Halit Karagoz | Agricultural | Research Excellence Award

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Assist. Prof. Dr. Halit Karagoz | Agricultural | Research Excellence Award

Ege University | Turkey

Dr. Halit Karagoz’s research portfolio reflects a comprehensive and multidisciplinary contribution to field crops science, with a strong emphasis on crop breeding, stress physiology, and sustainable agricultural practices. His work integrates classical and modern approaches in plant breeding, including cold tolerance screening, mutagenesis, polyploidy induction, genetic diversity analysis, and population structure assessment in cereals and medicinal–aromatic plants. A significant body of his research focuses on wheat, barley, triticale, and endemic oregano species, addressing agronomic performance, quality traits, and adaptation to abiotic stresses such as cold and drought. He has also made notable contributions to the application of plant growth–promoting rhizobacteria (PGPR) for improving plant growth, nutrient uptake, stress tolerance, and essential oil composition, thereby supporting environmentally friendly and sustainable production systems. His studies employ molecular, epigenetic, and agro-morphological tools to advance crop improvement and conservation of local genetic resources. The scientific impact of this work is reflected in an h-index of 7, with publications receiving citations across 146 citing documents and a documented corpus of 9 indexed research outputs, demonstrating recognized influence within the fields of crop science, plant genetics, and sustainable agriculture.

Citation Metrics (Scopus)

160
120
80
40
0

Citations
152

Documents
9

h-index
7

Citations

Documents

h-index


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Properties and Ornamental Significance of Prometheum sempervivoides (Fisch. ex Bieb.) H. Ohba Naturally Grown in Erzurum

– Journal of Agricultural Production, 2020

Influence of Plant Growth–Promoting Rhizobacteria on Growth, Nutrient Uptake, and Physiological Traits of Sugar Beet under Variable Irrigation Regimes

– ÇOMÜ Ziraat Fakültesi Dergisi, 2020

Effects of Indole Acetic Acid–Producing Bacteria and Hormonal Treatments on Essential Oil Composition of Satureja hortensis L.

– Frontiers in Environmental Microbiology, 2019

Genetic Diversity and Population Structure Analysis of Origanum rotundifolium L. Genotypes Using the SCoT Marker System

– Genetic Resources and Crop Evolution, 2026

Evaluation of Genetic Diversity in Wheat (Triticum aestivum) Genotypes for Cold Tolerance, Agronomic Performance, and Quality Traits

– Crop and Pasture Science

Melih Altay | Agricultural | Young Researcher Award

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Mr. Melih Altay | Agricultural | Young Researcher Award

Hacettepe University | Turkey

Melih Altay is a researcher in geomatics engineering with a strong specialization in photogrammetry, artificial intelligence, and remote sensing. His research is centered on integrating deep learning and machine learning methods with multi-source Earth observation data to address complex geospatial problems. He has developed and applied advanced AI-based segmentation, object detection, and classification approaches for analyzing optical and SAR satellite imagery, with particular emphasis on forest fire assessment, water surface detection, and agricultural land monitoring. His work contributes to improving the accuracy and automation of geospatial data extraction from high-resolution satellite platforms such as PlanetScope and Sentinel series. His research demonstrates strong interdisciplinary integration of GIS, remote sensing, and artificial intelligence, offering scalable solutions for environmental monitoring, land-use analysis, and spatial decision support. Through peer-reviewed conference publications, he has contributed comparative evaluations of deep learning architectures and innovative workflows that enhance geospatial analysis efficiency and reliability. Overall, his work reflects a forward-looking approach to geomatics engineering, emphasizing intelligent automation, high-resolution spatial analytics, and the practical application of AI technologies in Earth observation and digital twin systems.

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Phenology aware agricultural boundary extraction using segment anything model and planet scope imagery (zero shot learning approach)– Advances in Space Research

Wei Dong | Agricultural | Research Excellence Award

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Dr. Wei Dong | Agricultural | Research Excellence Award

Northwest Agriculture and Forestry University | China 

Dong Wei is an accomplished academic and researcher specializing in hydraulic machinery and hydrodynamics, with a strong record of scientific leadership and technical innovation. He serves as an Associate Professor and Doctoral Supervisor at Northwest A&F University and is actively engaged in national and professional service related to hydropower, pumping systems, and energy conversion equipment. His research contributions span fundamental theory, engineering applications, and standardization, reflecting both academic depth and practical relevance. He has led 20 competitive research and industry-supported projects at national, provincial, and enterprise levels, demonstrating sustained research capacity and management expertise. His scholarly output includes 53 research documents, with 60 published papers overall, of which 40 are indexed in SCI/EI databases and 10 are recognized as top-tier Q1 publications. His work has attracted significant academic attention, accumulating 443 citations across 364 citing documents, and he maintains an h-index of 12, indicating consistent research impact. In addition to publications, he holds 10 authorized patents, has edited or co-edited a specialized textbook, and has contributed to the formulation of two national technical standards, underscoring his role in advancing both scientific knowledge and engineering practice in the field of hydraulic and hydropower equipment.

