长江下游区域地温场特征及其能源意义

区域地热特征及深部温度估算对于油气勘探和地热能资源评价和开发利用具有重要意义,长江下游地区是我国东部经济社会高度发达的地区,其能源需求大,区域热状态研究能为该区地热资源评价提供关键约束。通过整合长江下游地区已有的温度数据和实测岩石物性参数,勾勒出该区的现今地温场特征,并进一步估算其1 000~5 000 m埋深处的地层温度。研究表明,长江下游地区现今地温梯度为16~41 ℃/km,且以18~25 ℃/km居多,苏北盆地区呈现高地温梯度。大地热流值为48~80 mW/m²,其均值为60 mW/m²,表现为中等的地热状态,有利于油气和地热能形成。此外,长江下游地区深部地温估算表明,1 000 m埋深处的温度范围为30~54 ℃,2 000 m时温度范围为50~95 ℃,3 000 m时温度范围为65~130 ℃,4 000 m时温度范围为80~170 ℃,5 000 m时温度范围为100~210 ℃。区域深部地温的展布趋势呈NE向,高温区域集中在安徽南部和江苏东北部。结合60 ℃和120 ℃等温线的埋深分布及区域地质、地球化学和地热特征,初步探讨了该区油气与地热资源的有利区带及其相应的开发利用类型。     

天津市重力数据反演解释

重力数据反演是获取地下地质信息的有效手段。本文通过对天津市全区密度和电性参数的统计分析,了解天津市地层的物性分布规律。在对研究区布格重力异常数据采用归一化总水平导数垂向导数（NVDR-THDR）技术处理的基础上,对断裂构造进行了识别,对构造单元进行了划分。然后结合研究区地质资料,应用Geosoft软件中的密度界面反演模块对各构造单元内的密度界面起伏进行反演。并以GOCAD软件为平台,构建了天津市三维可视化地质模型,借助大地电磁（MT）测深点虚拟钻孔,实现了对主要地质界面和构造的标定。最后利用布格重力异常数据拟合同位置地质剖面,验证了模型的可靠性。应用上述反演成果,结合区内地质认识,推断宝坻断裂（F₁）、蓟运河断裂（F₂）、F₃、杨柳青断裂（F₄）、F₇在中生代后活动性较强,沧东断裂（F₆）和天津断裂（F₃₀）在古近纪后活动性较强。     

高密度电法电性结构揭示天山天池堆积坝体厚度及其阻渗稳水功能分析

天山天池北堆积坝体结构受其成因和演化控制,影响其含水和渗流特性。对该坝体稳定至关重要的下伏基岩埋深、坝体结构阻渗水结构特征等需现场探测并给出科学判断。在地质调查基础上采用高密度电法对天池堆积坝体结构进行探测,首次获得深达下伏基岩的堆积坝体纵向和横向电性剖面。结合光释光测年、水化学成分对比、水量平衡计算等手段,分析坝体堆积物形成时代以及坝体水文地质结构特征。结果显示：天池坝堆积体厚度大于100 m并可分为3层,上部浅表层滑坡形成的巨大块石层厚30～40 m且基本不含水,其下松散含水层厚度为30～50 m;下部为较低电阻率弱透水的冰碛物,主要分布在坝体下游和东端;底部为高电阻率不透水的石炭系火山岩。坝体中间部位地下水集中下渗补给了西小天池。同时靠坝体东侧发育排泄通道,呈现多处溢水点,控制了飞龙涧左岸下降泉季节性发育,同河谷冲刷作用一起影响并导致下游左岸冰碛物中发育4处滑坡体。电法剖面揭示出与坝体轴向近平行的2条隐伏断层,其中堆积坝高堤处气象台所在山丘上游一侧发育一条近东西走向并倾向上游的断层F1,构成地下水阻隔带而使天池堆积坝上游潜水水位呈现一定雍高,同坝体下伏基岩和弱透水冰碛物联合组成的...     

Microearthquakes and seismotectonic analysis for a nuclear plant area in southeastern Finland

Microearthquake observations are used to study the local seismicity and seismotectonics in the Precambrian Rapakivi Granite, in the Loviisa area, SE Fi around the nuclear power plant in Loviisa, is limited to a radius of 100 km.

The results from a local microearthquake network in the Loviisa area showed that, during 6 years of measuring there were 29 micro- and ultra-microearth 0.1–1.2) in the area. The events identify active faults in the area.

