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1.
本文将双差定位和遗传算法定位两种方法相结合,对江苏及邻区1980~2005年的地震进行重新定位研究.重新定位后大大改善了原地震定位的精度,地震在空间上更加集中分布在某些区域,地震震源深度分布结果更加合理.江苏及邻区地震主要发生在上地壳和中地壳;研究区不同构造单元的震源深度统计分析表明,下扬子断块江苏段、冀鲁断块和豫皖断块的地震震源深度特点相似,在10~11 km、15~17 km深处存在二个明显的地震优势分布,推测分别在上地壳底面和中地壳;在25 km深处也存在一小的地震优势分布面,但地震频次较低.大别山地区地震的震源深度与下扬子断块、冀鲁断块和豫皖断块内的地震震源深度存在明显的差异,主要差异为大别山地区10 km以上的浅源地震十分发育,在6~7 km的深处有一地震优势分布,该深度附近地震波速度可能较高,而在10 km以下差异不大. 相似文献
2.
用双差地震定位法对2005年9月23日克孜尔震群进行重新定位。 从平面上, 重新定位地震集中分布在一个长约14.5 km, 宽约 9.0 km的长方形内, 其长轴为N30°W向, 与克孜尔断裂近乎垂直。 从震源深度来看, 重新定位地震的震源深度全部分布在21 km以内, 集中分布在10~19 km, 平均深度为13.6 km; 震群中绝大部分小震发生在沉积层内, 而震级较大地震基本发生在结晶地壳的上地壳内。 其剖面图显示, 这次震群是从结晶地壳开始沿着N30°W方向向上破裂至沉积层。 根据震区附近断裂性质和该区历史小震震中分布分析认为, 克孜尔水库库区附近可能存在两条共轭断裂, 右翼断裂可能是这次震群的发震构造。 相似文献
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《地震地质》2017,(1)
中国东南部地区或分布崇山峻岭,或为新生代盆地覆盖,因而活动断裂的发现与定位极为困难。沿断裂的地震活动可以成为断裂现今活动的直接证据,但需要地震的精确定位。文中通过精定位背景地震活动性,初步分析了区域构造活动与背景地震活动的关系,解译了研究区存在的隐伏活动断裂。利用双差地震定位法对中国东南部地区大致22°~35°N,106°~122°E范围内1990-2014年发生的背景地震开展了重新定位工作,重新定位了51 000多个小震的震源参数。重新定位的背景地震活动表现出与区域构造活动相一致的分布特征,具有分区活动性,不同构造区出现不同的分布样式。现今活动较弱的构造区,地震活动分布离散或稀疏,没有指示出隐伏活动断裂的存在。在现今活动较强的构造区,地震活动明显集中成线性条带状,线性条带的展布样式和方向与区域构造格局和主要断裂走向一致。以线性条带分布的背景地震活动性揭示出的隐伏活动断裂主要分布在东南沿海一带、桂西北地区、四川盆地东南缘以及霍山一带,多数为以往研究所未发现的断裂。重新定位地震在不同构造区的震源深度分布差异明显,在块体中部区域震源深度最浅,主要分布在0~15km,表明脆性变形主要发生在上地壳,中下地壳为半塑性、塑性变形状态;在东南沿海一带,有下地壳地震发生。震源深度最深的区域为四川盆地的东南缘一带,有地震震源深度分布在40~44km,反映了地壳厚度大且下地壳为脆性变形特征,与较低的大地热流值和较硬的流变强度相一致。 相似文献
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使用双差地震定位法对川西地区1992~2002年的13367个小震进行重新定位, 初步分析了地震活动性与地表活动构造的关系及其揭示的构造信息. 重新定位后,地震活动沿活动断裂成线(带)状分布现象非常突出,呈现出与地表活动构造的密切关系:结构简单的单一走滑断层具有上宽下陡的花状结构特征,拉分盆地与逆断裂具有线性而发散的分布式结构特征,逆断裂之下还存在缺震层. 此外,沿活动断裂带地震活动还具有空间分段性,揭示出局部地段存在着隐伏活动断裂和可圈定为地震危险区的地震空区. 震源深度分布显示,川西高原在15~20km的深度范围内普遍存在厚度约5km的缺震层,以高温高压实验结果为基础,通过计算川西地区地壳强度表明,大约14~19km的深度范围花岗岩处于塑性流变状态,说明缺震层的出现具有地壳物质塑性变形基础. 相似文献
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利用双差定位方法对瀑布沟水库区域内2006-10-13~2013-07-31之间发生的3 784个地震进行了重新定位,获得了3 601个地震的重新定位结果,到时残差平均为0.12 s,E-W、N-S和U-D三个方向上平均定位误差分别为0.15 km、0.17 km和1.10 km。重新定位结果显示,在研究区域内的西南方向和水库流域,地震分布密集,这个区域处于鲜水河断裂中南段、安宁河断裂北段和大凉山断裂北段的位置,此区域内地震震源深度主要分布在5~30km间,表明该区域的地震主要是构造活动引起的,而水库库区内地震震源深度主要分布在0~5 km区间,分布比较集中,该地区的地震为水库诱发和人工爆破引起的地震。 相似文献
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2013年吉林前郭5.8级震群精定位及发震构造分析 总被引:1,自引:0,他引:1
利用吉林区域数字地震台网和流动台网的观测数据,采用Hypo DD方法精确定位了2013年10月31日~12月10日发生在吉林前郭地区343次地震事件的震源位置。重新定位结果显示,地震序列优势分布方向为NW向,平行于查干泡-道字井断裂北支。重新定位后的震源分布更趋集中在断裂带附近,且深度多集中在6~14km范围内,表明研究区的孕震层主要集中在中上地壳,与该区的地下介质性质关联明显。以同样的方法修正了5.5级和5.8级地震序列的震中位置和震源深度,重定位后2次序列的优势方向、优势深度和破裂长度均存在明显差异。基于震源机制解及震源深度剖面图初步推测此次地震的发震构造应为NNW向的查干泡-道字井断裂。 相似文献
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汶川M_S8.0地震部分余震重新定位及地震构造初步分析 总被引:39,自引:6,他引:33
