above-normal gradient

简明释义

正异常梯度;

英英释义

例句

1.In the analysis of climate data, an above-normal gradient of precipitation was observed in the region.

在气候数据分析中，观察到该地区降水量的高于正常的梯度。

2.The geologist noted an above-normal gradient in temperature, indicating a potential volcanic activity area.

地质学家注意到温度的高于正常的梯度，这表明潜在的火山活动区域。

3.The meteorologist reported an above-normal gradient in wind speed, which could lead to severe weather conditions.

气象学家报告了风速的高于正常的梯度，这可能导致严重的天气条件。

4.The engineer adjusted the design to accommodate the above-normal gradient of pressure in the pipeline.

工程师调整设计以适应管道中高于正常的梯度的压力。

5.During the hike, we encountered an above-normal gradient that made the trail more challenging.

在远足过程中，我们遇到了一个高于正常的梯度，使得小径更加具有挑战性。

作文

In the realm of environmental science, understanding various gradients is crucial for analyzing ecological systems. One specific term that often comes up in discussions about climate change and its effects on ecosystems is above-normal gradient. This term refers to a situation where certain environmental factors, such as temperature or precipitation, are higher than the average expected levels. For instance, if we observe a region experiencing temperatures significantly above the historical averages, we can say that this area is under an above-normal gradient of temperature. This phenomenon can have profound implications for local flora and fauna, as many species rely on specific temperature ranges for their survival and reproduction.The concept of an above-normal gradient is not limited to temperature alone. It can also apply to other environmental variables, such as humidity, soil moisture, and even pollution levels. When these factors exceed normal ranges, they can disrupt the delicate balance of ecosystems. For example, an above-normal gradient in rainfall can lead to flooding, which may destroy habitats and displace wildlife. Conversely, if there is a prolonged period of drought, the lack of water can create stress on plant and animal populations, leading to decreased biodiversity.Furthermore, the implications of an above-normal gradient extend beyond immediate environmental impacts. They can also affect human communities. In agricultural regions, farmers depend on predictable weather patterns to plan their planting and harvesting schedules. An above-normal gradient in temperature or rainfall can lead to crop failures or reduced yields, impacting food supply and economic stability. Therefore, it is essential for policymakers and scientists to monitor these gradients closely and develop strategies to mitigate their effects.In urban areas, an above-normal gradient in pollution levels can pose significant health risks to residents. Higher concentrations of pollutants can lead to respiratory problems and other health issues, particularly in vulnerable populations such as children and the elderly. Understanding these gradients allows city planners to implement measures to improve air quality and protect public health.As climate change continues to influence global weather patterns, the frequency and intensity of above-normal gradients are likely to increase. This underscores the importance of research in environmental science and the need for sustainable practices to reduce our impact on the planet. By studying these gradients, scientists can better predict future changes in ecosystems and develop adaptive strategies for both wildlife and human populations.In conclusion, the term above-normal gradient encapsulates a critical aspect of environmental monitoring and analysis. Whether it pertains to temperature, precipitation, or pollution, understanding these gradients is vital for maintaining ecological balance and ensuring the well-being of both natural and human communities. As we face the challenges posed by climate change, recognizing and addressing above-normal gradients will be essential for fostering resilience and sustainability in our world.

在环境科学领域，理解各种梯度对分析生态系统至关重要。一个在关于气候变化及其对生态系统影响的讨论中经常出现的特定术语是高于正常梯度。这个术语指的是某些环境因素，如温度或降水量，高于预期的平均水平。例如，如果我们观察到一个地区的温度显著高于历史平均水平，我们可以说该地区处于一个高于正常梯度的温度状态。这种现象对当地植物和动物有深远的影响，因为许多物种依赖于特定的温度范围来生存和繁殖。高于正常梯度的概念不仅限于温度。它也可以适用于其他环境变量，如湿度、土壤湿度甚至污染水平。当这些因素超过正常范围时，它们可能会破坏生态系统的微妙平衡。例如，降雨量的高于正常梯度可能导致洪水，这可能摧毁栖息地并使野生动物流离失所。相反，如果有长时间的干旱，缺乏水分可能会给植物和动物种群带来压力，导致生物多样性的下降。此外，高于正常梯度的影响不仅限于直接的环境影响。它们还可能影响人类社区。在农业地区，农民依赖可预测的天气模式来规划他们的种植和收获时间表。温度或降水量的高于正常梯度可能导致作物失败或产量减少，从而影响食品供应和经济稳定。因此，政策制定者和科学家必须密切监测这些梯度，并制定减轻其影响的策略。在城市地区，污染水平的高于正常梯度可能对居民构成重大健康风险。污染物浓度的增加可能导致呼吸问题和其他健康问题，特别是在儿童和老年人等脆弱人群中。理解这些梯度使城市规划者能够实施改善空气质量和保护公共健康的措施。随着气候变化继续影响全球天气模式，高于正常梯度的频率和强度可能会增加。这凸显了环境科学研究的重要性以及减少我们对地球影响的可持续实践的必要性。通过研究这些梯度，科学家可以更好地预测生态系统未来的变化，并为野生动物和人类群体制定适应策略。总之，术语高于正常梯度概括了环境监测和分析的一个关键方面。无论是涉及温度、降水还是污染，理解这些梯度对于维持生态平衡和确保自然与人类社区的福祉至关重要。面对气候变化带来的挑战，识别和应对高于正常梯度将对促进我们世界的韧性和可持续性至关重要。