河南卢氏八宝山花岗斑岩LA-ICP-MS锆石U-Pb年龄和Hf同位素组成特征   总被引：2，自引：0，他引：2  

曾令君  星玉才  周栋  赵太平  姚军明  包志伟 《大地构造与成矿学》2013,37(1):65-77

河南省卢氏县八宝山岩体位于华北克拉通南缘东秦岭西段,岩体呈筒状,可能为古火山机构岩颈相的超浅成侵入体,成矿组合上为独特的以铁为主的多金属矿化。八宝山岩体边缘相为钾长花岗斑岩、中心相为黑云母二长花岗斑岩。二者的LA-ICP-MS锆石U-Pb年龄非常一致,分别为146.6±1.6Ma和145.9±1.9Ma,说明他们可能是同期岩浆侵入作用分异的产物。钾长花岗斑岩和黑云母二长花岗斑岩锆石Hf同位素组成特征也非常相似,εHf(t)值分别为-27.55～-20.71和-27.30～-21.90,tDM2值分别为1.80～2.93Ga和2.03～2.92Ga,表明该岩体的源区物质以壳源物质为主。综合分析表明,八宝山岩体可能是扬子俯冲陆壳部分熔融的作物,并可能混入少量的太华群和熊耳群的物质,其形成的地球动力学背景可能为俯冲碰撞后的伸展环境。  相似文献   

Late Yanshanian Diagenetic and Metallogenic Events in the Hongshan area of Northwest Yunnan, China: Evidence from zircon U-Pb and molybdenite Re-Os dating     

MENG Jianyin  DENGJun  YANG Liqiang  YAN Han  GAO Xue  WANG Da 《《地质学报》英文版》2013,87(Z1):754-754

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关于黄河形成时代的一些认识   总被引：3，自引：0，他引：3  

王书兵  蒋复初  傅建利  李朝柱  蔡瑶  姚海涛  乔彦松  张自森  李毅 《第四纪研究》2013,33(4)

以黄河中游河套盆地-晋陕峡谷-三门峡盆地-三门峡峡谷-郑州邙山段黄河形成时代为主要研究内容,辅以黄河上游兴海盆地-共和盆地段黄河出现的时代来探讨统一黄河形成的时代.黄河上游兴海盆地共发育9级黄河阶地,ESR和OSL年代结果表明,最高三级阶地分别形成于200ka,100ka和80ka;中游河套盆地普遍发育一套湖相沉积,其中盆地东南端托克托台地郝家窑剖面湖相沉积的亮度和烧失量数据呈现一致的由下向上波动上升变化趋势,反映沉积物碳酸盐含量在不断增高,湖水盐度在增大,可能指示了湖泊处于封闭的环境,OSL结果显示湖相沉积结束的年代在100ka前后;三门峡盆地东端发育的最高黄河阶地年代为150ka,而指示古三门湖湖水外泄的河湖相白砂层结束时间是200ka.文章总结对比前人的研究成果,认为共和运动才是形成统一黄河的主因,尽管如此,上游兴海-共和河段及中游三门峡河段黄河(分别形成于200ka和200～ 150ka)出现要早于河套地区(100ka),而晋陕峡谷最晚贯通.也就是说,现今统一的黄河形成于100ka前后.  相似文献   

Reviews on Potash Deposit Metallogenic Conditions     

Wang Chunlian  Liu Chenglin  Wang Licheng  Zhang Linbing 《地球科学进展》2013,28(9):976-987

Potash salt is one of key scarce strategic resources. Searching for large scale of potash salt deposit is one big problerm which Chinese academic community faces. Many new discoveries of world potash deposit have been made in recent ten years, which provide abundant practical information and complement the potash metallogenic theory. Through the summary of the potash forming characteristics at home and abroad, the paper studies the potash forming time, tectonic condition, paleogeographic condition, paleoclimate, basin location and salt source. Potash is mainly formed in Permian, Cretaceous, late Jurassic, Cambrian and Devonian. The combination of structure and environment helps to form large scale of evaporation. The climate cycle is related with crust activity. As the other ore deposit, the formation of potash ore also needs dry climate. Potash is the product of final stage in brine evolution, and therefore, it needs persistent drought climate. However, the climate condition is very complicated. Drought climate belt also occurs in humid climate stage, which is controlled by geomorphology. Potash ore can also form in local drought condition. Generally, potash forms in rock salt basin. However, the actual situation is very complicated. Some potash basin is coincided with rock salt basin, some is on one side of rock salt basin; and some are even in the outside of rock salt basin. Salt materials can be from three sources: marine source, terrigenous source and deep source.The paper gives an overview of the research status about the potash deposit forming conditions, which has great guiding significance for searching potash deposit in China. The paper also summarizes the three types of metallogenic models for potash deposit, including epicontinental metallogenic model, abnormal marine evaporation model and rift valley model. The three models are mainly different in material sources, in which the potash in epicontinental metallogenic model is from seawater; the potash in abnormal evaporation model is from nonmarine brine and the potash in rift valley model is mainly from deep material of volcanic activity.  相似文献   

The syn‐collisional Danacıobası biotite leucogranite derived from the crustal thickening in central Anatolia (Kırıkkale), Turkey     

Si&#x;bel Tatar  Durmu Boztu 《Geological Journal》2005,40(5):571-591

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Transition from arc‐ to post‐collision extensional setting revealed by K–Ar dating and petrology: an example from the granitoids of the Eastern Pontide Igneous Terrane,Araklı‐Trabzon,NE Turkey     