Citation Metrics (Scopus)

600
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Citations
445

Documents
53

h-index
12

Citations

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h-index

View Scopus Profile


Research on Cavitation Energy Characteristics of a Mixed-Flow Pump Based on Entropy Production Theory and Multi-Resolution Dynamic Mode Decomposition (MRDMD)


– International Journal of Heat and Mass Transfer, 2026


Analysis of Transient Entropy Generation Loss Mechanisms under Variable-Speed Operating Conditions of a Pump-Turbine


– Transactions of the Chinese Society for Agricultural Machinery (Nongye Jixie Xuebao), 2025


Multi-Objective Optimization of Control Strategies for Variable-Speed Regulation in Pump Mode of Pump-Turbines


– Sustainable Energy Technologies and Assessments, 2025


Multiscale Pressure Fluctuation Characteristics and Vortex–Enthalpy Interaction in a Cavitating Mixed-Flow Pump


– Physics of Fluids, 2025


Optimization of Centrifugal Pump Performance and Excitation Force Using Machine Learning and Enhanced NSGA-III


– Engineering Applications of Artificial Intelligence, 2025

Madan Sharma | Agricultural | Editorial Board Member

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Prof. Dr. Madan Sharma | Agricultural | Editorial Board Member

Prof. Dr. Madan Sharma | Manipal University | India

Prof. Dr. Madan Sharma has established a significant scientific presence through impactful research spanning plant biotechnology, nanobiotechnology, medicinal plant conservation, and sustainable bioscience innovation. His scholarly influence is reflected in 757 citations from 717 citing documents, demonstrating broad recognition and applicability of his findings across diverse research communities. With a portfolio of 62 peer-reviewed documents, his work has advanced micropropagation techniques, optimized in vitro regeneration systems, explored endophytic fungal diversity, and contributed to the biosynthesis of eco-friendly nanoparticles with antimicrobial and therapeutic potential. His h-index of 14 underscores the consistent relevance and academic value of his contributions, which have shaped new directions in plant tissue culture, phytochemical enhancement, biogenic nanomaterial development, and bioresource conservation. Prof. Dr. Madan Sharma’s research further integrates molecular, biochemical and nanotechnological approaches to address challenges related to medicinal plant preservation, sustainable agricultural practices, and innovative biological solutions for health and environmental applications. His cumulative scientific output reflects a commitment to advancing knowledge that supports societal benefit, industry innovation, and the progressive development of biosciences through interdisciplinary and forward-looking research.

Profile: Scopus

Featured Publications

zhanming tan | Agricultural | Editorial Board Member

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Prof. zhanming tan | Agricultural | Editorial Board Member

Prof. Zhanming Tan | Tarim University | China 

Zhanming Tan has established a strong academic footprint through impactful research contributions, reflected in an h-index of 6, a collection of 25 scholarly documents, and 139 citations across the literature. His work spans key areas of horticultural science, including stress physiology of greenhouse vegetables, optimization of soilless cultivation systems, water–fertilizer coupling strategies, and advanced substrate innovations tailored for efficient vegetable production. These contributions have strengthened scientific understanding and practical applications in controlled-environment agriculture, particularly in improving tomato and cucumber growth performance, enhancing quality traits, and refining cultivation models for challenging environments. His research further integrates modern analytical methods, including machine learning-based crop quality assessment and physiological evaluation under light, water, and nutrient variability. Beyond journal articles, Zhanming Tan has also produced monographs, textbooks, and patented technologies that support the development of innovative planting devices, fertilization systems, and substrate management tools. The cumulative impact of his documented output—demonstrated through publication volume, citation count, and h-index performance—highlights his commitment to advancing sustainable and high-efficiency facility agriculture. His work continues to offer scalable solutions that enhance crop productivity, resource-use efficiency, and horticultural resilience in modern agricultural systems.

