Shefali Boonerjee | Agriculture Economics | Best Researcher Award

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Dr Shefali Boonerjee | Agriculture Economics | Best Researcher Award

Principal Scientific Officer at  Bangladesh Tea Research Institute,  Bangladesh

Dr. Shefali Boonerjee is a Senior Scientific Officer at the Bangladesh Tea Research Institute (BTRI), specializing in plant tissue culture, molecular biology, and statistical interpretation of laboratory results. With over 20 years of research experience, she has made significant contributions to tea plant genetics, micropropagation, and clonal development. Dr. Boonerjee earned her Ph.D. in Plant Tissue Culture and Molecular Biology from the University of Dhaka, focusing on genetic diversity analysis and in vitro regeneration of tea clones. She has published extensively in peer-reviewed journals and actively participates in scientific training and collaborations. Her expertise includes Agrobacterium-mediated plant transformation, RAPD analysis, and hybridization techniques. In addition to her research, she has received international training in tea quality assurance and genetic resource conservation.

Profile:

🎓 Education:

  • Ph.D. in Plant Tissue Culture & Molecular Biology (2019) – University of Dhaka, Bangladesh
    Research: Genetic diversity & in vitro regeneration of tea (Camellia sinensis L.)
  • M.Sc. in Botany (1997) – University of Rajshahi, Bangladesh
    Focus: Micropropagation & somatic embryogenesis in onion (Allium cepa L.)
  • B.Sc. in Botany (1996) – University of Rajshahi, Bangladesh

🔬 Research & Expertise:

  • 20+ years of experience in plant tissue culture, molecular biology & statistical analysis
  • Specialized in tea plant micropropagation, genetic diversity analysis, and breeding
  • Skilled in in vitro culture, Agrobacterium-mediated transformation, and RAPD analysis

👩‍🔬 Professional Experience:

  • Senior Scientific Officer (2015–Present), BTRI – Statistics & Economics Division
  • Scientific Officer (2005–2015), BTRI – Botany Division
  • Research Fellow (2004–2005), Bangladesh Council of Scientific & Industrial Research

📚 Notable Publications:

  • Co-authored several research papers on tea cultivation, micropropagation, and genetic diversity in reputed journals like Journal of Agriculture and Food Research and Plant Tissue Culture & Biotechnology.

🌍 International Training & Visits:

  • Tea Tasting & Quality Assurance – India 🇮🇳 (2015)
  • Tea Culture & Industry Development – China 🇨🇳 (2021)
  • Scientific Writing Training – Thailand 🇹🇭 (2014)

🛠️ Technical & Computer Skills:

  • Plant Tissue Culture: Media prep, micropropagation (tea, onion, orchid, potato)
  • Molecular Techniques: PCR, RAPD, DNA isolation
  • Software: MS Office, R Programming, BLAST

Publication Top Notes:

  • Analysis of Growth Trends in Area, Production, and Yield of Tea in Bangladesh
    JK Saha, KMM Adnan, SA Sarker, S Boonerjee
    Journal of Agriculture and Food Research, Vol. 4, 100136 (2021) – 32 citations
  • Genetic Diversity Analysis of Eighteen Tea (Camellia sinensis L.) Clones of Bangladesh Through RAPD
    S Boonerjee, MN Islam, MI Hoque, RH Sarker
    Plant Tissue Culture and Biotechnology, Vol. 23(2), pp. 189-199 (2013) – 14 citations
  • Endogenous Bacterial Contamination of Plant Tissue Culture Materials: Identification and Control Strategy
    M Ali, S Boonerjee, MN Islam, ML Saha, MI Hoque, RH Sarker
    Plant Tissue Culture and Biotechnology, Vol. 28(1), pp. 99-108 (2018) – 11 citations
  • Development of In Vitro Micropropagation System in Tea Plant (Camellia sinensis L.) Using Shoot Tip and Nodal Segment Explants
    S Boonerjee, MI Hoque, RH Sarker
    Tea Journal of Bangladesh, Vol. 42, pp. 21-30 (2013) – 5 citations
  • Genetic Diversity Analysis and Development of In Vitro Regeneration System in Selected Clones of Tea (Camellia sinensis L.) Plant
    S Boonerjee
    Ph.D. Thesis, University of Dhaka (2019) – 1 citation
  • In Vitro Clonal Propagation of Onion (Allium cepa L.) Through Shoot Tip Culture
    S Boonerjee, PK Sen, MF Alam, SMM Rahman
    Khulna University Studies, pp. 49-53 (2006) – 1 citation
  • Micropropagation of Onion (Allium cepa L.) Through Bulblet Formation
    S Boonerjee, PK Sen, MF Alam, SMM Rahman
    Khulna University Studies, pp. 55-58 (2006) – 1 citation
  • Consumption and Export Potential of Tea in Bangladesh: A Field Study
    S Boonerjee, MA Islam, SM Islam, SK Paul, MT Uddin, MS Alamgir
    Shah, Consumption and Export Potential of Tea in Bangladesh: A Field Study

 

Shiv Kumar Shivandu | Horticulture | Best Researcher Award

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Dr. Shiv Kumar Shivandu | Horticulture | Best Researcher Award

