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1.
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
2.
陕北黄土高原水蚀沟谷多维度侵蚀特征量化研究 总被引:1,自引:0,他引:1
沟谷地是黄土高原地貌形态特征变化最明显的区域,其发育对整个黄土高原地貌发育具有重要的控制性作用。论文基于5 m分辨率的DEM数据,在陕北黄土高原遴选包含15种地貌类型的42个样区,以沟谷密度、水平逼近度与切割深度作为纵向、横向与垂向3个维度的代表因子,分析了沟谷的多维发育进程、特征、空间分异及影响因素。研究结果显示:陕北黄土高原南北方向上沟谷发育呈现由溯源侵蚀主导转向横向溯源侵蚀主导、溯源下切侵蚀主导到横向溯源侵蚀主导,54.8%的样区各维度对整体发育进程的影响程度相近,且86.4%处于陕北黄土高原中部地区,即中部地区多维度发育均衡,南北两端以溯源侵蚀与横向侵蚀为主。结合面积—高程积分分析发现沟谷发育可划分为3个阶段:发育初期以溯源侵蚀为主,带动下切侵蚀伴有横向侵蚀;发育中期以溯源侵蚀为主,伴有持续性横向侵蚀与较强下切侵蚀;发育晚期以横向侵蚀为主,伴有一定程度的溯源侵蚀与轻微下切侵蚀。黄土厚度对沟谷系统垂向下切侵蚀的影响最大(Cv=0.164),土地利用类型对沟谷系统横向侵蚀的影响较大(Cv=0.0681),林地对于维护各个维度的抗侵蚀能力最强,生长茂密的草地和灌木林及作物次之,生长稀疏的牧草和作物较差。 相似文献
3.
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
4.
顾及地貌结构特征的黄土沟头提取及分析 总被引:4,自引:0,他引:4
沟头是黄土地貌中发育最活跃的地貌部位,沟头的个体与群体对黄土沟间地的蚕食,成为监测黄土高原地面侵蚀演化的重要标识。有效获取并分析沟头的空间分布特征,对于系统、深入地研究黄土地貌的空间形态结构具有重要的意义。以陕北黄土高原典型地貌类型区为实验样区,设计并实现了基于5 m分辨率DEM的沟头提取算法,获取了各实验样区的沟头空间信息;运用点格局分析方法,分析了沟头的空间分布特征。实验结果显示,所提出顾及沟沿线的沟头自动提取方法,具有较好的合理性与精确性;同时,从黄土塬区、黄土残塬区到黄土丘陵沟壑区,随着沟壑发育程度的增强,沟头逐步逼近分水线,其空间分布呈现“远分水线聚集—随机—近分水线聚集”的变化格局。 相似文献
5.
黄土高原侵蚀期研究 总被引:22,自引:12,他引:10
黄土高原在沉积的同时也存在着侵蚀,主要是流水、重力等因素造成的。这种侵蚀会受到气候、构造运动以及人类活动控制。资料显示,黄土高原存在3种基本的侵蚀期,一是气候侵蚀期,二是构造侵蚀期,三是人为因素侵蚀期。此外还有气候与构造共同作用产生的侵蚀期和构造与人类共同作用产生的侵蚀期。温湿期风尘堆积少,降水量增多,流水动力增强,是黄土高原理论上的侵蚀期。构造抬升引起侵蚀基准面下降,进而导致黄土高原加快侵蚀,出现构造侵蚀期。人类活动破坏了黄土高原的植被和土层结构,导致黄土高原侵蚀加剧,从而出现了人类因素引起的现代侵蚀加速期。在黄土发育的冷干期,由于植被稀疏,侵蚀量大于温湿期,但堆积量远大于侵蚀量。要改变现代侵蚀状况,就应当加强黄土高原生态环境治理。 相似文献
6.
