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1.
重力剖面金川—芦山—犍穿越芦山震区,近垂直于龙门山断裂带南段,长约300km,测点距平均2.5km,采用高精度绝对重力控制下的相对重力联测与同址GPS三维坐标测量,获得了沿剖面的自由空气异常和布格重力异常,并对布格重力异常进行了剩余密度相关成像和密度分层结构正反演研究.结果表明,芦山地震所在的龙门山断裂带南段存在垂直断裂走向的宽广的巨型重力梯级带,重力变化达252×10-5 m·s-2以上(龙泉山以西),反映出四川盆地与松潘—甘孜地块地壳厚度陡变(约14.5km)性质;四川盆地与松潘—甘孜地块过渡区(龙门山断裂带与新津—成都—德阳断裂之间)存在(30~50)×10-5 m·s-2的剩余异常"凹陷",可能与上地壳低密度体、山前剥蚀与松散堆积和推覆体前缘较为破碎有关;剩余密度相关成像显示地壳密度呈现分段性特征,在芦山地震位置出现高低密度变化;地壳呈现三层结构,四川盆地上、中、下地壳底界面平缓,反映其稳定阻挡作用,而松潘—甘孜块体上、中、下地壳底界面明显往盆地逐步抬升,反映出青藏高原往东的强烈挤压作用;松潘—甘孜块体往东推覆变形主要集中在上地壳范围内,推覆深度随离龙门山断裂带愈近而越浅.本文通过对密度分布及结构特征的研究,分析了芦山地震及龙门山地区地壳构造背景和当前活动性的深部动力环境特征. 相似文献
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2014年8月3日,云南省昭通-鲁甸地区发生MS6.5级地震,造成了重大的人员伤亡和财产损失.鲁甸震区位于扬子块体的西缘,小江断裂带的东侧北东向的昭通-莲峰断裂带内.由于至今没有穿越该断裂带的人工源深地震测深剖面,而丽江-攀枝花-清镇650 km长深地震测深剖面距离鲁甸主震区不超过50 km,利用宽角地震资料的初至波震相,通过有限差分反演揭示该地区上地壳速度结构,可以为鲁甸震区的地震定位、地震孕育机制等提供深部速度模型.速度剖面显示:剖面结晶基底厚度平均为2 km左右;小江断裂带速度较低,东西两侧的速度较高;因此小江断裂带区域地壳强度比较低,加上断裂两侧的应变速率很高,所以小江断裂带和旁边的鲁甸-昭通断裂带,未来具有发生较大地震的可能,值得关注. 相似文献
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《地震地质》2017,(2)
鲁甸地震发生在鲜水河-小江断裂带东侧,主破裂为NW走向,其震中区处于川滇块体与华南块体过渡地带,走滑和推覆构造发育,目前对该地震的孕震构造环境认识上还存在一些争议。基于此,利用EGM2008计算的布格重力异常进行1—5阶离散小波变换,分离得到反映不同深度场源特征的地壳介质横向不均匀性;利用实测重力剖面数据,分析其布格重力异常分布特征,计算并绘制其归一化总梯度(NFG)图像,研究了地壳密度变化的差异性。分析结果表明:1)莲峰断裂与昭通-鲁甸断裂之间布格重力异常呈现SW-NE向的"高-低-高"型异常特征,鲁甸主震及余震均分布于低值带内,反映出青藏高原物质东流沿包谷垴—小河一带(低异常条带)向SE推进,至昭通鲁甸断裂受阻,能量积累到一定程度后发震;2)第3阶小波细节显示:上地壳负重力异常与主要断裂分布一致性非常好,反映了由断裂运动造成地壳浅部物质破碎而呈现出重力异常减小,震中附近NW向负异常条带可能与大凉山断裂向S发展有关,推测NW走向大凉山断裂向S扩展运动是鲁甸地震发震的直接动力来源;3)第4阶小波细节显示鲁甸震中存在明显的正异常,印证了中地壳内部高密度体的存在;第5阶小波细节显示鲁甸震中处于正异常区,预示着地幔物质的侵入,地幔隆升产生地壳引张力和印度板块推挤产生的压扭力是鲁甸地震震源拉张和走滑的动力来源;4)剖面布格重力异常归一化总梯度图像显示:"变形"显著且E倾的小江断裂带为区域控制性断裂,鲁甸震源底部存在稳定的局部"不变体",稳定的密度不变体对此次地震破裂具有限制作用,是导致震源新生破裂规模有限且切割较浅的原因;5)通过与鲜水河-小江断裂系比较,认为昭通-鲁甸断裂孕震能力明显偏弱,其最大发震能力应在7级左右。 相似文献
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维西—贵阳剖面位于青藏高原东南缘,为青藏高原物质往东南逃逸、东构造结侧向挤压及华南地块北西西向推挤作用的重要地段.利用剖面观测的重力与GPS定位数据,结合区域背景重力场、地质构造及深部地球物理成果,反演研究剖面较为细化的地壳密度结构特征.观测研究表明:剖面布格重力异常总幅差变化达190×10-5 m·s-2,具"斜N"分段变化特征,从西往东呈上升(维西至攀枝花,水平梯变大)—下降(攀枝花至会泽,水平梯变较大)—上升(会泽至贵阳,水平梯变较小)态势;高程与布格重力异常比值的趋势性转折部位为康滇地轴核心和小江断裂带东侧,可能与先存构造或新生构造发育有关;剖面地壳密度结构可分上、中和下三层结构,各层底界面平均埋深分别约20km、35km和51km,金沙江—红河断裂带和鲜水河—小江断裂带为地壳结构相对简单与复杂的过渡带;地壳厚度西深东浅,可能是东构造结的侧向挤压所致;下地壳厚度变化相对较大,可能对地壳增厚起主要作用;华坪—攀枝花附近的Moho面隆起和上地壳高密度体的存在暗示上地幔往上底侵作用,对青藏高原物质向南东逃逸和东构造结的侧向挤压均起到一定阻挡作用;中地壳下伏有限低密度薄层有利于其上物质的南东逃逸和顺时针旋转,有利于其下物质受喜马拉雅东构造结作用下往东向运移. 相似文献