Young Professional at Indian Agricultural Research Institute India

Shiv Kumar Shivandu is a dedicated PhD scholar at the ICAR-Indian Agriculture Research Institute, specializing in sustainable horticulture practices. His research focuses on plant growth regulators, micronutrient management, and climate-resilient fruit production, with notable work on enhancing flowering, fruit quality, and yield in litchi under sub-tropical conditions. Shiv’s prior studies also include optimizing pre-sowing treatments and grafting techniques in mango. His innovative approach integrates AI, IoT, and green technologies to improve agricultural practices, demonstrating a strong commitment to sustainability. Shiv has published extensively in peer-reviewed journals, addressing key areas such as crop regulation and precision agriculture. He is an active member of professional organizations like Krishi Kumbh and AAISA and has contributed to projects like the updation of People Biodiversity Registers in Himachal Pradesh. Despite the promising impact of his work, Shiv’s research profile could benefit from increased industry collaborations and a broader publication record.

Professional Profile 

Google Scholar
ORCID Profile 

Education:

Shiv Kumar Shivandu is currently pursuing a Ph.D. in Fruit Science at the prestigious ICAR-Indian Agricultural Research Institute, specializing in sustainable horticulture practices. His academic journey is marked by a deep focus on plant growth regulators, micronutrient management, and climate-resilient fruit production. As a Ph.D. scholar, Shiv has dedicated significant effort to understanding the impact of various agricultural practices on fruit quality and yield, particularly in litchi cultivation under sub-tropical conditions. He has also conducted research on optimizing pre-sowing treatments and grafting techniques in mango. Shiv’s academic background is complemented by his active involvement in reviewing scientific manuscripts for reputed journals, showcasing his scholarly contribution to the field. His research endeavors reflect a commitment to advancing sustainable agricultural practices and integrating cutting-edge technologies like AI and IoT into agriculture. Through his academic achievements, Shiv Kumar Shivandu has positioned himself as a promising young researcher in the field of fruit science.

Professional Experience:

Shiv Kumar Shivandu is a dedicated PhD scholar in the Department of Fruit Science at ICAR-Indian Agricultural Research Institute, specializing in sustainable horticulture practices. With a strong academic foundation, his research focuses on enhancing fruit production through innovative techniques such as the application of plant growth regulators and micronutrient management. Shiv’s work on improving flowering, fruit quality, and yield in litchi, especially under sub-tropical conditions, has been instrumental in advancing horticultural practices. He has also explored optimizing pre-sowing treatments and grafting techniques in mango, further demonstrating his expertise in fruit science. Beyond research, Shiv has contributed to projects like the updation of People Biodiversity Registers in Himachal Pradesh and has reviewed scientific manuscripts for reputed journals. His involvement in integrating AI, IoT, and green technologies into agriculture reflects his commitment to innovation and sustainability, positioning him as a promising researcher in the field of sustainable agriculture.

Research Interest:

Shiv Kumar Shivandu’s research interests are centered around sustainable horticultural practices, with a focus on enhancing fruit production under climate-resilient conditions. His primary area of expertise lies in the application of plant growth regulators and micronutrient management to improve growth, flowering, fruit quality, and yield in crops such as litchi. Shiv’s work also explores innovative techniques like pre-sowing treatments and grafting methods to optimize fruit production, particularly in mango cultivation. Additionally, his research integrates cutting-edge technologies such as Artificial Intelligence (AI) and the Internet of Things (IoT) to promote precision agriculture and sustainable farming practices. By leveraging green technologies, Shiv aims to address challenges in climate change, resource management, and crop productivity. His work contributes to the development of strategies that ensure long-term agricultural sustainability while improving the quality and yield of horticultural crops, ultimately benefiting both farmers and the environment.

Award and Honor:

Shiv Kumar Shivandu has demonstrated exceptional dedication and innovation in the field of sustainable horticulture, earning recognition for his significant contributions to fruit science. As a PhD scholar specializing in plant growth regulators, micronutrient management, and climate-resilient fruit production, Shiv’s research has focused on enhancing fruit quality and yield in crops like litchi and mango. His work on integrating AI, IoT, and green technologies in agriculture reflects his commitment to advancing sustainability and precision agriculture. Shiv has authored several publications in peer-reviewed journals, contributing valuable insights to the field. Additionally, he has actively participated in projects such as updating the People Biodiversity Registers in Himachal Pradesh. His expertise and research have positioned him as a promising young professional in agricultural science. Shiv Kumar Shivandu’s dedication to innovation, sustainability, and scientific advancement has earned him recognition and respect within the academic community, making him a notable figure in the field of agricultural research.

Conclusion:

Shiv Kumar Shivandu is a promising young researcher with a strong focus on sustainable horticulture, particularly in the areas of plant growth regulators, micronutrient management, and climate-resilient fruit production. His research on enhancing flowering, fruit quality, and yield in litchi, along with his work on optimizing grafting techniques in mango, demonstrates his dedication to improving agricultural practices. His contributions to integrating AI, IoT, and green technologies into agriculture further highlight his innovative approach. While his research output is commendable, expanding his involvement in consultancy projects, increasing collaborations with other institutions, and further enhancing his publication and patent portfolio would strengthen his profile. Nevertheless, Shiv’s work has significant potential to advance sustainable agricultural practices, and his commitment to innovation makes him a strong candidate for the Best Researcher Award. His contributions are impactful, and with continued growth in his professional journey, he is poised for even greater success in the field.

