Workina Geleta | Soil Science | Best Researcher Award

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Mr. Workina Geleta | Soil Science | Best Researcher Award

Mr. Working Geleta, Wollega university, Ethiopia

Mr. Workina Geleta is a Ph.D. candidate in Soil Science at Wollega University, Shambu Campus, Ethiopia. He holds an M.Sc. in Environmental Physics from Haramaya University and a B.Sc. in Applied Physics from Addis Ababa University. His research focuses on land use and land cover dynamics and their effects on soil physicochemical and hydraulic properties, particularly in the Arjo-Dhidhessa region of Western Ethiopia. He has published in peer-reviewed journals and actively contributes to soil and water conservation research. Mr. Geleta is fluent in English, Afaan Oromo, and Amharic.

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Summary:

Mr. Workina Geleta is a committed and capable researcher whose work is centered on soil science with tangible implications for environmental sustainability and land management. He meets the core eligibility and evaluation criteria for the Best Researcher Award, including academic merit, publication record, and relevance of research. His trajectory shows promising growth in the field.

🎓 Education

Workina Geleta Likkasa is currently pursuing his Ph.D. in Soil Science at Wollega University, Shambu Campus, Ethiopia, since 2021. He holds a Master of Science degree in Environmental Physics from Haramaya University, completed between 2013 and 2015. He earned his Bachelor of Science degree in Applied Physics from Addis Ababa University, where he studied from 2008 to 2010.

💼Experience

Workina Geleta is affiliated with the Department of Soil Resource and Watershed Management at Wollega University, Shambu Campus. He has been involved in both academic teaching and field research. His professional experience includes advanced research on soil properties, land use, and environmental physics, contributing to soil and water conservation practices.

🔬Research Focus

His current doctoral research focuses on the dynamics of land use and land cover and their effects on soil physicochemical and hydraulic properties at Arjo-Dhidhessa Sugar Estate in Western Ethiopia. His Master’s thesis evaluated the physical water quality of ground and tap water in Guduru Woreda, Western Ethiopia. He has also presented a seminar on organic carbon stock and soil quality in Ethiopia.

🛠️Skills

He has completed additional short-term training in computer and data management in Ethiopia and a 60-hour course in Experimental Statistics (SAS) at Jimma University between May and June 2015. He is fluent in English, Afaan Oromo, and Amharic, with strong skills in listening, speaking, reading, and writing across all three languages.

🏆Awards

His active engagement in research publication, ongoing doctoral studies, and participation in professional seminars highlight his academic commitment and recognition in the field of soil science and environmental research.

📚 Publications


Title: Investigating the Effects of Arjo‐Dhidhessa Sugar Factory on Land Use and Land Cover Dynamics: A Case of Arjo‐Dhidhessa Sugar Estate, East Wallaga, Oromia, Western, Ethiopia
Author: Workina Geleta
Year: 2025
Journal: Applied and Environmental Soil Science


Title: Exploring the Influence of Land Use Types on Soil Properties at Arjo‐Dhidhessa Sugar Estate, Western Ethiopia
Author: Workina Geleta
Year: 2024
Journal: Applied and Environmental Soil Science

Conclusion:

Mr. Workina Geleta is suitable for nomination for the Research for Best Researcher Award. His strengths in applied soil science research, academic progression, and publication record make him a strong candidate. To further strengthen his case in the future, expanding his research collaborations, documenting community impact, and pursuing recognition from professional bodies is recommended.

xiaolan liu | Soil | Best Researcher Award

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Dr. xiaolan liu | Soil | Best Researcher Award

Dr. Xiaolan liu, Tianjin Chengjian University, China

Dr. Xiaolan Liu is a lecturer at Tianjin Chengjian University, China, specializing in road and airport engineering. Her research focuses on non-destructive testing of road structures, runway performance in permafrost regions, and sponge city infrastructure. She has led multiple national and municipal research projects and published extensively in international journals. Dr. Liu has received several prestigious awards, including honors from the China Highway Society and the China Civil Aviation Authority, recognizing her contributions to transportation engineering.

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Summary:

Dr. Xiaolan Liu’s research addresses a highly relevant and pressing issue in civil and geotechnical engineering, particularly for regions experiencing extreme climates. By focusing on the cooling effects of ventilation subgrades, Dr. Liu is advancing techniques to protect infrastructure in permafrost regions, which is crucial in the context of global climate change. Their work also contributes to the development of better construction practices for frozen soil areas.

🎓 Education

Xiaolan Liu is currently pursuing her Ph.D. at Nanjing University of Aeronautics and Astronautics, specializing in Highway and Railway Engineering under the School of Civil Aviation. Simultaneously, she is enrolled in another Ph.D. program in Civil Engineering at Southwest Forestry University, School of Transportation Engineering. She earned her Master’s degree in Highway and Railway Engineering from the Civil Aviation University of China and has maintained a consistent academic focus on infrastructure engineering throughout her education.

