临汾盆地末次间冰期以来地貌演化的构造和气候响应

野外调查发现,末次间冰期(MIS₅)以来临汾盆地普遍发育了一级冲湖积台地(T₃)、一级湖蚀台地、两级堆积阶地(T₂、T₁).利用黄土磁化率地层定年法、TL测年法,确定这些台地或阶地的年龄分别为130kaBP、130kaBP~52kaBP、52kaBP和9kaBP.分析构造和气候因素对河湖地貌发育的影响规律,得出T₃台地的形成是130kaBP的区域构造抬升的结果;T₂、T₁阶地的出现是河流响应晚更新世以来气候变化的产物;湖蚀台地的存在反映了汾河下游黄河三门峡河段可能曾因古崩塌滑坡而被堵塞过。      

雅鲁藏布江大拐弯典型泥石流全新世以来发育历史及活动特征

雅鲁藏布江大拐弯附近晚更新世末次冰期—全新世发育多期次泥石流, 组合形成了现代大规模扇形堆积体。以派镇蹦嘎沟泥石流为例, 采用地面调查、钻孔及14C测年等方法, 研究泥石流形成年代序列、堆积深度、冲出范围等特征, 分析结果表明: 现代蹦嘎沟依然有小规模的支沟泥石流发育且广泛堆积于沟道内, 现存堆积扇区域尚未发现泥石流堆积; 距今8500年左右为蹦噶沟全新世泥石流活跃期, 单期次累积堆积深度约10.9 m; 滨湖浅水相沉积(河流相)形成的浅灰色粉细砂中的两处碳样表明雅鲁藏布江现代河床在40~100年左右沉积深度约0.4 m, 年平均沉积速率4~10 mm; 海拔2906.1~2896.7 m及2849.4~2848.2 m处钻孔依次揭露厚度为9.4 m和1.2 m饼状青灰色粉质黏土, 推测发生两次堵江事件。上述结果可为该区域全新世以来泥石流活动性特征研究提供参考。      

AMS 14C测年揭示的临夏盆地巴谢河流域典型滑坡的四次滑动

正1研究目的(Objective)自1983年3月7日甘肃省东乡族自治县发生导致237人死亡的洒勒山滑坡灾害以来,巴谢河流域吸引了国内外大量学者在此开展滑坡研究。这一地区灾难性滑坡多具有多期次活动的特征,但对滑坡历史的认识,尚缺乏年代学数据支持。本研究以本地区典型滑坡——上正滑坡为例,通过滑坡年代学研究,重建滑坡的滑动历史。     

泾阳南塬黄土滑坡类型与发育特征

1976年泾阳南塬大面积提水灌溉以来,沿泾河右岸发育27处,50余起黄土层内滑坡,造成严重的经济损失和人员伤亡,使得台塬面积不断缩小,水土流失加剧.通过对南塬黄土滑坡多次野外考察和滑坡测量,研究了泾阳南塬黄土滑坡类型与发育特征.依据滑坡发生力学机制对南塬黄土滑坡进行了分类,包括黄土流滑、黄土滑动和黄土崩塌.南塬黄土滑坡具有高陡的后壁,后缘裂缝普遍发育,具有演化性与群体性分布特征.其中裂缝发育及高陡的滑坡后壁是造成滑坡演化的重要因素.裂缝的发育还是滑坡群体性分布的内在动力机制.      

维西-乔后断裂新活动特征及其与红河断裂的关系

根据野外调查结果,重点阐述了维西-乔后断裂晚第四纪活动特征,并对其与红河断裂之间的关系进行了探讨分析。维西-乔后断裂对晚新生代盆地具有明显的控制作用,右旋走滑特征明显,沿线山脊和河流表现为同步右旋位错。德胜和长邑南探槽揭示其断错了晚更新世晚期-全新世堆积。岩曲-石岩村一带Ⅱ级河流阶地和后缘洪积扇上发育长约3 km、高2.5 m左右的断层陡坎。根据洪积扇、冲沟和河流阶地位错量估算,该断裂晚更新世晚期以来右旋水平滑动速率为1.8~2.4 mm/a,垂直滑动速率为0.30~0.35 mm/a。它南与红河断裂相连,北与金沙江断裂相接,新生代以来具有与红河断裂和金沙江断裂相似的运动学特征、相同的地质演化历史和构造变形机制,是红河活动断裂的北延部分。维西-乔后断裂与红河、金沙江以及德钦-中甸-大具等断裂一起,共同构成了川滇活动块体的西部边界。      

