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摘 要:為研究蒸发序列非一致性,增强水文频率计算的稳定性,以黄河流域典型三级区蒸发序列为研究对象,以GAMLSS模型为基础,选择黄河流域5个典型水资源三级区,引入时间t作为解释变量进行参数拟合,分析各三级区年、汛期、非汛期蒸发序列的非一致性特征。采用Kendall法进行趋势检验,Mann-Kendall法和5 a滑动T检验法进行突变检验。分析结果表明:①伊洛河、三门峡—小浪底区间、花园口以下干流区间的蒸发序列突变较为明显,大夏河与洮河、湟水蒸发序列的突变存在一定的差异;②5个三级区不同时间尺度的蒸发序列以Generalized Gamma为最优分布的最多,Logistics的最少;③5个三级区不同时间尺度的蒸发序列除部分序列外,均与时间t成负相关,大部分蒸发数据均包含在置信水平为5%和95%的置信区间内,表明不同时间尺度的蒸发序列的GAMLSS模型拟合效果较好;④5个三级区蒸发序列非一致性特征较为明显,以花园口以下干流区间年、非汛期蒸发序列的非一致性特征最为明显。
关键词:GAMLSS;非一致性;蒸发序列;三级区;黄河流域
中图分类号:P333;TV882.1 文献标志码:A
doi:10.3969/j.issn.1000-1379.2021.08.004
引用格式:张彩玲,鲁帆,方文,等.黄河流域典型三级区蒸发序列非一致性分析[J].人民黄河,2021,43(8):19-25.
Abstract: In order to study the inconsistency of evaporation series and increase the certainty of hydrological frequency calculation, this paper took the evaporation series of typical third-level regions in the Yellow River Basin as the research object. Based on the GAMLSS model, it selected five typical water resources third-level regions in the Yellow River Basin, introduced the time t as an explanatory variable to fit the parameters, and analyzed the non-uniform characteristics of the evaporating sequences in the three-stage regions of the year, flood season and non-flood period. The Kendall method was used for trend test and the mutation test was performed by using Mann-kendall and 5-year sliding T method. The results show that: a) the evaporation sequence of the Yiluo River, Sanmenxia-Xiaolangdi reach and the main stream below the Huayuankou is more obvious and the mutations of evaporation sequence of Daxia, Taohe and Huangshui Rivers are different; b) the evaporation sequence at different time scales in the third-level region is the most optimal distribution with the most Generalized Gamma, and the Logistics is the least; c) the evaporation sequence on the different time scales of the five tertiary regions is negatively correlated with the time t except for some sequences. Most of the evaporation data are included in the confidence interval of 5% and 95% confidence level, indicating that the GAMLSS model of the evaporation sequence on different time scales has a better fitting effect; d) the five third-level evaporation sequences are not consistent. The sexual characteristics are more obvious. The non-uniform characteristics of the annual and non-flood season evaporation sequences in the main stream below the Huayuankou are the most obvious.
Key words: GAMLSS; non-stationary; evaporation sequence; tertiary zone; Yellow River Basin
关键词:GAMLSS;非一致性;蒸发序列;三级区;黄河流域
中图分类号:P333;TV882.1 文献标志码:A
doi:10.3969/j.issn.1000-1379.2021.08.004
引用格式:张彩玲,鲁帆,方文,等.黄河流域典型三级区蒸发序列非一致性分析[J].人民黄河,2021,43(8):19-25.
Abstract: In order to study the inconsistency of evaporation series and increase the certainty of hydrological frequency calculation, this paper took the evaporation series of typical third-level regions in the Yellow River Basin as the research object. Based on the GAMLSS model, it selected five typical water resources third-level regions in the Yellow River Basin, introduced the time t as an explanatory variable to fit the parameters, and analyzed the non-uniform characteristics of the evaporating sequences in the three-stage regions of the year, flood season and non-flood period. The Kendall method was used for trend test and the mutation test was performed by using Mann-kendall and 5-year sliding T method. The results show that: a) the evaporation sequence of the Yiluo River, Sanmenxia-Xiaolangdi reach and the main stream below the Huayuankou is more obvious and the mutations of evaporation sequence of Daxia, Taohe and Huangshui Rivers are different; b) the evaporation sequence at different time scales in the third-level region is the most optimal distribution with the most Generalized Gamma, and the Logistics is the least; c) the evaporation sequence on the different time scales of the five tertiary regions is negatively correlated with the time t except for some sequences. Most of the evaporation data are included in the confidence interval of 5% and 95% confidence level, indicating that the GAMLSS model of the evaporation sequence on different time scales has a better fitting effect; d) the five third-level evaporation sequences are not consistent. The sexual characteristics are more obvious. The non-uniform characteristics of the annual and non-flood season evaporation sequences in the main stream below the Huayuankou are the most obvious.
Key words: GAMLSS; non-stationary; evaporation sequence; tertiary zone; Yellow River Basin