新疆苏普特背斜花岗岩和变安山质凝灰岩LA-ICP-MS锆石U-Pb年代学特征及意义

阿尔泰南缘古生代康布铁堡组火山岩系是许多铁矿、铜锌矿以及铅锌矿的赋矿围岩,但该赋矿地层目前还缺乏精确的同位素年代学资料。通过对变安山质凝灰岩和花岗岩LA-ICP-MS锆石U-Pb定年,获得阿尔泰南缘苏普特背斜花岗岩的年龄为412.7±0.78 Ma,安山质凝灰岩的年龄为411.2±3.4 Ma,表明阿尔泰南缘苏普特背斜内泥盆纪早期存在着强烈的火山活动,与区内广泛发育的火山岩属于同一事件的产物,具有相同的动力学背景。为研究阿尔泰南缘古生代构造演化及苏普特背斜异常区提供了重要的理论依据。     

阿尔泰山南缘克朗盆地泥盆纪火山沉积与矿产

新疆阿尔泰山南缘克朗晚古生代火山-沉积盆地盆地，位于西伯利亚板块南缘泥盆纪陆缘裂谷带中，在早泥盆世发生了大规模多期次的火山活动，在康布铁堡组火山沉积地层中形成了恰夏、铁木尔特和阿巴宫多个VMS型铜铅锌铁多金属矿床;中泥盆世火山作用减弱，在阿勒泰镇组沉积地层中形成SEDEX型红墩铅锌矿床。     

阿尔泰南缘冲乎尔盆地康布铁堡组变质酸性火山岩年龄及岩石成因

冲乎尔盆地是阿尔泰南缘等间斜列的火山沉积盆地之一,盆地内出露有重要的康布铁堡组赋矿地层.本文对该组一个凝灰岩和两个变质流纹岩样品进行了LA-ICP-MS锆石U-Pb年龄测定,获得了385.3±1.2Ma、398.1±1.8Ma和405.6±2.2Ma的结果.变质流纹岩的岩石地球化学分析结果表明,与克朗和麦兹盆地内的酸性火山岩的特征相同,即变质流纹岩属钙碱性低Ti流纹岩;在原始地幔标准化图上显示出Ti、P、Sr、Ba明显负异常,Th、U、Pb的正异常,LREE相对HREE略富集的特征,并显示强的Eu负异常(δEu=0.25 ～0.54).结合其区域地质特征,认为本区变质酸性火山岩形成于活动大陆边缘环境,是下地壳发生了部分熔融后演化的产物.阿尔泰南缘的火山沉积盆地是早—中泥盆世时期在挤压环境中形成的断陷盆地.     

新疆阿尔泰苏普特H64-8铜矿成因类型研究——来自锆石U-Pb定年、岩石地球化学和硫同位素的约束

新疆阿尔泰南缘晚古生代岩浆活动强烈,在麦兹火山沉积盆地内产出有一系列的铅锌铁铜多金属矿床。苏普特H64-8铜矿点是区内近几年新发现的一处铜矿点,平均品位为0.44%。含矿岩性主要为下泥盆统康布铁堡组变安山质凝灰岩,主要蚀变类型有硅化、绿帘石化及矽卡岩化等,矿石中金属矿物主要有黄铁矿、磁黄铁矿、磁铁矿、黄铜矿。本次工作虽首次获得了变酸性熔岩的年龄值为(901±5.6)Ma,但这个年龄值不可能代表苏普特铜矿化作用的成岩成矿时代,仅反映了深部基底可能存在新元古代地层。赋矿的下泥盆统康布铁堡组以中基性火山岩为主,是早泥盆世俯冲作用的产物,与区域上广泛出露的康布铁堡组双峰式火山岩相比,构造环境相同,只是处于相同环境下的不同演化阶段。综合成矿地质特征、构造环境分析和成矿物质来源研究,认为苏普特背斜HS64-8铜矿点是火山沉积改造型铜矿床。     

阿尔泰红岭—恰夏一带石英脉流体包裹体研究

<正>红岭—恰夏位于新疆阿尔泰南缘泥盆纪克兰火山-沉积盆地内,构造上处于萨热阔布复式向斜西北段,产出Fe、Cu、Au等小型矿床、矿点。克兰盆地内出露的地层主要为下泥盆统康布铁堡组(D1k)和中泥盆统阿勒泰组。康布铁堡组主要岩石有黑云母石英片岩、大理岩、变质流纹岩、变质晶屑凝灰岩,是区域上海相火山沉积矿床主要的赋矿层位。康布铁堡组变质基性火山岩及其铁矿层中产出顺层的脉状、透镜状石英脉,也产出穿层的含铜硫化物石英脉,本文对这两种类型石英脉进行了流体包裹体研究,以期查明该地     

