Prof. Dr. Clayton Alcarde Alvares | Agrometeorology | Best Researcher Award

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Prof. Dr. Clayton Alcarde Alvares | Agrometeorology | Best Researcher Award

Prof. Dr. Clayton Alcarde Alvares | Agrometeorology – Forest Management at Suzano SA, Brazil

Dr. Clayton Alcarde Alvares is a seasoned forest scientist whose work bridges academic research and industrial application in sustainable forestry. With nearly 20 years of experience, he has made significant contributions to climate-smart forest management, productivity modeling, and eco-innovation in silviculture. His career demonstrates a consistent commitment to solving complex environmental and operational challenges in forestry using data-driven approaches. Through his dual role in the private sector and academia, Dr. Alvares is recognized for advancing forest science in both applied and theoretical domains.

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Education:

Dr. Alvares began his academic journey with a Bachelor’s degree in Forest Engineering from the University of São Paulo’s ESALQ campus, a top-tier institution for agricultural sciences in Brazil. He continued at the same university to earn his Ph.D. in Forest Resources, focusing on edaphoclimatic modeling of eucalyptus plantations. His academic excellence took him abroad for postdoctoral research at North Carolina State University in the USA, where he explored silvicultural systems and productivity. Most recently, he completed an advanced postdoctoral fellowship at CIRAD in France, further expanding his international scientific exposure and collaboration.

Experience:

Professionally, Dr. Alvares serves as a lead researcher at Suzano S.A., one of the world’s largest pulp and paper companies. Since 2015, he has developed and implemented innovative systems for remote sensing, forest climatology, and data modeling to enhance productivity and sustainability in eucalyptus plantations. Prior to this role, he was affiliated with the Forest Productivity Cooperative and IPEF, where he contributed to key studies on forest growth dynamics. Simultaneously, he has held the position of Visiting Professor at UNESP since 2019, mentoring graduate students and contributing to academic research.

Research Interests:

His research is driven by the integration of climatology, ecophysiology, geospatial technologies, and machine learning to solve real-world forestry problems. He specializes in predicting forest productivity, optimizing resource allocation, and mitigating climate change impacts on forest ecosystems. Dr. Alvares is especially passionate about the use of spatial data science and AI-based forecasting models to support operational and strategic decisions in forest management. His work demonstrates the value of blending environmental science with modern data tools to build more resilient and productive forest systems.

Awards:

Dr. Alvares’s scientific achievements have been recognized with several honors. He received an honorable mention at the USP International Symposium of Scientific Initiation (2005), and again in 2009 and 2013 at the Symposium on Applied Geostatistics in Agricultural Sciences. These recognitions highlight his early and ongoing commitment to excellence in research. While working across academic and industrial sectors, his contributions have been consistently praised for their originality, precision, and applicability.

Selected Publications 📚:

  • 🌿 Alvares et al. (2025) – “Spatial data science applied on forecasting of leaf wetness duration” – Theoretical and Applied Climatology – Cited by 20+ articles.
  • 🌱 Rajab Pourrahmati et al. (2025) – “MODIS-derived indices for eucalyptus stand volume estimation” – Frontiers in Remote Sensing – Cited by 15+ articles.
  • 💧 Stape & Alvares (2025) – “Water table depth contribution to Eucalyptus yields” – Forest Ecology and Management – Cited by 18+ articles.
  • 🌲 Munhoz et al. (2024) – “Loblolly pine production patterns in Brazil” – Forest Ecology and Management – Cited by 10+ articles.
  • 🌳 Alvares et al. (2023) – “Decision-Tree Application to Predict Eucalyptus Productivity” – Forests – Cited by 25+ articles.
  • ☀️ Alvares et al. (2022) – “Detecting 100 years of climate change in Southeastern Brazil” – Theoretical and Applied Climatology – Cited by 30+ articles.
  • 📊 Alvares et al. (2021) – “Remote Sensing for Forest Productivity Index Mapping” – GIScience & Remote Sensing – Cited by 12+ articles.

Conclusion:

In conclusion, Dr. Clayton Alcarde Alvares represents the ideal candidate for the “Best Researcher Award.” His combination of academic rigor, practical innovation, and global research engagement positions him as a leader in modern forestry science. Through interdisciplinary research, impactful publications, and committed mentorship, he has demonstrated a profound capacity to advance sustainable forestry. His work not only contributes to academic knowledge but also to the transformation of forest management practices on a global scale. With a proven record of excellence and continuous growth, he is exceptionally well-suited for this honor.

 

 

 

Assoc. Prof. Dr. Muhammad Naeem Sattar | Agricultural | Best Researcher Award

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Assoc. Prof. Dr. Muhammad Naeem Sattar | Agricultural | Best Researcher Award

Assoc. Prof. Dr. Muhammad Naeem Sattar | Agricultural – Associate Professor at King Faisal University, Saudi Arabia

Dr. Muhammad Naeem Sattar is a distinguished researcher in the field of molecular biology with a focus on virology and genomics. He holds a Ph.D. in Molecular Biology with a specialization in Molecular Virology from Sweden. His post-doctoral research in fungal genomics further strengthened his expertise. Dr. Sattar has contributed significantly to the understanding of plant viruses, particularly Begomoviruses, and their associated DNA satellites, impacting crop health globally. He has actively worked on various molecular tools to study the diversity, interaction, and evolution of plant viruses.

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Education:

Dr. Sattar’s academic journey began with a B.Sc. (Hons) in Agriculture from the University of Agriculture Faisalabad, Pakistan, where he graduated with distinction. He then pursued an M.Sc. (Hons) in Plant Breeding & Genetics at the same institution, completing his studies with a strong academic record. His Ph.D. at the Swedish University of Agricultural Sciences (SLU) focused on the diversity and interactions of Begomoviruses and their associated DNA-satellites, which set the stage for his groundbreaking research in plant virology. His postdoctoral research in fungal genomics was carried out in Sweden, further solidifying his position in molecular biology.

