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 | Orcid |Β LinkedInΒ 

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.

 

KΓ‘roly Penksza | Botany | Best Researcher Award

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Prof. Dr. KΓ‘roly Penksza | Botany | Best Researcher Award

Researcher | Hungarian University of Agriculture and Life Sciences | Hungary

Dr. KΓ‘roly Penksza is a distinguished Hungarian botanist and professor whose career exemplifies a profound dedication to plant sciences, landscape ecology, and environmental conservation. His academic journey encompasses extensive research, teaching, and professional service across leading Hungarian institutions, where he has guided departments, led research projects, and mentored students in botany, floristics, phenology, herbalism, biomonitoring, and conservation. He has played a pivotal role in developing curricula for undergraduate and postgraduate programs, overseeing field courses in landscape assessment, habitat evaluation, and species conservation, and coordinating international correspondence courses. Dr. KΓ‘roly Penksza research integrates plant systematics, community ecology, and environmental assessment, contributing to the sustainable management of Hungary’s natural landscapes and Natura2000 sites. He has actively engaged in professional and expert roles, including project leadership, environmental consultancy, and participation in regional and national conservation programs. Fluent in multiple languages, he combines teaching, research, and applied environmental expertise to advance knowledge of plant geography and ecological management. Throughout his career, he has published extensively in peer-reviewed journals, earning 1,056 citations by 770 documents, with 117 publications and an h-index of 17, contributing to scientific understanding and applied conservation practices. His work continues to bridge theoretical research with practical applications, promoting biodiversity, habitat protection, and sustainable agricultural and environmental management in Hungary and beyond.

Profile: Scopus | Orcid

Featured Publications

Penksza, K., Szabó-Szâllâsi, T., Neményi, A., Sipos, L., Szentes, S., Wagenhoffer, Z., Palla, B., Balogh, D. Á., & SalÑta-Falusi, E. (2025). Evaluating inflorescence morphology in two species and subspecies of the genus Hierochloë R. Brown. Plants.

Szentes, S., Penksza, K., SalΓ‘ta-Falusi, E., Sipos, L., Kozma-BognΓ‘r, V., Hoffmann, R., & Wagenhoffer, Z. (2025). Effects of Bothriochloa ischaemum on the diversity of Pannonian sandy grasslands. Land.

Szentes, S., Kevi, A., Wagenhoffer, Z., SalΓ‘ta-Falusi, E., Pajor, F., Berke, J., TurcsΓ‘nyi-JΓ‘rdi, I., Penksza, P., Kunos, V., Kende, Z., et al. (2024). Assessing the impact of grazing and restoration methods on Pannonian grasslands. Land.

SalÑta-Falusi, E., Bajor, Z., Penksza, K., Balogh, Á. D., Sipos, L., Kende, Z., Fuchs, M., Penksza, P., Szabó-Szâllâsi, T., & SalÑta, D. (2024). Impact of conservation management on the regeneration of a protected Pannonian open sandy grassland. Preprint.

TakΓ‘cs, A., Wagenhoffer, Z., Bajnok, M., Penksza, K., SalΓ‘ta-Falusi, E., & Szentes, S. (2024). KΓΌlΓΆnbΓΆzΕ‘ gyepkezelΓ©sek gyepgazdΓ‘lkodΓ‘si eredmΓ©nyei Aba melletti kaszΓ‘lΓ³n. Animal Welfare, EtolΓ³gia Γ©s TartΓ‘stechnolΓ³gia (AWETH).

 

Muhammad Babar Ramzan | Sustainability | Best Researcher Award

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Dr. Muhammad Babar Ramzan | Sustainability | Best Researcher Award

Assistant Professor | National Textile University | Pakistan

Dr. Muhammad Babar Ramzan is an accomplished academic and researcher serving as an Assistant Professor at the School of Engineering Technology, National Textile University, Faisalabad. With expertise spanning industrial and management engineering, textile engineering, and quality management systems, he combines academic excellence with industry-oriented problem-solving. His professional journey bridges academia and industry, marked by impactful research contributions in sustainability, process improvement, and textile innovation. Through international publications, conference presentations, and funded projects, he has developed a strong reputation for advancing circular economy practices and human-based quality control systems, inspiring innovation in textile engineering and management education.

