There is evidence that Nigeria is already experiencing environmental challenges attributed to climate change (CC) and its impacts. This has clearly highlighted the need for knowledge-based strategies to help plan adequate mitigation and adaptation measures for the country. One of the basic requirements to ensure such strategies is the development of a database of national CC research. This will aid in the assessment of past and present scientific publications from which directions for future study can be mapped. The present study used standard, systematic, and bibliographic literature reviews to analyse the trend, focus, spatial variability, and effectiveness of published research on CC impacts in Nigeria. Four thematic areas of CC impact research were defined: Agriculture, Environment, Human and Multi-disciplinary study. A total of 701 articles were found to be relevant and the review shows that CC impacts and adaptations in the literature vary across research categories and locations. The period between 2011 (68 studies) and 2015 (80 studies) showed a tremendous rise in CC impact research with a peak in 2014 (84 studies). Studies in the agriculture category had the highest publications in 23 States of Nigeria. The review revealed three research gaps: (1) lack of research that investigated the magnitude of present and potential future impacts in the aquatic environment (2) little attention on CC impacts and adaptation in the Northern regions of Nigeria (3) absence of study investigating the effects of multiple variables of CC at the same time. The findings suggest that it would be useful to advance CC research in Nigeria beyond perceptive approaches to more quantitative ones. This is particularly important for highly vulnerable animals, crops, locations, and for better planning of adaptation strategies.
Biochar and Activated carbon derived from cashew bagasse waste (CBB and CBAC), are veritable materials produced from agro-waste. They are currently under-utilized owing to paucity of information in their recycling methods which reduces agricultural waste from the environment. This study investigates the use of under-utilized cashew bagasse waste in the production of biochar and activated carbon using pyrolysis and chemical activation methods, respectively. Cashew bagasse waste was pyrolysed at 400 0 C for 20mins at 10 0 C/min. The biochar was chemically activated using 0.3M orthophosphoric acid (H3PO4) at an impregnation ratio of 1:2.36(w/w). It was heated at 100 0 C to form a paste and placed in a muffle furnace at 500 0 C for 30 mins. This was cooled and washed until pH was neutral. It was oven dried at 105 0 C for 24 hours to a constant weight to produce CBAC Characterization of CBB and CBAC for its pH, bulk density, and moisture content, dry matter, volatile matter, and fixed carbon were determined. FTIR and SEM analysis on CBB and CBAC was done to determine the functional groups and surface morphology, respectively. The Data obtained were analyzed using descriptive statistics and ANOVA at P value < 0.05. This study, therefore, revealed CBAC to have better characteristics than CBB.
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