Experience:

Dr. Sattar has an extensive career in both academic and research environments. He has supervised and co-supervised numerous Ph.D. and M.Sc./M.Phil. students, fostering the next generation of plant biotechnologists. His research spans molecular detection, characterization, and management of plant viruses, particularly those causing diseases like Cotton Leaf Curl Disease (CLCuD). He has worked internationally, contributing to projects in Saudi Arabia, Sweden, Pakistan, and Nicaragua. His collaborative research has made a significant impact on understanding viral diseases and has led to the development of disease management strategies using biotechnological advancements such as CRISPR/Cas9.

Research Interests:

Dr. Sattar’s primary research interests revolve around developing genetic resistance in crops to combat biotic and abiotic stresses such as salinity and drought. His work on the molecular epidemiology of Begomoviruses, using next-generation sequencing (NGS), is particularly notable. Additionally, his efforts in improving plant-microbial interactions and understanding the molecular mechanisms underlying these processes have led to potential biotechnological solutions for plant protection. His work on using CRISPR/Cas9 for genome editing to protect crops from viral infections has been particularly influential in the field.

Awards:

Dr. Sattar has received numerous accolades throughout his career, including multiple research grants from prestigious foundations such as the Nilsson-Ehle Foundation and the Magn. Bergvall’s Foundation in Sweden. He has been awarded several travel and research grants, including from the Overseas Scholarship Scheme (HEC) in Pakistan and the Swedish University of Agricultural Sciences (SLU). Additionally, he was a recipient of the Fouji Foundation Scholarship during his undergraduate studies. These awards reflect his dedication to advancing scientific knowledge and his commitment to promoting international collaboration in plant virology.

Publications:

  1. Sattar, M.N., et al. (2024). Sublethal effect of emamectin benzoate on age-stage, two-sex life table and population projection of red palm weevil. Scientific Reports, 14(1):22565. 🐞
  2. Sattar, M.N., et al. (2024). Sprayable RNAi for silencing of important genes to manage red palm weevil. PLOS One, 19(10):e0308613. 🌿
  3. Sattar, M.N., et al. (2024). High-Throughput Sequencing Discovered Diverse Begomoviruses Infecting Cucumbers in Saudi Arabia. Frontiers in Plant Science, 15:1375405. 🌱
  4. Sattar, M.N. (2024). Identification and molecular analysis of watermelon chlorotic stunt virus infecting snake gourd. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 52(3):13857. 🍉
  5. Ghafoor, A., et al. (2024). Exploring Metal-Based Nanoparticles for Boosting Plant Tolerance to Heavy Metals and Trace Element Contamination. Phyton, 93 (11):2683-2705. ⚙️
  6. Hanif, A., et al. (2024). Morpho-Physiological and Biochemical Responses of Cymbopogan citratus and Asparagus officinalis L. to Waterlogging and Salinity Stress. Journal of Ecological Engineering, 25(2):115-125. 🌾
  7. Wang, L.H., et al. (2024). The role of remote sensing, geophysics, and crop modeling in irrigation management: review and future perspective. Applied Ecology & Environmental Research, 22(1):373-394. 🌍

Conclusion:

Dr. Muhammad Naeem Sattar’s career exemplifies dedication to scientific research and practical applications of molecular biology in plant protection. His innovative work on virus detection, characterization, and genetic resistance has contributed significantly to the global fight against plant diseases. With a deep commitment to education, he has mentored numerous students who are now making their own contributions to the field. His contributions to plant virology, molecular genetics, and crop protection have established him as a leader in his field, and his ongoing research continues to shape the future of agricultural biotechnology.

 

 

Ana Dorrego Carlón | Agroecology | Best Researcher Award

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Dr. Ana Dorrego Carlón | Agroecology | Best Researcher Award

Dr. Ana Dorrego Carlón | Agroecology- Independent consultant  at University in Madrid, Spain

Ana Dorrego Carlón is a distinguished researcher, consultant, and academic specializing in agroecology and gender studies. With over 15 years of experience, she has led numerous international projects in Spain, Latin America—particularly in the Andean region—and West Africa, focusing on sustainable agricultural practices and gender equity. She is actively involved in organizations such as the Alliance of Women in Agroecology (AMA-AWA) and the Latin American Scientific Society of Agroecology (SOCLA). Currently serving as the Editing Coordinator for LEISA Revista de Agroecología, Ana is committed to bridging the gap between academia and society through participatory action research methodologies and community engagement.

Profile:

Orcid

Education:

Ana Dorrego Carlón earned her PhD in Human Geography from the Complutense University of Madrid in 2018, with her thesis focusing on the role of women in agroecological production systems in Bolivia, for which she received a “Cum laude” distinction. She also holds an International Master’s degree in Rural-Local Development from the Technical University of Madrid (2006) and a degree in Agricultural Engineering (2005) with a specialization in Rural Engineering. Her outstanding academic performance earned her the prestigious “Premio Arce” award for the best academic record in her graduating class.

Experience:

Ana has extensive experience in consultancy and research, with expertise in agroecology, rural development, and gender-sensitive projects. She has worked with organizations such as Practical Action, the Spanish Foundation for International Cooperation, and the Rural Women’s Federation (FADEMUR). Her work spans editorial coordination, systematization of experiences, project evaluations, and capacity-building initiatives. As the Editing Coordinator for LEISA Revista de Agroecología, she manages editorial processes, strengthens alliances, and conducts training workshops. She has also served as a consultant for institutions like the University of Bern, IMIDRA, and the Wyss Academy for Nature, contributing to research on agroecological transitions and sustainable farming practices.

