Understanding the drivers of the catchment hydrological cycle of the Jonkershoek Valley catchment, South Africa

IF 3 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY
Retang Anna Mokua , Julia Glenday , Dominic Mazvimavi
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引用次数: 0

Abstract

Understanding trends in hydro-climate variables and the impacts of land use on the streamflow is crucial for the development of appropriate catchment water management strategies. Jonkershoek (146 km2) is an important headwater catchment in the Table Mountain Group (TMG) geological region, contributing flow to the Cape Winelands District Municipality in the Western Cape. This study analyses hydro-climate variables at annual, monthly, and seasonal scales using an integrated approach composed of statistical homogeneity testing for abrupt changes, Mann-Kendall tests for trend analysis, and the Indicators of Hydrological Alteration (IHA) tool for streamflow alterations. Analyses were conducted for three headwater sub-catchments within the Jonkershoek value, each with different land use history.

Homogeneity test of rainfall and streamflow data spanning from 1946 to 2019 identified gradual downwards change points for annual rainfall and streamflow across the sub-catchments. Moreover, the change points for streamflow were inconsistent with those of rainfall. The identified change points in streamflow were consistent with the timing of afforestation activities in Tierkloof, whereas in Bosboukloof and Langrivier they could be attributed to earlier climatic variability. Furthermore, Mann-Kendall test detected significant (p < 0.05) decreasing trends for both annual and seasonal rainfall which coincided with most of the streamflow trends. Trends were strongest for the winter season suggesting a possible shift in climate patterns which influence winter rainfall. Winter streamflows declined by 15.5%–39.5%. Analysis of hydrological flow indices indicated significant decrease in 1-,7- and 30-day annual maximum extremes during afforestation which were attributed to high evapotranspiration rates of pines. The opposite was observed during clearfelling period in Bosboukloof. The median monthly flow also showed a decrease for winter months. This shows that climate variability and land-use change by afforestation have major impacts on streamflow. The findings of this study are important to inform policymakers on the impacts of climate change and land use, allowing pro-active mitigation and adaptation.

了解南非 Jonkershoek 山谷集水区水文循环的驱动因素
了解水文气候变量的变化趋势以及土地利用对溪流的影响,对于制定适当的集水区水资源管理策略至关重要。Jonkershoek(146 平方公里)是桌山群(TMG)地质区域的一个重要源头集水区,为西开普省的开普威尼兰德地区市政府提供水流。本研究采用综合方法对年度、月度和季节范围内的水文气候变量进行分析,综合方法包括针对突变的统计同质性检验、针对趋势分析的 Mann-Kendall 检验以及针对溪流变化的水文变化指标 (IHA) 工具。对 1946 年至 2019 年期间的降雨量和溪流数据进行了同质性测试,确定了各子流域年降雨量和溪流的逐渐下降变化点。此外,溪流的变化点与降雨的变化点不一致。在蒂尔克洛夫(Tierkloof),已确定的溪流变化点与植树造林活动的时间一致,而在博斯布克洛夫(Bosboukloof)和兰格里维耶(Langrivier),这些变化点可归因于早期的气候多变性。此外,Mann-Kendall 检验还发现,年降雨量和季节降雨量均呈显著下降趋势(p < 0.05),这与大部分的溪流趋势相吻合。冬季的趋势最强,表明影响冬季降雨的气候模式可能发生了变化。冬季河水流量下降了 15.5%-39.5%。水文流量指数分析表明,植树造林期间,1、7 和 30 天年最大极值显著下降,这归因于松树的高蒸散率。而在波斯布克洛夫(Bosboukloof)的植树造林期间,观察到的情况恰恰相反。冬季月份的月流量中值也有所下降。这表明,气候多变性和植树造林带来的土地利用变化对溪流有重大影响。这项研究的结果对于决策者了解气候变化和土地利用的影响,从而积极缓解和适应气候变化非常重要。
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来源期刊
Physics and Chemistry of the Earth
Physics and Chemistry of the Earth 地学-地球科学综合
CiteScore
5.40
自引率
2.70%
发文量
176
审稿时长
31.6 weeks
期刊介绍: Physics and Chemistry of the Earth is an international interdisciplinary journal for the rapid publication of collections of refereed communications in separate thematic issues, either stemming from scientific meetings, or, especially compiled for the occasion. There is no restriction on the length of articles published in the journal. Physics and Chemistry of the Earth incorporates the separate Parts A, B and C which existed until the end of 2001. Please note: the Editors are unable to consider submissions that are not invited or linked to a thematic issue. Please do not submit unsolicited papers. The journal covers the following subject areas: -Solid Earth and Geodesy: (geology, geochemistry, tectonophysics, seismology, volcanology, palaeomagnetism and rock magnetism, electromagnetism and potential fields, marine and environmental geosciences as well as geodesy). -Hydrology, Oceans and Atmosphere: (hydrology and water resources research, engineering and management, oceanography and oceanic chemistry, shelf, sea, lake and river sciences, meteorology and atmospheric sciences incl. chemistry as well as climatology and glaciology). -Solar-Terrestrial and Planetary Science: (solar, heliospheric and solar-planetary sciences, geology, geophysics and atmospheric sciences of planets, satellites and small bodies as well as cosmochemistry and exobiology).
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