阿尔泰乔夏哈拉铁铜金矿床的地质特征及其特殊性

乔夏哈拉铁铜金矿床位于北准噶尔构造带北缘,与阿尔泰造山带内分布的近同一时代的蒙库和阿巴宫铁矿不同。其赋矿围岩为苦橄质火山岩,区别于与火山岩相关的各类铁(铜)矿。铜矿石异常富集稀土,平均含量可达736.26×10-6,在铁铜矿中也罕见,较为特殊。     

新疆阿尔泰南缘康布铁堡组钾-钠质流纹岩锆石U-Pb年龄和地球化学

阿尔泰南缘分布着大量的晚古生代康布铁堡组火山岩系,是许多铁矿、铜矿以及铅锌矿的赋矿围岩。阿尔泰南缘麦兹和克朗火山-沉积盆地内的钾-钠质流纹岩的年龄分别为396.7±1.4Ma和394.0±6.0Ma,结合近期研究成果,进一步表明阿尔泰南缘火山岩主要形成于晚古生代早期,锆石U-Pb年龄峰期在400Ma左右。钾-钠质流纹岩具有高硅(SiO₂的含量范围为73%~82%)、高碱(总碱含量介于4%~7%)和过铝质(高A/CNK值>1)的特征,并见有白云母和黑云母的矿物组合,属于高硅高碱过铝质的钙碱性火山岩。此外,它们的Sr和Nd同位素分别为⁸⁷Sr/⁸⁶Sr=0.7074~0.7144,¹⁴³Nd/¹⁴⁴Nd=0.512072~0.512252,具有上地壳来源的特征,说明其岩石成因与初生地壳的部分熔融作用有着密切关系。结合区域地质背景分析,它们都产在与俯冲消减作用有关的陆缘岛弧的地质环境中。因此,我们推断本区钾-钠质流纹岩的原始岩浆为高硅高碱的花岗质岩浆,是由进入陆壳的高侵位玄武岩浆的底侵作用导致其上部地壳近固相线的低程度部分熔融的产物。     

新疆富蕴县蒙库铁矿床地质特征及成因分析

蒙库铁矿床位于西伯利亚板块的阿尔泰活动陆缘麦兹晚古生代陆内裂谷盆地，并产于该盆地北东缘的中部，即麦兹倒转紧闭复式向斜的北东倒转翼中部．容矿地层为下泥盆统康布铁堡组的下亚组，铁矿体严格受NIⅣ走向的铁木下尔滚次级紧闭向斜构造控制，并产于向斜构造的核部．控矿断层可能是由铁木下尔滚次级紧闭向斜和巴寨区域性断裂联合作用产生的次级断裂构造．蒙库铁矿床的赋矿围岩主要为前进区域变质作用产生的角闪更长片麻岩，局部可见断裂混合岩化现象．近矿围岩蚀变甚弱，主要表现为夕卡岩化作用，出现了石榴子石、绿帘石、钙铁辉石、透闪石等夕卡岩矿物．其成因类型属喷流沉积-变质改造-岩浆热液叠加富集型多因复成铁矿床．     

新疆可可塔勒铅锌矿变质加富机制研究

<正>新疆可可塔勒铅锌矿位于阿尔泰南缘麦兹盆地内,主要赋矿围岩为变形强烈的康布铁堡组火山岩、黑云石榴绿片岩及大理岩。可可塔勒规模可达大型,有重要经济价值的元素主要为Pb(0.89 Mt,1.51%)、Zn(1.94 Mt,3.16%)和Ag(650 t,40 g/t)。野外和镜下观察发现,可可塔勒至少有两个成矿阶段:以条带状黄铁矿为代表VMS成矿阶段和以多金属石英脉为代表的热液成矿阶段。     

新疆阿尔泰铁矿:地质特征、时空分布及成矿作用

在前人工作基础上,文章综述了新疆阿尔泰铁矿地质特征和成矿背景.新疆阿尔泰铁矿赋矿地层主要为上志留统一下泥盆统康布铁堡组、中上泥盆统阿勒泰镇组和中泥盆统北塔山组,少数为下石炭统和下古生界.成因类型可划分为火山岩型、矽卡岩型、伟晶岩型、与花岗岩有关的热液型、与基性岩体有关的钒钛磁铁矿型和砂矿型6种,其中火山岩型和矽卡岩型为...     

