首页 | 本学科首页   官方微博 | 高级检索  
文章检索
  按 检索   检索词:      
出版年份:   被引次数:   他引次数: 提示:输入*表示无穷大
  收费全文   4573篇
  免费   1382篇
  国内免费   2181篇
测绘学   2篇
大气科学   35篇
地球物理   167篇
地质学   7399篇
海洋学   226篇
天文学   52篇
综合类   191篇
自然地理   64篇
  2024年   94篇
  2023年   211篇
  2022年   259篇
  2021年   323篇
  2020年   293篇
  2019年   405篇
  2018年   364篇
  2017年   377篇
  2016年   411篇
  2015年   406篇
  2014年   409篇
  2013年   390篇
  2012年   395篇
  2011年   491篇
  2010年   375篇
  2009年   401篇
  2008年   293篇
  2007年   363篇
  2006年   284篇
  2005年   199篇
  2004年   190篇
  2003年   164篇
  2002年   128篇
  2001年   96篇
  2000年   97篇
  1999年   120篇
  1998年   61篇
  1997年   88篇
  1996年   78篇
  1995年   90篇
  1994年   66篇
  1993年   48篇
  1992年   51篇
  1991年   40篇
  1990年   29篇
  1989年   16篇
  1988年   15篇
  1987年   3篇
  1986年   2篇
  1985年   2篇
  1984年   3篇
  1983年   1篇
  1982年   1篇
  1981年   4篇
排序方式: 共有8136条查询结果,搜索用时 0 毫秒
61.
对东昆仑东段布青山得力斯坦地区出露的上二叠统格曲组砾岩层进行砾石成分、砾度统计及系统的LA-ICP-MS锆石UPb年龄谱分析。结果表明,格曲组砾岩层砾石成分以石英岩和花岗岩为主,硅质岩和基性岩次之,砂岩和灰岩较少,砾石的分散系数为1.54~2.02,该套砾岩为近源快速堆积的产物。砾岩碎屑锆石U-Pb年龄可分为3组:1早奥陶世—晚志留世年龄组为499~409Ma,峰值年龄为426Ma,对应早古生代末期原特提斯洋向北俯冲碰撞产生的一系列构造岩浆事件;2新元古代年龄组为744~619Ma,峰值年龄为744Ma,对应于全球Rodinia超大陆裂解事件;3古元古代年龄组为2443Ma,对应东昆仑地区古元古代构造岩浆热事件。结合碎屑锆石年龄及沉积学特征综合分析,花岗质砾石来源于北侧东昆仑造山带加里东期岩浆弧,沉积岩砾石则可能来自造山带早期的沉积地层,石英岩及其他变质岩砾石则多来自东昆仑基底变质岩系。综合判别,格曲组为一套沉积于活动大陆边缘环境的滨浅海相磨拉石建造,代表南侧古特提斯洋向北俯冲开始的构造阶段,是初始俯冲的沉积构造响应。  相似文献   
62.
三台地区下白垩统营城组一段岩石类型有隐爆角砾岩、角砾熔岩、熔结角砾岩、珍珠岩、流纹岩和凝灰岩,所属岩相为火山通道相、侵出相、喷溢相、爆发相。厘定古火山口位置的依据主要是通过分析隐爆角砾岩和珍珠岩的岩性岩相及其分布。整个火山机构划分为中心相组、近源相组和远源相组。中心相组即火山口相,主要包括火山通道相和侵出相,近源相组主要包括喷溢相,远源相组主要包括爆发相。相序(以火山口为基点)为火山通道相隐爆角砾岩亚相-侵出相中带亚相-侵出相内带亚相-喷溢相下部亚相-喷溢相中部亚相-爆发相热碎屑流亚相。近源相组较中心相组储层物性优越。其中喷溢相上部亚相是储层物性最好的岩相带。  相似文献   
63.