Profile: Scopus

Featured Publications

Li, Y., Tan, Z., Liu, Y., Peng, Y., & Liu, C. (2025). Root-specific overexpression of the CmDUF239-1 gene enhances heat tolerance in melon seedlings by upregulating antioxidant enzymes activities, proline content, and expression of heat shock protein-related genes. Horticulturae.

 Liu, Y., Tan, Z., Meng, L., Li, Y., & Peng, Y. (2025). CmDUF239-1 improves the salt tolerance of grafted melon by enhancing antioxidant capacity and Na+/K+ homeostasis. Plants

Yousra Mukhtar | Agricultural | Best Researcher Award

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Dr.Yousra Mukhtar | Agricultural | Best Researcher Award

Dr. Yousra Mukhtar | Sher-e-Kashmir University of Agricultural Sciences and Technology | India

Dr. Yousra Mukhtar is a dedicated entomologist specializing in Integrated Pest and Pollinator Management (IPPM) and pollinator ecology, with significant expertise in insect biodiversity assessment and sustainable pest control strategies. Her research has documented 75 non-Apis bee species, including over 30 first records from the northwestern Himalayas of India, enriching knowledge on native pollinator diversity and ecosystem services. She has authored more than 30 peer-reviewed publications focusing on pest dynamics, pollinator behavior, and eco-friendly pest management approaches that enhance agroecosystem resilience. As a researcher and educator, she has contributed to advancing understanding of the interlinkages between pollination ecology and integrated pest management, promoting environmentally sustainable agricultural practices. Her scholarly contributions are recognized through 13 research documents, 19 citations, and an h-index of 2, reflecting her growing academic impact. Beyond research, she has actively engaged in scientific communities through leadership roles, conference presentations, and peer-review activities for reputed international journals. Dr. Mukhtar’s work exemplifies a strong commitment to pollinator conservation, biodiversity monitoring, and the development of sustainable IPM strategies that align with global goals for agricultural sustainability and environmental stewardship.

Profiles: Scopus  | Orcid

Featured Publications

Mukhtar, Y., & Shankar, U. (2025). Pest management practices impact Helicoverpa armigera infestation and foraging behaviour of pollinators in sunflower. International Journal of Pest Management.

Mukhtar, Y., & Shankar, U. (2025). Expanding Megachile diversity: First record of nine Megachile species (Hymenoptera: Megachilidae) from Jammu, India and the broader North-Western Himalayas. Oriental Insects.

Mukhtar, Y., & Shankar, U. (2025). Non-Apis bee diversity in Jammu, India, with first records from the region and the northwestern Himalayas. National Academy Science Letters.

Mukhtar, Y., & Shankar, U. (2024). Harmonizing pest control and beneficial organism conservation in sunflower ecosystems through integrated pest management. Journal of Plant Diseases and Protection.

Anis Bensadi | Agriculture | Best Researcher Award

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Assoc. Prof. Dr. Anis Bensadi | Agriculture | Best Researcher Award

Assoc. Prof. Dr. Anis Bensadi | Shenzhen Technology University | China

Dr. Anis Bensadi is an accomplished academic and researcher in Economics and Finance, currently serving as Associate Professor at Shenzhen Technology University, China. His scholarly work integrates risk management, investment banking, and sustainable finance, with a strong emphasis on the intersection of digital transformation and energy transition. His research explores innovative financial models that promote renewable energy integration and sustainability across global economies, including studies on the China-Pakistan Economic Corridor, e-governance, and green financing for agricultural development in BRICS nations. With extensive experience in academia and the banking sector, he has contributed to advancing financial risk assessment frameworks and sustainable investment strategies. His research has been featured in reputed journals such as Nature Scientific Reports and Energy Policy. Actively engaged in international academic collaboration, he has presented at leading conferences on green and sustainable finance in Hong Kong, Sydney, Macau, and Singapore. Through his teaching and professional engagements, he fosters critical understanding of economic policy, market risk, and sustainable development practices, bridging the gap between theory and financial innovation to support resilient, low-carbon economic systems.

Profiles:  Orcid | Google Scholar

Featured Publications

Bensadi, A. (2025, October 29). Subnational heterogeneity in climate-smart agriculture green finance and irrigation efficiency across seven African nations. Scientific Reports.

Bensadi, A., & Liu, Z. (2025, October 14). Assessing sustainable energy transition pathways in the Philippines: An integrated TAM-TOE-TPB approach. Asian Journal of Water, Environment and Pollution.

