Researcher at Central South University, Kenya.
Nyambane Clive Ontita π°πͺ is a passionate environmental microbiologist π± specializing in microbe-mineral interactions, bioelectrochemical systems β‘, and resource recovery from industrial waste streams β»οΈ. Currently pursuing a Ph.D. at Central South University, China π¨π³, Clive focuses on innovative microbial strategies for rare earth element (REE) recovery and pollutant degradation from wastewater π§ͺ. With over a decade of combined teaching π and research experience, he bridges science and sustainability in real-world applications. His international exposure π, impactful publications π, and hands-on technical skills in environmental analytics and microbial technologies make him a rising figure in green research. Clive is dedicated to interdisciplinary collaboration π€ and is driven by a mission to create sustainable, microbially-driven technologies that support clean industry and circular economies π.
Professional Profile
ORCID
Suitability For Outstanding Scientist Award – Dr. Nyambane Ontita
Nyambane Ontita stands out as a committed, innovative, and impactful environmental microbiologist with a decade-long career dedicated to sustainable scientific solutions. His interdisciplinary expertise, combining microbiology, environmental engineering, and materials science, aligns strongly with the core values of the Outstanding Scientist Awardβscientific excellence, innovation, real-world impact, and leadership in research.
Education
Clive holds a Ph.D. (ongoing) in Environmental Microbiology 𧫠from Central South University, China π¨π³, where he specializes in microbial electrochemical systems and metal recovery. He earned his Masterβs degree in Microbiology π§ͺ from Kenyatta University, Nairobi π°πͺ, in 2015, focusing on clinical and environmental microbiology. He began his academic journey with a Bachelor of Science in Education (Biology and Agriculture) πΎ from Bugema University, Uganda πΊπ¬, in 2010. His educational path reflects a strong foundation in biological sciences, environmental health, and sustainable agriculture πΏ. With a mix of African and international education, Clive is well-equipped to tackle global environmental challenges using science and innovation π‘.
Experience
Clive has diverse professional experience in academia and research π¬. Currently, he is a doctoral researcher at Central South University, China π¨π³, investigating bioelectrochemical methods for rare earth element recovery and wastewater treatment π§. He previously served as a part-time lecturer π§βπ« at Kisii University and JKUAT in Kenya π°πͺ, where he taught microbiology and supervised student research for over six years π. In 2015, he worked as a graduate researcher at Kisii Teaching and Referral Hospital π₯, exploring clinical microbiology and antibiotic resistance. His extensive experience includes reactor operation, microbial analysis, and mentorship, positioning him as a skilled educator, researcher, and problem solver π€.
Professional Development
Clive is committed to lifelong learning and growth through research and collaboration π. He actively participates in international workshops and training programs π, including the AITC course on Carbon Neutrality held in Bangkok (2024) π±, and the Graduate Innovation Forum on Low-Carbon Metal Resource Utilization in China (2023) π. His continuous development in cutting-edge techniques like qPCR, bioinformatics π§¬, and surface analytics ensures he remains at the forefront of environmental biotechnology π¬. Through conferences, academic networking π€, and cross-border collaborations, Clive refines his skills and contributes meaningfully to global sustainability conversations π. His ability to merge theory with practical innovation positions him as a leader in his field π.
Research Focus Category
Cliveβs research is centered around Environmental Biotechnology π and Sustainable Resource Recovery π. His work lies at the intersection of microbiology π§«, environmental engineering π οΈ, and materials science π§±. He focuses on developing bioelectrochemical systems (BES) to recover rare earth elements like Ce, La, and Gd from mining and industrial wastewater π§ͺ. Additionally, he investigates microbial processes for the degradation of emerging contaminants and biostabilization of mine waste βοΈ. His research addresses urgent environmental issues like pollution, resource scarcity, and clean energy transitions β‘. Cliveβs contribution directly supports Sustainable Development Goals (SDGs) 6 (Clean Water), 9 (Industry Innovation), and 13 (Climate Action) πΏ, placing him in the category of applied environmental science with real-world impact π.
Research Skill Category
Clive possesses a wide range of high-level technical and analytical research skills π. His core proficiencies include molecular biology techniques like DNA extraction, qPCR, and 16S rRNA sequencing π§¬, and bioinformatics tools such as PICRUSt for microbial pathway prediction π». Heβs highly experienced with environmental analyticsβoperating tools like XPS, FTIR, SEM, XRD, and ICP-OES for metal speciation and surface characterization π¬. Clive also designs and operates bioelectrochemical systems for pollutant degradation and metal recovery βοΈ. His expertise spans data analysis using SPSS, OriginLab, and GraphPad Prism π. His skillset is well-suited for complex, interdisciplinary research requiring precision, innovation, and scalability in environmental microbiology and process engineering π±.
