hypsometric

简明释义

英[/hɪpˈsɒmɛtrɪk/]美[/hɪpˈsɒmɛtrɪk/]

adj. 与沸点测定器使用有关的；测高学的

英英释义

单词用法

同义词

反义词

例句

1.The route of the pedestrian will be defined by the widest pavements possible with a hypsometric difference from the road.

行人的路线将由最宽的人行道来确定，并与道路形成分层。

2.The route of the pedestrian will be defined by the widest pavements possible with a hypsometric difference from the road.

行人的路线将由最宽的人行道来确定，并与道路形成分层。

3.The study of Earth's surface elevation is often referred to as hypsometric 高程的 analysis.

地球表面高度的研究通常被称为hypsometric 高程的分析。

4.In geography, hypsometric 高程的 curves help visualize the distribution of land elevations.

在地理学中，hypsometric 高程的曲线有助于可视化土地高度的分布。

5.The hypsometric 高程的 data collected from satellite imagery can reveal important information about climate change.

从卫星图像收集的hypsometric 高程的数据可以揭示有关气候变化的重要信息。

6.Researchers used hypsometric 高程的 mapping to assess the impact of urbanization on local ecosystems.

研究人员使用hypsometric 高程的制图来评估城市化对当地生态系统的影响。

7.The hypsometric 高程的 profile of a region can indicate its geological history and formation processes.

一个地区的hypsometric 高程的剖面可以指示其地质历史和形成过程。

作文

The study of our planet's surface and its various features is a fascinating field that encompasses many scientific disciplines. One of the key concepts in this area is the idea of elevation and how it relates to different geographical formations. A term that often arises in discussions about topography is hypsometric, which refers to the measurement of land elevation relative to sea level. Understanding hypsometric data is crucial for geographers, environmental scientists, and urban planners alike, as it helps them analyze the distribution of heights across a given landscape. The hypsometric analysis can reveal important patterns about the Earth's surface. For instance, it can show us how much of the land is at high elevations versus low elevations. This information is essential when considering factors such as climate, vegetation, and human settlement. Areas with higher elevations tend to have different weather patterns and ecosystems compared to low-lying regions. By studying these differences, scientists can better understand how altitude affects biodiversity and the distribution of species. Moreover, hypsometric data plays a significant role in natural resource management. In mountainous regions, understanding the elevation can help determine where to find valuable minerals or water resources. Additionally, it aids in assessing risks related to natural disasters, such as landslides or flooding, which are often influenced by topographical features. For example, regions with steep slopes may be more prone to erosion, while valleys might be more susceptible to flooding during heavy rains. In urban planning, hypsometric information is equally valuable. Planners use elevation data to design infrastructure that can withstand the unique challenges posed by varying altitudes. Roads, bridges, and buildings must be constructed with consideration for the surrounding terrain. Furthermore, understanding hypsometric variations enables planners to create sustainable cities that minimize environmental impacts. For instance, they can identify areas that are less likely to flood and prioritize development in those locations. In conclusion, the concept of hypsometric measurement is fundamental to understanding the complexities of our planet's geography. It provides insights into how elevation affects ecological systems, resource distribution, and urban development. As we continue to face challenges related to climate change and population growth, the importance of hypsometric data will only increase. By harnessing this information, we can make informed decisions that promote sustainability and resilience in our communities. Therefore, investing in research and technology that enhances our ability to collect and analyze hypsometric data is essential for a better future.

对我们星球表面及其各种特征的研究是一个迷人的领域，涵盖了许多科学学科。在这一领域中，一个关键概念是海拔及其与不同地理形态的关系。一个常在关于地形的讨论中出现的术语是hypsometric，它指的是相对于海平面的土地高度测量。理解hypsometric数据对地理学家、环境科学家和城市规划者等人至关重要，因为它帮助他们分析给定景观中高度的分布。 hypsometric分析可以揭示关于地球表面的重要模式。例如，它可以显示出多少土地位于高海拔地区与低海拔地区。这些信息在考虑气候、植被和人类定居等因素时至关重要。高海拔地区的天气模式和生态系统往往与低洼地区有所不同。通过研究这些差异，科学家们可以更好地理解海拔如何影响生物多样性和物种分布。 此外，hypsometric数据在自然资源管理中也起着重要作用。在山区，了解海拔可以帮助确定哪里可以找到宝贵的矿产或水资源。此外，它有助于评估与自然灾害相关的风险，例如滑坡或洪水，这些风险通常受地形特征的影响。例如，陡峭的坡度区域可能更容易发生侵蚀，而山谷在大雨期间可能更容易发生洪水。 在城市规划中，hypsometric信息同样有价值。规划者利用海拔数据设计能够承受不同海拔带来的独特挑战的基础设施。道路、桥梁和建筑物的建设必须考虑周围地形。此外，理解hypsometric变化使规划者能够创建可持续的城市，最大限度地减少对环境的影响。例如，他们可以识别出不太可能发生洪水的区域，并优先考虑在这些地点进行开发。 总之，hypsometric测量的概念是理解我们星球地理复杂性的基础。它提供了关于海拔如何影响生态系统、资源分布和城市发展的见解。随着我们继续面临与气候变化和人口增长相关的挑战，hypsometric数据的重要性只会增加。通过利用这些信息，我们可以做出明智的决策，促进我们社区的可持续性和韧性。因此，投资于增强我们收集和分析hypsometric数据能力的研究和技术对于更美好的未来至关重要。