Assessment of the impacts of land use/land cover change on water resources in the Diyala River, Iraq

IF 1.5 Q2 ENGINEERING, MULTIDISCIPLINARY

Open Engineering Pub Date : 2023-01-01 DOI:10.1515/eng-2022-0456

Ahmed Sagban Khudier, Ahmed Naseh Ahmed Hamdan

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引用次数: 0

Abstract

Abstract In this study, the analysis was carried out concerning previous changes in land use/land cover (LULC) for 2 years, 2000 and 2020, and their impact on water resources in the Diyala River Watershed in Iraq was assessed. The Soil and Water Assessment Tool (SWAT) model is a hydrological model used to perform the hydrological modeling process for LULC maps. The data for LULC were collected using the Landsat satellite with a resolution of 30 m, and it was classified using geographical information systems (ArcGIS). Using the confusion matrix, the accuracy of the maps for the years 2000 and 2020 was evaluated, the overall accuracy was more than 90%, and the kappa coefficient (ka) was more than 88%, which indicates the accuracy of the classification and is ideal for use in modeling work. SUFI-2 included with the SWATCUP program was used to perform the calibration and the results were validated for the outflow of the two gauging stations within the study area of Hemren station and Derbendikhan station as a monthly time step for a baseline map LULC 2000, in the period 1996–2020 with 4 years as warm up. Coefficient of determination ( R 2 ), Nash–Sutcliffe efficiency (NSE), and percent bias (Pbias) were used, which were the most common indicators for evaluating the performance of the statistical model. The results indicated that the values of R 2 during the calibration and validation processes were (0.84–0.88) and (0.85–0.87), respectively; the NSE was (0.87–0.85), and the Pbias was (4.2–6.8)% and (5.8 to −4.1)%, respectively. Therefore, the calibration and verification results were good and satisfactory. In addition to the two LULC maps for 2000 and 2020, the parameters of the modified SWAT model were utilized to estimate the effects on the Diyala River Basin. The study found that LULC change affects basins and sub-basins differently. At the basin, hydrological parameters were largely unaffected by LULC changes. However, at the sub-basin level, the water yield and the surface runoff were changed between (−6.45 to 4.67)% and (−2.9 to 9.88)%, respectively.

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伊拉克迪亚拉河土地利用/土地覆盖变化对水资源影响的评价

通过对伊拉克迪亚拉河流域2年、2000年和2020年土地利用/土地覆盖(LULC)变化的分析，评价了LULC变化对水资源的影响。土壤和水评估工具(SWAT)模型是用于对LULC地图进行水文建模过程的水文模型。利用分辨率为30 m的Landsat卫星采集LULC数据，并利用ArcGIS进行分类。利用混淆矩阵对2000年和2020年的地形图进行了精度评价，总体精度大于90%，kappa系数(ka)大于88%，表明分类精度较高，适合建模工作。利用SWATCUP程序中的SUFI-2对研究区内Hemren站和Derbendikhan站两个测量站的流出量进行了校准，并以1996-2020年4年为暖期的基线图LULC 2000为月时间步长对结果进行了验证。使用决定系数(r2)、Nash-Sutcliffe效率(NSE)和百分比偏差(Pbias)，这是评估统计模型性能的最常用指标。结果表明:在定标和验证过程中r2分别为(0.84 ~ 0.88)和(0.85 ~ 0.87);NSE为(0.87 ~ 0.85)，Pbias为(4.2 ~ 6.8)%，Pbias为(5.8 ~−4.1)%。因此，校准和验证结果良好，令人满意。在2000年和2020年两幅LULC图的基础上，利用改进SWAT模型的参数估计了对迪亚拉河流域的影响。研究发现，LULC变化对盆地和子盆地的影响不同。流域水文参数基本不受LULC变化的影响。而在次流域水平上，径流量和产水量变化幅度分别为(- 6.45 ~ 4.67)%和(- 2.9 ~ 9.88)%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Open Engineering ENGINEERING, MULTIDISCIPLINARY-

CiteScore

3.90

自引率

0.00%

发文量

审稿时长

30 weeks

期刊介绍： Open Engineering publishes research results of wide interest in emerging interdisciplinary and traditional engineering fields, including: electrical and computer engineering, civil and environmental engineering, mechanical and aerospace engineering, material science and engineering. The journal is designed to facilitate the exchange of innovative and interdisciplinary ideas between researchers from different countries. Open Engineering is a peer-reviewed, English language journal. Researchers from non-English speaking regions are provided with free language correction by scientists who are native speakers. Additionally, each published article is widely promoted to researchers working in the same field.