In China's Loess Plateau severe gully erosion(LPGE)region,the shoulder-line is the most intuitive and unique manifestation of the loess landform,which divides a landform into positive and negative terrains(PNTs).The spatial combination model of PNTs is of great significance for revealing the evolution of the loess landform.This study modeled and pro-posed the Surface Nibble Degree(SND),which is a new index that reflects the comparison of the areas of PNTs.Based on 5 m DEMs and matched high-resolution remote sensing images,the PNTs of 164 complete watersheds in the LPGE were extracted accurately,and the SND index was calculated.The spatial distribution trend of SND was discussed,and the relation-ship between SND and the factors that affect the evolution mechanism of regional landform was explored further.Results show that:(1)The SND can be calculated formally.It can quantify the development of the loess landform well.(2)The SND of the LPGE has evident spatial differentiation that increases from southwest to northeast.High values appear in Shenmu of Shaanxi,Shilou of Shanxi,and northern Yanhe River,whereas the low values are mainly distributed in the southern loess tableland and the inclined elongated ridge area of Pingliang in Gansu and Guyuan in Ningxia.(3)In the Wuding River and Yanhe River,the SND decreases with the increase in flow length(FL).In the North-Luohe River and Jinghe River,the SND increases with FL.(4)SND is significantly correlated with gully density and sediment modulus and moderately correlated with hypsometric integral.As for the mechanism factors analysis,the relationship between loess thickness and SND is not obvious,but SND in-creased first and then decreased with the increase of precipitation and vegetation in each geographical division,and we found that the land use type of low coverage grassland has greater erosion potential. 相似文献
7.
Developing an effective approach to rapidly assess the effects of restoration projects on soil erosion intensity and their extensive spatial and temporal dynamics is important for regional ecosystem management and the development of soil conservation strategies in the future. This study applied a model that was developed at the pixel scale using water soil erosion indicators (land use, vegetation coverage and slope) to assess the soil erosion intensity in the Loess Plateau, China. Landsat TM/ETM+ images in 2000, 2005 and 2010 were used to produce land use maps based on the object-oriented classification method. The MODIS product MOD13Q1 was adopted to derive the vegetation coverage maps. The slope gradient maps were calculated based on data from the digital elevation model. The area of water soil-eroded land was classified into six grades by integrating slope gradients, land use and vegetation coverage. Results show that the Grain-To-Green Project in the Loess Plateau worked based on the land use changes from 2000 to 2010 and enhanced vegetation restoration and ecological conservation. These projects effectively prevented soil erosion. During this period, lands with moderate, severe, more severe and extremely severe soil erosion intensities significantly decreased and changed into less severe levels, respectively. Lands with slight and light soil erosion intensities increased. However, the total soil-eroded area in the Loess Plateau was reduced. The contributions of the seven provinces to the total soil-eroded area in the Loess Plateau and the composition of the soil erosion intensity level in each province are different. Lands with severe, more severe and extremely severe soil erosion intensities are mainly distributed in Qinghai, Ningxia, Gansu and Inner Mongolia. These areas, although relatively small, must be prioritised and preferentially treated. 相似文献
8.
柴达木盆地是我国西北地区最干旱的盆地之一,常年盛行强劲的西北风,尤其在冬春季更甚。柴达木盆地西部地区自新生代以来沉积了巨厚的河湖相沉积。自上新世晚期以来,随着气候的逐步干化和盆地内部构造变形的加剧,该地区风力侵蚀地貌开始出现。早更新时出现的古盐壳和古雅丹地貌说明当时侵蚀已经相当剧烈。晚更新时以来,气候的极端干旱化和冰期的出现,更加促进了风蚀地貌的发育,在强劲的低空风力的雕刻下,形成了盆地西部几万平方千米的“百万雅丹”地貌,十分壮观。柴达木盆地不同地区风蚀地层的厚度和速率都不同,最大可达3 km和1.1 mm/yr,如此巨量的物质搬运必然为下风向的地区(都兰、青海湖地区、西宁盆地、黄土高原)的粉尘堆积提供可观的物源物质。研究表明,柴达木盆地西部被侵蚀的古湖相地层是上述地区,尤其是黄土高原重要的物源物质。随着研究的深入,其盆地内侵蚀物质输送到黄土高原的机制,已被学界越来越清晰的认识。 相似文献
9.
