共查询到17条相似文献,搜索用时 125 毫秒
1.
以他念他翁山玉曲流域为研究区,利用ArcGIS中的水文分析工具,将玉曲流域划分为1 030个亚流域盆地,采用高程起伏比法,对亚流域盆地进行面积?高程积分值(HI)计算。结合研究区的构造运动、岩性、地形起伏度、冰川作用等,探讨HI值的分布特征及主要影响因素,并确定研究区的地貌演化阶段。研究结果显示:① 玉曲流域所有亚流域盆地的HI值介于0.18~0.70,HI平均值为0.44,整体处于侵蚀循环的壮年和老年阶段。② 长毛岭大断层和瓦合大断裂经过玉曲流域,2条断裂的HI平均值分别为0.47和0.42,长毛岭大断层的活动性要高于瓦合大断裂,说明构造因素对HI值存在一定影响。③ 由于不同亚流域盆地内岩性抗侵蚀能力不同,导致HI值存在着较大差异,花岗岩、闪长岩等侵入岩(平均值0.55)>砾岩、灰岩等沉积岩(平均值0.49)>海相碳酸盐岩(平均值0.47)>夹杂着粉砂岩、页岩和泥岩的长石石英砂岩(平均值0.42)>第四系冲积物和冰碛物(平均值0.35)。④ 对于玉曲流域而言降水量对HI值的影响较小。 相似文献
2.
面积高程积分值(HI)作为揭示区域构造相对活动性的指标,在地貌学中得到了广泛的应用。传统的研究多以流域作为载体分析HI值的特性,然而HI值是否受流域大小及形状的影响存在争议。以白龙江流域作为试验区,利用ASTER 30 m及SRTM 90 mDEM数据,基于不同大小的分析窗口分别计算了流域的HI值。研究表明:1.原始HI值没有明显的空间分布格局,受分析窗口空间分布位置、DEM分辨率、岩性差异的影响不大,但是受分析窗口大小的影响较大,存在尺度依赖。2.对原始HI值进行空间自相关分析后HI值表现出强的空间自相关性,且"热点分析"表明HI值高值聚集区分布在白龙江中上游,与地壳隆升强烈及断裂活跃的作用相关,低值聚集区分布在白龙江下游及一些河谷中。研究表明,空间自相关分析的应用,能够使基于分析窗口提取的HI值呈现出更多的构造意义。 相似文献
3.
基于DEM黄土丘陵沟壑区不同尺度流域地貌现状及侵蚀产沙趋势 总被引:1,自引:0,他引:1
基于流域DEM对各个集水区进行划分,提取流域沟壑长度、平均高程、平均坡度等信息,并运用EXCEL、SPSS对这些信息进行分析处理,计算出沟壑密度、流域相对高程、面积-高程积分值,并结合流域侵蚀产沙数据以及实地考察情况,借助地貌学的相关理论,分析流域不同区域内、不同尺度流域地貌发育及侵蚀产沙情况.研究发现,流域左右两岸支流的发育数目、形状受邻近流域的影响;面积-高程积分值的大小能反应流域的地貌现状与侵蚀趋势,蛇家沟与岔巴沟的面积-高程积分值分别为0.547 5、0.463 7,但面积-高程积分值的大小及变化趋势还与流域最低点是否达到基岩有关;沟壑发育分为长度发育与宽度发育两个阶段,沟壑密度只是衡量地貌的一个重要指标,沟壑密度对流域侵蚀产沙的影响与沟壑的发育阶段有关;一般情况下产沙模数的大小与流域面积大小没有直接的关系,主要看流域内的地貌的发育阶段. 相似文献
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5.
