内蒙古乌拉特后旗查干花钼矿锆石U-Pb和辉钼矿Re-Os同位素年龄及其地质意义

内蒙古乌拉特后旗查干花钼多金属矿为华北陆块宝音图岩浆弧内的一处具有大型规模的隐伏矿床。钼矿体呈隐伏状赋存于二叠纪花岗闪长岩体与宝音图群二云石英片岩外接触带,大致呈不规则厚层状、脉状及网脉状,近NW向展布。发育钾化、云英岩化和绿泥石化等围岩蚀变,具斑岩型矿床蚀变分带特征。对与钼成矿关系密切的花岗闪长岩开展LA-ICP-MS锆石U-Pb定年,获得加权平均年龄为(257.2±1.3)Ma,表明查干花花岗闪长岩体形成于晚二叠世。对辉钼矿开展了Re-Os同位素测年,获得辉钼矿Re-Os等时线年龄为(238.6±4.4) Ma,模式年龄为(240.0±1.6) Ma,限定查干花钼矿是印支早期构造-岩浆活动的产物。辉钼矿Re含量为64 502×10^-9~245 621×10^-9,推测其成矿物质为壳幔混合来源。     

西藏班公湖-怒江结合带中段早白垩世花岗闪长斑岩年龄、Hf同位素及地球化学特征

西藏班公湖-怒江结合带中段分布大量早白垩世岩浆岩,其岩浆源区和岩石成因与班公湖-怒江洋的演化密切相关。对班公湖-怒江结合带中段东卡错地体发现的花岗闪长斑岩进行了系统的岩相学、年代学和地球化学研究。锆石U-Pb年龄结果显示,花岗闪长斑岩成岩时代为早白垩世(109.4±1.9 Ma)。样品显示出较高的SiO 2(67.40%~69.48%)和Al2O 3(15.66%~15.81%)含量及较低的Mg#值(19.03~21.48),具有高钾钙碱性系列岩浆岩特征;稀土元素总量较低(ΣREE=196.45×10^-6~207.6×10^-6),轻稀土元素富集,重稀土元素亏损,轻、重稀土元素分异明显,且具有较明显的负Eu异常(δEu平均值为0.64);微量元素蛛网图总体呈右倾的锯齿状,富集大离子亲石元素,亏损高场强元素;锆石εHf(t)均为负值且变化范围不大(-4.21^-10.59),对应的Hf模式年龄t2DM在1438~1842 Ma之间,显示古老地壳的特征。综合以上特征并结合区域资料分析,认为东卡错地体发现的花岗闪长斑岩为I型花岗岩,来源于古老下地壳的部分熔融,可能是东卡错地体与北拉萨地体或聂荣地体/南羌塘碰撞过程中板片断离岩浆活动的产物。     

Age of granitic activity associated with copper–molybdenum mineralization at Malanjkhand, Central India

The Malanjkhand copper–molybdenum deposit in the Bhandara Craton, Central India, is hosted by a granite complex which consists of regionally dominant grey granitoid and pink granitoid confined to the mineralized zone. New SHRIMP RG data on zircons from both granite types are inferred to have crystallized during the same magmatic pulse at ca 2.48 Ga. The discrepancy between zircon age and earlier obtained Rb–Sr whole-rock age is attributed to modification of the Rb–Sr system by hydrothermal overprint. Similarity in petrographic features and chemical affinity in combination with identical age strongly indicate that the pink granite is the hydrothermally altered variety (microclinization and silicification) of the grey granite. The spatially associated, main Cu–Mo mineralization event at Malankhand appears to be broadly contemporaneous with and genetically related to the emplacement of the host granitoids at about 2.48 Ga.     

Relationship between wave steepness and wave age in the course of wind wave growth

It is traditionally assumed that the relationship between wave steepness and wave age is independent of the wind wave growth state. In fact, the traditional relationship can not describe the whole course of wind wave growth. This paper assumes that the relationship between wave steepness and wave age changes with the variety of dimensionless fetch. Based on the relationship proposed by Hou and Wen (1990), a new relationship in the course of wind wave growth is revealed. Comparisons between the present study and other previous relationships show that this new relationship explains better the observations than the other existing relationships.In the case of small fetch, wave age value increases more quickly than other models while it is in opposition to that in the case of large fetch. The result in present paper can clearly reflect the whole course of wind wave growth, it is an improvement for traditional results.     

Progress of loess research in China

Progress in Chinese loess research made in recent 15 years was introduced in this paper, including mainly distribution and paleoenvironment significance of Chinese loess, new development of loess formation age, red-brown paleosol types and environmental change, loess-paleosol sequence and climate cycles, monsoon strength change during last interglacial and last glacial periods in the Loess Plateau, climate events, and source areas of loess and material.     

