Morphometric analysis of the Ekole River as a consequence of climate change: A case study in Yenagoa, Bayelsa State, Nigeria

Jonathan Lisa Erebi, Digha Opaminola Nicholas
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Abstract

The effect of climate change on the morphometric features of the Ekole River in Yenagoa, Bayelsa State, Nigeria, is investigated in this study. The study employs morphometric analysis, which includes area, perimeter, mean stream length, drainage density, stream frequency, and basin length, as well as other factors like elongation ratio, form factor, shape factor, relief ratio, and density, with the assistance of the Shuttle radar topography mission (SRTM) and ArcGIS software. The Ekole River has an area of 83.76 km2 and a perimeter of 100.75 km, according to the findings. The average stream length was 0.41 km, and the average bifurcation ratio was 2.15. The drainage density was 2.28 km/km2 and the stream frequency was 5.56. The elogation ratio, form factor, shape factor, and relief ratio were also determined to be 0.20, 0.32 km/km, 3.14, and 3.11, respectively. These findings reveal that the Ekole River has a comparatively low discharge density and a dendritic drainage structure. The elongation ratio, form factor, and relief ratio, on the other hand, indicate that the basin of the river is comparatively elongated and narrow, with low relief. The present condition of the Ekole River is thought to be the result of climate change, which has impacted the river's hydrological processes. Finally, this research sheds light on the effects of climate change on the Ekole River and its morphometric features. Climate change has changed the river's hydrological processes and affected its morphometric parameters, according to the results.
气候变化影响下Ekole河形态计量学分析:以尼日利亚巴耶尔萨州叶纳戈阿为例
本文研究了气候变化对尼日利亚巴耶尔萨州叶纳戈阿Ekole河形态特征的影响。在航天飞机雷达地形任务(SRTM)和ArcGIS软件的辅助下,采用形态计量学分析,包括面积、周长、平均溪流长度、排水密度、溪流频率和流域长度,以及延伸率、形状因子、形状因子、起伏比和密度等因素。根据调查结果,埃科勒河的面积为83.76平方公里,周长为100.75公里。平均流长0.41 km,平均分岔比2.15。流域密度为2.28 km/km2,河流频次为5.56次。沉降比、形状因子、形状因子和地形比分别为0.20、0.32 km/km、3.14和3.11。这些结果表明,埃科勒河具有较低的流量密度和树枝状排水结构。伸长率、形状因子、起伏比等特征表明河流流域相对狭长,起伏程度较低。埃科勒河目前的状况被认为是气候变化的结果,气候变化影响了河流的水文过程。最后,本研究揭示了气候变化对埃科勒河及其形态特征的影响。结果显示,气候变化改变了河流的水文过程,并影响了其形态参数。
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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