侵蚀地貌

  • 网络Erosive landform;erosional landform
侵蚀地貌侵蚀地貌
  1. 水土流失其实是一种主要的侵蚀地貌演化过程。

    Water and soil loss is an important landforms evolution course .

  2. 小流域侵蚀地貌演化的计量分析

    Quantitative Analysis of Eroded Landform Evolution in Small Watershed

  3. 大岔沟侵蚀地貌分析与治理措施优化配置

    An Analysis of Erosive Geomorphy and Optimum Arrangement of Control Program of Dacha Gully

  4. 我们着重研究了小流域侵蚀地貌过程中力与阻力的对抗作用、动力条件与物质条件,并由非平衡热力学的观点,提出了最小&最大能量耗散率原理及其变分证明;

    Attention is paid to the antagonistic action of force and resistance , dynamic and material condition .

  5. 跃移运动能产生沙尘浮质、形成沙丘地貌和侵蚀地貌。

    Saltation can eject dust aerosols into the atmosphere , create sand dunes , and erode geological features .

  6. 并在研究该滑坡侵蚀地貌特征、岩土体组成、水文地质特征后,建立了地质模型和计算模型;

    After the researching on the geomorphic character , rock-soil body compositions , hydrological character , the geological and calculating model is established .

  7. 研究区属滇西横断山系的南部,地势总体上北高南低,主要山脉和水系呈近南北向延伸,主要地貌类型为怒江峡谷深切地貌和季节性河流侵蚀地貌。

    The main mountain range and the water are of north-south extended and the main landscape types are the Nujiang deep canyon topography and the seasonal river erosion landform .

  8. 听起来挺大的,但冰冠的水还不足以覆盖火星上所有地方的水道和侵蚀地貌。

    It may sound large , but doesn 't contain nearly enough water to account for the flood channels and other erosion features that appear all over the place on Mars .

  9. 研究中国东南部花岗岩侵蚀地貌与水土流失的关系,以期为本区农业和环境持续发展提供参考。

    The relationship between the soil erosion and water loss and the eroded landform of granite in southeast of China is studied , and that maybe offer reference of sustainable development in agriculture and environment in the area .

  10. 配套的剥蚀地貌、侵蚀地貌和堆积地貌;如遇洪水年,当洪峰流量超过60000m3s时,中、下游河道水位明显抬高而进入防汛警戒状态,河床有明显冲淤变化;

    When the flood peak water discharge exceeds 6,000 m 3 / s at the Datong Station , the water level of the middle and lower reaches of the river arrives at the flood preparation cautionary state and the riverbed changes obviously due to erosion and accumulation ;

  11. 地表侵蚀与地貌相互关系的研究

    Study on Correlation Between Surface Erosion and Landforms

  12. 侵蚀流域地貌信息熵在潜在震源判定中的应用

    Application of morphological information entropy of erosional Valley in the determination of potential sources

  13. 北京西山清水期侵蚀及其地貌环境演变

    The erosion of Qingshui stage and the evolution of geomorphological environment in xishan , beijing

  14. 福建福安白云山河床侵蚀微地貌特征及成因浅析

    On the Characteristics and Genesis of the Channel Erosion Microtopography in Baiyun Mountain of Fu'an City

  15. 黄土丘陵沟壑区植物群落演替和土壤侵蚀及其地貌演化趋势研究

    Study on Plant Community Succession , Soil Erosion and Trend of Geomorphic Evolution in the Loess Hilly and Gully Resion

  16. 沟壑密度是反映地表破碎程度的重要因子,在土壤侵蚀、地貌演变等研究中有重要作用。

    Ravine density , which is an important factor indicating the extent of the fragmentation of the Earth surface , plays a significant role in the research of soil erosion and landform evolution , etc.

  17. 结果表明,侵蚀流域地貌信息熵等值线图半定量地反映出了该区域的基本构造格局,成带分布的烟等值的分段性为潜在震源的判定提供了一种新的识别标志。

    The results show that the isogram of morphological information entropy for erosional valley has indicated the major tectonic structure of this region , and the segment of entropy isogram of zonal distribution provided a new identification mark for determination of potential sources .