💼Experience

Liu has led and contributed to numerous high-impact research projects, including those funded by the National Natural Science Foundation of China and municipal research initiatives. Her roles as principal investigator and advisor on projects dealing with permafrost roadbed settlement, freeze-thaw effects on clay roadbeds, and rigid pavement performance under aircraft loading have established her as a leading expert in infrastructure performance under extreme environmental conditions. She currently serves as a lecturer and actively mentors research teams on structural mechanics and pavement engineering.

🔬Research Focus

Liu’s research primarily centers on the theory and application of non-destructive testing for road structures, engineering solutions for airport runways in permafrost areas, and the development and implementation of sponge city infrastructure. Her work addresses real-world challenges in runway performance under aircraft loading and extreme climatic conditions, making substantial contributions to both civil aviation safety and cold-region infrastructure sustainability.

🛠️Skills

Liu possesses advanced skills in structural modeling, dynamic load analysis, non-destructive testing, permafrost engineering, and pavement material characterization. She is proficient in conducting both field experiments and laboratory testing, complemented by analytical and simulation expertise for evaluating roadbed and runway performance in challenging environments.

🏆Awards

Her academic excellence and research innovations have been recognized through numerous prestigious awards. These include the Second Prize of the Science and Technology Award from the China Highway Society in 2023, the Tianjin Municipal Teaching Achievement Award in 2022, and the China Civil Aviation Science and Technology Achievement Award the same year. She is also a recipient of multiple national scholarships, including those for undergraduate and graduate excellence, and has been honored as an Excellent Graduate Student by both her universities.

📚 Publications

  • Study on the cooling effect of the parallel perforated ventilation subgrade in permafrost regions based on the numerical model

    • Authors: X. Liu, Xiaolan; C. Fu, Chuanwei; X. Cheng, Xinglei

    • Year: 2025

    • Journal: PLoS ONE

  • Study on applicability of parallel perforated ventilation subgrade to the runway in frozen soil regions

    • Authors: X. Liu, Xiaolan; C. Fu, Chuanwei; C. Lv, Chao

    • Year: 2025

    • Journal: AEJ – Alexandria Engineering Journal

Conclusion:

Dr. Liu is a strong candidate for the Best Researcher Award due to their innovative approach and contributions to permafrost engineering. With improvements in citation impact and broader engagement, their research could have a more profound influence on both academia and real-world applications in the field of sustainable infrastructure development.

Muhammad Akmal Hakim bin Hishammmuddin | Soil | Best Researcher Award

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Mr. Muhammad Akmal Hakim bin Hishammmuddin | Soil | Best Researcher Award

Mr. Muhammad Akmal Hakim Bin, Tongji University, Malaysia

Muhammad Akmal Hakim Bin Hishammuddin is a Doctor of Engineering candidate at Tongji University, Shanghai, specializing in Geographic Information Systems (GIS), resilient coastal megacities, and urban sustainability. He holds an M.Phil. and a Bachelor’s degree in Urban and Regional Planning from Universiti Teknologi Malaysia (UTM). His research focuses on low-carbon cities, geo-environmental hazard control, spatial planning, and climate resilience. He has received multiple awards, including the Shanghai Government Scholarship and the Tongji University Presidential Award. Akmal is skilled in GIS, data analysis, sustainability assessment, and machine learning, contributing to international research collaborations on urban resilience and hazard risk assessment.

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Summary:

Mr. Muhammad Akmal Hakim Bin Hishammuddin is a dedicated and accomplished researcher with a strong academic foundation, an impressive research portfolio, and international recognition. His work on GIS, smart cities, and sustainability has significant scientific and practical relevance. His interdisciplinary expertise and contributions to academia, research, and professional engagements position him as a deserving candidate for the Best Researcher Award.

🎓 Education

Muhammad Akmal Hakim Bin Hishammuddin is currently a Doctor of Engineering candidate in Civil Engineering & Architecture at Tongji University, Shanghai, specializing in Geographic Information Systems (GIS) and urban engineering geology. He previously pursued a Ph.D. in Urban and Regional Planning at Universiti Teknologi Malaysia (UTM). He holds an M.Phil. in Urban and Regional Planning, a Bachelor of Urban and Regional Planning (Honours), and a Diploma in Urban and Regional Planning, all from UTM.

💼Experience

He has extensive research experience as a Graduate Research Assistant at the UTM-Low Carbon Asia Research Centre, contributing to low-carbon cities and sustainability assessment projects. As a full-time doctoral candidate at Tongji University, he researches land subsidence and spatial hazard risk planning, collaborating with international institutions like Utrecht University and ITB Bandung. He has also worked as a GIS Technician and a Town Planner Consultant, handling projects related to spatial analysis, land use planning, and geospatial mapping.

🔬Research Focus

His research interests span resilient coastal megacities, low-carbon cities, geo-environmental hazard control, sustainability assessment, smart cities, circular economy, hazard risk assessment, disaster risk reduction, spatial planning, urban engineering, and climate change mitigation.