黄土高原面积-高程分析及其侵蚀地貌学意义 总被引:2,自引:0,他引:2
黄土高原是中国乃至世界最为著名的水土流失区之一,黄河的泥沙主要来源于此.面积-高程积分(Hypsometric integral,HI)分析常被用于侵蚀地貌区的地貌发育阶段判定.通过探讨HI与DEM分辨率、分析窗口之间的尺度效应,分析了黄土高原HI空间格局和发育阶段性,并在此基础上揭示了侵蚀产沙和地貌发育关系.研究表明:利用不同分辨率DEM计算的HI具有很好的稳定性,HI对DEM分辨率不具有依赖性;然而,利用不同分辨率的分析窗口所计算的黄土高原原HI值,表现出随着分析窗口的增大,HI表现出按照乘幂函数关系下降的趋势.黄土高原HI具有显著的空间分异特征,即汾渭谷地、宁夏内蒙沿黄冲积平原等地堑凹陷区是HI低值区,而黄土丘陵沟壑区是HI的高值区;黄土高原丘陵沟壑区地貌发育处于幼年期、壮年期和老年期的面积分别占总面积的7.9%、83.4%和8.7%,整体来看处于地貌发育壮年期;黄土高原丘陵沟壑区侵蚀产沙强度和地貌发育过程关系密切,HI与输沙模数存在显著的正相关.当前,黄土高原强烈的侵蚀产沙是其地貌发育处于壮年期的自然表现,这将是一个非常漫长的自然过程. 相似文献
6.
基于DEM的黄土高原面积高程积分研究 总被引:5,自引:1,他引:4
面积高程积分(Hypsometric Integral,HI)是通过统计流域地表的高程组合信息,从而揭示流域地貌形态与发育特征的重要指标。本文以1:10000比例尺5 m分辨率DEM数据分析流域面积高程积分计算时的影响因素,以SRTM数字高程模型数据为基本信息源,研究黄土高原重点水土流失区的面积高程积分空间分异特征。研究工作首先讨论并总结了面积高程积分的地学含义,明确了DEM分辨率以及分析面积对于面积高程积分计算的影响,并分析各地貌对象面积高程积分的相关性;然后,面向黄土高原重点水土流失区,采用面向多尺度分割的方法,基于小流域面积高程积分,实现了黄土高原重点水土流失区地貌分区。研究结果表明,DEM分辨率对于小流域面积高程积分计算影响较小,当小流域面积阈值达到10 km2时,面积高程积分趋于稳定;各地貌对象中,流域面—正地形—沟沿线、山顶点—山脊线—流域边界这两组组内面积高程积分值相关性非常强;基于面积高程积分的地貌分区,与黄土高原地区水土流失分区图和输沙模数分区图具有相当程度的耦合关系,并细化了原有分区结果。 相似文献
7.
陕北洛河流域地貌演化阶段的定量分析 总被引:1,自引:0,他引:1
根据洛河流域地貌南北纵向区域分布规律,并参考张宗祜先生(1986)编制的"中国黄土高原地貌类型图",将洛河流域由南至北依次划分为洛川黄土塬区、甘泉一志丹黄土梁状(为主)丘陵沟壑区及吴起黄土峁状(为主)丘陵沟壑区3个地貌区。借助于GIS的空间分析功能,对洛河流域3种不同地貌绘制了Strahler曲线,采用高程积分法、信息熵法、侵蚀积分值法进行计算。结果表明:3种地貌区均属于壮年期地貌发育数量特征值范围,说明洛河流域总体的发育状态已经开始进入壮年期,但不同地貌分区的发育阶段不尽相同;洛河流域不同地貌的面积-高程积分曲线的S值大小排列顺序为:吴起黄土峁状(为主)丘陵沟壑区< 洛川黄土塬区< 甘泉一志丹黄土梁状(为主)丘陵沟壑区,与理论情况不相符。分析认为,这可能是由于近年来洛川黄土塬区侵蚀强度增加对洛川黄土塬区的地貌发育产生了一定的影响。 相似文献
8.
