geomorphologic

简明释义

英[/ˌdʒiːoʊmɔːrfəˈlɒdʒɪk/]美[/ˌdʒiːoʊmɔːrfəˈlɒdʒɪk/]

地貌的

地形的

英英释义

单词用法

同义词

反义词

例句

1.Relief can be used as an important reference factor of geomorphologic forms classification.

地形起伏度可作为划分地貌形态的重要参考指标。

2.This article elaborated Geomorphologic system growth Background, Geomorphologic features, forming condition and the Characteristic of Mt.

论述了太行山地貌系统的发育背景，地貌特点，形成条件和特征。

3.The slide was developed under special geomorphologic and geologic environment, and controlled by karstification.

滑坡在特殊的地貌和地质环境下形成，并受岩溶作用控制。

4.They are hydrologically of catchment, basin character, with different ways of recharge and drainage, and occupying a special position in geomorphologic structure of the drainage area.

分析表明，这些海子在水文上具有不同的集水盆性质、不同的补给形式和排泄方式，在流域地貌结构中占有特殊的位置。

5.Geomorphologic instantaneous unit hydrograph (GIUH), based on the geomorphologic characteristics and probability method, has been widely used in China.

地貌单位线(GIUH)基于流域地貌特征和概率方法，在我国许多地区得到广泛应用。

6.Their correspondent principal geomorphologic processes are water erosion, thawing erosion and glacial erosion.

相应的主导地貌过程分别是流水侵蚀、冻融侵蚀和冰川侵蚀。

7.The Jiaozhou bay is a tidal inlet of bedrock bay type, the typical flood and ebb tidal deltas are developed inside and outside the bay mouth, and the geomorphologic system in the bay is complete.

胶州湾属基岩海湾型潮汐通道，湾口内、外发育较为典型的涨、落潮流三角洲，地貌体系较为完整。

8.When cave, as a kind of natural geomorphologic landscape, is developed and utilized by human being as a kind of tourism resource, we call it tourism cave.

洞穴作为一种自然地貌景观被人们开发利用而成为一种旅游资源时，我们就称之为旅游洞穴。

9.The quantitative research of geomorphologic evolution in bedrock channel fluvial landscape plays a significant role in the discussion of the relationship among tectonics, climate, and surface process.

基岩河道流域地区的地貌演化定量化研究在构造-气候-表面过程关系的探讨中具有十分重要的意义。

10.The geomorphologic 地貌学的 characteristics of the coastline were analyzed to predict future erosion patterns.

对海岸线的地貌学的geomorphologic特征进行了分析，以预测未来的侵蚀模式。

11.Understanding the geomorphologic 地貌学的 history of an area can help in urban planning and development.

了解一个地区的地貌学的geomorphologic历史可以帮助城市规划和发展。

12.Researchers focused on the geomorphologic 地貌学的 processes that contribute to soil erosion in mountainous regions.

研究人员专注于导致山区土壤侵蚀的地貌学的geomorphologic过程。

13.The geomorphologic 地貌学的 features of the desert are vastly different from those of the tundra.

沙漠的地貌学的geomorphologic特征与苔原的特征截然不同。

14.The study of the river's path revealed interesting geomorphologic 地貌学的 features that shaped the landscape over centuries.