🛠️Skills

He is proficient in GIS tools (ArcGIS Pro, QGIS, Google Earth), programming (Python, MATLAB), data analysis (SPSS, SEM, FEM), sustainability assessment (CASBEE, ExSS/AIM, CIRIS), and machine learning. His expertise also includes urban spatial planning, risk simulation, and geospatial analysis for climate resilience and economic sustainability.

🏆Awards

His accolades include the Shanghai Government Scholarship, the Tongji University International Student Volunteer Award, the Tongji University Presidential Award, and a Best Scientific Paper Award at the International Conference on Geosynthetics and Environmental Engineering. He has also received national recognition, such as the Silver Medal in the 1st Graduate Research Exhibition Competition at UTM.

📚 Publications

  • The Field Monitoring and Numerical Simulation of Spatiotemporal Effects During Deep Excavation in Mucky Soft Soil: A Case Study
    Year: 2025
    Journal: Applied Sciences
    Author: Muhammad Akmal Hakim Bin Hishammuddin

  • Structural Equation Modelling (SEM) for Economically Resilient Metro Tunnels Based-Urban Underground Space (UUS) Spatial Planning and Development in Subsiding Coastal Megacities by 2035 BaU in Shanghai and Jakarta: COVID-19 Period Analysed
    Year: 2024
    Journal: Lecture Notes in Civil Engineering
    Author: Muhammad Akmal Hakim Bin Hishammuddin

  • Towards Sustainable, Resilient and Adaptive Urban Underground Space (UUS) Exploration, Land Subsidence and Economic Impact Spatial Model (USEM) in Shanghai, P.R. China: Systematic Reviews, Model Framework, Initial Results and Pre-Determined Challenges
    Year: 2021
    Journal: IOP Conference Series: Earth and Environmental Science
    Author: Muhammad Akmal Hakim Bin Hishammuddin

  • Energy Demand and GHG Emissions by 2030: A Scenario Analysis Using Extended Snapshot Tool Towards Sustainable Low Carbon Emissions Development in Pengerang
    Year: 2019
    Journal: Chemical Engineering Transactions
    Author: Muhammad Akmal Hakim Bin Hishammuddin

  • Circular Economy (CE): A Framework Towards Sustainable Low Carbon Development in Pengerang, Johor, Malaysia
    Year: 2018
    Journal: Chemical Engineering Transactions
    Author: Muhammad Akmal Hakim Bin Hishammuddin

Conclusion:

Mr. Muhammad Akmal Hakim Bin Hishammuddin is highly suitable for the Best Researcher Award. While strengthening citation metrics, grant acquisition, and public policy engagement can further solidify his profile, his existing contributions make him a strong candidate for this prestigious recognition.

Amzad Laskar | Soil | Best Researcher Award

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Assoc. Prof. Dr. Amzad Laskar | Soil | Best Researcher Award

Assoc. Prof. Dr. Amzad Laskar, Physical Research Laboratory Ahmedabad, India

Assoc. Prof. Dr. Amzad Hussain Laskar is a researcher at the Physical Research Laboratory, Ahmedabad, India, specializing in isotope geochemistry, paleoclimate reconstruction, carbon cycle studies, and groundwater dynamics. He holds a Ph.D. in Physics from PRL, Ahmedabad/M.L.S.U., Udaipur. His research focuses on stable and radioactive isotopes to study atmospheric CO₂ budgets, hydrological cycles, and past climate changes. Dr. Laskar has held prestigious positions, including a Marie Skłodowska-Curie Fellowship at Utrecht University, Netherlands, and postdoctoral roles in Taiwan. He has received multiple awards, including the Eminent Visiting Scholar Award (2023) from the Netherlands Earth System Science Centre.

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Summary:

Dr. Amzad Laskar is a highly accomplished researcher in isotope geochemistry and climate science, with a strong track record of publications, international fellowships, and funded projects. His work provides critical insights into carbon cycles, paleoclimate, and groundwater systems, making him a strong candidate for the Best Researcher Award.

🎓 Education

Amzad Hussain Laskar holds a Ph.D. in Physics from PRL, Ahmedabad/M.L.S.U., Udaipur, India (2012), an M.Sc. in Physics from IIT Guwahati (2005, CGPA: 8.36/10), and a B.Sc. in Physics, Chemistry, and Mathematics from Assam University Silchar (2002, 70% marks). He has also qualified for national exams, including GATE (All India Rank 182), CSIR-NET, and JEST (All India Rank 118).

💼Experience

He is currently an Assistant Professor at the Physical Research Laboratory (PRL), Ahmedabad, India, since September 2019. Previously, he was a Marie Skłodowska-Curie Fellow at Utrecht University, Netherlands (2017-2019), a Postdoctoral Fellow at Academia Sinica, Taiwan (2013-2017), National Sun Yat-Sen University, Taiwan (2012-2013), and PRL Ahmedabad (2011-2012). He also worked as an Assistant Science Teacher at Chandipur Public High School (2005-2006).

🔬Research Focus

His research primarily involves quantifying atmospheric CO₂ budgets using isotopes, studying present and past atmospheric oxidation processes through clumped isotopes in O₂ and ice cores, reconstructing paleoclimate using isotopes in terrestrial and oceanic archives, analyzing hydrological cycles through vapor and water isotopes, and investigating groundwater dynamics and anthropogenic pollution using radiocarbon and stable isotopes.