晚新生代以来,青藏高原北东向扩展,致使祁连山地区遭受了强烈的构造隆升,造就了祁连山地区复杂的构造格局和急剧变化的构造地貌,其典型水系流域地貌特征揭示了该地区的新构造活动和地貌演化过程。庄浪河流域位于祁连山东段,作为青藏高原北东向扩展的前缘地区,庄浪河流域的地貌参数对构造活动非常敏感,提取庄浪河流域的地貌信息,有助于揭示祁连山东段庄浪河流域地貌对构造活动的响应,及系统探讨该区地貌发育特征及其所蕴含的构造意义。庄浪河流域内及边缘发育有庄浪河断裂、天祝盆地南缘断裂、疙瘩沟隐伏断裂以及金强河-毛毛山-老虎山断裂。晚新生代以来,这些断裂仍在活动,并且控制着流域内的构造变形、山体隆升和河流水系地貌发育。本研究采用ALOS DEM 12.5 m数据,基于ArcGIS空间分析技术,通过高程条带剖面、河流坡降指标体系(K,SL,SL/K)和Hack剖面、面积-高程积分值(HI)和积分曲线(HC)等方法,对庄浪河流域地貌特征进行了初步分析。结果表明,庄浪河地区地形起伏由北西向南东递减,构造活动存在东西分异的规律;庄浪河流域内部K值、SL、SL/K、HI值西侧高于东侧,Hack剖面西侧相比东侧上凸更明显;H... 相似文献
9.
面积高度积分的面积依赖与空间分布特征 总被引:2,自引:0,他引:2
面积高度积分作为揭示区域构造相对活动性的指标,其面积依赖和空间分布两大特性会影响到它对构造活动的解释。以北天山10条河流流域作为研究区域,研究表明,在不同集流面积阈值下,天山北麓流域次集水盆地的平均面积高度积分与平均面积、平均高差都具有负相关关系。受北天山褶皱逆断裂构造带的影响,流域面积高度积分值的分布与构造带走向相一致,上游山地型次集水盆地面积高度积分值大于中游山麓丘陵型次集水盆地面积高度积分,揭示了面积高度积分存在空间分布依赖的特性。在大小不同观测尺度下,构造活动和基岩岩性差异对面积高度积分有着不同的影响。在玛纳斯河流域中,以不同集流阈值提取的不同面积大小的次集水盆地与各年代地层以及活动构造做GIS叠加分析,可以发现当集流阈值小于9km2时,面积高度积分值受到岩性与构造的双重影响,而当集流阈值大于20km2时,面积高度积分值主要反映构造活动的影响。 相似文献
10.
贺兰山水系流域数值地貌特征及其构造指示意义 总被引:1,自引:1,他引:0
基于Arcgis9.3与ASTER GDEM数据,提取了贺兰山两侧主要水系及其流域边界,根据河流及流域指标提取河流纵剖面、流域的Strahler曲线,并计算其面积高度积分值(Hypsometric Intergral)、河流纵剖面的凹度值(Concavity)。通过HI值、凹度值同河流落差、河流长度、流域面积之间相关性分析发现,后3种地貌参数与HI值、凹度值间的相关性较差。对比分析贺兰山两侧河流HI值及凹度值发现:贺兰山东侧北段活动性大于南段,西侧构造活动性分布规律不明显。结合9条河流所处流域的Strahler曲线、河流纵剖面形态和HI值、凹度值分析发现:汝箕沟及其以北贺兰山地区处于地形演化的老年期,汝箕沟以南贺兰山段处于均衡调整的壮年期。 相似文献
11.