Publications Top Noted:

Title: Integrating artificial intelligence and Internet of Things (IoT) for enhanced crop monitoring and management in precision agriculture
Authors: Kushagra Sharma, Shiv Kumar Shivandu
Year: 2024

 

Run Gao | Forage silage | Best Researcher Award

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Assist. Prof. Dr  Run  Gao |  Forage silage |  Best Researcher Award

Research associate at  Shandong Academy of Agricultural Sciences ,  China

Run Gao is a Research Associate at the Shandong Academy of Agricultural Sciences. He earned his Ph.D. from China Agricultural University in 2021. His research primarily focuses on forage production and processing utilization, with a particular interest in the anaerobic fermentation of forage. Gao has made significant contributions to this field, including the discovery of the Monascus fungus, which is present in triticale silage and may promote fermentation during the grain-filling to milk-ripening stages. He has published three SCI papers as the first author and is actively involved in ongoing research projects related to forage fermentation.

Profile:

Academic and Professional Background:

Run Gao earned his Ph.D. from China Agricultural University in 2021. He is currently a research associate at the Shandong Academy of Agricultural Sciences, focusing on forage production and processing utilization. His work primarily involves the anaerobic fermentation of forage.

Research and Contributions:

Run Gao has made significant contributions to agricultural research, particularly in the area of forage fermentation. He discovered the fungus Monascus, which is present in triticale silage and may promote fermentation during the grain-filling to milk-ripening stages. He has published three SCI papers as the first author and is involved in ongoing research projects.

Research Areas:

  • Anaerobic fermentation of forage
  • Forage production and processing utilization

Citations:

  • Citations: 143
  • Cited Documents: 129
  • h-index: 8

Publication Top Notes:

  1. Effect of Harvest Maturity and Lactiplantibacillus plantarum Inoculant on Dynamics of Fermentation Characteristics and Bacterial and Fungal Community of Triticale Silage
    Agriculture (Switzerland), 2024, 14(10), 1707.
  2. Transcriptomic analysis of ncRNAs and mRNAs interactions during drought stress in switchgrass
    Plant Science, 2024, 339, 111930.
  3. Genome-wide characterization of LBD transcription factors in switchgrass (Panicum virgatum L.) and the involvement of PvLBD12 in salt tolerance
    Plant Cell Reports, 2023, 42(4), pp. 735–748.
  4. Panicum virgatum improvement of coastal saline-alkali soil and its feeding values
    Pratacultural Science, 2023, 40(6), pp. 1551–1558.
  5. Membership function analysis for concentrate-to-forage ratio and ensiling time in total mixed ration fermentation
    Pratacultural Science, 2023, 40(10), pp. 2711–2720.
  6. Associative effects of ensiling mixtures of sweet sorghum and korshinsk pea shrub on fermentation quality, chemical composition, and in vitro rumen digestion characteristics
    Animal Science Journal, 2022, 93(1), e13700.
  7. Evaluation of Sweet Sorghum as a High-Quality Forage in Pasture-livestock Industry Development
    Chinese Journal of Grassland, 2021, 43(3), pp. 104–112.
  8. Effect of mixing alfalfa with whole-plant corn in different proportions on fermentation characteristics and bacterial community of silage
    Agriculture (Switzerland), 2021, 11(2), pp. 1–11, 174.
  9. Effects of replacing ensiled-alfalfa with fresh-alfalfa on dynamic fermentation characteristics, chemical compositions, and protein fractions in fermented total mixed ration with different additives
    Animals, 2021, 11(2), pp. 1–16, 572.
  10. Effects of applying lactic acid bacteria and molasses on the fermentation quality, protein fractions and in vitro digestibility of baled alfalfa silage
    Agronomy, 2021, 11(1), 91.

 

Ousmane Thiare | Smart agriculture | Best Researcher Award

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Prof. Dr Ousmane Thiare |  Smart agriculture |  Best Researcher Award

Gaston Berger University of Saint-Louis,  Senegal

Professor Ousmane Thiaré has a distinguished academic and professional career, primarily at Gaston Berger University (GBU) in Saint-Louis, Senegal, where he has contributed significantly to the fields of computer science and higher education. Thiaré joined GBU in 1994, later obtaining a PhD in Computer Science from CY Cergy Paris University in 2007. His career includes various academic roles at GBU, including Assistant, Assistant Professor, Senior Lecturer, and ultimately Full Professor in 2015, recognized as an Exceptional Class Professor in 2021.

 

Publication Profile

Current Positions:

  • General Manager at the National Cyber-Infrastructure for Higher Education, Research, and Innovation (CINERI), Ministry of Higher Education, Senegal (since June 2022).
  • Full Professor in Computer Science at Gaston Berger University (since April 2021).
  • Head of the RESOCC Research Team (Networks, Communicating Objects, and Cybersecurity) at GBU (since June 2024).
  • Full Member of the National Academy of Sciences and Techniques of Senegal (since December 2021).
  • Expert Evaluator for various international academic projects, including ARES (Belgium), ANR (France), and CAMES (Africa).

