青藏高原黄河上游两个泥炭地流域地下水和冲沟影响的时空变化

IF 2.5 3区 环境科学与生态学 Q2 ECOLOGY Ecohydrology Pub Date : 2024-07-24 DOI:10.1002/eco.2698
Zhiwei Li, Bingyu Zhou, Xiwei Guo, Peng Gao, Bang Chen, Shimin Tian
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引用次数: 0

摘要

地下水位的时空变化是泥炭地水文的一个重要特性,它直接影响着储水量的交替。然而,目前对地下水位长期变化的了解仍然有限。在本研究中,我们调查了黄河上游流域卓资盆地的两个泥炭地流域(流域 1 为 0.151 平方公里,流域 2 为 0.844 平方公里),利用自记水位记录仪监测了 4 年(2017-2021 年)的地下水位时变。主要结果表明:(1) 在邻近沟谷的地点,地下水位变化受沟谷排水的控制,但在远离沟谷的地点,地下水位变化更多地受到降雨的影响。沟谷下切附近的地下水位低于未完全下切穿过梨树层的沟谷附近的地下水位,最大差值为 58.3 厘米,表明流域内地下水位的纵向影响。(2)由于降雨对地下水位有滞后效应,随着降雨强度的增加,滞后时间逐渐缩短(即在流域 1 中,远离冲沟的地点的滞后时间比靠近冲沟的地点短约 18 分钟)。(3) 在流域 2 中,地下水位的峰值与最大降雨量和最小降雨量同时出现,峰值出现的时间与降雨量和蒸发量的比值有关。此外,上游地块的平均地下水位比中游地块高 14.3 厘米,表明蓄水量沿沟谷呈下降趋势。(4) 雨季和旱季的地下水位差异明显,但上游站点的差异较小,原因是沟谷下切有限,泥炭层内的蓄水量较高。此外,雨季和旱季的雨天地下水位变化都较为剧烈,但不同的降雨强度导致流域 2 旱季地下水位稳定,而雨季地下水位震荡。 本研究揭示了两个泥炭地流域的地下水动态变化,对了解径流变化、生态水文过程和湿地萎缩具有重要意义。
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Spatiotemporal variations of groundwater and gully impact in two peatland watersheds in the Upper Yellow River, Qinghai-Tibet Plateau

The spatiotemporal variability of groundwater level is an important property of peatland hydrology that directly alternates water storage. Nonetheless, the current understanding of the variations of groundwater level over long periods of time remains limited. In this study, we investigated two peatland watersheds (0.151 km2 for Watershed 1 and 0.844 km2 for Watershed 2) in the Zoige Basin in the upper watershed of the Yellow River to monitor temporal variability of groundwater level using self-recorded water loggers over 4 years (2017–2021). The main results demonstrate that (1) groundwater level variations were controlled by gully drainage in sites adjacent to the gully but were more affected by rainfall in sites distant from the gully. The groundwater level near the gully downcut was lower than that near the gully without complete downcutting through the pear layer, with a maximum difference of 58.3 cm, indicating the longitudinal effect of groundwater level in the watershed. (2) Because the rainfall had a lag effect on the groundwater level, the length of lag gradually decreased with increased rainfall intensity (i.e., the lag time for sites distant from the gully was about 18 min shorter than that of sites close to the gully in Watershed 1). (3) The peak values of the groundwater level occurred simultaneously with the maximum and minimum rainfall in Watershed 2, and the peak occurrence time was related to the ratio of precipitation to evaporation. In the downstream sites, the groundwater level fluctuated more than the upstream ones in Watershed 2. Moreover, the average groundwater level in the upstream sites was 14.3 cm higher than that of the middle ones, indicating a decreasing trend of water storage along the gully. (4) The differences in groundwater level between wet and dry seasons were clear, but the difference was smaller in the upstream sites due to limited gully incision and higher water storage within the peat layer. Additionally, groundwater level changes were more extreme on rainy days during both the wet and dry seasons, but the different intensities of rainfall resulted in stable groundwater in the dry season and an oscillating groundwater level in the wet season in Watershed 2. This study uncovers the groundwater dynamics in the two peatland watersheds, which is of great significance for understanding runoff variation, ecohydrological processes, and wetland shrinkage.

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来源期刊
Ecohydrology
Ecohydrology 环境科学-生态学
CiteScore
5.10
自引率
7.70%
发文量
116
审稿时长
24 months
期刊介绍: Ecohydrology is an international journal publishing original scientific and review papers that aim to improve understanding of processes at the interface between ecology and hydrology and associated applications related to environmental management. Ecohydrology seeks to increase interdisciplinary insights by placing particular emphasis on interactions and associated feedbacks in both space and time between ecological systems and the hydrological cycle. Research contributions are solicited from disciplines focusing on the physical, ecological, biological, biogeochemical, geomorphological, drainage basin, mathematical and methodological aspects of ecohydrology. Research in both terrestrial and aquatic systems is of interest provided it explicitly links ecological systems and the hydrologic cycle; research such as aquatic ecological, channel engineering, or ecological or hydrological modelling is less appropriate for the journal unless it specifically addresses the criteria above. Manuscripts describing individual case studies are of interest in cases where broader insights are discussed beyond site- and species-specific results.
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