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泰安—诸城高精度重力观测剖面,位于华北克拉通的东部,是中国东部重要的构造带且是地震活动的重要地段,利用剖面相对重力联测与同址GNSS三维坐标测量数据,得到剖面的重力异常,结合区域布格重力场、地球深部探测及地质构造成果,对剖面进行密度结构反演和剩余密度相关成像研究.结果表明:剖面布格异常变化范围为(-30.1~7.3)×10-5m·s-2,从西往东总体呈上升(泰安至沂源以低背景平缓逐渐上升与相应位置的高程呈现"同步型"变化;马站至张家楼以高背景逐渐上升与地形高程呈现"镜像型"变化)趋势,高低异常背景转折在沂沭断裂带西段150 km左右位置;背景异常是地壳厚度变化的反映,整体形态西深东浅,在沂沐断裂带地壳厚度隆起可能是地壳下地幔物质沿断裂向上入侵时,地壳产生挤压和膨胀隆起所致;剖面地壳密度呈现上、中和下三层结构,鲁西隆起、沂沭断裂带西部中下地壳局部存在低密度体,可能是上地幔物质上涌岩石含部分高温流体和熔融岩体所致,胶东地区保持了比较完整和均一的地壳结构特征,反映了胶东地区地壳活动不强;剖面的主要断裂带位置均能看到布格重力异常和剩余密度的变化,可能是断裂控制了地下介质的发育所致;剖面密度模型显示地下密度的分段特征和深浅构造差异,沂沭断裂带是鲁西隆起和胶东隆起的分界带;本文通过对布格重力异常和密度结构的特征研究,分析了地震活动、动力学背景与地壳密度结构的关系. 相似文献
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芦山—康定地区是川滇块体、松潘—甘孜块体和华南块体三个块体过渡的"Y"型交汇区,构造变形十分强烈.本文对EGM2008计算的布格重力异常进行1~5阶离散小波变换,得到三方向分量平方和的平方根(HVDM)图像;利用实测剖面布格重力异常数据,得到剖面的布格重力异常归一化总梯度(NFG)图像.结果分析表明:(1)垂直于龙门山断裂带南段剖面的NFG图像显示推覆构造体前端切割较浅、后端逐步变深至中地壳,说明松潘—甘孜块体在深约10~30km之间存在滑脱构造,在青藏高原东向挤出和四川盆地的阻挡作用下,造成深、浅部构造差异性运动,形成逆冲推覆的龙门山构造带;(2)HVDM图像和剖面的NFG图像均显示龙门山断裂带西南段与中段和东北段不同,松潘—甘孜块体对四川盆地的逆冲推覆作用沿北东方向具有分段性;(3)雅江—洪雅剖面NFG图像显示鲜水河断裂带和龙门山断裂之间存在高梯度变化带,在鲜水河断裂带下方强变形带不仅在20km左右东倾至龙门山断裂带前缘,且逐渐近垂直向下伸入至少到下地壳,反映了两大断裂带交汇区域变形作用较强.川滇块体内部和四川盆地内部则显示低值,说明其变形作用较弱.强烈左旋剪切的鲜水河断裂带对芦山—康定地区构造活动具有主要的控制作用. 相似文献
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《地球物理学进展》2016,(4)
2014年8月跨越六盘山东麓断裂带,在长度约为200公里的剖面上展开了流动重力/GPS联合剖面观测.观测结果表明,测线东端的布格重力异常约为-190 m Gal(10~(-5)ms~(-2)),西端则为-250 m Gal左右.在假设地壳均一的前提下,基于Airy均衡模型,利用布格重力异常和GPS观测数据,分别计算了测线所在剖面的莫霍面深度与均衡面深度,发现六盘山地区处于正均衡异常状态.使用布格重力异常数据反演六盘山地区的地壳密度结构,并据此地壳分层结构,计算了六盘山地区均衡面与莫霍面深度,对比显示该区域亦处于均衡正异常状态.为了确定青藏高原东北缘岩石圈有效弹性厚度和六盘山隆升机制,我们利用EMG2008自由空气异常和SRTM V18.1 DEM数据,使用自由空气重力异常导纳方法,研究了以六盘山地区为中心的青藏高原东北缘岩石圈有效弹性厚度(Te)和加载机制,发现六盘山地区的Te为5 km,岩石圈加载主要来自于地表,占总加载的95%.最后,对比六盘山地区Airy均衡异常与弹性板均衡异常,发现六盘山东麓断层处地壳承载梯度值最大,表明该断裂带吸收了较多的应变能. 相似文献
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使用布格重力资料对郯庐断裂带的中段部分(沂沭断裂带)进行了研究. 结果表明, 郯庐断裂带莫霍面及地壳内界面均发生错断,断裂带两侧地壳各界面起伏平缓. 该结果与前人的郯庐断裂带是切穿地壳的深大断裂的认识相一致. 在郯庐断裂带两侧,地壳结构明显不同,西侧沉积层较薄,平均在5 km以下;东侧多数在6 km以上;在断裂带中央沉积物最薄,大约为3~4 km. 断裂带东侧莫霍面埋深浅,大约为33~34 km;西侧莫霍面埋深明显增加,达到36~38 km.反映了莫霍面深度在断裂带附近整体是向西增加的. 郯庐断裂带在重力场分布中则表现为一条宽度较大的线性布格重力异常梯度带. 相似文献