基于物理模拟实验的黑方台黄土滑坡破坏机理研究

在黑方台地区,由于长年的灌溉引发了大量的黄土滑坡,以焦家4#滑坡为例,对该滑坡进行了近景摄影测量分析以及详细的野外调查工作,对黄土滑坡破坏机理进行研究。结果表明:黄土滑坡破坏前期后缘开始发育大量裂缝,破坏后后缘呈圈椅状,滑动面处于液态化的状态,滑体软弱松散,是该区危害最大的一类滑坡。建立物理模型模拟该滑坡的破坏过程,结果表明:该滑坡演化过程中,边坡中后部率先出现裂缝,逐渐向坡面发展,裂缝方向顺着斜坡坡面方向,最后贯穿滑坡体。边坡破坏时,孔隙水压力激增,导致黄土液化,强度降低,前缘塑性流出,边坡破坏;表面位移量达到最大,表明该滑坡具有明显的突发性特征。     

延安市滑坡分布规律及发育特征

以延安市13个县区地质灾害详细调查成果为基础,对区内滑坡进行了统计分析,并采用ArcGIS软件将滑坡叠加在地形图中,研究了区内滑坡的时空分布规律和发育特征。研究表明,空间上,北部砂黄土地区滑坡发育数量明显比南部壤黄土地区多,滑坡在一、二级河流河谷区两侧及多条河流交汇处集中分布,阴坡发生滑坡的比率高于阳坡,滑坡在年降雨量多的地区集中分布,在人口和交通工程密集区域内集中分布;时间上,滑坡在6-9月份的雨季相对集中,在晚更新世末和全新世初期相对集中。其发育特征表现为:区内滑坡有7种类型,但以黄土滑坡(黄土内滑坡、黄土与红黏土接触面滑坡、黄土与基岩接触面滑坡、沿古土壤面滑坡)为主,滑坡体长度主要集中在6~300m,宽度主要集中在15~300m,厚度主要集中在1~20m,滑坡体面积在0.009 6×10~4~40.5×10~4 m~2之间,体积在0.026 88×10~4~1 620×10~4 m~3之间,其中以中小型滑坡为主;提出了因地制宜的针对性建议,为区域内的防灾减灾工作提供了一定的参考。     

武都汉林沟流域古滑坡年龄的14C厘定

古滑坡一般是指全新世以前地质历史时期发生的滑坡。武都汉林沟流域发育有第四纪晚更新世以来不同时期的滑坡,具有规模大、数量多的特点,为武都白龙江中游滑坡发育历史研究提供了典型实例。通过滑坡体的形貌、结构特征、与其他地层的接触关系分析,确定古滑坡的存在。同时也发现古滑坡曾堵塞汉林沟形成堰塞湖,并压埋了许多古树木,古滑体中残留...     

北京斋堂东胡林全新世早期遗址的黄土剖面

门头沟斋堂东胡林遗址是目前北京地区发现的最早且内涵最丰富的新石器早期遗址(9281±120～8270±60 a BP)。该遗址的黄土剖面清晰,包含了晚更新世及早全新世的黄土堆积、全新世早期的沉积间断及埋藏古土壤。在相对精确的~(14)C年龄时间框架下,本文对保存该遗址的黄土剖面的分层、黄土的粒度特征、矿物成分、化学成分、孢粉图谱及蜗牛的相对丰度进行了研究。分析表明本地区晚更新世气候比较干冷,气候的明显转暖应在全新世早期(早于9281±120 a BP),在约8500 a BP华北地区的年均温度可能已达到比现在高约2～3℃左右的状况。正是在这样的环境背景下,山顶洞人的后裔们,在清水河畔的阶地上开始了全新的生活。     

