confine waters

简明释义

受限制的水域

英英释义

例句

1.Local authorities are working to confine waters 限制水流 to avoid erosion of the riverbanks.

地方当局正在努力限制水流以避免河岸侵蚀。

2.The project aims to confine waters 限制水流 within the reservoir for better management.

该项目旨在更好地管理水库中的限制水流。

3.The flood control measures were implemented to confine waters 限制水流 during extreme weather.

在极端天气期间实施了防洪措施，以限制水流。

4.To prevent flooding, the city decided to confine waters 限制水流 in designated areas.

为了防止洪水，城市决定在指定区域内限制水流。

5.The engineers designed the dam to confine waters 限制水流 during heavy rains.

工程师们设计了大坝，以在暴雨期间限制水流。

作文

Water is one of the most essential resources on our planet, supporting life in various forms. However, the management and distribution of water have become increasingly challenging due to climate change, population growth, and pollution. One crucial aspect of water management is the ability to confine waters (限制水域) to ensure that they are used sustainably and effectively. This essay will explore the significance of confining waters, the methods employed to achieve this, and the potential benefits and drawbacks associated with such practices.To begin with, confine waters (限制水域) refers to the practice of controlling and managing water bodies, such as rivers, lakes, and reservoirs, to prevent flooding, conserve resources, and maintain ecological balance. By confining waters, we can create designated areas for water storage, irrigation, and recreational activities while protecting surrounding ecosystems from degradation. This practice is particularly important in urban areas where rapid development often leads to increased runoff and pollution.One common method of confining waters is the construction of dams and levees. Dams serve multiple purposes, including generating hydroelectric power, providing water for irrigation, and creating recreational lakes. Levees, on the other hand, are embankments built along riverbanks to prevent overflow during heavy rainfall or snowmelt. While these structures can be highly effective in managing water resources, they also come with significant environmental and social costs. For instance, damming rivers can disrupt local ecosystems, displace communities, and alter sediment transport, which can lead to erosion downstream.In addition to physical barriers, modern technology has introduced innovative ways to confine waters (限制水域). Advanced monitoring systems, such as satellite imagery and remote sensing, allow us to track water levels and quality in real-time. This data can inform decision-making regarding water allocation and conservation efforts. Furthermore, the implementation of sustainable practices, such as rainwater harvesting and constructed wetlands, helps to manage water resources more efficiently without relying solely on traditional engineering solutions.The benefits of confining waters are manifold. By regulating water flow and availability, we can enhance agricultural productivity, support biodiversity, and mitigate the impacts of extreme weather events. For example, controlled irrigation systems enable farmers to optimize water usage, reducing waste and increasing crop yields. Additionally, well-managed water bodies can provide habitats for various species, contributing to overall ecosystem health.However, it is essential to consider the potential drawbacks of confining waters. The alteration of natural water flows can lead to unintended consequences, such as the loss of wetlands and decreased groundwater recharge. Moreover, communities that rely on free-flowing rivers for their livelihoods may face challenges if their access to water is restricted. It is crucial to strike a balance between human needs and environmental sustainability when implementing water management strategies.In conclusion, the practice of confine waters (限制水域) plays a vital role in ensuring sustainable water management in an increasingly uncertain world. While there are numerous benefits associated with this practice, it is essential to approach it with caution and consideration for the environment and affected communities. By employing a combination of traditional engineering methods and modern technology, we can create a more resilient and sustainable future for our water resources.

水是我们星球上最重要的资源之一，支持着各种形式的生命。然而，由于气候变化、人口增长和污染，水的管理和分配变得越来越具有挑战性。水管理的一个关键方面是能够限制水域（confine waters），以确保水资源的可持续和有效利用。本文将探讨限制水域的重要性、实现这一目标的方法以及与此类实践相关的潜在好处和弊端。首先，限制水域（confine waters）指的是控制和管理水体，如河流、湖泊和水库，以防止洪水、保护资源和维持生态平衡。通过限制水域，我们可以创建指定的水储存、灌溉和休闲活动区域，同时保护周围生态系统免受退化。这一做法在城市地区尤为重要，因为快速发展往往导致径流增加和污染。限制水域的一种常见方法是建造大坝和堤坝。大坝具有多重用途，包括发电、提供灌溉用水和创造娱乐湖泊。另一方面，堤坝是沿河岸建造的土堤，用于防止在大雨或融雪期间溢出。虽然这些结构在管理水资源方面可能非常有效，但它们也带来了显著的环境和社会成本。例如，拦河大坝可能会破坏当地生态系统、迫使社区迁移，并改变沉积物运输，导致下游侵蚀。除了物理障碍，现代技术还引入了创新的方法来限制水域（confine waters）。先进的监测系统，如卫星图像和遥感技术，使我们能够实时跟踪水位和水质。这些数据可以为水的分配和保护工作提供决策依据。此外，雨水收集和人工湿地等可持续实践的实施，有助于更高效地管理水资源，而不单单依赖传统的工程解决方案。限制水域的好处是多方面的。通过调节水流和水的可用性，我们可以提高农业生产力、支持生物多样性，并减轻极端天气事件的影响。例如，控制灌溉系统使农民能够优化水的使用，减少浪费并增加作物产量。此外，管理良好的水体可以为各种物种提供栖息地，促进整体生态系统的健康。然而，考虑到限制水域的潜在缺点也至关重要。自然水流的改变可能导致意想不到的后果，例如湿地的丧失和地下水补给的减少。此外，依赖自由流动河流谋生的社区，可能会面临水源受限的挑战。在实施水管理策略时，必须在人类需求和环境可持续性之间找到平衡。总之，限制水域（confine waters）的做法在确保在日益不确定的世界中实现可持续水管理方面发挥着至关重要的作用。尽管与这一做法相关的好处众多，但在进行时必须谨慎行事，考虑环境和受影响社区的情况。通过结合传统的工程方法和现代技术，我们可以为我们的水资源创造一个更加韧性和可持续的未来。