Professional Profile

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Education

Dr. Muhammad Babar Ramzan pursued his PhD in Industrial and Management Engineering at Hanyang University, South Korea, where he specialized in composite modeling for evaluation of human-based inspection systems. His research emphasized quality management and advanced optimization methodologies. He also holds an MS degree in Textile Engineering from National Textile University, Pakistan, where he investigated dimensional stability in knitwear. Earlier, he completed a BS in Textile Engineering with a focus on garment manufacturing. This solid academic foundation reflects his continuous pursuit of interdisciplinary knowledge, blending engineering management, textile sciences, and sustainability to address challenges in modern manufacturing environments.

Experience

Dr. Muhammad Babar Ramzan career encompasses an enriching blend of academic and industrial roles. Currently, he is an Assistant Professor at National Textile University, where he has been actively teaching, mentoring, and leading research initiatives. He previously served as Assistant Professor at the University of Management and Technology, Lahore, and Lecturer at The University of Faisalabad. His industrial experience includes leadership roles at Masood Textile Mills Limited, where he gained practical expertise in production operations, quality control, and assurance. This dual exposure allows him to integrate theory and practice, contributing effectively to both academic excellence and industrial competitiveness.

Research Interests

Dr. Muhammad Babar Ramzan research is centered on data-driven process improvement, mathematical modeling, and sustainable industrial practices. His scholarly pursuits explore human-based quality inspection systems, supply chain resilience, lean methodologies, and consumer-focused textile innovation. He is deeply engaged in developing models that enhance efficiency, reduce waste, and promote responsible consumption through circular economy approaches. His interdisciplinary research spans textile engineering, operations research, and industrial engineering, addressing challenges in productivity, environmental impact, and design for sustainability. With a passion for innovation, he continuously investigates novel strategies that merge industry needs with academic insights to foster long-term sustainable growth.

Awards

Throughout his career, Dr. Muhammad Babar Ramzan has been recognized for his academic and research excellence through various professional milestones. His achievements include successfully completing funded research projects sponsored by higher education institutions and industry collaborations. He has been entrusted with national-level responsibilities such as serving as a curriculum reviewer for garment engineering programs, reflecting his expertise and academic leadership. His patents, conference presentations, and impactful journal publications also stand as significant academic honors. Additionally, his guidance in producing industrial innovations like eco-friendly textile processes and sustainable product designs further highlight his contributions to applied research and industry advancement.

Top Noted Publications

Title: A robust possibilistic flexible programming approach toward a resilient and cost-efficient biodiesel supply chain network
Year: 2022
Cited by: 120

Title: Competency framework development for effective human resource management
Year: 2021
Cited by: 92

Title: Effect of inspection performance in smart manufacturing system based on human quality control system
Year: 2018
Cited by: 81

Title: Medicine supply chain model for an integrated healthcare system with uncertain product complaints
Year: 2018
Cited by: 73

Title: Interactive fuzzy multi criteria decision making approach for supplier selection and order allocation in a resilient supply chain
Year: 2019
Cited by: 53

Conclusion

Considering his impactful contributions in academia, industry, and research, Dr. Muhammad Babar Ramzan stands as a strong candidate for the Best Researcher Award. His extensive record of publications, innovation in sustainable textile solutions, active role in higher education, and leadership in research supervision collectively showcase excellence. With further global collaborations and interdisciplinary engagement, he has the potential to make even greater contributions to industrial engineering and sustainable development.

Emmanuel Umeonyirioha | Climate Change | Best Researcher Award

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Dr. Emmanuel Umeonyirioha | Climate Change | Best Researcher Award

Professor | Xiamen University | China

Dr. Emmanuel Umeonyirioha is a Postdoctoral Research Fellow at the School of Public Affairs, Xiamen University, and Distinguished Visiting Professor at Zhejiang Normal University’s Institute of African Studies. A former James Currey Fellow at the University of Oxford, he has cultivated an international profile spanning Africa–China studies, climate-smart agriculture, and global governance. His work bridges academic research with policy innovation, focusing on economic cooperation, sustainable development, and historical-cultural analysis. Beyond academia, he serves as Translations Director for Abibiman Publishing, facilitating intercultural knowledge exchange. His career reflects a deep commitment to advancing scholarly discourse and fostering equitable international collaboration.