映秀-北川断裂带北川段唐家湾滑坡活动历史与形成机制

以映秀-北川断裂带北川段唐家湾滑坡为研究对象,基于地形资料、多期遥感与航拍影像,结合¹⁴C测年的方法,细分了唐家湾滑坡的活动历史,分析了2016年唐家湾滑坡再次复活的主要控制因素。研究结果表明：（1）唐家湾斜坡历史上至少发生过四期滑动,其中第一期次滑坡发生在全新世以前;第二期次滑坡发生于全新世初期;第三期次滑坡发生在2008年汶川地震时期,系龙门山断裂带活动过程中产生的同震滑坡;第四期次滑坡分别发生在2016年和2018年,属于断裂带滑坡堆积体的再次局部复活;（2）2016年唐家湾滑坡的形成与断裂活动、河流侧蚀和水等因素有关,其中,上覆滑坡堆积体、下伏高陡基岩形成的二元斜坡结构,是唐家湾滑坡发生的决定性条件;断裂活动及其导致的浅地表最大主应力偏转是唐家湾滑坡变形的重要内因;（3）以唐家湾滑坡为例,初步讨论了基于地形条件控制的断裂带滑坡堆积体复活的地质模型,其形成演化表现为断裂带活动和河流侵蚀形成滑坡（或陡峭地形）→先期滑坡后壁（或陡峭地形）接受上部老滑坡堆积→二元斜坡结构控制下的老滑坡复活变形。该滑坡为研究地形控制断裂带滑坡复活提供了独特的案例,研究成果对于理解和评估该类滑坡,开展综合防治等方面具有重要的借鉴价值。     

The variety of landslide forms in Slovenia and its immediate NW surroundings

The Post-Forum Study Tour following the 4th World Landslide Forum 2017 in Ljubljana (Slovenia) focuses on the variety of landslide forms in Slovenia and its immediate NW surroundings, and the best-known examples of devastating landslides induced by rainfall or earthquakes. They differ in complexity of the both surrounding area and of the particular geological, structural and geotechnical features. Many of the landslides of the Study Tour are characterized by huge volumes and high velocity at the time of activation or development in the debris flow. In addition, to the damage to buildings, the lives of hundreds of people are also endangered; human casualties occur. On the first day, we will observe complex Pleistocene to recent landslides related to the Mesozoic carbonates thrust over folded and tectonically fractured Tertiary siliciclastic flysch in the Vipava Valley (SW Slovenia), serving as the main passage between the Friulian lowland and central Slovenia, and thus also an important corridor connecting Northern Italy to Central Europe. A combination of unfavourable geological conditions and intense short or prolonged rainfall periods leads to the formation of different types of complex landslides, from large-scale deep-seated rotational and translational slides to shallow landslides, slumps and sediment gravity flows in the form of debris or mudflows. The second day of the study tour will be held in the So?a River Valley located in NW Slovenia close to the border with Italy, where the most catastrophic Sto?e landslide in Slovenia recently caused the deaths of seven people, and the nearby Strug landslide, which is a combination of rockfall, landslide and debris flow. The final day of the Post-Forum Study Tour will start in the Valcanale Valley located across the border between Slovenia and Italy, severely affected by a debris flow in August 2003. The flow caused the deaths of two people, damaged 260 buildings; large amounts of deposits blocked the A23 Highway, covering both lanes. In Carinthia (Austria), about 25 km west of Villach, the Dobra?/Dobratsch multiple scarps of prehistoric and historic rockslides will be observed. Dobratsch is a massive mountain ridge with a length of 17 km and a width of 6 km, characterized by steep rocky walls. The 3-day study tour will conclude with a presentation of the Poto?ka planina landslide, a slide whose lower part may eventually generate a debris flow and therefore represents a hazard for the inhabitants and for the infrastructure within or near the village of Koro?ka Bela.     