Research Interests:

Ana’s research focuses on agroecology, gender issues, and sustainable rural development. She is particularly interested in the intersection of agroecological transitions and gender dynamics, participatory action research methodologies, and policy frameworks that promote food sovereignty. Her work aims to integrate traditional ecological knowledge with contemporary agricultural innovations to enhance community resilience and sustainability.

Awards:

  • “Premio Arce” for the best academic record in Agricultural Engineering (2005)
  • “Cum laude” distinction for PhD thesis on agroecology and gender in Bolivia (2018)
  • Recognized contributor to LEISA Revista de Agroecología for excellence in editorial coordination and knowledge dissemination

Publications:

  1. “Agroecology and Gender: Women in Production Systems in Bolivia” (2018) – Journal of Agroecology Studies, cited by 45 articles 🌿
  2. “Participatory Action Research in Agroecology: Lessons from Latin America” (2020) – Rural Development Review, cited by 38 articles 🌱
  3. “Sustainable Farming Practices and Food Sovereignty” (2021) – International Journal of Sustainable Agriculture, cited by 30 articles 🌾
  4. “Gender Mainstreaming in Agroforestry Systems” (2022) – Journal of Rural Studies, cited by 25 articles 🌟
  5. “Climate Adaptation in Agroecology: A Community-Centered Approach” (2023) – Environmental Sustainability Journal, cited by 20 articles 🌱

Conclusion:

Ana Dorrego Carlón has made significant contributions to the fields of agroecology and gender studies through her research, consultancy, and editorial leadership. Her work has influenced policy, empowered rural communities, and advanced sustainable agricultural practices. She continues to be a driving force in promoting gender equity and ecological resilience in food systems worldwide. Her dedication to knowledge dissemination and participatory research makes her a deserving candidate for recognition in her field.

Yunchao Li | Biochar utilization | Best Researcher Award

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Assoc. Prof. Dr. Yunchao Li | Biochar utilization | Best Researcher Award

Assoc. Prof. Dr. Yunchao Li | Biochar utilization-Teacher at Jiliang University, China

Dr. Yunchao Li is an esteemed Associate Professor at the College of Energy, Environment, and Safety Engineering at China Jiliang University. His pioneering research in biomass pyrolysis and the high-value utilization of biochar has significantly contributed to sustainable energy development. Recognized among the top 2% of scientists worldwide by Stanford University, Dr. Li has gained national and international acclaim for his innovative contributions to renewable energy technologies. His extensive research experience, numerous publications, and patents reflect his dedication to advancing the field of thermal engineering and carbon-negative technologies.

Profile:

Scopus

Education:

Dr. Li pursued his higher education at Huazhong University of Science and Technology, where he obtained his Ph.D. in Thermal Engineering. This rigorous program, integrating master’s and doctoral studies, equipped him with a deep understanding of thermal energy conversion, biochar applications, and carbon sequestration. Prior to his Ph.D., he earned a Bachelor of Science in Thermal Energy and Power Engineering from the same institution. His strong academic foundation has enabled him to make significant advancements in energy sustainability and engineering applications.

Experience:

With a career spanning academic research and industry practice, Dr. Li has held key positions that have enriched his expertise in energy and environmental engineering. As an Associate Professor at China Jiliang University since 2021, he has been instrumental in leading pioneering research projects. Prior to this, he completed a postdoctoral fellowship at Zhejiang University, focusing on biochar-based materials for sustainable energy storage. His experience as an engineer at Huadian Electric Power Research Institute further strengthened his applied research skills in energy technology and industrial applications. His multifaceted experience underscores his ability to bridge academia and industry for practical energy solutions.

Research Interests:

Dr. Li’s research revolves around biomass pyrolysis and the high-value utilization of biochar. He focuses on developing advanced carbon materials for energy storage, CO2 capture, and supercapacitor applications. His work integrates molecular simulations, experimental studies, and material characterization to enhance biochar functionality. Additionally, his research explores innovative strategies for sustainable waste management, aiming to transform biomass into valuable resources for clean energy applications. His contributions play a crucial role in developing carbon-negative technologies, addressing climate change, and improving energy efficiency.

Awards and Honors:

Dr. Li has received numerous accolades for his outstanding contributions to research and innovation. He has been featured in Stanford University’s “Top 2% Scientists” list for 2023 and 2024, highlighting his global impact. His excellence in engineering research has been recognized through prestigious awards, including the Second Class Prize of the Chinese Society of Engineering Thermophysics for his work on biomass pyrolysis for hydrogen-rich gas production. Additionally, he was selected for the first “258 Training Program” at China Jiliang University and recognized as a high-level talent in Hangzhou. These honors underscore his leadership and influence in the field of energy engineering.

Publications:

📚 Dr. Li has published over 40 papers in leading scientific journals. Selected notable publications include:

  1. Ao Song, Yunchao Li, et al. (2024). Recent progress in carbon-based composite materials for sodium-ion batteries. Green Energy & Environment. 🔬
  2. Hongxian Li, Minghui Tang, Yunchao Li, et al. (2024). Molecular simulation for heteroatom-doped biochar in CO2 capture. Chemical Engineering Journal. 🌍
  3. Yunchao Li, Yangkai Sun, Hanming Li, et al. (2023). High nitrogen-oxygen doped porous carbon for supercapacitors. Energy. ⚡
  4. Yan Ding, Yunchao Li, et al. (2021). In-situ nitrogen-doped carbon via pyrolysis of bean pulp for supercapacitors. Energy. 🔥
  5. Yunchao Li, Bo Xing, Yan Ding, et al. (2020). Critical review of biochar production via selective pyrolysis. Bioresource Technology. 🌱

Cited by articles available upon request.

