hypsographic feature

简明释义

1. 地势起伏; 2. 高度地势;

英英释义

例句

1.In geology, hypsographic features are essential for interpreting the history of the Earth's crust.

在地质学中，高程特征对于解释地壳的历史至关重要。

2.The study of the Earth's surface includes various hypsographic features, such as mountains and valleys.

对地球表面的研究包括各种高程特征，如山脉和山谷。

3.Satellite imagery can help researchers map hypsographic features across large areas.

卫星图像可以帮助研究人员绘制大面积的高程特征。

4.The hypsographic features of a region can influence its climate and weather patterns.

一个地区的高程特征可以影响其气候和天气模式。

5.Geographers often analyze hypsographic features to understand the distribution of ecosystems.

地理学家经常分析高程特征以了解生态系统的分布。

作文

Understanding the concept of hypsographic feature is essential for geographers and environmental scientists alike. The term refers to the distribution of land elevations and depths in relation to sea level across a specific area. This concept plays a crucial role in various fields, including ecology, geology, and urban planning. By examining hypsographic features, researchers can gain insights into how elevation affects climate, vegetation, and human activities. For instance, mountainous regions often exhibit distinct ecosystems compared to lowland areas. The variations in altitude create different climatic conditions, which in turn influence the types of flora and fauna that can thrive in those environments. Understanding these hypsographic features allows scientists to predict biodiversity patterns and assess the impacts of climate change on specific habitats. Moreover, the study of hypsographic features is vital for urban planners. Cities situated at higher elevations may face unique challenges such as reduced oxygen levels and increased exposure to harsh weather conditions. By analyzing the hypsographic features of an area, planners can make informed decisions about infrastructure development, transportation systems, and resource management. For example, cities built in valleys may benefit from natural protection against wind and storms, while those on plateaus might have better visibility and accessibility. In addition to ecological and urban considerations, hypsographic features also play a significant role in human history and culture. Many ancient civilizations thrived in elevated regions due to their strategic advantages, such as defense and access to resources. The Andes mountains, for instance, were home to the Inca civilization, which adapted its agricultural practices to the steep slopes and varying altitudes. Understanding the hypsographic features of historical sites can provide valuable context for archaeological studies and cultural heritage preservation. Furthermore, the implications of hypsographic features extend to natural disaster management. Regions with specific elevation profiles are more susceptible to certain hazards, such as landslides or flooding. By mapping these features, emergency responders can develop effective strategies for risk mitigation and disaster preparedness. For example, communities located in flood-prone areas can implement early warning systems and create evacuation plans based on the hypsographic features of their surroundings. In conclusion, the study of hypsographic features is multifaceted, encompassing ecological, urban, historical, and safety considerations. As we continue to face the challenges posed by climate change and urbanization, understanding the distribution of land elevations will be crucial in fostering sustainable development and preserving our natural environments. By recognizing the significance of hypsographic features, we can enhance our ability to adapt to changing conditions and protect the delicate balance of our ecosystems. In essence, the exploration of hypsographic features not only enriches our scientific knowledge but also helps us appreciate the intricate relationships between landforms and life on Earth. The ongoing research in this area will undoubtedly yield new insights that can inform policies and practices aimed at promoting resilience and sustainability in our ever-evolving world.

理解高程特征的概念对于地理学家和环境科学家来说至关重要。该术语指的是在特定区域内，土地高度和深度相对于海平面的分布。这个概念在生态学、地质学和城市规划等多个领域都起着至关重要的作用。通过研究高程特征，研究人员可以深入了解海拔如何影响气候、植被和人类活动。 例如，山区通常与低地地区表现出不同的生态系统。海拔的变化创造了不同的气候条件，从而影响了能够在这些环境中生存的植物和动物类型。理解这些高程特征使科学家能够预测生物多样性模式，并评估气候变化对特定栖息地的影响。 此外，研究高程特征对于城市规划者至关重要。位于较高海拔的城市可能面临独特的挑战，例如氧气含量降低和更强烈的恶劣天气条件。通过分析一个地区的高程特征，规划者可以就基础设施发展、交通系统和资源管理做出明智的决策。例如，建在山谷中的城市可能会受益于自然保护，抵御风和暴风雨，而位于高原上的城市则可能具有更好的可见性和可达性。 除了生态和城市考虑之外，高程特征在历史和文化方面也发挥着重要作用。许多古代文明因其战略优势而在高海拔地区繁荣发展，例如防御和资源获取。例如，安第斯山脉是印加文明的故乡，该文明根据陡坡和不同海拔调整农业实践。理解历史遗址的高程特征可以为考古研究和文化遗产保护提供宝贵的背景。 此外，高程特征的影响还扩展到自然灾害管理。具有特定海拔轮廓的地区更容易遭受某些灾害，例如滑坡或洪水。通过绘制这些特征，紧急响应者可以制定有效的风险缓解和灾难准备策略。例如，位于易洪水地区的社区可以根据周围的高程特征实施预警系统并制定疏散计划。 总之，高程特征的研究是多方面的，涵盖生态、城市、历史和安全考虑。随着我们继续面临气候变化和城市化带来的挑战，理解土地高度的分布将对促进可持续发展和保护我们的自然环境至关重要。通过认识到高程特征的重要性，我们可以增强适应变化条件的能力，保护我们生态系统的微妙平衡。 从本质上讲，探索高程特征不仅丰富了我们的科学知识，还帮助我们欣赏土地形态与地球生命之间的复杂关系。该领域的持续研究无疑会产生新的见解，这些见解可以为旨在促进我们不断发展的世界中韧性和可持续性的政策和实践提供信息。