The estimated value of the peak slip is an important parameter connecting microearthquakes to geodynamical processes. The peak slip gives an approximat and aseismic movement on a certain fault and thus an indication of ongoing tectonic processes. The movements on the active fault may continue for thous

Source parameters were computed for a simple circular source model, giving peak slips less than 0.25 mm, stress drop values less than 2 × 10⁵N/m² and source radii generally less than 50 m. The earthquakes occurred at depths of less than 5 km.     

Density inhomogeneities, isostasy and flexural rigidity of the lithosphere in the Transcaspian region

The 3-D lithospheric-density model for the southeastern part of the Caspian Sea and the Transcaspian area, practically coinciding with the territory of the Turkmen Republic, has been constructed based on geophysical data and in accordance with the principle of isostasy. From the model selected the anomalous density of the subcrustal layer between the Moho discontinuity and the 100-km depth level is found to be — 100 kg/m³ under the Tien-Shan, − 50 kg/m³ under the Kopet-Dag mountain area, + 80 kg/m³ under the central region of the South Caspian basin, −50 kg/m³ under the eastern part of the basin, known as the West Turkmenian depression, and + 45 kg/m³ under the Murgab depression.

Significant disturbances of the local isostasy are determined both in the northern and central areas of the South Caspian basin and also in the area of the Kara-Bogaz swell of the Turan platform and for the Kopet-Dag foredeep. indicating a high level of stresses in the lithosphere. The shape of the Turan plate determined by the seismic profiling is accounted for by elastic deformation resulting from the forces acting on the southern edge of the plate in the area of the Turan plate-Kopet-Dag collision. The elastic thickness of the Turan plate is estimated as 25 ± 5 km. The results obtained seem to confirm the idea that the decomposition of the Turan plate has taken place in the zone of the plates interaction and the decomposed material is situated under the Kopet-Dag ridge.

We propose that the Kara-Bogaz swell is supported by the mantle material upwelling whereas the subsidence of the adjacent part of the South Caspian basin may be due to the downgoing mantle flow i.e., a small convection cell is suggested in that area.     

塔里木盆地顺北地区11号走滑断裂带变形及其活动特征

塔里木盆地顺北地区发育大量走滑断裂带,并对油气的运聚成藏有重要控制作用。以顺北西部地区地震资料为基础,对顺北11号走滑断裂带的几何变形特征、活动性、活动期次及其形成机制等进行了分析。顺北11号走滑断裂带整体呈NNW走向延伸,具有垂向分层性和平面分段性。断裂带北段主体为压扭和张扭交互段,中段为两条次级断层控制的拉分地堑,南段由数条分支断层构成马尾状构造。顺北11号断裂带整体活动性由北向南减弱,运动学标志显示是一条右旋走滑断层。顺北11号断裂带主要经历了晚奥陶世和晚志留世-中泥盆世两期活动,部分地区的活动持续到石炭纪。顺北11号走滑断裂带的活动性和运动学特征与塔北地区NNW走向的走滑断裂体系比较相似,而不同于塔中地区的NE向左行走滑断裂体系。顺北11号走滑断裂带的形成主要受控于塔里木盆地北部天山洋多期俯冲挤压而产生的自北向南的挤压应力,断裂自北向南扩展延伸,类似于顺北5号走滑断裂带的北段。     

The distribution of radiogenic heat production as a function of depth in the Sierra Nevada Batholith, California

Geochemical analyses and geobarometric determinations have been combined to create a depth vs. radiogenic heat production database for the Sierra Nevada batholith, California. This database shows that mean heat production values first increase, then decrease, with increasing depth. Heat production is 2 μW/m³ within the 3-km-thick volcanic pile at the top of the batholith, below which it increases to an average value of 3.5 μW/m³ at 5.5 km depth, then decreases to 0.5–1 μW/m³ at 15 km depth and remains at these values through the entire crust below 15 km. Below the crust, from depths of 40–125 km, the batholith's root and mantle wedge that coevolved beneath the batholith appears to have an average radiogenic heat production rate of 0.14 μW/m³. This is higher than the rates from most published xenolith studies, but reasonable given the presence of crustal components in the arc root assemblages. The pattern of radiogenic heat production interpreted from the depth vs. heat production database is not consistent with the downward-decreasing exponential distribution predicted from modeling of surface heat flow data. The interpreted distribution predicts a reasonable range of geothermal gradients and shows that essentially all of the present day surface heat flow from the Sierra Nevada could be generated within the 35 km thick crust. This requires a very low heat flux from the mantle, which is consistent with a model of cessation of Sierran magmatism during Laramide flat-slab subduction, followed by conductive cooling of the upper mantle for 70 m.y. The heat production variation with depth is principally due to large variations in uranium and thorium concentration; potassium is less variable in concentration within the Sierran crust, and produces relatively little of the heat in high heat production rocks. Because silica content is relatively constant through the upper 30 km of the Sierran batholith, while U, Th, and K concentrations are highly variable, radiogenic heat production does not vary directly with silica content.     

