿出溶片晶中又包含有更细粒的出溶片晶,在次一级的赤铁矿质钛铁矿域出溶钛铁矿质赤铁矿,同时在钛铁矿质赤铁矿城又出溶赤铁矿质钛铁矿,出溶片的大小可以从毫米级一直变化到纳米级,以至于很难测到纯的端元组分。出溶片在单个颗粒中按照平行(001)的方向定向排列,但在整个样品中则没有规律。出溶片中钛铁矿的摩尔百分数从23．80变化到89．84,反映了从不具明显磁性的赤铁矿和钛铁矿端元组分向具有强磁性的出溶体演化的过程。这样的出溶过程需要一个缓慢降温的环境,说明在超高压地体快速折返的整个过程中可能存在一个近等温降压或滞留在高温状态下(近等温等压)的阶段。这种固溶体在矿物的磁性特征方面十分特别:(1)可以包含异常强且稳定的天然剩磁;(2)所保存的剩磁即使在强的退磁磁场中也不会消退;及(3)能引起区域上显著的磁异常。因此,这种固溶体可能是导致CCSD主孔540-600m段榴辉岩较高磁化率、区域高度航磁异常及高度V、Ti异常的主要因素。赤铁矿-钛铁矿固溶体出溶结构在540-600m岩性段集中分布的现象与这一岩性段在各方面均有异常表现的奇特现象相吻合,结合前人的研究,认为赤铁矿．钛铁矿固溶体的成因与导致这段岩性段各种异常的成因有着直接的联系。赤铁矿-钛铁矿固溶体出溶结构的出溶成分和所具磁性强烈依赖于榴辉岩温压条件的变化特征,时它的继续深入研究,将会为精确限定苏鲁超高压变质带变质岩石形成中的温压变化,解释CCSD主孔附近区域的磁性异常及钒钛矿的勘探等问题起到重要的指示作用。

大别—苏鲁超高压—高压变质带伸展构造格架及其动力学意义

构造分析结合变质作用PTt轨迹和同位素年代学资料指出,现今观察到的大别—苏鲁超高压—高压变质带区域构造框架,主要是在印支期中-朝与扬子克拉通斜向碰撞及超高压—高压变质作用期后伸展体制下形成的(200～170Ma)。构造样式类似于北美科迪勒拉型变质核杂岩并发育多层低缓角度地壳尺度的伸展拆离带。几何形态表现为大型穹窿或小型穹窿群。区域伸展构造叠加于先期碰撞或挤压构造之上,控制了超高压和高压变质岩石的空间分布。大规模的近水平韧性伸展流动,是在超高压—高压变质岩石从地幔深处折返到中、下地壳层次及角闪岩相环境下发生的。广泛的减压部分熔融作用反映的壳—幔动力学过程和地壳热结构的变化,是促使造山带从挤压体制向伸展体制转换的因素之一。证明造山带尺度的地壳伸展和薄化作用,在超高压和高压变质岩石折返到地表动力学过程中,曾起过重要作用。

榴辉岩韧性剪切变形中的流体作用及地球化学效应

韧性剪切带是在较高温条件下机械与化学作用高度耦合的系统。韧性剪切带普遍含有一种或多种流体,流体是韧性剪切变形高度局域化和剪切变形组构形成的主要影响因素。在强应变岩石中,可利用变形矿物的元素地球化学的变化特征来反演参与变形的流体的地球化学性质。苏鲁-大别超高压变质带中,多数榴辉岩经历了强烈的韧性剪切应变和流体作用,形成高度局域化、尺度不等的韧性剪切变形带,为研究在高压-超高压条件下,参与流体的性质,应变和流体相互作用提供了重要机会。样品DH-2G是一强烈剪切榴辉岩,由石榴石、绿辉石、金红石,及少量的多硅白云母、黝帘石、角闪石、斜长石、石英、锆石和磷灰石组成。在不同应变域,矿物的粒度变化明显。在类变斑晶域,石榴石粒度比剪切条带中的小2～4倍。在以下讨论中,与细粒石榴石(石榴石-I)共生的绿辉石称为绿辉石-I,与粗粒石榴石(石榴石-II)共生的绿辉石称为绿辉石-II。电子探针和原位LA-ICP-MS测试结果表明:(1)除Ni外,两类石榴石没有显著区别;(2)两类绿辉石在主量元素上也没有明显的差异,但微量元素特征,尤其是稀土元素上,存在明显的变化。与绿辉石-I相比,绿辉石-II具有以下特征:(1)轻稀土明显降低,达25～40倍左右;(2)重稀土明显富集,升高5～10倍;(3)Ni、Zn、Co、Sc、Ba、Zr、Y、Rb、Hf和HREE明显升高,而V、Sr、U、Th、Pb和LREE明显降低;和(4)微弱的正Eu异常,Eu/Eu*=1.04～1.45,绿辉石-I基本上没有Eu异常。并且,剪切带域金红石的Nb/Ta比值从核部(<19.0)到边部(>20.0)显著增加。岩相学、元素和温压估计研究表明:在剪切过程中不存在外来流体,流体是由无水矿物(绿辉石、石榴石、金红石等)在超高压榴辉岩折返减压过程中通过压力降低出溶结构羟基或分子水,释放出流体,流体富含V、Sr、U、Th、Pb、Zr、Nb和LREE等微量元素。这些流体显著影响深俯冲地壳的流变学性质,是迁移活动元素(LILE和LREE)及保守元素(HFSE等)的重要载体,对超高压岩片的快速折返发挥关键作用。

