Early warning signals of abrupt temperature change in different regions of China over the past 50 years |
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作者姓名: | 仝纪龙 吴浩 侯威 何文平 周杰 |
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基金项目: | Project supported by the National Basic Research Program of China(Grant Nos.2012CB955902 and 2013CB430204);the National Natural Science Foundation of China(Grant Nos.41175067,41275074,and 41105033);the Special Scientific Research Project for Public Interest,China(Grant No.GYHY201106015) |
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摘 要: | In this paper, the early warning signals of abrupt temperature change in different regions of China are investigated. Seven regions are divided on the basis of different climate temperature patterns, obtained through the rotated empirical orthogonal function, and the signal-to-noise temperature ratios for each region are then calculated. Based on the concept of critical slowing down, the temperature data that contain noise in the different regions of China are preprocessed to study the early warning signals of abrupt climate change. First, the Mann-Kendall method is used to identify the instant of abrupt climate change in the temperature data. Second, autocorrelation coefficients that can identify critical slowing down are calculated. The results show that the critical slowing down phenomenon appeared in temperature data about 5-10 years before abrupt climate change occurred, which indicates that the critical slowing down phenomenon is a possible early warning signal for abrupt climate change, and that noise has less influence on the detection results of the early warning signals. Accordingly, this demonstrates that the model is reliable in identifying the early warning signals of abrupt climate change based on detecting the critical slowing down phenomenon, which provides an experimental basis for the actual application of the method.
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关 键 词: | 预警信号 温度变化 Mann-Kendall法 中国 旋转经验正交函数 气候突变 噪声温度 温度数据 |
Early warning signals of abrupt temperature change in different regions of China over the past 50 years |
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Abstract: | abrupt climate change, critical slowing down, rotated empirical orthogonal function, early warning signal |
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Keywords: | abrupt climate change critical slowing down rotated empirical orthogonal function early warning signal |
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