Past Leadership Roles:

  • Rector (Vice-Chancellor) of Gaston Berger University (May 2018 – March 2023), leading the university’s academic strategy and operational management.
  • Director of the African Centre of Excellence for Mathematics, Informatics, and ICT (ACE-MITIC), enhancing educational opportunities for youth in STEM (2017-2020).

Professor Thiaré’s extensive leadership experience is complemented by his contributions to digital infrastructure, cyberinfrastructure, and academic excellence at national and international levels, including serving as an advisor on higher education policies and cyber strategies.

Research and Expertise:

Professor Thiaré’s research spans several areas of computer science, including:

  • Distributed systems and resource management
  • Cloud computing and mobile ad hoc networks
  • Artificial intelligence and the Internet of Things (IoT)
  • Cybersecurity, wireless sensor networks, and computing grids

He is also involved in the European Research Project URBANE, focusing on One Health approaches in agroecology.

Notable Contributions:

  • Led the Scholars Program at GBU, securing significant funding to train 1,000 students by 2030 in digital fields, agriculture, health, and engineering.
  • Played a crucial role in CINERI, managing Senegal’s national supercomputing resources and improving digital services for education and research.
  • Supported the development of scientific infrastructure in Senegal and contributed to international collaborations in higher education and research.

Professor Thiaré’s vision continues to shape the future of higher education, digital transformation, and scientific collaboration across Africa and beyond.

Citations:

  • Total Citations: 806
  • Citations Since 2019: 660
  • h-index: 15 (total), 13 (since 2019)
  • i10-index: 26 (total), 17 (since 2019)

Publication Top Note:

  • Enabling Privacy and Security in Cloud of Things: Architecture, Applications, Security & Privacy Challenges
    Published in Applied Computing and Informatics, 2024 – 111 citations.
  • Flood Forecasting Based on an Artificial Neural Network Scheme
    Published in Natural Hazards, 2020 – 75 citations.
  • Resource Allocation Scheme for 5G C-RAN: A Swarm Intelligence Based Approach
    Published in Computer Networks, 2019 – 71 citations.
  • HGC: HyperGraph-Based Clustering Scheme for Power-Aware Wireless Sensor Networks
    Published in Future Generation Computer Systems, 2020 – 52 citations.
  • A Study on IoT Solutions for Preventing Cattle Rustling in the African Context
    Published in ICC, 2017 – 36 citations.
  • Low-Cost Antenna Technology for LPWAN IoT in Rural Applications
    Published in IEEE International Workshop on Advances in Sensors and Interfaces, 2017 – 33 citations.
  • Nature-Based One Health Approaches to Urban Agriculture Can Deliver Food and Nutrition Security
    Published in Frontiers in Nutrition, 2022 – 25 citations.
  • Outdoor Localization and Distance Estimation Based on Dynamic RSSI Measurements in LoRa Networks: Application to Cattle Rustling Prevention
    Published in International Conference on Wireless and Mobile Computing, 2019 – 21 citations.
  • A Comparative Study of Machine Learning and Deep Learning Methods for Flood Forecasting in the Far-North Region, Cameroon
    Published in Scientific African, 2024 – 18 citations.
  • Applications of Probiotic-Based Multi-Components to Human, Animal, and Ecosystem Health: Concepts, Methodologies, and Action Mechanisms
    Published in Microorganisms, 2022 – 18 citations.

 

Xincheng Li | Agricultural Engineering | Best Researcher Award

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Prof Xincheng Li |  Agricultural Engineering |  Best Researcher Award

Associate Professor at  College of Electrical and Mechanical Engineering,Qingdao Agricultural University, China

Xingcheng Li is a Research Assistant at the College of Electrical and Mechanical Engineering, Qingdao Agricultural University. His research focuses on agricultural information technology, sensor development, intelligent agricultural machinery control, and automation technology in livestock and poultry farming. He has published over 10 academic papers, secured 5 national invention patents, and led key research projects at both provincial and national levels. With experience in teaching and developing innovative solutions in agricultural engineering, Li contributes to advancing technological applications in agriculture.

 

Publication Profile

Academic and Professional Background:

Xingcheng Li is a Research Assistant at Qingdao Agricultural University, specializing in agricultural engineering and information technology. He has taught various courses at both undergraduate and graduate levels, including Principles and Applications of Sensors, Agricultural Sensing, and Operations Research. His primary research interests include agricultural information technology, sensor development, intelligent agricultural machinery control, and automation in livestock and poultry farming.

Research and Innovations:

Prof. Li has contributed significantly to the development of agricultural technologies. He has published over 10 research papers and secured 5 national invention patents. His ongoing research includes projects on livestock and poultry disease prevention, as well as participation in key national and provincial R&D programs. Notably, he has led the Shandong Province Agricultural Major Application Technology Innovation Project and the Natural Science Foundation of Shandong Province.