Hypsometric Analysis of Headwater Rock Basins in the Dolomites (Eastern Alps) Using High‐Resolution Topography 
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下载免费PDF全文 Lorenzo Marchi Marco Cavalli Sebastiano Trevisani 《Geografiska Annaler: Series A, Physical Geography》2015,97(2):317-335
Hypsometric curves and integrals are effective tools for rapid quantitative assessments of topography. High‐resolution digital terrain models derived from airborne LiDAR data have been analysed to study the hypsometry of small headwater rock basins (drainage areas up to 0.13 km2) in three study areas in the Dolomites (Eastern Alps) that have similar lithologies and climatic conditions. Hypsometric curves in the studied rocky headwaters display a variety of shapes and present remarkable differences between neighbouring basins. Hypsometric integrals show generally high values in the three study areas (>0.42, mean values between 0.51 and 0.65). The extent of the scree slopes located at the foot of rock basins in the three study areas is larger in the area with lower hypsometric integrals and indicates consistency between the development of basin erosion, which is shown by the hypsometric integral, and debris yield, represented by the extent of scree slope. No clear relations were observed between the hypsometric integrals and basin area and shape. When extending the analysis to larger basins, which encompass rocky headwaters and downslope soil‐mantled slopes, a negative correlation is found between the hypsometric integral and catchment area, suggesting that the scale independency of the hypsometric integral occurs essentially in headwater rock basins. Geomorphometric indices (residual relief and surface roughness) have contributed to interpreting the variability of surface morphology, which is related to the geo‐structural complexity of the catchments. 相似文献
12.
Threshold is a limit and marginal point when a qualitative change takes place. Since threshold principle was firstly used
in landform research by S.A.Schumm in the 1970s, the quantitative research on watershed landform development stage has come
true. Davis proposed a three-stage model on landform evolution: young, mature and old stages. Thereafter Strahler quantified
this model by hypsometric analysis method. The authors thought that the material movement stage cannot be expressed by hypsometric
method in watershed landform at development stage, because of the uncertainty on stage delimitation. To meet this shortcoming,
this paper presents an integral erosion value method. A clear delimitation on landform development stage in the Loess Plateau
region has been tested by this method. The result shows that gullied loessial hilly area is at the mature stage, and gullied
loessial tableland area is at the young stage. It is estimated that from the point of erosion related sediment yield, natural
erosion accounts for 70% of the total erosion amount, and artificial accelerating erosion is 30%. Therefore soil and water
conservation is very crucial for the Loess Plateau. 相似文献
13.
Threshold is a limit and marginal point when a qualitative change takes place.Since threshold principle was firstly used in landform research by S.A.Schumm in the 1970s,the quantitative research on watershed landform development stage has come true.Davis proposed a three-stage model on landform evolution:young ,mature and old stages.Thereafter Stahler quantified this model by hypsometric analysis method.The authors thought that the material movement stage cannot be expressed by hypsometric method in watershed landform at development stage,because of the uncertainty on stage delimitaion.To meet this shortcoming,this paper presents an integral erosion value method.A clear delimitation on landform development stage in the Loess Plateau region has been tested by this method.The result shows that gullied loessial hilly area is at the mature stage,and gullied loessial tableland area is at the young stage.It is estimated that from the point of erosion related sediment yield,natural erosion accounts for 70% of the total erosion amount,and artificial accelerating erosion is 30%.Therefore soil and water conservation is very crucial for the Loess Plateau. 相似文献
14.
Lydia A. Olaka Eric O. Odada Martin H. Trauth Daniel O. Olago 《Journal of Paleolimnology》2010,44(2):629-644
Sequences of paleo-shorelines and the deposits of rift lakes are used to reconstruct past climate changes in East Africa.
These recorders of hydrological changes in the Rift Valley indicate extreme lake-level variations on the order of tens to
hundreds of meters during the last 20,000 years. Lake-balance and climate modeling results, on the other hand, suggest relatively
moderate changes in the precipitation-evaporation balance during that time interval. What could cause such a disparity? We
investigated the physical characteristics and hydrology of lake basins to resolve this difference. Nine closed-basin lakes,
Ziway-Shalla, Awassa, Turkana, Suguta, Baringo-Bogoria, Nakuru-Elmenteita, Naivasha, Magadi-Natron, Manyara, and open-basin
Lake Victoria in the eastern branch of the East African Rift System (EARS) were used for this study. We created a classification
scheme of lake response to climate based on empirical measures of topography (hypsometric integral) and climate (aridity index).