柴达木盆地是我国西北地区最干旱的盆地之一,常年盛行强劲的西北风,尤其在冬春季更甚。柴达木盆地西部地区自新生代以来沉积了巨厚的河湖相沉积。自上新世晚期以来,随着气候的逐步干化和盆地内部构造变形的加剧,该地区风力侵蚀地貌开始出现。早更新世出现的古盐壳和古雅丹地貌说明当时侵蚀已经相当剧烈。晚更新世以来,气候的极端干旱化和冰期的出现,更加促进了风蚀地貌的发育,在强劲的低空风力的雕刻下,形成了盆地西部几万平方千米的"百万雅丹"地貌,十分壮观。柴达木盆地不同地区地层的厚度和风蚀速率都不同,最大分别可达3 000 m和1.1 mm/yr,如此巨量的物质搬运必然为下风向的地区(都兰、青海湖地区、西宁盆地、黄土高原)的粉尘堆积提供可观的物源物质。研究表明,柴达木盆地西部被侵蚀的古湖相地层是上述地区,尤其是黄土高原重要的物源物质。随着研究的深入,其盆地内侵蚀物质输送到黄土高原的机制,已得到学界越来越清晰的认识。 相似文献
10.
在降雨侵蚀中黄土地面坡度变化的高分辨研究 总被引:3,自引:0,他引:3
运用近景数字摄影测量方法,获得在不同人工降雨时段黄土模拟小流域高精度、高分辨率的DEM数据,并以地面坡度及其组合形态的变化为切入点,通过对比分析和理论验证,探讨黄土小流域降雨侵蚀过程中地面坡度变化特征,在更宏观空间尺度和高分辨的时间尺度上,揭示黄土地貌形成与发育特征。研究结果表明:1)在较好地维持黄土的土壤结构与抗蚀特征,较真实地模拟自然降雨的条件下,模拟流域地面的变化能很好地反映自然地面的发育进程。2)在降雨侵蚀过程中,黄土小流域地面坡度呈现持续性变化规律,平均坡度在地貌发育幼年期呈加速增长趋势,到了壮年期增长幅度呈递减性变化;坡度组合以侵蚀临界角度为轴点呈持续逆转变化,侵蚀临界坡度单元所占面积基本保持稳定。3)黄土地面坡度的变化,一方面受地表物质被侵蚀和迁移程度的影响,另一方面,也是沟间地、沟坡地和沟底地空间面积重新分配的结果。 相似文献
11.
元代以来黄土塬区沟谷发育与土壤侵蚀 总被引:4,自引:6,他引:4
以洛川旧县镇南沟小流域为研究对象,用实地考察和史料考证相结合的方法,恢复了元代(1267年)以来洛川黄土塬区沟谷发育与土壤侵蚀过程,计算出了不同时段沟谷发育速度、土壤侵蚀强度,分析了黄土塬区沟谷形态的演变。自元代以来黄土塬区沟谷发育、土壤侵蚀呈加剧态势,其变化一方面与降水量变化关系密切,降水量较丰富时沟谷发育、土壤侵蚀较强;另一方面人为加速侵蚀与自然侵蚀相叠加是近现代沟谷发育、土壤侵蚀剧烈的主要原因。黄土塬区沟谷形态由巷形谷、V形谷向U形谷演变,沟头段巷形谷和上游段V形谷是土壤侵蚀与治理的重点。 相似文献
12.
