Modeling projected impacts of climate and land use/land cover changes on streamflow in Gelana Catchment, Southern Ethiopia

Alemu Osore Aga, Muse Wldmchel Shomre
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Abstract

Effective watershed management is extremely critical because changes in the global and local distribution of climate have a direct impact on ecosystems. The primary goal of the current study was to evaluate current and projected climate and land use land cover (LULC) change on streamflow in Gelana catchment. LULC prepared via supervised classification algorithm by using ERDAS (Earth Resources and Development Systems) software, ArcGIS 10.4 (for satellite image processing and map preparation), and the Cellular Automata (CA)-Markov model revealed significant gains in agricultural and built-up over forest and pasture land classes. A coordinated regional climate downscaling experiment under the Africa domain for three regional climate data for two future scenarios (RCP 4.5 and RCP 8.5) showed a significant reduction in rainfall from 48.64 % to 4.6 %, while minimum and maximum temperatures increased from 0.58 to 3.35 °C and 0.5 to 2.93 °C, respectively. The Soil and Water Assessment Tool (SWAT) model was applied to analyze the impact of LULC and climate change on streamflow. The model calibration and validation were carried out by using monthly observed streamflow for the most sensitive parameters by using Sequential Uncertainty Fitting (SUFI-2) within the SWAT Calibration of Uncertainty Program (SWAT-CUP). The model performed well between observed and simulated streamflow, with R2, NSE, PBIAS, P, and r-factors of 0.84, 0.77, −15.9, 0.68, and 0.56 for calibration and 0.88, 0.8, −14, 0.63, and 0.65 for validation, respectively. The results of the study implied the simulated mean annual streamflow increased from 3.22 % to 23.82 % in the case of LULC change alone, while it decreased from 38.2 % to 23.27 % for climate change alone for the near-term of RCP 4.5 and from 45.3 % to 24.6 % for RCP 8.5. Further substantial decline was observed in the combined simulation, from 55.38 % to 42.45 % and 62.15 % to 59.36 % for the near and far future of RCP 4.5 and RCP 8.5, respectively. In order to address the constraints, current findings are valuable to scale up sustainable natural resource management.
模拟气候和土地利用/土地覆盖变化对埃塞俄比亚南部 Gelana 集水区溪流的预期影响
有效的流域管理极其重要,因为全球和地方气候分布的变化会对生态系统产生直接影响。本研究的主要目标是评估当前和预测的气候和土地利用、土地覆盖(LULC)变化对 Gelana 流域溪流的影响。通过使用 ERDAS(地球资源与开发系统)软件、ArcGIS 10.4(用于卫星图像处理和地图绘制)和细胞自动机(CA)-马尔科夫模型,采用监督分类算法编制的 LULC 显示,农业用地和建筑用地的数量明显多于森林和牧场用地。针对两种未来情景(RCP 4.5 和 RCP 8.5)的三个区域气候数据,在非洲域下进行了协调的区域气候降尺度实验,结果显示降雨量从 48.64% 显著减少到 4.6%,而最低气温和最高气温分别从 0.58 ℃ 上升到 3.35 ℃ 和 0.5 ℃ 上升到 2.93 ℃。水土评估工具(SWAT)模型用于分析土地利用、土地利用变化和气候变化对河水流量的影响。利用 SWAT 不确定性校准程序 (SWAT-CUP) 中的序列不确定性拟合 (SUFI-2),对最敏感参数的月度观测流量进行了模型校准和验证。该模型在观测流和模拟流之间表现良好,校准的 R2、NSE、PBIAS、P 和 r 系数分别为 0.84、0.77、-15.9、0.68 和 0.56,验证的 R2、NSE、PBIAS、P 和 r 系数分别为 0.88、0.8、-14、0.63 和 0.65。研究结果表明,仅在土地利用、土地利用变化和气候变化的情况下,模拟的年平均径流量从 3.22% 增加到 23.82%;而在 RCP 4.5 的近期,仅在气候变化的情况下,模拟的年平均径流量从 38.2% 下降到 23.27%;在 RCP 8.5 的情况下,模拟的年平均径流量从 45.3% 下降到 24.6%。在综合模拟中观察到进一步大幅下降,在 RCP 4.5 和 RCP 8.5 的近期和远期,分别从 55.38% 降至 42.45% 和 62.15% 降至 59.36%。为了解决这些制约因素,目前的研究结果对于加强可持续自然资源管理具有重要价值。
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