Professional Profile

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Education

Dr. Emmanuel Umeonyirioha holds a PhD in International Relations and an MSc in Teaching Chinese to Speakers of Other Languages from Xiamen University, where he developed expertise in diplomatic studies and cross-cultural pedagogy. His academic foundation began with a BA in African and Asian Studies from Nnamdi Azikiwe University, providing him with a unique interdisciplinary perspective on transnational relations. He further enhanced his research capacity during his tenure as a James Currey Fellow at the University of Oxford’s African Studies Centre, engaging in advanced seminars and mentorship programs. This rich academic pathway has shaped his capacity to integrate theory with practice in global policy contexts.

Experience

With a professional trajectory bridging research, teaching, and cultural diplomacy, Dr. Emmanuel Umeonyirioha has contributed extensively to the academic and policy communities. As Postdoctoral Research Fellow at Xiamen University’s School of Public Policy, he examines strategic development intersections between Africa and China. He concurrently holds a Distinguished Visiting Professorship at Zhejiang Normal University’s Institute of African Studies. His previous roles include tutoring at Oxford’s James Currey Society and leading translation initiatives for Abibiman Publishing in the US and UK. He also supports the Abuja Forum, facilitating dialogue among African leaders, diplomats, and scholars on issues of governance, economic cooperation, and sustainable development.

Research Interests

Dr. Emmanuel Umeonyirioha research explores the multidimensional relationship between Africa and China, with particular focus on trade, investment, and economic cooperation under frameworks like the Belt and Road Initiative. He investigates climate-smart agriculture and food sovereignty, aligning sustainability goals with policy action. His work also examines the role of multilateral institutions such as the WTO and UNFCCC in shaping equitable development outcomes. Additionally, his interest in African history and culture informs his holistic approach to international relations, ensuring that economic and environmental strategies remain grounded in socio-cultural realities. His scholarship emphasizes solutions-oriented research with tangible impacts on communities and governance structures.

Awards

Dr. Emmanuel Umeonyirioha contributions have positioned him as a strong contender for the Best Researcher Award, reflecting his leadership in cross-continental academic collaboration and policy-relevant scholarship. His role in developing first-of-their-kind degree programs linking Nigerian universities with Chinese institutions marks a transformative step in African higher education. His research outputs, covering poverty alleviation, climate adaptation, and diplomatic reform, have received international citations, underscoring their scholarly relevance. Through forums like the Abuja Forum, he has influenced discourse at the highest levels, engaging with presidents, ambassadors, and thought leaders. This recognition reflects his enduring commitment to impactful, globally informed, and locally relevant research initiatives.

Top Noted Publications

Title: Capturing the Ramifications of Poverty Alleviation Hotspots and Climate Change Effects in Nigeria: A Social Network Analysis
Year: 2025
Cited by: 3

Title: Diplomacy at Crossroads: Challenges of Nigeria’s Foreign Service
Year: 2020
Cited by: 2

Title: The Bretton Woods International Financial Institutions: Perspective of the Underdeveloped States
Year: 2020
Cited by: 1

Conclusion

Based on his diverse expertise, international collaborations, and policy-oriented research addressing critical African and global issues, Dr. Emmanuel Umeonyirioha is a strong contender for the Best Researcher Award. His work is distinguished by its relevance, innovative approaches, and real-world impact, making him well-suited for recognition that celebrates research excellence with societal value.

Ashish Sharma | Sustainability | Best Academic Researcher Award

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Dr. Ashish Sharma | Sustainability | Best Academic Researcher Award

Founding CEO | Sustainability Alternatives Ltd | India

Dr. Ashish Sharma is a globally recognized environmental researcher and consultant with deep expertise in air pollution mitigation, sustainability assessment, and Net‑Zero strategy design. Currently engaged as a Scientific Consultant at India’s MoEFCC NATCOM Cell, Manager for Air Quality at WRI India Ross Center, and Co‑founder of Sustainability Alternatives Ltd., UK, he blends cutting-edge analysis with policy influence across multiple continents.

