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.

 

Seyi Dada | Environmental Science | Editorial Board Member

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Ms. Seyi Dada | Environmental Science | Editorial Board Member

Tallinn University of Technology | United States

Ms. Seyi Dada is an environmental engineering and sustainability researcher whose work focuses on advancing innovative approaches for waste management, pollution reduction, and resource-efficient systems. Her research interests span sustainable electronic waste management, air quality analysis, renewable energy integration, environmental impact assessments, and circular economy strategies. She has conducted impactful studies on developing sustainable e-waste management frameworks, evaluating recycling technologies, analyzing environmental risks, and improving resource recovery methods to minimize ecological harm. Her work also includes assessing particulate matter dynamics in indoor and outdoor environments, examining the factors influencing air pollution dispersion, and contributing scientific insights that support healthier living conditions. She has explored renewable energy pathways through studies on biological methanation in power-to-gas systems and resource derivation from industrial and household waste streams, including the recovery of useful materials from discarded electronics and organic by-products. Her contributions extend to environmental performance evaluations, municipal solid waste life-cycle assessments, sustainability appraisals of consumer products, and comparative analyses of emerging and conventional technologies. Through her involvement in environmental monitoring activities, she has supported water quality assessments and identified key indicators of ecosystem health. Her strong interest in sustainability has led to participation in projects focused on eco-friendly manufacturing, waste treatment optimization, digitalization for improved environmental efficiency, and large-scale impact assessments for industrial and marine developments. An active member of multiple professional environmental organizations, she continues to integrate engineering principles, data-driven analysis, and environmental science to promote sustainable development and advance practical solutions for global environmental challenges.

Featured Publications

Nyambane, C. (2024, June). Development of a sustainable e-waste management system in Estonia.

Nyambane, C. (2024, May). Development of silver from used X-ray films and graphene from drained cassava starch.

Nyambane, C. (2024, September). Economic and operational feasibility of biological methanation in power-to-gas systems: Enhancing renewable energy integration.

Jingjing Jiang | Wastewater | Best Researcher Award

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Dr. Jingjing Jiang | Wastewater | Best Researcher Award

professor | Jilin University | China 

Dr. Jingjing Jiang of Jilin University is a distinguished environmental scientist whose research advances the understanding and application of transmembrane ion transport for wastewater treatment. With over 49 publications in SCI and Scopus-indexed journals, her work contributes significantly to sustainable environmental engineering and innovative water purification technologies. She has completed more than 15 research projects and participated in national collaborations supported by the National Natural Science Foundation of China, leading impactful research outcomes recognized through prestigious honors such as the Jilin Provincial Natural Science Award and the Ogano Award. Dr. Jingjing Jiang commitment to scientific innovation is reflected in her portfolio of 9 patents, 2 consultancy projects, and 1 published book, demonstrating both academic depth and industrial relevance. Her research impact is evidenced by 2,220 citations from 1,977 documents, 43 publications, and an h-index of 26, highlighting her strong international influence in the field. As a Young Editorial Board Member for several high-impact journals, including Nano-Micro Letters, Research, and Water Purification Technology, she actively shapes scholarly communication in environmental science. A recognized Tang Aoqing Young Scholar and Young Growth Science and Technology Talent of Jilin Province, Dr. Jingjing Jiang continues to mentor future scientists and foster cross-disciplinary collaboration. Her leadership, innovation, and academic excellence exemplify her as an emerging global authority in environmental engineering and a deserving candidate for the Best Researcher Award.

Profiles: Scopus | Researchgate

Featured Publications

Jiang, J., Zhang, Y., Liu, Y., & Dong, S. (2025, March). Selective activation of peroxymonosulfate through gating heteronuclear diatomic distance for flexible generation of high-valent cobalt-oxo species or sulfate radicals.

Sun, T., Liu, Y., Li, J., & Dong, S. (2025, March). Radical and nonradical cocatalysis induced by asymmetric medium-spin cobalt single atom for water decontamination.

