A. Y. B. Anifowose scite author profile

The significance of air pollution as one of the contemporary issues and accelerating factors that propel climate change in both developed and developing countries cannot be overemphasized. The problem of air pollution has seemingly become intractable with the incessant failure of both global and local environmental policies purportedly emplaced to address its devastating trend, particularly in growing megacities of the world. The devastating effects of the phenomenon are more pronounced in megacities of developing countries than in developed ones. Lagos, as an industrialized, commercialized and an emerging megacity in Nigeria, has been subjected to several predictions of the negative impacts of changing climatic conditions partly caused by ubiquitous air pollution. Efforts at stemming the tide of the increasing challenges of air pollution worldwide has significantly been thwarted by inadequate funding, hence the need to review the literature on the environmental implications of growing air pollution, its contributions to climate change and its negative impacts on the lives and properties of teeming inhabitants of Lagos. A review like this will provide a synthesis of knowledge and information on mitigative and adaptive measures that can be adopted to minimize the impacts of air pollution on the mega city.This study utilizes consciously selected and current literatures on the subject matter and found that Lagos inhabitants have been vulnerable to virtually all forms of damaging effects of climate change majorly propelled by seemingly uncontrollable air pollution. This implies that the situation requires proactive measures, otherwise, avoidable loss of lives and large scale destruction of properties may be inevitable. The paper therefore advocates involvement of all stakeholders in both mitigation and adaptation measures to climate change through enhancement of indigenous knowledge and creation of awareness among citizens about the need to be conscious of their carbon foot prints.

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GIS-based estimation of soil erosion rates and identification of critical areas in Anambra sub-basin, Nigeria

Fagbohun

Anifowose

Odeyemi

et al. 2016

Model. Earth Syst. Environ.

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Estimation of soil loss through water erosion is an essential exercise which can help decision makers and planners determine the severity of soil loss through rill and sheet erosion and also curtail the development of further gullies in an area already ravaged by gully erosion. While Universal Soil Loss Equation (USLE) is the most commonly adopted model because it provides a straight forward approach for qualitative estimation of soil loss, however its rainfall erosivity component is found incompetent in most parts of the world. To overcome this deficiency, the Revised Universal Soil Loss Equation (RUSLE) was implemented using rainfall erosivity (R) values peculiar to tropical environment of the Anambra area of Nigeria. Rainfall erosivity (R-factor), soil erodibility (K-factor), slope factor (LS-factor), and cover management (C-factor) were generated in GIS environment and then integrated based on RUSLE equation to estimate the rate of soil erosion. The study indicated that about 1804.39 km 2 (39.49 %) of the study area have slight erosion rate of 0-10 t ha-1 year-1 , while the rates of erosion in 746.60 km 2

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Recent Niger Delta shoreline response to Niger River hydrology: Conflict between forces of Nature and Humans

Dada

Qiao

et al. 2018

Journal of African Earth Sciences

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Hydrogeochemical Characterization and Vulnerability Assessment of Shallow Groundwater in Basement Complex Area, Southwest Nigeria

Adewumi¹,

Anifowose²,

Olabode³

et al. 2018

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Thirty-five (35) groundwater samples from Owo area were analyzed for physicochemical parameters. Results show that the mean value of pH is 6.32, TDS is 208.92 mg/l, temperature is 28.77°C, EC is 545.16 μs/cm; TH is 111.09 mg/l, SO4 is 71.73 mg/l, Cl is 0.07 mg/l, HCO3 is 14.09 mg/l, Na is 25.06 mg/l, Ca is 37.07 mg/l, K is 24.36 mg/l and Mg is 4.41 mg/l. The results were compared to the WHO and NDSQW standards. All parameters were within the permissible limit except EC in well OW6 and K is above the stipulated standards in 69% of the total samples. The high concentration of K is linked to the use of NPK fertilizer in the area for agricultural purposes. The groundwater belongs to Ca-Na-K-SO4 and Na-Ca-SO4 water type respectively. The ionic concentration in the groundwater is due to the dissolution of the rock that makes up the aquifer. Plagioclase and silicate-bearing rocks are the sources of major ions in the water. SAR, PI, RSBC and KR reveals that groundwater in the area is good for irrigation purpose. DRASTIC model further revealed that groundwater in the area is less vulnerable to contamination under the current environmental conditions.

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A photogeological study of the fold structure in okemesi area, Nigeria.

Anifowose¹,

Borode²

2008

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A. Y. B. Anifowose

Air Pollution and Climate Change in Lagos, Nigeria: Needs for Proactive Approaches to Risk Management and Adaptation

GIS-based estimation of soil erosion rates and identification of critical areas in Anambra sub-basin, Nigeria

Recent Niger Delta shoreline response to Niger River hydrology: Conflict between forces of Nature and Humans

Hydrogeochemical Characterization and Vulnerability Assessment of Shallow Groundwater in Basement Complex Area, Southwest Nigeria

A photogeological study of the fold structure in okemesi area, Nigeria.

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