共查询到20条相似文献,搜索用时 343 毫秒
1.
2.
流域演化与泥石流的系统性——以云南东川蒋家沟为例 总被引:3,自引:1,他引:2
以典型的云南东川蒋家沟为例,根据Strahler面积-高程曲线的积分将其分区,揭示了流域的演化差异.证明了泥石流发生在特定的演化区域,并具有特定的物质组成.通过概率模型,定性说明了泥石流在流域的形成和扩张,其结果就表现为间歇性的阵流.阵流的时空特征反过来证明了泥石流的系统性.统计还表明,阵流的流量分布和衰减取决于最大流量;最大流量序列很好继承了作为流域系统行为的动力学特征.最后,可以根据单沟泥石流的过程系统考察区域泥石流活动.泥石流在大尺度水系的分布,从概率过程看,完全等同于泥石流源地小分支在单个流域的分布,而且满足相似的分布特征. 相似文献
3.
云南东川蒋家沟泥石流频率高,变化多.每场泥石流包含几十到几百个阵流,各阵流具有不同的密度、流体性质和运动形态,流量涨落达3个数量级.这些特征意味着泥石流具有很强的随机性.根据蒋家沟的演化分区和野外观测,可以发现泥石流形成于特殊的源地分支.土体活动(包括滑坡、崩塌和局部的土体流动等)随机发生在那些分支流域,如果认为各源地的土体活动是独立的,而且活动强度正比于源地的面积,那么泥石流的形成和汇流就是一个空间Poisson过程.其结果是阵流流量服从指数分布,这很好地符合蒋家沟的泥石泥观测数据.从蒋家沟泥石流的随机性可见,泥石流依赖于流域的特定源区及其分布,而不是笼统地取决于全流域的地貌或几何因子. 相似文献
4.
汶川地震后四川省都江堰市龙池镇群发泥石流灾害 总被引:3,自引:0,他引:3
在2008 -05 - 12汶川地震后的极震区暴发了多处群发性泥石流灾害,龙溪河流域的龙池“8·13”群发泥石流灾害就是其中之一.龙溪河流域在2010 -08 -13遭遇强降雨过程,流域内共有45处暴发泥石流,其中34处沟谷泥石流,11处坡面泥石流,泥石流冲出总量共334×104m3,造成大量泥沙淤积在龙溪河下游河道内,该段河床平均淤高5 m.诱发“8·13”群发泥石流的最大1h降雨量达75 mm,相当于20 a一遇的1h降雨量.“8·13”群发泥石流中88.9%的泥石流活动集中在汶川地震发震断裂带附近3 km范围内,仅有11.1%的泥石流分布在距汶川地震发震断裂带3~5 km范围.除受汶川地震发震断裂带影响外,泥石流分布还受地层岩性和地形的影响.龙池群发泥石流以粘性泥石流为主,占总数的88.9%,而稀性泥石流很少,仅占总数的11.1%.小规模泥石流占多数,达到总数的60.0%;大规模泥石流很少,仅占总数的11.1%,其他为中等规模泥石流.泥石流流域主要为小流域,<1 km2的泥石流流域占多数,达到总数的68.9%;而>3 km2的泥石流流域很少,仅占总数的6.7%.龙溪河河道内的泥沙淤积受泥石流活动、主河道坡度和宽度的控制,河道上半段没有泥沙淤积,而下半段有大量泥沙淤积.龙溪河河道内淤积的泥沙颗粒粒径受沿岸泥石流流域岩性的影响,粒径从龙溪河上游到下游呈明显的从大到小的变化规律.龙溪河流域在遭遇较强降雨时还会暴发泥石流灾害;在汶川地震发震断裂带附近的山区,在暴雨激发下还有可能暴发群发性泥石流灾害.在雨季到来时需要提高警惕,预防地震次生泥石流灾害,特别要提防不易被发现的小流域泥石流灾害,做好防灾预案和预警报工作,最大程度地减轻泥石流灾害. 相似文献
5.