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本文提出一种基于重力/GPS联合观测数据计算垂向构造应力的新方法.计算步骤如下:(1)通过重力/GPS联合观测数据计算布格重力异常;(2)依据布格重力异常数据推算莫霍面深度;(3)依据GPS观测数据,通过均衡理论计算均衡面深度;(4)依据莫霍面与均衡面之间剩余物质(壳幔物质密度差)所承受的附加浮力,计算地壳承载的垂向构造应力.本文利用上述构造应力新算法,计算了巴颜喀拉块体东边界及周边地区垂向构造应力分布,发现龙泉山断裂带以东地区垂向构造应力基本为零,龙泉山断裂带与龙门山断裂带之间地区垂向构造应力为正值,巴颜喀拉地块东部垂向构造应力为负值.鲜水河断裂带东南段周边蓄积了-40~-50 MPa的垂向构造应力,且梯度变化剧烈;松潘高原蓄积的垂向构造应力大约为-10~-20 MPa,相对较小. 相似文献
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中国海陆莫霍面及深部地壳结构特征研究是东亚地区宏观构造格架研究中的重点内容之一.本文以地震测深等数据为约束信息,以重力数据为基础,通过分区计算,反演了中国海陆莫霍面深度.依据地壳性质与莫霍面深度分布特征,划分了莫霍面深度梯级带与分区,并对各分区的莫霍面分布特点进行了归纳、总结.并选取阿尔泰—巴士海峡典型剖面进行了重、震反演,建立了密度结构.剖面上莫霍面深度和深部结构能够清晰地反映中国大陆"三横、两竖、两三角"构造格架中的两横和两竖,在昆仑—秦岭—大别以北的准噶尔地块和中朝地台莫霍面深度45~50 km,而其以南至贺兰山—龙门山之间的祁连、柴达木至松潘—甘孜的莫霍面呈"W"型起伏,莫霍面深度由祁连地块北部的50 km,加深至68 km,在柴达木盆地抬升至58 km,在阿尼玛卿山莫霍面降至68 km,向南逐渐抬升至四川盆地的44 km,经大兴安岭—太行山—武陵山这一竖的台阶式抬升至华南褶皱带的35 km,在江绍—南岭以南缓慢抬升至南海北部陆架区的20~25 km.在巴士海峡处南海沿马尼拉海沟向东俯冲,莫霍面形态较复杂.同时剖面上祁连—柴达木地块的中下地壳存在一个低速、低密度体,推测其可能是由于部分熔融引起的,是青藏高原东北缘壳内物质流动的通道. 相似文献
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《国际泥沙研究》2014,(4)
正Director:Shangfu Kuang,China Vice-directors:Chunhong Hu,China Duihu Ning,China Guangquan Liu,China The International Research and Training Center on Erosion and Sedimentation(IRTCES)was jointly set up by the Government of China and UNESCO on July 21,1984.It aims at the promotion of international exchange of knowledge and cooperation in the studies of erosion and 相似文献
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《中国科学:地球科学(英文版)》2014,(3)
正SCIENCE CHINA Earth Sciences,an academic journal cosponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China,and published by Science China Press and Springer,is committed to publishing high-quality,original results in both basic and applied research. 相似文献
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Richard D. Hey 《地球表面变化过程与地形》1979,4(1):59-72
