Category: Biography

Sanjoy Kumar Bordolui, Agriculture, Young Innovators Award

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Dr. Sanjoy Kumar Bordolui: Assistant Professor (Stage-II) at Bidhan Chandra Krishi Viswavidyalaya, India

Title / Designation: Dr.

Name: Sanjoy Kumar Bordolui

Current Role / Designation: Assistant Professor (Stage-II)

Organization / Institution Details: Bidhan Chandra Krishi Viswavidyalaya

Country: India

Subject Track: Agriculture

Key Areas of Expertise: Seed Science and Technology

Award Category: Young Innovators Award

Article Title: Paclobutrazol-induced modulation of growth, anatomy, and antioxidant activity in groundnut under contrasting water regimes

Article Publication Link: https://link.springer.com/article/10.1007/s12892-025-00339-7

Dr. Sanjoy Kumar Bordolui (b. 05.07.1978) is an Assistant Professor (Stage-II) at the Department of Seed Science and Technology, Faculty of Agriculture, Bidhan Chandra Krishi Viswavidyalaya (BCKV), Mohanpur, West Bengal. With over two decades of professional experience in agriculture, he has contributed significantly to seed science, plant breeding, and germplasm conservation. He actively works to bridge academic research with practical agricultural solutions, helping farmers enhance crop productivity, seed quality, and sustainable farming practices.

Online Profile

Google Scholar Profile

Dr. Sanjoy Kumar Bordolui maintains an active online presence through ORCID, Google Scholar, ResearchGate, and LinkedIn, reflecting his extensive research contributions in seed science and technology. His Google Scholar profile records a total of 402 citations, with 349 citations since 2021, an h-index of 11 (10 since 2021), and an i10-index of 19 (15 since 2021), highlighting both the impact and continued relevance of his work. These platforms provide a comprehensive overview of his publications, collaborations, and scholarly influence in areas such as germplasm conservation, seed invigoration, hybridization, and seed storage and processing.

Education

He completed his formal education in agriculture at Bidhan Chandra Krishi Viswavidyalaya, Mohanpur, achieving top distinctions at every stage. He earned his B.Sc. (Ag.) Hons., M.Sc. (Ag.) in Seed Science and Technology, and Ph.D. in Seed Science and Technology, all in first-class grades. He qualified the NET in Seed Technology (ASRB, 2005), which reflects his foundational expertise. He has enhanced his skills through multiple national and international training programs covering modern seed technology, biotechnology, crop production, climate-resilient farming, and urban agriculture.

Research Focus

Dr. Bordolui’s research integrates classical plant breeding, biotechnology, and applied seed science. His core focus areas include germplasm conservation, seed invigoration techniques, hybridization, storage, and seed processing. He emphasizes improving seed quality, longevity, and seedling vigor under diverse environmental conditions. His work also explores the use of plant growth regulators, bio-stimulants, osmopriming, and nutri-priming to enhance crop productivity and ensure sustainable agriculture.

Experience

Since joining BCKV in 2014, Dr. Bordolui has held diverse academic, research, and administrative responsibilities. He has guided numerous Ph.D. and M.Sc. students, acted as an external examiner and evaluator across multiple universities, and participated in curriculum development. Beyond academics, he has contributed to sports and student welfare committees, organized athletic meets, served as Provost of student hostels, and played a pivotal role in faculty development and capacity-building programs. He also serves as editor and reviewer for multiple international and national journals in seed technology and agriculture.

Research Timeline & Activities

Over the years, Dr. Bordolui has conducted extensive research in participatory rice breeding, seed priming, seed quality enhancement, and the application of biostimulants for crop growth and stress management. He has been principal investigator or co-investigator in multiple funded projects by ICAR, BASF, ICARDA, and private organizations. He has organized international conferences, national seminars, and training programs, actively promoting knowledge exchange in seed science and sustainable agriculture. His research combines applied field experiments with laboratory investigations to address real-world agricultural challenges.

Awards & Honors

Dr. Bordolui has received multiple prestigious awards recognizing his contributions to agriculture and education. These include the Best Academician Award (2025), Fellow of CWSS (2021), Vigyan Ratna Samman (2024, UK), India Prime 100 Professors Award (2021), and CWSS Young Scientist Award (2016). He has also been recognized for innovative research, dedicated teaching, and high-impact publications. Additionally, he is a fellow of several scientific societies, including the Society of Tropical Agriculture, Society of Agricultural Research and Social Development, and the Society of Innovative Educationalist & Scientific Research Professionals.