对河流路径的研究揭示了有趣的地貌学的geomorphologic特征，这些特征在数百年中塑造了景观。

作文

The study of landforms and the processes that shape them is a fundamental aspect of geography, known as geomorphologic (地貌的) research. This field examines how various natural forces, such as erosion, weathering, and tectonic activity, contribute to the development of landscapes over time. Understanding geomorphologic (地貌的) features is crucial for numerous applications, including urban planning, environmental management, and disaster preparedness. One of the key components of geomorphologic (地貌的) studies involves analyzing the different types of landforms found in various regions. For instance, mountains, valleys, plateaus, and plains all exhibit unique characteristics that reflect their formation processes. Mountains are often formed through tectonic uplift and volcanic activity, while valleys may result from glacial or river erosion. By understanding these processes, scientists can predict how landscapes will evolve in response to both natural events and human activities. Another important aspect of geomorphologic (地貌的) research is the examination of sediment transport and deposition. Rivers, for example, play a significant role in shaping the landscape by transporting sediments from higher elevations to lower ones. This process not only creates new landforms, such as deltas and alluvial plains, but also influences ecosystems and biodiversity. By studying sedimentary patterns, researchers can gain insights into past climatic conditions and anticipate future changes in the environment. In addition to natural processes, human activities have increasingly impacted geomorphologic (地貌的) landscapes. Urbanization, agriculture, and mining can lead to significant alterations in landforms, often resulting in negative consequences such as soil erosion, habitat destruction, and increased flood risks. As such, it is vital for planners and policymakers to incorporate geomorphologic (地貌的) knowledge into their decision-making processes. For instance, understanding the natural drainage patterns of an area can help prevent flooding by guiding the placement of infrastructure and green spaces. Moreover, the study of geomorphologic (地貌的) processes is essential for environmental conservation efforts. By recognizing the interconnections between landforms and ecosystems, conservationists can develop strategies to protect vulnerable areas. For example, preserving wetlands not only safeguards unique habitats but also mitigates flooding and improves water quality. In conclusion, the field of geomorphologic (地貌的) research is vital for understanding the complex interactions between natural processes and human activities that shape our planet. By examining landforms and their formation processes, we can better appreciate the beauty of our landscapes and work towards sustainable management practices that protect both the environment and human communities. As we continue to face challenges related to climate change and urban development, the insights gained from geomorphologic (地貌的) studies will be increasingly important in guiding our actions and decisions.

对地貌和塑造它们的过程的研究是地理学的一个基本方面，称为geomorphologic（地貌的）研究。该领域考察各种自然力量，如侵蚀、风化和构造活动，如何随着时间的推移促进景观的发展。理解geomorphologic（地貌的）特征对于许多应用至关重要，包括城市规划、环境管理和灾害准备。geomorphologic（地貌的）研究的一个关键组成部分是分析不同地区发现的地貌类型。例如，山脉、山谷、高原和平原都表现出独特的特征，反映了它们的形成过程。山脉通常通过构造抬升和火山活动形成，而山谷可能是由冰川或河流侵蚀造成的。通过理解这些过程，科学家可以预测景观如何响应自然事件和人类活动的演变。geomorphologic（地貌的）研究的另一个重要方面是对沉积物运输和沉积的检查。例如，河流在通过将沉积物从高处运输到低处来塑造景观方面发挥着重要作用。这个过程不仅创造了新的地貌，如三角洲和冲积平原，还影响生态系统和生物多样性。通过研究沉积模式，研究人员可以深入了解过去的气候条件，并预测未来环境的变化。除了自然过程，人类活动也越来越影响geomorphologic（地貌的）景观。城市化、农业和采矿可能导致地貌的重大改变，往往带来负面后果，如土壤侵蚀、栖息地破坏和洪水风险增加。因此，规划者和政策制定者将geomorphologic（地貌的）知识纳入决策过程至关重要。例如，了解一个地区的自然排水模式可以通过指导基础设施和绿地的布置来帮助防止洪水。此外，geomorphologic（地貌的）过程的研究对环境保护工作至关重要。通过认识地貌与生态系统之间的相互联系，保护主义者可以制定保护脆弱地区的策略。例如，保护湿地不仅保护独特的栖息地，还减轻洪水并改善水质。总之，geomorphologic（地貌的）研究领域对于理解塑造我们星球的自然过程与人类活动之间复杂的相互作用至关重要。通过研究地貌及其形成过程，我们可以更好地欣赏我们的景观之美，并努力实现可持续管理实践，以保护环境和人类社区。随着我们继续面临与气候变化和城市发展相关的挑战，从geomorphologic（地貌的）研究中获得的见解将在指导我们的行动和决策中变得越来越重要。