The Chihsia Formation is one of the four sets of regional marine hydrocarbon source rocks from South China.In the past two decades,detailed geochemical and sedimentological studies have been carried out to investigate its origination,which have demonstrated that the high primary productivity plays a primary role in the deposition of sediments enriched in the organic matter.However,the mechanism of this high productivity and the path of the deposition and burial of the organic matter have always been a mystery.Based on the previous studies on the Shangsi Section in Guangyuan City,Sichuan Province,we proposed that the development of the equatorial upwelling due to the sea level rise is responsible for the relatively high productivity in the Chihsia Formation.The sea waters with high nutrient were transported by the sub-surface currents along the equator.High organic carbon flux was deposited on the deeper shelf,and then decomposed by bacteria,leading to the occurrence of anaerobic respiration.The metabolism of the microorganisms consumed the dissolved oxygen in waters,which was in favor of the preservation of the organic matter.This suggested geobiological model integrating with paleoclimatology,paleoceanography and geomicrobiology will help us to understand the causes of this particular sedimentary sequence.  相似文献   
64.
辽宁省是我国重要的金矿产地之一。省内金矿可划分为岩浆热液型、陆相火山岩型、同韧性剪切变质热液型、变质—岩浆热液叠生型、砂砾岩型及河相冲积型(砂金矿)六种类型。金矿的形成与特定的地层、构造、岩浆岩密切相关。稳定同位素资料表明,金矿的成矿物质主要来源于古老的结晶基底——太古宙变质杂岩(第一矿源层)及早元古宙中浅变质岩(衍生矿源层);含矿热液主要为岩浆水,变质水和大气水,且多为两种水的混合物;大气水在成矿作用中占有重要地位。金矿的成矿演化经历了太古代-早元古代矿源层及同韧性剪切变质热液金矿床、晚三叠纪-燕山早期岩浆热液及叠生型矿床及燕山晚期陆相火山岩型矿床三个形成阶段。  相似文献   
65.
辽东半岛南部早古生代地层发育,其中馒头组—冶里组的沉积过程,具有完整的陆源碎屑岩—碳酸盐岩堆积特点。从层序划分、沉积环境演化、古气候变迁等方面分析,馒头组—冶里组反映了一个完整的碳酸盐岩台地的发展过程,可划分出准备阶段(形成碎屑岩垫板)、生长—发育阶段(形成碳酸盐岩缓坡)及衰亡阶段(发育白云岩盖层)。  相似文献   
66.
Debris flows and landslides, extensively developing and frequently occurring along Parlung Zangbo, seriously damage the Highway from Sichuan to Tiebt(G318) at Bomi County. The disastrous debris flows of the Tianmo Watershed on Sept. 4, 2007, July 25, 2010 and Sept. 4, 2010, blocked Parlung Zangbo River and produced dammed lakes, whose outburst flow made 50 m high terrace collapse at the opposite bank due to intense scouring on the foot of the terrace. As a result, the traffic was interrupted for 16 days in 2010 because that 900 m highway base was destructed and 430 m ruined. These debris flows were initiated by the glacial melting which was induced by continuous higher temperature and the following intensive rainfall, and expanded by moraines along channels and then blocked Parlung Zangbo. At the outlet of watershed,the density, velocity and peak discharge of debris flow was 2.06 t/m3, 12.7 m/s and 3334 m3/s, respectively. When the discharge at the outlet and the deposition volume into river exceeds 2125 m3/s and 126×103 m3, respectively, debris flow will completely blocked Parlung Zangbo. Moreover,if the shear stress of river flow on the foot of terrace and the inclination angel of terrace overruns 0. 377 N/m2 and 26°, respectively, the unconsolidated terrace will be eroded by outburst flow and collapse. It was strongly recommended for mitigation that identify and evade disastrous debris flows, reduce the junction angel of channels between river and watershed, build protecting wall for highway base and keep appropriate distance between highway and the edge of unconsolidated terrace.  相似文献   
67.