沟谷网络是黄土高原流域地貌的重要侵蚀产沙区和最主要的产沙运移通道,深入了解沟谷网络的形成过程和演化特征,对黄土高原小流域的水土保持综合治理、生态恢复和流域地貌演化过程研究具有重要意义.然而,流域内部沟谷网络的发育演化过程与整个流域地貌演化过程的相互作用机制尚未得到有效揭示.该文基于室内人工降雨试验条件下获取的9期人工模拟黄土小流域DEM数据,提出一种表征流域地貌系统内部沟谷网络演化有序程度的方法,并利用小流域地貌系统的势能信息熵及其熵变规律对沟谷网络演化过程及其变化特征进行研究.结果表明:在该实验条件下,以侵蚀为主的均质黄土小流域在地貌发育的幼年期,势能信息熵呈不断减小态势,沟谷网络有序性不断增强,在幼年期末达到最高;进入壮年期后,势能信息熵呈缓慢增加态势,沟谷网络有序性受到一定程度破坏,演化特征与该系统势能信息熵的熵变特征及流域地貌侵蚀发育阶段高度一致,流域地貌的势能信息熵和沟谷网络有序演化特征能有效指示流域地貌的侵蚀发育阶段. 相似文献
6.
黄土高原流域地貌系统的地貌演化特征十分复杂,尚有诸多科学问题有待进一步深入研究。以往研究大多集中在流域地貌演化的侵蚀和发育特征等某一方面,缺乏从流域地貌系统及其势能信息熵的视角深入剖析野外多岩土层黄土小流域地貌演化特征的研究。为此,基于系统论的观点和方法,构建多岩土层黄土小流域地貌系统及其势能信息熵的数学模型,并以辛店沟小流域为例,对其地貌演化特征进行研究。结果表明:(1)构建的野外多岩土层黄土小流域地貌系统的概念模型及其势能信息熵的数学模型能够有效对辛店沟小流域进行数值模拟。(2)以黄土侵蚀作用为主的辛店沟小流域从2000—2019年的地貌演化过程是其势能信息熵的熵减过程和黄土地貌不断侵蚀的过程。(3)辛店沟小流域的势能信息熵能较好地反映该小流域的地貌演化阶段和地貌侵蚀过程。 相似文献
7.
树木年代学在高寒山区泥石流历史事件重建中的应用——以磨西河流域倒灶沟为例 总被引:1,自引:0,他引:1
如何确定人类历史活动稀少、植被覆盖率较高的高寒山区泥石流历史活动次数及时间较为困难。树木年代学分析方法可通过树木年轮生长变化对泥石流活动的响应特征,重建过去一定时间内的泥石流历史活动事件。通过对我国四川省境内贡嘎山东坡磨西河流域内倒灶沟泥石流堆积扇上140个桤木的树木年轮样本取样及树木年代学分析,重建了该沟在过去20 a间的2次较大规模泥石流活动事件(分别为1996年和2005年)和5次小规模洪水(或泥石流)事件。研究结果表明,在过去20 a间,倒灶沟大规模泥石流每隔约10 a便会发生一次,而小规模的泥石流或洪水则每隔2~3 a便会发生一次。同时,研究还发现,磨西河流域内泥石流堆积扇上有利于类似桤木生长特征的树种生长(最大树木年轮可达1.4 cm),为该地区泥石流生物防治工程中优势树种的选择提供了科学依据。 相似文献
8.
沟道流域坡面与沟谷侵蚀演化关系——以晋西王家沟小流域为例 总被引:9,自引:3,他引:6
以往坡、沟侵蚀关系研究主要限于水沙关系的探讨 ,有关原型尺度小流域坡、沟地貌侵蚀演化关系的定量研究甚少 ,尤其是坡、沟地貌特征对流域切割程度的综合影响与交互作用的定量研究尚属空白。本文在 3S技术支持下 ,根据晋西王家沟小流域 196 7年 1∶5 0 0 0正摄影像图 (DOM )、高程数字化模型 (DEM )和同期、同比例尺地形图 ,利用正交多项式回归分析方法 ,定量分析了坡、沟地貌特征对流域切割程度的影响与交互作用。研究表明 ,沟谷地在流域地貌演化及地表切割程度中起主导作用 ,在沟间地面积相同时 ,沟谷地面积约为0 1km2 是影响流域切割裂度侵蚀演化强度最大的区域 ,流域面积愈小影响流域地表破碎的程度最大。其沟道流域坡、沟地貌演化机制可用坡、沟水流动能的地貌指标的综合影响与交互作用来解释 相似文献
9.
