water absorbing capacity

简明释义

吸水能力

英英释义

例句

1.To improve plant growth, we need to enhance the water absorbing capacity 水分吸收能力 of the soil.

为了改善植物生长，我们需要提高土壤的水分吸收能力 水分吸收能力 。

2.The water absorbing capacity 水分吸收能力 of the sponge allows it to soak up spills quickly.

海绵的水分吸收能力 水分吸收能力 使其能够迅速吸收溢出物。

3.The water absorbing capacity 水分吸收能力 of the new fabric makes it ideal for sportswear.

这种新面料的水分吸收能力 水分吸收能力 使其非常适合运动服。

4.In construction, materials with high water absorbing capacity 水分吸收能力 can lead to structural issues.

在建筑中，具有高水分吸收能力 水分吸收能力 的材料可能导致结构问题。

5.The soil's water absorbing capacity 水分吸收能力 is crucial for agricultural productivity.

土壤的水分吸收能力 水分吸收能力 对农业生产力至关重要。

作文

The concept of water absorbing capacity is essential in various fields, including agriculture, construction, and environmental science. Understanding how different materials or soils can retain water is crucial for effective resource management. For instance, in agriculture, the water absorbing capacity of soil determines the type of crops that can be grown in a particular area. Soils with high water absorbing capacity can retain moisture for longer periods, which is beneficial for plants, especially in arid regions where water is scarce. Farmers often analyze soil composition to understand its water absorbing capacity and choose appropriate irrigation methods accordingly.In construction, the water absorbing capacity of building materials like concrete and bricks plays a significant role in determining their durability and longevity. Materials with high water absorbing capacity may lead to issues such as mold growth, structural damage, and increased maintenance costs. Therefore, builders must consider the water absorbing capacity when selecting materials for a project. For example, using waterproofing agents can help reduce the water absorbing capacity of concrete, enhancing its performance in wet conditions.Furthermore, in environmental science, understanding the water absorbing capacity of different ecosystems is vital for conservation efforts. Wetlands, for instance, are known for their high water absorbing capacity, which allows them to act as natural sponges, absorbing excess rainfall and reducing the risk of flooding. Preserving these ecosystems is crucial for maintaining biodiversity and protecting against climate change impacts.Moreover, the water absorbing capacity can also be influenced by human activities. Urbanization often leads to increased impervious surfaces, such as roads and buildings, which reduce the land's overall water absorbing capacity. This can result in higher runoff and flooding during heavy rains. To mitigate these effects, cities are increasingly adopting green infrastructure solutions, such as permeable pavements and green roofs, which enhance the water absorbing capacity of urban areas.In conclusion, the water absorbing capacity of materials and soils is a critical factor in various domains. From agriculture to construction and environmental conservation, understanding this concept enables better decision-making and resource management. As we face challenges related to water scarcity and climate change, recognizing the importance of water absorbing capacity will be essential for sustainable development and environmental protection.

“水分吸收能力”的概念在农业、建筑和环境科学等多个领域中至关重要。理解不同材料或土壤如何保持水分对于有效的资源管理至关重要。例如，在农业中，土壤的水分吸收能力决定了某个地区可以种植的作物类型。具有高水分吸收能力的土壤可以更长时间地保持水分，这对植物尤其有利，特别是在水资源稀缺的干旱地区。农民通常会分析土壤成分，以了解其水分吸收能力并相应选择适当的灌溉方法。在建筑中，建筑材料如混凝土和砖块的水分吸收能力在决定其耐用性和使用寿命方面发挥着重要作用。具有高水分吸收能力的材料可能导致霉菌生长、结构损坏以及维护成本增加等问题。因此，建筑商在选择项目材料时必须考虑水分吸收能力。例如，使用防水剂可以减少混凝土的水分吸收能力，提高其在潮湿条件下的性能。此外，在环境科学中，理解不同生态系统的水分吸收能力对于保护工作至关重要。湿地以其高水分吸收能力而闻名，这使它们能够作为自然海绵，吸收多余的降雨，降低洪水风险。保护这些生态系统对于维护生物多样性和保护免受气候变化影响至关重要。此外，人类活动也会影响水分吸收能力。城市化往往导致不透水表面（如道路和建筑物）的增加，从而减少土地的整体水分吸收能力。这可能导致强降雨期间的径流和洪水增加。为了缓解这些影响，城市越来越多地采用绿色基础设施解决方案，如透水铺装和绿色屋顶，以增强城市地区的水分吸收能力。总之，材料和土壤的水分吸收能力是多个领域中的关键因素。从农业到建筑和环境保护，理解这一概念能够促进更好的决策和资源管理。随着我们面临与水资源短缺和气候变化相关的挑战，认识到水分吸收能力的重要性将对可持续发展和环境保护至关重要。