Bensadi, A. (2024, November 26). Assessing the impact of renewable energy integration on energy efficiency within the China-Pakistan Economic Corridor (CPEC). Scientific Reports.

Sandeep Bhatia | Soil Fertility | Sustainable Soil Practices Award

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Dr. Sandeep Bhatia | Soil Fertility | Sustainable Soil Practices Award

Dr. Sandeep Bhatia | Galgotias University | India

Dr. Sandeep Bhatia is an accomplished academician and researcher serving as an Associate Professor in the field of Computer Science and Engineering, with extensive expertise in the Internet of Things (IoT), Embedded Systems, Microcontrollers, Sensors, and AI/ML applications. His research primarily focuses on smart agriculture, IoT-driven automation, and embedded system design, integrating advanced sensor networks and intelligent computing techniques for sustainable development. With a prolific research portfolio of 45 published documents, 439 citations, and an h-index of 12, he has made significant contributions to the advancement of IoT-based intelligent systems. Dr. Bhatia has authored multiple books, book chapters, and presented papers in reputed international and national conferences, along with several patents in innovative embedded solutions. He has developed a MOOC course titled Microcontroller and Embedded Systems Design, broadcasted through digital learning platforms to enhance student accessibility and engagement. As a reviewer and organizer of conferences, workshops, and FDPs, he actively promotes academic collaboration and technological innovation. His professional achievements reflect a commitment to bridging research, teaching, and real-world applications in IoT and embedded system domains, fostering next-generation solutions for digital and sustainable transformation.

Profiles:  Scopus | Orcid

Featured Publications

Bhatia, S., Ashraf, G., Naib, B. B., & Gautam, D. (2024). An intelligent credit card fraud detection using a classification algorithm. In Innovations in Data Analytics: Selected Papers of ICIDA (Lecture Notes in Networks and Systems, Vol. 972).

Bhatia, S., Mallikarjun, B., Goel, N., Dandeva, D., Sharma, N., & Naib, B. B. (2024). Detection of posture using MS-IoT-based solution to provide timely treatment. In Identifying, Treating, and Preventing Childhood Trauma in Rural Communities. IGI Global.

Bhatia, S., Naib, B. B., Goel, N., Agarwal, B., Mallikarjun, B., & Arvindhan, M. (2024, February). A new era in weather forecasting: Harnessing the potential of machine learning. In 2024 IEEE International Conference on Computing, Power and Communication Technologies (IC2PCT). IEEE.

Bhatia, S., Bhadauria, R. V. S., Mehrotra, K., Malik, J., Goel, A. K., & Naib, B. B. (2023). A comparative analysis and design criteria of MAC, SMAC, and TMAC protocols in wireless sensor network. In Proceedings of the 14th International Conference on Computing Communication and Networking Technologies (ICCCNT 2023). IEEE.

Bhatia, S., Goel, N., Ahlawat, V., Naib, B. B., & Singh, K. (2023). A comprehensive review of IoT reliability and its measures. In Resource Management and Efficiency in Cloud Computing Environments. IGI Global.

Bhatia, S., Mallikarjun, B., Naib, B. B., & Goel, A. K. (2023). Algo-indicator based trading in stock market. In Proceedings of the 4th International Conference on Smart Electronics and Communication (ICOSEC 2023). IEEE.

Bhatia, S., Gautam, D., Kumar, S., & Verma, S. (2023). Automatic seat identification system in smart transport using IoT and image processing. In Proceedings of the 3rd International Conference on Intelligent Communication and Computational Techniques (ICCT 2023). IEEE.

Bhatia, S., Naib, B. B., & Ashraf, G. (2023). Credit card fraud detection using classification algorithm. TechRxiv.

Bhatia, S., Jaffery, Z. A., & Mehfuz, S. (2023). Development and analysis of IoT-based smart agriculture system for heterogeneous nodes. In 2023 International Conference on Recent Advances in Electrical, Electronics and Digital Healthcare Technologies (REEDCON 2023). IEEE.

Bhatia, S. (2023). Development of IoT enabled framework for LPG gas leakage detection and weight monitoring system. IEEE Conference Publication.

