air/water table

简明释义

空气/水界面;

英英释义

Air table refers to a flat surface or platform where air is used to support objects, often used in manufacturing or material handling.

气垫台是指一个平坦的表面或平台,通过空气支持物体,常用于制造或物料处理。

Water table is the level below which the ground is saturated with water, indicating the boundary between soil and groundwater.

地下水位是指土壤饱和水分的水平,表示土壤与地下水之间的界限。

例句

1.Farmers need to monitor the water table 水位线 to ensure their crops receive enough water.

农民需要监测水位线以确保作物获得足够的水分。

2.A high water table 水位线 can lead to flooding in basements during heavy rains.

水位线会导致大雨时地下室淹水。

3.The geologist explained how the water table 水位线 fluctuates with seasonal changes.

地质学家解释了水位线如何随着季节变化而波动。

4.The construction team had to check the water table 水位线 before starting the foundation work.

施工队在开始基础工作之前必须检查一下水位线

5.During the drought, the water table 水位线 dropped significantly, affecting local wells.

在干旱期间,水位线显著下降,影响了当地的水井。

作文

Understanding the concept of the air/water table is essential for various fields, including environmental science, agriculture, and urban planning. The air/water table refers to the boundary between the saturated zone, where all the spaces in soil or rock are filled with water, and the unsaturated zone, where the spaces contain both air and water. This concept plays a critical role in determining groundwater availability and influences various ecological and hydrological processes.In agricultural practices, knowledge of the air/water table is vital for effective irrigation management. Farmers must understand the depth of the air/water table to optimize their irrigation systems. If the air/water table is too low, crops may suffer from drought conditions, while a high air/water table can lead to waterlogging, which adversely affects plant growth. Consequently, farmers often monitor the air/water table to ensure that their crops receive the appropriate amount of water without risking damage to the roots.Urban planners also need to consider the air/water table when designing infrastructure. Buildings, roads, and other structures must be constructed with an understanding of the air/water table's location to prevent flooding and structural damage. For instance, if a construction site is located below the air/water table, there is a risk of water infiltration, which can lead to costly repairs and safety hazards. Therefore, before any construction begins, engineers conduct thorough assessments of the air/water table to determine the best course of action.Furthermore, the air/water table is a critical factor in the study of ecosystems. Wetlands, for example, are areas where the air/water table is at or near the surface for significant parts of the year. These ecosystems provide essential services, such as water filtration, habitat for wildlife, and flood control. Understanding the dynamics of the air/water table helps ecologists manage and conserve these vital areas effectively.In addition, climate change has significant implications for the air/water table. Changes in precipitation patterns and rising temperatures can alter the natural balance of groundwater recharge and discharge. As a result, regions that previously had stable air/water tables may experience fluctuations, leading to challenges for agriculture, urban development, and ecosystem health. Monitoring and modeling the air/water table in the context of climate change is crucial for developing adaptive strategies that can mitigate adverse effects.In conclusion, the air/water table is a fundamental concept that impacts various sectors. From agriculture to urban planning and ecological conservation, understanding the air/water table is essential for making informed decisions that promote sustainability and resilience. As we face increasing environmental challenges, the importance of comprehending and managing our air/water tables cannot be overstated. By prioritizing this knowledge, we can work towards a more sustainable future, balancing human needs with the preservation of our natural resources.

理解空气/水位线的概念对于环境科学、农业和城市规划等多个领域至关重要。空气/水位线指的是饱和区(土壤或岩石中的所有空间都充满水)与非饱和区(空间包含空气和水)之间的边界。这个概念在确定地下水可用性方面发挥着关键作用,并影响各种生态和水文过程。在农业实践中,了解空气/水位线对于有效的灌溉管理至关重要。农民必须了解空气/水位线的深度,以优化他们的灌溉系统。如果空气/水位线过低,作物可能会遭受干旱,而高空气/水位线则可能导致水涝,严重影响植物生长。因此,农民通常会监测空气/水位线,以确保他们的作物获得适量的水分,而不会对根系造成损害。城市规划者在设计基础设施时也需要考虑空气/水位线。建筑、道路和其他结构的建设必须理解空气/水位线的位置,以防止洪水和结构损坏。例如,如果施工地点位于空气/水位线以下,则存在水渗入的风险,这可能导致昂贵的维修费用和安全隐患。因此,在任何施工开始之前,工程师都会进行彻底的空气/水位线评估,以确定最佳行动方案。此外,空气/水位线是生态系统研究中的关键因素。湿地就是一个例子,在那里空气/水位线在一年中的大部分时间内处于或接近地表。这些生态系统提供了重要的服务,如水过滤、野生动物栖息地和洪水控制。理解空气/水位线的动态有助于生态学家有效管理和保护这些重要区域。此外,气候变化对空气/水位线有重大影响。降水模式的变化和温度上升可能会改变地下水补给和排放的自然平衡。因此,曾经拥有稳定空气/水位线的地区可能会经历波动,从而给农业、城市发展和生态系统健康带来挑战。在气候变化背景下监测和建模空气/水位线对于制定能够减轻不利影响的适应策略至关重要。总之,空气/水位线是影响各个部门的基本概念。从农业到城市规划和生态保护,理解空气/水位线对于做出促进可持续发展的明智决策至关重要。随着我们面临日益严峻的环境挑战,理解和管理我们的空气/水位线的重要性不容小觑。通过优先考虑这一知识,我们可以朝着更可持续的未来努力,实现人类需求与自然资源保护之间的平衡。