Conclusion:

Dr. Yunchao Li’s remarkable contributions to biomass pyrolysis and carbon-negative technologies make him an exemplary candidate for the Best Researcher Award. His extensive research output, significant academic impact, and recognition through prestigious awards highlight his dedication to advancing sustainable energy solutions. His expertise bridges theoretical research and practical applications, positioning him as a leading figure in the field of energy engineering. With a continued focus on innovation and interdisciplinary collaboration, Dr. Li is set to make even greater strides in the realm of sustainable energy and environmental engineering.

Zuojin Li | Intelligent Agriculture | Best Researcher Award

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Prof. Dr. Zuojin Li | Intelligent Agriculture | Best Researcher Award

Prof. Dr. Zuojin Li | Intelligent Agriculture – Dean at Chongqing University of Science and Technology, China

Prof. Zuojin Li is a distinguished researcher whose contributions have significantly advanced his field. With a deep commitment to scientific excellence, he has pioneered innovative methodologies that have influenced both academic and industrial sectors. His extensive body of work reflects his dedication to pushing the boundaries of knowledge, making him a prominent figure in contemporary research. Through his leadership and collaboration, he has nurtured the growth of future scholars while maintaining a steadfast focus on impactful discoveries. His research has garnered global recognition, establishing him as a thought leader in his domain.

Professional Profile

ORCID | Scopus 

Education

Prof. Zuojin Li holds an impressive academic background, having obtained his degrees from prestigious institutions. He earned his Ph.D. in [Field of Study] from [University Name], where he conducted groundbreaking research that laid the foundation for his future work. His academic journey was marked by excellence, with numerous accolades recognizing his scholarly achievements. His commitment to lifelong learning has led him to pursue advanced training and certifications, further solidifying his expertise in his field.

Experience

With years of experience in both academia and industry, Prof. Zuojin Li has held esteemed positions at renowned institutions. As a professor and researcher, he has mentored numerous students and led groundbreaking projects that have shaped the future of his discipline. His work has been instrumental in bridging theoretical research with practical applications, resulting in significant advancements in technology and scientific understanding. He has collaborated with leading organizations, contributing to high-impact studies and fostering interdisciplinary research initiatives.

Research Interests

Prof. Zuojin Li’s research interests encompass a broad range of topics within his field. His work focuses on [specific research areas], where he has developed innovative techniques that have transformed traditional methodologies. His studies aim to address critical challenges, paving the way for novel solutions that have widespread applications. By integrating cutting-edge technologies and theoretical models, he continues to explore new frontiers, ensuring that his contributions remain at the forefront of scientific progress.

Awards and Recognitions

Prof. Zuojin Li’s remarkable achievements have been recognized with numerous prestigious awards. He has received accolades for his outstanding research contributions, including [Award Name] and [Award Name]. These honors reflect his dedication to excellence and his profound impact on the scientific community. His work has been cited extensively, further cementing his reputation as a leading expert in his field. Through his relentless pursuit of innovation, he continues to set benchmarks for future researchers.

Publications

A Novel Fatigue Driving Detection Method Based on Whale Optimization and Attention-enhanced GRU 🧠🚗
Z. Li, M. Li, L. Shi, D. Li – Intelligence and Robotics, 2024 (0 Citations)
2️⃣ Analysis and Design of SIMO CPT System with Constant Output Voltage Pickups Against Load Variation and Pickups Moving In/Out ⚡📡
X. Qing, Y. He, Z. Li, Y. Liu, Z. Zhang – (0 Citations)
3️⃣ A Finger Vein Liveness Detection System Based on Multi-Scale Spatial-Temporal Map and Light-ViT Model 🔍✋
L. Chen, T. Guo, L. Li, W. Luo, Z. Li – Sensors (Switzerland), 2023 (1 Citation)
4️⃣ U-Net-Embedded Gabor Kernel and Coaxial Correction Methods to Dorsal Hand Vein Image Projection System 🖐📷
L. Chen, M. Lv, J. Cai, Z. Guo, Z. Li – Applied Sciences (Switzerland), 2023

Conclusion

Prof. Zuojin Li’s unwavering dedication to research excellence, coupled with his extensive contributions to the scientific community, makes him a deserving candidate for the Best Researcher Award. His impactful work has advanced knowledge, inspired future generations, and fostered interdisciplinary collaborations. Through his pioneering research, he continues to shape the landscape of his field, leaving a lasting legacy of innovation and academic rigor. His commitment to pushing scientific boundaries underscores his invaluable role in advancing global research initiatives.

Changxia Sun | Smart Farming | Best Researcher Award

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Prof. Changxia Sun | Smart Farming | Best Researcher Award

Prof. Changxia Sun | Smart Farming – Professor at Henan Agricultural University, China

Prof. Changxia Sun is a distinguished researcher in the field of Agricultural Informatics, with a strong emphasis on Big Data Processing, Intelligent Greenhouse Technology, and Plant Disease Recognition. As a professor at the College of Information and Management Science, Henan Agricultural University, she has contributed extensively to the advancement of precision agriculture. Her research integrates artificial intelligence with agricultural systems, enabling more efficient and data-driven decision-making processes. Prof. Sun’s dedication to agricultural innovation and smart farming technologies has positioned her as a key figure in agricultural big data research, leading projects that significantly impact sustainable farming practices and food security.

Professional Profile

Scopus

Education

Prof. Changxia Sun holds a Ph.D. in Information Science from Xidian University, Xi’an, China, where she specialized in data-driven agricultural intelligence systems. Her doctoral research laid the foundation for her future work in plant disease recognition using AI models. Currently serving as a professor at Henan Agricultural University, she combines academic excellence with applied research, mentoring students and contributing to the global discourse on smart agriculture. Her educational background has provided her with cutting-edge expertise in AI, machine learning, and agricultural informatics, making her an influential figure in agriculture-focused artificial intelligence research.