利用双差地震定位法对5月12日汶川MS8.0地震至6月26日四川地震台网整理形成观测报告的2741个余震进行了重新定位。在此基础上,初步探讨了汶川地震的地震构造及其余震的破裂扩展。重新定位后震源深度主要分布在0~20km间的上地壳,25~40km的下地壳也有少量地震发生,与下地壳存在脆性变形的断裂活动相对应,在20~25km深度范围内的上下地壳之间存在一个明显的缺震层,推测其可能构成推覆构造的滑脱面。从震源分布与震源机制解在空间的变化上,地震破裂由南向北单侧破裂且存在明显的分段活动性,推测可能存在逆冲推覆与右旋走滑破裂相互转换的过程:逆冲推覆滑动主要发生在高川以南的段落上,震源机制解表现为以逆冲为主;地震破裂向北并未沿龙门山推覆构造带北段扩展,而是斜切青川断裂,震源分布刻画的结构面陡直,震源机制解表现为以右旋走滑错动为主 相似文献
8.
京西北地区地震重定位分析 总被引:1,自引:1,他引:0
利用双差地震定位方法,针对京西北地区(39.5°—41.5°N,113.5°—116.5°E)2008—2016年记录的地震进行重新定位,最终得到1819次地震精定位结果。分析表明:地震密集区域多集中分布在NE和NW向断裂交汇区域,成条带的地震走向更加清晰,成簇性地震分布更加收敛,体现了断裂对震中分布具有较强的控制作用;震源深度优势分布主要集中在4—14 km范围,表明京西北地区地震主要发生在的中上地壳;震源深度剖面显示,在不同的地震密集区,孕震深度有一定差别,揭示了断裂的深部展布特征,反映了一些地区深部发震构造的复杂性。 相似文献
9.
新疆乌鲁木齐地区震源深度分布与断层关系研究 总被引:2,自引:0,他引:2
采用新疆维吾尔自治区地震局精度较高的常规地震目录和双差定位目录,对乌鲁木齐地区震源深度的分布特征及与断层的关系进行了研究。结果表明,乌鲁木齐地区的平均震源深度随震级的增加而加深,并形成3个分布层。震源绝大多数分布在上地壳1~35km深度范围内,优势集中在上地壳16~25km深度范围内。平均震源深度的空间分布特征与断层的展布密切相关,乌鲁木齐市附近的3组断裂所夹持的地块震源深度最浅,深度处于17~21km之间,而在周边一些深大断裂上震源深度较深。不同构造部位的震源深度剖面显示,清水河子断裂、齐古断裂、依连哈比尔尕等断裂的断裂面处于无震蠕滑或闭锁状态,地震主要发生在其下的滑脱层中;而在霍尔果斯、西山、二道沟等断裂上,震源深度从滑脱层延伸到断裂面上,反映出断裂未完全闭锁时的弱运动状态,显示这些断裂为新的活动断裂。震源深度的分布还与乌鲁木齐地区复杂的地壳结构有关,地震多分布在低速体之上或低速体和高速体之间的夹层中 相似文献
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利用双差定位法对江苏地区2009-2015年地震记录进行重新定位。结果显示,重新定位后的结果比原有定位精度有了较好的改进,地震序列在空间分布上更加集中;从平面分布上看,重新定位后的地震更加集中于断裂带附近,较多地震呈丛集状出现;从震源深度分布看,研究区内重新定位后地震震源深度有明显收敛,大多集中在5~20km,表明研究区孕震层基本位于地壳的中上部。同时通过对江苏省不同时期发生的几个震群地震构造活动进行分析(分析各个地震序列的走向、是否产生新的断裂带、与原有断裂带走向是否一致等问题),认为其具有十分重要的意义。 相似文献
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Seasonal and annual trends of changes in rainfall, rainy days, heaviest rain and relative humidity have been studied over the last century for nine different river basins in northwest and central India. The majority of river basins have shown increasing trends both in annual rainfall and relative humidity. The magnitude of increased rainfall for considered river basins varied from 2–19% of mean per 100 years. The maximum increase in rainfall is observed in the Indus (lower) followed by the Tapi river basin. Seasonal analysis shows maximum increase in rainfall in the post‐monsoon season followed by the pre‐monsoon season. There were least variations in the monsoon rainfall during the last century and winter rainfall has shown a decreasing trend. Most of the river basins have experienced decreasing trends in annual rainy days with a maximum decrease in the Mahanadi basin. The heaviest rain of the year has increased from 9–27 mm per 100 years over different river basins with a maximum of 27 mm for the Brahamani and Subaranrekha river basins. A combination of increase in heaviest rainfall and reduction in the number of rainy days suggest the possibility of increasing severity of floods. Such information is useful in the planning, development and management of water resources in the study area. Further, the majority of river basins have also experienced an increasing trend in relative humidity both on seasonal and annual scales. An increase in annual mean relative humidity for six river basins has been found in the range of 1–18% of mean per 100 years, while a decrease for three river basins from ? 