Description of dynamics of the Tuzla Landslide and its implications for further landslides in the northern slope and shelf of the Cinarcik Basin (Marmara Sea, Turkey)

Seismic and multi-beam bathymetric data from the northern shelf and slope of the Cinarcik Basin, which is generated by the North Anatolian Fault Zone (NAFZ) located in the easternmost basin in the Marmara Sea, were re-interpreted to better understand the future sub-marine landslide susceptibility. Seismic data indicate that upper surface of the sub-marine extension of the Paleozoic rocks has an NNE–SSW oriented basin and a ridge type morphology controlled by the secondary faults of the NAFZ. Basins are fulfilled by Plio-Quaternary sediments, which are cut by strike-slip faults on the shelf and slope. The thickness of basin deposits reaches up to 130 m toward the linear northern slope of the Cinarcik Basin. A relatively recent sub-marine landslide, the Tuzla Landslide, cuts the slope of the Cinarcik Basin. The detailed morphological investigation indicates that the Tuzla Landslide is a deep-seated rotational landslide, which was likely triggered by activity of the NAFZ. Morphological analyses also indicate that the thick Plio-Quaternary deposits on the Paleozoic basement slid during the Tuzla Landslide event. This landslide is considered as a key event to understand the dynamics of the potential landslides on the northern shelf and slope of the Cinarcik Basin. Two areas locating on the eastern and the western sides of the Tuzla Landslide are considered as the potential areas for future sliding due to similarities of geological and geomorphological features with the Tuzla Landslide such as similar thick Plio-Quaternary deposits, similar slope morphology, and similar fault activity cutting the sediments. Considering this information, the purposes of the present study are to determine the dynamics of the possible landslide areas and to discuss their effects on the sub-marine morphology. In the light of the interpretations, the amounts of possible displaced material are obtained. Three different landslide scenarios due to possible slide surfaces for future landslides are developed and assessed. The first scenario is sliding of the sediments at the shelf break. The third scenario is a mass movement of almost whole basin deposits on the Paleozoic rocks. The latter one is evaluated as less important because of the volume of the displaced material, and the latter one is accepted as lowest possible event. Among the scenarios, the second scenario is accepted as the most critical and possible because of the amount of the slipped material and existence of faults rupture, which is considered as further sliding surfaces. These landslides will result in important changes in shelf, slope and basin floor in the study area.     

Geohistorical development of the Tochiyama landslide in north-central Japan

The Tochiyama landslide is one of several complex, deep-seated and large-scale landslides occurring in the Hokuriku Province in central Japan. The landslide is about 2 km long and about 500–1100 m wide; it occupies an area of approximately 150 ha and has a maximum depth of 60 m. The slide developed on a dip-slope structure, and is divisible into three layers in ascending order: older landslide debris and avalanche deposits, younger debris-avalanche deposits, and talus. The landslide complex is still active. A triangulation point on the upper part of the landslide shifted downhill by 3.3 m from 1907 to 1983, indicating an average rate of 4.3 cm/y. In 1991, the average rate of movement on the sliding surface was also 4.3 cm/y as measured by an automatic system with inclinometers installed in borehole No. 1–2. The rate measured for borehole No. 1–3, located 380 m upslope from No. 1–2, was over twice that of No. 1–2 for the same period; it has since accelerated to about 19 cm/y. Thus current movements on the basal sliding surface are inhomogeneous; the head of the slide complex is increasing the horizontal granular pressures on the lower part of the slide block.

On the basis of dating of two tephra layers and¹⁴C dating of carbonized wood intercalated within the landslide body, two stages of slide movement have been distinguished. The earlier occurred between about 46,000 to 25,000 years ago, and the latter occurred since 1361 A.D. The following sequence of events is inferred. During the middle Pleistocene, intense tectonic movements occurred in the Hokuriku Province, and as a consequence dip-slopes were developed in the Tochiyama landslide area. Low-angle fault planes (possibly representing slump features) and fracture zones then developed within flysch deposits underlying the landslide area, causing a reduction in shear strength. The erosion base level was lowered during the Würm glacial age, and due to severe erosion and incision of stream valleys, the surface slope angle rapidly increased, and toe resistance decreased. This combination of causes led to the development of a deep-seated primary landslide. As a result of an accumulation of younger deposits, regional uplift and further local erosion, stability of parts of the region decreased and led to landslide activity of a second stage. Reactivated and locally accelerating creep movements occur today and may forewarn of a stage of reactivated, hazardous rapid sliding, such as occurred with the adjacent and analogous Maseguchi landslide in 1947.     