南天山库车秋里塔格褶皱带三维构造分析

笔者利用库车秋里塔格地区3000km的二维地震反射资料，结合地表构造测量成果，分段叙述秋里塔格褶皱带的构造几何学和运动学性质，说明构造交汇部位断层和褶皱的叠加过渡关系，并通过二维构造剖面的组合，建立秋里塔格褶皱带的三维构造几何模型。研究发现秋里塔格褶皱带为浅部断层传播褶皱与深部断层转折褶皱叠加形成的复合型背斜带，深部台阶状逆断层的叠加作用、叠加断层位移量的转换、断层断坡高度的变化造成地表背斜沿走向发生变化，笔者通过测量断层叠加方式、断层位移量转换、断层断坡高度，说明秋里塔格褶皱带背斜叠加、扭曲、分叉现象的构造机理，并且给出了秋里塔格褶皱带断层的滑移量。     

天山乌鲁木齐河上游径流极值变化分析研究

以天山乌鲁木齐河上游作为研究对象, 结合乌鲁木齐河上游近50 a的实测月均径流变化资料, 对未来的月均径流进行了预测. 基于对重现水平的95%置信区间进行估计的结果表明, 乌鲁木齐河上游重现期为10 a、25 a、50 a和100 a的月均径流量极大值分别约为35.4 m³·s^-1、39.9 m³·s^-1、43.2 m³·s^-1和46.3 m³·s^-1;重现期为10 a、25 a、50 a和100 a的月均径流量极小值分别约为0.60 m³·s^-1、0.43 m³·s^-1、0.30 m³·s^-1和0.18 m³·s^-1. 在当前气候变化背景下, 乌鲁木齐河上游在2058年前后枯水期时可能发生断流现象. 该研究对乌鲁木齐河径流变化预测具有重要意义.     

Structural features in the Dead Sea-Jordan rift zone, interpreted from a combined magnetic-gravity study

The results of a combined analysis of aeromagnetic and gravity data covering the rift and adjacent areas show two different deep structural models: (a) Across the northern and central portions of the rift zone the crustal thickness and the character of the upper mantle remain unchanged. On the other hand, the lithology of the upper crust varies laterally so that the mafic composition of the rock type probably increases from east to west. (b) The southern portion of the rift may be underlain by an anomalous, low-density upper mantle.

Local negative gravity anomalies within the rift zone delineate deep depressions, separated by structural highs. The Dead Sea depression is interpreted to be filled by 7.5 km of young, low-density sediments.

Local magnetic anomalies which cover the northern portion only are interpreted as basalt flows. This approach enables delineation of fault patterns which support the classic view of sinistral strike slip movement along a complicated fault system.     

云南省官房铅锌钨矿区团山矿段水文地质特征与矿区涌水量预测

官房铅锌钨矿区团山矿段位于云南省文山州文山县内,钨矿矿体规模中等,矿区水文地质条件中等偏复杂,包含有3个含水层组.矿坑充水的主要来源是矿体顶底板围岩岩溶裂隙水中的地下水.利用大井法对矿区的涌水量进行预测,结果表明1200、1300和1400 m水平段正常涌水量分别为21587、9997和4484 m³/d,最大涌水量分别为64761、29991和13452 m³/d.     

塔里木河流域2001年四源一干河川径流运行分析

2001年塔里木河流域四条源流出山口天然径流量计266.5×10⁸m³, 比多年平均值多40.70×10⁸m³, 增加1%.源流区在进入塔里木河干流前总耗水量为220.0×10⁸m³, 与多年平均值比较多43.4×10⁸m³, 增加24.6%, 而入塔里木河水量为46.4×10⁸m³, 比多年平均4.12×10⁸m³减少1.64×10⁸m³.塔里木河干流龙头站--阿拉尔站2001年年径流量为45.72×10⁸m³, 接近多年均值46.00×10⁸m³, 属平水年.干流上游区间耗水量24.77×10⁸m³, 占阿拉尔站年径流量的54.2%; 中游区间耗水量1.94×10⁸m³, 占阿拉尔站年径流量的41.4%; 下游区间耗水2.025×10⁸m³(纯塔里木河水), 仅占阿拉尔站年径流量的4.4%. 2001年从开都河-孔雀河的博斯腾湖和塔里木河向下游绿色走廊的应急输水于11月16日水流到台特玛湖, 从而结束了塔里木河下游近30 a干涸的历史, 使下游绿色走廊恶化环境开始恢复.     