Jiang, J., Liu, S., Zhao, B., & Dong, S. (2025, February). Angstrom confinement-triggered adaptive spin state transition of CoMn dual single atoms for efficient singlet oxygen generation.

Zhao, Z., Jiang, J., Zhou, D., & Dong, S. (2025, January). Microalgal-based urea wastewater treatment with p-hydroxybenzoic acid enhances resource recovery and mitigates biological risks from bisphenol A.

Liu, Y., Jiang, J., Li, T., & Dong, S. (2024, December). Tuning charge distribution for synergistic enhancement of internal electric field in BiOCl via phosphorus–vanadium dual-doping.

Mohamed Bey Zekkoub | Environmental Modelling | Young Researcher Award

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Dr. Mohamed Bey Zekkoub | Environmental Modelling | Young Researcher Award

Researcher | Swiss Federal Laboratories for Materials Science and Technology | Switzerland

Dr. Mohamed Bey Zekkoub is a dedicated environmental scientist and water expert with extensive experience in water quality analysis, environmental risk assessment, and predictive modeling of complex environmental systems. His work bridges experimental research, numerical simulations, and machine learning approaches to understand and mitigate the impacts of chemical pollutants and plastic waste in aquatic ecosystems. He has contributed to major studies on industrial effluents, riverine pollution, and the fate of polymers in water systems, providing actionable insights for sustainable water management and ecological protection. Dr. Mohamed Bey Zekkoub has held research and consultancy roles in leading institutions, where he developed advanced numerical models, conducted ecological risk assessments, and guided mitigation strategies for environmental compliance. His expertise spans hydro informatics, chemistry, environmental modeling, and natural resource management, enabling him to support evidence-based policy development and sustainable practices. He has been recognized for his innovative contributions with prestigious awards and has presented his research at international conferences while publishing in top-tier journals. In addition to research, he has actively contributed to the development of environmental modeling tools, enhancing the accuracy of pollutant transport simulations. With a strong foundation in computational fluid dynamics, numerical modeling, and programming languages, Mohamed combines technical proficiency with a passion for addressing global environmental challenges, particularly in water security, pollution management, and the sustainable stewardship of natural resources. He continues to advance knowledge in environmental science through interdisciplinary collaboration, experimentation, and innovative modeling approaches to support a healthier and more resilient planet. His work has been cited once since 2020, with an h-index of 1, reflecting recognition of his contributions to the field.

Profile: Google Scholar

Featured Publications

Bey-Zekkoub, M., Tassi, P., Lucas, C., & Chhim, N. (2025). Modeling solute transport in rivers: Analytical and numerical solutions. Environmental Modelling & Software, 106580.

Bey-Zekkoub, M., Tassi, P., & Chhim, N. (2025). Assessing the impacts of sodium polyacrylate discharge into the Seine River: A numerical modeling approach. Journal of Contaminant Hydrology, 104740.

Bey-Zekkoub, M., Tassi, P., Chhim, N., Bretaud, M., & Harnichard, A. (2024). Interaction between sodium polyacrylate and sediment transport in a simplified river reach configuration. Telemac User Conference TUC 2024.

Bey-Zekkoub, M., Tassi, P., Lucas, C., & Chhim, N. (2024). Analytical and numerical solutions for one-dimensional solute transport in rivers: Advection, adsorption, degradation, and bed accumulation. Journal of Hydrology.

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.

Ojone Anyebe | Sustainable Agricultural Practices | Best Researcher Award

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Mrs. Ojone Anyebe | Sustainable Agricultural Practices | Best Researcher Award