北苏鲁变辉长岩锆石U-Pb年龄和Lu-Hf同位素组成及其对源区的指示

在北苏鲁经历超高压变质的花岗片麻岩中零星分布着一些变质表壳岩包体或者残片,通常称之为荆山群。北苏鲁荆山群的年代学特征以及构造亲缘性仍不清楚。本文报道了威海市郊和海阳所附近的荆山群露头,有脉状变质辉长岩侵入到荆山群岩系中。对上述两处变质辉长岩中锆石的阴极发光照片、稀土元素配分模式和Th/U比值的综合分析表明,它们均为岩浆锆石,部分岩浆锆石具有弱发光效应和岩浆韵律环带的核部、以及被改造的强发光效应的边部,但未见新生的变质锆石。未被改造的岩浆锆石微区的LA-ICP-MS U-Pb定年结果表明,威海市郊变辉长岩(S4-2)的^(207)Pb/^(206)Pb年龄值变化范围是1831~1966 Ma,加权平均年龄为1870±34 Ma(MSWD=0.6);海阳所变辉长岩(H3)中绝大部分锆石的^(207)Pb/^(206)Pb年龄值变化范围是1769~1887 Ma,加权平均年龄为1839±37 Ma(MSWD=0.5),两件样品共同记录了一致的ca.1.85 Ga岩浆事件。另外,海阳所变辉长岩中3颗捕获的岩浆锆石分别测得ca.2.9 Ga、ca.2.3 Ga和ca.2.1 Ga等三组^(207)Pb/^(206)Pb年龄。两件样品ca.1.85 Ga岩浆锆石具有相似的Hf同位素组成,其ε_(Hf)(t)=-6.1^-10.7,t_(DM2)=2.74~2.98 Ga,捕获ca.2.1 Ga和ca.2.9 Ga锆石的ε_(Hf)(t)值和t_(DM2)年龄分别是-1.9和2.7 Ga、-4.8和3.5 Ga。锆石U-Pb年龄、Lu-Hf同位素特征表明,北苏鲁两处变辉长岩记录的岩浆事件与胶北前寒武纪陆壳的多期演化历史一致,变辉长岩及其围岩荆山群可能是源自胶北的外来地质体。

苏鲁超高压变质带含褐帘石正、副片麻岩中变质锆石的地球化学性质及其SHRIMP U-Pb定年

含褐帘石正、副片麻岩是苏鲁地体重要的超高压变质岩石。矿物包体激光拉曼鉴定、阴极发光图像分析、锆石微区LA-ICP-MS成分测试及SHRIMP U-Pb定年结果表明,含褐帘石正、副片麻岩中的锆石具有明显的三层结构,即弱发光效应的继承性(碎屑或岩浆结晶)锆石的核、强发光效应的含柯石英变质增生幔部和弱发光效应的退变边。继承性岩浆结晶锆石核部记录了新元古代(>810Ma)的原岩形成年龄,含柯石英锆石微区记录了241～223Ma的超高压变质年龄(正、副片麻岩的加权平均年龄分别为230±7Ma和229±7Ma),锆石的退变边记录了217～200Ma的角闪岩相退变质年龄(正、副片麻岩的加权平均年龄分别为211±3Ma和210±2Ma),由此限定苏鲁地体构造抬升速率为5.3km/Myr,表明苏鲁超高压岩石经历了一个相对快速抬升的变质演化过程。与苏鲁-大别其它超高压岩石变质增生锆石对比,含褐帘石正、副片麻岩中的超高压变质增生锆石微区具有十分独特的地球化学性质,主要表现为重稀土元素(HREE)明显富集,U含量明显偏低(10～29×10^(-6)),而Th/U比值则明显偏高(0.45～0.92)。HREE的明显富集与寄主岩石普遍存在超高压矿物褐帘石(富集轻稀土元素)有关,而低U含量和高Th/U比值的特点则表明超高压峰期变质阶段处在高氧逸度(f_o_2)的体系环境。