Research Areas:

  • Agricultural Engineering
  • Mechanical Engineering
  • Agricultural Machinery and Equipment Engineering
  • Agricultural Engineering and Information Technology

Publication Top Notes

  1. A seed-epidermis-feature-recognition-based lightweight peanut seed selection method for embedded systems
    Li, D., Huang, J., Li, X., Xu, P., Yun, Y.
    Measurement and Control (United Kingdom), 2024.
    This paper introduces a lightweight peanut seed selection method based on seed-epidermis feature recognition, suitable for embedded systems in agricultural automation.
  2. Optimization Design and Experiment of Automatic Leveling System for Orchard Operating Platform in Hilly and Mountainous Areas
    Shang, H., Li, X., Zhang, C., Hou, Y., Jia, M.
    INMATEH – Agricultural Engineering, 2024, 73(2), pp. 364–374.
    Focuses on optimizing the design and conducting experiments on an automatic leveling system for orchard platforms in challenging terrains.
  3. Domestic Conflicts and Trade Protectionism: Evidence from Tweets
    Kun, L., Xincheng, L., Ming, F.
    China Journal of Economics, 2022, 9(1), pp. 56–84.
    Analyzes the relationship between domestic conflicts and trade protectionism, based on Twitter data analysis.
  4. Grain Yield Data Collection and Service for Heterogeneous Platforms
    Zheng, L., Guo, X., Li, M., Chen, Y., Xiao, C.
    Nongye Gongcheng Xuebao/Transactions of the Chinese Society of Agricultural Engineering, 2016, 32(9), pp. 142–149.
    This work discusses systems for collecting and providing grain yield data across different agricultural platforms.
  5. Test and Optimization of Sampling Frequency for Yield Monitor System of Grain Combine Harvester
    Li, X., Li, M., Zheng, L., Wang, X., Sun, M.
    Nongye Jixie Xuebao/Transactions of the Chinese Society for Agricultural Machinery, 2015, 46, pp. 74–78.
    Examines the optimization of sampling frequency for a grain yield monitor in combine harvesters.
  6. Modeling Algorithm for Yield Monitor System of Grain Combine Harvester
    Li, X., Sun, M., Li, M., Zhang, M., Wang, X.
    Nongye Jixie Xuebao/Transactions of the Chinese Society for Agricultural Machinery, 2015, 46(7), pp. 91–96.
    Proposes a modeling algorithm for improving the yield monitor system of grain combine harvesters.
  7. Development and Denoising Test of Grain Combine with Remote Yield Monitoring System
    Li, X., Li, M., Wang, X., Sun, M., Sun, H.
    Nongye Gongcheng Xuebao/Transactions of the Chinese Society of Agricultural Engineering, 2014, 30(2), pp. 1–8.
    This paper focuses on the development and testing of a grain combine equipped with a remote yield monitoring system.
  8. Structure Design and Signal Processing of a New Grain Flow Sensor
    Li, X., Li, M., Zheng, L., Yang, W., Sun, H.
    American Society of Agricultural and Biological Engineers Annual International Meeting, ASABE 2014, pp. 4330–4336.
    Presents the design and signal processing methods for a new grain flow sensor.
  9. A Remote Monitoring System of Automatic Soil Sampler Based on ZigBee WSN
    Yang, W., Li, M., Zheng, L., Li, X., Zhang, M.
    American Society of Agricultural and Biological Engineers Annual International Meeting, ASABE 2013, pp. 4023–4028.
    Describes a remote monitoring system for an automatic soil sampler based on ZigBee wireless sensor networks (WSN).
  10. A Remote Operating System of Grain Yield Monitor
    Li, X., Li, M., Zheng, L., Yang, W., Zhang, M.
    American Society of Agricultural and Biological Engineers Annual International Meeting, ASABE 2013, pp. 4091–4096.
    Introduces a remote operating system for monitoring grain yield during harvesting.

 

Bashir Olaniyi Sadiq | Smart Agri Awards | Best Researcher Award

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Assoc Prof Dr. Bashir Olaniyi Sadiq | Smart Agri Awards | Best Researcher Award

Assoc Prof Dr. Bashir Olaniyi Sadiq, Kampala International University , Uganda

Assoc. Prof Dr. Bashir Olaniyi Sadiq currently serves as an Associate Professor and Director of ICT at Kampala International University, Uganda, starting in July 2024. He is also affiliated with the Department of Electrical, Telecommunication & Computer Engineering. His duties include conducting research using advanced equipment, curriculum review, and supervising students in fields like computer communications, IoT, image processing, and ad hoc networks. Additionally, he teaches both undergraduate and postgraduate students in various electrical and computer engineering courses.

Publication profile

Orcid

Academic Qualifications 

Dr. Bashir holds a PhD in Computer Engineering (2018) from Ahmadu Bello University Zaria, where he developed a routing protocol for light fidelity-based indoor flying ad hoc networks. He also holds a Master’s in Computer Engineering (2015) from the same university, where his thesis focused on improving edge detection algorithms using Particle Swarm Optimization. He earned his B. Eng in Electrical Engineering in 2011, with a project on TCP and UDP protocol service level analysis.

 

Professional Qualifications

Dr. Bashir has completed various certifications, including the ICT Application in Higher Education (2021) from the Ministry of Commerce, China, and the Huawei Certified Information Professional (HCIP) certification (2020) from Huawei Academy. Additionally, he has been recognized as a Huawei Certified Academy Instructor.

Awards

Dr. Bashir’s research contributions have been recognized with several awards, including the TETFUND Institution-based Research Grant (2019), where he was the Principal Researcher. He also received the Excellent Instructor Award from the Huawei ICT Academy in 2018 and the Petroleum Development Trust Fund (PTDF) Local PhD Scholarship Scheme in 2017.

