dike system
简明释义
1. 岩脉系; 2. 岩墙系;
英英释义
例句
1.The dike system was designed to withstand severe weather conditions, ensuring community safety.
该堤防系统被设计为能够承受恶劣天气条件,以确保社区安全。
2.The city invested heavily in its dike system to prevent flooding during heavy rains.
该市在其堤防系统上进行了大量投资,以防止在暴雨期间发生洪水。
3.A well-maintained dike system is crucial for protecting agricultural land from rising water levels.
一个维护良好的堤防系统对于保护农业用地免受水位上升至关重要。
4.Local authorities are planning to upgrade the existing dike system to enhance flood protection.
当地当局计划升级现有的堤防系统以增强防洪能力。
5.Engineers are currently assessing the integrity of the dike system after the recent storm.
工程师们正在评估最近风暴后堤防系统的完整性。
作文
The importance of a well-designed dike system cannot be overstated, especially in regions prone to flooding. A dike system is essentially a series of earthen structures built to control water levels and protect land from inundation. These systems are crucial in managing the flow of rivers and preventing storm surges from affecting populated areas. In many countries, particularly those with low-lying topography, such as the Netherlands, dike systems have been developed over centuries to safeguard agricultural lands and urban centers.One of the most significant advantages of a dike system is its ability to provide a barrier against natural disasters. For instance, during heavy rainfall or rapid snowmelt, rivers can overflow their banks, leading to catastrophic flooding. A robust dike system can help redirect excess water, minimizing the impact on surrounding communities. Furthermore, these systems often incorporate drainage mechanisms that allow for controlled water release, which is essential in maintaining ecological balance.However, the construction and maintenance of a dike system require careful planning and substantial financial investment. Engineers must consider various factors, including soil composition, water flow patterns, and potential climate change impacts. The design of a dike system must be resilient enough to withstand extreme weather events, which are becoming increasingly common due to global warming. Additionally, regular inspections and maintenance are necessary to ensure that the dike system remains effective over time.Moreover, the social implications of a dike system are significant. Communities that rely on these structures for protection often have a strong sense of identity tied to their local geography. The presence of a dike system can influence land use, agriculture, and even the economy of a region. For example, areas protected by a dike system tend to attract more investment and development, creating a cycle of growth that can further enhance the resilience of the community.Despite their benefits, dike systems also come with challenges. One major concern is the potential for complacency among residents who may believe that the dike system will always protect them from flooding. This mindset can lead to inadequate emergency preparedness and response plans. It is essential for communities to remain vigilant and recognize that while a dike system provides a level of security, it is not infallible.In conclusion, a well-constructed dike system plays a critical role in flood management and land protection. Its benefits extend beyond mere physical barriers; they foster economic development and community resilience. However, the effectiveness of a dike system depends on continuous investment, maintenance, and community awareness. As climate change continues to pose new challenges, the evolution of dike systems will be vital in ensuring that vulnerable regions can adapt and thrive in the face of adversity.
一个设计良好的dike system的重要性不容小觑,特别是在易受洪水影响的地区。dike system本质上是一系列土壤结构,用于控制水位并保护土地不被淹没。这些系统在管理河流流量和防止风暴潮影响人口稠密地区方面至关重要。在许多国家,尤其是像荷兰这样的低洼地形国家,dike systems经过几个世纪的发展,以保护农业用地和城市中心。dike system的一个主要优点是能够提供对自然灾害的屏障。例如,在强降雨或快速融雪期间,河流可能会溢出其堤岸,导致灾难性的洪水。一个强大的dike system可以帮助重新引导多余的水,最小化对周围社区的影响。此外,这些系统通常包含排水机制,允许控制水的释放,这对于维持生态平衡至关重要。然而,建设和维护dike system需要仔细规划和大量的财务投资。工程师必须考虑各种因素,包括土壤成分、水流模式和潜在的气候变化影响。dike system的设计必须足够坚韧,以承受极端天气事件,而这些事件由于全球变暖而变得越来越普遍。此外,定期检查和维护是确保dike system随时间保持有效的必要条件。此外,dike system的社会影响也是显著的。依赖这些结构进行保护的社区通常与当地地理环境有着强烈的身份认同感。dike system的存在可以影响土地使用、农业甚至一个地区的经济。例如,受到dike system保护的地区往往吸引更多的投资和发展,创造出一种增长的循环,这进一步增强了社区的韧性。尽管有其好处,dike systems也面临挑战。一个主要的担忧是居民可能会产生自满情绪,他们可能认为dike system将始终保护他们免受洪水影响。这种心态可能导致应急准备和响应计划不足。社区必须保持警惕,并认识到虽然dike system提供了一定程度的安全,但它并不是万无一失的。总之,一个建造良好的dike system在洪水管理和土地保护中发挥着至关重要的作用。它的好处超越了单纯的物理屏障;它们促进了经济发展和社区韧性。然而,dike system的有效性取决于持续的投资、维护和社区意识。随着气候变化继续带来新的挑战,dike systems的演变将在确保脆弱地区能够适应并在逆境中蓬勃发展方面发挥至关重要的作用。