Fariya Abubakari | Soil Fertility | Excellence in Innovation

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Dr. Fariya Abubakari | Soil Fertility | Excellence in Innovation

Dr. Fariya Abubakari | Murdoch University | Australia

Fariya Abubakari is an accomplished agricultural scientist whose research focuses on soil fertility, nutrient dynamics, and sustainable agricultural production. Her PhD research at Murdoch University explores potassium leaching and availability in sandy soils of southwest Western Australia, with significant emphasis on soil pH influence, nutrient release kinetics, and predictive modeling using Hydrus 1D. She has also contributed to projects such as N2Africa and OFRA, enhancing nitrogen fixation in smallholder systems and optimizing fertilizer use across African savannah zones. Her publications address critical agricultural issues including soil acidity, climate change impacts, and food security. In addition to academic research, she has peer-reviewed papers for several international journals and delivered presentations at major global soil and climate conferences. Her interdisciplinary work integrates environmental sustainability, soil management, and technology-driven solutions for enhancing crop productivity. Through her involvement in organizations like End Ecocide Ghana and Global Call for Climate Actions, she has advocated for climate resilience, renewable energy, and ecosystem protection. Her research, outreach, and global engagement reflect a strong commitment to advancing soil science and contributing to sustainable food systems in both African and Australian agricultural landscapes.

Profile:  Google Scholar

Featured Publications

Abubakari, F., & Abubakari, F. (2015). Determinants of household food security and climate change impacts on agriculture in Ghana. Academic Research Journal of Agricultural Science and Research, 3(7), 178–183.

Abubakari, F., Tetteh, F. M., Abubakari, F., Tuffour, H. O., & Aduwu, A. (2016). Strategies for improving nodulation and nitrogen fixation of leguminous crops to enhance production in smallholder farming systems. Journal of Global Agriculture and Ecology, 4(4), 185–190.

Abubakari, F., & Abubakari, F. (2015). Effects of climate changing on food crop production system in Ghana. Academic Research Journal of Agricultural Science and Research, 3(4), 76–79.

Abubakari, F., & Abubakari, F. (2014). Analysis of production and marketing constraints of tomato among rural farmers in Talensi Nabdam District of Upper East Region of Ghana. IJASRT in EESs, 4(1).

Abubakari, F., & Abubakari, F. (2015). Effects of fertilizer subsidy on the yield of crops among rural farmers in Sudan Savannah and Guinea Savannah zones of Ghana. Academic Research Journal of Agricultural Science and Research, 3(4), 80–85.

Abubakari, F., & Abubakari, F. (2014). Effects of awareness of fertilizer subsidy on the yield of crops among rural farmers in Ghana. [Unpublished manuscript].

Abubakari, F., & Abubakari, F. (2015). Farmers’ perception on soil erosion problems and conservation methods among rural farmers in Talensi-Nabdam districts of Upper East Region of Ghana. Academic Research Journal of Agricultural Science and Research (Forthcoming).

Upma Bhatt | Agricultural | Young Scientist Award

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Dr. Upma Bhatt | Agricultural | Young Scientist Award

Upma Bhatt | Case Western Reserve University | India

Dr. Upma Bhatt is a dedicated Postdoctoral Research Fellow in Plant Physiology and Stress Biology at IIT Delhi under the DBT-RA program, recognized for her outstanding contributions to abiotic stress research, chlorophyll fluorescence analysis, and desiccation tolerance mechanisms in plants. With a strong academic foundation culminating in a Ph.D. in Botany from Mohanlal Sukhadia University (MLSU), Udaipur, she has built an impressive research portfolio comprising 22 publications, 249 citations, and an h-index of 9, reflecting her growing influence in the field of plant science. Her expertise spans plant stress physiology under drought, salinity, and submergence conditions; photosynthetic efficiency analysis using advanced JIP-test and Triple JIP techniques; and developmental studies on embryo physiology and seed priming. Dr. Bhatt’s commitment to sustainable plant biotechnology and nanoparticle phytotoxicity studies further enhances the applied relevance of her work. She has been honored with several prestigious awards, including the Best Researcher and Young Scientist Awards, underscoring her excellence in innovative plant research. With a passion for developmental physiology and collaborative research, Dr. Bhatt continues to explore the intricate mechanisms underlying plant adaptation and resilience, contributing significantly to advancing stress biology and agricultural sustainability.

Profile:  Scopus

Featured Publications

Bhatt, U.,(2025). Veterinary medicines: An emerging threat to soil, water, and plants. Water, Air, and Soil Pollution.

Bhatt, U.,(2025). Impact of synthetic and herbal dyes on photosynthesis and ROS scavenging enzyme activities in Spirodela polyrhiza. Scientific Reports.