西南岩溶山区地下水资源承载能力评价——以贵州省七星关区为例     

唐佐其  李瑞敏  谯文浪  殷志强  刘琼  陈武  赵德刚 《地质通报》2020,(1):124-130

以国家扶贫攻坚重点地区——贵州乌蒙山七星关区为例,参考"全国地质资源环境承载能力评价与监测预警"形成的评价理论和方法,结合岩溶石山区地下水资源水文地质条件及开发利用实际,探索构建岩溶石山区县域范围内地下水资源承载能力评价方法。通过系统评价七星关区地下水资源承载能力,认为该区地下水资源承载能力较大,但资源、开采强度、劣质水分布不均,降低了部分区域地下水资源承载能力。评价结果为区域国土空间规划及"三区三线"划定提供了依据。同时,该评价方法亦为岩溶地区地下水资源承载能力评价提供了借鉴。  相似文献   

太行山东麓汤西断裂南段活动特征分析     

戴骜鹏  刘明军  贺为民  孙译 《大地测量与地球动力学》2020,40(6):571-576

采用槽探、年代样品测试、阶地调查和形变测量监测等方法，对太行山东麓汤西断裂南段进行研究，分析其活动特征。结果表明，汤西断裂发育于中更新世，历经多次活动，断裂并未上延到上更新统地层中，其南段的活动强度较高，最新活动年代为中更新世；汤西断裂西代村场地的垂直形变监测（1999~2014年）结果存在异常，综合监测点数据和区域新构造特征分析发现，该异常可能是研究区区域形变场的反映，并非由汤西断裂活动引起。  相似文献   

不同空间尺度的山洪灾害风险评价模型对比研究          下载免费PDF全文

田丰  张军  冉有华  刘金鹏  周翼 《干旱区地理》2019,42(3):559-569

以山洪灾害风险评价的多准则决策模型、最大熵模型、信息量模型三种常见模型为研究对象，选取河西走廊和张掖市为地理区划（大中）、市域（小）空间尺度研究区，构建山洪灾害风险评价指标体系，分别完成基于三种模型的两种空间尺度的山洪灾害风险评价制图，基于甘肃省地质灾害调查与区划报告数据从模型验证、空间自相关、精度对比和尺度效应等角度对比分析三个模型应用于不同空间尺度的适应性，并给出优选模型。结果表明：最大熵模型是河西走廊（地理区划）空间尺度上山洪灾害风险评价的优选模型；多准则决策模型不适用于张掖市（市域）空间尺度评价，且三个模型运行结果均没有河西走廊（地理区划）空间尺度上表现良好；三个模型的尺度效应明显，在地理区划空间尺度上应用较良好，缩小至市域空间尺度上模拟结果误差增大；不同空间尺度上，最大熵模型均优于多准则决策模型和信息量模型，适用于地理区划（大中）、市域（小）空间尺度的山洪灾害风险评价。  相似文献   

山东蒙山与四川海螺沟冰川擦痕特征对比及成因分析   总被引：1，自引：0，他引：1       下载免费PDF全文

王照波  王江月 《山东国土资源》2019,35(6)

冰川擦痕在冰川遗迹的判断中具有极为重要的意义,其中以槽谷岩壁擦痕与冰碛砾石擦痕最为明显。槽谷岩壁擦痕具有细长密集、近似平行的特征;冰碛砾石擦痕具有短粗稀疏、方向杂乱的特征。除此之外,还有弧形擦痕、逆冲擦痕、新月形凿口、新月形裂纹、新月形裂口、颤痕等刻蚀遗迹的配套产出。经对比分析,蒙山发育的擦痕与四川海螺沟现代冰川谷内的擦痕具有完全的一致性,因此进一步确定了蒙山擦痕的冰川成因。  相似文献   

大别山及其周边现今垂直形变研究     

宋尚武  王庆良  郝明  周琳  刘立炜  胡亚轩 《大地测量与地球动力学》2018,38(1):32-35

基于1980年、2005年和2015年3期区域精密水准网观测资料，利用线性动态平差模型计算获取大别山地区水准网长期垂直运动速度场图像。研究发现，淮河平原地表下沉较为严重，大别山呈现弱隆升趋势运动，长江谷地边缘地区较大别山区呈现明显的隆升运动。跨郯庐断裂带水准剖面结果显示，垂直运动与地形呈负相关和弱相关。  相似文献   

