water holding capacity

简明释义

含水能力

英英释义

例句

1.Improving the water holding capacity of the soil can lead to better crop yields.

提高土壤的持水能力可以带来更好的作物产量。

2.Farmers often test the water holding capacity of their fields to optimize irrigation.

农民常常测试他们田地的持水能力以优化灌溉。

3.The water holding capacity of clay soil is much higher than that of sandy soil.

粘土的持水能力远高于沙土。

4.The soil's water holding capacity is crucial for maintaining healthy plants.

土壤的持水能力对保持植物健康至关重要。

5.Certain types of mulch can enhance the water holding capacity of garden beds.

某些类型的覆盖物可以增强花坛的持水能力。

作文

The concept of water holding capacity refers to the ability of a substance, such as soil or a material, to retain water. This property is crucial in various fields, including agriculture, environmental science, and construction. Understanding water holding capacity can lead to better management of water resources, improved crop yields, and enhanced sustainability practices.In agriculture, the water holding capacity of soil plays a significant role in determining how well plants can grow. Soils with high water holding capacity can store more moisture, which is essential for plant health, especially during dry periods. Farmers often seek to improve the water holding capacity of their soils by adding organic matter, such as compost, which enhances the soil structure and increases its ability to retain water. This practice not only conserves water but also supports the growth of crops, leading to higher yields and better food security.Moreover, the water holding capacity is also important in the context of environmental conservation. Wetlands, for example, are natural ecosystems that have a high water holding capacity. They act as sponges, absorbing excess rainwater and releasing it slowly, which helps prevent flooding and maintains the hydrological balance of an area. By preserving wetlands and understanding their water holding capacity, we can protect biodiversity and promote healthier ecosystems.In construction, the water holding capacity of materials such as concrete and asphalt can influence the durability and performance of structures. Engineers must consider how these materials will interact with water, especially in areas prone to heavy rainfall or flooding. By selecting materials with appropriate water holding capacity, builders can create safer and more resilient infrastructure.Additionally, the water holding capacity is an essential factor in climate change adaptation strategies. As global temperatures rise and weather patterns become more unpredictable, understanding how different soils and materials hold water can help communities prepare for droughts and floods. Implementing practices that enhance water holding capacity can mitigate the impacts of climate change, ensuring that both natural and built environments can withstand extreme weather events.In conclusion, the water holding capacity is a vital characteristic that influences various aspects of our lives, from agriculture to environmental conservation and construction. By recognizing the importance of water holding capacity and implementing strategies to enhance it, we can create a more sustainable future. Whether through improving soil quality, preserving wetlands, or designing resilient infrastructure, understanding and managing water holding capacity is key to addressing some of the most pressing challenges we face today.

“水分保持能力”这一概念是指物质（如土壤或材料）保持水分的能力。这一特性在农业、环境科学和建筑等多个领域至关重要。理解“水分保持能力”可以更好地管理水资源、提高作物产量并增强可持续性实践。在农业中，土壤的“水分保持能力”在决定植物生长的良好程度方面起着重要作用。具有高“水分保持能力”的土壤能够储存更多的水分，这对于植物健康至关重要，特别是在干旱时期。农民常常通过添加有机物质（如堆肥）来改善土壤的“水分保持能力”，这可以增强土壤结构并增加其保持水分的能力。这种做法不仅节约了水资源，还支持作物的生长，从而提高产量并改善粮食安全。此外，“水分保持能力”在环境保护方面也很重要。例如，湿地是具有高“水分保持能力”的自然生态系统。它们像海绵一样，吸收多余的雨水，并缓慢释放，这有助于防止洪水并维持一个地区的水文平衡。通过保护湿地和理解其“水分保持能力”，我们可以保护生物多样性，促进生态系统的健康。在建筑方面，混凝土和沥青等材料的“水分保持能力”会影响结构的耐久性和性能。工程师必须考虑这些材料如何与水相互作用，特别是在暴雨或洪水频发的地区。通过选择适当“水分保持能力”的材料，建筑商可以创造出更安全、更具韧性的基础设施。此外，“水分保持能力”是气候变化适应策略中的一个重要因素。随着全球气温上升和天气模式变得更加不可预测，了解不同土壤和材料的水分保持能力可以帮助社区为干旱和洪水做好准备。实施增强“水分保持能力”的做法可以减轻气候变化的影响，确保自然和人造环境能够抵御极端天气事件。总之，“水分保持能力”是影响我们生活各个方面的重要特征，从农业到环境保护再到建筑。通过认识到“水分保持能力”的重要性并实施增强其能力的策略，我们可以创造一个更可持续的未来。无论是通过改善土壤质量、保护湿地，还是设计具有韧性的基础设施，理解和管理“水分保持能力”是解决我们今天面临的一些最紧迫挑战的关键。