teleconnection
简明释义
英[/ˌtɛlɪkəˈnɛkʃən/]美[/ˌtɛlɪkəˈnɛkʃən/]
n. (纹泥或其他沉积物的)远程并置对比(用于确定年代)
英英释义
单词用法
同义词
反义词
| 断开 | The disconnection between the two systems caused a significant delay. | 这两个系统之间的断开导致了显著的延迟。 | |
| 孤立 | Isolation of the weather patterns can lead to unpredictable conditions. | 天气模式的孤立可能导致不可预测的情况。 |
例句
1.The results indicate that there is better relationship between the departure accumulation of the index STPNA (PNA teleconnection pattern of the North Pacific SST) and flood season rainfall in china.
结果表明:STPNA(海温的太平洋北美遥相关型)指数距平累积和与江淮流域夏季降水有密切的相关,与全国雨带的类型也有较好的联系。
2.Based on the monthly data of five teleconnection pattern indices in Northern Hemisphere and SOI during the years of 1951 -1990, the discriminant model for diagnosing el Nino event is presented.
根据1951—1990年的北半球五个遥相关型的逐月强度指数以及南方涛动指数,建立了一个用于厄尔尼诺统计诊断的判别模型。
3.To further reveal the relevant mechanism of the NISM on the rainfall of Hetao, we discuss the relation from two aspects of teleconnection and water vapor transport.
进一步通过遥相关和水汽输送揭示了北印度夏季风强弱与中国河套盛夏降水的联系途径。
4.The results show: (1) There are some teleconnection relations between the changes of the monthly mean OLR departure and the impact of the TC in southern China;
研究结果表明:OLR月平均距平场的变化与TC在华南地区的活动具有一定的遥相关关系;
5.From the space point of views, there is teleconnection relationship between them and its contribution which is greater in Northwest China than that in East China.
从空间上看,海温对降水的影响存在遥相关关系,其贡献在西北地区大于东部地区。
6.The results indicate that there is better relationship between the departure accumulation of the index STPNA (PNA teleconnection pattern of the North Pacific SST) and flood season rainfall in china.
结果表明:STPNA(海温的太平洋北美遥相关型)指数距平累积和与江淮流域夏季降水有密切的相关,与全国雨带的类型也有较好的联系。
7.At this frequency band EU and ea teleconnection patterns can be excited by the thermal forcing of the variation of the sea ice cover.
在这一频带上,海冰面积变化的热力强迫作用可分别激发出EU和EA大气遥相关型。
8.In this paper, air-sea thermal teleconnection is analyzed.
本文分析了海气热力遥相关联系。
9.This suggests that ENSO accomplishes atmospheric teleconnection to the tropical Indian Ocean through the air-sea heat flux changes, generated positive anomaly in the basin .
这意味着热带太平洋的ENSO信号通过海气界面的热量交换实现对热带印度洋地区的遥强迫,导致印度洋海盆尺度的增暖。
10.Results show that teleconnection horizontal structures of different low frequencies (LF) have similar wave trains though they exist discrepancy features.
结果表明:不同低频频率的遥相关水平结构既有相似的波列结构,也存在相异的特征。
11.Understanding teleconnections 遥相关 can help farmers make better decisions regarding crop planting.
理解遥相关可以帮助农民更好地决定作物种植。
12.The study of climate patterns often involves analyzing the teleconnection 遥相关 between different regions.
气候模式的研究通常涉及分析不同地区之间的遥相关。
13.The teleconnection 遥相关 between ocean temperatures and atmospheric conditions is crucial for climate models.
海洋温度与大气条件之间的遥相关对气候模型至关重要。
14.Meteorologists use teleconnections 遥相关 to predict weather changes based on distant climate phenomena.
气象学家利用遥相关来根据遥远的气候现象预测天气变化。
15.El Niño is a well-known example of a teleconnection 遥相关 that affects global weather patterns.