Timing of post-collisional H-type to A-type granitic magmatism: U–Pb titanite ages from the Alpine central Anatolian granitoids (Turkey)

The last stages of the continental collision during the closure of the Neotethyan ocean in central Anatolia are characterized by post-collisional H- and A-type granitoids intruding both the metamorphic country rocks and allochthonous ophiolitic rocks of the central Anatolian crystalline complex. Available Rb–Sr and K–Ar whole-rock and mineral age data on the H- and A-type granitoids in central Anatolia are inconsistent. To better constrain the geological relevance and the timing of the change in the chemical character of magmatism in the wake of the Alpine orogeny in Anatolia, we re-evaluated the geochemical characteristics and dated titanite from representative H- (Baranadag quartz-monzonite: BR) and A-type (Çamsari quartz-syenite: CS) granitoids by the U–Pb method. BR is a high-K calc-alkaline intrusion with mafic microgranular enclaves and shows enrichment of LILE relative to HFSE. The alkaline CS displays higher SiO₂, Na₂O+K₂O, Fe/Mg, Rb, Th and HFSE with corresponding depletion in CaO, MgO, Fe₂O₃^tot, P₂O₅, Ba, Sr, and Ti. Chondrite-normalized REE patterns of the BR and CS samples have LREE-enriched and flat HREE patterns, whereas CS differs from BR by higher LREE enrichment and lower MREE and HREE contents. Mineralogical and geochemical characteristics suggest that BR and CS were not products of the same magma source. BR was derived from a subduction-modified depleted hybrid-source and CS had an enriched mantle source with significant crustal contribution. The U–Pb titanite ages of the H-type central Anatolian granitoids (BR) and the A-type granitoids (CS) are 74.0±2.8 and 74.1±0.7 Ma, respectively. The coeval evolution of post-collisional/calc-alkaline H- to A-type magmatism was possibly associated with source heterogeneity and variable involvement of continental materials during the evolution of these granitoids. These new age data constrain the timing of the onset of a post-collision extensional period following the Alpine thickening within the passive margin of the Tauride–Anatolide platform, which occurred before the opening of the latest Cretaceous central Anatolian basins.An erratum to this article can be found at     

青藏高原北缘银石山地区地貌年代学初步研究

青藏高原北缘银石山地区可划分出7类一级地貌类型：强抬升断块区、弱抬升断块区、低丘区、早期夷平面残留区、晚期准夷平面分布区、冲洪积平原、残积缓丘区等。通过相关沉积物的光释光和石英电子自旋共振年龄以及覆于早期夷平面、后期山丘、夷平低地或堆积台面等之上的火山岩年龄测年,重塑了晚新生代以来的地貌演化过程：中新世中晚期—上新世中期为主夷平面发育时期,上新世晚期(3．7Ma)主夷平面解体,强(弱)抬升断块区和低丘山地等开始形成。早更新世早期在低丘区中形成夷平低地或堆积台面,中后期抬升断块区与低丘区相间的地表形貌特征进一步强化。中更新世早期(0．64Ma)残积缓丘区形成,中期(0．43Ma)嵩华山北面形成一级冰斗,中后期(0．365Ma)低丘区主要斜坡地貌成型,末期(0．178Ma)强抬升断块区的主要沟谷地貌基本成型。晚更新世以来主要河流阶地形成,其间在0．037Ma前后冲洪积平原形成。     

滇西金满脉状铜矿床成矿年龄讨论

对滇西兰坪盆地内金满脉状铜矿床成矿主阶段的石英样品进行了40Ar 39Ar快中子活化测定,谱线特征为马鞍型,其坪年龄为(58 05±0 54)Ma,最小视年龄为(56 76±0 81)Ma,等时线年龄为(54 30±0 15)Ma,三者均十分接近,说明所测石英样品的年龄可靠。而石英的流体包裹体Rb Sr同位素分析数据因线性关系不太好,导致等时线年龄(68±76)Ma误差大,因而仅具参考意义。砂岩及矿化砂页岩中磷灰石的裂变径迹年龄为58 7～61 7Ma,反映了兰坪盆地内一期构造热演化事件的发生时间,其与40Ar 39Ar分析的年龄基本一致,说明金满脉状铜矿床的形成时代相当于喜马拉雅早期。结合滇西大区域内铜及其他矿种的成矿主要集中在喜马拉雅早期这一现象,认为滇西在此时期必定存在着诱发某种大规模成矿作用的关键因素,并在区域内统一制约着矿床的形成。     

Timing and geochemical characters of the Sanchazi magmatic arc in Mianlüe tectonic zone,South Qinling

~~Timing and geochemical characters of the Sanchazi magmatic arc in Mianlüe tectonic zone,South Qinling1)Present address:Max-Planck-Institut f..Chemie,Postfach3060,55020Mainz,Germany.~~     

新疆巴音布鲁克乔霍特铜矿区钾长花岗岩中钾长石的^40Ar-^39Ar年龄及其地质意义

采用单矿物40Ar-39Ar同位素年代学方法,对乔霍特铜矿区钾长花岗岩中钾长石进行精确的年龄测定,获得坪年龄为274.78±0.44 Ma,等时线年龄为272.7±3.0 Ma.鉴于该钾长花岗岩体形成之后未见构造变形和热液蚀变现象,因此40Ar-39Ar同位素年龄代表钾长花岗岩中钾长石结晶年龄,即钾长花岗岩体的结晶晚期年龄.根据钾长花岗岩体和乔霍特铜矿体的空间关系、铜矿石的品位变化、钾长花岗岩和铜矿石的稀土元素特征及铜矿石流体包裹体氢氧同位素组成等,认为乔霍特铜矿床的成矿作用直接与钾长花岗岩的侵入活动有关,钾长花岗岩中钾长石结晶年龄基本上代表乔霍特铜矿床成矿时代的下限.