Martin Parisot | hydrogeology | Editorial Board Member

Published on by Environmental Scientists

Dr. Martin Parisot | hydrogeology | Editorial Board Member

Inria Center at Bordeaux University | France

Dr. Martin Parisot is a dedicated junior researcher at INRIA whose work integrates advanced mathematical modeling with computational techniques to address complex challenges in geophysical and environmental fluid dynamics. His research bridges kinetic theory, hydrodynamic limits, hyperbolic systems, and dispersive phenomena to develop unified models capable of describing multi-scale water-related processes with exceptional precision. He contributes significantly to the formulation and analysis of shallow-water, congested-flow, and wave-propagation models, emphasizing entropy principles, asymptotic preservation, and structure-preserving numerical schemes. His expertise includes innovative coupling strategies, weakly dispersive approximations, and adaptive numerical methods that enhance the reliability of simulations for free-surface flows, groundwater interactions, and large-scale oceanic dynamics. Parisot’s scientific output has earned substantial recognition, reflected in 434 citations, an h-index of 11, and an i10-index of 13, highlighting the broad impact of his contributions. His publications cover diverse themes such as hydrodynamic model derivation, interface coupling techniques, dispersive approximations of Euler equations, kinetic equations for swarm behavior, and numerical schemes applicable to low-Froude regimes. He has collaborated widely on interdisciplinary projects involving coastal risk assessment, storm surge modeling, renewable marine energy, sediment transport, and unified modeling of geophysical flows, offering analytical depth and computational advances that support environmental forecasting and engineering innovation. In addition to his research activities, he has guided emerging scholars and contributed to editorial and scientific committee roles, as well as the organization of conferences in applied mathematics. Through sustained contributions to modeling and numerical analysis, Parisot continues to advance the understanding and prediction of complex geophysical systems, reinforcing his role in the progression of environmental and computational fluid dynamics research.

Featured Publications

Fernandez-Nieto, E. D., Parisot, M., Penel, Y., & Sainte-Marie, J. (2018). A hierarchy of dispersive layer-averaged approximations of Euler equations for free surface flows. Communications in Mathematical Sciences, 16(5), 1169–1202.

Godlewski, E., Parisot, M., Sainte-Marie, J., & Wahl, F. (2018). Congested shallow water model: Roof modeling in free surface flow. ESAIM: Mathematical Modelling and Numerical Analysis, 52(5), 1679–1707.

Parisot, M., & Vila, J.-P. (2016). Centered-potential regularization for the advection upstream splitting method. SIAM Journal on Numerical Analysis, 54(5), 3083–3104.

Parisot, M. (2019). Entropy-satisfying scheme for a hierarchy of dispersive reduced models of free surface flow. International Journal for Numerical Methods in Fluids, 91(10), 509–531.

Lachowicz, M., Leszczyński, H., & Parisot, M. (2017). Blow-up and global existence for a kinetic equation of swarm formation. Mathematical Models and Methods in Applied Sciences, 27(06), 1153–1175.

 

Chi Mai Do | Irrigation | Best Researcher Award

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Dr. Chi Mai Do | Irrigation | Best Researcher Award

Researcher | Adelaide University | Australia

Dr. Chi Mai Do is an accomplished plant scientist and biotechnology researcher whose work bridges horticultural innovation, genetic diversity, and sustainable agricultural practices. With a strong academic background in plant science, biotechnology, and horticulture, she has focused her research on the pre-breeding of Indigenous Australian crops, genetic resistance in cereals, and crop improvement for resilience and sustainability. Her professional journey includes research and technical roles at the University of Adelaide, Athena IR-Tech, Magnus Kahl Seeds, and the United Nations Development Programme, where she contributed to green supply chain development and low-carbon agricultural strategies. Her research extends across plant tissue culture, precision irrigation, and genetic marker development, emphasizing data-driven approaches to enhance crop productivity and environmental adaptability. Dr. Chi Mai Do has co-authored several influential publications in international journals and contributed to national horticultural initiatives supporting Indigenous food programs and crop breeding innovation. Beyond research, she serves as an editorial board member of the New Zealand Journal of Crop and Horticultural Science and volunteers with programs fostering early-career researcher development across Asia-Pacific institutions. Known for her multidisciplinary expertise, she integrates field research, biotechnological tools, and policy engagement to strengthen sustainable agrifood systems, supporting both scientific advancement and community-based agricultural growth.

Profile: Orcid

Featured Publications

Guevara-Torres, D. R., Luo, H., Do, C. M., Ostendorf, B., & Pagay, V. (2025). Improving the accuracy of seasonal crop coefficients in grapevine from Sentinel-2 data. Remote Sensing, 17(19), 3365.

Tran, D. N., Do, C. M., Le, H. T., & Do, P. M. (2021). Assessment on the potentials for a green and sustainable dragon fruit supply chain in Binh Thuan province in Vietnam (No. IC. 2020-09-42). United Nations Development Programme (UNDP).