Feedback mechanisms, which operate upstream through drawdown and backwater effects and downstream through sediment discharge are responsible for channel evolution. By combining these mechanisms with channel processes it euables a dynamic process-response model to be developed to simulate the initial evolution of straight gravel-bed channels. When erosion commences on a land surface, sediment entrained in the headwater reach by hydraulic action is selectively transported, deposited and reworked. This produces a damped oscillation between degradation and aggradation as the channel and valley respond to spatial and temporal variations in sediment calibre and hydraulic conditions. The initial cut and fill phases are responsible for valley incision and floodplain development while secondary and subsequent activity can produce river terraces. Eventually sediment entrainment in the headwaters declines as slopes are reduced. Subsequent channel evolution is relatively insignificant because it is dependent on local weathering activity producing material that can be transported on declining slopes. Therefore landforms produced during the initial phase of development, when local weathering was non-limiting, dominate the landscape. 相似文献
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Based on relocating the Jiujiang-Ruichang earthquake sequence which occurred on November 26, 2005 in Jiangxi Province with the double-difference (DD) algorithm and master event technique, the paper discusses the focal mechanism of the main shock (MsS.7) and the probable seismo-tectonics. The precise relocation results indicate that the average horizontal error is 0.31kin in a EW direction and 0.40kin in a NS direction, and the average depth error is 0.48kin. The focal depths vary from 8kin to 14kin, with the predominant distribution at 10kin - 12kin. The epicenter of the main shock is relocated to be 29.69^oN, 115.74^oE and the focal depth is about 10.Skin. Combining the predominant distribution of the earthquake sequence, the focal mechanism of the main shock and the tectonic conditions of N-E- and NW-strike faults growth in the seismic region, we infer that the main shock of the earthquake sequence was caused by a NW striking buried fault in the Rnichang basin. The nature of seismic faults needs to be further explored. 相似文献
19.
