adjusted elevation

简明释义

1. 校正的仰角; 2. 平差高程; 3. 校正高程;

英英释义

例句

1.The pilot used the adjusted elevation to navigate through the mountainous region.

飞行员利用调整后的高程在山区导航。

2.The builder checked the adjusted elevation to ensure the foundation was level.

建设者检查了调整后的高程以确保基础是水平的。

3.The architect provided the adjusted elevation for the new building design.

建筑师提供了新建筑设计的调整后的高程。

4.For the landscaping project, we need to calculate the adjusted elevation of the terrain.

对于这个园艺项目，我们需要计算地形的调整后的高程。

5.During the survey, the team recorded the adjusted elevation of the land.

在测量过程中，团队记录了土地的调整后的高程。

作文

In the realm of geography and environmental science, the concept of adjusted elevation plays a crucial role in understanding the topography of various regions. Adjusted elevation refers to the elevation of a point that has been modified or corrected based on specific criteria, such as sea level changes, geological activity, or human intervention. This adjustment is essential for accurate mapping and navigation, as well as for various scientific studies related to climate change and urban planning.To illustrate the importance of adjusted elevation, consider the impact of climate change on coastal cities. As global temperatures rise, polar ice melts, leading to an increase in ocean levels. In these scenarios, the original elevation of coastal areas may no longer be relevant. Therefore, scientists and urban planners must utilize adjusted elevation data to assess flood risks and develop effective mitigation strategies. By understanding how much a particular area has changed in elevation due to these factors, they can make informed decisions about infrastructure development and disaster preparedness.Moreover, the concept of adjusted elevation is vital in the field of ecology. Different species thrive at varying elevations, and even small changes in elevation can alter ecosystems significantly. For example, a mountain range may have distinct ecological zones at different heights. If the elevation of certain areas shifts due to erosion or landslides, it can lead to habitat loss for specific flora and fauna. Researchers studying biodiversity must account for adjusted elevation when assessing the health of these ecosystems and devising conservation strategies.In addition to its applications in environmental science, adjusted elevation is also significant in engineering and construction. When building structures such as bridges or skyscrapers, engineers must consider the local elevation and any adjustments that might be necessary. For instance, if a building is constructed near a river, the adjusted elevation will determine how high the foundation needs to be to prevent flooding. Accurate measurements ensure safety and longevity in construction projects.Furthermore, advancements in technology have made it easier to calculate adjusted elevation. Geographic Information Systems (GIS) and satellite imagery allow researchers and engineers to gather precise elevation data. These tools help visualize changes over time, providing a clearer understanding of how landscapes evolve. With this information, stakeholders can better plan for future developments and address potential environmental challenges.In conclusion, the term adjusted elevation encompasses a wide range of applications across various fields, from environmental science to engineering. Understanding this concept is essential for addressing the challenges posed by climate change, preserving biodiversity, and ensuring safe construction practices. As we continue to face environmental changes, the importance of accurately measuring and adjusting elevation will only grow, highlighting the need for ongoing research and technological advancements in this area. By prioritizing the study of adjusted elevation, we can work towards a more sustainable and resilient future for our planet.

在地理和环境科学领域，调整后的海拔的概念在理解各个地区的地形中起着至关重要的作用。调整后的海拔指的是根据特定标准（如海平面变化、地质活动或人类干预）修改或修正的某一点的海拔。这种调整对于准确制图和导航以及与气候变化和城市规划相关的各种科学研究至关重要。为了说明调整后的海拔的重要性，可以考虑气候变化对沿海城市的影响。随着全球温度上升，极地冰川融化，导致海洋水位上升。在这些情况下，沿海地区的原始海拔可能不再相关。因此，科学家和城市规划者必须利用调整后的海拔数据来评估洪水风险并制定有效的减灾策略。通过了解由于这些因素而导致某个特定区域的海拔变化，他们可以就基础设施开发和灾害准备做出明智的决策。此外，调整后的海拔的概念在生态学领域也至关重要。不同的物种在不同的海拔高度上生存，即使是小的海拔变化也会显著改变生态系统。例如，一座山脉可能在不同的高度上具有独特的生态区。如果由于侵蚀或滑坡等原因，某些区域的海拔发生变化，可能会导致特定植物和动物栖息地的丧失。研究生物多样性的研究人员在评估这些生态系统的健康状况和制定保护策略时，必须考虑调整后的海拔。除了在环境科学中的应用外，调整后的海拔在工程和建筑中也具有重要意义。在建造桥梁或摩天大楼等结构时，工程师必须考虑当地的海拔和可能需要的任何调整。例如，如果一座建筑位于河流附近，则调整后的海拔将决定基础需要多高以防止洪水。准确的测量确保了建筑项目的安全性和耐久性。此外，技术的进步使得计算调整后的海拔变得更加容易。地理信息系统（GIS）和卫星图像使研究人员和工程师能够收集精确的海拔数据。这些工具有助于可视化随时间变化的情况，从而更清晰地理解地貌如何演变。凭借这些信息，利益相关者可以更好地为未来的发展进行规划，并解决潜在的环境挑战。总之，术语调整后的海拔涵盖了多个领域的广泛应用，从环境科学到工程。理解这一概念对于应对气候变化带来的挑战、保护生物多样性和确保安全的建筑实践至关重要。随着我们继续面临环境变化，准确测量和调整海拔的重要性将日益增长，这突显了在这一领域进行持续研究和技术进步的必要性。通过优先研究调整后的海拔，我们可以朝着一个更加可持续和有韧性的地球未来努力。