尼日利亚西南部拉各斯沿海地区咸水入侵及地下水适宜性评价——以NIOMR防波堤为例

Popoola Samuel Olatunde, Unyimadu John-Paul, Nubi Olubunmi Ayoola, Hamzat Abdulmujeeb, Adegbite Akintunde Adewole, Oba Ismaila Ayinde, A. Oluwaseun, Lere-Aliu Moromade Abibat, A. Salisu, Olabiyi Taofeek Olawale, Oghenede Esther Karo, M. Solomon
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引用次数: 0

摘要

目前的研究涉及对拉各斯沿海社区内地下水适合家庭用途的评价,使用尼日利亚西南部尼日利亚海洋学和海洋研究所(NIOMR)防波堤的200英尺监测钻孔作为案例研究。分析了2019年1月至12月监测钻孔水的理化参数(pH值、电导率、盐度、溶解氧、温度)和营养物质(亚硝酸盐、硝酸盐、磷酸盐、硫酸盐)。位于拉各斯大陆的一个钻孔被用作对照。分析结果表明,亚硝酸盐(3 ~ 7 mg/L)、硝酸盐(16 ~ 32 mg/L)、盐度(13.99 ~ 21.18‰)和电导率(2545 ~ 3072 μS/cm)的浓度范围超出了美国环境保护署(USEPA)规定的亚硝酸盐、硝酸盐、盐度和电导率分别为1 mg/L、10 mg/L、0‰和< 1500 μS/cm的允许范围。控制站地下水电导率为7.3 ~ 73 μS/cm,矿化度为0‰,可归为淡水。丰水期(7、9、10月)的高盐度(21.18‰)和高电导率(3072 μS/cm)肯定了海水侵入监测钻孔淡水含水层的影响。10月地下水位最高(1.58 m),电导率最高(3072 μS/cm)。虽然地下水位与电导率之间的相关性清楚地表明,研究地点存在海水入侵的证据,但亚硝酸盐和硝酸盐浓度高于美国环保署允许的限度,为人为来源的渗滤物提供了证据。本研究不仅揭示了以咸水入侵和渗滤液渗入形式的地下污染物是NIOMR防波堤地下水污染的主要控制因素,而且揭示了尼日利亚西南部拉各斯州沿海环境地下水污染的基本情况。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of Saline Water Intrusion and Suitability of Groundwater for Domestic Purposes in Lagos Coastal Area, SW Nigeria: Using NIOMR Jetty as a Case Study
The current study deals with the evaluation of groundwater suitability for domestic purposes within the coastal communities of Lagos, using a 200 feet monitoring borehole at the Nigerian Institute of Oceanography and marine research (NIOMR) Jetty, Southwest Nigeria as a case study. The monitoring borehole water was analysed for physicochemical parameters (pH, electrical conductivity, salinity, dissolved oxygen, temperature) and nutrients (nitrite, nitrate, phosphate, sulphate) from January-December, 2019. A borehole located in the Lagos mainland was used as control. The analytical results showed that the concentration ranges of nitrite (3-7 mg/L), nitrate (16-32 mg/L), salinity (13.99-21.18‰) and electrical conductivity (2545-3072 μS/cm) exceed the permissible limit stipulated by the United State Environmental Protection Agency (USEPA), which are 1 mg/l, 10 mg/L, 0‰ and < 1500 μS/cm for nitrite, nitrate, salinity, and electrical conductivity respectively. The groundwater samples from the control station showed electrical conductivity and salinity ranges of 7.3-73 μS/cm and 0‰ respectively, and which made samples from the control to be classified as freshwater. The high salinity (21.18‰) and electrical conductivity (3072 μS/cm) during the wet season (July, September and October) affirmed the influence of seawater intrusion into the freshwater aquifer of the monitoring borehole. Our study further showed the highest elevated groundwater level (1.58 m) in October, which coincides with the highest electrical conductivity (3072 μS/cm) value in the same month. While the correlation between the groundwater level and electrical conductivity clearly shows evidence of seawater intrusion at the study location, elevated nitrite and nitrate concentrations above the USEPA permissible limits, provide evidence for leachate of seepages from anthropogenic sources. This study has shown not only that subsurface pollutants in the form of saline water intrusion and infiltration of leachates are the major controlling factors of groundwater pollution at the NIOMR Jetty, but it has also revealed an essential insight into the groundwater pollution of the coastal environment of Lagos state, Southwest Nigeria.
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