hypsographic

简明释义

英[hɪpˈsɒɡrəfɪk]美[hɪpˈsɑɡrəfɪk]

测高的

英英释义

单词用法

同义词

反义词

例句

1.It has a theoretical significance for studying the intermixing of batch pipeline transportation in hypsographic area...

研究结果对于研究我国西部地形复杂地区的顺序输送管道混油问题具有理论指导意义。

2.It has a theoretical significance for studying the intermixing of batch pipeline transportation in hypsographic area...

研究结果对于研究我国西部地形复杂地区的顺序输送管道混油问题具有理论指导意义。

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

地球表面高度的研究通常被称为hypsographic 高程的 分析。

4.Geographers use hypsographic 高程的 data to create detailed maps of mountain ranges.

地理学家使用hypsographic 高程的 数据来创建山脉的详细地图。

5.The hypsographic 高程的 curve represents the distribution of land elevations on Earth.

hypsographic 高程的 曲线表示地球上土地高度的分布。

6.In climate studies, hypsographic 高程的 profiles help to understand how altitude affects temperature.

在气候研究中，hypsographic 高程的 剖面有助于理解海拔如何影响温度。

7.The hypsographic 高程的 features of a region can influence its biodiversity and ecosystems.

一个地区的hypsographic 高程的 特征可以影响其生物多样性和生态系统。

作文

Understanding the concept of elevation and its impact on our planet is crucial for various scientific fields, including geography, ecology, and environmental science. One term that encapsulates this idea is hypsographic, which refers to the distribution of elevations across the Earth's surface. The hypsographic curve is a graphical representation that shows the relationship between elevation and the area of land at that elevation. This concept is not only important for understanding physical geography but also for studying climate patterns, biodiversity, and human activities. The hypsographic features of our planet play a significant role in shaping ecosystems. For example, mountainous regions tend to have different climates and vegetation compared to lowland areas. As elevation increases, temperatures generally decrease, leading to distinct ecological zones. This variation in habitat can support diverse species adapted to specific altitudinal conditions. By studying the hypsographic characteristics of an area, scientists can predict how biodiversity might change with alterations in climate or human intervention. Furthermore, the hypsographic aspect of geography is essential when it comes to understanding water resources. Rivers and lakes are often influenced by the surrounding elevations, which determine their flow patterns, sediment transport, and even their chemical composition. For instance, high-altitude lakes may have different nutrient profiles compared to those found in valleys. Thus, comprehending the hypsographic layout of a region aids in effective water management and conservation efforts. In urban planning and development, the hypsographic data is invaluable. Cities built in hilly terrains must consider the implications of elevation on infrastructure, transportation, and drainage systems. Flood risk assessments often incorporate hypsographic information to identify vulnerable areas that may be prone to flooding during heavy rainfall. Therefore, urban planners and architects rely on hypsographic studies to create sustainable and resilient communities. Moreover, the hypsographic analysis extends to understanding climate change impacts. As global temperatures rise, the melting of glaciers and polar ice caps is a pressing concern. The hypsographic distribution of these ice reserves is critical for predicting future sea-level rise and its implications for coastal populations. By analyzing the hypsographic features of different regions, researchers can model potential changes and develop strategies for mitigation and adaptation. In conclusion, the term hypsographic encompasses a wide range of applications across various disciplines. Its significance lies not only in the study of Earth's physical features but also in its implications for environmental management, urban planning, and climate science. Understanding the hypsographic distribution of elevations allows us to appreciate the complexity of our planet's systems and the interconnectedness of natural processes. As we face challenges such as climate change and urbanization, the insights gained from hypsographic studies will be vital in guiding our responses and ensuring a sustainable future.

理解海拔的概念及其对我们星球的影响对于地理、生态和环境科学等多个科学领域至关重要。一个能够概括这一思想的术语是hypsographic，它指的是地球表面海拔的分布。hypsographic曲线是一种图形表示，展示了海拔与在该海拔上土地面积之间的关系。这个概念不仅对理解物理地理重要，而且对研究气候模式、生物多样性和人类活动也具有重要意义。 我们星球的hypsographic特征在塑造生态系统方面发挥着重要作用。例如，山区与低洼地区的气候和植被往往截然不同。随着海拔的增加，温度通常会降低，从而导致不同的生态区。这种栖息地的变化可以支持适应特定高度条件的多样物种。通过研究某一地区的hypsographic特征，科学家可以预测在气候变化或人类干预下生物多样性可能会如何变化。 此外，地理的hypsographic特性在理解水资源时也至关重要。河流和湖泊通常受周围海拔的影响，这决定了它们的流动模式、沉积物运输，甚至化学成分。例如，高海拔湖泊的营养成分可能与低谷中的湖泊截然不同。因此，理解某一地区的hypsographic布局有助于有效的水资源管理和保护工作。 在城市规划和发展中，hypsographic数据是不可或缺的。在丘陵地带建造的城市必须考虑海拔对基础设施、交通和排水系统的影响。洪水风险评估通常结合hypsographic信息来识别在强降雨期间可能容易受到洪水影响的脆弱区域。因此，城市规划者和建筑师依赖于hypsographic研究来创建可持续和韧性的社区。 此外，hypsographic分析还扩展到理解气候变化的影响。随着全球气温上升，冰川和极地冰盖的融化成为一个紧迫问题。这些冰储备的hypsographic分布对于预测未来海平面上升及其对沿海人口的影响至关重要。通过分析不同地区的hypsographic特征，研究人员可以建模潜在变化，并制定减缓和适应的策略。 总之，术语hypsographic涵盖了多个学科的广泛应用。它的重要性不仅体现在对地球物理特征的研究上，还体现在对环境管理、城市规划和气候科学的影响上。理解hypsographic海拔分布使我们能够欣赏到我们星球系统的复杂性以及自然过程之间的相互联系。面对气候变化和城市化等挑战时，从hypsographic研究中获得的见解将对指导我们的应对措施和确保可持续未来至关重要。