observed depth

简明释义

测量深度

英英释义

例句

1.We need to measure the observed depth of the lake for our environmental study.

我们需要测量湖泊的观察深度以进行环境研究。

2.In this experiment, we will analyze the observed depth of the water column.

在这个实验中，我们将分析水柱的观察深度。

3.The observed depth of a well can indicate the presence of groundwater.

井的观察深度可以指示地下水的存在。

4.The observed depth of the soil affects the types of plants that can grow in that area.

土壤的观察深度影响该地区可以生长的植物类型。

5.The scientist recorded the observed depth of the ocean during the expedition.

科学家在探险期间记录了海洋的观察深度。

作文

In the field of oceanography, understanding the dynamics of the ocean is crucial for various applications, including climate modeling, marine ecology, and resource management. One important concept in this field is the observed depth, which refers to the depth at which measurements are taken or phenomena are observed within a body of water. This term is particularly significant when studying the physical and biological characteristics of the ocean. For instance, the observed depth can influence the temperature, salinity, and pressure of seawater, all of which play vital roles in determining the habitat suitability for marine organisms.When researchers conduct studies in marine environments, they often rely on instruments that can measure various parameters at different depths. The observed depth is essential for accurately interpreting data collected from these instruments. For example, if a scientist measures the concentration of dissolved oxygen at an observed depth of 10 meters, this reading may differ significantly from the oxygen levels at 20 meters due to stratification in the water column. Therefore, recognizing the observed depth allows scientists to understand vertical gradients and assess the health of aquatic ecosystems more effectively.Moreover, the concept of observed depth is not limited to physical measurements; it also extends to biological observations. In marine biology, researchers may study fish populations or plankton communities at specific observed depths. Different species inhabit various layers of the ocean, and their distributions can provide insights into ecological interactions and food web dynamics. For instance, certain fish species may be found predominantly at shallower depths during the day but migrate to deeper waters at night. By documenting these behaviors at their respective observed depths, scientists can better understand predator-prey relationships and the impact of environmental changes on these species.In addition to its scientific implications, the observed depth has practical applications in industries such as fishing and oil exploration. Fishermen often target specific species based on their known habitats, which are defined by their observed depths. Understanding where certain fish are likely to be found can lead to more sustainable fishing practices and help prevent overfishing in vulnerable areas. Similarly, in the oil and gas industry, drilling operations must consider the observed depth of geological formations to optimize extraction processes and minimize environmental impacts.In conclusion, the concept of observed depth is fundamental to various scientific and practical fields. It serves as a critical parameter for understanding the physical and biological processes occurring in aquatic environments. By accurately measuring and interpreting data at different observed depths, researchers can gain valuable insights into ocean dynamics, marine ecosystems, and the implications for human activities. As our understanding of the oceans continues to evolve, the importance of the observed depth will remain central to advancing both scientific knowledge and sustainable practices in marine resource management.

在海洋学领域，理解海洋的动态对于气候建模、海洋生态和资源管理等各种应用至关重要。这个领域中的一个重要概念是观察深度，它指的是在水体中进行测量或观察现象的深度。这个术语在研究海洋的物理和生物特征时尤为重要。例如，观察深度可以影响海水的温度、盐度和压力，这些都在决定海洋生物栖息地适宜性中发挥着重要作用。当研究人员在海洋环境中进行研究时，他们通常依赖于能够在不同深度测量各种参数的仪器。观察深度对于准确解释从这些仪器收集的数据至关重要。例如，如果科学家在观察深度10米处测量溶解氧的浓度，这一读数可能与20米处的氧气水平有显著差异，这是由于水柱中的分层效应。因此，认识到观察深度使科学家能够更有效地理解垂直梯度，并评估水生生态系统的健康状况。此外，观察深度的概念不仅限于物理测量；它还扩展到生物观察。在海洋生物学中，研究人员可能会在特定的观察深度研究鱼类种群或浮游生物群落。不同的物种栖息在海洋的不同层次，它们的分布可以提供关于生态相互作用和食物网动态的见解。例如，某些鱼类可能在白天主要出现在较浅的深度，但在夜间迁移到更深的水域。通过记录这些行为及其各自的观察深度，科学家可以更好地理解捕食者与猎物之间的关系以及环境变化对这些物种的影响。除了科学意义外，观察深度在渔业和石油勘探等行业也具有实际应用。渔民通常根据已知栖息地的特定物种来捕捞，这些栖息地由它们的观察深度定义。了解某些鱼类可能出现的位置可以促使更可持续的捕鱼实践，并帮助防止在脆弱区域的过度捕捞。同样，在石油和天然气行业，钻探作业必须考虑地质层的观察深度，以优化开采过程并尽量减少对环境的影响。总之，观察深度的概念是科学和实践领域的基础。它作为理解水生环境中发生的物理和生物过程的重要参数。通过准确测量和解释不同观察深度的数据，研究人员可以获得关于海洋动态、海洋生态系统及其对人类活动影响的宝贵见解。随着我们对海洋理解的不断发展，观察深度的重要性将继续在推进科学知识和可持续海洋资源管理实践中占据核心地位。