《水文科学杂志》2013,58(6)
Abstract The western reservoirs represent the principal groundwater system in Morocco. Demographic, industrial and agricultural developments during the last decade have markedly altered groundwater quality. The Mamora coastal aquifer system is among the Atlantic systems which are most heavily threatened by pollution. Agricultural and industrial activities, and rapid urban growth contribute to the pollution of the groundwater. Contamination transport is facilitated by a high permeability of the aquifer formations. In order to assess the actual groundwater quality of the Mamora aquifer and to understand the influence of the factors generating the pollution, an extensive multidisciplinary research programme is in progress, with hydrochemistry and microbiology playing essential roles. The present paper concerns the spatial distribution of physico-chemical parameters in the groundwater, subjected to domestic, industrial and agricultural pollution. Fifty-seven samples were analysed for several parameters (Ca2+, Mg2+, Na+, K+, Cl?, SO4 2?, HCO3 ?, NO3 ?, pH, electrical conductivity and temperature). The microbiological analysis of 143 samples reveals the presence of four kinds of indicator bacteria in the groundwater resources: faecal Streptococci, faecal coliform, Escherichia coli and Clostridium. The physico-chemical results and bacteriological monitoring show that the nitrate and bacteria concentrations exceed the maximum admissible levels, notably around pumping stations in the sectors of Sidi Taibi, Sidi Ahmed Taleb and Aïn Sbaâ. Contamination is generated by uncontrolled anthropogenic activities and accentuated by the high intrinsic vulnerability of the aquifer system. Several parameters appeared to exceed admissibility standards. Measures are recommended to prevent groundwater pollution in the region. 相似文献
20.
K.-G. Malle 《洁净——土壤、空气、水》1992,20(4):196-204
Zinc in the Environment. In 1990 the world production of zinc ammounted to 7 Mio. metric tons. The main areas of application were: galvanization, alloys like brass and zinc metal. The content in the earth crust varies between 10–300 ppm zinc with a mean of 70 ppm. Uncontaminated surface waters contain less than 10 mg/m3 zinc. Apart from civilization air contains 1–10 ng zinc per m3. These background concentrations are exceeded by orders of magnitude in zinc deposit areas and where anthropogenic influences predominate. Accumulation can occur in sediments and sewage sludge. Molluscs and Algae also accumulate zinc. Zinc is essential for live. With normal food the zinc supply of man is just sufficient. Bioaccumulation of zinc towards man or chronic oversupply of man is not known. Zinc has no teratogenic or mutagenic effects, a suspicion on a carcinogenic effect proved wrong. In stockbreeding and plant cultivation a minimum supply of zinc is necessary. Plants are relatively less sensitive against higher soil contents of zinc. Considering the toxicological and ecotoxicological effects of zinc in the environment, the critical organismens are marine invertebratae like tubifex, daphnia, gammarus and algae. But normally only a minor part of the total zinc contest is biologically available, depending on salt content and pH of the waters. 相似文献