🛠️Skills

Amzad specializes in stable and radioactive isotopes, paleoclimate reconstruction, groundwater dynamics, carbon cycle studies, and hydrological processes. He is proficient in isotope geochemistry, environmental analysis, mass spectrometry, and data interpretation for climate research.

🏆Awards

His honors include the Eminent Visiting Scholar Award 2023 from the Netherlands Earth System Science Centre, the prestigious Marie Skłodowska-Curie Individual Fellowship (2016, grant of €177,598.80), Academia Sinica Postdoctoral Fellowship (2013-2015), and the Best Research Scholar Award at the 14th Indian Society for Mass Spectrometry Symposium (2011). He also received a Certificate of Honor for achieving the highest marks in the district of Hailakandi, Assam, in the 10+2 examination (1999).

📚 Publications

  1. Triple oxygen isotopic fractionation in CO₂-CaCO₃-H₂O system during CO₂-H₂O exchange, carbonate precipitation, and acid digestion

    • Authors: P.K. Roy, A.H. Laskar, S. Ghoshmaulik, R. Rangarajan, M. Liang
    • Year: 2025
    • Journal: Chemical Geology

  2. CO₂ flux and carbon dynamics in soil and respired CO₂ in a semi-arid region of western India

    • Authors: A.H. Laskar, A. Sarkar, R.K. Mohanty, S. Kumar, A. Shivam
    • Year: 2025
    • Journal: Soil Science Society of America Journal

  3. Estimation of Groundwater Residence Time Using Radiocarbon and Stable Isotope Ratio in Dissolved Inorganic Carbon and Soil CO₂

    • Authors: R.K. Agrawal, R.K. Mohanty, A. Rathi, S. Kumar, A.H. Laskar
    • Year: 2024
    • Journal: Radiocarbon

  4. Carbonate clumped isotopes and blocking temperatures of marbles from the Backbone Range, Taiwan

    • Authors: A.H. Laskar, T.F. Yui, M. Liang
    • Year: 2024
    • Journal: Journal of Asian Earth Scien

Conclusion:

 Dr. Laskar is highly suitable for the Best Researcher Award. By further enhancing citations, industry collaborations, and public outreach, he could solidify his standing as a global leader in environmental and climate research.

Junli Hu | Soil Biology | Best Researcher Award

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Assoc. Prof. Dr. Junli Hu | Soil Biology | Best Researcher Award

Assoc. Prof. Dr. Junli Hu, university of Chinese Academy of Science, China

Assoc. Prof. Dr. Junli Hu is a leading soil microbiologist at the University of Chinese Academy of Sciences, China. He serves as Associate Professor and Vice Director of the Soil Biology and Ecology Research Division at the Institute of Soil Science, Chinese Academy of Sciences. His research focuses on arbuscular mycorrhizal fungi, soil health, nutrient cycling, and phytoremediation. With over 110 published papers, multiple patents, and national awards, he has made significant contributions to sustainable agriculture and microbial ecology. His work advances innovative strategies for soil fertility, crop productivity, and environmental sustainability.

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Summary:

Assoc. Prof. Dr. Junli Hu is a highly accomplished researcher in soil microbiology, with a strong record of publications, patents, and leadership in scientific projects. His research on arbuscular mycorrhizal fungi has significantly contributed to soil health and sustainable agriculture. With national awards and leadership roles in the Chinese Academy of Sciences, he has demonstrated excellence in his field.

🎓 Education

Junli Hu has a strong academic background in soil microbiology and ecology. He has contributed significantly to understanding the role of arbuscular mycorrhizal fungi in soil health and nutrient cycling. His academic journey has been dedicated to advancing soil science through extensive research, publications, and collaborations with leading scientific institutions.

💼Experience

Junli Hu is an Associate Professor and Vice Director of the Soil Biology and Ecology Research Division at the Institute of Soil Science, Chinese Academy of Sciences. With years of experience in soil microbiology, he has led multiple research projects funded by the National Natural Science Foundation of China and the State Key Laboratory of Soil and Sustainable Agriculture. His work focuses on improving nutrient utilization efficiency, phytoremediation, and soil-borne disease suppression. He has actively contributed to scientific advancements through patents, published works, and participation in international conferences.

🔬Research Focus

Junli Hu’s research primarily revolves around arbuscular mycorrhizal fungi and their role in soil health, nutrient uptake, and plant growth promotion. His studies explore how these fungi interact with mycorrhiza helper bacteria to enhance disease suppression and improve soil fertility. He has also investigated the effects of conservation tillage, intercropping systems, and carbon inputs on fungal diversity and soil sustainability. His work contributes to the development of innovative strategies for improving agricultural productivity and environmental sustainability.

