大兴安岭北段东坡中北部小莫尔可地区 中生代火山岩成因及其地质意义     

刘晨  孙景贵  古阿雷  赵克强  韩吉龙  杨梅  冯洋洋 《地质论评》2016,62(S1):37-38

大兴安岭地区是一个经历了古亚洲洋、蒙古-鄂霍茨克洋闭合和环太平洋构造体系叠加复合构造区,以其发育规模巨大、结构复杂的陆相火山岩带和花岗岩带以及有色、贵金属矿床备受国内外地质学家广泛关注和研究(Wu, et al.,2006;白令安,2013;Sun J G,2013;Xu,et al.,2013;苟军,2013)。目前,虽然该区在中生代陆相火山岩的成因、形成的构造背景已取得了较大进展;但是,由于大兴安岭地区火山作用复杂,自然地理、交通条件较差,尚有大面积空白区未开展过系统的1：50000区域地质矿产调查和科研工作;近期我们课题组在开展大兴安岭东坡花岗岩带北部1：50000小鄂尔贝尔汗（M51E012016）和小莫尔可（M51E011016）幅区域地质矿产调查过程中,将地质矿产调查与科研相结合,对侵入喷发在花岗岩岩体之间陆相火山岩进行了岩石地层厘定和岩相学、元素地球化学、年代学以及Hf同位素研究,以期为整体揭示大兴安岭火山岩的源区性质及其演化规律提供科学依据,并从成矿元素地球化学角度来约束成矿物质来源,并结合区域成矿作用探讨区域找矿意义。  相似文献   

ISRM Suggested Method for In Situ Microseismic Monitoring of the Fracturing Process in Rock Masses     

Ya-Xun Xiao  Xia-Ting Feng  John A. Hudson  Bing-Rui Chen  Guang-Liang Feng  Jian-Po Liu 《Rock Mechanics and Rock Engineering》2016,49(1):343-369

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Mechanism of Rock Burst Occurrence in Specially Thick Coal Seam with Rock Parting     

Jian-chao Wang  Fu-xing Jiang  Xiang-jun Meng  Xu-you Wang  Si-tao Zhu  Yu Feng 《Rock Mechanics and Rock Engineering》2016,49(5):1953-1965

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Spatial–temporal variation of precipitation concentration and structure in the Wei River Basin,China     

Shengzhi Huang  Qiang Huang  Yutong Chen  Li Xing  Guoyong Leng 《Theoretical and Applied Climatology》2016,125(1-2):67-77

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Spatiotemporal characteristics of precipitation changes in the Pearl River Basin,China     

Bingjun Liu  Junfan Chen  Wenxiu Lu  Xiaohong Chen  Yanqing Lian 《Theoretical and Applied Climatology》2016,123(3-4):537-550

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Recent heterogeneous warming and the associated summer precipitation over eastern China   总被引：1，自引：0，他引：1  

Jian Zhu  Dan-Qing Huang  Ying Dai  Xi Chen 《Theoretical and Applied Climatology》2016,123(3-4):619-627

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Multi-scale response of runoff to climate fluctuation in the headwater region of Kaidu River in Xinjiang of China     

Ling Bai  Zhongsheng Chen  Jianhua Xu  Weihong Li 《Theoretical and Applied Climatology》2016,123(3-4):703-710

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Nonlinear characteristics of hydroclimate variability in the mid-latitude Asia over the past seven centuries     

Feifei Zhou  Keyan Fang  Yingjun Li  Qiuyan Chen  Dan Chen 《Theoretical and Applied Climatology》2016,123(1-2):151-160

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The Upstream “Strong Signals” of the Water Vapor Transport over the Tibetan Plateau during a Heavy Rainfall Event in the Yangtze River Basin   总被引：2，自引：0，他引：2  

Yang Zhao  Xiangde Xu  Bin Chen  Yinjun Wang 《大气科学进展》2016,33(12):1343-1350

A heavy rainfall event that occurred over the middle and lower reaches of the Yangtze River Basin(YRB) during July11–13 2000 is explored in this study. The potential/stream function is used to analyze the upstream "strong signals" of the water vapor transport in the Tibetan Plateau(TP). The studied time period covers from 2000 LST 5 July to 2000 LST 15 July(temporal resolution: 6 hours). By analyzing the three-dimensional structure of the water vapor flux, vorticity and divergence prior to and during the heavy rainfall event, the upstream "strong signals" related to this heavy rainfall event are revealed. A strong correlation exists between the heavy rainfall event in the YRB and the convective clouds over the TP. The "convergence zone" of the water vapor transport is also identified, based on correlation analysis of the water vapor flux two days and one day prior to, and on the day of, the heavy rainfall. And this "convergence zone" coincides with the migration of the maximum rainfall over the YRB. This specific coupled structure actually plays a key role in generating heavy rainfall over the YRB. The eastward movement of the coupled system with a divergence/convergence center of the potential function at the upper/lower level resembles the spatiotemporal evolution of the heavy rainfall event over the YRB. These upstream "strong signals" are clearly traced in this study through analyzing the three-dimensional structure of the potential/stream function of upstream water vapor transport.  相似文献   

Trends of Regional Precipitation and Their Control Mechanisms during 1979–2013     

Run Liu  Shaw Chen Liu  Chein-Jung Shiu  Jun Li  Yuanhang Zhang 《大气科学进展》2016,33(2):164-174

Trends in precipitation are critical to water resources. Considerable uncertainty remains concerning the trends of regional precipitation in response to global warming and their controlling mechanisms. Here, we use an interannual difference method to derive trends of regional precipitation from GPCP(Global Precipitation Climatology Project) data and MERRA(ModernEra Retrospective Analysis for Research and Applications) reanalysis in the near-global domain of 60?S–60?N during a major global warming period of 1979–2013. We find that trends of regional annual precipitation are primarily driven by changes in the top 30% heavy precipitation events, which in turn are controlled by changes in precipitable water in response to global warming, i.e., by thermodynamic processes. Significant drying trends are found in most parts of the U.S. and eastern Canada,the Middle East, and eastern South America, while significant increases in precipitation occur in northern Australia, southern Africa, western India and western China. In addition, as the climate warms there are extensive enhancements and expansions of the three major tropical precipitation centers–the Maritime Continent, Central America, and tropical Africa–leading to the observed widening of Hadley cells and a significant strengthening of the global hydrological cycle.  相似文献