“广西型花岗岩"的地球动力学意义——答汪洋(2015)的质疑

汪洋撰文批评笔者提出的"广西型花岗岩"没有任何意义,认为花岗岩类的全岩Sr、Yb含量不是指示花岗质岩浆起源压力的可靠指标,以Sr-Yb为基础的花岗岩分类没有地球动力学意义。笔者认为,花岗岩可以形成于不同的压力条件下不是笔者的发明,国外早有论述,例如Defant和Drummond(1990)关于埃达克岩和岛弧ADR的认识。汪洋认为,花岗质岩浆可以形成于下地壳部位,也可以形成于中地壳深度,还认为基性岩浆分离结晶可以形成花岗质岩浆,这都是笔者不赞同的,因为缺乏野外证据。广西型花岗岩以富Sr和Yb为特征,指示在相图上位于石榴石出现线之下和斜长石消失线之上,暗示残留相既无石榴石也无斜长石。汪洋引用了不同地区不同作者对广西型花岗岩成因的不同见解,与笔者关于广西型的概念没有任何关系,也不能据此否定笔者关于广西型花岗岩的认识。     

喜马拉雅淡色花岗岩

在青藏高原南部的喜马拉雅地区,分布有两条世界瞩目的淡色花岗岩带。南带主要沿高喜马拉雅和特提斯喜马拉雅之间的藏南拆离系(STDS)分布,俗称高喜马拉雅淡色花岗岩带,构成喜马拉雅山的主体。北带淡色花岗岩位于特提斯喜马拉雅单元内,又被称之为特提斯喜马拉雅淡色花岗岩带。这些花岗岩多以规模不等的岩席形式侵入到周边沉积-变质岩系之中,或者呈岩株状产出于变质穹窿的核部。岩体本身大多岩性均匀,变形程度不等,但岩体边缘可见较多的围岩捕虏体,并在部分情况下见及围岩的接触变质作用,反映它们的异地侵位特征。上述两带中的淡色花岗岩在矿物组成和岩石类型上表现为惊人的相似性,主要由不同比例的石英、钾长石、斜长石、黑云母(5%)、白云母、电气石和石榴石等构成二云母花岗岩、电气石花岗岩和石榴石花岗岩三大主要岩石类型。从不同地区的野外观察来看,二云母花岗岩为喜马拉雅淡色花岗岩的主体岩石类型,而电气石花岗岩和石榴石花岗岩主要以规模不等的脉体形式赋存于二云母花岗岩之中,反映前两者晚期侵位的特征。地球化学特征上,这些花岗岩具有高Si、Al、K,低Ca、Mg、Fe、Ti的特点,接近花岗岩的低共熔点组分。绝大多数淡色花岗岩具有较高的含铝指数,属于过铝花岗岩。微量元素表现为较大的变化范围,但总体上表现为富集大离子亲石元素K、Rb和放射性元素U,而不同程度亏损Ba、Th、Nb、Sr、Ti等元素。稀土元素总量总体上明显低于世界上酸性岩的平均丰度,且绝大部分表现为轻-中等程度的稀土元素分馏和不同程度的Eu负异常。传统认为,喜马拉雅淡色花岗岩是原地-近原地侵位的纯地壳来源的低熔花岗岩。但本文通过分析提出,该花岗岩可能是从一种高温的花岗岩浆演化而来,其岩浆源区的性质或成因类型目前还难以确定。该岩浆在上升侵位的过程中曾经历过大规模地壳物质的混染,并发生了高度分离结晶作用。因此,喜马拉雅淡色花岗岩首先是一种高分异型的花岗岩,是真正意义上的异地深成侵入体,而并不是原地或半原地的部分熔融体。这种以大规模地壳混染和结晶分异作用为特征的花岗岩系,在花岗岩的研究内容中还未被充分地讨论。以前根据相关信息认为这些岩石来自于沉积岩部分熔融的结论,只是较多地注意到了后期地壳混染和结晶分异作用的特征。即使这些岩石的原始岩浆将来被证明真的来源于沉积岩系的部分熔融,那以前的结论也只能说是"歪打正着"。根据形成年龄和地质-地球化学特征,本文将这些花岗岩划分为原喜马拉雅(44~26Ma)、新喜马拉雅(26~13Ma)和后喜马拉雅(13~7Ma)三大阶段。其中第一阶段对应印度-亚洲汇聚而导致的大陆碰撞造山作用,而后两个阶段同加厚的喜马拉雅-青藏高原碰撞造山带拆沉作用有关,对应青藏高原的全面隆升。根据这些淡色花岗岩的岩石与地球化学特征,我们还不能支持青藏高原存在广泛的中地壳流动的模型。相反,俯冲的高喜马拉雅岩系在深部的部分熔融及随该岩系折返而发生的分离结晶作用可很好地解释淡色花岗岩所具有的系列特征。     