🛠️Skills

Junli Hu specializes in soil microbiology, arbuscular mycorrhizal fungi, plant-soil interactions, sustainable agriculture, and phytoremediation. His expertise extends to microbial ecology, nutrient cycling, and environmental sustainability. He has published over 110 academic papers, including more than 40 SCI-indexed papers as the first or corresponding author, and co-authored six books. He has also formulated one national standard and holds four patents related to soil management and pollution remediation.

🏆Awards

Junli Hu has received several prestigious awards, including the China Industry University Research Cooperation Innovation and Promotion Award (2023), membership in the Chinese Academy of Sciences Youth Innovation Promotion Association (2016), the Qingdao Natural Science Award (2013), and the Outstanding Young Scholar Award of the Chinese Soil Society (2012). His research has earned him international recognition in the field of soil science and microbial ecology.

📚 Publications

  • Soil Polychlorinated Biphenyl Dissipation and Mung Bean Production Influenced by Ryegrass, Nanoscale Zero-Valent Iron and Arbuscular Mycorrhizal Fungus
    Authors: D. Sun, C. Sun, J. Bai, X. Lin, J. Hu
    Year: 2025
    Journal: Land Degradation and Development

  • Impact of Earthworm Inoculation on Arbuscular Mycorrhizal Fungal Diversity and Pepper Growth in Microplastics-Contaminated Vegetable Soil
    Authors: Q. Xiao, B. He, Y. Liu, X. Lin, J. Hu
    Year: 2024
    Journal: Chinese Journal of Applied and Environmental Biology

  • Screening of Streptomyces Strains Helping Arbuscular Mycorrhizal Symbiosis Against Pepper (Capsicum annuum L.) Phytophthora Blight
    Authors: X. Wang, Y. Liu, B. He, F. Wu, J. Hu
    Year: 2024
    Journal: Pedosphere

  • Mycorrhizae and Sustainable Soil Solutions
    Authors: J. Hu, F. Wang, J. Zhang, L. Guo, M.G. van der Heijden
    Year: 2024
    Journal: Pedosphere

  • Dosage and Exposure Time Effects of Two Micro(Nano)Plastics on Arbuscular Mycorrhizal Fungal Diversity in Two Farmland Soils Planted with Pepper (Capsicum annuum L.)
    Authors: B. He, Z. Liu, X. Wang, Q. Xiao, J. Hu
    Year: 2024
    Journal: Science of the Total Environment

  • Moderate Input of Nanoscale Zero-Valent Iron Accelerated Soil Polychlorinated Biphenyls Dissipation with Limited Inhibition on Arbuscular Mycorrhizal Fungal Diversity
    Authors: S. Wen, D. Sun, H. Qin, J. Bai, J. Hu
    Year: 2024
    Journal: Journal of Soils and Sediments

  • Earthworms Facilitated Pepper (Capsicum annuum L.) Growth via Enhancing the Population and Function of Arbuscular Mycorrhizal Fungi in a Low-Density Polyethylene-Contaminated Soil
    Authors: Y. Liu, B. He, Q. Xiao, X. Lin, J. Hu
    Year: 2023
    Journal: Chemical and Biological Technologies in Agriculture

Conclusion:

 Dr. Junli Hu is a strong candidate for the Best Researcher Award. His innovative research, leadership, and impact in soil microbiology make him highly deserving of recognition. Strengthening international collaborations and industry applications would further enhance his research influence and global standing.

Nahuel Reussi Calvo | Soil Fertility | Best Researcher Award

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Prof. Dr. Nahuel Reussi Calvo | Soil Fertility | Best Researcher Award

Prof. Dr. Nahuel Reussi Calvo, National Council for Scientific and Technical Research, Argentina

Prof. Dr. Nahuel Reussi Calvo is an Independent Researcher at the National Council for Scientific and Technical Research (CONICET), Argentina, and an Associate Professor at the Faculty of Agricultural Sciences, National University of Mar del Plata (UNMdP). His research focuses on soil fertility, plant nutrition, and nutrient management, with a particular emphasis on sulfur deficiency in wheat and fertilization strategies. He has held leadership roles, including serving as President of the Soil Fertility and Plant Nutrition Commission of the Argentine Association of Soil Science (2014-2018), and is an Associate Editor of the Soil Science Magazine.

Profile

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Summary:

Prof. Dr. Nahuel Reussi Calvo is a leading figure in the field of soil science and agricultural research. His contributions to nitrogen management, plant nutrition, and soil fertility have been instrumental in improving agricultural practices, particularly in the Pampas region of Argentina. He has demonstrated leadership in soil science education and mentorship, helping to shape the next generation of researchers in this field. His work continues to play a critical role in addressing the challenges of crop nutrition, particularly in maize and wheat cultivation.

🎓 Education

Nahuel Ignacio Reussi Calvo holds a degree in Agricultural Engineering from the Faculty of Agronomy, National University of Mar del Plata (UNMdP), awarded in 2005 with a thesis on wheat crop response to nitrogen, phosphate, and sulfur fertilization under different tillage systems. He later earned a Doctorate in Agricultural Sciences from the same institution in 2009, specializing in plant production with a dissertation on sulfur deficiency in wheat, for which he received the highest distinction, “Summa cum laude.”