Dunker, B., Waycott, M., Faast, R., Carragher, J., Jiranek, V., Delaporte, K., Betteridge, A., Calladine, A., Clarke, P., Conran, J., Mai Do, C., Puglisi, C., Sundstrom, J., Weinstein, P., Wilkinson, K., & Lowe, A. (2019). Final report: The Indigenous Food Program, a project in partnership with The Orana Foundation. University of Adelaide, South Australia.

Do, C. M., Pagay, V., Delaporte, K. L., & Schultz, C. J. (2018). Salinity tolerance of muntries (Kunzea pomifera), a native food crop. HortScience, 53(11), 1562–1569.

Do, C. M., Panakera-Thorpe, L. C., Delaporte, K. L., Croxford, A. E., & Schultz, C. J. (2017). Genic simple sequence repeat markers for measuring genetic diversity in a native food crop: A case study of Australian Kunzea pomifera F. Muell. (muntries). Genetic Resources and Crop Evolution, 1–21.

Do, C. M., Delaporte, K. L., & Schultz, C. J. (2017). Benchmarking study of quality parameters of Rivoli Bay selection of Kunzea pomifera (muntries): A new Indigenous crop from Australia. Scientia Horticulturae, 219, 287–293.

Nawar Al-Tameemi | Soil and Water Conservation | Best Researcher Award

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Dr. Nawar Al-Tameemi | Soil and Water Conservation | Best Researcher Award

Research Assistant | Beijing Forestry University | China

Dr. Nawar Al-Tameemi is a dedicated research assistant at Beijing Forestry University specializing in environmental science, remote sensing, and geospatial analysis. His work focuses on understanding and mitigating land degradation and desertification in arid and semi-arid regions through advanced data-driven approaches. He has contributed to pioneering research projects that examine vegetation degradation, land-use change, and desertification risk mapping by integrating satellite-derived data, statistical analyses, and machine learning techniques. Dr. Nawar Al-Tameemi develops innovative frameworks that objectively assess the influence of climatic, vegetative, and human factors on land degradation, providing high-precision risk maps to inform sustainable land management and policy interventions. His research enhances the accuracy and applicability of environmental monitoring tools and supports targeted strategies to promote soil and water conservation. With publications in leading journals such as MDPI Remote Sensing and practical experience in applied projects, he bridges academic research with real-world environmental solutions. Committed to advancing knowledge in sustainable land use, Dr. Nawar Al-Tameemi also contributes to mentoring, collaboration, and capacity-building in climate education, fostering awareness of ecological resilience and the adoption of clean, sustainable practices across vulnerable landscapes.

Profile: Orcid | Google Scholar

Featured Publications

Al-Tameemi, N., Xuexia, Z., Shahzad, F., Mehmood, K., Linying, X., & Zhou, J. (2025). From trends to drivers: Vegetation degradation and land-use change in Babil and Al-Qadisiyah, Iraq (2000–2023). Remote Sensing, 17(19), 3343.

Zhiyong Luo | Wastewater treatment | Best Researcher Award

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Assoc. Prof. Dr. Zhiyong Luo | Wastewater treatment | Best Researcher Award

Associate Professor, Chongqing University, China

Dr. Zhiyong Luo, Ph.D., is an Associate Professor and Master’s Supervisor at the School of Chemistry and Chemical Engineering, Chongqing University, China. With a strong background in Environmental and Analytical Chemistry, Dr. Luo has contributed extensively to cutting-edge water treatment technologies, publishing over 40 papers in leading journals. He is recognized for his innovative research on ferrate(VI)-based oxidation techniques, enhancing the understanding of pollutant removal from water sources.

Profile

Scopus

🎓 Education

Dr. Luo holds a Ph.D. in Engineering (2009) and an M.S. in Chemistry (2003) from Chongqing University, following his B.S. in Chemistry from Wuhan University of Technology in 1996. He also completed a one-year tenure as a visiting scholar at the Florida Institute of Technology, USA (2009–2010), which broadened his international research exposure and academic collaboration.

💼 Professional Experience

Currently serving as an Associate Professor, Dr. Luo mentors graduate students and leads interdisciplinary research initiatives. His teaching and supervisory roles have significantly shaped the development of environmental chemistry professionals in China, bridging classroom education and applied laboratory innovation.

🔬 Research Interest

Dr. Luo’s research revolves around Environmental Chemistry, Analytical Chemistry, and Environmental Analysis, with a sharp focus on Advanced Oxidation Technologies for Water Treatment. He explores kinetic and mechanistic behavior of pollutants under ferrate(VI) oxidation, targeting real-world water purification applications.

🏆 Awards and Honors

While the document does not explicitly list awards, Dr. Luo’s consistent publication in JCR 1st Quartile journals with high-impact factors, and his role as a corresponding author, highlight his academic excellence and international recognition in the field of environmental sciences.

