accumulation area

简明释义

1. 堆积区; 2. 聚集区; 3. 积累区; 4. 聚集带;

英英释义

例句

1.In many mountain ranges, the accumulation area is located above the tree line.

在许多山脉中，积累区位于树线之上。

2.The accumulation area is where snow and ice build up over time.

积累区是雪和冰随着时间积累的地方。

3.Monitoring the accumulation area helps in understanding climate change effects.

监测积累区有助于了解气候变化的影响。

4.The glacier's accumulation area is crucial for its growth during winter months.

冰川的积累区在冬季的生长中至关重要。

5.Scientists measure the size of the accumulation area to predict water flow in spring.

科学家测量积累区的大小，以预测春季的水流。

作文

The concept of an accumulation area is crucial in understanding various natural processes, particularly in glaciology and hydrology. An accumulation area refers to a specific region where snow and ice accumulate over time, contributing to the overall mass of a glacier or ice sheet. This area typically receives more precipitation than it loses through melting and sublimation, leading to a net gain in ice volume. Understanding these regions is essential for predicting the behavior of glaciers and their contribution to sea-level rise.In many mountainous regions, the accumulation area is located at higher altitudes, where temperatures are lower and conditions are more favorable for snowfall. For instance, during winter months, these areas can receive significant snowfall that may not entirely melt during the warmer seasons. As a result, they serve as vital reservoirs of freshwater, feeding rivers and lakes as the ice melts in spring and summer.The dynamics of an accumulation area are influenced by various factors, including climate patterns, geographical features, and local weather conditions. For example, in some regions, prevailing winds may carry moist air that results in heavy snowfall in the accumulation zones. Conversely, changes in temperature and precipitation patterns due to climate change can lead to a reduction in the size of these areas, ultimately affecting the health of the entire glacier.Monitoring the size and health of accumulation areas is crucial for climate scientists. They utilize satellite imagery and ground-based measurements to track changes in ice volume and predict future trends. By understanding how these areas respond to changing climatic conditions, researchers can better assess the potential impacts on global sea levels and water resources.Moreover, the concept of accumulation areas extends beyond glaciology. In environmental science, similar principles apply to other systems, such as aquifers and watersheds, where water accumulates and sustains ecosystems. Recognizing the importance of these areas helps in managing natural resources and developing strategies for conservation.In conclusion, the accumulation area is a critical component in the study of glaciers and ice sheets, playing a significant role in the Earth's hydrological cycle. As climate change continues to impact these regions, understanding their dynamics will be vital for predicting future environmental changes and ensuring sustainable management of our planet's water resources. The implications of changes in accumulation areas extend far beyond their immediate locations, affecting ecosystems, human communities, and global sea levels. Therefore, ongoing research and monitoring are essential to grasp the complexities of these natural phenomena and to inform policies aimed at mitigating climate change effects.

“积累区”的概念在理解各种自然过程，特别是在冰川学和水文学中至关重要。“积累区”指的是一个特定区域，在该区域内，雪和冰随着时间的推移而积累，从而为冰川或冰盖的整体质量做出贡献。这个区域通常接收的降水量超过通过融化和升华失去的水量，导致冰体积的净增加。了解这些区域对于预测冰川的行为及其对海平面上升的贡献是必不可少的。在许多山区，“积累区”位于较高的海拔，那里温度较低，降雪条件更为有利。例如，在冬季，这些区域可能会接收到大量降雪，而这些降雪在温暖季节并不会完全融化。因此，它们作为淡水的重要储存库，在春夏季节冰融化时为河流和湖泊提供水源。“积累区”的动态受多种因素的影响，包括气候模式、地理特征和局部天气条件。例如，在某些地区，盛行风可能会带来潮湿空气，从而导致积累区内的降雪量增加。相反，由于气候变化，温度和降水模式的变化可能导致这些区域的大小减少，最终影响整个冰川的健康。监测“积累区”的大小和健康状况对气候科学家至关重要。他们利用卫星图像和地面测量来跟踪冰体积的变化并预测未来趋势。通过了解这些区域如何响应气候条件的变化，研究人员可以更好地评估对全球海平面和水资源的潜在影响。此外，“积累区”的概念超越了冰川学。在环境科学中，类似的原则适用于其他系统，如含水层和流域，其中水积累并维持生态系统。认识到这些区域的重要性有助于管理自然资源并制定保护战略。总之，“积累区”是研究冰川和冰盖的重要组成部分，在地球水文循环中发挥着重要作用。随着气候变化继续影响这些区域，理解它们的动态将对预测未来环境变化以及确保我们星球水资源的可持续管理至关重要。“积累区”的变化影响不仅限于其直接位置，还影响生态系统、人类社区和全球海平面。因此，持续的研究和监测对于掌握这些自然现象的复杂性以及为减轻气候变化影响的政策提供信息至关重要。