💼Experience

Dr. Reussi Calvo is an Independent Researcher at CONICET and an Associate Professor at the Faculty of Agricultural Sciences, UNMdP. He has been actively engaged in soil fertility and plant nutrition research and serves as an Associate Editor for the Soil Science Magazine. His academic career includes various teaching roles at UNMdP since 2001, progressing from assistant to honorary teaching assistant, and later adjunct professor. Since 2019, he has been the Director of the Soil Fertility and Crop Nutrition Course at FCA-UNNE. Additionally, he has been a visiting professor for multiple postgraduate programs at institutions such as the National University of La Pampa, Universidad Mayor de San Andrés in Bolivia, and the University of Buenos Aires.

🔬Research Focus

His research centers on soil fertility, nutrient management, and plant nutrition, with a particular focus on sulfur deficiency in wheat, nitrogen and sulfur fertilization strategies, and the use of precision tools for nutrient diagnosis in crops. His work integrates soil analysis and fertility diagnosis to improve agricultural productivity and sustainability.

🛠️Skills

Dr. Reussi Calvo possesses expertise in soil fertility assessment, crop nutrition management, fertilizer application strategies, and precision agriculture techniques. He is highly skilled in agronomic research, teaching, and academic mentoring, having supervised multiple undergraduate theses on soil fertility and plant nutrition. His experience extends to scientific communication, editorial work, and consultancy in agricultural soil science.

🏆Awards

He served as the President of the Soil Fertility and Plant Nutrition Commission of the Argentine Association of Soil Science from 2014 to 2018. His academic excellence is demonstrated by his outstanding historical grade point average (9.32 and 9.36 for his undergraduate and doctoral degrees, respectively), with no recorded failures. His leadership in soil science education and research has established him as a key figure in Argentina’s agricultural sector.

📚 Publications

    • Greenness index profile in maize canopy: Implications for crop N status diagnosis

      • Authors: N.E. Maltese, W.D. Carciochi, O.P. Caviglia, M.P. Iglesias, N.I. Reussi Calvo
      • Journal: Field Crops Research
      • Year: 2025

    • Nitrogen mineralization potential depletion in Pampas (Argentina) croplands following conversion from native grasslands

      • Authors: N. Wyngaard, C. Crespo, G.V. García, P.A. Barbieri, H.R. Saínz Rozas
      • Journal: Geoderma Regional
      • Year: 2025

    • Soil test correlation of Olsen-P for corn and soybean in a subtropical humid region (Open access)

      • Authors: N.I. Reussi Calvo, D. Cortez, C. Crespo, A.A. Correndo, F.O. García
      • Journal: Agronomy Journal
      • Year: 2025

    • Anaerobically mineralized nitrogen within macroaggregates as an indicator of wheat nitrogen nutrition

      • Authors: G.V. García, N.I. Reussi Calvo, N. Wyngaard, F. Covacevich, G.A. Studdert
      • Journal: Ciencia del Suelo
      • Year: 2024

    • Nitrogen deficiency in maize fields of the Southern Pampas does not affect kernel number but reduces weight per kernel

      • Authors: C. Moises, F.H. Andrade, J.P. Monzon, N.I. Reussi Calvo, A.A. Cerrudo
      • Journal: Field Crops Research
      • Year: 2024

Conclusion:

Prof. Dr. Nahuel Reussi Calvo’s extensive body of work, teaching contributions, and leadership in soil science make him a highly suitable candidate for the Best Researcher Award. His commitment to advancing agricultural productivity through innovative soil and crop management practices, combined with his dedication to scientific education, has positioned him as a key figure in the field of soil fertility. With continued focus on interdisciplinary collaboration and technological advancements, his research has the potential to significantly impact global agricultural practices and sustainability.

Biplab Brahma | Soil Fertility | Soil Nutrient Management Pioneer

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Dr. Biplab Brahma | Soil Fertility | Soil Nutrient Management Pioneer

Dr. Biplab Brahma, Assam University, India

Dr. Biplab Brahma is an environmental researcher specializing in soil carbon sequestration, biomass modeling, and climate change mitigation. He holds a Ph.D. in Ecology and Environmental Science from Assam University, India, with expertise in soil health management, carbon flux, and agroforestry systems. Dr. Brahma has worked extensively on ecosystem carbon stocks, fine root dynamics, and land use impact assessments. He has received the Shastri Indo-Canadian Postdoctoral Fellowship (2019) and the Junior Scientist of the Year Award (2017). His research contributes to sustainable land management, biodiversity conservation, and climate resilience, with multiple high-impact publications and international collaborations.

Profile

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Summary:

Dr. Biplab Brahma has made pioneering contributions to soil nutrient management through his research on soil carbon sequestration, fine root dynamics, and biomass modeling. His work has enhanced the understanding of soil organic matter preservation and ecosystem restoration, making him a strong contender for the Research in Soil Nutrient Management Pioneer Award.

