altimetric frequency curve

简明释义

1. 测高; 2. 频率曲线; 3. 高程频率曲线;

英英释义

例句

1.The altimetric frequency curve 高程频率曲线 revealed a significant peak at 500 meters, indicating a prominent hill.

该高程频率曲线在500米处显示出显著的峰值，表明有一个突出的山丘。

2.The researchers plotted the altimetric frequency curve 高程频率曲线 to analyze the elevation distribution of the terrain.

研究人员绘制了高程频率曲线以分析地形的高程分布。

3.By examining the altimetric frequency curve 高程频率曲线, we can identify the most common elevation levels in this area.

通过检查高程频率曲线，我们可以识别该区域中最常见的高程水平。

4.Using satellite data, we generated an altimetric frequency curve 高程频率曲线 for the entire region.

利用卫星数据，我们为整个区域生成了高程频率曲线。

5.The altimetric frequency curve 高程频率曲线 helps in understanding the landscape's topography and hydrology.

该高程频率曲线有助于理解景观的地形和水文学。

作文

In the field of geography and environmental science, understanding various data representations is crucial for analyzing topographical features. One such representation is the altimetric frequency curve, which provides valuable insights into the elevation distribution of a particular area. This curve is essential for researchers and planners as it allows them to visualize how different elevations are distributed across a landscape. By analyzing an altimetric frequency curve, one can determine the proportion of land at various altitudes, which is vital for numerous applications, including urban planning, environmental conservation, and disaster management.The altimetric frequency curve is typically constructed by plotting the frequency of specific elevation ranges against their corresponding altitudes. For example, if we were to analyze a mountainous region, the curve would illustrate how many areas fall within certain elevation bands, such as 0-500 meters, 500-1000 meters, and so on. This visual representation helps in identifying the dominant elevation ranges, as well as the extremes of high and low altitudes. Consequently, planners can make informed decisions based on the data presented by the altimetric frequency curve.One of the primary benefits of utilizing an altimetric frequency curve is its ability to highlight variations in terrain. Areas with a high frequency of lower elevations may indicate fertile plains ideal for agriculture, while regions with higher elevations could be suitable for certain types of recreational activities, such as hiking or skiing. Additionally, understanding elevation distribution is critical for assessing natural hazards. For instance, regions with steep slopes may be more prone to landslides, and knowing this information can help in developing effective mitigation strategies.Moreover, the altimetric frequency curve is not only beneficial for physical geography but also plays a significant role in ecological studies. Different species of flora and fauna are often adapted to specific elevation ranges. By analyzing the altimetric frequency curve, ecologists can identify habitats that support diverse ecosystems. This information is essential for conservation efforts, particularly in areas facing threats from climate change and human activities. Understanding how elevation influences biodiversity can lead to more effective strategies for preserving endangered species and their habitats.In addition to its applications in geography and ecology, the altimetric frequency curve can also be instrumental in hydrology. Elevation plays a crucial role in watershed management, as it affects water flow and drainage patterns. By examining the altimetric frequency curve, hydrologists can predict how water will move through a landscape and identify potential areas for flooding or drought. This knowledge is vital for managing water resources effectively and ensuring sustainable development.In conclusion, the altimetric frequency curve is a powerful tool for understanding the elevation distribution of landscapes. Its applications span multiple fields, including urban planning, ecology, and hydrology. By providing a clear visual representation of how different elevations are distributed, the altimetric frequency curve aids in making informed decisions that impact environmental management and conservation efforts. As we continue to face challenges related to climate change and population growth, tools like the altimetric frequency curve will become increasingly important in guiding our responses to these pressing issues.

在地理和环境科学领域，理解各种数据表示对于分析地形特征至关重要。其中一种表示是高程频率曲线，它提供了特定区域海拔分布的宝贵见解。该曲线对于研究人员和规划者至关重要，因为它使他们能够可视化不同海拔在景观中的分布情况。通过分析高程频率曲线，人们可以确定各个高度范围内土地的比例，这对于城市规划、环境保护和灾害管理等多个应用至关重要。高程频率曲线通常通过将特定海拔范围的频率与其对应的高度进行绘制来构建。例如，如果我们要分析一个山区，曲线将说明有多少地区落在某些海拔带内，例如0-500米、500-1000米等。这种可视化表示有助于识别主导的海拔范围，以及高低海拔的极值。因此，规划者可以根据高程频率曲线所呈现的数据做出明智的决策。利用高程频率曲线的主要好处之一是能够突出地形的变化。低海拔高频率的区域可能表明适合农业的肥沃平原，而高海拔区域则可能适合某些类型的休闲活动，如远足或滑雪。此外，了解海拔分布对于评估自然灾害至关重要。例如，陡坡地区可能更容易发生山体滑坡，了解这些信息可以帮助制定有效的减灾策略。此外，高程频率曲线不仅对物理地理有益，还在生态研究中发挥着重要作用。不同的植物和动物物种通常适应特定的海拔范围。通过分析高程频率曲线，生态学家可以识别支持多样生态系统的栖息地。这些信息对于保护工作至关重要，特别是在面临气候变化和人类活动威胁的地区。了解海拔如何影响生物多样性可以导致更有效的保护濒危物种及其栖息地的策略。除了在地理和生态学中的应用外，高程频率曲线在水文学中也可能起到重要作用。海拔在流域管理中起着关键作用，因为它影响水流和排水模式。通过检查高程频率曲线，水文学家可以预测水将在景观中如何移动，并识别潜在的洪水或干旱区域。这一知识对于有效管理水资源和确保可持续发展至关重要。总之，高程频率曲线是理解景观海拔分布的强大工具。它的应用跨越多个领域，包括城市规划、生态学和水文学。通过提供不同海拔分布的清晰可视化表示，高程频率曲线有助于做出影响环境管理和保护工作的明智决策。随着我们继续面临与气候变化和人口增长相关的挑战，像高程频率曲线这样的工具在指导我们应对这些紧迫问题方面将变得越来越重要。