增加了约27天后麦登-朱利安振荡的消失概率

Álvaro Corral, Mónica Minjares, Marcelo Barreiro
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摘要

麦登-朱利安涛动(MJO)是一个对热带及其他地区有重要影响的热带天气系统;然而,人们对它的许多特征知之甚少,包括它的起始和终止。在这里,我们将Madden-Julian事件定义为具有活动MJO的连续时间段,并且我们表明,这些事件的持续时间和大小都可以用双幂律分布很好地描述。因此,小事件没有特征尺度,大事件也没有特征尺度;然而,这两种类型的事件之间相隔大约27天的特征持续时间(大致相当于半个周期)。因此,在27天后,一个事件消失的可能性急剧增加。我们发现这种效应与事件的开始和结束阶段无关,这似乎指向了耗尽的内部机制,而不是外部障碍的影响。我们的结果暗示MJO作为亚季节可预测性驱动因素的一个重要限制。
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Increased extinction probability of the Madden-Julian oscillation after about 27 days
The Madden-Julian oscillation (MJO) is a tropical weather system that has an important influence in the tropics and beyond; however, many of its characteristics are poorly understood, including their initiation and termination. Here we define Madden-Julian events as contiguous time periods with an active MJO, and we show that both the durations and the sizes of these events are well described by a double power-law distribution. Thus, small events have no characteristic scale, and the same for large events; nevertheless, both types of events are separated by a characteristic duration of about 27 days (this corresponds to half a cycle, roughly). Thus, after 27 days, there is a sharp increase in the probability that an event becomes extinct. We find that this effect is independent of the starting and ending phases of the events, which seems to point to an internal mechanism of exhaustion rather than to the effect of an external barrier. Our results would imply an important limitation of the MJO as a driver of subseasonal predictability.
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