🎓 Education

Dr. Biplab Brahma holds a Ph.D. in Ecology and Environmental Science from Assam University, India, with research focusing on carbon stock and sequestration potential in rubber plantations. He also earned an M.Sc. in Ecology and Environmental Science from the same university and a Postgraduate Diploma in Bamboo Cultivation and Resource Utilization from Tripura University. His academic foundation includes a B.Sc. in Biological Science from Tripura University, and he is currently pursuing an M.A. in Sustainable Science from IGNOU.

💼Experience

Dr. Brahma has extensive research experience in environmental science, particularly in carbon dynamics and soil management. Since March 2020, he has been a Research Associate working on ecosystem carbon stock and sequestration rates in North East Indian forests. Previously, he was a Shastri Indo-Canadian Postdoctoral Research Fellow in 2019, where he assessed soil nutrient management and carbon sequestration strategies. From 2017 to 2019, he served as a Senior Research Fellow, focusing on phytolith occluded carbon in bamboo species for climate change mitigation. Earlier, as a Junior Research Fellow from 2015 to 2017, he assessed carbon sequestration potential in major land-use types of Southern Assam. His career began as a Field Assistant in 2009 on a bamboo cultivation and resource utilization project.

🔬Research Focus

Dr. Brahma specializes in soil carbon stock and sequestration, soil health management, fine root and litter dynamics, biomass modeling, and forest and biodiversity management. His work extends to climate change mitigation and adaptation, ecosystem restoration, and sustainable land management. He has contributed significantly to understanding carbon flux, sequestration rates, and the impact of land use changes on soil organic carbon pools. His research has practical applications in forest conservation, agroforestry, and carbon sink management.

🛠️Skills

Dr. Brahma possesses expertise in soil health management, ecosystem carbon sequestration, and biomass allometric modeling. He is skilled in statistical and GIS tools, including SPSS, R, MS Excel, and QGIS, for environmental data analysis. He has experience in natural resource management, climate change mitigation, and project management. His skills extend to research design, data analysis, laboratory experimentation, and scientific writing. Additionally, he is proficient in community engagement and capacity building and is fluent in English, Hindi, Bengali, and Assamese.

🏆Awards

Dr. Brahma has received notable recognition for his contributions to environmental science. He was awarded the Shastri Indo-Canadian Institute Postdoctoral Fellowship in 2019 and honored as the Junior Scientist of the Year in 2017 by the Confederation of Indian Universities and the International Foundation for Environment and Ecology. His research paper on ecosystem carbon sequestration in North East India was one of the most downloaded articles between 2016 and 2018 in Land Degradation and Development. Another study on biomass stocks and carbon loss in rubber plantations was featured in Science Last Fortnight by Current Science in 2018.

📚 Publications

  • Publication: Significance of land management practices under haskap orchards to mitigate the degradations of soil organic carbon stocks and soil health because of land use changes from forest and grassland
    Author: Brahma, B., Hammermeister, A.M., Lynch, D.H., Smith, P., Nath, A.J.
    Year: 2025
    Journal: Soil Use and Management

Conclusion:

 Dr. Brahma is a highly deserving candidate for this award. His work not only advances scientific knowledge but also provides practical solutions for sustainable soil management and climate change mitigation.

Md. Ashikur Rahman Khan | Soil Morphology | Best Researcher Award

Posted on by sciencefather

Prof. Md. Ashikur Rahman Khan | Soil Morphology | Best Researcher Award

Prof. Md. Ashikur Rahman Khan, Noakhali Science and Technology University, Bangladesh

Prof. Md. Ashikur Rahman Khan is a Professor and Chairman of the Department of Information and Communication Engineering at Noakhali Science and Technology University, Bangladesh. He holds a Ph.D. in Mechanical Engineering from Universiti Malaysia Pahang and has over 23 years of experience in academia and research. His expertise includes Artificial Neural Networks, Artificial Intelligence Techniques, Machine Learning, Advanced Machining, Renewable Energy, and Refrigeration and Air-Conditioning. He has received multiple awards, including a Bronze Medal at the Creation, Innovation, Technology & Research Exposition 2012 and a Best Poster Presentation Award at NCMER 2010. Prof. Khan continues to contribute to cutting-edge research and innovation in engineering and technology.

Profile

Scopus

Summary:

Prof. Md. Ashikur Rahman Khan has made significant contributions to machine learning applications in diverse fields, including education, agriculture, cybersecurity, health, and sports analytics. His research is well-documented in SCOPUS and Q1/Q2 journals, demonstrating a commitment to high-quality academic output. While his work is impactful, areas such as citations, grant funding, mentorship, and industry collaborations could be strengthened to further solidify his standing.

 

🎓 Education

Dr. Mohammad Ashikur Rahman Khan holds a Ph.D. in Mechanical Engineering from Universiti Malaysia Pahang, Malaysia, where he completed his research from 2009 to 2012. He earned his M.Sc. in Mechanical Engineering from Bangladesh University of Engineering and Technology (BUET) between 2000 and 2004. His academic journey began with a B.Sc. in Mechanical Engineering from Rajshahi University of Engineering and Technology (RUET), Bangladesh, where he studied from 1993 to 1998.