Access routes to high mountain huts facing climate-induced environmental changes and adaptive strategies in the Western Alps since the 1990s     

Jacques Mourey  Ludovic Ravanel  Christophe Lambiel  Joël Strecker  Mattia Piccardi 《Norsk geografisk tidsskrift. Norwegian journal of geography》2019,73(4):215-228

ABSTRACT

In the European Alps, high mountain environments are subject to major impacts resulting from climate change, which strongly affect human activities such as mountaineering. The purpose of the study was to examine changes in access routes to 30 high mountain huts in the Western Alps since the 1990s. Data were derived from the use of two different methods, geo-historical studies and a questionnaire, and were used to identify both the climate-related processes affecting the climbing routes and the strategies implemented by public entities, Alpine clubs, guide companies, and hut keepers to maintain acceptable safety and technical conditions. The case studies revealed issues affecting three access routes and the results from the questionnaire showed that the main processes affecting access routes were loss of ice thickness and retreat from the front of the glaciated areas. Commonly, in situ equipment was installed to facilitate access for mountaineers and/or a part of a route was relocated to a safer area. The authors conclude that in most cases, the measures were effective but they were limited by financial, ethical and legal issues, especially in protected or classified areas that could jeopardise their durability and effectiveness.  相似文献   

Quantifying flow resistance in mountain streams using computational fluid dynamics modeling over structure-from-motion photogrammetry-derived microtopography     

Yunxiang Chen  Roman A. DiBiase  Nicholas McCarroll  Xiaofeng Liu 《地球表面变化过程与地形》2019,44(10):1973-1987

Flow resistance in mountain streams is important for assessing flooding hazard and quantifying sediment transport and bedrock incision in upland landscapes. In such settings, flow resistance is sensitive to grain-scale roughness, which has traditionally been characterized by particle size distributions derived from laborious point counts of streambed sediment. Developing a general framework for rapid quantification of resistance in mountain streams is still a challenge. Here we present a semi-automated workflow that combines millimeter- to centimeter-scale structure-from-motion (SfM) photogrammetry surveys of bed topography and computational fluid dynamics (CFD) simulations to better evaluate surface roughness and rapidly quantify flow resistance in mountain streams. The workflow was applied to three field sites of gravel, cobble, and boulder-bedded channels with a wide range of grain size, sorting, and shape. Large-eddy simulations with body-fitted meshes generated from SfM photogrammetry-derived surfaces were performed to quantify flow resistance. The analysis of bed microtopography using a second-order structure function identified three scaling regimes that corresponded to important roughness length scales and surface complexity contributing to flow resistance. The standard deviation σ_z of detrended streambed elevation normalized by water depth, as a proxy for the vertical roughness length scale, emerges as the primary control on flow resistance and is furthermore tied to the characteristic length scale of rough surface-generated vortices. Horizontal length scales and surface complexity are secondary controls on flow resistance. A new resistance predictor linking water depth and vertical roughness scale, i.e.  H/σ_z, is proposed based on the comparison between σ_z and the characteristic length scale of vortex shedding. In addition, representing streambeds using digital elevation models (DEM) is appropriate for well-sorted streambeds, but not for poorly sorted ones under shallow and medium flow depth conditions due to the missing local overhanging features captured by fully 3D meshes which modulate local pressure gradient and thus bulk flow separation and pressure distribution. An appraisal of the mesh resolution effect on flow resistance shows that the SfM photogrammetry data resolution and the optimal CFD mesh size should be about 1/7 to 1/14 of the standard deviation of bed elevation. © 2019 John Wiley & Sons, Ltd.  相似文献   

Spatio‐temporal tracer variability in the glacier melt end‐member — How does it affect hydrograph separation results?          下载免费PDF全文

Jan Schmieder  Jakob Garvelmann  Thomas Marke  Ulrich Strasser 《水文研究》2018,32(12):1828-1843