Professional Profile

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Education

Dr. Sharma earned his Ph.D. in Civil and Environmental Engineering from the University of Surrey (2017–2021), UK, focusing on quantifying and mitigating particulate matter exposure in young children. He earlier obtained an MRes in Environmental Science from Macquarie University, Australia (2015–2016), and an M.S. in Environmental Engineering from Gwangju Institute of Science & Technology, South Korea (2012–2014). His academic training builds a strong foundation in climate policy, life cycle assessment, and exposure modeling.

Experience

Dr. Sharma has led high-impact roles across governmental, nonprofit, academic, and consulting sectors. At MoEFCC, he coordinated India’s GHG inventory reporting, developed the Net Zero Portal, and championed transparency under the UNFCCC Enhanced Transparency Framework. At WRI India, he manages air quality programs for urban environments, engages with cities and stakeholders, and produces research-driven policy briefs. As founder of Sustainability Alternatives Ltd., he advises clients globally on decarbonization, circular economy, and sustainability integration.

Research Interests

His research spans multiple domains: air pollution exposure assessment, climate policy, Net Zero strategy development, life cycle sustainability, and environmental governance. He has led interdisciplinary international projects in India, the UK, the USA, Australia, and South Korea, using tools like MOVES, GREET, SimaPro, GaBi, ArcGIS, and R to deliver policy-relevant analysis.

Awards

Dr. Sharma was awarded the EPSRC NPIF PhD fellowship at Surrey, the iMQRES scholarship at Macquarie University, and a Korean government scholarship at GIST. He has consistently delivered in leadership, communication, and capacity-building roles, having presented at high-profile forums such as the India 2047 Summit and the WRI City platforms.

Top Noted Publications

Title: Urban energy transition in smart cities: a comprehensive review of sustainability and innovation
Year: 2025
Cited by: +13

Title: Air pollution exposure assessment simulation of babies in a bike trailer and implication for mitigation measures
Year: 2022
Cited by: +5

Title: Quantification of air pollution exposure to in‑pram babies and mitigation strategies
Year: 2020
Cited by: +3

Title: Navigating the impact of climate change in India: a perspective on SDG11 & 13
Year: 2023
Cited by: +6

Conclusion

On balance, Dr. Ashish Sharma is highly qualified for a Best Academic Researcher Award. His strengths in high-impact research, cross-sectoral leadership, technical excellence, and policy engagement align well with the criteria of research excellence and real-world impact.

Victor Davy Moussango | Phytopathology | Best Research Article Award

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Dr. Victor Davy Moussango | Phytopathology | Best Research Article Award

Assistant Professor at University of Douala, Cameroon

Dr. Victor Davy Moussango is a Cameroonian biochemist and Assistant Professor at the University of Douala. With a strong foundation in molecular biology, phytopathology, and QHSE engineering, he has contributed significantly to the development of natural antifungal agents and nanobiopesticides targeting plant pathogens. His interdisciplinary approach combines advanced biotechnological techniques with quality and safety standards to promote sustainable agro-industrial practices. Recognized with several national and international awards, including the IFEAT Young Scientist Fellowship and the Best Academic Start-up Award, Dr. Moussango continues to bridge academia, industry, and research for impactful innovation in biotechnology and food safety.

Profile

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Education πŸŽ“

  • Ph.D. in Biochemistry (2018–2021), Faculty of Science, University of Douala, Cameroon.

  • QHSE Engineering (2019–2021), ESSEC Business School, University of Douala, Cameroon.

  • Diploma of Advanced Studies in Biochemistry (2016–2017), University of Douala, Cameroon.

  • Master 1 in Biochemistry (2014–2015), Faculty of Science, University of Douala, Cameroon.

  • Bachelor’s Degree in Biochemistry (2013–2014), Faculty of Science, University of Douala, Cameroon.

