上世纪全球温度-降水相机制对比研究

IF 0.7 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES
A. P. Dimri, Pankaj Kumar, P. Maharana
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引用次数: 1

摘要

与1960年以前(工业化前时期)相比,全球降水模式发生了变化。到目前为止,气温已经上升了大约1摄氏度。大气中的保温成分因人类活动而升高。它正在影响大气气体和水蒸气的组成,导致对流层能量收支失衡,影响大气压力系统。大气变暖加剧导致蓄水能力上升。这些变化暗示了对比阶段:上个世纪气温下降(上升)-降水增加(减少)。研究了这些进相和出相的机理。总共观察到四种全球条件(两种冷湿和两种暖干)。这些时间片表明全球温度逐渐升高,降水减少。clusius - clapeyron关系表明近几十年的气候变暖和水汽压升高。此外,全球气候系统正转向异常的暖湿或暖干条件。此外,已经看到全球降水的对比变化,特别是在1960年(后工业化时期)之后。值得注意的是,在上个世纪有一个全球温度-降水相对比机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On the Global Contrasting Temperature-Precipitation Phase Mechanisms in the Last Century
Global precipitation patterns have changed compared to the before 1960 (pre-industrial period). By now the temperature has risen by approximately 1°C. The atmospheric heat-retaining constituents have been raised by human-induced activities. It is influencing the composition of the atmospheric gases and water vapour leading to tropospheric energy budget imbalance affecting atmospheric pressure systems. Increased atmospheric warming leads water holding capacity to rise. Such changes insinuated contrasting phases: decreased (increased) temperature- increased (decreased) precipitation in the last century. Mechanisms of these in- and out- phases are investigated. In the total four (two colder-wet and two warmer-dry) global conditions are observed. These time slices indicate a gradual increase in global temperature and a decrease in precipitation. Clausius-Clapeyron relation suggests abrupt warming and increased water vapour pressure in recent decades. In addition, the global climate system is shifting towards abnormal warm-wet or warm-dry conditions. Further, contrasting changes in global precipitation have been seen, in particular after 1960 (post-industrial period). It is significantly noted that there has been a global contrasting temperature-precipitation phase mechanism in the last century.
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来源期刊
Journal of Climate Change
Journal of Climate Change METEOROLOGY & ATMOSPHERIC SCIENCES-
自引率
16.70%
发文量
18
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