shore effect
简明释义
电磁波)海岸效应
英英释义
例句
1.The shore effect can lead to sudden changes in wind direction, affecting sailing conditions.
海岸效应shore effect可能导致风向的突然变化,从而影响航行条件。
2.The shore effect is responsible for the formation of fog along the coastline in the early morning.
海岸效应shore effect是清晨沿海地区雾气形成的原因。
3.Scientists study the shore effect to better predict storm surges and their impact on coastal communities.
科学家研究海岸效应shore effect以更好地预测风暴潮及其对沿海社区的影响。
4.During the summer, the shore effect often creates cooler temperatures near the beach compared to inland areas.
在夏季,海岸效应shore effect通常会导致海滩附近的温度比内陆地区更凉爽。
5.The shore effect can significantly influence local weather patterns, leading to increased precipitation in coastal areas.
海岸效应shore effect可以显著影响当地的天气模式,导致沿海地区降水量增加。
作文
The phenomenon known as the shore effect is a fascinating aspect of environmental science that has significant implications for coastal ecosystems. The shore effect refers to the way in which the land and water interface influences weather patterns, marine life, and even human activities. This interaction can lead to various outcomes, such as increased humidity, temperature variations, and changes in wind direction. Understanding the shore effect is crucial for environmentalists, meteorologists, and urban planners alike.To begin with, the shore effect plays a vital role in shaping local climates. Coastal areas often experience milder temperatures compared to inland regions due to the moderating influence of the ocean. During the day, the land heats up faster than the water, creating a temperature gradient that can lead to breezy conditions as air moves from high-pressure areas over the cooler water to low-pressure areas over the warmer land. Conversely, at night, the land cools down more quickly than the water, which can result in a temperature inversion that keeps coastal areas warmer than those further inland. This dynamic is a direct result of the shore effect and has implications for agriculture, tourism, and wildlife.Moreover, the shore effect significantly impacts marine ecosystems. Coastal waters are often rich in nutrients due to runoff from the land, which supports a diverse range of marine life. The mixing of warm and cold waters near the shore can also create ideal breeding grounds for fish and other aquatic organisms. However, human activities such as pollution and coastal development can disrupt these delicate ecosystems, leading to a decline in biodiversity. Recognizing the importance of the shore effect in maintaining healthy coastal environments is essential for conservation efforts.In addition to environmental implications, the shore effect also affects human activities. Coastal communities often depend on fishing, tourism, and recreation, all of which are influenced by the conditions created by the shore effect. For example, the presence of a strong sea breeze can enhance sailing conditions, while the temperature moderation can make coastal areas more attractive for tourists seeking a pleasant climate. However, as climate change continues to impact global weather patterns, the shore effect may become increasingly unpredictable, posing challenges for those who rely on coastal resources.Furthermore, understanding the shore effect is critical for urban planning and infrastructure development. Coastal cities must consider the potential impacts of rising sea levels, increased storm intensity, and changing weather patterns when designing buildings and public spaces. By taking the shore effect into account, planners can create more resilient communities that are better equipped to withstand the challenges posed by climate change.In conclusion, the shore effect is an essential concept that highlights the intricate connections between land and sea. Its influence on local climates, marine ecosystems, and human activities underscores the need for a holistic approach to coastal management. As we continue to face environmental challenges, a deeper understanding of the shore effect will be vital in promoting sustainable practices that protect both our natural resources and the communities that depend on them.
所谓的海岸效应是环境科学中的一个迷人现象,对沿海生态系统有着重要的影响。海岸效应指的是陆地和水域交界处如何影响天气模式、海洋生物甚至人类活动。这种相互作用可能导致多种结果,如湿度增加、温度变化和风向变化。理解海岸效应对环境学家、气象学家和城市规划者都至关重要。首先,海岸效应在塑造地方气候方面发挥着重要作用。由于海洋的调节作用,沿海地区的温度通常比内陆地区温和。在白天,陆地加热速度快于水体,形成温度梯度,导致空气从高压区域流向较冷的水面,形成微风。相反,在夜间,陆地降温速度快于水体,这可能导致温度倒置,使沿海地区比内陆地区更温暖。这种动态直接源于海岸效应,并对农业、旅游业和野生动物产生影响。此外,海岸效应对海洋生态系统也有显著影响。由于来自陆地的径流,沿海水域通常富含营养物质,支持着多样的海洋生物。海岸附近温暖与寒冷水域的混合也可以创造理想的鱼类及其他水生生物的繁殖地。然而,污染和沿海开发等人类活动可能会破坏这些脆弱的生态系统,导致生物多样性的下降。认识到海岸效应在维持健康沿海环境中的重要性对保护工作至关重要。除了环境影响,海岸效应还影响人类活动。沿海社区通常依赖渔业、旅游业和休闲活动,而这些活动都受到海岸效应所创造条件的影响。例如,强烈的海风可以改善航行条件,而温度的调节可以使沿海地区对寻求宜人气候的游客更具吸引力。然而,随着气候变化继续影响全球天气模式,海岸效应可能变得越来越不可预测,为依赖沿海资源的人们带来挑战。此外,理解海岸效应对城市规划和基础设施建设至关重要。沿海城市在设计建筑和公共空间时,必须考虑海平面上升、风暴强度增加和天气模式变化的潜在影响。通过考虑海岸效应,规划者可以创建更具韧性的社区,使其更好地应对气候变化带来的挑战。总之,海岸效应是一个重要概念,突显了陆地与海洋之间错综复杂的联系。它对地方气候、海洋生态系统和人类活动的影响强调了沿海管理需要采取整体方法。随着我们继续面对环境挑战,更深入地理解海岸效应对于促进可持续实践、保护我们的自然资源及依赖它们的社区将至关重要。
