bathymetric fascia

简明释义

1. 次深海带; 2. 半深海的; 3. 深海带;

英英释义

例句

1.The construction of offshore wind farms requires detailed knowledge of the bathymetric fascia.

建设海上风电场需要对水深带有详细的了解。

2.The bathymetric fascia maps helped identify potential fishing zones.

水深带地图帮助识别潜在的捕鱼区域。

3.Understanding the bathymetric fascia is crucial for marine navigation and safety.

了解水深带对海洋导航和安全至关重要。

4.Marine biologists study the bathymetric fascia to understand the habitats of various species.

海洋生物学家研究水深带以了解各种物种的栖息地。

5.The researchers used the bathymetric fascia to analyze the underwater topography of the ocean floor.

研究人员使用水深带分析海底的水下地形。

作文

The study of oceanic and aquatic environments has led to the development of various scientific terminologies that help us understand the complexities of underwater landscapes. One such term is bathymetric fascia, which refers to the distinct layers or bands of sediment and geological features found on the ocean floor. Understanding bathymetric fascia is crucial for marine scientists, geologists, and environmentalists as it provides insights into the geological history and ecological dynamics of marine habitats. Bathymetry itself is the study of underwater depth of ocean floors or lake beds. It involves measuring the depth of water bodies and mapping the underwater terrain. The bathymetric fascia can be visualized as a series of horizontal layers that reveal the structure of the seabed. Each layer can tell a different story about the geological processes that have shaped it over time, such as sediment deposition, erosion, and tectonic activity. For instance, a particular bathymetric fascia might indicate areas where sediment has accumulated over thousands of years, while another may reveal the remnants of ancient volcanic activity. The importance of studying bathymetric fascia extends beyond academic interest. It plays a significant role in various practical applications, including marine navigation, resource exploration, and environmental conservation. By understanding the contours and features of the ocean floor, navigators can avoid hazards and ensure safe passage for vessels. Additionally, industries such as oil and gas extraction rely heavily on detailed bathymetric maps to identify potential drilling sites. Moreover, the bathymetric fascia provides essential data for environmental monitoring and conservation efforts. For example, changes in the bathymetric features can indicate shifts in marine ecosystems, which could be a result of climate change or human activities. By monitoring these changes, scientists can develop strategies to protect vulnerable marine habitats and ensure the sustainability of marine resources. In recent years, advancements in technology have significantly enhanced our ability to study bathymetric fascia. The use of sonar mapping and remote sensing techniques allows researchers to create highly detailed maps of the ocean floor, revealing features that were previously hidden from view. These technological innovations have opened new frontiers in marine research, enabling scientists to explore previously uncharted territories and gain a deeper understanding of underwater ecosystems. In conclusion, the concept of bathymetric fascia is integral to our understanding of the ocean's depths. It encompasses the various layers and features that make up the seabed, providing valuable information for scientific research, navigation, resource management, and environmental conservation. As we continue to explore and study our oceans, the significance of bathymetric fascia will only grow, highlighting the need for continued investment in marine science and technology. Through this understanding, we can better appreciate the complexity of our planet's underwater realms and work towards their preservation for future generations.

对海洋和水域环境的研究促使了各种科学术语的发展，这些术语帮助我们理解水下景观的复杂性。其中一个术语是bathymetric fascia，它指的是在海底发现的不同层或带状沉积物和地质特征。理解bathymetric fascia对于海洋科学家、地质学家和环保主义者来说至关重要，因为它提供了关于海洋栖息地的地质历史和生态动态的见解。水深测量本身是对海洋底部或湖床的水下深度的研究。它涉及测量水体的深度并绘制水下地形图。bathymetric fascia可以被视为一系列水平层，揭示海底的结构。每一层都可以讲述关于塑造其的地质过程的不同故事，例如沉积物沉积、侵蚀和构造活动。例如，某个特定的bathymetric fascia可能表明沉积物在数千年中积累的区域，而另一个则可能揭示古代火山活动的遗迹。研究bathymetric fascia的重要性超出了学术兴趣。它在各种实际应用中发挥着重要作用，包括海洋导航、资源勘探和环境保护。通过了解海底的轮廓和特征，导航员可以避免危险，确保船只安全通行。此外，石油和天然气开采等行业严重依赖详细的水深图来识别潜在的钻探地点。此外，bathymetric fascia为环境监测和保护工作提供了重要数据。例如，水深特征的变化可能表明海洋生态系统的变化，这可能是气候变化或人类活动的结果。通过监测这些变化，科学家可以制定保护脆弱海洋栖息地的策略，并确保海洋资源的可持续性。近年来，技术的进步显著增强了我们研究bathymetric fascia的能力。声纳测绘和遥感技术的使用使研究人员能够创建海底的高精度地图，揭示以前隐藏的特征。这些技术创新开辟了海洋研究的新前沿，使科学家能够探索以前未被测绘的领域，深入理解水下生态系统。总之，bathymetric fascia的概念对我们理解海洋深处至关重要。它包含了构成海底的各种层和特征，为科学研究、导航、资源管理和环境保护提供了宝贵的信息。随着我们继续探索和研究我们的海洋，bathymetric fascia的重要性只会增加，突显出对海洋科学和技术持续投资的必要性。通过这一理解，我们可以更好地欣赏我们星球水下领域的复杂性，并努力保护它们，以便为后代保留。