Sequence stratigraphy, structural style, and age of deformation of the Malaita accretionary prism (Solomon arc–Ontong Java Plateau convergent zone)     

Eric J. Phinney  Paul Mann  Millard F. Coffin  Thomas H. Shipley 《Tectonophysics》2004,389(3-4):221

Possibilities for the fate of oceanic plateaus at subduction zones range from complete subduction of the plateau beneath the arc to complete plateau–arc accretion and resulting collisional orogenesis. Deep penetration, multi-channel seismic reflection (MCS) data from the northern flank of the Solomon Islands reveal the sequence stratigraphy, structural style, and age of deformation of an accretionary prism formed during late Neogene (5–0 Ma) convergence between the 33-km-thick crust of the Ontong Java oceanic plateau and the 15-km-thick Solomon island arc. Correlation of MCS data with the satellite-derived, free-air gravity field defines the tectonic boundaries and internal structure of the 800-km-long, 140-km-wide accretionary prism. We name this prism the “Malaita accretionary prism” or “MAP” after Malaita, the largest and best-studied island exposure of the accretionary prism in the Solomon Islands. MCS data, gravity data, and stratigraphic correlations to islands and ODP sites on the Ontong Java Plateau (OJP) reveal that the offshore MAP is composed of folded and thrust faulted sedimentary rocks and upper crystalline crust offscraped from the Solomon the subducting Ontong Java Plateau (Pacific plate) and transferred to the Solomon arc. With the exception of an upper, sequence of Quaternary? island-derived terrigenous sediments, the deformed stratigraphy of the MAP is identical to that of the incoming Ontong Java Plateau in the North Solomon trench.We divide the MAP into four distinct, folded and thrust fault-bounded structural domains interpreted to have formed by diachronous, southeast-to-northwest, and highly oblique entry of the Ontong Java Plateau into a former trench now marked by the Kia–Kaipito–Korigole (KKK) left-lateral strike-slip fault zone along the suture between the Solomon arc and the MAP. The structural style within each of the four structural domains consists of a parallel series of three to four fault propagation folds formed by the seaward propagation of thrust faults roughly parallel to sub-horizontal layering in the upper crystalline part of the OJP. Thrust fault offsets, spacing between thrusts, and the amplitude of related fault propagation folds progressively decrease to the west in the youngest zone of active MAP accretion (Choiseul structural domain). Surficial faulting and folding in the most recently deformed, northwestern domain show active accretion of greater than 1 km of sedimentary rock and 6 km, or about 20%, of the upper crystalline part of the OJP. The eastern MAP (Malaita and Ulawa domains) underwent an earlier, similar style of partial plateau accretion. A pre-late Pliocene age of accretion (3.4 Ma) is constrained by an onshore and offshore major angular unconformity separating Pliocene reefal limestone and conglomerate from folded and faulted pelagic limestone of Cretaceous to Miocene age. The lower 80% of the Ontong Java Plateau crust beneath the MAP thrust decollement appears unfaulted and unfolded and is continuous with a southwestward-dipping subducted slab of presumably denser plateau material beneath most of the MAP, and is traceable to depths >200 km in the mantle beneath the Solomon Islands.  相似文献   

全站仪免棱镜测绘线路横断面     

李雪刚  赵建三 《测绘工程》2007,16(1):70-72

测绘横断面是线路勘测的重要工作之一,若能准确、快速测绘横断面会取得显著的经济效益。介绍了全站仪免棱镜测量的基本原理,并对其测量精度作了分析,论述其在较差的测量条件下,简捷、高效、准确测绘横断面的具体应用和注意事项,具有实际指导意义。  相似文献   