Awards & Honors
Cliveβs excellence has been recognized through several academic honors π₯. He was awarded Best Research Student (2024) at Central South University π¨π³, acknowledging his innovative work in microbial electrochemical systems. In 2022, he also earned the Best Research Group Presenter title for his impactful research presentations and scientific communication skills π€. These awards reflect his dedication, academic leadership, and ability to translate complex research into practical, sustainable solutions πΏ. Clive continues to gain recognition as a rising environmental scientist with a strong academic and research trajectory.
Publication Top Notes
1. Highβefficiency nitrogen removal by coldβtolerant bacteria consortium at low temperatures
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Journal: Bioresource Technology
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Publication Date: June 2025
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DOI: 10.1016/j.biortech.2025.132816
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Authors: Y.β―Xu; N.β―C.β―Ontita; W.β―Zeng; J.β―Huang; L.β―Jiang; X.β―Huang; Q.β―Li; P.β―Hu
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Summary: Demonstrates effective nitrogen removal via a cold-tolerant bacterial consortium in low-temperature wastewater conditionsβcritical for improving treatment in cold climates.
2. Mechanistic Insights into Biphasic Effects of Ce(III) on Anode Biofilmsβ¦
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Journal: Water, Air, & Soil Pollution
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Publication Date: June 2025
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DOI: 10.1007/s11270-025-08175-9
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Authors: N.β―C.β―Ontita; C.β―Amanze; R.β―Anaman; X.β―Shanshan; F.β―Kwofie; P.β―A.β―Tetteh; W.β―Zeng
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Summary: Investigates how Ce(III) exhibits dual rolesβenhancing or inhibitingβon anode biofilms in bioelectrochemical wastewater treatment, offering mechanistic insights for optimizing industrial systems.
3. Substrateβmediated enhancement of bioelectrochemical systems for sustainable rare earth element recoveryβ¦
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Journal: Journal of Water Process Engineering
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Publication Date: June 2025
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DOI: 10.1016/j.jwpe.2025.108199
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Authors: N.β―C.β―Ontita; R.β―Anaman; C.β―Amanze; H.β―N.β―Nyangweso; W.β―Zeng
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Summary: Presents substrate-based strategies to improve bioelectrochemical recovery of rare earth elements from mining wastewaterβa sustainable alternative to conventional mining.
4. Electrochemically active biofilms responses to gadolinium stress during wastewater treatmentβ¦
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Journal: Journal of Hazardous Materials
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Publication Date: March 2025
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DOI: 10.1016/j.jhazmat.2025.137941
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Authors: N.β―C.β―Ontita; R.β―Anaman; E.β―K.β―Sarkodie; Y.β―Wang; A.β―H.β―Bichi; X.β―Shanshan; H.β―N.β―Nyangweso; Y.β―Xu; C.β―Amanze; N.β―E.β―H.β―Bouroubi et al.
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Β Summary: Analyzes how gadolinium (Gd) stress affects electrochemically active biofilms, informing risk-mitigation strategies in wastewater systems using imposed bioelectrochemical processes.
5. Isolation and Wholeβgenome analysis of Desmodesmus sp. SZβ1: Novel acidβtolerant carbonβfixing microalga
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Journal: Bioresource Technology
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Publication Date: December 2024
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DOI: 10.1016/j.biortech.2024.131572
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Authors: Y.β―Wang; A.β―Liu; C.β―Amanze; N.β―C.β―Ontita; W.β―Zeng
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Citations: 34
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Β Summary: Presents a novel acid-tolerant, carbon-fixing microalga with whole-genome analysis, offering potential for bioindustrial COβ sequestration and bioresource development.
6. Insights into anode substrate optimization in bioelectrochemical systems for efficient cathodic lanthanum recoveryβ¦
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Journal: Journal of Water Process Engineering
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Publication Date: September 2024
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DOI: 10.1016/j.jwpe.2024.106003
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Authors: N.β―C.β―Ontita; E.β―K.β―Sarkodie; R.β―Anaman; Y.β―H.β―Tang; W.β―Zeng
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Summary: Explores tailored anode substrates for enhanced cathodic lanthanum recoveryβpaving the way for valuable metal recovery in wastewater treatment.
Conclusion
Nyambane Ontita is an ideal candidate for the Outstanding Scientist Award. His impactful and innovative contributions to environmental microbiology and sustainable technologyβcoupled with strong technical capability, leadership potential, and international collaborationβexemplify the spirit of this honor. His work not only advances scientific understanding but also delivers practical solutions for cleaner industries and a more sustainable planet.