High-Resolution Records of the Holocene Paleoenvironmental Variation Reflected by Carbonate and Its Isotopic Compositions in Bosten Lake and Response to Glacial Activities

Abstract: The Early Holocene paleoclimate in Bosten Lake on the northern margin of the Tarim Basin, southern Xinjiang, is reconstructed through an analysis of a 953 cm long core (BSTC2000) taken from Bosten Lake. Multiple proxies of this core, including the mineral components of carbonate, carbonate content, stable isotopic compositions of carbonate, Ca/Sr, TOC and C/N and C/S of organic matter, are used to reconstruct the climatic change since 8500 a B.P. The chronology model is made by nine AMS 14C ages of leaves, seeds and organic matter contained in two parallel cores. The climate was cold and wet during 8500 to 8100 a B.P. Temperature increased from 8100 to 6400 a B.P., the climate was warm and humid, and the lake expanded. The lake level was highest during this stage. Then from 6400 to 5100 a B.P., the climate became cold and the lake level decreased slightly. During the late mid-Holocene, the climate was hot and dry from 5100 to 3100 a B.P., but there was a short cold period during 4400 to 3800 a B.P. At this temporal interval, a mass of ice and snow melting water supplied the lake at the early time and made the lake level rise. The second highest lake level stage occurred during 5200 to 3800 a B.P. The climate was cool and wet during 3100 to 2200 a B.P., when the lake expanded with decreasing evaporation. The lake had the last short-term high level during 3100 to 2800 a B.P. After this short high lake level period, the lake shrank because of the long-term lower temperature and reduced water supply. From 2200 to 1200 a B.P., the climate was hot and dry, and the lake shrank greatly. Although the temperature decreased somewhat from 1200 a B.P. to the present, the climate was warm and dry. The lake level began to rise a little again, but it did not reach the river bed altitude of the Konqi River, an outflow river of the Bosten Lake.     

Isotopic effect of runoff in the Yarlung Zangbo River

This paper mainly analyzed the isotopic effect of precipitation in the Yarlung Zangbo River.On the whole,the isotopic compositions of most water samples fall on the upper right of the global meteoric water line.According to δD and δ18O data of the samples,the precipitation equation is figured out as δD=8 δ18O+10,showing that they are derived from precipitation but have experienced intensive evaporation.With obvious region-continental effect(a continuous depletion in heavy isotopes in water bodies occurs with increasing distance from the coast),the water presents a reducing trend of δD and δ18O westwards and southwards.Altitudinal effect is evident here,occur-ring in both trunk stream and main branches of the Yarlung Zangbo River.The distribution of water isotopic compo-sitions is concerned with the movement of precipitation clouds from the Bay of Bengal and the Nujiang River and is affected by the topographic and climatic conditions of the Tibetan Plateau.     

硼及硼同位素地球化学在地质研究中的应用

总结了硼及硼同位素的地球化学特征：（１）硼是易溶元素,主要赋存在地球表层,尤其是海水、海相沉积物及海水交代岩石中。其同位素组成δ１１Ｂ值按顺序变化,封闭盐湖卤水（＞４０‰）＞海水（３９５‰）＞海相硼矿物（１８２‰～３１７３‰）＞海相沉积物（１３９‰～２５２‰）＞海水交代岩石（４５１‰～１０８５‰）。大陆水及陆相沉积物硼含量及硼同位素组成变化极大,并多以负值为主。海陆过渡构造带则具有过渡的硼丰度值和硼同位素组成。（２）１１Ｂ较１０Ｂ具有更活跃的地球化学性质,因此在水岩作用中具有明显的同位素交换。硅化交代作用中,岩石被硅化交代,释放硼,并优先释放重硼,同位素组成变轻;在脱硅反应中,岩石释放硅吸收硼,并优先吸收重硼,同位素组成变重。在封闭体系中,水溶液淋滤岩石中部分的硼,即可大量富集,并富集１１Ｂ;在开放体系中,岩石硼被大量淋滤流失,δ１１Ｂ值明显降低。由于水岩作用的结果,从新鲜海底玄武岩到正常海水,硼同位素值从－２９５‰到３９５‰逐渐升高。（３）变质脱水反应中硼被大量排出,并优先排出重硼同位素,进入流体相,因此随着变质程度由低到高,岩石中硼含量及同位素组成δ１１Ｂ值由高变低。（４）在成矿研究中?     

西藏冈底斯中段桑桑花岗质岩体锆石U-Pb年龄与Hf同位素组成及其对岩石成因和构造演化的制约

以西藏冈底斯中段西侧桑桑花岗质岩体为对象,进行了系统的年代学、元素地球化学和锆石Hf同位素组成研究,据此阐明了岩体成因,并探讨了其构造意义。锆石LA-ICP-MS U-Pb定年表明,桑桑花岗质岩体的成岩年龄为49~54 Ma。化学组成上,岩体具有亚碱、准铝、贫磷的特征(A/NKC1.10,P_2O_50.20%),属钙碱性I型花岗岩类。岩体富Cs、Rb、Ba、Th、U、K、Pb和轻稀土,贫Nb、Ta、P与Ti,表现出弧岩浆岩的地球化学特征。岩体的锆石εHf(t)值变化较大,散布于正值与负值之间(=-4.24~+5.49),指示其形成存在不同来源物质的贡献。综合分析表明,桑桑花岗质岩体起源于初生地壳的部分熔融,但在成岩过程中有古老地壳组分的参与。结合区域地质背景,笔者认为这一古老地壳组分最可能来自印亚碰撞过程中俯冲下插的印度地壳,由此说明印度-欧亚大陆碰撞的起始时间应早于54 Ma。     