Top Noted Publication

One of his highly cited and recent publications is: Samanta S. and Bordolui S. K. (2026). “Paclobutrazol-induced modulation of growth, anatomy, and antioxidant activity in groundnut under contrasting water regimes.” Journal of Crop Science and Biotechnology. DOI. This work highlights innovative approaches in plant physiology, demonstrating how growth regulators can improve crop resilience under varying environmental conditions. His research on seed priming, bio-stimulants, and germination optimization has also been influential in advancing seed technology practices.

  • Impact of Seed Priming with Ag-Nanoparticle and GA3 on Germination and Vigour in Green gram

    • Authors: A. Chakraborty, S.K. Bordolui

    • Journal: International Journal of Current Microbiology and Applied Sciences, 10(3)

    • Year: 2021

    • Citations: 25

  • Growth, yield attributes and yield of different cultivars of groundnut as affected by potassium application

    • Authors: P. Chandra, R.C. Samui, S.K. Bordolui

    • Journal: Journal of Crop and Weed, 2(1), 37-39

    • Year: 2006

    • Citations: 25

  • Inducement of Seed Priming with Potassium Nitrate on Quality Performance of Chickpea (Cicer arietinum L.)

    • Authors: A. Choudhury, S.K. Bordolui

    • Journal: Biological Forum – An International Journal, 14(4), 779-783

    • Year: 2022

    • Citations: 20

  • Effect of Seed Priming as Pre-Treatment Factors on Germination and Seedling Vigour of Tomato

    • Authors: J. Ray, S.K. Bordolui

    • Journal: International Journal of Plant & Soil Science, 34(20), 302-311

    • Year: 2022

    • Citations: 20

  • Seed Quality Deterioration of Tomato during Storage: Effect of Storing Containers and Condition

    • Authors: J. Ray, S.K. Bordolui

    • Journal: Biological Forum, 14(2), 327-334

    • Year: 2022

    • Citations: 20

 

Article Details

Title: Paclobutrazol-induced modulation of growth, anatomy, and antioxidant activity in groundnut under contrasting water regimes
Authors: Srijan Samanta & Sanjoy Kumar Bordolui
Journal: Journal of Crop Science and Biotechnology
Publication Date: 16 January 2026
Study Focus: Evaluated the effects of paclobutrazol (PBZ), a triazole-based growth regulator, on the drought tolerance of groundnut (Arachis hypogaea L.) cultivar TAG 24 under pot culture with varying water regimes. PBZ concentrations tested were 6, 10, 14, and 18 ppm, alongside an untreated control.

Novelty

The study introduced a comprehensive integration of morphological, anatomical, and biochemical analyses to assess PBZ-induced drought mitigation in groundnut. Unlike previous studies that focused on isolated physiological traits, this research combined root-to-shoot ratio, vascular anatomy, pigment retention, antioxidant enzyme activities, and osmolyte accumulation, providing a holistic understanding of crop adaptation to water stress. The use of specific PBZ concentrations (10–14 ppm) to optimize both growth and stress resilience is a novel approach for practical crop management.

Research Methodology

The experiment was conducted under controlled pot-culture conditions with contrasting water regimes. Plants were treated with four concentrations of PBZ (6, 10, 14, 18 ppm) plus an untreated control. Measurements included growth parameters, root-to-shoot ratio, foliar area, cortical thickness, xylem vessel width, pigment levels, antioxidant enzyme activity (SOD, POD), ROS scavenging potential (ABTS, FRAP), proline accumulation, and malondialdehyde (MDA) content. The study applied a multi-trait assessment framework to determine stress adaptation efficiency.

Key Findings

  • Moderate PBZ application (10–14 ppm) enhanced root-to-shoot ratio and reduced foliar area, promoting better water-use efficiency.

  • Cellular structure improvements, including thicker cortex and wider xylem vessels, indicated enhanced vascular conductance.

  • Photosynthetic pigment levels were maintained under water stress, supporting sustained growth.

  • Antioxidant enzyme activity and ROS scavenging potential increased, while MDA levels decreased, showing reduced oxidative damage.

  • Proline accumulation improved osmotic regulation, reflecting adaptive stress responses.

Impact

This research provides actionable insights for drought management in groundnut cultivation, demonstrating how PBZ can be strategically used to improve growth, physiology, and stress resilience. It bridges basic plant science and practical agronomy, offering farmers and researchers a scalable approach to mitigate water scarcity effects. The findings have implications for crop management, seedling quality, and yield improvement under climate stress conditions.