甘肃舟曲县牙豁口滑坡发育特征与成因分析

2019年7月16日,位于舟曲—化马深大活动断裂带的舟曲县牙豁口发生滑坡,滑坡长1 920 m,宽50~190 m,体积212×10⁴ m³,为典型的推移式大型长条状断层破碎带堆积层滑坡。滑坡自上而下沿原老滑道分级分块逐步发育形成,滑动历时近50天,最大滑距500 m,滑坡破坏X414县道、养鸡场等,并使岷江呈半堵塞状态,影响汛期行洪安全。通过现场调查、监测、无人机测量、岩土试验和收集历史滑坡资料,对牙豁口滑坡形成的地质环境、滑坡发育历史、滑坡分级分块特征、滑动过程和成因进行了系统研究。牙豁口滑坡分为上、下相对独立的两级滑坡。上级滑坡又可分为南支滑块和北支滑块两部分,在老滑坡的基础上长期孕育发展,上级滑坡北支滑块在2013年前就已活动,2019年7月16日上级滑坡南支滑块开始剧烈滑动,并推挤北支滑块前部一同复活滑动。上级滑坡约10×10⁴ m³滑体下滑加载于下级滑坡,下级滑坡于7月24日由上向下逐步扩展变形和滑动,下级滑坡又可分为上、中、下三段滑体,滑坡前缘于8月10日达到岷江边,使岷江呈半堵状态。牙豁口滑坡总体具有孕育历史悠久、滑动历时长、滑动速度较低、分级分块差异性滑动的特点。长期活动的深大断裂带及凹槽状地形、软弱易滑的灰黑色风化破碎炭质板岩、地下水和大气降水的强烈作用、两侧崩滑体的堆积加载是滑坡发生的主要原因。     

1980—2017年祁连山水源涵养量时空变化特征

祁连山是中国西北地区十分重要的生态安全屏障,也是当地极为关键的水源涵养区。基于InVEST模型中的产水量模块,对祁连山水源涵养量和时空变化进行了分析并探讨其影响因素。结果表明：祁连山多年平均产水总量和水源涵养总量约为93.03×10⁸ m³和57.83×10⁸ m³。从时间变化来看,水源涵养量呈上升趋势,上升速率约为0.196 mm·a^-1;在空间上呈“东多西少”的分布格局,与年降水量的空间分布大致相同。不同土地利用类型下的水源涵养总量依次为：草地（31.87×10⁸ m³）>林地（16.71×10⁸ m³）>耕地（4.92×10⁸ m³）>其他用地（2.29×10⁸ m³）>建设用地（0.63×10⁸ m³）。降水量与水源涵养量在所有研究时段内均存在显著正相关性。不同时期土地利用类型的变化也会对水源涵养量产生重要影响,研究区草地面积变化对水源涵养量影响较大。根据建立的经验公式并参考已有研究成果,估算得出研究区多年冻土地下冰储量在550 km³以上,在全球气候变暖的背景下,消融趋势明显。研究可为祁连山水资源合理配置和生态系统保护提供参考。     

Tectonics and crustal structures related to Bhuj earthquake of January 26, 2001: based on gravity and magnetic surveys constrained from seismic and seismological studies