摩擦桩基桩土间极限摩阻力取值问题探讨

通过对广珠东线高速公路横沥大桥的试桩及土体的工程地质条件分析,总结出影响摩擦桩基桩土间极限摩阻力取值的一般问题以及解决问题的方法和措施。     

从榴辉岩与围岩的关系论苏鲁榴辉岩的形成与折返

位于华北和扬子两板块碰撞带中的苏鲁榴辉岩形成的温压条件不但是超高压，而且是高温。榴辉岩的PTt轨迹表明其为陆-陆磁撞俯冲带的产物。榴辉岩的区域性围岩花岗质片麻岩为新元古代同碰撞期花岗岩，榴辉岩及其他直接围岩皆呈包体存在于其中，并见新元古代花岗岩呈脉状侵入榴辉岩包体中。区域性围岩新元古代花岗岩的锆石中发现有柯石英、绿辉石等包裹体，表明新元古代花岗岩的组成物质也经受过超高压变质作用，且榴辉岩与围岩新元古代花岗岩的锆石U-Pb体系同位素年龄基本相同。但新元古代花岗岩所记录的变质作用和变形作用期次（或阶段）却少于榴辉岩。椐上述可得如下推断：超高压榴辉岩与新元古代花岗岩岩浆是同时在碰撞带底部（俯冲板块前部）形成的；榴辉岩的第一折返阶段是由新元古代花岗岩岩浆携带上升的，其第二折返阶段是和新元古代花岗岩一起由逆冲及区域性隆起而上升，遭受剥蚀。     

The Importance of the Precipitation and the Susceptibility of the Slopes for the Triggering of Landslides Along the Roads

In order to characterise the influence of the heavyrains on the observed landslides during the 1996–1997hydrological cycle, rainfall records for the last 100years are analysed from 104 stations in easternAndalusia. Regarding the amounts of rain recordedbetween October 1996 and March 1997 in the 104stations studied, 31 presented new all-time records;15 presented values that were 80–100% of thepre-1995 record; 49 stations, 80–50%; and 9stations, < 50%. A map has been devised of thesusceptibility of the materials through which thesouth-eastern Andalusian road network crosses,together with an inventory of the damage caused byinstability phenomena on banks and cuttings of theroad network during the winter of 1996–1997. Therelationships between the rainfall during the studyperiod, the damage caused to the road network and thesusceptibility of the materials affected are analysed.The results indicate that there is a clearcorrespondence between the rainfall recorded and thesusceptibility of the materials with the inventorieddamage. It is concluded that the widespread seriousdamage caused in early 1997 to the roads andsurrounding areas in the Alpujarra region and thecoast of the Province of Granada was mainly caused bythe extraordinarily heavy rains. However, considerablyless damage was observed where the susceptibility ofthe terrain is low, thus highlighting the extremeusefulness of terrain-susceptibility maps for riskprevention and territorial planning.     

某高速公路下伏煤矿采空区稳定性分析

在论述某高速公路下伏砦脖煤矿采空区地质、采矿和工程地质特征的基础上, 进行了稳定性数值模拟分析, 定性与定量地分析与评价了该煤矿采空区的地表变形特征及稳定性。研究结果表明: 该煤矿采空区的变形尚未完成, 对拟建的高速公路将产生很大的危害, 必须采取相应的工程治理措施。      

混凝剂处理钻井废泥浆液的研究

通过烧杯搅拌实验对混凝剂处理钻井废泥浆液进行研究,从混凝剂适应p H值范围、混凝效果、沉降速度三方面研究比较,找出一种较为理想的混凝剂,并分析了影响混凝剂性能的主要因素,确定了混凝剂的最佳投放剂量。      

黄河源区水环境变化及黄河出现冬季断流的原因

自1954年有水文观测资料以来，黄河曾在青海省玛多县黄河沿水文站发生过3次断流。本文在分析黄河源区水环境特征及其影响因素的基础上指出，鄂陵湖、扎陵湖的环湖融区调节能力低，当遇到连续干旱、冬季其调节水量不足以维系黄河径流时便会发生断流，这是断流的主因。湖水位降低、开采沙金、过度放牧等自然和人为因素也会对黄河发生断流产生影响。鄂陵湖口附近黄河上修建的水电站开始蓄水，提高了两湖及环湖融区的调节能力，今后黄河冬季出现断流的可能性将大为降低。     

Unity of the national and the international in the socio-cultural development of the peoples of the USSR

International unity is becoming ever stronger in this country owing to an increasing similarity in the development of the cultural environment. This comprises the provision of all the country's republics with a sufficient number of schools, theatres, and other institutions and cultural information media in accordance with the needs of the population. An important part is played by the rise in ‘the general educational level, as well as the level of professional qualifications and skills. Among all the Soviet nations and nationalities, this rise being more rapid among formerly backward peoples. Prominent among the factors of internationalization is the progressive development of the nationalities’ cultural resources, while professional culture is being increasingly brought within the reach of the masses.The implementation of the nationalities policy promotes the all-round development of all Soviet nations and nationalities, their drawing together, the upsurge of the individual capabilities of every Soviet citizen.     

