subsoil water

简明释义

地下水

英英释义

例句

1.Monitoring subsoil water levels can help prevent drought conditions.

监测地下水水平可以帮助防止干旱情况。

2.The farmers rely on subsoil water for irrigation during the dry season.

农民在干旱季节依靠地下水进行灌溉。

3.Certain plants thrive because they tap into subsoil water sources.

某些植物能够生长良好，因为它们利用了地下水资源。

4.Excessive extraction of subsoil water can lead to land degradation.

过度抽取地下水可能导致土地退化。

5.The construction project was delayed due to high subsoil water levels.

由于地下水位过高，建筑项目被延迟。

作文

Subsoil water plays a crucial role in the ecosystem and agricultural practices. It refers to the water that exists below the surface layer of soil, typically found in the zone known as the subsoil. This water is not immediately available to plants like surface water; however, it serves as an essential resource during dry periods when surface moisture is limited. Understanding the dynamics of subsoil water (地下水) is vital for sustainable land management and effective irrigation strategies.In many regions, especially those prone to drought, farmers rely on subsoil water (地下水) to maintain crop yields. The roots of many plants extend deep into the ground to access this hidden resource. By tapping into subsoil water (地下水), crops can survive extended dry spells, ensuring food security for communities. However, over-extraction of this resource can lead to severe consequences, including soil degradation and reduced water quality.The presence of subsoil water (地下水) also influences the physical properties of the soil. For instance, it affects soil structure, porosity, and permeability. When the subsoil water (地下水) levels are high, the soil can become more saturated, which may lead to issues such as waterlogging. Conversely, low levels of subsoil water (地下水) can result in drought conditions, making it challenging for plants to thrive.Moreover, subsoil water (地下水) is a critical component in the hydrological cycle. It interacts with surface water bodies, groundwater, and atmospheric conditions. The recharge of subsoil water (地下水) occurs through precipitation and surface runoff, which seeps down through the soil layers. This process is essential for maintaining the balance of water in the environment.In urban areas, understanding subsoil water (地下水) is equally important. Construction projects must consider the implications of subsoil water (地下水) on foundation stability and drainage systems. Engineers often conduct soil tests to determine the depth and quality of subsoil water (地下水) before commencing any construction work. Failure to account for this factor can lead to structural issues and increased costs.Additionally, climate change poses a significant threat to the availability of subsoil water (地下水). Altered precipitation patterns and rising temperatures can affect the recharge rates and overall distribution of subsoil water (地下水). As a result, regions that depend heavily on this resource may face challenges in sustaining their agricultural outputs and maintaining natural ecosystems.In conclusion, the significance of subsoil water (地下水) cannot be overstated. It is an invaluable resource that supports agriculture, influences soil characteristics, and plays a vital role in the hydrological cycle. As we move forward, it is imperative to adopt sustainable practices that protect and manage subsoil water (地下水) effectively. This includes implementing efficient irrigation techniques, monitoring water levels, and considering the impacts of climate change on this crucial resource. By doing so, we can ensure that subsoil water (地下水) continues to serve as a reliable source of sustenance for both current and future generations.

地下水在生态系统和农业实践中扮演着至关重要的角色。它指的是存在于土壤表层以下的水，通常位于被称为底土的区域。这种水并不像地表水那样立即可供植物使用；然而，在干旱时期，当地表水分有限时，它作为一种重要资源。理解地下水的动态对于可持续土地管理和有效灌溉策略至关重要。在许多地区，尤其是那些易受干旱影响的地方，农民依赖地下水来维持作物产量。许多植物的根系深入地下以获取这一隐秘资源。通过利用地下水，作物可以在长时间的干旱中生存，确保社区的粮食安全。然而，过度开采这一资源可能导致严重后果，包括土壤退化和水质下降。地下水的存在还会影响土壤的物理特性。例如，它影响土壤结构、孔隙度和渗透性。当地下水水平较高时，土壤可能变得更加饱和，这可能导致水涝等问题。相反，地下水水平低则可能导致干旱，使植物难以生长。此外，地下水是水文循环的重要组成部分。它与地表水体、地下水和大气条件相互作用。地下水的补给发生在降水和地表径流中，这些水分渗透到土壤层中。这一过程对于维持环境中的水分平衡至关重要。在城市地区，理解地下水同样重要。建设项目必须考虑地下水对基础稳定性和排水系统的影响。工程师通常会进行土壤测试，以确定地下水的深度和质量，然后再开始任何建设工作。如果未能考虑这一因素，可能会导致结构问题和成本增加。此外，气候变化对地下水的可用性构成重大威胁。降水模式的改变和气温上升可能会影响补给率和地下水的总体分布。因此，依赖这一资源的地区可能面临在维持农业产出和自然生态系统方面的挑战。总之，地下水的重要性不容小觑。它是一种宝贵的资源，支持农业，影响土壤特性，并在水文循环中发挥重要作用。随着我们向前发展，采用可持续的实践来有效保护和管理地下水是至关重要的。这包括实施高效的灌溉技术、监测水位以及考虑气候变化对这一关键资源的影响。通过这样做，我们可以确保地下水继续为当前和未来的世代提供可靠的生存资源。