Modelling rainfall trends in England and Wales

T. Mills
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引用次数: 3

Abstract

Abstract The monthly England and Wales precipitation (EWP) series (once power transformed to induce symmetry and to stabilise variance) may be characterised as having linear seasonal trends with a white noise error process superimposed. However, these trends are not stable, for they are interrupted by four regime shifts occurring in 1828, 1871, 1917 and 1976. If these shifts are ignored then the series is consistent with a trend pattern in which winters are becoming increasingly wet and summers drier. If only the last regime from 1976 is considered, then summers are still becoming drier but winters have no trend, with spring becoming wetter. The unusually wet winter of 2014 is seen to have been a consequence of very high January and February rainfall relative to that predicted, the conjunction of which is unprecedented during the two and a half centuries over which the EWP series has been available, during which time such pairs of values have been essentially uncorrelated.
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模拟英格兰和威尔士的降雨趋势
月英格兰和威尔士降水(EWP)系列(一旦幂变换以诱导对称性并稳定方差)可以表征为具有叠加白噪声误差过程的线性季节性趋势。然而,这些趋势并不稳定,因为它们被发生在1828年、1871年、1917年和1976年的四次政权转移所中断。如果忽略这些变化,那么该系列与冬季越来越潮湿,夏季越来越干燥的趋势模式是一致的。如果只考虑1976年的最后一个政权,那么夏季仍然变得更干燥,但冬季没有趋势,春季变得更潮湿。2014年异常潮湿的冬季被认为是由于1月和2月的降雨量相对于预测而言非常高的结果,这在EWP系列可用的两个半世纪中是前所未有的,在此期间这些值对基本上是不相关的。
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Cogent Geoscience
Cogent Geoscience GEOSCIENCES, MULTIDISCIPLINARY-
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