Gravity and magnetic data of the Kachchh basin and surrounding regions have delineated major E–W and NW–SE oriented lineaments and faults, which are even extending up to plate boundaries in the north Arabian Sea and western boundary of the Indian plate, respectively. The epicentral zone of Bhuj earthquake and its aftershocks is located over the junction of Rann of Kachchh and median uplifts viz. Kachchh mainland and Wagad uplifts, which are separated by thrust faults. Gravity data with constraints from the results of the seismic studies along a profile suggest that the basement is uplifted towards the north along thrust faults dipping 40–60° south. Similarly gravity and magnetic modeling along a profile across Wagad uplift suggest south dipping (50–60°) basement contacts separating rocks of high susceptibility and density towards the north. One of these contacts coincides with the fault plane of the Bhuj earthquake as inferred from seismological studies and its projection on the surface coincides with the E–W oriented north Wagad thrust fault. A circular gravity high in contact with the fault in northern part of the Wagad uplift along with high amplitude magnetic anomaly suggests plug type mafic intrusive in this region. Several such gravity anomalies are observed over the island belt in the Rann of Kachchh indicating their association with mafic intrusions. The contact of these intrusives with the country rock demarcates shallow crustal inhomogeneities, which provides excellent sites for the accumulation of regional stress. A regional gravity anomaly map based on the concept of isostasy presents two centers of gravity lows of −11 to −13 mGal (10⁻⁵ m/s²) representing mass deficiency in the epicentral region. Their best-fit model constrained from the receiver function analysis and seismic refraction studies suggest crustal root of 7–8 km (deep crustal inhomogeneity) under them for a standard density contrast of −400 kg/m³. It is, therefore, suggested that significant amount of stress get concentrated in this region due to (a) buoyant crustal root, (b) regional stress due to plate tectonic forces, and (c) mafic intrusives as stress concentrators and the same might be responsible for the frequent and large magnitude earthquakes in this region including the Bhuj earthquake of January 26, 2001.     

中天山及其北麓的降水变化及其原因分析

利用中天山地带85.0°～90.0°E,42.5°～45.0°N范围内17个气象站1961-2000年的降水、气温观测数据及美国NCEP/NCAR1950-2000年再分析月平均资料进行计算和分析,结果表明:这一区域近年来降水呈现上升趋势,且冬、夏季相对显著,山区降水增幅大于山前平原地带.年代际变化表现为60-70年代降水量减少,80-90年代逐步增加.大气可降水量多年也表现为增加趋势.近50a来该地区上空的水汽输送状况显示,年平均大气水汽输入为9217.8×10⁸m³,输出水汽8625.7×10⁸m³,净收支为592.0×10⁸m³,且水汽收支主要取决于夏半年的水汽输入量,境外全年输入的水汽只有6.4%转化为降水.从50-90年代水汽净收支总体上呈减少趋势,只在90年代有略微增长.结合该地区的河流径流增加、冰川物质平衡一直处于亏损状态,说明中天山北麓近年来降水量增加的主要原因是由于该地区内部的水循环量增加和水循环速率提高.     

Regional gravity analysis of the crustal structure of Tunisia

Gravity data were integrated with seismic refraction/reflection data, well data and geological investigations to determine a general crustal structure of Tunisia. The gravity data analysis included the construction of a complete Bouguer gravity anomaly map, residual gravity anomaly maps, horizontal gravity gradient maps and a 2.5-D gravity model. Residual gravity anomaly maps illustrate crustal anomalies associated with various structural domains within Tunisia including the Sahel Block, Saharian Flexure, Erg Oriental Basin, Algerian Anticlinorium, Gafsa Trough, Tunisian Trough, Kasserine Platform and the Tell Mountains. Gravity anomalies associated with these features are interpreted to be caused either by thickening or thinning of Palæozoic and younger sediments or by crustal thinning. Analysis of the residual gravity anomaly and horizontal gravity gradient maps also determined a number of anomalies that may be associated with previously unknown structures. A north-south trending gravity model in general indicated similar subsurface bodies as a coincident seismic model. However, thinner Mesozoic sediments within the Tunisian Trough, thinner Palæozoic sediments in the Gafsa Trough, and a greater offset on the Saharian Flexure were required by the gravity data. Additionally, basement uplifts under the Kasserine Platform and Gafsa Trough, not imaged by seismic data, were required by the gravity data. The gravity model revealed two previously unknown basins north and south of the Algerian Anticlinorium (5 km), while the Erg Oriental Basin is composed of at least two sub-basins, each with a depth of 5 km.     

