average annual precipitation
简明释义
年平均降水量;
英英释义
The average amount of rainfall that an area receives over the course of a year, typically measured in millimeters or inches. | 一个地区在一年内降雨量的平均值,通常以毫米或英寸为单位进行测量。 |
例句
1.Climate scientists study the average annual precipitation 年平均降水量 to understand climate change effects.
气候科学家研究年平均降水量 average annual precipitation以了解气候变化的影响。
2.The city experiences an average annual precipitation 年平均降水量 of 50 inches, making it one of the wettest places in the country.
这个城市的年平均降水量 average annual precipitation为50英寸,使其成为全国最潮湿的地方之一。
3.The average annual precipitation 年平均降水量 in deserts is often less than 10 inches.
沙漠地区的年平均降水量 average annual precipitation通常少于10英寸。
4.Regions with high average annual precipitation 年平均降水量 are often lush and green.
年平均降水量高的地区通常生机勃勃,绿意盎然。
5.Farmers rely on the average annual precipitation 年平均降水量 to determine the best crops to plant each season.
农民依赖年平均降水量 average annual precipitation来决定每个季节最适合种植的作物。
作文
Understanding the concept of average annual precipitation is crucial for various fields, including agriculture, urban planning, and environmental science. Precipitation refers to any form of water, liquid or solid, that falls from the atmosphere to the Earth's surface. This includes rain, snow, sleet, and hail. The term average annual precipitation specifically denotes the total amount of precipitation that falls in a particular area over the course of a year, averaged out over multiple years to account for variability and anomalies. For instance, if a region typically receives 1200 millimeters of rainfall each year, this figure represents its average annual precipitation. Understanding this average helps farmers determine what crops are suitable for their land, as different crops require specific amounts of water. In areas with high average annual precipitation, farmers might thrive with crops like rice, which need abundant water, while in drier regions, they may opt for drought-resistant varieties.Moreover, urban planners use data on average annual precipitation to design infrastructure that can handle the expected rainfall. This includes drainage systems, roads, and buildings. If a city experiences heavy rainfall, it must have adequate drainage to prevent flooding. Therefore, knowing the average annual precipitation allows planners to create better, more resilient designs that can withstand the effects of climate change, which may alter precipitation patterns.Environmental scientists also rely on average annual precipitation to study ecosystems and biodiversity. Different environments, such as deserts, forests, and wetlands, have distinct average annual precipitation levels that support varied flora and fauna. By understanding these averages, researchers can assess the health of ecosystems and make predictions about how changes in precipitation due to climate change could impact species survival.In addition, the average annual precipitation can influence water resource management. Regions with low average annual precipitation may struggle with water scarcity, necessitating the implementation of water conservation practices and technologies. Conversely, areas with high average annual precipitation might face challenges related to excess water, such as flooding and soil erosion. Effective management strategies must be tailored to the unique conditions of each region, considering their average annual precipitation levels.Furthermore, the average annual precipitation can also affect tourism. Areas known for their beautiful landscapes and natural attractions often have specific precipitation patterns that enhance their appeal. For example, regions with moderate average annual precipitation tend to have lush greenery, attracting tourists seeking outdoor activities. Conversely, areas with extreme precipitation may deter visitors due to concerns over weather-related disruptions.In conclusion, the concept of average annual precipitation plays a vital role in various sectors of society. From agriculture to urban planning and environmental research, understanding this metric allows us to make informed decisions that promote sustainability and resilience. As we continue to confront the challenges posed by climate change, a thorough comprehension of average annual precipitation will be indispensable for effective planning and management, ensuring that we can adapt to changing environmental conditions and preserve our natural resources for future generations.
理解年平均降水量的概念对农业、城市规划和环境科学等多个领域至关重要。降水是指从大气中降落到地球表面的任何形式的水,无论是液态还是固态。这包括雨、雪、冰雨和雹子。术语年平均降水量特指在特定区域一年内降水的总量,经过多年平均以考虑变异性和异常情况。例如,如果一个地区每年通常接收1200毫米的降雨,这个数字代表了它的年平均降水量。理解这个平均值有助于农民确定适合他们土地的作物,因为不同的作物需要特定数量的水。在降水量较高的地区,农民可能会选择像水稻这样的需要大量水的作物,而在干旱地区,他们可能会选择抗旱的品种。此外,城市规划者使用年平均降水量的数据来设计能够处理预期降雨的基础设施。这包括排水系统、道路和建筑物。如果一个城市经历大量降雨,它必须有足够的排水能力以防止洪水。因此,了解年平均降水量使规划者能够创造出更好、更具韧性的设计,以抵御气候变化的影响,这可能改变降水模式。环境科学家也依赖于年平均降水量来研究生态系统和生物多样性。不同的环境,如沙漠、森林和湿地,具有不同的年平均降水量水平,支持着各种各样的植物和动物。通过理解这些平均值,研究人员可以评估生态系统的健康状况,并预测气候变化导致的降水变化可能对物种生存产生的影响。此外,年平均降水量还会影响水资源管理。降水量低的地区可能面临水资源短缺的问题,因此需要实施水资源保护措施和技术。相反,降水量高的地区可能面临与过量水有关的挑战,例如洪水和土壤侵蚀。有效的管理策略必须根据每个地区的独特条件进行调整,考虑它们的年平均降水量水平。此外,年平均降水量还可能影响旅游业。以美丽的风景和自然景点而闻名的地区通常具有特定的降水模式,增强了其吸引力。例如,降水量适中的地区往往绿意盎然,吸引寻求户外活动的游客。相反,降水量极端的地区可能由于天气相关的干扰而阻碍游客。总之,年平均降水量的概念在社会的各个部门中发挥着至关重要的作用。从农业到城市规划和环境研究,理解这一指标使我们能够做出促进可持续性和韧性的明智决策。随着我们继续面对气候变化带来的挑战,全面理解年平均降水量将对有效规划和管理至关重要,确保我们能够适应不断变化的环境条件,并为后代保护我们的自然资源。
相关单词