金沙江下游云南小江流域山地灾害综合区划 总被引:1,自引:0,他引:1
在分别完成云南小江流域泥石流危险度区划、滑坡危险度区划和土壤侵蚀强度分区的基础上,对小江流域山地灾害进行综合区划。结果为,共分为三个不同等级的山地灾害综合区:(1)一级(高危险度)山地灾害综合区,(2)二级(次高危险度)山地灾害综合区和(3)四级(低危险度)山地灾害综合区;无三级(中危险度)山地灾害综合区。其中一级(高危险度)区面积1 425.34 km2,有泥石流沟84条,占区划区域泥石流沟总数的60.0%,有滑坡137个,占区划区域滑坡总数的77.4%,土壤侵蚀强度以轻、中度为主;二级(次高危险度)区面积756.79 km2,有泥石流沟35条,占区划区域泥石流沟总数的25.0%,有滑坡34个,占区划区域滑坡总数的19.2%,土壤侵蚀以轻、中度为主;四级(低危险度)区面积863.20 km2,有泥石流沟21条,占区划区域泥石流沟总数的15.0%,有滑坡6个,占区划区域滑坡总数的3.4%,土壤侵蚀以轻度为主。 相似文献
10.
将泥沙输移能力公式与USLE公式相结合,建立了一个简化的分布式小流域产沙模型,并将其应用于川中丘陵区小流域的土壤侵蚀与泥沙输移的空间分布模拟。得到的主要结论:1.该模型适用于川中丘陵区小流域产沙的模拟;2.魏城河流域1980—1987年8 a平均土壤侵蚀量为16.8×104t,侵蚀模数为675.8 t/(km2.a),模拟得到的输沙模数为238.6 t/(km2.a),泥沙输移比为0.35;3.魏城河流域主要以微度侵蚀为主,占到全流域总面积的68%,强度侵蚀占流域面积的1%,主要分布在坡度较陡的流域边缘地带;4.相对其他因子,降雨与坡度对该流域侵蚀产沙的影响更为突出。 相似文献
11.
小江流域泥石流堆积扇形成的制约因素及其特征 总被引:6,自引:3,他引:3
在系统分析了各种因素对泥石流堆积扇形成影响的基础上,提出流域腹地中流域面积、沟床比降和堆积区主河河谷宽度及主河能量等因素对泥石流堆积扇发育的影响较大。结合TM卫星影象和1:5万地形图,解译了小江流域内泥石流堆积扇的范围。在此基础上,统计了流域腹地内两大重要条件-流域面积和沟床比降与堆积扇面积之间的关系。在小江流域,堆积扇的面积随流域面积的增加而增加,二者之间是正的指数关系;而堆积扇面积与沟床比降之间可用一个负的指数关系式表达。最后,堆积区特征对小江流域泥石流堆积扇的影响主要是其堆积空间限制了大型堆积扇,比如蒋家沟泥石流堆积扇的发展。 相似文献
12.
Fes De Scally Olav Slaymaker & Ian Owens 《Geografiska Annaler: Series A, Physical Geography》2001,83(3):117-130
Morphometric variables associated with 36 debris torrent, 78 snow avalanche, 45 composite debris torrent and snow avalanche and 14 streamflow basins in the Cascade Mountains of southwestern British Columbia, Canada are examined. The results show significant statistical differences in top and bottom elevations, relief, channel length and gradient, basin area, fan gradient and area, and basin ruggedness between snow avalanche basins and the two basin types affected by debris torrents, reflecting the very different nature of these processes. Only top and bottom elevations and fan area differ significantly between debris torrent and debris torrent-snow avalanche basins, implying that the latter are probably debris torrent basins in origin. As many as six morphometric variables are significantly different between streamflow basins and the other basin types, allowing the former to be differentiated despite their small, steep character. Discriminant analysis indicates that bottom elevation and channel or path gradient are the best variables for classifying the four basin types by process. Generally strong correlations exist between basin area on the one hand and relief, channel length and channel gradient on the other in debris torrent, debris torrent-snow avalanche, and streamflow basins. Fan gradient and area are, however, weakly or modestly correlated with basin area or ruggedness. No such morphometric relations are present in snow avalanche basins. The results of this study also indicate that in debris torrent-prone basins the fan gradient and Melton's R have identifiable lower thresholds while basin area has an upper threshold, but use of these thresholds for identification of debris torrent hazard is complicated by overlapping thresholds for streamflow basins. 相似文献
13.