沉积环境分析是古地理重建的核心内容,黔北地区寒武系明心寺组沉积环境研究存在较大争议,以致对中上扬子地区明心寺组沉积期古地理格局的认识不能统一。选取寒武系明心寺组发育齐全、出露良好的黔北镇远地区三丘田剖面为研究对象,通过野外剖面观察、室内薄片鉴定及碎屑岩粒度分析等方法对三丘田剖面明心寺组岩石学特征、沉积构造、沉积演化序列、沉积相类型进行了详细分析。结果表明:黔北镇远地区三丘田剖面寒武系明心寺组上段发育大套的石英粉-细砂岩,沉积构造以低角度冲洗交错层理为主,碎屑颗粒的成分和结构成熟度均较高;三丘田剖面明心寺组上段砂岩以双次跳跃组分为主,悬浮组分含量较少,纵向剖面自下而上显示为浅水陆棚→临滨→前滨→后滨演化序列,呈典型的陆棚相向滨岸相变化。综上所述,黔北镇远地区三丘田剖面寒武系明心寺组上段的沉积相为滨岸相。黔北镇远地区明心寺组滨岸相沉积的出现,指示了黔北地区区域上重新认识明心寺组沉积相的必要性,将直接影响对黔北地区乃至中上扬子地区寒武纪古地理格局及其大地构造背景的认识。  相似文献   
68.
小东沟组由王钰等(1954)命名。由于小东沟组内涵含混,自创建以来,已使许多地层工作者对小东沟组的涵义、时代的理解,特别是使用于区域地层划分和对比中造成了一定困难。作者从小东沟组岩石组合、生物群特征,以及在地层系统中的位置等方面对小东沟组涵义进行了重新厘定,认为小东沟组是独立于小岭组之外的晚侏罗世岩石地层单位。鉴于小东沟组存在的缺欠,作者建议在本溪东营坊、新宾东昌台、桓仁暖河子寻找模式剖面。  相似文献   
69.
Based on introducing geological structure of Tanggu area, the authors analyzed the sedimentary environment of Paleogene Dongying Formation, and further analyzed its geothermal occurrence. The studied area spans two grade IV tectonic units which are Beitang depression and Banqiao depression. The studied area is mainly located in the Tanggu nose-like structure which is the secondary structure of Beitang depression. Its existence affects the sedimentary distribution of the part strata of Paleogene. The depositions of Dongying Ⅲ ( SQEd3 ) and Dongying Ⅱ ( SQEd2 ) are mainly delta front facies and lake sand bars which are propitious to the geothermal fluid enrichment. The favorable enrichment region of geothermal fluid is located in south Hetou- Tanggu. Most of Dongying Ⅰ ( SQEd1 ) changes into swamp plain deposition, only the northeast part of this area is the distributary riverway facies with developed sand layers. There is the favorable enrichment region of geothermal fluid. The hydraulic connection is weak among the geothermal reservoirs of Dongying Formation and its overlying Guantao and Minghuazhen formations. The underlying Shahejie Formation geothermal reservoir pro- vides a steady stream of fluid supply and ground pressure protection for Dongying Formation geothermal reservoir.  相似文献   
70.
The authors studied zircon LA-ICP-MS U-Pb dating,the zircon Hf isotope and geochemistry of acidic volcanic rocks in Baiyingaolao Formation of Keyouzhongqi area,Inner Mongolia,and discussed the chronology, source region and tectonic setting of the volcanic rocks in the studied area. The clear oscillatory zoning of zir- cons indicates a typical magmatic origin,and the results of dating show that the volcanic rocks of Baiyingaolao Formation were formed in Early Cretaceous (121.5 ±1.0 Ma). The features of major and trace elements show that the rocks are alkali-rich,poor in calcium and magnesium with enrichment in LILEs like Th,U,K and Gd and depletion in HFSEs,e.g. Nb,Ta,Sr and Ti. The fact implies that they were the products of partial melting of the crust. εHf(t) = ( +6.30--+9.06) and TDM2=600--835 Ma,suggest the magma originated from par- tial melting of the young crust. Combined with the evolution of regional tectonic structure,the authors conclude that the acidic volcanic rocks of Baiyingaolao Formation may be formed under the extensional environment relat- ed to the subduction of Paleo-Pacific Plate.  相似文献   
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号