Browsing by Author "Nyanza, Elias Charles"

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    Ecological Consequences of Antibiotics Pollution in Sub-Saharan Africa: Understanding Sources, Pathways, and Potential Implications
    (ELSEVIER, 2025-01-23) Ripanda, Asha; Rwiza, Mwemezi J.; Nyanza, Elias Charles; Hossein, Miraji; Alfred, Mateso Said; Mahmoud, Alaa El Din; Murthy, H.C. Ananda; Bakari, Ramadhani; Vuai, Said Ali Hamad; Machunda, Revocatus L.
    In Sub-Saharan Africa (SSA), the increasing use of antibiotics in human and veterinary medicine, combined with inadequate waste and water management systems, has intensified the problem of antibiotic pollution. Untreated or partially treated wastewater from industries, agricultural runoff, residential areas, and healthcare facilities is frequently discharged into the environment, often used for irrigation, contributing to antibiotic accumulation, the spread of resistance genes, and the rise of antibiotic resistance, posing serious threats to public health and environmental sustainability. The region's climatic conditions favour the survival and proliferation of microbial communities, including pathogens. Additionally, the high prevalence of infectious diseases such as HIV/AIDS, tuberculosis, and malaria, which often necessitate antibiotic use, further amplifies the issue. Systemic challenges, including poor waste management, inadequate or absent wastewater treatment infrastructure, weak regulatory enforcement, and the over-the-counter sale of antibiotics, exacerbate the crisis. Limited healthcare access often results in self-medication and improper antibiotic use, accelerating resistance spread. Evidence shows antibiotics in surface water, groundwater, effluents, food crops, environmental samples, and aquatic organisms, indicating their potential circulation through the food chain. However, a lack of comprehensive data on antibiotic pollution and its impacts on aquatic ecosystems in SSA hampers a thorough understanding of its scope and long-term effects. Addressing this crisis requires identifying contamination hotspots, evaluating ecological impacts, and establishing robust, region-specific regulatory frameworks to ensure environmental and public health safety.
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    Optimizing Ciprofloxacin Removal From Water Using Jamun Seed (Syzygium Cumini) Biochar: A Sustainable Approach for Ecological Protection
    (KeAi Publishing, 2024-03-10) Ripanda, Asha; Rwizaa, Mwemezi J.; Nyanza, Elias Charles; Bih, Linda Numph; Hossein, Miraji; Bakarid, Ramadhani; Sigh, Somit Kumar; Reddy, Giridhar; Ravikumar, C.R.; Murthy, H.C. Ananda; Njau, Karoli N.; Vuai, Said Ali Hamad; Machunda, Revocatus L.
    Scientific interest in antimicrobial pollutants, such as ciprofloxacin, has increased. Due to spread of antibiotic resistant bacteria, resistance genes, and their dissemination to the environment. Therefore, their remediation is necessary to ensure ecological sustainability. The current study aimed to optimise the removal of ciprofloxacin from synthetic water using jamun seed (JS) (Syzygium cumini) biochar using a response surface methodology (RSM).Resultindicatesciprofloxacineliminationefficiencyrangedbetween32.46and94.95%,indicatingthema terial can be improved and used for remediation of organics. The residual standard error of 4.4% were found for thepredicted model,implyingthatthemodeliscredibleandcanbeusedtopredictfutureexperimentalfindings. The R-squarred value for the improved Langmuir model's R2 is 0.9681 which is inclose agreement with the Freundlich isotherm, R2 0.9757. Therefore, JS biochar could be utilized for the remediation of ciprofloxacin from contaminated water and wastewater for ecological safety and sustainability.