Research Interests

His research interests include Computer Communications & Networks, Image Processing, Ad hoc Networks, and Computer Engineering Applications. His work focuses on developing and improving network protocols, edge detection algorithms, and integrating new technologies such as IoT into these systems.

Teaching Experience

Dr. Bashir has an extensive teaching portfolio, which includes courses like Advanced Data Analysis, Biomedical Signal and Image Processing, and Computational Modeling and Artificial Intelligence at Kampala International University. At Ahmadu Bello University Zaria, he taught a wide array of subjects, including Network Technology, Digital Signal Processing, and Operating Systems.

Honor Societies

He is a registered member of various prestigious engineering societies, including the Council for the Regulation of Engineers (COREN), the Institute of Electrical and Electronics Engineers (IEEE), the International Association of Engineers (IAENG), and the Nigerian Society of Engineers.

Publication Top Notes

  • High-tech herding: Exploring the use of IoT and UAV networks for improved health surveillance in dairy farm systems (2024) 🐄📡| DOI: 10.1016/j.sciaf.2024.e02266
  • Maximizing network capacity, control, and management in designing a telemedicine network: A review and recent challenges (2024) 🏥💻 | DOI: 10.4314/njt.v43i1.11
  • Performance Analysis of Various Image Feature Extractor Filters for Pothole Anomaly Classification (2024) 🚗🛤 | DOI: 10.5815/ijigsp.2024.01.03
  • Review of Error Correction in 2D Shingled Magnetic Detection (2023) 📀🛠 | DOI: 10.11113/elektrika.v22n3.265
  • A Comparative Analysis of Symmetric Cryptographic Algorithm as a Data Security Tool: A Survey (2023) 🔐🖥 | | DOI: 10.5281/ZENODO.8313097
  • Energy-aware Message Distribution Algorithm for Enhanced FANET Pipeline Surveillance Reliability (2023) 🛰💡  | DOI: 10.1016/j.sciaf.2023.e01660
  • FANET Experiment: Real-Time Surveillance Applications Connected to Image Processing System (2023) 📷🛸 | | DOI: 10.59568/kjset-2023-2-1-02
  • Statistical LOS/NLOS Classification for UWB Channels (2023) 📡🔎 | Cited by: – | DOI: 10.59568/kjset-2023-2-1-05
  • An adaptive ant colony optimisation for improved lane detection in intelligent automobile vehicles (2022) 🚗🐜 | DOI: 10.1504/ijbic.2022.121225
  • SIFT-CNN Pipeline in Livestock Management: A Drone Image Stitching Algorithm (2022) 🚁🐄 | DOI: 10.3390/drones7010017

Conclusion

Dr. Bashir Olaniyi Sadiq’s extensive research experience, academic qualifications, professional certifications, and teaching expertise make him a strong candidate for the Research for Best Researcher Award. His contributions to computer engineering, particularly in network protocols and image processing, as well as his awards and leadership roles, highlight his excellence in research and academia.

 

 

Debesh Das | Plant Stress Physiology | Best Researcher Award

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Prof Dr Debesh Das |  Plant Stress Physiology |  Best Researcher Award

Professor at  Khulna University, Bangladesh

Dr. Debesh Das is a distinguished academic at Khulna University, Bangladesh, serving as a Professor in the Agrotechnology Discipline within the School of Life Science. He earned his Ph.D. in Plant Stress Physiology from the Asian Institute of Technology, Thailand, in 2022, and holds an M.S. in Crop Botany from Bangladesh Agricultural University, Mymensingh, completed in 2011, and a B.Sc. in Agriculture (Hons.) from Khulna University, Khulna, obtained in 2008. His research primarily focuses on plant stress physiology, with particular expertise in the effects of salt stress, water management, and the application of mycorrhizal fungi and seaweed extracts in crop production. Dr. Das has authored numerous publications in reputed journals, including Scientia Horticulturae and Journal of Plant Physiology. His notable works explore topics such as the impact of arbuscular mycorrhizal fungi on rice growth under water-deficit conditions and the effectiveness of salt stress alleviation strategies for bell peppers.

Profile:

📚 Education:

  • Ph.D. in Plant Stress Physiology
    Asian Institute of Technology, Thailand (2022)
    CGPA: 3.67/4.00
  • M.S. in Crop Botany
    Bangladesh Agricultural University, Mymensingh (2011)
    CGPA: 3.831/4.00
  • B.Sc. in Agriculture (Hons.)
    Khulna University, Khulna (2008)
    CGPA: 3.85/4.00
  • Higher Secondary Certificate
    Jashore (2002)
    First Division (75.9%)
  • Secondary School Certificate
    Jashore (2000)
    First Division (68%)

🌱 Plant Stress Physiology Research Focus:

  • Salt Stress Alleviation: Investigating the effects of seaweed extracts and arbuscular mycorrhizal fungi in reducing salt stress in crops like bell pepper and rice.
  • Water Deficit and Irrigation Management: Analyzing the impact of different irrigation strategies, including deficit irrigation and alternate wetting and drying, on plant growth, yield, and water productivity, particularly in rice and tomato.
  • Nutrient and Stress Interactions: Studying how the application of nutrients, such as phosphorus and silicon, in conjunction with mycorrhizal inoculation, affects the physiological traits and stress tolerance of plants under conditions of water deficit.
  • Rice and Traditional Landraces: Examining the growth, yield, and resilience of traditional rice landraces from coastal Bangladesh under salt stress, focusing on their adaptation mechanisms and productivity.
  • Morpho-Physiological Responses: Evaluating how different stress factors, including salt and water deficit, influence the morpho-physiological characteristics of crops like rice, and how these responses can be managed to enhance crop performance and sustainability.

