contour complication map

简明释义

等高线地图

英英释义

例句

1.By analyzing the contour complication map, we can better understand the areas most likely to experience complications.

通过分析轮廓并发症图，我们可以更好地理解最可能出现并发症的区域。

2.The researchers presented their findings with a contour complication map to illustrate the risk factors involved.

研究人员用轮廓并发症图展示他们的发现，以说明相关的风险因素。

3.The contour complication map helped the team to visualize the relationship between different variables in the study.

这个轮廓并发症图帮助团队可视化研究中不同变量之间的关系。

4.The surgeon used a contour complication map to identify potential risks during the procedure.

外科医生使用轮廓并发症图来识别手术过程中的潜在风险。

5.Using a contour complication map allows for more precise planning in complex surgical cases.

使用轮廓并发症图可以在复杂的外科病例中进行更精确的规划。

作文

In the field of geography and cartography, understanding the topography of a region is crucial for various applications, including urban planning, environmental management, and disaster response. One of the tools that aid in this understanding is the contour complication map, which provides a detailed representation of the terrain by using contour lines to illustrate elevation changes over a specific area. This essay aims to explore the significance of the contour complication map and its practical applications in different fields.A contour complication map is essentially a two-dimensional representation of three-dimensional terrain. The contour lines on the map connect points of equal elevation, allowing users to visualize the steepness of slopes and the shape of the land. For instance, closely spaced contour lines indicate a steep slope, while widely spaced lines suggest a gentle incline. This information is vital for hikers, engineers, and architects who need to understand the land's features before undertaking construction or outdoor activities.One of the primary applications of the contour complication map is in urban planning. City planners use these maps to identify suitable locations for infrastructure development, such as roads, bridges, and buildings. By analyzing the contours, they can determine areas that may be prone to flooding or landslides, thus making informed decisions to mitigate risks. Furthermore, understanding the terrain helps in optimizing the layout of utilities and services, ensuring efficient access and minimizing construction costs.In addition to urban planning, the contour complication map plays a significant role in environmental management. Conservationists and ecologists utilize these maps to assess habitats and ecosystems. By understanding the elevation and slope of an area, they can identify critical habitats for wildlife and plan conservation efforts accordingly. For example, certain species may thrive in specific elevation ranges, and knowing the terrain allows for targeted protection measures.Moreover, the contour complication map is invaluable in the field of agriculture. Farmers and agronomists use these maps to analyze land for crop production. The contour lines help in determining water drainage patterns and soil erosion risks, enabling farmers to implement effective land management practices. Contour farming, which involves plowing along the contour lines, is a technique used to reduce soil erosion and improve water retention, demonstrating the practical benefits of utilizing these maps in agricultural settings.Another critical application of the contour complication map is in disaster response and management. During natural disasters such as floods or earthquakes, understanding the terrain becomes essential for rescue operations and resource allocation. Emergency responders rely on these maps to navigate through affected areas, identify safe routes, and locate vulnerable populations. The elevation data provided by the contour lines can also help predict the flow of floodwaters, aiding in evacuation planning and disaster preparedness.In conclusion, the contour complication map is a vital tool in various fields, including urban planning, environmental management, agriculture, and disaster response. Its ability to represent complex terrain through contour lines enables professionals to make informed decisions that enhance safety, efficiency, and sustainability. As technology continues to advance, the integration of digital mapping tools with traditional contour complication maps will further improve our understanding of the landscape and its implications for human activities. Therefore, mastering the use of contour complication maps is essential for anyone involved in land management and planning activities.

在地理和制图领域，理解一个地区的地形对于城市规划、环境管理和灾害响应等各种应用至关重要。帮助理解这一点的工具之一是等高线复杂图，它通过使用等高线来展示特定区域内的海拔变化，从而提供对地形的详细表示。本文旨在探讨等高线复杂图的重要性及其在不同领域的实际应用。等高线复杂图本质上是三维地形的二维表示。地图上的等高线连接相同海拔的点，使用户能够可视化坡度的陡峭程度和土地的形状。例如，等高线间距密集表示陡坡，而间距较宽则表明缓坡。这些信息对于徒步旅行者、工程师和建筑师来说至关重要，他们需要了解土地特征，以便在进行建设或户外活动之前做好准备。等高线复杂图的主要应用之一是在城市规划中。城市规划者利用这些地图来确定基础设施开发的合适位置，如道路、桥梁和建筑物。通过分析等高线，他们可以识别出可能易受洪水或山体滑坡影响的区域，从而做出明智的决策以降低风险。此外，了解地形有助于优化公用设施和服务的布局，确保高效的访问并降低建设成本。除了城市规划之外，等高线复杂图在环境管理中也发挥着重要作用。保护主义者和生态学家利用这些地图来评估栖息地和生态系统。通过了解区域的海拔和坡度，他们可以确定野生动物的关键栖息地，并相应地规划保护工作。例如，某些物种可能在特定的海拔范围内繁衍生息，了解地形可以为有针对性的保护措施提供依据。此外，等高线复杂图在农业领域也具有重要价值。农民和农艺师利用这些地图来分析土地以进行作物生产。等高线帮助确定水排放模式和土壤侵蚀风险，使农民能够实施有效的土地管理实践。沿着等高线耕作的等高线耕作技术是一种用于减少土壤侵蚀和改善水分保持的技术，展示了在农业环境中利用这些地图的实际好处。等高线复杂图的另一个重要应用是在灾害响应和管理中。在自然灾害如洪水或地震期间，了解地形对于救援行动和资源分配至关重要。紧急救援人员依赖这些地图在受影响区域内导航，识别安全路线和定位脆弱人群。等高线提供的海拔数据还可以帮助预测洪水的流动，促进撤离规划和灾害准备。总之，等高线复杂图是城市规划、环境管理、农业和灾害响应等多个领域的重要工具。它通过等高线表示复杂地形的能力使专业人员能够做出增强安全性、效率和可持续性的明智决策。随着技术的不断进步，数字制图工具与传统的等高线复杂图的结合将进一步改善我们对景观及其对人类活动影响的理解。因此，掌握使用等高线复杂图的技能对于参与土地管理和规划活动的任何人来说都是必不可少的。