  18. 在地学领域,空间信息技术作为地理科学定量分析的工具,迅速应用到地球化学、大地构造、水文学、土壤侵蚀、地貌、环境科学等空间相关的领域研究中,成为地球科学研究的重要手段。

    Spatial information technology , a useful tool for quantitative analysis , has rapidly applied to Geography research area such as geochemistry , plate tectonics , hydrology , soil erosion , landform , environmental science , which has been one of the most important means in Geography Science research .

  19. 黄土高原重力侵蚀的地质地貌因素分析&从发生的规模频度看区域特征

    Geological and Geomorphological Conditions of Mass Movements in the Loess Plateau & Regional Characteristics From the Viewpoint of Magnitude and Frequency of Event Occurrence

  20. 鄂尔多斯地块南部奥陶系侵蚀面的岩溶地貌及其在找油中的意义

    The Karst Topography Associated With the Erosion Surface of Ordovician Carbonates in Southern Part of the Ordos Massif and its Significance in Exploring for Hydrocarbon

  21. 黄土高原侵蚀产沙的地貌临界

    The Geomorphic Thresholds of Erosional Sediment in the Loess Plateau

  22. 流域降雨侵蚀产沙与地貌形态特征耦合关系研究

    The Coupling Relationship Between the Sediment Yield from Rainfall Erosion and the Topographic Feature of the Watershed

  23. 本文通过定点观测研究,根据侵蚀力类型与地貌形态,将该地土壤侵蚀划分为:面状侵蚀、沟状侵蚀和崩岗侵蚀。

    According to erosivity and landform , soil erosions are divided into sheet erosion , gully erosion and gravity gully erosion .

  24. 同时,现代侵蚀又是对地貌的重新塑造过程,现代侵蚀与石蛋地貌、沟壑崩岗地貌、坡谷地貌的形成与发育,存在密切关系。

    Meanwhile the modern erosion reshape the landform , affecting the formation and development of rock , gully slope collapse and slope vale landform .

  25. 第一段:水深0&5m,该区海底地形相对平坦,以水动力侵蚀的粗糙海底地貌为主。

    The first unit , with water depth ranging from 0 to 5 meters , is relatively flat , topography is dominated rough seabed which is caused by erosion .

  26. 将地貌形态分形信息维数作为流域土壤侵蚀预报模型中地貌形态因子量化指标不仅可行,而且可靠。

    It is feasible and reliable to use fractal information dimension of topographic features of watershed as an index to quantify topographic features of watershed , which is one of the important influencing factors in establishing models for soil erosion prediction on a watershed scale .

  27. 坡面是土壤侵蚀最基本的地貌单元,定量研究坡面侵蚀能为研究土壤侵蚀规律、确定坡面重点侵蚀部位、建立土壤侵蚀预报模型提供科学依据。

    The hillslope is the most preliminary unit in study on soil erosion . To study soil erosion quantitatively on the hillslope can offer the scientific evidence for studying soil erosion rule , confirming the focal point control location on the hillslope and forming soil erosion prediction model .

  28. 从自然保护的角度全面论述了我国黄土高原区在黄土沉积前下伏古地貌与黄土沉积以来的地貌变迁,黄土沉积期间成壤过程和侵蚀周期与黄土地貌的关系;

    Based on the nature protection , this article fully discussed the down ancient topography before loess sedimentation and the change of topography from loess sedimentation , the relationship between the soil-forming process and soil erosion cycle with loess topography during loess sedimentation on the Loess Plateau in China .

  29. 通过分析衡山花岗岩古地貌坡形、坡向和物质构成对现代侵蚀的影响,发现:古代侵蚀地貌是现代侵蚀产生和发展的基础;

    The analysis of influence of slope shape , direction and formation of its matter on the modern erosion in granite ancient landform in Hengshan mountain showed that the ancient landform is the basic factor of the production and development of modern erosion .