Professor Das’s research aims to improve crop resilience and productivity by understanding and managing various stress factors, ultimately contributing to more sustainable agricultural practices.

📊 Citation Metrics

  • Total Citations: 119
  • Citations Since 2019: 116
  • h-index: 6
  • h-index Since 2019: 6
  • i10-index: 5
  • i10-index Since 2019: 5

Publication Top Notes:

  • “Growth, yield and water productivity of tomato as influenced by deficit irrigation water management”
    S. Mukherjee, P.K. Dash, D. Das, S. Das
    Environmental Processes 10 (1), 10 (2023)
    Citations: 22
  • “Interactive effect of silicon and mycorrhizal inoculation on growth, yield and water productivity of rice under water-deficit stress”
    D. Das, N.U. Basar, H. Ullah, K.R. Salin, A. Datta
    Journal of Plant Nutrition 44 (18), 2756-2769 (2021)
    Citations: 20
  • “Growth, yield and water productivity of rice as influenced by seed priming under alternate wetting and drying irrigation”
    D. Das, N.U. Basar, H. Ullah, A. Attia, K.R. Salin, A. Datta
    Archives of Agronomy and Soil Science 68 (11), 1515-1529 (2022)
    Citations: 18
  • “Effect of salinity (NaCl) on germination and seedling growth of mungbean (Vigna radiata L.)”
    S. Podder, J. Ray, D. Das, B.C. Sarker
    Journal of Bioscience and Agriculture Research 24 (2), 2012-2019 (2020)
    Citations: 16
  • “Morpho-physiological responses of tropical rice to potassium and silicon fertilization under water-deficit stress”
    D. Das, H. Ullah, R. Tisarum, S. Cha-um, A. Datta
    Journal of Soil Science and Plant Nutrition (2021)
    Citations: 14
  • “Arbuscular mycorrhizal fungi inoculation and phosphorus application improve growth, physiological traits, and grain yield of rice under alternate wetting and drying irrigation”
    D. Das, H. Ullah, S.K. Himanshu, R. Tisarum, S. Cha-Um, A. Datta
    Journal of Plant Physiology 278, 153829 (2022)
    Citations: 9
  • “Growth, grain yield, and water productivity of traditional rice landraces from coastal Bangladesh, as affected by salt stress”
    D. Adhikary, D. Das, M.Y. Ali, H. Ullah, A. Datta
    Journal of Crop Improvement 37 (1), 60-73 (2023)
    Citations: 4
  • “Seed germination and seedling growth of sunflower (Helianthus annuus L.) under salt stressed conditions”
    S.D. Roy, D. Das, M.E. Kabir
    Khulna University Studies 14, 39-47 (2017)
    Citations: 4
  • “Combined use of seaweed extract and arbuscular mycorrhizal fungi for alleviating salt stress in bell pepper (Capsicum annuum L.)”
    S.C. Pal, M.B. Hossain, D. Mallick, F. Bushra, S.M.R. Abdullah, P.K. Dash, D. Das
    Scientia Horticulturae 325, 112597 (2024)
    Citations: 3
  • “Efficacy of different management practices against tomato fruit borer, Helicoverpa armigera Hubner”
    M.M. Kamal, S. Das, M.H. Sabit, D. Das
    Bangladesh Journal of Agricultural Research (2019)
    Citations: 3
  • “Germination and seedling growth of indigenous Aman rice under salt stress”
    D. Das, M.A. Ali, T.A. Sarkar, M.Y. Ali
    Journal of the Bangladesh Agricultural University 15 (2), 182-187 (2017)
    Citations: 3
  • “Germination and seedling growth of indigenous Aman rice under NaCl salinity”
    P. Mondal, R.N. Remme, D. Das, Y. Ali, E. Kabir
    International Journal of Multidisciplinary Research and Development 2 (5), 251-257 (2015)
    Citations: 3

 

 

Monika Skowrońska | Agricultural | Best Researcher Award

Posted on by sciencefather

Assoc Prof Dr Monika Skowrońska |  Agricultural  |  Best Researcher Award

PhD, DSc, Assoc. Prof. at  Department of Agricultural and Environmental Chemistry, University of Life Sciences in Lublin, Poland

Dr. Monika Skowrońska is an accomplished academic and researcher specializing in agricultural and environmental chemistry. With over two decades of experience at the University of Life Sciences in Lublin, she has progressed from a Teaching and Research Assistant in 1997 to her current position as an Associate Professor, a role she has held since 2019.