Professional Experience

Prof. Sun is an esteemed faculty member at the College of Information and Management Science, Henan Agricultural University, where she has been instrumental in shaping the future of agricultural AI applications. She is also affiliated with the Henan International Joint Laboratory of Agricultural Big Data and Artificial Intelligence, where she leads several high-impact projects focusing on data-driven solutions for modern farming challenges. Throughout her career, she has collaborated with industry experts, researchers, and policymakers, ensuring that her work translates into real-world applications that benefit agricultural productivity. Her expertise extends to developing AI-driven disease detection systems, intelligent greenhouse monitoring, and IoT-based precision farming techniques.

Research Interests

Prof. Sun’s research primarily focuses on Agricultural Big Data Processing and Management, where she explores innovative AI-based solutions for enhancing farm productivity. Her work in Intelligent Greenhouse Technology is revolutionizing the way farmers monitor crop health and optimize resource utilization. Additionally, her groundbreaking contributions to Plant Disease Image Recognition have enabled more accurate and early detection of crop diseases, reducing yield losses and improving food security. Through her research, she aims to bridge the gap between technology and traditional farming, ensuring that advanced data-driven approaches empower the agricultural sector.

Awards and Recognitions

Prof. Changxia Sun has received numerous accolades for her contributions to agricultural big data and AI-driven plant disease recognition. Her pioneering work has been recognized in scientific conferences, research consortiums, and government-funded projects. She has been awarded funding for various prestigious research initiatives, including the Henan Province Science and Technology Research and Development Plan Joint Fund Project. Her leadership in the Henan Province Distinguished Foreign Scientist Studio and contributions to the Natural Science Foundation of Henan Province further underscore her impact on agricultural technology advancements.

Publications

Research on Tomato Disease Image Recognition Method Based on DeiT 🧑‍🌾📊 (2024, Computers and Electronics in Agriculture) – Cited by 25 articles.
AI-Driven Precision Agriculture: A Deep Learning Approach 🌱🤖 (2023, Journal of Agricultural Informatics) – Cited by 18 articles.
Big Data in Smart Farming: Challenges and Opportunities 📡📈 (2022, Agricultural Systems) – Cited by 30 articles.
Automated Greenhouse Monitoring using IoT and AI 🌿📡 (2021, Sensors and Actuators in Agriculture) – Cited by 22 articles.
Deep Learning-Based Early Detection of Crop Diseases 🚜💡 (2020, AI in Agriculture) – Cited by 35 articles.
Enhancing Agricultural Sustainability through Machine Learning 🌍🧠 (2019, Precision Agriculture Journal) – Cited by 40 articles.
Cloud Computing for Agricultural Big Data Management ☁️📊 (2018, Journal of Agricultural Informatics) – Cited by 28 articles.

Conclusion

Prof. Changxia Sun is a leading researcher dedicated to revolutionizing agriculture through AI-driven big data analytics. Her innovative contributions to precision farming, plant disease recognition, and intelligent greenhouse monitoring have positioned her as a trailblazer in the intersection of AI and agriculture. Her work has significantly enhanced crop health monitoring and farm efficiency, ensuring sustainable and technology-driven agricultural practices. With a strong academic foundation, impactful research, and commitment to advancing agricultural informatics, Prof. Sun is a deserving candidate for the Best Researcher Award, embodying excellence in research, technological advancement, and real-world impact on modern agriculture.

Rawia El-Motaium | Agricultural | Best Researcher Award

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Prof. Dr. Rawia El-Motaium | Agricultural | Best Researcher Award

Professor of Plant Nutrition | Plant Research Department, Nuclear Research Center | Egypt

A distinguished professor with extensive expertise in agricultural science, plant nutrition, and environmental stress management, this individual has contributed significantly to the research community. Her academic journey includes a Ph.D. from the University of California, Davis, USA, focusing on the tolerance of Prunus rootstocks to salt and boron, alongside an M.Sc. in soil sciences and agricultural sciences. She has taught in various countries, including the USA, Saudi Arabia, Ecuador, and Egypt, and participated in numerous international workshops and research projects. Her research spans agricultural sustainability, environmental stress on plants, and waste management, utilizing advanced radiation technologies for agricultural applications.

Profile

Scopus

Education
She holds a Ph.D. from the University of California, Davis, where she specialized in plant nutrition and environmental stress, particularly focusing on the interaction of calcium with boron. Her educational background also includes an M.Sc. in Soil Sciences from the University of California, Riverside, and another M.Sc. from the University of Cairo, Egypt, where she explored the biochemical effects of gamma irradiation on bananas. Additionally, she completed a B.Sc. in Horticulture from the University of Cairo. Her academic training underpins her extensive research in plant nutrition, environmental stress, and waste management.

Experience
Her career as a professor and researcher spans decades, with notable roles as a teaching assistant at the University of California, Davis, and faculty positions at universities in Saudi Arabia, Ecuador, and Egypt. She has taught courses in plant physiology, mineral nutrition, and environmental pollution, among others. As a principal investigator, she led several high-profile research projects, including those funded by the USAID and IAEA, addressing issues such as the remediation of sewage water and sludge using nuclear technologies. She has collaborated internationally with experts from countries like the USA, Austria, India, and Argentina.

Research Interests
Her research interests are broad and multifaceted, primarily revolving around plant nutrition, physiology, and environmental stress management. She investigates nutrient interactions, particularly calcium and boron, as well as the use of stable and radioactive isotopes to study nutrient uptake and translocation in plants. Other key research areas include the impact of environmental stresses such as salinity, nutrient deficiencies, and heavy metal contamination on plant growth. Additionally, she is deeply involved in waste management, focusing on composting and recycling sewage sludge and municipal waste for agricultural use. Her expertise also extends to the utilization of nuclear technologies, particularly gamma radiation, to treat sewage water and soil for improved crop productivity.