Researcher | Ahmadu Bello University | Nigeria

Mrs. Ojone Anyebe, a dedicated Nigerian academic and professional from Kogi State, has built a strong career in soil science, environmental management, and education. He began his early education in Ogugu and advanced through secondary and tertiary institutions where he obtained qualifications in Soil Science and Environmental Management, complemented by professional certifications in health, safety, and environment. His scholarly contributions span research in conservation agriculture, soil remediation, biochar applications, and land suitability evaluation, with 4 peer-reviewed publications indexed with 15 citations from 14 documents and an h-index of 3, reflecting his growing academic impact. He has presented at national conferences and engaged in policy and agricultural projects that address fertilizer optimization and value chain development in Africa. His professional career includes teaching and research roles across schools, farms, and government establishments where he served as teacher, agronomist, examination officer, and front desk officer. Currently, he works as a mathematics teacher at Dream Towers Schools in Ebonyi State while continuing to mentor students and contribute to agricultural research. A member of the Soil Science Society of Nigeria, he collaborates with peers and mentors in advancing sustainable soil health management and innovative agricultural practices. His research interests emphasize sustainable agriculture, remediation of contaminated soils, and improving crop productivity through innovative soil management techniques. Beyond academics, he actively engages in mentoring, fashion design, and home management, reflecting a versatile personality with a passion for knowledge sharing and community development. Through his professional journey, Mrs. Ojone Anyebe has combined research, teaching, and service to advance science, education, and sustainable environmental practices in Nigeria and beyond.

Profile: Scopus | OrcidLinkedIn 

Featured Publications

Sadiq, F. K., Anyebe, O., Tanko, F., Abdulkadir, A., Manono, B. O., Matsika, T. A., Abubakar, F., & Bello, S. K. (2025). Conservation agriculture for sustainable soil health management: A review of impacts, benefits and future directions. Soil Systems, 9, 103.

Anyebe, O., Sadiq, F. K., Sadiq, A. A., Almaary, K. S., & Akhtar, H. M. S. (2025). Evaluating citric and oxalic acids as sustainable chelating agents for heavy metal remediation and phytoextraction efficiency in contaminated soils using maize (Zea mays). Clean Technologies and Environmental Policy, 26(3).

Anyebe, O., Sadiq, F. K., Manono, B. O., & Matsika, T. A. (2025). Biochar characteristics and application: Effects on soil ecosystem services and nutrient dynamics for enhanced crop yields. Nitrogen, 6, 31.

Sadiq, F. K., Yaqub, M. T., Maniyunda, L. M., Alalwany, A. A. M., Abubakar, F., & Anyebe, O. (2025). Soil classification and land suitability evaluation for tomato cultivation using analytic hierarchy process under different land uses. Heliyon, 11, e41681.

Anyebe, O., Uyovbisere, E. O., Sadiq, F. K., Adegoke, K. A., & Anumah, A. O. (2022). The phytoextraction by Zea mays of residual metals in ethylenediaminetetraacetic acid-washed soils. Chemistry Africa, 5, 395–404.

Anyebe, O., Uyovbisere, E. O., & Amapu, I. Y. (2018). The effect of ethylenediaminetetraacetic acid on the removal and distribution of heavy metals in contaminated soils. In Proceedings of the Second Biennial Conference of the School of Postgraduate Studies, Ahmadu Bello University (pp. 308–315). Zaria, Nigeria.

 

Seyyed Morteza Hatefi | Sustainability | Best Researcher Award

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Assoc. Prof. Dr. Seyyed Morteza Hatefi | Sustainability Studies | Best Researcher Award

Associated Professor of engineering, Shahrekord University, Iran

Dr. Seyed Morteza Hatefi is an esteemed Associate Professor at the Faculty of Engineering, Shahrekord University, Iran. With a rich academic background and a focus on sustainable and risk-resilient supply chain systems, he has made significant contributions to industrial engineering, particularly in robust logistics and green building models. 🌍📈

Profile

Scopus

Google Scholar

Orcid

🎓 Education

Dr. Hatefi completed his Ph.D. in Industrial Engineering at the University of Tehran (2014), specializing in robust and reliable logistics network design under disruption risks. 🧠 He also holds an M.Sc. in Industrial Engineering (2009) from the same university and a B.Sc. in Statistics from Shahid Beheshti University (2005). 🎓📊

💼 Professional Experience

Since 2014, Dr. Hatefi has served as Assistant and Associate Professor at Shahrekord University. He held administrative roles such as Director of Technology Affairs and Director of Entrepreneurship & Industry Relations. 🏢 He has led research fellowships and projects focused on IT, business intelligence, and supply chain cluster development. 📊💻

🔬 Research Interest

His expertise spans sustainable construction, risk & supply chain management, fuzzy and robust optimization, multi-criteria decision-making, and data envelopment analysis. 🌱🔎 His modeling approaches under uncertainty support better decision-making in logistics, infrastructure, and environmental projects.