以兰州市区96条主要的泥石流沟为例,利用分形理论的统计自相似性对泥石流沟数的累计分布随沟谷形态要素沟道比降、汇水面积和沟道长度的变化进行了分析;并与不同流域形态要素的分维进行了比较,探讨了分维不同的原因。兰州市区泥石流沟三个形态要素均具有统计意义上的自相似性,其中以汇水面积显示出分维最小(0.46),沟道长度次之(0.71),沟道比降最大(1.09)。分维的大小描述了作为系统的沟谷及其泥石流的形成的空间结构,即分形结构,同时也反映了不同形态要素对系统所起作用的差异,分维越小,所起作用越显著。其结果对西北干旱半干旱地区石流灾害的进一步研究与防治提供了新的思路。 相似文献
14.
15.
侯马盆地冲积扇及其流域地貌发育规律 总被引:4,自引:0,他引:4
根据从DEM数据中提取的侯马盆地冲积扇及其流域的多项地貌指标,分析了各地貌指标的空间分布规律,并通过地貌指标的空间分布曲线与山前地形高程曲线形态的对比以及地貌指标相关性分析来揭示冲积扇及其流域地貌的发育规律。结果表明,在侯马盆地相对隆起部位的冲积扇及其流域的地貌指标与在盆地凹陷部位的冲积扇及其流域的地貌指标有较大差异;流域地貌指标的空间分布受到盆地边界断层构造活动性的影响;冲积扇的发育主要受到流域规模、山前构造活动以及盆地基准面等多种因素共同的影响;流域内岩性的差异不是造成研究区域内冲积扇地貌差异的主要因素。 相似文献
16.
17.
18.
The morphometric and stratigraphic framework for estimates of debris flow incidence in the North Cascades foothills, Washington State, USA 总被引:1,自引:0,他引:1
Active debris flow fans in the North Cascade Foothills of Washington State constitute a natural hazard of importance to land managers, private property owners and personal security. In the absence of measurements of the sediment fluxes involved in debris flow events, a morphological-evolutionary systems approach, emphasizing stratigraphy, dating, fan morphology and debris flow basin morphometry, was used. Using the stratigraphic framework and 47 radiocarbon dates, frequency of occurrence and relative magnitudes of debris flow events have been estimated for three spatial scales of debris flow systems: the within-fan site scale (84 observations); the fan meso-scale (six observations) and the lumped fan, regional or macro-scale (one fan average and adjacent lake sediments). In order to characterize the morphometric framework, plots of basin area v. fan area, basin area v. fan gradient and the Melton ruggedness number v. fan gradient for the 12 debris flow basins were compared with those documented for semi-arid and paraglacial fans. Basin area to fan area ratios were generally consistent with the estimated level of debris flow activity during the Holocene as reported below. Terrain analysis of three of the most active debris flow basins revealed the variety of modes of slope failure and sediment production in the region.Micro-scale debris flow event systems indicated a range of recurrence intervals for large debris flows from 106−3645 years. The spatial variation of these rates across the fans was generally consistent with previously mapped hazard zones. At the fan meso-scale, the range of recurrence intervals for large debris flows was 273−1566 years and at the regional scale, the estimated recurrence interval of large debris flows was 874 years (with undetermined error bands) during the past 7290 years. Dated lake sediments from the adjacent Lake Whatcom gave recurrence intervals for large sediment producing events ranging from 481−557 years over the past 3900 years and clearly discernible sedimentation events in the lacustrine sediments had a recurrence interval of 67−78 years over that same period. 相似文献
19.