Geochemical and isotopic tracers were often used in mixing models to estimate glacier melt contributions to streamflow, whereas the spatio‐temporal variability in the glacier melt tracer signature and its influence on tracer‐based hydrograph separation results received less attention. We present novel tracer data from a high‐elevation catchment (17 km², glacierized area: 34%) in the Oetztal Alps (Austria) and investigated the spatial, as well as the subdaily to monthly tracer variability of supraglacial meltwater and the temporal tracer variability of winter baseflow to infer groundwater dynamics. The streamflow tracer variability during winter baseflow conditions was small, and the glacier melt tracer variation was higher, especially at the end of the ablation period. We applied a three‐component mixing model with electrical conductivity and oxygen‐18. Hydrograph separation (groundwater, glacier melt, and rain) was performed for 6 single glacier melt‐induced days (i.e., 6 events) during the ablation period 2016 (July to September). Median fractions (±uncertainty) of groundwater, glacier melt, and rain for the events were estimated at 49±2%, 35±11%, and 16±11%, respectively. Minimum and maximum glacier melt fractions at the subdaily scale ranged between 2±5% and 76±11%, respectively. A sensitivity analysis showed that the intraseasonal glacier melt tracer variability had a marked effect on the estimated glacier melt contribution during events with large glacier melt fractions of streamflow. Intra‐daily and spatial variation of the glacier melt tracer signature played a negligible role in applying the mixing model. The results of this study (a) show the necessity to apply a multiple sampling approach in order to characterize the glacier melt end‐member and (b) reveal the importance of groundwater and rainfall–runoff dynamics in catchments with a glacial flow regime.  相似文献   

基于树木地貌法重建崩塌历史事件——-以川东华蓥山石林为例     

王锐  马超  王云琦  王玉杰 《山地学报》2020,38(1):132-141

了解崩塌活动史与区域气候变化之间的关系对于掌握区域山地灾害形成规律,预测未来发展趋势具有非常重要的作用。利用树木地貌法可以准确掌握山地灾害发生频率,并为定量分析气候变化对山地灾害发生发展趋势提供支撑。本文以川东华蓥山石林景区一大型崩塌为研究对象,通过杉木树木年轮、降水和气温数据对该崩塌活动时间进行分析。结果表明:该崩塌可能共有四个活动年份,2015年为大规模活动年份,2008年、2012年和2016年为小规模活动年份,崩塌活动的季节主要集中在早材期间(4月—9月)。基于滚石冲击树干产生的愈伤组织和标准木年轮对比表明:树木在受到滚石冲击后,都表现为生长抑制,且树木年轮宽度要滞后滚石活动1年。参考树木与干扰树木年轮宽度和月降雨量没有相关性,但干扰树木年轮与月平均气温(4月—9月)呈负相关关系。本研究结果可以为研究区内山地灾害活动史与气候变化关系提供支撑,尤其是为研究区域降雨诱发的崩塌活动规律提供借鉴。  相似文献   

基于小震定位与震源机制解信息的阿尔金断裂带东段构造转换研究   总被引：1，自引：0，他引：1       下载免费PDF全文

刘亢  李海兵  王长在  张辉  肖根如  李红光  张凌 《地球物理学报》2018,61(11):4459-4474

阿尔金断裂带东段地区的造转换及其动力学机制研究一直是地学工作者关注的焦点.本文利用双差定位法获取研究区域2008—2017年间6013次地震事件的精确定位数据；整理筛选前人震源机制解36个，并采用P/S波振幅比方法计算获得221个以及CAP方法获得25个震源机制解信息.选择野马河—大雪山断裂作为研究区构造转换研究的突破口，综合小震定位数据与震源机制解信息，并开展野外地质调查进行验证，清晰刻画出该断裂的深部构造形态以及现今的运动特征：由阿尔金断裂带向祁连山方向过渡，断层产状由近直立逐渐转变为倾向南，倾角变缓，震源机制解由走滑性质为主转变为逆冲性质为主，是一个连续渐变的过程，为研究区的构造转换研究提供了直接证据.  相似文献