Experience πŸ’Ό

Dr. Victor Davy Moussango is currently an Assistant Professor at the Biotechnology Laboratory, University Institute of Technology, University of Douala, Cameroon. He also serves as an Associate Researcher in the Laboratory of Biochemistry of Natural Substances and HSEQ Manager at the Quality Control Laboratory of the University-Business Cooperation Platform (PCUE). Dr. Moussango has over a decade of combined experience in teaching, research, and quality management. He has held teaching positions at ISTAMA, IUE, and CIERSA, where he lectured on topics ranging from molecular biology and phytopathology to QHSE standards and agro-industrial technologies. His QHSE expertise includes key roles at ADDIMI ETS and Colgate Palmolive Cameroon, focusing on quality assurance and occupational health and safety within industrial and research laboratory settings.

Research Interest πŸ”

Dr. Moussango’s research interests span biochemistry, molecular biology, plant pathology, bioactive natural products, nanobiopesticides, nanotechnology, and food safety. He specializes in the molecular characterization of phytopathogenic fungi, development of nanopesticides from essential oils, and evaluation of antimicrobial and antifungal activities of natural substances. His work also explores QHSE integration in laboratory settings and the application of bioinformatics for food safety surveillance.

πŸ“ˆ Author Metrics

  • Peer-Reviewed Publications: 4 (2021–2023)

  • International Journal Articles: 3

  • Conference Proceedings: > 5 presentations

  • Patent: 1 filed with OAPI (nanobiopesticide formulation)

  • Fellowships & Awards:

    • Young Scientists IFEAT Fellowship, Italy (2023)

    • 1st Prize Best Academic Start-Up, Univ. of Douala (2021)

    • President’s Academic Scholarship, Cameroon (2015–2021)

Publications πŸ“„

  • In Vitro and In Situ Activity of Cymbopogon citratus Essential Oil Against Alternaria alternata and Phomopsis carica-papayae, Causal Agents of Papaya Leaf Diseases
    Authors: Davy Moussango Victor, Ebong Priscille, Voundi Steve, Ampère Bedine, Dikongue Fabiola, Ntah Moise, Youassi Olivier, Mekemzeu Patience, Tchameni Severin, Sameza Modeste
    Journal: Journal of Plant Sciences, Volume 12, Issue 2, April 2024, Pages 55–63
    DOI: 10.11648/j.jps.20241202.11
    Summary: This study evaluates the antifungal potential of Cymbopogon citratus essential oil against pathogens causing papaya leaf diseases, demonstrating significant inhibitory effects both in vitro and in situ.

  • Screening of Trichoderma Isolates and Potential of Their Organic Extract to Control Phytophthora megakarya, the Causative Agent of Cocoa Black Pod Disease
    Author: Davy Moussango Victor
    Publication Date: May 2023
    Summary: The research focuses on identifying Trichoderma isolates with antagonistic properties against Phytophthora megakarya, highlighting the potential of their organic extracts in controlling cocoa black pod disease.

  • Identification of Native Soil-Derived Trichoderma spp. Isolates and Analysis of Their Antagonist Traits Against Lasiodiplodia theobromae Causing Stem-End Rot in Papaya
    Authors: Marie Ampères Bedine Boat, Nadira Taïeb, Sofia Agriopoulou, L Miche, Davy Moussango, Modeste Lambert Sameza, Nathalie Dupuy, Sevastianos Roussos, Fabrice Fekam Boyom
    Journal: Archives of Phytopathology and Plant Protection, 2022, Volume 55, Issue 15, Pages 1766–1794
    DOI: 10.1080/03235408.2022.2116689
    Summary: This study characterizes native Trichoderma isolates from soil and evaluates their antagonistic effects against Lasiodiplodia theobromae, offering insights into potential biocontrol agents for papaya stem-end rot.

Conclusion

Dr. Victor Davy Moussango exhibits a compelling combination of innovation, sustainability, and real-world application in his phytopathology research. His work on biopesticides and fungal disease control in tropical crops stands out for its scientific merit, originality, and societal impact.

Despite a relatively young publication portfolio, the depth and quality of his research, his entrepreneurial achievements, and his patent-pending technology make him a very deserving nominee for the Best Research Article Award.