📚 Publications

Kinetics and mechanism of 2,5-dichlorophenol removal by ferrate(VI)
🔗 Journal of Water Process Engineering, 2025, Vol. 75, Article 107934
Cited by: To be updated post-publication

Removal of 3,4-dichlorophenol from water utilizing ferrate(VI)
🔗 Environmental Science: Water Research & Technology, 2024, Vol. 10, pp. 1840–1855
Cited by: 6 articles (approx.)

Carbonate and bicarbonate ions impacts on the reactivity of ferrate(VI)
🔗 Environmental Science and Pollution Research, 2023, Vol. 30, pp. 27241–27256
Cited by: 12 articles

Indirect spectrophotometric determination of aqueous ferrate(VI)
🔗 Spectrochimica Acta Part A, 2022, Vol. 278, Article 121301
Cited by: 18 articles

Degradation of 2,6-dichlorophenol by ferrate(VI) oxidation
🔗 Separation and Purification Technology, 2021, Vol. 278, Article 119475
Cited by: 25 articles

pH influence on 2,4,6-trichlorophenol degradation by ferrate(VI)
🔗 Environmental Technology & Innovation, 2021, Vol. 23, Article 101683
Cited by: 15 articles

Oxidative degradation of p-chlorophenol by ferrate(VI)
🔗 Journal of Environmental Chemical Engineering, 2021, Vol. 9, Article 105810
Cited by: 21 articles

🏁 Conclusion

Dr. Zhiyong Luo is a highly qualified and dedicated researcher whose work addresses critical challenges in environmental chemistry with scientific excellence and practical relevance. His consistent publication in top-tier journals and leadership in research projects strongly support his candidacy for the Research for Best Researcher Award. With slight expansion in international engagement and impact documentation, he is not only suitable but also a standout contender for this honor. 🌍🔬🏅

Joseph Train | Water Resources | Best Researcher Award

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Mr Joseph Train | Water Resources | Best Researcher Award

Graduate Student, University of Guelph, Canada 🌍

Joseph Train is a highly skilled engineering professional specializing in water resources and civil infrastructure. Based in Toronto, ON, Joseph has developed strong expertise in GIS, AutoCAD, and machine learning techniques applied to environmental engineering challenges. He is currently pursuing a Master of Applied Science in Engineering at the University of Guelph. With a hands-on background in both academic and industry settings, Joseph’s work bridges theoretical knowledge and practical engineering solutions for sustainable water systems.

Profile

Orcid

Education 🎓

Joseph holds a Master of Applied Science in Engineering from the University of Guelph (May 2023 – Dec 2024), where he is conducting a thesis on remotely monitoring drinking water treatment plants in isolated Indigenous communities. He received the Morwick Scholarship in Water Resources Engineering, valued at $20,000, for his dedication to conserving and protecting water resources. Joseph also earned his Bachelor of Water Resources Engineering with Co-op from the same institution (Sept 2018 – April 2023), laying the foundation for his deep understanding of water systems and infrastructure.

Experience 💼

Joseph has gained extensive experience through various roles in both academic and professional settings. As a Teaching Assistant at the University of Guelph, he has assisted with courses in Hydrology, Applied Differential Equations, and Design I & II, providing feedback and guiding students through complex design projects. His Engineering Assistant position at Greenland International Consulting Ltd. allowed him to contribute to site plans, implement LIDs, and research environmental impacts of wastewater treatment plant expansions. Additionally, his role as an Engineering Intern Student at the Regional Municipality of Peel enabled him to define sewerage borders and collect crucial water infrastructure data.

Research Interests 🔬

Joseph’s research interests focus on water resources engineering, particularly in the context of remote monitoring technologies for drinking water treatment plants in isolated communities. His research aims to improve access to clean water in Indigenous communities by predicting water advisories before they occur. He is also interested in the application of machine learning techniques to optimize infrastructure planning and management.

Awards & Positions 🏅

Joseph has been recognized for his leadership and commitment to both academic and extracurricular activities. He was awarded a signed letter from the Dean of Engineering for his volunteer work at the University of Guelph’s engineering recruitment events. Joseph also serves as the VP of Finance for the Graduate Engineering Society and has taken on the role of Bicycle Repair Coordinator for the Central Student Association at the University of Guelph.

Publications Top Notes📚

Joseph has contributed to research related to water resources engineering, particularly focused on monitoring and management systems. Some of his works include his ongoing thesis on the efficacy of remote monitoring of drinking water treatment plants. Below are links to his publications:

“Determining the Efficacy of Remotely Monitoring Drinking Water Treatment Plants” (2024, University of Guelph)
Cited by source.

“Predicting Drinking Water Advisories Using Remote Technology” (2023, Journal of Water Resources Engineering)
Cited by source.

Conclusion

Joseph Train possesses the skills, experience, and dedication necessary to be considered a strong candidate for the Best Researcher Award. His commitment to using engineering solutions to address critical environmental challenges, particularly in water resources, sets him apart. With continued growth in research dissemination and broader academic engagement, Joseph has the potential to make significant contributions to the field, making him well-suited for this prestigious recognition.