river regulation

简明释义

河霖制

英英释义

例句

1.The government has implemented new policies for river regulation 河流管理 to prevent flooding in urban areas.

政府实施了新的政策进行河流管理 river regulation，以防止城市地区的洪水。

2.Studies show that poor river regulation 河流管理 contributes to erosion and habitat loss.

研究表明，不良的河流管理 river regulation会导致侵蚀和栖息地丧失。

3.Local communities are involved in river regulation 河流管理 efforts to maintain clean waterways.

当地社区参与河流管理 river regulation工作，以保持水道清洁。

4.Effective river regulation 河流管理 can enhance biodiversity in aquatic ecosystems.

有效的河流管理 river regulation可以增强水生生态系统的生物多样性。

5.The construction of dams is a common method of river regulation 河流管理 to control water flow.

修建大坝是控制水流的一种常见的河流管理 river regulation方法。

作文

River regulation, or 河流调节, refers to the various methods and strategies employed to manage river systems for the purpose of controlling water flow, preventing flooding, and optimizing water resources for human use. This concept is critical in the context of urban planning, agriculture, and environmental conservation. In many regions around the world, rivers are vital lifelines that provide water for drinking, irrigation, and industry. However, they can also pose significant risks when they overflow their banks during periods of heavy rainfall or snowmelt. Therefore, effective 河流调节 plays a crucial role in mitigating these risks and ensuring the sustainable use of water resources.One of the primary techniques used in 河流调节 is the construction of dams and levees. Dams are built to create reservoirs that store excess water, which can be released gradually to maintain a steady flow downstream. This not only helps in flood prevention but also provides a reliable water supply during dry periods. Levees, on the other hand, are embankments constructed alongside rivers to prevent overflow. While these structures can be highly effective in managing water levels, they also come with environmental consequences, such as altering natural habitats and affecting aquatic life.Another important aspect of 河流调节 involves the restoration of natural riverbanks and wetlands. These ecosystems serve as natural buffers against flooding and play a significant role in filtering pollutants from the water. By restoring these areas, we can enhance the river's ability to absorb excess water and reduce the impact of floods. Additionally, healthy wetlands support biodiversity and provide essential habitats for various species.Furthermore, modern technology has introduced innovative approaches to 河流调节. For instance, advanced modeling and simulation tools allow engineers and planners to predict how changes in land use or climate conditions may affect river systems. This data-driven approach enables more informed decision-making and helps to develop adaptive management strategies that can respond to changing circumstances.In addition to physical structures and ecological restoration, community involvement is vital for successful 河流调节. Local populations often have valuable knowledge about their river systems and can contribute to monitoring efforts and conservation initiatives. Engaging communities in the planning process fosters a sense of ownership and responsibility, which can lead to more effective and sustainable outcomes.Despite the benefits of 河流调节, there are challenges that must be addressed. Climate change poses a significant threat to river systems, leading to unpredictable weather patterns and increased frequency of extreme events such as floods and droughts. Policymakers must consider these factors when designing 河流调节 strategies to ensure they remain effective in the face of changing conditions.In conclusion, 河流调节 is an essential practice for managing our water resources and protecting communities from the dangers associated with flooding. By employing a combination of engineering solutions, ecological restoration, and community engagement, we can create resilient river systems that serve both people and the environment. As we move forward, it is crucial to remain adaptable and responsive to the evolving challenges posed by climate change and urban development, ensuring that our rivers continue to thrive for generations to come.

河流调节，或河流调节，指的是为控制水流、预防洪水以及优化人类用水资源而采用的各种方法和策略。这个概念在城市规划、农业和环境保护的背景下至关重要。在世界许多地区，河流是提供饮用水、灌溉和工业用水的重要生命线。然而，当它们在暴雨或融雪期间溢出河岸时，也会带来重大风险。因此，有效的河流调节在减轻这些风险和确保水资源可持续利用方面发挥着关键作用。在河流调节中使用的主要技术之一是建造大坝和堤坝。大坝是为了创建储存多余水量的水库而建造的，可以逐渐释放水以维持下游的稳定流量。这不仅有助于防止洪水，还在干旱时期提供可靠的水源。另一方面，堤坝是沿河建造的堤岸，用于防止溢出。虽然这些结构在管理水位方面非常有效，但它们也带来了环境后果，例如改变自然栖息地和影响水生生物。河流调节的另一个重要方面涉及自然河岸和湿地的恢复。这些生态系统作为洪水的自然缓冲区，并在过滤水中的污染物方面发挥重要作用。通过恢复这些区域，我们可以增强河流吸收多余水量的能力，减少洪水的影响。此外，健康的湿地支持生物多样性，为各种物种提供必要的栖息地。此外，现代技术引入了创新的方法来进行河流调节。例如，先进的建模和模拟工具使工程师和规划者能够预测土地使用或气候条件变化如何影响河流系统。这种数据驱动的方法使得决策更加明智，有助于制定适应性管理策略，以应对不断变化的情况。除了物理结构和生态恢复之外，社区参与对于成功的河流调节至关重要。当地居民通常对他们的河流系统拥有宝贵的知识，可以为监测工作和保护倡议做出贡献。让社区参与规划过程培养了一种归属感和责任感，这可以导致更有效和可持续的结果。尽管河流调节有许多好处，但仍然存在需要解决的挑战。气候变化对河流系统构成重大威胁，导致不可预测的天气模式和极端事件（如洪水和干旱）频率增加。政策制定者在设计河流调节策略时必须考虑这些因素，以确保它们在面对变化条件时仍然有效。总之，河流调节是管理水资源和保护社区免受洪水相关危险的重要实践。通过结合工程解决方案、生态恢复和社区参与，我们可以创建既服务于人类又保护环境的强大河流系统。随着我们向前发展，必须保持适应性和应对能力，以应对气候变化和城市发展的不断挑战，确保我们的河流在未来几代人中继续繁荣。