🏆 Awards and Honors

Dr. Hatefi has been honored among the top 2% of global scientists based on annual impact in 2020, 2021, and 2022, according to Stanford University rankings—an elite recognition of his consistent scientific contribution. 🏅🌐📚

📚 Publications

An Integrated Fuzzy Shannon Entropy and Fuzzy ARAS Model Using Risk Indicators for Water Resources Management Under Uncertainty, Sustainability, 2025.

Risk Assessment in Mass Housing Projects Using Fuzzy Shannon Entropy and EDAS, Sustainability, 2025.

Dempster-Shafer theory for environmental risk in Oil & Gas, Scientia Iranica, 2024.

Model for Sustainable Material Selection, Sustainability, 2021 – cited in sustainability modeling frameworks.

Reliable Supply Chain Network Design under Disruption, International Journal of Integrated Engineering, 2019.

Fuzzy DEMATEL-ANP Risk Evaluation, Journal of Civil Engineering and Management, 2019 – widely cited in construction risk analysis.

🏁 Conclusion

Dr. Seyed Morteza Hatefi exhibits a high-caliber research profile with sustained impact, interdisciplinary innovation, and substantial contributions to both academia and industry. His selection among the top 2% scientists worldwide for three consecutive years underscores his global recognition. Given his achievements, Dr. Hatefi is highly suitable and a strong candidate for the Best Researcher Award.

Rabaka Sultana | Environmental Engineering | Excellence in Innovation

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Mrs. Rabaka Sultana | Environmental Engineering | Excellence in Innovation

Research graduate, Charles Darwin University, Australia

Rabaka Sultana is an accomplished academic and construction professional recognized for advancing sustainable building practices through pioneering research, innovative teaching, and industry leadership. With expertise in life cycle assessment (LCA) and integrating traffic and machinery noise impacts into construction assessments, she contributes to academic knowledge and practical solutions for sustainable development.

Profile

Orcid

Education 🎓

Rabaka holds a PhD in Civil Engineering (2021-present) from Charles Darwin University, a Master of Civil and Environmental Engineering from the University of South Australia (2015), and a Bachelor of Civil Engineering from Bangladesh University of Engineering and Technology (2005). She also has various certificates in training and assessment, building construction, and early childhood education.

Experience 💼

Rabaka has diverse experience as a lecturer, building supervisor, and educator. She has worked as a Lecturer at Sunbeam International College, Building Supervisor at Kingsford Homes, Teaching Assistant at Charles Darwin University, and Lecturer at Daffodil International University. She has also led projects focusing on quality, environmental impact, and client satisfaction in the construction industry.

Research Interest 🔍

Rabaka Sultana’s research focuses on advancing sustainable construction practices through innovative approaches. Her work encompasses life cycle assessment (LCA), a methodology used to evaluate the environmental impacts of buildings and construction materials throughout their entire life cycle. She is also dedicated to integrating environmental impacts, including noise pollution, into construction evaluation frameworks. This involves developing comprehensive assessment tools that consider not only traditional factors like energy consumption and material usage but also the effects of noise on human health and the environment. By exploring these areas, Rabaka aims to contribute to the development of more sustainable and environmentally responsible construction practices.

Awards 🏆

Rabaka received the Award for Developing Online Platform for Engineering Course (2019) from Daffodil International University, recognizing her innovative and efficient online platform to deliver engineering courses.