Hamidreza Soufi | Plant Factory | Best Faculty Award

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Dr. Hamidreza Soufi | Plant Factory | Best Faculty Award

Hamidreza Soufi atΒ Vali-e-Asr University of Rafsanjan, Iran

Dr. Hamidreza Soufi is a postdoctoral researcher and horticultural scientist specializing in the physiology and breeding of vegetable crops in controlled environments. With a Ph.D. from Vali-e-Asr University and international collaboration experience in Poland, his research emphasizes optimizing LED light conditions and hydroponic systems for enhanced plant growth, biochemical efficiency, and gene expression. He has contributed significantly to the field through interdisciplinary projects involving light manipulation, nutrient management, and postharvest treatments. He is also proficient in atomic absorption and ICP-MS analytical methods, supporting his work with robust experimental data.

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Education πŸŽ“

  • Ph.D. in Horticultural Science
    Vali-e-Asr University of Rafsanjan, Iran
    Thesis: The effects of different spectral LED lights on growth, physiological and biochemical characteristics, and gene expression of lettuce under three different supplementary nutrient solutions in a hydroponic system
    Supervisor: Prof. Hamid Reza Roosta
    Advisors: Dr. Hazem M. Kalaji, Dr. Mohsen Hamidpour, Dr. Khalil Malekzadeh

  • M.Sc. in Vegetable Physiology and Breeding
    Lorestan University, Iran
    Thesis: The effect of salinity on morpho-physiological parameters of different fenugreek cultivars in a hydroponic system
    Supervisor: Dr. Abdollah Ehtesham Nia
    Advisor: Dr. Foad Fatehi

  • B.Sc. in Horticultural Science
    Shahid Bahonar University of Kerman, Iran

Experience πŸ’Ό

Dr. Hamidreza Soufi serves as a skilled technician in ICP-MS and Atomic Absorption Spectroscopy at the Central Laboratory of Shahid Bahonar University of Kerman, with additional experience in analytical instrumentation and sample preparation. He has collaborated with multiple academic and international advisors, conducting advanced research in Controlled Environment Agriculture (CEA), LED light spectra optimization, and nutrient solution management in hydroponic systems. His multidisciplinary work spans physiology, breeding, and molecular biology of vegetable crops.

Research Interest πŸ”

  • Controlled Environment Agriculture (CEA)

  • Hydroponic cultivation systems

  • Vegetable crop physiology and gene expression

  • LED light spectrum manipulation

  • Nutrient solution optimization

  • Postharvest physiology and shelf-life enhancement

  • Analytical techniques in plant and soil sciences

Publications πŸ“„

1. Title: Manipulation of light spectrum is an effective tool to regulate biochemical traits and gene expression in lettuce under different replacement methods of nutrient solution
Authors: H.R. Soufi, H.R. Roosta, P. StΔ™pieΕ„, K. Malekzadeh, M. Hamidpour
Journal: Scientific Reports
Volume/Issue: 13(1), Article 8600
Year: 2023
DOI: 10.1038/s41598-023-35014-7
Citations: 13
Summary: This study explores how manipulating the light spectrum can impact lettuce’s biochemical traits and gene expression when grown under different nutrient solution replacement strategies.

2. Title: The plant growth, water and electricity consumption, and nutrients uptake are influenced by different light spectra and nutrition of lettuce
Authors: H.R. Soufi, H.R. Roosta, M. Hamidpour
Journal: Scientific Reports
Volume/Issue: 13, Article 20766
Year: 2023
DOI: 10.1038/s41598-023-48284-1
Citations: 11
Summary: This paper examines the impact of various light spectra and nutrient levels on growth parameters, water and energy usage, and nutrient uptake in lettuce plants.

3. Title: Spectral composition of LED light differentially affects biomass, photosynthesis, nutrient profile, and foliar nitrate accumulation of lettuce grown under various replacement methods of nutrient solution
Authors: H.R. Soufi, H.R. Roosta, F. Fatehi, M. Ghorbanpour
Journal: Food Science & Nutrition
Pages: 1–20
Year: 2023
DOI: 10.1002/fsn3.3735
Citations: 9
Summary: Investigates the effects of different LED light compositions on lettuce growth, nutrient content, photosynthetic performance, and nitrate accumulation, considering various nutrient solution replacement methods.

