hypsometry

简明释义

英[hɪpˈsɒmɪtri]美[hɪpˈsɑːmətri]

n. [测] 测高法

英英释义

单词用法

同义词

反义词

例句

1.The study of hypsometry 高程测量学 helps geographers understand the distribution of land elevations.

高程测量学的研究帮助地理学家理解土地海拔的分布。

2.In environmental science, hypsometry 高程测量学 is crucial for assessing watershed areas.

在环境科学中，高程测量学对于评估流域区域至关重要。

3.The hypsometry 高程测量学 of a region can indicate its potential for agriculture.

一个地区的高程测量学可以表明其农业潜力。

4.Researchers use hypsometry 高程测量学 to analyze the impact of climate change on mountain ecosystems.

研究人员使用高程测量学分析气候变化对山地生态系统的影响。

5.The hypsometry 高程测量学 of the ocean floor is studied to understand tectonic activity.

海洋底部的高程测量学被研究以了解构造活动。

作文

Understanding the concept of hypsometry is essential for geographers and environmental scientists alike. Hypsometry refers to the measurement of land elevation relative to sea level, which plays a crucial role in various fields such as ecology, geology, and climate science. By studying hypsometry, researchers can gain insights into how elevation affects biodiversity, climate patterns, and even human activities. One of the primary applications of hypsometry is in understanding ecosystems. Different species of plants and animals thrive at varying elevations due to factors like temperature, moisture, and soil composition. For example, mountainous regions often host unique flora and fauna that are adapted to high altitudes and cooler climates. By analyzing the hypsometric data of a particular area, scientists can predict which species are likely to inhabit specific elevations, thereby aiding in conservation efforts. Moreover, hypsometry is vital for studying climate change. As global temperatures rise, the effects of climate change can be more pronounced at different elevations. For instance, glacial melting in high-altitude regions contributes to rising sea levels, which can have devastating impacts on coastal communities. Understanding the hypsometric profile of these areas allows scientists to model future scenarios and devise strategies to mitigate adverse effects. In urban planning, hypsometry also plays a significant role. City planners need to consider elevation when designing infrastructure. Areas at higher elevations may require different construction techniques compared to those at lower altitudes. Furthermore, understanding the hypsometric landscape can help in managing water resources effectively, as water drainage patterns are influenced by elevation. Another interesting aspect of hypsometry is its relationship with human history and culture. Throughout history, civilizations have thrived at different elevations based on agricultural potential, access to resources, and defense capabilities. For example, ancient cultures often settled in fertile river valleys or on plateaus where they could farm and build communities. By studying the hypsometric features of these regions, historians and archaeologists can uncover how geography influenced societal development. In conclusion, hypsometry is a multifaceted concept that extends beyond simple elevation measurements. Its implications are vast, touching on ecological, climatic, urban, and historical aspects of our world. As we continue to face global challenges such as climate change and urbanization, understanding the principles of hypsometry will be crucial in making informed decisions that promote sustainability and resilience in our environments. The study of hypsometry not only enriches our knowledge of the planet but also equips us with the tools needed to navigate the complexities of a changing world.

理解hypsometry这一概念对地理学家和环境科学家来说至关重要。Hypsometry指的是相对于海平面的土地高度测量，这在生态学、地质学和气候科学等多个领域中发挥着关键作用。通过研究hypsometry，研究人员可以深入了解海拔如何影响生物多样性、气候模式，甚至人类活动。 Hypsometry的主要应用之一是理解生态系统。不同物种的植物和动物在不同海拔高度下生存，因为温度、湿度和土壤成分等因素的影响。例如，山区通常拥有适应高海拔和凉爽气候的独特植物和动物。通过分析特定区域的hypsometric数据，科学家可以预测哪些物种可能栖息在特定的海拔高度，从而有助于保护工作。 此外，hypsometry对于研究气候变化也至关重要。随着全球气温上升，气候变化的影响在不同海拔高度上可能更加明显。例如，高海拔地区的冰川融化会导致海平面上升，这可能对沿海社区造成毁灭性的影响。了解这些地区的hypsometric特征使科学家能够模型未来情景，并制定减轻不利影响的策略。 在城市规划中，hypsometry也发挥着重要作用。城市规划者需要考虑海拔高度在基础设施设计中的影响。高海拔地区可能需要与低海拔地区不同的建筑技术。此外，理解hypsometric地形有助于有效管理水资源，因为水流动模式受到海拔的影响。 Hypsometry的另一个有趣方面是它与人类历史和文化的关系。在历史上，文明根据农业潜力、资源获取和防御能力在不同海拔高度繁荣发展。例如，古代文化往往定居在肥沃的河谷或高原上，在那里他们可以进行农业生产和建立社区。通过研究这些地区的hypsometric特征，历史学家和考古学家可以揭示地理如何影响社会发展。 总之，hypsometry是一个多方面的概念，不仅仅限于简单的高度测量。它的影响广泛，涉及我们世界的生态、气候、城市和历史各个方面。随着我们继续面临气候变化和城市化等全球挑战，理解hypsometry的原则在做出促进可持续性和韧性的环境决策时将至关重要。对hypsometry的研究不仅丰富了我们对地球的知识，还为我们提供了应对复杂变化世界所需的工具。