汶川地震(Ms 8.0)地表破裂及其同震右旋斜向逆冲作用

2008年5月12日14时28分,青藏高原东缘龙门山地区发生了震惊世界的汶川地震（MS 8.0）,地震不仅造成巨大的人员伤亡和财产损失,并形成了迄今为止空间上分布最为复杂、长度最大的逆冲型同震地表破裂带。通过多次野外考查表明,汶川地震（MS 8.0）在龙门山断裂带上至少使两条NE走向、倾向NW的映秀-北川断裂和灌县-安县断裂同时发生地表破裂,并沿映秀-北川断裂产生的地表破裂带长度约275 km,以逆冲运动伴随右旋走滑为其破裂特征,最大垂直位移量约11 m,最大右旋走滑位移量至少约12 m;沿灌县-安县断裂产生的地表破裂带长度约80 km,表现为纯逆冲运动的破裂特征,最大垂直位移量约4 m;另外发育一条长约6 km呈NW走向连接于映秀-北川破裂带和汉旺破裂带的小鱼洞破裂带,以左旋走滑兼有逆冲运动为特征。地表破裂基本沿袭早先活动断裂带上,并使早先抬高的地貌更加抬高,表明龙门山地区地震在同一断裂带上重复发生过,并且无数次地震活动（包括类似汶川MS 8.0地震的强震）的累积,逐渐形成了现今的龙门山。根据同震断裂面以及断裂面上的擦痕分析表明,汶川地震是由两次破裂事件叠加而成,初期破裂以逆冲运动为主,后期破裂以右旋走滑为主,这种破裂过程与地震波数据反演结果（陈运泰等,2008;Ji, 2008;王为民等,2008）一致。在地表破裂带南段（映秀—清平段）叠加了两次不同性质的破裂过程,北段（北川—南坝段）只反映了第二次破裂事件的过程。利用长期滑移速率与汶川地震同震位移对比,估算出在龙门山断裂带上类似汶川地震（MS 8.0）的强震复发周期为3000~6000 a。通过对比研究,西昆仑山、阿尔金山和东昆仑山与龙门山具有很相似的转换挤压构造特征,斜向逆冲作用是青藏高原周缘山脉快速崛起的主要机制。     

中国西部大陆岩石圈的有效弹性厚度研究

中国西部是地球上陆地隆升最显著的地区, 有世界上新构造运动最强烈的青藏高原、规模巨大的左行走滑位移的阿尔金断裂系和中亚地区最大的板块内部造山带———天山褶皱造山带.作为印度板块与欧亚板块相互碰撞的会聚带, 本区是研究岩石圈动力学的有利场所.主要运用重力资料和地形资料来研究中国西部地区显著上地壳结构和其上地幔变形之间的关系.依据岩石圈流变学的理论, 在空间域采用垂直和水平受力的多个变刚度的三维有限差分方法来计算弹性板的有效弹性厚度.模拟结果显示中国西部地区的岩石圈有效弹性厚度存在明显的横向不均匀性, 从6~10 km的造山带区域的有效弹性厚度变到大于60 km的古陆区域的有效弹性厚度.青藏高原地区的岩石圈有效弹性厚度平均为30 km, 塔里木盆地的有效弹性厚度为40~50 km, 南、北天山的岩石圈有效弹性厚度分别为10~15 km和30 km左右, 阿尔金断裂在东经90°以西部分的岩石圈有效弹性厚度要小于90°以东部分.      

甘肃舟曲南峪江顶崖古滑坡发育特征与复活机理

江顶崖古滑坡位于甘肃舟曲白龙江左岸,区内地形地貌和地质构造复杂,多高山峡谷且河流纵坡降大,晚第四纪以来强烈活动的坪定—化马断裂带从区内通过,造成地层岩性极为破碎,古滑坡发育,且复活特征明显。在遥感解译和现场调查的基础上,对江顶崖古滑坡的发育特征和复活机理进行分析,认为江顶崖古滑坡堆积体方量为41×106～49×106m3,为在地质历史上形成的巨型古滑坡,位于坪定—化马断裂带及其次级断裂形成的断裂带内。根据滑坡不同位置和坡体结构特征,将江顶崖古滑坡共划分为古滑坡崩塌区、滑坡岩体变形区、古滑坡堆积区等3个大区,以及4个古滑坡复活区等7个区域,坡体内断错陡坎和拉裂缝极为发育。江顶崖古滑坡的中部复活区是主要变形和破坏区,1991年和2018年的复活区均位于该区域内,2018年复活滑坡体体积为480×104～550×104m3,为缓慢滑动的牵引式滑坡。江顶崖古滑坡复活机理复杂,在断裂活动和地震作用下形成的破碎岩土体和斜坡结构特征为滑坡复活提供了内因,强降雨作用增加了坡体自重并弱化了岩土体的力学强度,在暴雨期形成的强烈河流侵蚀作用进一步切割坡脚,从而诱发滑坡的复活;因此,江顶崖古滑坡是在内外动力耦合作用下形成的典型古滑坡复活案例。目前江顶崖古滑坡区域内的4个滑坡复活区仍处于蠕滑状态,在强降雨和河流侵蚀等作用下极可能再次发生复活,并造成堵江和毁坏国道等灾害事件。