甘肃西秦岭金矿富集区花岗岩与金成矿作用的关系

依据甘肃西秦岭金矿富集区矿床和相关花岗岩的同位素年龄和稳定同位素数据,探讨了该区金矿床成矿作用与花岗岩成岩作用的关系及成矿物质来源。从数据显示,成岩和成矿作用均发生在侏罗纪;成岩年龄集中分布在200Ma~171Ma;大规模成矿作用年龄分布在195Ma~140Ma;成矿事件同步或略滞后于花岗岩浆活动;相关花岗岩是地壳物质重熔而成的S型;花岗岩浆侵入是该区金矿形成的主导因素;成矿物质和流体来源于地壳。     

江西大吉山五里亭花岗岩单颗粒锆石U-Pb同位素年龄及其地质意义探讨

江西大吉山五里亭花岗岩一直被认为是与大吉山钨矿有关的早阶段花岗岩体 ,时代为燕山早期。但实际上大吉山地区各阶段花岗岩体之间的时空关系并不清楚 ,前人的某些年龄数据也存在相互矛盾之处。本文利用单颗粒锆石 U - Pb化学法 ,对五里亭花岗岩进行了年代学研究 ,获得 2 38.4± 1Ma的岩体侵位年龄 ,这个年龄属印支期。本文还结合某些岩石学、地球化学特征研究及与相邻岩体的对比 ,认为五里亭花岗岩确应归属于印支期 ,因此 ,五里亭岩体与大吉山钨矿没有成因上的直接联系。五里亭花岗岩侵位年龄的厘定和该地区更多印支期花岗岩的不断发现 ,表明印支运动在华南的影响超出了人们以往的认识。在此基础上 ,本文还对华南印支运动和印支期花岗岩的问题进行了简单的讨论     

湘东南新元古界大江边组和埃岐岭组的形成时代和物源—来自碎屑锆石U-Pb年代学的证据

运用LA-ICP-MS方法对湘东南泗洲山地区南华系大江边组上部泥质岩和震旦系(埃迪卡拉系)埃岐岭组底部变泥铁质砂岩碎屑锆石进行U-Pb测年,分别获得了28组和92组U-Pb有效年龄.前者锆石年龄主要集中分布于693 ～ 897 Ma(占67.9％),1810 ～1916Ma(占17.9％),1974～2177Ma(占14.2％)三个区间,最年轻的谐和错石年龄为734 ±4Ma(MSWD=1.07,n=4);后者锆石年龄主要集中分布于570～699Ma(占9.8％),715～ 774Ma(占7.6％),882～1272Ma(占67.4％),1300～ 1681Ma(占7.6％),1899 ～2490Ma(占7.6％)五个区间,最年轻的谐和锆石年龄为634±7Ma(MSWD=1.09,n=4).研究认为,大江边组上部地层的形成时代＜734±4Ma,与澄江组顶部、牛牯坪组、岩门寨组、拱洞组及隆里组等地层形成时代相近,揭示“板溪期”地层的顶界年龄及江口冰期开启年龄＜ 734±4Ma;埃岐岭组形成时代＜634 ±7Ma,与陡山沱组及蓝田组等地层形成时代相近,支持南沱冰期结束于635Ma左右的认识.综合研究认为,大江边组和埃岐岭组的物源可能分别主要来源于武夷地块南东部和南岭—云开地块南部的一个Grenville期造山带.推测物源的转换可能与南岭—云开地块、武夷地块在两组沉积时期之间聚合或紧邻有关,其时限约为734～634Ma.     

四川甲基卡伟晶岩型稀有金属矿床的成矿时代及其意义

青藏高原东部是中国仅次于新疆阿尔泰的伟晶岩集中产出的地区之一,也是世界上重要的伟晶岩型稀有金属矿产资源产地,其中的甲基卡矿床是中国最大的伟晶岩型锂多金属矿床.由于地处高原,交通不便,对于该矿床的成因及相关科学问题缺乏系统的研究.根据野外调查和同位素年代学研究,获得的甲基卡稀有金属矿床 134号脉和 104号脉的 Ar- Ar法坪年龄分别为 (195.7± 0.1) Ma和 (198.9± 0.4) Ma,等时线年龄分别为 (195.4± 2.2) Ma和 (199.4± 2.3) Ma.这说明青藏高原东部甘孜-理塘一带的伟晶岩矿床形成于印支运动之后的燕山早期,属于印支旋回强烈造山运动之后相对稳定阶段的产物,或者说甲基卡式的伟晶岩型矿床形成于印支旋回板块碰撞造山运动向燕山-喜马拉雅旋回陆内造山运动演化的过渡时期.这种特点与国内外类似的伟晶岩型稀有金属矿床具有相似性.     

扬子克拉通北缘中、新元古代洋壳俯冲及壳幔再循环作用的同位素地球化学证据

报道和总结了近期陕西汉中碑坝和西乡地区重要地质体系统同位素年代研究成果，在重新厘定的年代学基础上，就扬子克拉通北缘同位素特征及其地质意义进行剖析，依据该区岩浆作用的上地幔源区性质及演化规律，提出了中、新元古代扬子克拉通北缘存在与现代板块运动类似的洋壳俯冲和壳幔再循环作用的同位素地球化学证据     

铼-锇同位素体系介绍及其在矿床学研究中的应用

Re Os同位素体系是目前唯一能够直接对矿石矿物 (硫化物和氧化物 )进行测年的同位素方法 ,利用 1 87Os/ 1 88Os比值还可以示踪成岩物质与流体的来源及其随后的演化历史 ,因此在矿床学研究及矿床勘探中正扮演着越来越重要的角色。本文对 Re Os同位素测年方法及其在矿床学研究中的应用作了简要介绍。