basin analysis

简明释义

盆地分析;

英英释义

例句

1.The team presented their findings from the basin analysis at the annual geology conference.

团队在年度地质会议上展示了他们的盆地分析结果。

2.The geologists conducted a detailed basin analysis to understand the sedimentary processes in the area.

地质学家进行了详细的盆地分析以了解该地区的沉积过程。

3.The research paper highlighted the importance of basin analysis in predicting natural resource availability.

这篇研究论文强调了盆地分析在预测自然资源可用性方面的重要性。

4.In oil exploration, basin analysis is crucial for identifying potential drilling sites.

在石油勘探中，盆地分析对于确定潜在的钻探地点至关重要。

5.We used basin analysis to assess the environmental impact of proposed mining activities.

我们使用盆地分析来评估拟议采矿活动的环境影响。

作文

Basin analysis is a critical concept in geology and sedimentology that involves the study of sedimentary basins to understand their formation, evolution, and the processes that govern them. Sedimentary basins are depressions in the Earth's crust where sediments accumulate over time. These basins can vary in size and shape, and they play a significant role in the geological history of an area. Through basin analysis, geologists can decipher the complex interplay of tectonic, climatic, and biological factors that contribute to sediment deposition and basin development. The process of basin analysis typically begins with the identification of a sedimentary basin, which may be done through geological mapping, remote sensing, or seismic surveys. Once a basin is identified, geologists will collect data from various sources, including well logs, core samples, and outcrop studies. This data helps to reconstruct the depositional environment of the basin, revealing how different sedimentary layers were formed and how they relate to one another. One of the primary goals of basin analysis is to determine the age and stratigraphy of the sedimentary deposits. By understanding the chronological sequence of sedimentation, geologists can infer the geological history of the region, including past climate conditions, sea-level changes, and tectonic events. Furthermore, this analysis can provide insights into the natural resources contained within the basin, such as oil, gas, and minerals. In addition to resource exploration, basin analysis is also essential for understanding natural hazards. For example, by studying sedimentary basins and their historical records, scientists can assess the potential for earthquakes, landslides, or flooding in a given area. This information is crucial for urban planning and disaster preparedness, helping communities to mitigate risks associated with these natural events. Moreover, basin analysis contributes to our understanding of paleoenvironments and the evolution of life on Earth. The sedimentary record preserved within basins contains fossils and other biological indicators that can reveal how ecosystems have changed over millions of years. By analyzing these records, scientists can gain insights into the responses of life to past climate changes, providing valuable context for current environmental challenges. In conclusion, basin analysis is a multifaceted approach that encompasses various scientific disciplines, including geology, biology, and environmental science. Its applications range from resource exploration to hazard assessment and paleontological research. As we continue to face the impacts of climate change and resource depletion, the importance of basin analysis will only grow, offering critical information that can guide sustainable practices and inform our understanding of Earth's dynamic systems. Understanding and mastering basin analysis is essential for geologists and environmental scientists alike, as it provides the tools needed to interpret the intricate history of our planet and its resources.

盆地分析是地质学和沉积学中的一个关键概念，涉及对沉积盆地的研究，以理解其形成、演变及其所受过程的影响。沉积盆地是地壳中的凹陷，随着时间的推移，沉积物在这里积累。这些盆地的大小和形状各异，对一个地区的地质历史起着重要作用。通过盆地分析，地质学家可以解读构造、气候和生物因素之间复杂的相互作用，这些因素共同促进了沉积物的沉积和盆地的发展。盆地分析的过程通常始于识别沉积盆地，这可以通过地质制图、遥感或地震勘测等方法完成。一旦识别出盆地，地质学家将从各种来源收集数据，包括井记录、岩心样本和露头研究。这些数据有助于重建盆地的沉积环境，揭示不同沉积层是如何形成的，以及它们之间的关系。盆地分析的主要目标之一是确定沉积物的年龄和地层学。通过了解沉积的时间顺序，地质学家可以推断该地区的地质历史，包括过去的气候条件、海平面变化和构造事件。此外，这种分析还可以提供关于盆地内自然资源的洞察，例如石油、天然气和矿产。除了资源勘探，盆地分析对于理解自然灾害也至关重要。例如，通过研究沉积盆地及其历史记录，科学家可以评估某个地区发生地震、滑坡或洪水的潜在风险。这些信息对于城市规划和灾害准备至关重要，帮助社区减轻与这些自然事件相关的风险。此外，盆地分析有助于我们理解古环境和地球上生命的演化。沉积盆地中保存的沉积记录包含化石和其他生物指标，可以揭示生态系统在数百万年间是如何变化的。通过分析这些记录，科学家可以获得对生命如何应对过去气候变化的深刻见解，为当前的环境挑战提供宝贵的背景。总之，盆地分析是一种多方面的方法，涵盖了地质学、生物学和环境科学等多个学科。其应用范围从资源勘探到危险评估以及古生物学研究。随着我们继续面临气候变化和资源枯竭的影响，盆地分析的重要性只会增加，提供关键的信息来指导可持续实践，并增进我们对地球动态系统的理解。理解和掌握盆地分析对地质学家和环境科学家来说都是至关重要的，因为它提供了解释我们星球及其资源复杂历史所需的工具。