Relief-rejuvenation and topographic length scales in a fluvial drainage basin, Napf area, Central Switzerland 总被引:2,自引:2,他引:2
This paper explores how, and to what extent, a phase of relief-rejuvenation modifies the mode of surface erosion in an approximately 63 km2 drainage basin located at the northern border of the Swiss Alps (Luzern area). In the study area, the retreat of the Alpine glaciers at the end of the Last Glacial Maximum (LGM) caused base level to lower by approximately 80 m. The fluvial system adapted to the lowered base level by headward erosion. This is indicated by knickzones in the longitudinal stream profiles and by the continuous upstream narrowing of the width of the valley floor towards these knickzones. In the headwaters above these knickzones, processes are still to a significant extent controlled by the higher base level of the LGM. There, frequent exposure of bedrock in channels and especially on hillslopes implies that sediment flux is to a large extent limited by weathering rates. In the knickzones, however, exposure of bedrock in channels implies that sediment flux is supply-limited, and that erosion rates are controlled by stream power.The morphometric analysis reveals the existence of length scales in the topography that result from distinct geomorphic processes. Along the tributaries where the upstream sizes of the drainage basins exceed 100,000–200,000 m2, the mode of sediment transport and erosion changes from predominantly hillslope processes (i.e., landsliding, creep of regolith, rock avalanches and to some extent debris flows) to processes in channels (fluvial processes and debris flows). This length scale reflects the minimum size of the contributing area for channelized processes to take over in the geomorphic development (i.e., threshold size of drainage basin). This threshold size depends on the ratio between production rates of sediment on hillslopes, and export rates of sediment by processes in channels. Consequently, in the headwaters, erosion rates and sediment flux, and hence landscape evolution rates, are to a large extent limited by weathering processes. In contrast, in the lower portion of the drainage basin that adjusts to the lowered base-level, rates of channelized erosion and relief formation are controlled mainly by stream power. Hence, this paper shows that base-level lowering, headward erosion and establishment of knickzones separate drainage basins in two segments with different controls on rates of surface erosion, sediment flux and relief formation. 相似文献
20.
The Nanga Parbat Himalaya presents some of the greatest relief on Earth, yet sediment production and denudation rates have only been sporadically addressed. We utilized field measurements and computer models to estimate bank full discharge, sediment transport, and denudation rates for the Raikot and Buldar drainage basins (north slope of Nanga Parbat) and the upper reach of the Rupal drainage basin (south slope).The overall tasks of determining stream flow conditions in such a dynamic geomorphic setting is challenging. No gage data exist for these drainage basins, and the overall character of the drainage basins (high relief, steep flow gradients, and turbulent flow conditions) does not lend itself to either ready access or complete profiling.Cross-sectional profiles were surveyed through selected reaches of these drainage basins. These data were then incorporated into software (WinXSPRO) that aids in the characterization (stage, discharge, velocity, and shear stress) of high altitude, steep mountain stream conditions.Complete field measurements of channel depths were rarely possible (except at several bridges where the middle of the channel could actually be straddled and probed) and, when coupled with velocity measurements, provided discrete points of field-measured discharge calculations. These points were then used to calibrate WinXSPRO results for the same reach and provided a confidence level for computer-generated results.Flow calculations suggest that under near bank full conditions, the upper Raikot drainage basin produces discharges of 61 cm and moves about 11,000 tons day−1 (9980 tons day−1) of sediment through its channel. Bank full conditions on the upper portion of the Rupal drainage basin generate discharges of 84 cm and moves only about 3800 tons day−1 (3450 tons day−1) of sediment. Although the upper Rupal drainage basin moves more water, the lower slope of the drainage basin (0.03) generates a much smaller shear stress (461 Pa) than does the higher slope (0.12) of the upper Raikot drainage basin (1925 Pa).Dissolved and suspended sediment loads were measured from water/sediment samples collected throughout the day and night over a period of 10 days at the height of the summer melt season but proved to be a minor variable in transport flux. Channel bed loads were measured using a pebble count method of bank material and then used to generate ratings curves of bed loads relative to discharge volumes. When coupled with discharge data and basin area, mean annual sediment yield and denudation rates for Nanga Parbat are produced. Denudation rates calculated in this fashion range from 0.2 mm year−1 in the slower, more sluggish Rupal drainage basin to almost 6 mm year−1 in the steeper, faster flowing Raikot and Buldar drainage basins. 相似文献