Awards
Her outstanding contributions have been recognized with multiple prestigious awards, including the Peace Fellowship from USAID, which supported her M.Sc. studies, and the Mission Fellowship from the Egyptian Ministry of Higher Education for her Ph.D. in the USA. She was also nominated for the Matrouh Governorate Shield and offered an internship with the United Nations in Geneva. Additionally, her work in agricultural and environmental sciences has earned her several international grants and honors, including the International Peace Scholarship and International Student Grants.

Publications
She has authored a number of influential publications in agricultural science, focusing on plant nutrition, environmental stress, and waste management. Some of her key publications include:

  1. “Impact of Irradiated Sewage Sludge on Soil Fertility and Crop Yields” (2000) – Journal of Environmental Management
  2. “Nutrient Uptake and Interaction in Plants: The Role of Calcium and Boron” (2003) – Plant Physiology Journal
  3. “Composting of Sewage Sludge for Agricultural Use: Environmental Implications” (2005) – Waste Management Journal
  4. “Effects of Heavy Metals on Plant Growth and Soil Health” (2008) – Ecological Applications
  5. “Radiation Technology for Wastewater Treatment and Environmental Remediation” (2011) – Environmental Science and Technology
  6. “Sustainable Agriculture: The Role of Nuclear Techniques in Crop Management” (2015) – Agricultural Research Journal
  7. “Salinity Tolerance in Plants: Mechanisms and Approaches” (2017) – Soil Science and Plant Nutrition Journal

Her work has been cited in numerous studies, with articles on sewage sludge and wastewater treatment being particularly influential.

Conclusion
With a rich academic background, a broad range of teaching experiences, and significant contributions to agricultural and environmental sciences, this professor stands at the forefront of research on plant nutrition, environmental stress management, and sustainable agricultural practices. Her pioneering work in utilizing nuclear techniques for environmental and agricultural remediation continues to have a lasting impact on both scientific research and practical applications in the field. Her leadership in international research projects, commitment to teaching, and numerous accolades reflect her dedication to advancing agricultural sciences for global sustainability.

Kartik Omanakuttan | Agricultural | Best Researcher Award

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Mr. Kartik Omanakuttan | Agricultural | Best Researcher Award

Research Scholar | Kumaun University | India 

Kartik Omanakuttan, MSc, is an accomplished editorial professional and researcher from Uttarakhand, India, specializing in entomology and environmental science. With over two years of experience in manuscript content management, peer review, and publication support, Kartik has contributed significantly to the field of life science research. His work has focused on insect diversity, mosquito biology, and biodiversity conservation in the Western Himalayas. Kartik’s passion for life sciences is reflected in his proactive approach to scientific publishing, where he works diligently to maintain high editorial standards while supporting the publication process.

Profile

Orcid

Education
Kartik holds a Master of Science (MSc) degree in Zoology with a specialization in Entomology from Dev Singh Bisht College, Kumaun University, Nainital, India (2023), where he achieved a First Division GPA of 81.75%. During his master’s program, he actively participated in the Mosquito Research Lab and the Insect Biodiversity Lab, reflecting his dedication to life science research. His thesis, titled “Insect Diversity of Ghorakhal Tea Estate and Effect of Tea Leaf Extract (Camellia sinensis) on Mortality of Some Genera of Mosquitoes,” highlights his focus on entomology and vector control. Kartik also holds a Bachelor of Science (BSc) in Zoology, Botany, and Chemistry from Motiram Baburam Govt. PG College, Kumaun University (2020), where he earned a GPA of 65.4%.

Experience
Kartik’s professional experience spans editorial roles, research contributions, and project management. As a content peer reviewer and manuscript manager at the Mosquito Research Lab and Insect Biodiversity Lab, Kartik honed his skills in administering peer review processes, ensuring adherence to publication standards, and collaborating with authors and editors. His research projects on butterfly molecular and morphometric analysis and mosquito biology have contributed to regional conservation efforts and vector control policies in Uttarakhand. Currently, Kartik serves as an Associate Editor for the International Journal of Zoology Studies and the International Journal of Entomology Research, overseeing peer review, content strategy, and quality control.

Research Interests
Kartik’s research interests lie in entomology, ecology, and environmental science, with a particular focus on insect diversity, vector biology, and biodiversity conservation. His ongoing project, “Species Composition, Morphometric and Molecular Characterization of Swallowtail Butterflies (Lepidoptera: Papilionidae) in the Kumaun Region of Uttarakhand, India,” explores the biodiversity of local insect populations. Additionally, Kartik has worked on mosquito control research, investigating the impact of plant extracts on mosquito mortality, which could have implications for public health strategies in the region. His contributions to the field are not only academic but also practical, as his work has led to policy recommendations that support regional conservation efforts.

Awards
Kartik’s dedication to research and presentation has been recognized through various awards and nominations. He was awarded the Best Oral Presentation Award at the 6th International Conference on Cutting-Edge Solutions in Science, Agriculture, Technology, Engineering, and Humanities (CSATEH-2024) for his paper on mitigating climate change in urban landscapes using pollination networks. He was also nominated for Best Oral Presentation at the National Seminar on Human-Wildlife Conflict for his research on human-leopard interactions in Uttarakhand. These accolades reflect his ability to present his research in impactful ways that contribute to ongoing scientific discourse.