Tephrochronologic Constraints on Temporal Distribution of Large Landslides in Northwest Argentina

Two morphologic settings in the northwestern Argentine prone to giant mountain-front collapse-deeply incised narrow valleys and steep range fronts bordering broad piedmonts-were analyzed through detailed investigations of fossil landslides and related fluvio-lacustrine sediments. Nine different rhyodactic tephra layers were defined by geochemical fingerprinting of glass, morphology of pumice, stratigraphic relationships, and mineralogy. The age of three tephra could be determined either directly by 40Ar/39Ar dating or relatively by 14C dating of associated sediments: Paranilla Ash (723+/-89 ka), Quebrada del Tonco Ash ( approximately 30 ka), and Alemanía Ash ( approximately 3.7 ka). These units permit correlation of several spatially separate landslide deposits. Landslide deposits in narrow valleys were generated in the late Pleistocene between 40 and 25 ka and in the Holocene since ca. 5 ka and correspond to periods characterized by increased humidity in subtropical South America. In contrast, the age of large landslides in piedmont regions is significantly greater but more difficult to define by tephrochronology. However, selected deposits from this second environment have cosmogenic nuclide exposure ages of 140-400 ka. Because of the large distance of the collapsed mountain fronts from eroding streams and because of important Quaternary displacement along the mountain-bounding faults, we suggest that strong, low-frequency seismic activity is the most likely trigger mechanism for most of the landslides in this environment.     

甘肃黑方台滑坡类型与活动特征研究

由于农业灌溉水的长期入渗软化作用,1984-2019年甘肃黑方台已频繁发生滑坡灾害约150次,沿黄土塬边形成长约10公里的滑坡密集发育带。滑坡类型以中、小型黄土层内滑坡为主,占90%以上;大、中型黄土-泥岩顺层滑坡次之。黄土层内滑坡速度快、滑程远,突发性、频发性、继发性强;黄土-泥岩顺层滑坡速度慢、滑程近、复活性强。高陡的台缘地形和强度低、水敏感性强的岩土体和岩层倾向坡外的地质结构是滑坡发生的基础,台塬区长期大量的农业灌溉是主要引发因素,大量水体入渗软化斜坡岩土体,使抗剪强度降低,并形成了约20多米厚的饱和软弱基座,导致斜坡失稳滑动,侧压力、季节性冻结滞水和溶滤作用等也有一定影响。黄土层内滑坡高速远程滑动的主要原因是：滑坡剪出口位置高,滑动势能大,释放条件好,剪出口下部有陡坡加速段和开阔、平缓的滑动空间,滑体底部饱和软弱黏性土持续产生超孔隙水压力、液化等低摩阻效应,是远程滑动的润滑剂。黄土-泥岩顺层滑坡的主滑面沿外倾15°左右的泥岩层面发育,且剪出口位于斜坡下部坡脚部位,能量释放条件差,决定了黄土-泥岩顺层滑坡的滑动速度较低、滑动距离较短,滑体易再次复活滑动。     

多级旋转黄土滑坡基本类型及特征分析

多级旋转黄土滑坡因其分布密集、继发性强、滑体结构难以区分而成为我国黄土高原最为复杂的滑坡灾害类型.本文在引入多级旋转滑坡的定义的基础上,通过野外详细调查和工程勘察等手段,研究我国黄土高原地区典型的多级旋转黄土滑坡的基本类型、特征和成因.提出了金台型多级旋转黄土滑坡和黑方台型多级旋转黄土滑坡2种滑坡模式和滑坡结构特征,其...     