Publications 📄

Sultana, R., Rashedi, A., Khanam, T. (2022). “Life Cycle Environmental Sustainability and energy assessment of Timber Wall Construction: A comprehensive overview.” Sustainability, 14(7), 4161. (link unavailable)

Sultana, R., Khanam, T., Rashedi, A., Rajabipour, A. (2025). “Integrating Noise into Life Cycle Assessment for Sustainable High-Rise Construction: A Comparative Study of Concrete, Timber, and Steel Frames in Australia.” Sustainability, 17(9), 4040.

Conclusion

Based on her research achievements, innovative teaching methods, and industry experience, Rabaka Sultana is a suitable candidate for the Research for Excellence in Innovation award. Her dedication to advancing sustainable building practices and her commitment to education and mentorship demonstrate her potential to make a lasting impact in her field. With further emphasis on interdisciplinary collaboration and practical application, she is well-positioned to continue driving innovation in sustainable construction.

 

Amélie Saunier | Environmental Science | Best Researcher Award

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Dr. Amélie Saunier | Environmental Science | Best Researcher Award

Junior Scientist, IMBE, France

Amélie Saunier is a Junior Scientist at Aix-Marseille University (AMU), working within the Mediterranean Institute of Biodiversity and Ecology (IMBE) in France 🇫🇷. With a passion for plant ecophysiology and atmospheric chemistry, her interdisciplinary research explores how plants respond to environmental stresses through the production of specialized metabolites 🌿🔬. Her work bridges ecology and chemistry, offering key insights into how ecosystems may adapt and evolve under global change 🌍.

Profile

Orcid

🎓 Education

Dr. Amélie Saunier earned her Ph.D. in 2017, focusing on the role of specialized plant metabolites in response to abiotic and biotic stresses 🌱📚. Her academic training integrates both ecological and chemical sciences, equipping her with a strong foundation to investigate the complex interactions between plant emissions and environmental change 🧪🌾.

💼 Experience

Since completing her Ph.D., Amélie has been actively contributing as a researcher at IMBE under Aix-Marseille University 🏫🔍. She has participated in 8 research projects, building collaborations across France, Finland, Vietnam, and Tunisia 🤝🌐. Her professional work is deeply rooted in studying plant-environment interactions to improve ecosystem predictions under climate stress ☀️🌧️.

🔬 Research Interests

Her main research interests include vegetal ecophysiology, atmospheric chemistry, and chemical ecology 🌬️🌿. Amélie investigates volatile organic compounds (BVOCs) and their ecological functions, especially in the context of pollination, pollution, and climate change. She focuses on how these emissions mediate biotic interactions and contribute to overall ecosystem dynamics 🔎🌺.

🏅 Awards & Recognition

Although she holds no official membership or industrial consultancy roles, Amélie Saunier’s academic contributions have been widely recognized 📈. With an H-index of 12 and 573 citations, her research has influenced the fields of plant biology, ecology, and atmospheric science 📑✨. She also served as a guest editor for BMC Ecology and Evolution, showcasing her growing role in academic leadership 📘🔬.

📚 Publications

Biogenic volatile organic compounds (BVOCs) and oak forest resistance under droughtJournal of Ecology, 2022. (Cited by: 34 articles)

Pollination under air pollution: BVOC mediation in stressed environmentsEnvironmental Chemistry Letters, 2021. (Cited by: 48 articles)

Diurnal emissions of BVOCs in Mediterranean seagrassesMarine Environmental Research, 2023. (Cited by: 26 articles)

Functional roles of plant volatiles in response to abiotic stressPlant Science Today, 2020. (Cited by: 59 articles)

Chemical ecology of coastal ecosystems: A case study in the MediterraneanEcological Indicators, 2019. (Cited by: 41 articles)

🏆 Conclusion

Amélie Saunier is an outstanding candidate for the Best Researcher Award. Her innovative and interdisciplinary work on the ecological and atmospheric impacts of plant volatiles contributes significantly to understanding ecosystem dynamics under climate stress. With a strong publication record, respected international collaborations, and a growing citation footprint, she clearly demonstrates excellence in research and academic leadership. Strengthening her profile with memberships or applied collaborations could further boost her competitive edge.