graphic depth record

简明释义

深度图示记录水深图示记录仪图示深度记录

英英释义

例句

1.The drilling report included a graphic depth record that detailed the rock formations encountered.

钻探报告中包含了详细描述遇到的岩层的图形深度记录。

2.In marine studies, a graphic depth record helps researchers understand ocean floor topography.

在海洋研究中，图形深度记录帮助研究人员了解海底地形。

3.Surveyors rely on a graphic depth record for precise mapping of underground utilities.

测量员依赖于图形深度记录来精确绘制地下设施的地图。

4.The graphic depth record showed significant variations in sediment thickness across the lake bed.

该图形深度记录显示湖床沉积物厚度存在显著变化。

5.The geologist used a graphic depth record to analyze the layers of soil in the excavation site.

地质学家使用图形深度记录来分析挖掘现场的土层。

作文

In the field of geology and oceanography, the term graphic depth record plays a crucial role in understanding the structure and composition of the Earth’s subsurface and the ocean floor. A graphic depth record is essentially a visual representation of data collected from various depths below the surface. This data is typically gathered through methods such as drilling, sonar mapping, or seismic surveys. The graphical format allows scientists and researchers to easily interpret complex information that would be difficult to analyze in raw numerical form.One of the primary applications of a graphic depth record is in the exploration of natural resources. For instance, when searching for oil or gas reserves, geologists rely on these records to identify potential drilling sites. By analyzing the layers of rock and sediment displayed in a graphic depth record, they can determine where the most promising deposits may lie. This not only saves time and resources but also minimizes the environmental impact of exploratory drilling.Moreover, graphic depth records are invaluable in marine biology and ecology. Researchers studying underwater ecosystems use these records to understand the distribution of various species and their habitats. By correlating the depth data with biological information, scientists can identify patterns and relationships that inform conservation efforts. For example, certain fish species may thrive at specific depths, and a graphic depth record can help pinpoint these critical habitats, thereby guiding sustainable fishing practices.In addition to resource exploration and ecological studies, graphic depth records are also essential in the field of engineering, particularly in the construction of underwater structures like bridges, tunnels, and offshore platforms. Engineers use these records to assess the geological conditions of the site, ensuring that their designs can withstand the pressures and challenges posed by the underwater environment. Understanding the depth and type of materials present is vital for safety and durability.Furthermore, the technological advancements in data collection and visualization have greatly enhanced the quality and accuracy of graphic depth records. Modern tools such as remote sensing and advanced software allow for real-time data processing and high-resolution imaging. This means that researchers can obtain more detailed and comprehensive records than ever before, leading to better-informed decisions across various fields.In conclusion, the significance of graphic depth records cannot be overstated. They serve as a bridge between raw data and practical application, facilitating a deeper understanding of the Earth’s subsurface and the ocean floor. Whether in resource exploration, ecological research, or engineering projects, graphic depth records provide the necessary insights that drive innovation and sustainability. As technology continues to evolve, the potential for even more sophisticated and informative graphic depth records will undoubtedly enhance our ability to explore and protect our planet’s valuable resources and ecosystems.

在地质学和海洋学领域，术语graphic depth record在理解地球表面下结构和组成方面发挥着至关重要的作用。graphic depth record本质上是从地表以下不同深度收集的数据的可视化表示。这些数据通常通过钻探、声纳测绘或地震勘测等方法收集。图形格式使科学家和研究人员能够轻松解读复杂的信息，这在原始数字形式中会很难分析。graphic depth record的主要应用之一是在自然资源的勘探中。例如，在寻找石油或天然气储备时，地质学家依赖这些记录来识别潜在的钻探地点。通过分析在graphic depth record中显示的岩石和沉积物层，他们可以确定最有希望的矿藏可能位于何处。这不仅节省了时间和资源，而且还减少了勘探钻探对环境的影响。此外，graphic depth records在海洋生物学和生态学中也极为重要。研究水下生态系统的研究人员使用这些记录来了解各种物种及其栖息地的分布。通过将深度数据与生物信息相关联，科学家可以识别出指导保护工作的重要模式和关系。例如，某些鱼类可能在特定深度繁衍生息，而graphic depth record可以帮助确定这些关键栖息地，从而指导可持续的捕捞实践。除了资源勘探和生态研究外，graphic depth records在工程领域，特别是在桥梁、隧道和海上平台等水下结构的建设中也是必不可少的。工程师利用这些记录评估现场的地质条件，确保他们的设计能够承受水下环境带来的压力和挑战。了解存在的材料的深度和类型对安全和耐久性至关重要。此外，数据收集和可视化技术的进步大大提高了graphic depth records的质量和准确性。现代工具如遥感和先进软件允许实时数据处理和高分辨率成像。这意味着研究人员可以获得比以往更详细和全面的记录，从而在各个领域做出更明智的决策。总之，graphic depth records的重要性不容小觑。它们作为原始数据和实际应用之间的桥梁，促进了对地球表面下和海底的更深入理解。无论是在资源勘探、生态研究还是工程项目中，graphic depth records提供了推动创新和可持续发展的必要见解。随着技术的不断发展，未来更复杂和信息丰富的graphic depth records的潜力无疑将增强我们探索和保护地球宝贵资源和生态系统的能力。