苏鲁造山带池庄超高压榴辉岩中变质脉:大陆俯冲带超临界流体活动的证据

高压-超高压变质岩中的变质脉能够反映俯冲带变质流体的组成和演化。为了探究大陆俯冲带超临界流体活动及伴随的元素迁移,本文系统地研究了苏鲁造山带南部江苏东海池庄地区的超高压榴辉岩及变质脉。变质脉主要是由石英、石榴石、绿辉石、多硅白云母、蓝晶石、黝帘石、金红石和锆石等矿物组成,与寄主榴辉岩的矿物组成类似。相比于榴辉岩,脉体中的石榴石更加富集重稀土元素(HREE);黝帘石强烈富集轻稀土元素(LREE)。变质脉和榴辉岩中各主要矿物的氧同位素组成在误差范围内一致(石英的δ18O分别为2.42‰和2.79‰;石榴石为-0.30‰和0.010‰;绿辉石为0.25‰和0.071‰),说明变质脉的形成与榴辉岩释放的内部流体有关。综合已有的研究,发现大别-苏鲁造山带不同地区的变质脉和榴辉岩具有极不均一的氧同位素组成,说明在陆壳深俯冲和折返过程中,流体活动有限。利用矿物温压计得到变质脉的峰期变质温压条件为692±65℃和3.6±0.3GPa,脉体中锆石U-Pb定年结果表明锆石的形成时代为218±2.4Ma,指示变质脉形成于深俯冲陆壳折返初期的超高压变质阶段。变质脉中矿物组合和矿物的主微量元素特征说明成脉流体富集Si、Al、Ca、K、LILE、REE和HFSE等元素,表明成脉流体可能是溶解能力极强的超临界流体。     

应力分散型预应力抗拔桩系列技术研究与应用

根据目前国内外预应力抗拔抗浮桩、部分粘结预应力抗拔抗浮桩的优缺点以及使用的局限性——长螺旋钻机对于桩径＞800 mm或桩长＞30 m的桩力不从心,研究了应力分散型预应力抗拔桩及钢筋钢绞线笼系列技术,用于一个直径1 m、桩长60 m的抗拔桩工程,采用旋挖成孔,可实现在工程桩上进行大吨位试桩,受力合理,节省资金和工期,实践证明该系列技术有很好的应用前景。     

卵漂石地层深基坑高压旋喷桩止水帷幕施工工艺

结合青海省微电机厂棚户区改造项目深基坑止水帷幕施工的成功经验,总结出卵漂石地层深基坑双排单重管高压旋喷桩止水帷幕施工的施工工艺及技术要点。     

浅谈高温高压实验地球科学:方法和应用

在过去的二十多年间,高温高压实验地球科学研究得到了蓬勃发展,凭借其高度的灵活性和易于与其他分支学科相结合的优点,在很多不同的研究领域中都取得了令人瞩目的成果,并已发展成为国际地球科学的前沿领域和重要方向之一,同时也是固体地球科学最强有力研究手段之一。相比之下,国内的高温高压实验地球科学研究还显得相对比较薄弱,相关系统性的认识还有待增强。本文对高温高压实验研究的发展历程、方法原理、仪器设备以及在地球科学研究中的一些应用进行简单的介绍,旨在让更多的国内学者对这一领域有更深入的了解。     

二氧化碳洗井中相关问题的探讨

二氧化碳洗井方法具有设备简单、用时少,效果好的特点,但随着钻孔深度和孔径加大,井管材料的更新换代,有时也会难以出现壮观的井喷场面,达不到理想的洗井效果,使用范围受到限制的问题。总结多年的洗井经验,依据二氧化碳洗井原理,运用洗井过程中起动压力和用气量的计算公式,进而对洗井深度和影响用气量的因素进行了分析,结果表明:1该方法比较适用于井深300m左右、孔径Φ325mm以内、泥浆相对密度小于1.1g/cm3的新打水井,对大于300m的深井,可采用分层洗井法或压风机引喷法进行洗井。2井喷形成时的二氧化碳气体用量,与瓶内气体的压力、钻杆的下入深度、环空体积、地面管路的长度与直径、钻杆内径、钻井液的密度等成正比,而与水温、气温等成反比;当井的含水层的水柱高度低于70m时,一般不易形成井喷。3二氧化碳洗井适用于井内下入钢管、铸铁管等抗压强度较高的井。对水泥管、塑料管等强度较低的井管则要视情况具体分析。     