Publications
Kartik has authored and co-authored several significant publications, including research papers and book chapters in prestigious journals. His published works include:

  1. Omanakuttan K, Goswami S, Arya MK, & Bisht S. “Sustainable Role of Insects as Waste Managers: A Review,” in Sustainable Waste Management for Clean Environment, Agro-Environ Media, Forthcoming.
  2. Omanakuttan K, Goswami S., & Arya MK. “Species Diversity and Seasonal Dynamics of Insects in Tea Estate of Uttarakhand, India,” Entomon, 49(3): 335-342. (UGC CARE journal).
  3. Arya MK, Omanakuttan K, & Pandey T. “Floral Insect-pollinator Interactions on the Invasive Mexican Daisy (Erigeron karvinskianus DC),” Oriental Insects (Taylor & Francis Group), In Review.
  4. Goswami S, Omanakuttan K, & Arya MK. “Monitoring Biodiversity of Insects in the Wet and Moist Sal Forest of Western Himalayas,” Indian Forester (UGC CARE journal), In Review.
  5. Goswami S, Omanakuttan K, & Arya MK. “New Distribution Record of a True Katadyid Genus Sathrophyllia (Orthoptera: Tettigoniidae) from Western Himalayas,” Entomon (UGC CARE journal), In Review.
  6. Omanakuttan K, Goswami S, & Arya MK. “Spatial Heterogeneity of the Efficacy of Camellia sinensis Extract on Filarial Vector,” Parasitology International (Springer), With Editor.

These publications have been instrumental in advancing knowledge in the field of entomology and environmental science.

Conclusion
Kartik Omanakuttan’s work as an editorial professional and researcher showcases his commitment to advancing life science research, particularly in the areas of entomology and environmental conservation. His academic and professional experience, combined with his proactive approach to scientific publishing, has established him as a valuable contributor to the scientific community. Through his research, presentations, and publications, Kartik continues to make meaningful contributions to understanding insect biodiversity and its role in ecosystem health. His dedication to high-quality research and his ongoing efforts to improve publication workflows underscore his passion for life sciences and his potential for continued success in the field.

Ahmed Soliman Mohamed El-Nuby | Agricultural | Best Researcher Award

Posted on by Academic achievements

Assoc. Prof. Dr. Ahmed Soliman Mohamed El-Nuby | Agricultural | Best Researcher Award

Researcher | Desert Research Center | Egypt

Ahmed Soliman Mohamed Mohamed El-Nuby, an Associate Professor at the Desert Research Center (DRC) in Cairo, Egypt, specializes in Nematology with a focus on plant pathology and sustainable agricultural management. With extensive experience in the isolation and identification of plant pathogens, including fungi, nematodes, and soil bacteria, Dr. El-Nuby has significantly contributed to advancements in agricultural research. His expertise extends to farm management, aquaculture consultancy, and the establishment of mushroom farms, demonstrating a multidisciplinary approach to agricultural challenges.

Profile

Scopus

Education

Dr. El-Nuby’s academic foundation is deeply rooted in plant pathology and nematology. He earned his Bachelor of Agricultural Sciences in Plant Pathology from Zagazig University in 1995, graduating with distinction. He pursued his Master of Sciences in 2003 at Cairo University’s Department of Zoology and Agricultural Nematology, focusing on the biodiversity and ecological management of plant-parasitic nematodes in citrus trees. In 2014, Dr. El-Nuby completed his PhD at Cairo University, where he investigated innovative resistance inducers against root-knot disease, integrating chemical, microbial, and growth regulator treatments.

Professional Experience

Dr. El-Nuby’s career spans over two decades, encompassing diverse roles in plant pathology and nematology. His Master’s research emphasized the use of organic materials and bioagents for nematode control, while his doctoral work explored resistance induction strategies in crops. Additionally, he has collaborated on numerous agricultural projects, including improving saline agriculture and optimizing nitrogen fertilizer use. Currently, as the head of a research program on microbial formulations to combat plant pathogens, Dr. El-Nuby leads initiatives that blend scientific innovation with practical agricultural solutions.

Research Interests

Dr. El-Nuby’s research interests include sustainable plant pathogen management, nematode biodiversity, and the development of microbial and nanoscale technologies for agricultural applications. His work on biosynthesized nanoparticles, resistance inducers, and nematicidal plant extracts underscores his commitment to eco-friendly pest control methods. Furthermore, he is actively involved in exploring phytochemical solutions and integrating traditional practices with cutting-edge science to enhance crop resilience and productivity.

Awards and Recognitions

Dr. El-Nuby has been recognized for his contributions to agricultural science with multiple nominations and accolades. His innovative research on microbial and nanoscale solutions for nematode control has garnered international attention, establishing him as a thought leader in sustainable plant pathology.

Selected Publications

  1. Evaluation of Microbially Synthesized Iron Nanoparticles Against Root-Gall NematodeArchives of Phytopathology and Plant Protection, 2025.
    • This study explores the effectiveness of iron nanoparticles in controlling nematodes, highlighting their potential as eco-friendly pest control agents.
    • Cited by: 20 articles.
  2. Susceptibility of Sugar Beet Genotypes to Root-Knot NematodeEgyptian Journal of Agronematology, 2024.
    • Investigates sugar beet genotypes’ resistance to nematodes, contributing to the breeding of resilient crops.
    • Cited by: 15 articles.
  3. First Report of Asphodelus microcarpus as a New Host for Stunt NematodeEgyptian Journal of Agronematology, 2023.
    • Documents a novel host-pathogen relationship, enriching knowledge on nematode ecology.
    • Cited by: 10 articles.
  4. Effect of Biosynthesized Nanoselenium on Controlling Tomato Root-Knot NematodeAgronomy, 2023.
    • Evaluates the potential of nanoselenium for integrated pest management.
    • Cited by: 25 articles.
  5. Phytochemical and Nematicidal Screening of Egyptian Moringa Oleifera ExtractsPakistan Journal of Phytopathology, 2022.
    • Explores plant extracts as natural nematode inhibitors.
    • Cited by: 18 articles.
  6. In Vitro Evaluation of Marine Algae Extracts Against Root-Knot NematodePakistan Journal of Phytopathology, 2021.
    • Highlights the role of marine resources in nematode management.
    • Cited by: 12 articles.
  7. Control of Root-Knot Nematodes Using Wild Plants from SinaiPakistan Journal of Nematology, 2020.
    • Demonstrates the utility of native plants in sustainable pest control.
    • Cited by: 22 articles.

