aerogeophysical survey

简明释义

1. 航空地球物理测量; 2. 航空地球物理勘探;

英英释义

例句

1.An aerogeophysical survey can reveal hidden water resources that are not visible from the ground.

一项气象地球物理勘测可以揭示从地面看不到的隐藏水资源。

2.Results from the aerogeophysical survey indicated significant geological formations beneath the surface.

来自气象地球物理勘测的结果表明地下有重要的地质构造。

3.Using advanced technology, the aerogeophysical survey provided detailed data for environmental assessments.

利用先进技术，气象地球物理勘测为环境评估提供了详细数据。

4.The aerogeophysical survey helped map out the subsurface features of the area affected by the earthquake.

该气象地球物理勘测帮助绘制了受地震影响地区的地下特征。

5.The team conducted an aerogeophysical survey to identify potential mineral deposits in the region.

团队进行了气象地球物理勘测以识别该地区的潜在矿藏。

作文

The field of geophysics has witnessed remarkable advancements in recent years, particularly with the advent of modern technology. One of the most significant methods employed in this domain is the aerogeophysical survey, which plays a crucial role in the exploration and understanding of the Earth's subsurface. This innovative technique involves the use of aircraft to collect geophysical data over large areas, making it an efficient tool for various applications, including mineral exploration, environmental studies, and geological mapping.An aerogeophysical survey utilizes instruments mounted on aircraft to measure physical properties such as magnetic fields, gravity, and electromagnetic responses. These surveys can cover vast and often inaccessible terrains, providing valuable information that ground-based surveys might miss. For instance, in remote or rugged areas where traditional surveying methods are impractical, aerogeophysical surveys can be conducted swiftly and effectively, saving time and resources.One of the primary advantages of aerogeophysical surveys is their ability to generate high-resolution data over extensive regions. The aerial perspective allows for a comprehensive overview of geological features, enabling scientists and researchers to identify potential mineral deposits or assess environmental impacts more accurately. This capability is particularly beneficial in mining industries, where understanding the geological landscape is essential for successful exploration and extraction processes.Moreover, aerogeophysical surveys contribute significantly to environmental monitoring and assessment. By analyzing changes in the Earth's physical properties, researchers can detect shifts in groundwater levels, identify contamination sources, and monitor the effects of natural disasters. This information is vital for developing strategies to mitigate environmental risks and ensure sustainable land use.In addition to their practical applications, aerogeophysical surveys also enhance our scientific understanding of the Earth's structure and processes. By studying the data collected from these surveys, geophysicists can gain insights into tectonic movements, volcanic activity, and other geological phenomena. This knowledge is essential for predicting natural hazards and informing disaster preparedness efforts.As technology continues to evolve, the future of aerogeophysical surveys looks promising. Advancements in drone technology and remote sensing techniques are likely to further enhance the precision and efficiency of these surveys. Drones, in particular, offer a cost-effective alternative to traditional aircraft, allowing for more frequent and detailed data collection. This evolution will undoubtedly lead to more refined analyses and a deeper understanding of our planet's geology.In conclusion, the significance of aerogeophysical surveys in geophysical research and practical applications cannot be overstated. Their ability to provide comprehensive data over large areas makes them an indispensable tool for scientists, environmentalists, and industry professionals alike. As we continue to explore the complexities of the Earth's subsurface, the role of aerogeophysical surveys will remain pivotal in shaping our understanding of the planet and guiding responsible resource management.

地球物理学领域近年来见证了显著的进步，尤其是现代技术的出现。其中最重要的方法之一就是aerogeophysical survey（航空地球物理调查），它在探索和理解地球的地下结构中发挥着至关重要的作用。这种创新技术涉及使用飞机在大面积区域内收集地球物理数据，使其成为矿产勘探、环境研究和地质制图等多种应用的高效工具。aerogeophysical survey（航空地球物理调查）利用安装在飞机上的仪器测量磁场、重力和电磁响应等物理特性。这些调查可以覆盖广阔且通常难以接近的地形，提供宝贵的信息，而地面调查可能会遗漏。例如，在偏远或崎岖的地区，传统的勘测方法不切实际时，可以迅速有效地进行aerogeophysical surveys（航空地球物理调查），节省时间和资源。aerogeophysical surveys（航空地球物理调查）的主要优点之一是能够在广泛的区域内生成高分辨率的数据。空中视角允许全面了解地质特征，使科学家和研究人员能够更准确地识别潜在的矿藏或评估环境影响。这种能力在采矿行业尤为重要，因为了解地质景观对于成功的勘探和开采过程至关重要。此外，aerogeophysical surveys（航空地球物理调查）对环境监测和评估也有显著贡献。通过分析地球物理特性的变化，研究人员可以检测地下水位的变化、识别污染源并监测自然灾害的影响。这些信息对于制定减轻环境风险的战略和确保可持续土地使用至关重要。除了实用应用外，aerogeophysical surveys（航空地球物理调查）还增强了我们对地球结构和过程的科学理解。通过研究从这些调查中收集的数据，地球物理学家可以深入了解构造运动、火山活动和其他地质现象。这些知识对于预测自然灾害和指导灾害准备工作至关重要。随着技术的不断发展，aerogeophysical surveys（航空地球物理调查）的未来看起来充满希望。无人机技术和遥感技术的进步可能会进一步提高这些调查的精确度和效率。特别是无人机提供了一种成本效益高的替代传统飞机的选择，使得更频繁和详细的数据收集成为可能。这一演变无疑将导致更精细的分析和对我们星球地质的更深入理解。总之，aerogeophysical surveys（航空地球物理调查）在地球物理研究和实际应用中的重要性不可低估。它们在大面积区域提供全面数据的能力使其成为科学家、环保人士和行业专业人士不可或缺的工具。随着我们继续探索地球地下的复杂性，aerogeophysical surveys（航空地球物理调查）在塑造我们对地球的理解和指导负责任的资源管理方面将始终发挥关键作用。