Capacity of soil loss control in the Loess Plateau based on soil erosion control degree 总被引:4,自引:0,他引:4
Haidong Gao Zhanbin Li Lianlian Jia Peng Li Guoce Xu Zongping Ren Guowei Pang Binhua Zhao 《地理学报(英文版)》2016,26(4):457-472
The capacity of soil and water conservation measures, defined as the maximum quantity of suitable soil and water conservation measures contained in a region, were determined for the Loess Plateau based on zones suitable for establishing terraced fields, forestland and grassland with the support of geographic information system (GIS) software. The minimum possible soil erosion modulus and actual soil erosion modulus in 2010 were calculated using the revised universal soil loss equation (RUSLE), and the ratio of the minimum possible soil erosion modulus under the capacity of soil and water conservation measures to the actual soil erosion modulus was defined as the soil erosion control degree. The control potential of soil erosion and water loss in the Loess Plateau was studied using this concept. Results showed that the actual soil erosion modulus was 3355 t?km-2?a-1, the minimum possible soil erosion modulus was 1921 t?km-2?a-1, and the soil erosion control degree was 0.57 (medium level) in the Loess Plateau in 2010. In terms of zoning, the control degree was relatively high in the river valley-plain area, soil-rocky mountainous area, and windy-sandy area, but relatively low in the soil-rocky hilly-forested area, hilly-gully area and plateau-gully area. The rate of erosion areas with a soil erosion modulus of less than 1000 t?km-2?a-1 increased from 50.48% to 57.71%, forest and grass coverage rose from 56.74% to 69.15%, rate of terraced fields increased from 4.36% to 19.03%, and per capita grain available rose from 418 kg?a-1 to 459 kg?a-1 under the capacity of soil and water conservation measures compared with actual conditions. These research results are of some guiding significance for soil and water loss control in the Loess Plateau. 相似文献
13.
黄土高原典型地区土壤侵蚀共性与特点 总被引:19,自引:1,他引:19
通过对黄土高原典型地区土壤侵蚀以往的研究结论进行综合分析,在比较土壤侵蚀相似性和差异性的基础上,对这些典型地区土壤侵蚀的共性与特点进行了研究,结果表明:1、黄土高原典型地区土壤侵蚀影响因素有降雨、地形及土地利用;2、黄土高原各典型地区主要侵蚀类型为水蚀及重力侵蚀;主要侵蚀发生时间为汛期;主要侵蚀空间分布特征为具有垂直分带性;3、绥德地区侵蚀产沙强烈,天水地区侵蚀相对轻微,安塞地区各种侵蚀特征典型。西峰地区土壤侵蚀特殊。 相似文献
14.
陕北黄土高原正负地形研究(英文) 总被引:8,自引:1,他引:7
The Loess positive and negative terrains (P-N terrains), which are widely distributed on the Loess Plateau, are discussed
for the first time by introducing its characteristic, demarcation as well as extraction method from high-resolution Digital
Elevation Models. Using 5 m-resolution DEMs as original test data, P-N terrains of 48 geomorphological units in different
parts of Shaanxi Loess Plateau are extracted accurately. Then six indicators for depicting the geomorphologic landscape and
spatial configuration characteristic of P-N terrains are proposed. The spatial distribution rules of these indicators and
the relationship between the P-N terrains and Loess relief are discussed for further understanding of Loess landforms. Finally,
with the integration of P-N terrains and traditional terrain indices, a series of un-supervised classification methods are
applied to make a proper landform classification in northern Shaanxi. Results show that P-N terrains are an effect clue to
reveal energy and substance distribution rules on the Loess Plateau. A continuous change of P-N terrains from south to north
in Shaanxi Loess Plateau shows an obvious spatial difference of Loess landforms and the positive terrain area only accounted
for 60.5% in this region. The P-N terrains participant landform classification method increases validity of the result, especially
in the Loess tableland, Loess tableland-ridge and the Loess low-hill area. This research is significant on the study of Loess
landforms with the Digital Terrains Analysis methods. 相似文献
15.
Soil erosion and management on the Loess Plateau 总被引:6,自引:3,他引:3
CAI Qiang-guo 《地理学报(英文版)》2001,11(1):53-70
1 Introduction The Loess Plateau situated in northern China covers the drainage basins in the middle reaches of the Yellow River. It starts from the western piedmont of Taihang Mountains in the east, reaches the eastern slope of the Wushao and Riyue mountains, connects the northern part of the Qinling Mountains in the south and borders the Great Wall in the north, covering an area of about 380,000 km2 (Figure 1). The region is overlain extensively by Quaternary loess in great thickness, … 相似文献
16.