 

Profile:

Education and Training:

2019: Doctor habilitatus (Post-doctoral Degree). 2009: Post-graduate studies in Management of research projects and development work, Catholic University of Lublin. 2003: Ph.D. in Agricultural Sciences, University of Life Sciences in Lublin. 1998: Post-graduate studies in Management and Marketing, Technical University of Lublin. 1997: M.Sc. in Environmental Protection, University of Life Sciences in Lublin

Professional Experience:

2024-present: Project Manager, Healthy Soil Chemistry (SOSoil), HuMUS project. 2023-present: Task Manager, REDUCOST, National Fund for Environmental Protection and Water Management. Various roles as an expert and project partner with entities like the European Green Deal, WWF, and the European Agricultural Fund for Rural Development.

Honours and Awards:

Multiple Rector’s Awards for organizational and scientific achievements. Scientific award for her book on soil acidification and liming. OECD Fellowship and the prestigious Dr. and Mrs. A. S. Dekaban Foundation Scholarship

Agricultural Research Focus:

Dr. Monika Skowrońska is an expert in agricultural and environmental chemistry, with a particular focus on sustainable agricultural practices, soil chemistry, and nutrient management. Her research spans various critical areas:

  1. Soil Chemistry and Health:
    • Soil Acidification and Liming: Dr. Skowrońska has conducted extensive research on soil acidification and its mitigation through liming, which earned her a scientific award in the Lublin region.
    • Healthy Soil Chemistry: Currently, she leads the “Healthy Soil – Healthy Soil Chemistry (SOSoil)” project, which is part of the broader HuMUS project aimed at promoting healthy municipal soils.
  2. Nutrient Management:
    • Carbon and Nitrogen Cycles: She has managed projects investigating the transformation processes of nitrogen and carbon in soil, focusing on the effects of organic waste and plant residue applications.
    • Fertilizer Development: Dr. Skowrońska has worked on developing environmentally friendly fertilizers, including technologies for producing potassium thiosulphate and multi-component fertilizers.
  3. Climate Change Mitigation:
    • Adaptation Practices: As an expert for the World Wildlife Fund (WWF), she has analyzed the economic and environmental value of adaptation and mitigation practices to address climate change.
    • Climate Care Cattle Farming System: She contributed to the CCCFarming project, which integrates climate-friendly practices in cattle farming.
  4. Pollution Reduction:
    • Air Pollution Emissions: Dr. Skowrońska is involved in the REDUCOST project, which assesses the potential for reducing air pollution emissions from agricultural practices, considering technical, financial, and social aspects.
  5. Sustainable Agriculture:
    • Low-Workload Systems: She has been a main contractor for projects developing low-workload and environment-friendly fertilization systems, particularly for crops like maize.
  6. International Collaboration:
    • Global Networks: Dr. Skowrońska is an active member of international networks and working groups, such as the Coalition of Action 4 Soil Health (CA4SH) and the European Compost Network, contributing to global efforts in sustainable agriculture and soil health.

Through her comprehensive research, Dr. Skowrońska aims to enhance sustainable agricultural practices, improve soil health, and mitigate the environmental impacts of farming, thus contributing significantly to the field of agricultural and environmental chemistry.

Citations:

  • Citations: 335 citations by 331 documents.
  • Publications: 22 documents.
  • h-index: 8 (indicating significant influence in her field).

Publication Top Notes:

  • The mineral fertilizer-dependent chemical parameters of soil acidification under field conditions
    • Authors: Tkaczyk, P., Mocek-Płóciniak, A., Skowrońska, M., Kuśmierz, S., Zawierucha, E.
    • Journal: Sustainability (Switzerland), 2020, 12(17), 7165
    • Citations: 20
    • Summary: This open-access article examines the effects of mineral fertilizers on soil acidification under field conditions. It provides insights into how different fertilizers impact soil chemistry and the long-term implications for soil health.
  • Hemp-based phytoaccumulation of heavy metals from municipal sewage sludge and phosphogypsum under field conditions
    • Authors: Zielonka, D., Szulc, W., Skowrońska, M., Rutkowska, B., Russel, S.
    • Journal: Agronomy, 2020, 10(6), 907
    • Citations: 13
    • Summary: This open-access study explores the use of hemp for the phytoaccumulation of heavy metals from municipal sewage sludge and phosphogypsum. The research highlights hemp’s potential for environmental remediation.
  • An integrated assessment of the long-term impact of municipal sewage sludge on the chemical and biological properties of soil
    • Authors: Skowrońska, M., Bielińska, E.J., Szymański, K., Antonkiewicz, J., Kołodziej, B.
    • Journal: Catena, 2020, 189, 104484
    • Citations: 52
    • Summary: This article provides an in-depth assessment of the long-term effects of municipal sewage sludge on soil properties. It discusses both chemical and biological changes in soil, offering valuable data for sustainable soil management practices.
  • Cultivar and foliar feeding of plants as factors determining the chemical composition of spelt (Triticum aestivum ssp. spelta L.) grain
    • Authors: Andruszczak, S., Kraska, P., Kwiecińska-Poppe, E., Skowrońska, M.
    • Journal: Applied Ecology and Environmental Research, 2020, 18(2), pp. 2949–2958
    • Citations: 1
    • Summary: This open-access study investigates how different cultivars and foliar feeding methods influence the chemical composition of spelt grain. It offers practical insights for improving crop quality and nutritional value.