 

💼Experience

With over 23 years of experience in academia and engineering, Dr. Khan has contributed significantly to research and education. He is currently serving as a Professor (Grade 2) and Chairman of the Department of Information and Communication Engineering at Noakhali Science and Technology University (NSTU), Bangladesh, a position he has held since October 2021. Before this, he was a Professor at NSTU from 2017 to 2021 and previously worked as an Associate Professor from 2013 to 2017. His journey at NSTU began as an Assistant Professor in 2008, following his tenure as a Lecturer from 2006 to 2008. Earlier in his career, he worked as an Assistant Engineer at the Inspection and Testing Directorate of the Rural Electrification Board (REB) in Dhaka from 2001 to 2006. During his Ph.D. studies, he also served as a Teaching Assistant and Research Assistant at Universiti Malaysia Pahang from 2009 to 2012.

 

🔬Research Focus

Dr. Khan specializes in Artificial Neural Networks, Artificial Intelligence Techniques, Machine Learning, Advanced Machining, Renewable Energy, and Refrigeration and Air-Conditioning. His research contributions have advanced the fields of optimization modeling, pattern recognition, and intelligent modeling for engineering applications. His work has practical implications in enhancing machining processes, improving energy efficiency, and developing innovative techniques in mechanical engineering.

 

Awards

Dr. Khan has received several prestigious awards and honors throughout his academic and professional career. He was awarded a Bronze Medal at the Creation, Innovation, Technology & Research Exposition 2012 at Universiti Malaysia Pahang for his work on hybrid intelligent modeling in pattern recognition. He also received the Best Poster Presentation Award at the National Conference in Mechanical Engineering for Research & Postgraduate Studies (NCMER 2010) for his optimization modeling of copper electrodes in electrical discharge machining (EDM). He was a recipient of the Doctoral Fellowship at Universiti Malaysia Pahang from 2009 to 2011. His academic excellence was recognized with multiple Merit Awards and Technical Scholarships during his B.Sc. studies at RUET for three consecutive years. Additionally, he was honored with the Brilliance Award by the Welfare Association of Tahsilder, Bangladesh, in 1998.

 

Skills

Dr. Mohammad Ashikur Rahman Khan possesses extensive expertise in Artificial Neural Networks, Artificial Intelligence Techniques, and Machine Learning, applying these advanced computational methods to optimize engineering processes. His proficiency in Advanced Machining enables him to enhance material processing techniques, particularly in Electrical Discharge Machining (EDM) and other precision manufacturing technologies. His research also extends to Renewable Energy, where he focuses on sustainable energy solutions and their integration into industrial applications. With in-depth knowledge of Refrigeration and Air-Conditioning systems, he explores innovative ways to improve energy efficiency and system performance. His multidisciplinary skill set allows him to contribute significantly to engineering research, technology development, and academic leadership.

Publications

  • Title: Predicting the impact of internet usage on students’ academic performance using machine learning techniques in Bangladesh perspective
    Authors: S.H. Hemal, M.A. Khan, I. Ahammad, M.A.S. Khan, S. Ejaz
    Year: 2024
    Citations: 0

 

  • Title: Soil classification and crop cultivation prediction: a comparative study of machine learning models
    Authors: F. Rahman, M.A. Khan, Z. Tasneem
    Year: 2024
    Citations: 0

 

  • Title: A Hybrid PSO-GA Technique for Optimized Decision Tree to Enhanced Soil Classification and Predicting Crop Cultivation based on Soil Class to Ascertain Precise Agriculture
    Authors: F. Rahman, M.A. Khan, M. Alam
    Year: 2025

 

  • Title: Comparative analysis of potato blight diseases BARI-72 and BARI-73 using a simplified convolutional neural network method
    Authors: M.A. Khan, J. Akther, F. Rahman
    Year: 2024

 

  • Title: Perceived Factors Analysis for Depression and Suicidal Ideation among Bangladeshi University Students Using Association Algorithm
    Authors: M.M. Alam, M.S. Ejaz, M.K. Hasan, M.A. Khan
    Year: 2023

 

  • Title: Cricket Players Selection for National Team and Franchise League using Machine Learning Algorithms
    Authors: M. Robel, M.A. Khan, I. Ahammad, M.M. Alam, K. Hasan
    Year: 2024

 

  • Title: Prediction of Impacts and Outbreak of Covid-19 on the Society Using Distinct Machine Learning Algorithms
    Authors: T.T. Chaity, M.A. Khan, F. Rahman
    Year: 2024

 

  • Title: RSA and AES Based Hybrid Encryption Technique for Enhancing Data Security in Cloud Computing
    Authors: R. Akter, M.A. Khan, F. Rahman, S.J. Soheli, N.J. Suha
    Year: 2023

Conclusion:

Prof. Md. Ashikur Rahman Khan is a strong contender for the Best Researcher Award due to his wide-ranging research, publication record, and innovative use of machine learning. However, improving research visibility, securing research funding, and mentoring graduate students could elevate his academic profile further. If he addresses these areas, his potential for recognition in the research community will increase significantly.