Soil erosion and management on the Loess Plateau 总被引:1,自引:0,他引:1
CAI Qiang-guo 《地理学报》2001,11(1):53-70
The Loess Plateau is well known to the world for its intense soil erosion. The root cause for river sedimentation of Yellow River (Huanghe) and its resultant "hanging river" in certain section is soil and water loss on the Loess Plateau. The Loess Plateau has a long cultivation history, hence population growth, vegetation degeneration and plugging constitute the chief reason for serious soil and water loss on Loess Plateau. This paper analyses several successful cases and failures in soil conservation, presents practical soil conservation technique and related benefit analysis, and discusses some effective methods adopted in China in soil erosion control, research directions and future perspectives on Loess Plateau. 相似文献
17.
黄土高原的形成与发展 总被引:19,自引:9,他引:10
根据黄土高原古地理及气候演变、黄土地层年代学和侵蚀期与堆积期的资料分析,得出黄土高原出现之前为红土高原,气候以温暖半湿润弱波动为特征,250×104 a来的黄土高原可分3个阶段。第一阶段出现在250×104~140×104 a之间,为高原内部弱侵蚀循环期,气候冷暖振动幅度较小。第二阶段出现在140×104~0.4×104 a之间,侵蚀动力加强,为高原自然侵蚀加强时期,气候冷暖振动幅度较大;第三阶段出现在4000 a以来,为高原异常加速侵蚀外流期。未来200 a黄土高原有向冷干发展的表现,这对黄土高原的治理是不利的,但不会发生大的自然变化。通过人类活动的积极作用,黄土高原的加速侵蚀向自然侵蚀或小于自然侵蚀的变化将会发生。可以预测,未来200 a的黄土高原仍是适于人类生存的好地方。 相似文献
18.
硬化地面与黄土高原水土流失 总被引:3,自引:2,他引:1
在界定硬化地面概念的基础上,进一步将硬化地面分为道路、城镇街区、农家场院三大类。并利用黄土高原400~600mm集流能力试验公式,对甘肃省陇东黄土高原沟壑区不同硬化地面的集流能力、侵蚀量进行分类实例分析研究,发现硬化地面集流能力远大于自然地面,因此城镇、道路、村庄附近的土壤侵蚀尤其严重。在黄土高原地区,不仅与之相关的沟壑的形成和发育,而且相关沟谷和河流的溯源侵蚀之力度大小也要受其影响。随着人口的增加,硬化地面面积越来越大,受其影响水土流失更加严重,这是历史时期黄土高原水土流失日益加剧的重要原因之一。今后黄土高原的水土保持工作,须将防治水土流失与解决水资源紧缺有机结合起来。其最佳解决途径,就是用硬化地面所集中的雨水,作为工农业生产和生活用水,以解决黄土高原水资源之不足。 相似文献
19.
Zheng Feili Tang Keli Zhang Keli Cha Xuan Bai Hongying Northwest Institute of Soil Water Conservation CAS Ministry of Water Resources Yangling Shaanxi People''s Republic of China 《地理学报(英文版)》1997,(2)
Forlongtime,theproblemaboutnaturalerosionandartificiallyacceleratederosionisindispute.HistoricalgeographersconsiderthathumaninducedecoenvironmentaldestructionisaccountablefortheseveresoilerosionandecoenvironmentdeteriorationonLoessPlateau[7,8].Somegeolog… 相似文献
20.
历史时期周原地貌演变与土壤侵蚀 总被引:4,自引:0,他引:4
文章以渭北黄土台塬西部周原七星河流域为研究对象,采用实地考察、考古、历史文献等多种方法定量地研究了仰韶文化以来周原地貌演变与土壤侵蚀的过程和规律。通过恢复历史时期周原地貌演变过程得出周原地貌演变主要表现为沟谷的形成和发展,七星河流域沟谷密度从仰韶、龙山文化时期的0.1646km/km^2,增加到目前的0.7045km/km^2,西汉以来沟谷的下切速率为1.08m/100a。历史时期周原土壤侵蚀过程一直存在,且沟谷发育和土壤侵蚀呈加剧态势,沟谷密度、土壤侵蚀模数分别增加了76.64%、41.36%。金以后的元、明、清时期和二十世纪前半叶是周原沟谷发育、土壤侵蚀发展最快的时期,数量众多的切沟、冲沟主要形成于金以后至今770多年里,造成这一结果的主要原因是植被的人为破坏。 相似文献