With reference to early Holocene lake levels, we found that lakes in the crest of the Ethiopian and Kenyan domes were most
sensitive to recording regional climatic shifts. Their hypsometric values fall between 0.23–0.29, in a graben-shaped basin,
and their aridity index is above unity (humid). Of the ten lakes, three lakes in the EARS are sensitive lakes: Naivasha (HI
= 0.23, AI = 1.20) in the Kenya Rift, Awassa (HI = 0.23, AI = 1.03) and Ziway-Shalla (HI = 0.23, AI = 1.33) in the Main Ethiopian
Rift (Main Ethiopian Rift). Two lakes have the graben shape, but lower aridity indices, and thus Lakes Suguta (HI = 0.29,
AI = 0.43) and Nakuru-Elmenteita (HI = 0.30, AI = 0.85) are most sensitive to local climate changes. Though relatively shallow
and slightly alkaline today, they fluctuated by four to ten times the modern water depth during the last 20,000 years. Five
of the study lakes are pan-shaped and experienced lower magnitudes of lake level change during the same time period. Understanding
the sensitivity of these lakes is critical in establishing the timing or synchronicity of regional-scale events or trends
and predicting future hydrological variations in the wake of global climate changes. 相似文献
15.
Changes in the hypsometric curve through mountain building resulting from concurrent tectonics and denudation 总被引:1,自引:0,他引:1
Hiroo Ohmori 《Geomorphology》1993,8(4)
The stages of geomorphic development of mountains have sometimes been explained based on Strahler's diagram of hypsometric curves. Although the Japanese mountains are young, they do not follow his diagram. Hypsometric curves, simulated using empirical laws deduced from the Japanese mountains, indicate that mountain building resulting from concurrent tectonics and denudation does not produce convex curves but concave and/or s-shaped curves. The hypsometric curve of a mountain changes from a concave curve to an s-shaped curve in accordance with the increase in mountain altitude. The succession of the hypsometric curve during concurrent tectonics and denudation is the reverse of Strahler's diagram. The hypsometric integral increases with the advance in stage which is evaluated based on the change in mountain altitude. It has a relatively good correlation with the stage. However, the sequence of change in the hypsometric integral is different according to the extent of the terrain examined, whether the terrain is restricted to the interior of a mountain or pertains to the whole mountain, and whether it includes newly emerged land. The stage should be evaluated based on the course of change in the integral characteristics for the extent of the mountain examined. 相似文献
16.
基于Strahler面积—高程分析的云南石林县域喀斯特地貌演化的量化研究 总被引:5,自引:0,他引:5
基于异质性喀斯特地貌结构与喀斯特保护地整体保护利用的关系,将水平蚀低垂直加深的喀斯特地貌发育机制落实于地理信息系统支持的Strahler面积—高程分析,形成整体、海拔段和内部洼地的面积—高程曲线与积分值指标组,以量化石林县域喀斯特地貌演化。结果表明不同地貌发育特征的不同地形面具有不同的Strahler值,其差异和规律性有一定的指示价值。石林县四级海拔梯级地貌处于壮年晚期,为断裂切割与巴江侵蚀基准面差异性控制下的孤丘夷平面分解,属同期异构的回春型地貌区。> 2100 m海拔段为孤丘夷平构造侵蚀溶原中山,洼地不发育。1900~2100 m海拔段为孤丘夷平面转向孤丘溶原洼地、峰丛洼地,暗河不发育。1700~1900 m海拔段为溶丘洼地斜坡,由蚀余状石林—剑状石林—覆盖石林—烘烤石林组成的石林垂直层状结构与溶丘—洼地—暗河—泉群—河谷盆地组成的水平梯级地貌结构,它是水平与垂直地貌过程的融合产物。石林发育区既为水源形成区,也为水土流失区。这是石林保护地整体保护利用的地貌动力依据。 相似文献