A range of fault slip styles on progressively misoriented planes during flexural-slip folding,Cape Fold Belt,South Africa

Flexural slip folds are distinctive of mixed continuous-discontinuous deformation in the upper crust, as folding is accommodated by continuous bending of layers and localized, discontinuous slip along layer interfaces. The mechanism of localized, layer-parallel slip and the stress and fluid pressure conditions at which flexural slip occurs are therefore distinctive of shear localization during distributed deformation. In the Prince Albert Formation mudstone sequence of the Karoo Basin, the foreland basin to the Cape Fold Belt, folds are well developed and associated with incrementally developed bedding-parallel quartz veins with slickenfibers oriented perpendicular to fold hinge lines, locally cross-cutting axial planar cleavage, and showing hanging wall motion toward the fold hinge. Bedding-parallel slickenfiber-coated veins dip at angles from 18° to 83°, implying that late increments of bedding-parallel shear occurred along unfavorably oriented planes. The local presence of tensile veins, in mutually cross-cutting relationship with bedding-parallel, slickenfiber-coated veins, indicate local fluid pressures in excess of the least compressive stress.Slickenfiber vein microstructures include a range of quartz morphologies, dominantly blocky to elongate-blocky, but in places euhedral to subhedral; the veins are commonly laminated, with layers of quartz separated by bedding-parallel slip surfaces characterized by a quartz-phyllosilicate cataclasite. Crack-seal bands imply incremental slickenfiber growth, in increments from tens of micrometers to a few millimeters, in some places, whereas other vein layers lack evidence for incremental growth and likely formed in single slip events. Single slip events, however, also involved quartz growth into open space, and are inferred to have formed by stick-slip faulting. Overall, therefore, flexural slip in this location involved bedding-parallel faulting, along progressively misoriented weak planes, with a range of slip increments.     

Mass Fractions of S,Cu, Se,Mo, Ag,Cd, In,Te, Ba,Sm, W,Tl and Bi in Geological Reference Materials and Selected Carbonaceous Chondrites Determined by Isotope Dilution ICP‐MS

Mass fractions of S, Cu, Se, Mo, Ag, Cd, In, Te, Ba, Sm, W and Tl were determined by isotope dilution sector field ICP‐MS in the same sample aliquot of reference materials using HF‐HNO₃ digestion in PFA beakers in pressure bombs and glassy carbon vessels in a high‐pressure asher (HPA‐S) for comparison. Additionally, Bi was determined by internal standardisation relative to Tl. Because isobaric and oxide interferences pose problems for many of these elements, efficient chromatographic separation methods in combination with an Aridus desolvator were employed to minimise interference effects. Repeated digestion and measurement of geological reference materials (BHVO‐1, BHVO‐2, SCo‐1, MAG‐1, MRG‐1 and UB‐N) gave results with < 5% relative intermediate precision (1s) for most elements, except Bi. Replicates of NIST SRM 612 glass digested on a hot plate were analysed by the same methods, and the results agree with reference values mostly within 2% relative deviation. Data for the carbonaceous chondrites Allende, Murchison, Orgueil and Ivuna are also reported. Digestion in a HPA‐S was as efficient as in pressure bombs, but some elements displayed higher blank levels following HPA‐S treatment. Pressure bomb digestion yielded precise data for volatile S, Se and Te, but may result in high blanks for W.     

An analysis of six simultaneous wind records taken near Vancouver

Abstract

Hourly wind speeds and directions taken at six sites near Vancouver, Canada over a period of one year during 1971–1972 have been analyzed. Mean magnitude ratios obtained for different wind directions under high wind conditions vary from about 0.3 to 1.4 and can be explained qualitatively by local shelter effects, local terrain effects or anemometer heights. The mean magnitude ratio is in every case shown to be essentially identical to the ratio of mean wind magnitudes, for high wind conditions; this is justified by simple analysis. The standard deviation of the magnitude ratio lies between 0.24 and 0.69 of the mean ratio. Uncertainty in this mean ratio, which is an important link in wind engineering design, may have to be incorporated into statistical design procedures to avoid taking unknown risks in the estimation of design wind speeds.