Artemia in the Salt Lakes of Russia:the Productivity of Populations,the Reserves of the Cysts and the Fisheries

正Artemia cysts are an extremely important component of aquaculture diets.It is well established that the cultivation of fish and shellfish derive substantial health and growth advantages when Artemia are included in the diets of the     

天山南坡科其喀尔冰川表碛区小气候特征研究

利用天山南坡科其喀尔冰川3号观测站2009年全年的气象观测资料,分析研究了科其喀尔冰川表碛区的小气候特征. 结果表明：总辐射和净辐射夏秋季较高、冬春季较低;反射辐射和地表反照率反之. 与其他地区不同,该区主要受积雪物理性质和下垫面状况的影响,冬春季地表反照率日变化表现为由大到小的变化过程,夏秋季表现为倒U型. 温度年变化表现为夏秋季高、冬春季低,最高月均值出现在8月,为9.4℃,最低月均值出现在1月,为-9.6℃. 受山谷风和冰川风的影响,全年的风向以西北风和西北偏西风为主,风向的日变化以11：00为界发生转向. 受降水和冰川消融等的影响,比湿夏秋季月均值较大,冬春季月均值较小.     

Climate: Is the past the key to the future?

 The climate of the Holocene is not well suited to be the baseline for the climate of the planet. It is an interglacial, a state typical of only 10% of the past few million years. It is a time of relative sea-level stability after a rapid 130-m rise from the lowstand during the last glacial maximum. Physical geologic processes are operating at unusual rates and much of the geochemical system is not in a steady state. During most of the Phanerozoic there have been no continental ice sheets on the earth, and the planet’s meridional temperature gradient has been much less than it is presently. Major factors influencing climate are insolation, greenhouse gases, paleogeography, and vegetation; the first two are discussed in this paper. Changes in the earth’s orbital parameters affect the amount of radiation received from the sun at different latitudes over the course of the year. During the last climate cycle, the waxing and waning of the northern hemisphere continental ice sheets closely followed the changes in summer insolation at the latitude of the northern hemisphere polar circle. The overall intensity of insolation in the northern hemisphere is governed by the precession of the earth’s axis of rotation, and the precession and ellipticity of the earth’s orbit. At the polar circle a meridional minimum of summer insolation becomes alternately more and less pronounced as the obliquity of the earth’s axis of rotation changes. Feedback processes amplify the insolation signal. Greenhouse gases (H₂O, CO₂, CH₄, CFCs) modulate the insolation-driven climate. The atmospheric content of CO₂ during the last glacial maximum was approximately 30% less than during the present interglacial. A variety of possible causes for this change have been postulated. The present burning of fossil fuels, deforestation, and cement manufacture since the beginning of the industrial revolution have added CO₂ to the atmosphere when its content due to glacial-interglacial variation was already at a maximum. Anthropogenic activity has increased the CO₂ content of the atmosphere to 130% of its previous Holocene level, probably higher than at any time during the past few million years. During the Late Cretaceous the atmospheric CO₂ content was probably about four times that of the present, the level to which it may rise at the end of the next century. The results of a Campanian (80 Ma) climate simulation suggest that the positive feedback between CO₂ and another important greenhouse gas, H₂O, raised the earth’s temperature to a level where latent heat transport became much more significant than it is presently, and operated efficiently at all latitudes. Atmospheric high- and low-pressure systems were as much the result of variations in the vapor content of the air as of temperature differences. In our present state of knowledge, future climate change is unpredictable because by adding CO₂ to the atmosphere we are forcing the climate toward a “greenhouse” mode when it is accustomed to moving between the glacial–interglacial “icehouse” states that reflect the waxing and waning of ice sheets. At the same time we are replacing freely transpiring C3 plants with water-conserving C4 plants, producing a global vegetation complex that has no past analog. The past climates of the earth cannot be used as a direct guide to what may occur in the future. To understand what may happen in the future we must learn about the first principles of physics and chemistry related to the earth’s system. The fundamental mechanisms of the climate system are best explored in simulations of the earth’s ancient extreme climates. Received: 7 November 1996/Accepted: 23 January 1997