Conclusion

Dr. Ahmed El-Nuby’s prolific career integrates academic rigor with practical applications, addressing pressing agricultural challenges through innovative research. His work in plant pathology and sustainable nematode management reflects a commitment to enhancing food security and environmental sustainability. As a mentor, researcher, and practitioner, Dr. El-Nuby continues to shape the future of agriculture, inspiring collaborations across disciplines and borders.

Pichad Khejornsart | Agricultural | Outstanding Scientist Award

Posted on by Academic achievements

Assist. Prof. Dr. Pichad Khejornsart | Agricultural | Outstanding Scientist Award

Researcher | Department of Agriculture and Natural Resources | Thailand

Dr. Pichad Khejornsart is an esteemed Associate Professor in Ruminant Nutrition at Kasetsart University, Thailand. He has dedicated his career to improving the efficiency of local beef and buffalo production and enhancing meat quality, with a strong emphasis on sustainable animal nutrition. His research aims to optimize ruminant nutrition to enhance animal performance while minimizing the environmental impact of livestock operations. His work addresses diverse aspects of animal health, digestion, and metabolic processes, particularly in ruminants like cattle and buffalo. Through his extensive experience in academia and practical research, Dr. Khejornsart has contributed significantly to advancing agricultural science in Thailand.

Profile

Scopus

Education

Dr. Khejornsart earned his Ph.D. in Ruminant Nutrition from Khon Kaen University, Thailand, where he studied under the guidance of Professor Dr. Metha Wanapat. He achieved a remarkable GPA of 3.93 during his doctoral studies (2005-2010). Prior to this, he completed his B.Sc. in Animal Science at the same institution with first-class honors, graduating in 2004 with a GPA of 3.62. His education equipped him with a solid foundation in animal science, focusing specifically on ruminant nutrition and the optimization of feeding strategies for farm animals.

Experience

Dr. Khejornsart has been a part of Kasetsart University since 2011, where he currently serves as an Associate Professor in the Department of Agro-Resources. Over the years, he has held several key positions, including the Head of the Animal Science Research Farm from 2012. He also served as the Director of the Tropical Feed Resources Research and Development Center at Khon Kaen University. His international experience includes a visiting research appointment at the University of Florida, USA, where he worked under the supervision of Associate Professor Dr. Adesogan T. Adebola. He has been involved in numerous research and extension activities aimed at improving animal productivity and health through better nutrition and feeding systems.

Research Interests

Dr. Khejornsart’s research primarily focuses on rumen fermentation, microbial populations, and the use of local feed resources in ruminant nutrition. His work explores the nutritional effects on energy balance, health, and reproduction in lactating dairy cattle. He is particularly interested in the manipulation of ruminal fermentation to enhance feed efficiency and reduce methane emissions. Another significant area of his research involves the use of biotechnology to improve animal production. His work also extends to studying the impacts of feeding management on milk composition, particularly in dairy cattle. His innovative approach to utilizing local, often underused feed resources is aimed at promoting sustainable livestock farming.

Awards

Dr. Khejornsart has earned recognition for his outstanding contributions to animal science and nutrition. Notable among his accolades is his selection as a finalist for the prestigious Kasetsart University Research Award in 2022, highlighting his leadership in advancing sustainable agricultural practices. His innovative research into improving the quality and nutritional value of feed for livestock has made him a respected figure in the academic and agricultural communities.

Publications

Dr. Khejornsart has published a number of impactful research papers in leading journals related to animal science and nutrition. Below are a few of his significant publications:

  1. Wanapat, M., P. Khejornsart, P. Parkdee, and S. Wanapat. (2008). Effect of supplementation of garlic powder on rumen ecology and digestibility of nutrients in ruminants. J Sci Food Agric, 88(13), 2231-2237.
  2. Khejornsart, P. and M. Wanapat. (2010). Diversity of rumen anaerobic fungi and methanogenic archaea in swamp buffalo influenced by various diets. J Anim Vet Adv, 9(24), 3062-3069.
  3. Khejornsart, P. and M. Wanapat. (2011). Effect of various chemical-treated rice straw on rumen fermentation characteristics using in vitro gas production technique. Livestock Research for Rural Development, 23(1).
  4. Khejornsart, P., M. Wanapat, and P. Rowlinson. (2011). Diversity of anaerobic fungi and rumen fermentation characteristic in swamp buffalo and beef cattle fed on different diets. Livestock Science, 139(3), 230-236.
  5. Khejornsart, P., Anusorn Cherdthong, and Metha Wanapat. (2021). In vitro screening of plant materials to reduce ruminal protozoal population and mitigate ammonia and methane emissions. Fermentation, 7(3), 166.
  6. Khejornsart, P., Teerayut Jantanam, and Watcharawit Meenongyai. (2021). Effect of type of treated rice straw on ruminal fermentation characteristic and cellulolytic bacteria of swamp buffalo. Buffalo Bulletin, 40(4), 599-608.
  7. Gunun, P., Cherdthong, A., Khejornsart, P., Wanapat, M., et al. (2022). The effect of phytonutrients in Terminalia chebula on rumen fermentation efficiency, nitrogen utilization, and protozoal population in goats. Animals, 12(16).

These publications are well-regarded in the field of ruminant nutrition and have been widely cited for their contributions to improving livestock management and feed utilization.

Conclusion

Dr. Pichad Khejornsart’s academic and professional journey reflects his passion for advancing animal science, particularly in the area of ruminant nutrition. Through his extensive research, he has developed methods to improve the efficiency of feed utilization, enhance livestock productivity, and minimize the environmental impact of animal agriculture. His commitment to integrating sustainable practices with innovative feeding strategies continues to make a significant impact on the agricultural sector in Thailand and beyond. Dr. Khejornsart’s contributions to animal science are set to inspire future advancements in the field, particularly in sustainable livestock farming practices.