geomorphic

简明释义

英[ˌdʒiːəʊˈmɔːfɪk]美[ˌdʒiəˈmɔrfɪk]

adj. 地球形状的，地貌的

英英释义

单词用法

同义词

反义词

例句

1.Groundwater sapping is the geomorphic reworking of surface topography induced by water seeping out from an aquifer.

地下水出流侵蚀是由含水层中的地下水的涌出所造成的地貌变化。

2.Based on the researches of the excavated slopes, the slopes are controlled by multiple factors such as rock stratum, geo-structure, geomorphic etc.

综合研究表明，开挖边坡受控于地层岩性、沙金坝向斜构造、微地貌等多重因素。

3.On the inner shelf, the main geomorphic types have mamelon and pit-and-pots.

在内部架子上，主要的地貌类型有小圆丘和坑坑洼洼。

4.In the piedmont zone the terrace and pediment surface jointly formed a geomorphic surface; they were contiguous in space with comparable elevation.

在山麓地带，阶地与麓原面联合成一级地貌面，二者在空间上连续、在高度上可比。

5.By using the Methodology of Information Domain and Synergetics Theory, a general equation of geomorphic systemative evolution has been established in this paper.

本文运用信息域方法、协同学理论建立了地貌系统演化的一般方程。

6.It has the complex geomorphic types, different natural conditions and land use, as well as the clear altitudinal structure in Yinshan Mountainous Region.

阴山山地地貌类型复杂，自然条件与土地利用区域差异显著，自然带的垂直带谱比较明显。

7.By using the Methodology of Information Domain and Synergetics Theory, a general equation of geomorphic systemative evolution has been established in this paper.

本文运用信息域方法、协同学理论建立了地貌系统演化的一般方程。

8.The two seafloor spreadings of the South China Sea controlled the origin and evolvement of geomorphic types of the study area.

地貌形成与演化主要受南海新生代两次海底扩张控制。

9.From excellent DEM construction, we can derive other important geomorphic factors.

从构建优越的DEM模型可导出其他地形要素。

10.The study of geomorphic 地貌的 processes helps us understand how landscapes evolve over time.

对地貌的过程的研究帮助我们理解景观是如何随着时间演变的。

11.Understanding geomorphic 地貌的 processes is crucial for effective land use planning.

理解地貌的过程对于有效的土地使用规划至关重要。

12.The geomorphic 地貌的 characteristics of the region indicate a history of volcanic activity.

该地区的地貌的特征表明有火山活动的历史。

13.The geomorphic 地貌的 analysis revealed significant erosion patterns in the valley.

对地貌的分析揭示了山谷中显著的侵蚀模式。

14.Researchers are mapping geomorphic 地貌的 features to predict flood risks in the area.

研究人员正在绘制地貌的特征，以预测该地区的洪水风险。

作文

The study of landforms and the processes that shape them is known as geomorphology. This scientific discipline examines the various features of the Earth's surface, including mountains, valleys, rivers, and deserts. Understanding these features is crucial for several reasons, particularly in the context of environmental management and urban planning. The term geomorphic (地貌的) refers to anything related to the formation and evolution of these landforms. For example, when we discuss the geomorphic (地貌的) characteristics of a region, we consider how geological forces such as erosion, sedimentation, and tectonic activity have shaped the landscape over time.In recent years, the impact of climate change on geomorphic (地貌的) processes has become a significant area of research. As temperatures rise and weather patterns shift, the dynamics of erosion and sediment transport are altered. This can lead to increased flooding in certain areas, while others may experience droughts, significantly affecting the geomorphic (地貌的) features of those regions. For instance, riverbanks may erode more quickly due to intense rainfall, while desert landscapes might expand as vegetation dies off.Moreover, understanding the geomorphic (地貌的) aspects of an area is vital for infrastructure development. Engineers and planners must take into account the natural landscape when designing roads, bridges, and buildings. Ignoring the geomorphic (地貌的) characteristics can result in disastrous consequences, such as landslides or flooding. For example, constructing a highway through a mountainous region requires a thorough analysis of the geomorphic (地貌的) features to ensure stability and safety.In addition to practical applications, the aesthetic value of geomorphic (地貌的) landscapes cannot be overlooked. Many people are drawn to the beauty of natural formations, such as cliffs, canyons, and coastlines. These landforms not only provide recreational opportunities but also contribute to local economies through tourism. Understanding the geomorphic (地貌的) processes that create these features can enhance our appreciation of nature and highlight the importance of conservation efforts.Furthermore, the study of geomorphic (地貌的) processes can inform us about the history of our planet. By examining sediment layers and landform changes, scientists can infer past climate conditions and geological events. This information is invaluable for predicting future changes and preparing for potential natural disasters.In conclusion, the concept of geomorphic (地貌的) features encompasses a wide range of scientific, practical, and aesthetic considerations. Whether we are addressing issues related to climate change, urban planning, or environmental conservation, the understanding of geomorphic (地貌的) processes plays a critical role. As we continue to explore and analyze our planet's landscapes, the insights gained from geomorphology will undoubtedly guide us in making informed decisions for a sustainable future.

对地貌和塑造它们的过程的研究被称为地貌学。这个科学学科考察地球表面的各种特征，包括山脉、山谷、河流和沙漠。理解这些特征至关重要，特别是在环境管理和城市规划的背景下。术语geomorphic（地貌的）指与这些地貌的形成和演变相关的任何事物。例如，当我们讨论一个地区的geomorphic（地貌的）特征时，我们会考虑侵蚀、沉积和构造活动等地质力量如何随着时间的推移塑造了景观。近年来，气候变化对geomorphic（地貌的）过程的影响已成为一个重要的研究领域。随着温度上升和天气模式的变化，侵蚀和沉积运输的动态发生了改变。这可能导致某些地区的洪水增加，而其他地区可能经历干旱，显著影响那些地区的geomorphic（地貌的）特征。例如，由于强降雨，河岸可能更快地侵蚀，而沙漠景观可能会随着植被的死亡而扩展。此外，理解一个地区的geomorphic（地貌的）方面对于基础设施发展至关重要。工程师和规划者在设计道路、桥梁和建筑物时必须考虑自然景观。忽视geomorphic（地貌的）特征可能导致灾难性的后果，例如滑坡或洪水。例如，在山区修建高速公路需要对geomorphic（地貌的）特征进行彻底分析，以确保稳定性和安全性。除了实际应用外，geomorphic（地貌的）景观的美学价值也不容忽视。许多人被自然形成的美丽所吸引，例如悬崖、峡谷和海岸线。这些地貌不仅提供了休闲机会，还通过旅游业为地方经济做出了贡献。理解创造这些特征的geomorphic（地貌的）过程可以增强我们对自然的欣赏，并强调保护工作的必要性。此外，对geomorphic（地貌的）过程的研究可以告诉我们关于我们星球历史的信息。通过检查沉积层和地貌变化，科学家可以推断出过去的气候条件和地质事件。这些信息对于预测未来变化和准备潜在自然灾害至关重要。总之，geomorphic（地貌的）特征的概念涵盖了广泛的科学、实际和美学考虑。无论我们是在解决与气候变化、城市规划还是环境保护相关的问题，理解geomorphic（地貌的）过程都发挥着关键作用。随着我们继续探索和分析我们星球的景观，地貌学所获得的见解无疑将指导我们在可持续未来做出明智的决策。