1 to ? 13% of mean per 100 years was observed, providing a net increase in the study area by 2·4% of mean per 100 years. It is understood that an increase in areal extent of vegetation cover as well as rainfall over the last century has increased the moisture in the atmosphere through enhanced evapotranspiration, which in turn has increased the relative humidity. Copyright © 2007 John Wiley & Sons, Ltd. 相似文献
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Phosphorus dynamics in water and sediments in urbanized and non-urbanized rivers in Southern Brazil 总被引:1,自引:0,他引:1
Pagliosa PR Fonseca A Bosquilha GE Braga ES Barbosa FA 《Marine pollution bulletin》2005,50(9):965-974
Phosphorus flux models show that the removal tends to be a common feature in polluted estuarine systems whereas the release of P to the adjacent coastal area occurs in pristine environments. This study analyzes the distribution of P in water and sediments along six rivers in the south coast of Brazil. Three rivers located inside protected areas were considered non-polluted and used as a control of urbanization. The other three, situated within urbanized areas, were considered as having highly elevated concentrations of P. Results showed a different behavior of P in water and sediments located in urbanized and non-urbanized areas. The concentrations of dissolved organic (P-org) and inorganic (P-inorg) phosphorus in water, and the total phosphorus (P-tot) and polyphosphate (P-poly) in sediments where higher in the urbanized rivers compared to the non-urbanized ones. Both P of punctual origin and of diffuse origin contributed to the maintenance of elevated concentrations and disturbed the natural fluxes along the polluted rivers. The minimum and maximum concentrations in urbanized areas varied from 0.39 to 12.45 (microM) for P-org and 0.00 to 5.92 (microM) for P-inorg in water, and in sediments from 89.90 to 808.16 (microM g(-1)) for P-tot and 0.00 to 76.51 (microM g(-1)) for P-poly. In non-urbanized areas concentrations in water varied from 0.22 to 1.20 (microM) for P-inorg and 4.43 to 5.56 (microM) for P-org, and in sediments from 45.91 to 652.26 (microM g(-1)) for P-tot and 0.00 to 8.61 (microM g(-1)) for P-poly. Using a hierarchical sampling design and a simple model of variation of P (K(d) model) it was possible to demonstrate that urbanized and non-urbanized estuaries may act as sinks or sources of P. The variation of P analysis in different points along each of the six rivers showed that release and removal areas may occur within a same river independently of its urbanization. 相似文献
13.