宝鸡渭河北岸黄土塬边大型滑坡成因机制研究

滑坡成因机制是深入认识、合理评价与有效防治滑坡的关键难点,其中黄土滑坡成因机制一直是中国工程地质界的研究热点问题之一。利用DEM,Quick bird影像与地面调查相结合完成了宝鸡市区渭河北岸黄土塬边大型滑坡详细编录与GIS制图,结合典型滑坡的钻探、物探成果,利用第四纪地质的最新成果,重建了渭河河谷构造地貌演化过程、查清了斜坡地层岩性组合、获得了新近系黏土地层工程地质特性参数和活动断裂的特征,初步建立了宝鸡渭河北岸黄土塬边大型黄土滑坡的概化模型。初步研究认为:（1）宝鸡渭河北岸在上新世早更新世时期古地形由北向南渐低,古地貌由山前冲洪积平原向古三门湖变化,且古三门湖逐渐消亡,早更新世晚期现今渭河形成且主流总体向北偏移,直至全新世偏离北岸,形成现今地貌格局的地貌演化过程。（2）黄土塬边渭河北缘断裂为晚更新世以来的活动正断裂系,其不仅是地下水的导水通道,而且为滑坡后壁和次级滑面的形成提供了可追踪的软弱结构面。（3）渭河北岸黄土塬边古、老滑坡是在渭河侧蚀和地下水作用下,追踪断裂面沿新近系硬黏土界面或硬黏土层内部发生的地堑地垒式多级坡基旋转、坡体平移或复合型滑坡,是受新近系三趾马红土或三门系黏土地层和断裂控制的特殊类型黄土滑坡。     

Distribution and characteristics of landslides induced by the Iwate–Miyagi Nairiku Earthquake in 2008 in Tohoku District, Northeast Japan

The Iwate–Miyagi Nairiku Earthquake in 2008, whose seismic intensity was M. 7.2 in Japan Meteorological Agency (JMA) scale, induced innumerable landslides on the southern flank of Mt. Kurikoma volcano allocated along the Ou Backbone Range in Northeast Japan. Most landslides are detected in a hanging wall side of the seismic fault. Those landslides are classified into five types: deep-seated slide, debris slide, shallow debris slide, secondary shallow debris slide, and debris flow. Most common landslide types induced by the earthquake are shallow debris slides and subsequent debris flows. They are intensively distributed along steep gorges incising a volcanic skirt of Mt. Kurikoma, consisting of welded ignimbrite of the Pleistocene age. Debris flows are also distributed even along gentle river floors in the southern lower flank of the volcano. The area of densely distributed debris slides, shallow debris slides, and debris flows is concordant with that of severe seismic tremor. Thus, genetic processes of landslides induced by the Iwate–Miyagi Nairiku Earthquake in 2008 are attributed to multiple causative factors such as geology, topography, and seismic force.     

超孔隙水压诱发特大型近水平崩坡积层滑坡破坏研究

特大型近水平崩坡积层滑坡广泛发育于三峡库区重庆段万州城区及云阳地区。基于万州城区太白岩古滑坡以及云阳地区老药铺滑坡两个典型特大型近水平崩坡积层滑坡,分析了其结构特征及破坏特点;建立了强降雨作用下特大型近水平崩坡积层滑坡破坏的力学模型,解译了此类滑坡的破坏过程,并提出了滑带（面）超孔隙水压力是此类滑坡破坏的诱因。基于孔隙水压力与土体所处的应力状态的内在关系,推导了滑面处每个土条的孔隙水压力及水压力公式,并得出了考虑超孔隙水压力的滑坡稳定系数表达式。云阳地区老药铺滑坡算例表明,若将老药铺滑坡按zk5分为两个滑坡,两个滑坡的中心段是孔隙水压力值较高的区域;本文的孔隙水压力计算值略大于钻孔量测值,计算误差为5.8%～10%,原因在于滑面超孔隙水压力的消散;暴雨工况（含超孔隙水压力）下老药铺滑坡稳定系数为0.862,滑坡处于非稳定状态,并已发生破坏,验证了超孔隙水压力对滑坡体破坏的诱发作用;建议滑坡治理工程中应在按zk5分成的两个滑坡中间段打设排水孔,消除或降低滑面处的超孔隙水压力值,并结合滑坡周围及坡面的截排水工程以及封填裂隙治理老药铺滑坡。