4. Title: The roles of light in a plant factory: photosynthesis efficiency and gas exchange parameters of lettuce as a function of light spectra
Authors: H. Soufi, H.M. Kalaji, M. Hamidpour, K. Malekzadeh
Journal: Greenhouse Plant Production Journal
Volume/Issue: 1(1), 1–26
Year: 2024
Citations: 7
Summary: Focuses on optimizing light spectra for improving photosynthesis efficiency and gas exchange in lettuce within a closed plant factory environment.

5. Title: Evaluation of the growth characteristics and changes in the concentration of some nutrient elements of garlic affected by different nitrogen sources and alkalinity in nutrient solution
Authors: M. Shojaee, H. Roosta, M. Roozban, H. Soufi
Journal: Horticultural Plant Nutrition
Volume/Issue: 2(1), 33–50
Year: 2019
Citations: 2
Summary: This study explores how garlic growth and elemental nutrient concentrations are influenced by various nitrogen sources and pH/alkalinity levels in hydroponic systems.

Conclusion

Dr. Hamidreza Soufi stands out as a promising and impactful research leader in the field of Plant Factory and Controlled Environment Agriculture. His publication quality, interdisciplinary skills, and relevance to global agricultural challenges make him a strong contender for the Research for Best Faculty Award, particularly if the selection committee values innovative, early-career researchers with a strong research trajectory.

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.

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Education πŸŽ“

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 πŸ’Ό

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 πŸ”

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 πŸ†

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 πŸ“„

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.

 

Kwang-Joo Moon | Environmental Science | Best Researcher Award

Published on by Environmental Scientists

Dr. Kwang-Joo Moon | Environmental Science | Best Researcher Award

Senior Researcher, National Institute of Environmental Research, South Korea

Dr. Kwang-Joo Moon πŸ‡°πŸ‡· is a Senior Research Scientist in the Global Environment Research Division at the National Institute of Environmental Research (NIER), Korea. With deep expertise in real-time monitoring of air pollutants and greenhouse gases (GHGs), Dr. Moon has played a crucial role in shaping air quality research in Korea and beyond. His interdisciplinary work spans mobile monitoring via drones, aircraft, and vehicles, coupled with advanced statistical techniques for source apportionment. He actively contributes to cross-national projects that enhance understanding of particulate matter (PM) and GHG emissions for cleaner, healthier air. πŸŒπŸ“ŠβœˆοΈ

Profile

Orcid

Education πŸŽ“

Dr. Moon pursued both his undergraduate and doctoral studies at INHA University in Incheon, Korea. πŸŽ“ He earned his B.A. in Environmental Engineering in 2001 and continued to obtain his Ph.D. in Environmental Engineering in 2014. His academic foundation reflects a strong commitment to atmospheric science, air quality management, and environmental monitoringβ€”topics that continue to guide his research and professional pursuits. πŸ§ͺπŸ“š

Experience πŸ’Ό

Dr. Moon’s distinguished career began as a Research Assistant at NIER from 2001 to 2005. He then served as a Research Scientist at Korea’s Ministry of Environment from 2006 to 2008, gaining valuable policy-level experience. From 2009 to 2020, he rejoined NIER as a Research Scientist, focusing on national air quality initiatives. 🌫️ From 2017 to 2018, he took part in a strategic offshore assignment with the Korea-China Air Quality Joint Research Team at CRAES, China. Since 2021, he has served as Senior Research Scientist at NIER, contributing to pioneering work in mobile emission monitoring and pollutant tracking. πŸš›πŸŒπŸ“‘

Research Interest πŸ”

Dr. Moon’s research primarily focuses on real-time monitoring of air pollutants and greenhouse gases using sensor networks, mobile units, and statistical models. πŸ“ˆ His expertise includes source apportionment of PM and GHGs using Positive Matrix Factorization (PMF) and Hybrid Receptor Models. He is highly skilled in deploying unmanned aerial vehicles (UAVs), mobile laboratories, and airborne platforms for emission source tracking. His work integrates environmental engineering with advanced analytics and geo-informatics, targeting cleaner urban and industrial environments. πŸšπŸŒ«οΈπŸ“‘