基于时空棱柱的人员搜寻范围优化     

刘钊  罗智德  张耀方  王园 《地球信息科学学报》2014,16(4):531-536

在人员搜寻过程中,地理信息技术的应用能帮助缩小搜寻的空间范围、合理分配搜救资源,从而提高搜救效率、节约时间和资金投入。本文首先探讨了户外搜救过程中,地理信息技术在协助划定搜寻的空间范围和分配应急资源方面的应用;在此基础上,将时间作为连续变化的因素进行分析,以时间地理学对人员搜寻的时空范围进行优化;利用时空棱柱工具表达失踪对象和搜救资源各自的时空约束,继而确定他们各自随着时间变化的潜在活动范围;通过求解搜救资源和失踪对象的时空交集,来确定每个搜救资源最优的搜寻范围的外边界;通过将各资源的最优搜索范围的外边界进行综合分析,来求解在多个资源协作情况下的最小搜寻范围和各资源对应的搜索起点,实现对搜救资源的合理分配;最后,在ArcGIS平台上对该方法进行了实现和模拟。搜救案例展示该方法划定的人员搜寻范围在空间上更小,时间上更为精确,有助于分配救援资源和提高搜救效率。  相似文献   

乐清湾水域纳潮量演变分析   总被引：2，自引：0，他引：2  

王诚超  潘国富  许雪峰  陈培雄 《海洋科学》2017,41(8):76-85

基于1965年以来的不同时期水深地形数据和卫星遥感影像资料,对乐清湾岸线和不同特征值水深所围水域面积的历史变化进行研究,根据GIS技术计算乐清湾近50年的不同水域面积的演变特征。利用实测地形资料和水文数据建立乐清湾海域二维潮流数学模型分析乐清湾水域纳潮量的演变情况。结果表明:(1)乐清湾海域纳潮量近50年减少3.16×10~8 m~3,2013年较1965年减少17.69%,年均递减速率由0.06×10~8 m~3/a增加至近年的1.96×10~8 m~3/a;(2)海湾不同区域围填海造成相应海区水域面积的缩减,但纳潮量对水域面积改变的响应程度有显著差别。内湾滩涂围垦对乐清湾不同湾区纳潮量影响十分有限,外湾围垦对纳潮量的影响由外湾向内湾明显递减。漩门湾二期工程显著改变乐清湾的潮流形态,造成各个湾区纳潮量均出现大幅度的调整。本研究可以为海湾的生态环境保护和预测海湾的发展趋势提供量化的参考数据。  相似文献   

长白山火山岩浆柱岩浆上升作用过程   总被引：6，自引：0，他引：6  

魏海泉 《地学前缘》2010,17(1):11-23

长白山火山岩浆柱是一个在长白山区地下总体呈串珠状排列的向东南倾斜的层状富岩浆集合体,岩浆柱宽度宽者300～500 km,窄者30～50 km,深度延伸可达上千km。在这个岩浆柱内,热物质聚集与挥发份富集可以发生部分熔融而形成不同成分与密度的岩浆,岩浆聚集上升至某个深度时的停滞聚集又可形成水平向扩展的岩浆房,压力作用下岩浆房内岩浆演化出密度较轻的岩浆则可进一步上升直至喷出地表。天池火山的母岩浆粗面玄武岩来自地幔岩浆库,由其演化形成的碱型系列粗面岩类和碱流岩类岩石则来自地壳岩浆房。拉斑玄武岩系列的偏酸性岩石来源的地壳岩浆房与碱型系列碱流岩来源的地壳岩浆房深度位置也不相同。天池火山造盾玄武岩TiO2含量和SiO2含量之间反相关关系不能单纯用岩浆房分异结晶来解释,TiO2含量较高的样品代表了源区地幔的较低熔融程度的熔体,而低程度熔融的岩浆来源于更深的位置。玄武质岩浆“熔融结束”的深度随时间的增加而增加的过程控制了岩浆形成深度随时间的增加而增加并且岩浆形成速率随时间的增加而降低的规律。天池火山碱流质岩浆房千年大喷发时岩浆超压极大值Δpmax=625 MPa,层状岩浆房半径35 km,喷出岩浆层厚700 m,喷出岩浆体积30 km3;粗面质喷发的岩浆房超压极大值Δpmax=15 MPa以上。天池火山千年大喷发时临界喷发熔体黏度μcritm>27×1010 Pa·s-1,碱流质岩浆是从一个粗面质岩浆母体经几万年的结晶分异时间演化得来的。气象站寄生火山活动喷发前临界熔体黏度μcritm=12×1011 Pa·s-1,这极高的熔体黏度与喷发物中含有大量晶体与气泡相吻合。千年大喷发级别的大规模喷发周期上万年,远大于小规模喷发几百年以内的时间周期。天池火山作用造盾阶段因为玄武岩都直接喷出了地表,多数传导与扩散的岩浆热都没有用于加热深地壳,所以早期加热效率不高。在1～16 Ma之后造锥阶段在深地壳内形成残余的部分熔融带并阻止了玄武岩的喷发,系统的热效率变得很高,残余熔体生产率也就得到了加速。全新世造伊格尼姆岩喷发阶段大量的演化的碱流质残余熔体因重力不稳定而侵入上地壳内,并且形成大得足以引起造破火山口喷发的岩浆房。  相似文献   

