雅鲁藏布江大拐弯地区河流水位日变化时空分异特征

Spatiotemporal variation of diurnal cycle of water level in the grand bend area of the Yarlung Zangbo River

  • 摘要: 径流(或水位)日变化是反映河流水文情势的重要方面, 解析径流(水位)日变化特征有助于明晰河流水文动态过程和规律, 揭示径流来源和产汇流机制。以藏东南雅鲁藏布江大拐弯地区的易贡藏布、帕隆藏布、曲宗藏布、拉月曲、金珠曲和白马西路河为对象, 基于典型河段2022—2023年小时分辨率实测水位数据, 采用数理统计和表征参数分析河流水位日变化时空分异特征, 并结合降雨、冰川/积雪数据探究河流水位日变化影响因素。结果表明: 研究区河流水位日变幅在汛期多高于非汛期, 日水位数据分布在汛期多呈正偏(均值大于中值), 汛后多呈负偏(均值小于中值); 除白马西路河外, 各河段水位日涨落过程在非汛期相对于汛期有所延迟, 且汛后延迟趋势更明显; 汛期各河段日水位上涨历时均小于回落历时, 非汛期则多相反(拉月曲和金珠曲除外); 白马西路河水位日变化主要受降雨过程扰动, 而其他河流水位日变化主要受冰雪消融过程影响。

     

    Abstract: Diurnal streamflow (or water level) cycle is an important indicator of hydrologic regime. Analyzing the diurnal variation of streamflow (water level) can reveal the source of runoff and its formation mechanism, and clarify the hydrological processes/dynamics of the river. The reaches of six important tributaries (namely, Yigong Zangbo, Parlung Zangbo, Quzong Zangbo, Layuequ, Jinzhuqu, and Baima Xilu rivers) in the lower Yarlung Zangbo River located in Southeast Xizang, were collected to investigate the spatiotemporal characteristics of the daily water level changes. Based on the monitored hourly-resolution water level data of the six river reaches during 2022—2023, the diurnal water level characteristics in the study area were studied using mathematical statistics and parameter analyses. Factors (including rainfall, glacier, and snow melting) influencing the diurnal variation of water level were also investigated. The diurnal variation of water level during flood season is mostly higher than that during non-flood season; the distribution of daily water level is mostly positively skewed during the flood season (mean value higher than median value) and is negatively skewed during post-flood season (mean value lower than median value). Except for the Baima Xilu River, where the daily water level changes have no marked seasonal difference, the start time of daily water level rise/fall during non-flood season is normally later than that during flood season in each analyzed river reach; this delay is more pronounced in the post-flood period. The occurrence time of daily maximum and minimum water level in each reach is more centrally distributed during the flood season, and usually earlier than that during the non-flood season. The duration of daily water level rising (i.e., the time span for the water level to go from the daily lowest to highest) is shorter than falling (from the daily highest to lowest) during flood season in each reach; however, the trend is almost opposite in non-flood season except for the Layuequ and Jinzhuqu rivers. The diurnal variation of water level of the Baima Xilu River is mainly disturbed by rainfall, while that of other rivers is primarily influenced by snow/ice melting.

     

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