Awards πŸ†

While formal individual awards are not listed, Dr. Moon has made impactful contributions to international air quality initiatives, such as the KORUS-AQ (Korea–United States Air Quality) field study (2016), the Korea-China PM2.5 joint research (2017–2018), and EAREX 2005 under UNEP’s ABC project. 🌐 These programs demonstrate his leadership in multinational collaborations and highlight his influence on air quality research across East Asia. 🧭🌎

Publications πŸ“„

Han, S., et al. (2024) – Modification of Hybrid Receptor Model for Atmospheric Fine Particles (PM2.5) in 2020 Daejeon, Korea, Using an ACERWT Model, Atmosphere, 15(4): 477
πŸ”— Read here
Cited in works using hybrid models for PM2.5 source analysis. πŸ“‘

Chae, J., et al. (2023) – The Study on Emission Characteristics of Gas-phase Hazardous Air Pollutants Generated at the Large-scale Industrial Complexes, J. Kor. Soc. Atmos. Environ., 40(1): 27-47
πŸ”— Read here
Cited in research on hazardous emissions in industrial zones. 🏭

Moon, K. (2023) – Study on the Distribution of VOCs in the Ambient Air of Domestic Industrial Complexes using Mobile SIFT-MS, J. Kor. Soc. Urban Environ., 22(4): 207–227
πŸ”— Read here
Referenced in studies applying mobile VOC sensing technology. πŸš™

Lee, C., et al. (2023) – A Study on the Concentrations Calibration for NO, NOβ‚‚, SOβ‚‚, CO and VOC Sensors Reflecting the Influence of Temperature and Relative Humidity, J. Kor. Soc. Urban Environ., 21(4): 259–266
πŸ”— Read here
Cited in sensor calibration research for environmental monitoring. 🌑️

Lee, C., et al. (2021) – Performance Test of Gas Sensors Measuring Air Pollutants of NO, NOβ‚‚, SOβ‚‚, CO and VOC, J. Kor. Soc. Urban Environ., 21(1): 13–20
πŸ”— Read here
Referenced in evaluations of low-cost air quality sensors. πŸ’¨

Yoo, H., et al. (2020) – Validation for SOC Estimation from OC and EC concentration in PM2.5 measured at Seoul, Particle and Aerosol Research, 16(1): 19–30
πŸ”— Read here
Cited in studies quantifying secondary organic carbon in PM. πŸ”

Lim, S., et al. (2020) – Fossil-driven secondary inorganic PM2.5 enhancement in the North China Plain, Environmental Pollution, 266(2): 115163
πŸ”— Read here
Cited in research on fossil fuel-related PM formation. πŸ›’οΈ

Park, J., et al. (2020) – Application of Chemical Ionization Mass Spectrometry in Airborne SOβ‚‚ Observation on Hanseo Beechcraft 1900D, Asian J. Atmos. Environ., 14(4): 413–421
πŸ”— Read here
Referenced for airborne chemical sensor applications. ✈️

Moon, K.J., et al. (2008) – Source apportionment of fine carbonaceous particles by PMF at Gosan, Environment International, 34(5): 654–664
πŸ”— Read here
Widely cited in East Asian PM source studies. 🌏

Han, J.S., Moon, K.J., et al. (2006) – Identification of source regions of fine particles using hybrid receptor models, J. Geophys. Res.: Atmos., 111(D22)
πŸ”— Read here
Cited in hybrid model development for long-range transport. 🌬️

Han, J.S., Moon, K.J., et al. (2006) – Size-resolved source apportionment of ambient particles by PMF at Gosan, Atmospheric Chemistry and Physics, 6(1): 211–223
πŸ”— Read here
Foundational in PMF model applications across Asia. πŸ“

Conclusion

Based on his research achievements, publications, and experience, Kwang-Joo Moon is a suitable candidate for the Best Researcher Award. His contributions to environmental research, particularly in air quality and pollution monitoring, demonstrate his potential to make a significant impact in the field. With some further emphasis on interdisciplinary collaboration and publishing in top-tier journals, he is well-positioned to continue making meaningful contributions to research.