URBAN FLOOD IMPACTS, FLOOD WATER QUALITY AND RISK MAPPING OF OLODO AREA, IBADAN, NIGERIA

Journal of Natural Sciences Engineering and Technology Pub Date : 2021-12-02 DOI:10.51406/jnset.v19i1.2097

O. Adedeji, O. O. Olayinka, T. Ogundiran, O. O. Tope-Ajayi

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引用次数: 0

Abstract

This study assessed urban flood impact, flood water quality and vulnerability around Olodo area of Ibadan region, Nigeria. The study employed remote sensing and GIS techniques in creating vulnerability and risk maps. Digital terrain model (DTM) was used to get the topography of the study area. Footprints of buildings along the Egberi riverbank and flood plain in Olodo were created in the GIS environment from high resolution satellite imagery. Buffering operation was conducted to classify the buildings into risk zones based on closeness to the riverbank using ArcGIS 10.0. The study revealed that 326 buildings were within the very vulnerable and vulnerable zones because they were less than 15.2m away from the riverbank. The characteristics of water quality change during the flood and non-flood periods. TSS, DO, NOD, and COD were all higher during the flood event. Microbial analysis showed that water quality levels in the floodwater exceeded water quality standards (e.g., the coliform excess from 10 to 10,000 times), and thus this may be a health risk for local people during flood events. Concentration of Escherichia coli (E. coli) ranged from 484 to 1290 cfu/100 mL during flooding compared to 192 to 295 cfu/100 mL after flood. Salmonella was found to be high ranging from 659 to 1840 cfu/100 mL during flooding compared to 530 to 1034 cfu/100 mL after flooding.

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尼日利亚伊巴丹市olodo地区城市洪水影响、洪水水质和风险测绘

本研究评估了尼日利亚伊巴丹地区Olodo地区的城市洪水影响、洪水水质和脆弱性。这项研究利用遥感和地理信息系统技术制作脆弱性和风险地图。采用数字地形模型(DTM)获取研究区地形。在GIS环境下，利用高分辨率卫星图像绘制了奥罗多Egberi河岸和洪泛平原沿线的建筑物足迹。利用ArcGIS 10.0软件，根据建筑物与河岸的接近程度进行缓冲操作，将建筑物划分为风险区。该研究显示，326座建筑物处于非常脆弱和脆弱区域，因为它们距离河岸不到15.2米。洪涝期和非洪涝期的水质特征发生了变化。TSS、DO、NOD和COD在洪涝期间均较高。微生物分析表明，洪水中的水质水平超过了水质标准(例如，大肠菌群超标10倍至1万倍)，因此，在洪水事件期间，这可能对当地人民的健康构成威胁。在淹水期间，大肠杆菌的浓度为484至1290 cfu/100 mL，而淹水后的浓度为192至295 cfu/100 mL。在水浸期间沙门氏菌含量为659 ~ 1840 cfu/100 mL，而水浸后沙门氏菌含量为530 ~ 1034 cfu/100 mL。

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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Journal of Natural Sciences Engineering and Technology

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