Sabah Yilmaz‐ahi&#x;n 《Geological Journal》2005,40(4):425-440

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河流阶地演化与走滑断裂滑动速率   总被引：24，自引：9，他引：15  

张培震  李传友  毛凤英 《地震地质》2008,30(1):44-57

断裂滑动速率是活动构造定量研究的最重要参数之一,不仅可以直接应用于活动构造的地震危险性预测和工程场地的地震安全性评价,还为地球动力学研究提供不可缺少的重要信息。原理上,断裂滑动速率可以用总位移量除以其累积时间而获得,但准确地确定断裂滑动速率并不是一件容易的事情,不同方法和研究者测定的同一条断裂的滑动速率可以相差3倍。文中通过对河流基座阶地演化及其对走滑断裂错动响应过程的分析发现,当一条山前河流切入河漫滩使其废弃形成阶地后,断裂的走滑位移使得河流两侧的阶地陡坎都遭到错动,其中一侧的下游阶地陡坎被错入河道而遭到河流的侵蚀,另一侧的下游阶地陡坎被错离河道,受到河流上游右侧地貌的保护而免遭侵蚀。因此,被错离河道一侧的阶地陡坎的位移在上阶地形成时就开始积累,阶地面的暴露年龄相当于位移累积的起始年代。另外,被错离河道一侧的阶地陡坎在下阶地停止侧蚀(可能同时开始接受沉积)时就开始累积位移,下阶地的初始沉积年代也代表阶地陡坎位移开始累积的时间。当然,如果能够获得被位移阶地陡坎的上下阶地年龄,就更能够把滑动速率限定在可靠的范围之内。在上述分析的基础上,提出3种利用河流阶地确定走滑断裂滑动速率的方法:第一是利用上下阶地年龄限定  相似文献   

Geochronology of the volcanic rocks in the Lu-Zong basin and its significance   总被引：23，自引：0，他引：23  

TaoFa Zhou  Yu Fan  Feng Yuan  SanMing Lu  ShiGui Shang  David Cooke  Sebastien Meffre  GuoChun Zhao 《中国科学D辑(英文版)》2008,51(10):1470-1482

The Lu-Zong (Lujiang-Zongyang) basin is one of the most important volcanic basins in the middle and lower reaches of the Yangtze River area, China. It comprises four shoshonitic volcanic units, which are, in an ascending order, the Longmenyuan, Zhuanqiao, Shuangmiao and Fushan Groups. The LA-ICP MS U-Pb zircon ages of the four units are: 134.8±1.8 Ma for the Longmenyuan Group, 134.1±1.6 Ma for the Zhuanqiao Group, 130.5±0.8 Ma for the Shuangmiao Group, and 127.1±1.2 Ma for the Fushan Group. The results indicate that all volcanic rocks in the Lu-Zong basin were formed in the Early Cretaceous from about 135 Ma to 127 Ma, lasting 8-10 Ma. There were no Jurassic volcanic activities in all the volcanic basins including the Lu-Zong basin in the middle and lower reaches of the Yangtze River area. This work has provided new chronological results for the further study and understanding of the tec- tonic, magmatic and metallogenic processes of eastern China in the Mesozoic.  相似文献   

Metamorphic and cooling history of the Shimanto accretionary complex,Kyushu, Southwest Japan: Implications for the timing of out‐of‐sequence thrusting     

Hidetoshi Hara  Katsumi Kimura 《Island Arc》2008,17(4):546-559

Illite crystallinity, K–Ar dating of illite, and fission‐track dating of zircon are analyzed in the hanging wall (Sampodake unit) and footwall (Mikado unit) of a seismogenic out‐of‐sequence thrust (Nobeoka thrust) within the Shimanto accretionary complex of central Kyushu, southwest Japan. The obtained metamorphic temperatures, and timing of metamorphism and cooling, reveal the tectono‐metamorphic evolution of the complex, and related development of the Nobeoka thrust. Illite crystallinity data indicate that the Late Cretaceous Sampodake unit was metamorphosed at temperatures of around 300 to 310°C, while the Middle Eocene Mikado unit was metamorphosed at 260 to 300°C. Illite K–Ar ages and zircon fission‐track ages constrain the timing of metamorphism of the Sampodake unit to the early Middle Eocene (46 to 50 Ma, mean = 48 Ma). Metamorphism of the Mikado unit occurred no earlier than 40 Ma, which is the youngest depositional age of the unit. The Nobeoka thrust is inferred to have been active during about 40 to 48 Ma, as the Sampodake unit started its post metamorphic cooling after 48 Ma and was thrust over the Mikado unit at about 40 Ma along the Nobeoka thrust. These results indicate that the Nobeoka thrust was active for more than 10 million years.  相似文献   

中日地理学者的论文写作年龄对比分析   总被引：1，自引：1，他引：0  

刘云刚  刘冠娜 《地理学报》2009,64(8):1019-1024

以2000年以来的《地理学报》中英文版论文为例,分析了中国地理学者的论文写作年龄特征,包括平均写作年龄、论文写作主体年龄段、高峰期年龄等等,并以日本《地理学评论》为参照,分析了体制环境因素对地理学者论文写作年龄和周期的影响。结果表明,中国地理学母语论文的写作主体是40岁左右年龄段的学者,而英文论文的写作主体是35岁左右年龄段的学者。中国地理学者的母语平均写作年龄要高于日本,但英文论文作者的平均年龄则低于日本,这种差异反映了中日两国在科研管理制度及理念上的不同。在概括分析了两者差异后提出了对中国地理学的学科发展建议。  相似文献