Hydrothermal sediments associated with a relict back-arc spreading center in the Shikoku Basin, recovered from the Nankai accretionary prism, Japan     

Jane Alexander  Kevin Pickering  & Elizabeth Bailey 《Island Arc》1999,8(2):281-292

The hemipelagic mudrocks of the Nankai accretionary prism, Japan, contain hydrothermal deposits associated with a relict spreading center in the Shikoku Basin. Initial work on core samples from Ocean Drilling Program site 808 found several samples with elevated concentrations of calcium, magnesium, iron and manganese, at depths of between 1060 and 1111 m below sea floor. However, the origin of these sediments was uncertain, due to a lack of data. There was no recorded evidence of whether these elevated concentrations were present throughout this interval of core, or if they were present as discrete layers with the background hemipelagic mudrocks in between. In the present study the core was resampled, and the sediments with anomalous chemical compositions were found to be present in discrete layers. This fact, along with a detailed interpretation of their geochemistry, has allowed them to be identified as hydrothermal sediments, associated with the relict spreading center in the Shikoku Basin. The lower (older) two layers display a chemical composition typical of umbers, while the upper (younger) two layers are metalliferous mudrocks typical of deposits found further from the spreading center.  相似文献   

Characteristics of major and trace elements in surface sediments of the Makran Accretionary Prism,Pakistan and their implications for natural gas hydrates     

Jian-ming Gong  Jing Liao  Yu-xi Zhang  Jie Liang  Jian-wen Chen  Nuzhat Khan  Syed Waseem Haider 《China Geology》2021,4(2):299-310

To accurately identify the natural gas hydrates (NGH) in the sea area of the Makran Accretionary Prism, Pakistan, this paper presents the testing and analysis of major and trace elements in sediment samples taken from two stations (S₂ and S₃) in the area by the China Geological Survey. As shown by testing results, all major elements are slightly different in content between the two stations except SiO₂ and CaO. This also applies to the trace elements that include Sr and Ba primarily and Cr, Ni and Zn secondarily. It can be concluded in this study that the tectonic setting of the Makran Accretionary Prism is dominated by oceanic island arc and that provenance of the Makran Accretionary Prism is dominated by felsic igneous provenance, which is at the initial weathering stage and mainly consists of granodiorite. Besides terrigenous detritus, there are sediments possibly originating from Makran-Bela Ophiolite from the northwestern part and Murray Ridge igneous rocks from the southeastern part. The V/Cr, Ni/Co, and V/(V+Ni) ratios indicate that sediments of the two stations are in an oxidation-suboxidation environment. However, the authors infer that the sedimentary environment of the sediments 3.0 m below the seafloor tends to be gradually transformed into a reduction environment by comparison with the Qiongdongnan Basin in the South China Sea where NGH has been discovered. The sediments in the Makran Accretionary Prism are rich in organic matter, with total organic carbon (TOC) content greater than 1%. According to comprehensive research, the organic matter in the sediments mainly originates from marine algae and has high TOC content, which is favorable for the formation of NGH.  相似文献   

