Browsing by Author "Aborisade, Wakili Tope"
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- ItemAssessment of Surface Water Quality using Phytoplankton as Base-line Indicator Organisms in Ilorin, Kwara State, Nigeria(Umaru Musa Yar'adua University, Katsina., 2024) Aborisade, Wakili Tope; Ajao, Abdullahi TaiwoTimely and accurate water quality monitoring is crucial to ensure their sustainable use and safeguard public health. Therefore, this study assessed surface water quality in Mubo River (SP1) and Sobi Dam (SP2) in Ilorin, using phytoplankton as base-line indicator organisms. Water samples were collected on July 20th (rain season) and December 20th (dry season), 2023, at 0.3 meters from the mid-water column. The physicochemical parameters of the water samples were determined using standard methods. The standard microscopic techniques were used to enumerate and identify phytoplankton genera. The findings showed that the pH and DO (mg/l) levels were within the permissible limit stipulated by the National Environmental Standard and Regulation Enforcement Agency for Surface Water in Nigeria (NESREA). The BOD (mg/l) and COD (mg/l) levels were above the permissible limit for SP1 for both seasons. The 8 genera of pollution-tolerant phytoplankton recorded were Cyclotella, Chlorella, Closterium, Chlamydomonas, Micractinium, Microcystis, Euglena, and Phacus, with Chlorella having the highest abundance percentage in all the sampling sites. The Shannon diversity indices values indicate lower phytoplankton species diversity (H ≤ 1.99) in all the water samples. The Palmer’s pollution index (PPI) scores ranged from 14 to 18 in the sampling sites. Palmer's index suggests likely high organic pollution in Mubo Rivers' in both sampling periods. A notable high level of organic pollution was recorded in Sobi Dam only during the rainy season. The relatively high turbidity, BOD (mg/l), and COD (mg/l) values support the index pollution scores and confirm the suitability of phytoplankton as baseline indicators for organic pollution assessment in surface water.
- ItemEvaluation of the Potential of Immobilized Cyanide-Degrading Bacteria for the Bioremediation of Cassava Mill Effluent(Jordan Journal of Biological Sciences, 2024) Ajao, Abdullahi Taiwo; Jimoh-Hamza, Oluwabukola Kudirat; Aborisade, Wakili Tope; Jimoh, Fausat AbimbolaThis study aimed to assess the feasibility of employing indigenous cyanide-degrading bacterial strains for the treatment of cassava mill effluent (CME) in Nigeria, a hazardous waste material posing significant public health risks. The physicochemical properties and heavy metal concentrations in CME were determined through standard methodologies. Cyanide-degrading bacteria were isolated, characterized, and identified using molecular techniques. These strains were immobilized within a porous network of cross-linked biochar, confirmed through SEM imaging, and evaluated alongside free cells for CME bioremediation. Multiple variables were examined to assess the effluent's pollution load, including pH, electrical conductivity (EC), chemical oxygen demand (COD), biochemical oxygen demand (BOD5), total dissolved solids (TDS), nitrate (NO3), phosphate (PO4), and cyanide levels, falling within respective ranges of (4.00–4.02), (2394–2618 S/cm), (985–1219 mg/L), (1556–1667 mg/L), (3459–3705 mg/L), (2709–2812 mg/L), (251-311 mg/L), (87.25–118 mg/L), and (25.00–28 mg/L). Copper was the most prevalent heavy metal in the effluent, while chromium was detected at the lowest levels, with mean values of 10.00-12.39 mg/L and 0.00-0.27 mg/L, respectively. The study revealed severe contamination of the effluent, above the Federal Environmental Protection Agency (FEPA) threshold limit. The 16S rDNA of the cyanide degrading bacteria were deposited at the NCBI database and the following GenBank accession numbers were assigned (MK71248O, MK71281, MK712482, and MK712483) for Pseudomonas putida, Bacillus subtilis, Alcaligenes faecalis and Leuconostoc mesenteroides respectively. Results of the bioremediation approach demonstrated a substantial reduction in physicochemical parameters and heavy metal contents, indicating a promising biological treatment strategy to mitigate CME's adverse effects on public health. In conclusion, despite elevated physicochemical parameters and heavy metal concentrations in CME, this study offers a promising avenue for employing biological treatments to mitigate environmental and public health impacts. Further research and application of this technique hold substantial potential for cassava mill effluent management in Nigeria and other regions facing similar challenges.
- ItemWater quality assessment and bacteriological evaluation of fishpond in Ilorin(Aswan University Journal of Environmental Studies, 2023) Aborisade, Wakili Tope; Ajao, Abdullahi Taiwo; Idemudia, Iyore BlessingGood water quality is essential for a productive aquaculture system and to safeguard the health of the consumer. We assessed the quality of fishpond water in Phase 1, Mubo-Royal Valley fish farm in Ilorin, Kwara State, Nigeria. Water samples were collected in the 1st and 3rd weeks of fish breeding from three earthen and two concrete fishponds. The bacteriological and physicochemical parameters of the samples were determined in line with standard methods. Results showed that the pH, temperature, and dissolved oxygen (DO) values were within the recommended range of the National Environmental Standard and Regulations Enforcement Agency (NESREA). However, higher chemical oxygen demand (COD) values above the NESREA recommended range were recorded in the 1st and 3rd weeks of sampling in earthen Pond 1 and Pond 2, respectively. The Nitrate (NO32-) and phosphate (PO42-) contents of all sampling ponds were within the acceptable values of NESREA in the 1st week of sampling. While significant (p < 0.05) increases in NO32- and PO42- were observed in earthen ponds in the 3rd week. Copper and iron (mg/l) values were higher than NESREA recommended range, while lead and chromium values were within the range. Bacterial loads varied with the period of sampling with significant (p < 0.05) increases in the population of heterotrophic bacteria and Salmonella-Shigella in the 3rd week of sampling. The nine bacterial genera isolated were Pseudomonas sp., Micrococcus sp., Staphylococcus sp., Salmonella sp., Escherichia coli, Enterobacter sp., Proteus sp., Streptococcus sp. and Bacillus sp. All the isolates were present in earthen and concrete ponds except Proteus sp. and Streptococcus sp. were absent in concrete ponds. Pseudomonas sp. had the highest frequency of occurrence while Streptococcus sp. had the lowest. Regular monitoring of water quality parameters is recommended to prevent potential risks associated with potential pathogens in fishponds.