Although changes in rainfall characteristics have been noted across the world, few studies have reported those in mountainous areas. This study was undertaken to clarify spatial and temporal variations in rainfall characteristics such as annual rainfall amount (Pr), mean daily rainfall intensity (η), and ratio of rain days (λ) in mountainous and lowland areas in Taiwan. To this aim, we examined spatial and year‐to‐year variations and marginal long‐term trends in Pr, η, and λ, based on rainfall data from 120 stations during the period 1978–2008. The period mean rainfall () at the lowland stations had strong relationships with the period mean daily rainfall intensity () and the period mean ratio of rain days () during those 31 years. Meanwhile, was only strongly related to at mountainous stations, indicating that influences on spatial variations in were different between lowland and mountainous stations. Year‐to‐year variations in Pr at each station were primarily determined from the variation in η at most stations for both lowland and mountainous stations. Long‐term trend analysis showed that Pr and η increased significantly at 10% and 31% of the total 120 stations, respectively, and λ decreased significantly at 6% of the total. The increases in Pr were mostly accompanied by increases in η. Although stations with significant η increases were slightly biased toward the western lowland area, increases or decreases in Pr and λ were not common. These results contribute to understanding the impacts of possible climate changes on terrestrial hydrological cycles. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
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Agatova A. I. Lapina N. M. Torgunova N. I. Sapozhnikov V. V. Milovskaya L. V. 《Water Resources》2004,31(6):639-648
The concentration of dissolved and particulate organic matter (OM) in Lakes Kuril'skoe and Azabach'e is shown to depend on the rate of its production by phytoplankton (and by macrophytes in Lake Azabach'e) and on the amount of allochthonous OM delivered by rivers. The rate of OM transformation in the production–destruction cycle and the regeneration of phosphates were evaluated based on the activities of redox enzymes of the electron-transport system and the hydrolytic enzymes of alkaline phosphatase and protease. The intense assimilation of allochthonous OM in lake ecosystems was found to take place due to active hydrolytic disintegration of the arriving OM. 相似文献
18.
This Special Issue of Earth Surface Processes and Landforms develops from the ‘Geomorphology: a 2020 Vision’ Annual Conference of the British Society for Geomorphology, organised at the University of Birmingham, UK, in July 2007. Entitled ‘New Developments in Process Understanding and Modelling in Geomorphology’, the Issue comprises a vibrant selection of 10 ‘process’ papers from leading researchers in geomorphological processes who presented at Birmingham. It aims to provide a readily accessible source of new and emerging ideas in understanding different landform processes across a range of space and time scales, based on innovations in geomorphological modelling and monitoring. The last few years have seen significant and exciting changes in geomorphology, especially in conceptual developments, numerical simulations, monitoring methodologies, data‐acquisition strategies and dating techniques. The resultant empirical datasets, theory development and modelling results have generated substantial advances in the understanding of geomorphological processes, form‐process feedbacks, scale impacts, long‐term landform evolution, the effects of climate and environmental change, and human impacts and management strategies. The Special Issue attempts to address the following key challenges: (a) to build on our Conference theme ‘Geomorphology: a 2020 Vision’, by identifying fundamental areas where doors need to be opened, for example in theory development, conceptual understanding, model evaluation, integration of the chemistry, physics, biology and mathematics of geomorphological processes, experimental validation, data needs and monitoring requirements; (b) to look forward to the next decade and beyond, and critically examine some of the approaches we will need for the questions ahead; and (c) to stimulate new research in the geomorphological sciences by highlighting both research gaps and promising developments, including emerging process modelling approaches, monitoring technologies and robust datasets. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
19.
Jurassic and Lower Cretaceous radiolarian zonation in Japan and in the western Pacific 总被引:7,自引:0,他引:7
Abstract A radiolarian zonal scheme for the entire Jurassic and Lower Cretaceous using biostratigraphic data from both Japanese Island sections and the western Pacific seafloor is documented. The zonation is applicable to low and middle paleolatitude portions of the Paleo-Pacific ocean. Radiolarian bio-events such as the evolutionary first appearance biohorizon, first occurrence biohorizon, and last occurrence biohorizon were used to define zones. The 11 zones proposed are, in ascending order, Parahsuum simplum, Trillus elkhornensis, Laxtorum(?) jurassicum, Tricolocapsa plicarum, Tricolocapsa conexa, Stylocapsa(?) spiralis, Hsuum maxwelli, Pseudodictyomitra primitiva, Pseudodictyomitra carpatica, Cecrops sep-temporatus, and Acanthocircus carinatus zones. Preliminary age assignments for these zones are presented. 相似文献
20.
The intra-annual and long-term variations in the nitrate and nitrite concentrations and transport are considered for the years 1948–1990. The nutrient loading on the Latvian rivers is subject to considerable intra-annual variations. Weak direct relationships with the fresh water inputs were observed for nitrite, while inverse ones were characteristic for nitrate. The nitrate and nitrite concentrations have been increasing since the late 1950s followed by an increase of the year-to-year variability. Non-point sources of anthropogenic impact (fertilizers leaching from agriculture and the reclamation) increase riverine concentrations of nitrogen compounds, and in particular of nitrate from 300–500 to 1300–1500%. 相似文献