东准噶尔地区晚古生代向南增生:来自A型花岗岩的启示   总被引：6，自引：5，他引：6  

毛启贵  肖文交  韩春明  袁超  孙敏 《岩石学报》2008,24(4)

大加山碱性花岗岩位于卡拉美丽-哈尔里克花岗岩带的中段,主要为中细粒钠铁闪石花岗岩。大加山碱性花岗岩锆石LA-ICPMS年龄为284±1Ma。该花岗岩具有富碱(A/CNK<1,AR=3.9～6.67)和具有高的FeO~T/MgO和10000×Ga/Al值,而钙和铝含量较低的特征,相对富集稀土元素REE(除Eu)元素、大离子亲石元素(Rb、U、Th、K),而强烈亏损Ba、Sr、P、Ti、Eu元素的特征。同时其Y/Nb(2.71～3.75)>1.2。这些说明大加山岩体为二叠纪A_2型花岗岩。东准噶尔和天山地区各花岗岩带年龄有向南为逐渐年轻的趋势,这与新疆北部由北向南增生的方向一致。因此,可能是侧向增生与垂向增生均表现出向南增生极性。  相似文献   

Physical property anisotropy of foliated fault rocks: Study from the Nobeoka Thrust,Shimanto Belt,southwest Japan          下载免费PDF全文

Mari Hamahashi  Wataru Tanikawa  Yohei Hamada  Yoshitaka Hashimoto  Saneatsu Saito  Gaku Kimura 《Island Arc》2018,27(5)

To investigate the physical property anisotropies of foliated fault rocks in subduction zones, the hanging wall phyllites and footwall cataclasites exhumed along the Nobeoka Thrust, a fossilized out‐of‐sequence‐thrust in the Shimanto Belt, Japan, was focused. Discrete physical property (electric resistivity, P‐ and S‐wave velocities, and porosity) measurements were conducted employing geologic coordinates (depth‐parallel direction, strike direction, and maximum dip direction of foliation), using the core samples obtained from the Nobeoka Thrust Drilling Project and compared the data to borehole geophysical logs. A higher sample P‐wave velocity (Vp), lower S‐wave velocity (Vs), higher Vp/Vs, and lower sample porosity and resistivity compared to the logs, are inferred to have been caused by the larger sampling scale of the logs and lower fluid saturation of the borehole. The phyllites and cataclasites exhibited substantial vertical and horizontal anisotropy of Vp (0.4–17.3 % and 2.7–13.8 %, respectively), Vs (0.5–56 % and 7.7–43 %, respectively), and resistivity (0.9–119 % and 2.0–65.9 %, respectively). The physical property anisotropies are primarily affected by the dip angles of foliation. The fault rocks that have gentler dip angles exhibit a higher Vp in the strike and maximum dip direction and a lower Vp in the depth‐parallel direction. In contrast, the fault rocks that have steeply dipping structures show a higher Vp in the strike and depth‐parallel directions with a lower velocity in the maximum dip direction. Resistivity anisotropy show a trend opposite to that of the Vp in relation to the dip angles. Our results show lower Vp anisotropy than those obtained in previous studies, which measured wave speeds perpendicular or parallel to foliation under confining pressure. This study highlights the significance of dip angles on vertical properties in geophysical surveys across foliated fault rocks.  相似文献   

双模盾构自动测量系统的应用   总被引：1，自引：0，他引：1  

王鑫  张立  王姝  汪慧琴 《测绘通报》2021,(1):161-164

本文对现有激光靶导向系统和棱镜导向系统的原理进行了描述,分析两个系统在掘进过程中位姿测量的可靠性,然后针对提高系统可靠性提出了结合激光靶和棱镜方式的双模式盾构自动测量系统,为验证位姿数据的准确性提供一种方案,并结合工程实例,对该方案的可行性进行分析和验证.  相似文献