厄尔尼诺是影响全球天气模式的一个著名遥相关例子。
作文
The concept of teleconnection refers to the climate phenomenon in which weather patterns and climatic conditions in one region can influence those in another, often distant, area. This intriguing relationship is essential for understanding global climate dynamics. The study of teleconnection has gained significant attention in recent years as scientists strive to grasp the complexities of our planet's climate system.One of the most well-known examples of teleconnection is the El Niño Southern Oscillation (ENSO). El Niño events can lead to drastic changes in weather across the globe, from increased rainfall in some regions to droughts in others. For instance, during an El Niño year, the western coast of South America may experience heavy rainfall, while areas in Southeast Asia might suffer from severe drought. This is a clear demonstration of how interconnected our climate systems are, as changes in ocean temperatures can ripple through the atmosphere, affecting weather patterns thousands of miles away.Another important aspect of teleconnection is its role in seasonal forecasting. Meteorologists utilize patterns of teleconnection to predict weather conditions months in advance. By analyzing historical data and identifying correlations between different regions, forecasters can make informed predictions about temperature and precipitation trends. For example, the Arctic Oscillation is a teleconnection pattern that influences winter weather in North America and Europe. Understanding this connection allows meteorologists to issue warnings about potential cold snaps or heavy snowfall, helping communities prepare for extreme weather events.The implications of teleconnection extend beyond just weather prediction; they also play a crucial role in agriculture, water resource management, and disaster preparedness. Farmers rely on seasonal forecasts influenced by teleconnection patterns to determine planting and harvesting times. Similarly, water resource managers must consider these patterns when planning for droughts or floods, ensuring that communities have access to adequate water supplies.Moreover, as climate change continues to alter the dynamics of our planet, the study of teleconnection becomes even more vital. Researchers are investigating how rising temperatures and shifting weather patterns may affect these connections. For instance, will the frequency and intensity of El Niño events increase? How will changes in sea surface temperatures impact teleconnection patterns? These questions are critical for developing effective strategies to mitigate the impacts of climate change.In conclusion, the phenomenon of teleconnection highlights the intricate web of interactions that exist within our climate system. From influencing local weather patterns to shaping global climate dynamics, understanding teleconnection is essential for accurate weather forecasting and effective resource management. As we continue to face the challenges posed by climate change, the importance of studying these connections will only grow, emphasizing the need for collaborative efforts in climate science and environmental stewardship.
“teleconnection”这个概念指的是气候现象,其中一个地区的天气模式和气候条件可以影响另一个通常遥远的地区。这种引人入胜的关系对于理解全球气候动态至关重要。近年来,随着科学家努力掌握我们星球气候系统的复杂性,teleconnection的研究受到了显著关注。最著名的teleconnection例子之一是厄尔尼诺南方涛动(ENSO)。厄尔尼诺事件会导致全球天气发生剧烈变化,从某些地区的降雨增加到其他地区的干旱。例如,在厄尔尼诺年,南美洲西海岸可能会经历强降雨,而东南亚地区可能遭遇严重干旱。这清楚地展示了我们的气候系统是如何相互关联的,因为海洋温度的变化可以通过大气传播,影响数千英里之外的天气模式。teleconnection的另一个重要方面是它在季节性预测中的作用。气象学家利用teleconnection模式来预测几个月后的天气状况。通过分析历史数据并识别不同地区之间的相关性,预报员可以对温度和降水趋势做出明智的预测。例如,北极振荡是影响北美和欧洲冬季天气的teleconnection模式。了解这种联系使气象学家能够发出关于潜在寒流或大雪的警告,帮助社区为极端天气事件做好准备。此外,随着气候变化继续改变我们星球的动态,研究teleconnection变得更加重要。研究人员正在调查气温上升和天气模式变化可能如何影响这些连接。例如,厄尔尼诺事件的频率和强度会增加吗?海面温度的变化将如何影响teleconnection模式?这些问题对于制定有效的减缓气候变化影响的策略至关重要。总之,teleconnection现象突显了我们气候系统中存在的复杂互动网络。从影响地方天气模式到塑造全球气候动态,理解teleconnection对于准确的天气预报和有效的资源管理至关重要。随着我们继续面临气候变化带来的挑战,研究这些联系的重要性只会增加,强调气候科学和环境保护合作努力的必要性。