Future Directions

The study opens avenues for further research on field-scale applications of PBZ, combination with other growth regulators or bio-stimulants, and exploration in other legume crops. Long-term trials could evaluate yield enhancement, cost-effectiveness, and environmental safety of PBZ use in drought-prone regions.

Strengths of Dr. Sanjoy Kumar Bordolui for a “Young Innovators Award”:

1. Innovative Research in Seed Technology

Dr. Bordolui has developed novel approaches in seed priming, bio-stimulants, and growth regulators to improve germination, seed vigor, and crop resilience under stress. His 2026 work on paclobutrazol demonstrates integrated morphological, anatomical, and biochemical strategies to mitigate drought, reflecting cutting-edge research that bridges basic science and practical agriculture.

2. Strong Academic and Mentorship Record

With over two decades of experience, he has guided numerous Ph.D. and M.Sc. students, contributed to curriculum development, and served as an external examiner. His mentorship emphasizes innovation in experimental design, seed quality assessment, and sustainable agricultural practices, fostering the next generation of scientists.

3. High-Impact Publications and Research Visibility

Dr. Bordolui’s work is recognized internationally, with over 400 citations, an h-index of 11, and multiple influential publications in high-quality journals. Studies on green gram, chickpea, tomato, and groundnut reflect a focus on practical, high-impact agricultural solutions that address real-world challenges.

4. Successful Project Leadership and Collaboration

He has served as principal or co-investigator on projects funded by ICAR, BASF, ICARDA, and private organizations. He has organized national and international conferences, demonstrating leadership in research planning, collaborative problem-solving, and knowledge dissemination.

5. Contribution to Sustainable Agriculture and Societal Impact

Dr. Bordolui’s work improves seed quality, crop productivity, and stress tolerance, directly benefiting farmers and promoting climate-resilient agriculture. His efforts translate scientific innovations into actionable solutions for food security, highlighting the societal impact of his research.

Thejaswini K O, Medicine, Best Innovator Award

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Prof. Dr. Thejaswini K O: Professor & Head at Sri Siddhartha Academy of Higher Education, Sri Siddhartha Institute of Medical Sciences & Research Centre, Bengaluru Rural 562123 Karnataka, India

Title/Designation: Prof. Dr.
Name: Thejaswini K O
Current Role/Designation: Professor & Head
Organization/Institution: Sri Siddhartha Academy of Higher Education, Sri Siddhartha Institute of Medical Sciences & Research Centre, Bengaluru Rural 562123, Karnataka, India
Country: India
Subject Track: Medicine
Key Areas of Expertise: Applied Physiology, Diabetes, Medical Education
Award Category: Best Innovator Award

Article Title: Role of plasma Adiponectin in peripheral arterial disease (PAD) in type 2 diabetes mellitus
Article Publication Link: https://doi.org/10.1007/s13410-025-01608-5

Dr. Thejaswini K O is a distinguished academician, medical researcher, and education innovator with over 16 years of teaching experience, currently serving as Professor and Head of the Department of Physiology at Sri Siddhartha Institute of Medical Sciences & Research Centre, Bengaluru Rural, India. She is recognized for her visionary approach to medical education, combining competency-based learning, technology-enhanced teaching, and research-driven curriculum reforms. Known for her mentorship and leadership, she has successfully guided students and faculty in both clinical and educational research, fostering an environment of academic excellence and innovation.

Online Profile

ORCID Profile

Scopus Profile

Dr. Thejaswini K O is a recognized scholar and academic leader at Sri Siddhartha Academy of Higher Education, Tumkur, India. Her research contributions are indexed in Scopus (ID: 55552192500) and she maintains an active ORCID profile (0000-0002-5732-2823). To date, her work has been cited 33 times across 13 documents, reflecting her influence in medical physiology, diabetes research, and interdisciplinary applications. Her h-index of 4 underscores her growing impact in both clinical and medical education research. Dr. Thejaswini actively collaborates with national and international colleagues, bridging medical science with emerging technology and innovative education practices.

Education

She earned her MBBS from Al-Ameen Medical College, Bijapur (2002, RGUHS), followed by an MD in Physiology from M S Ramaiah Medical College, Bangalore (2009, RGUHS). Her MD dissertation focused on the association of Serum hs-CRP and Ankle-Brachial Index in type 2 diabetics and normal subjects, demonstrating her early interest in clinical research and translational physiology. She has also completed multiple advanced courses in medical education, including BCME, ACME, and CISP, reinforcing her expertise in modern teaching methods and curriculum design.

Research Focus

Dr. Thejaswini’s research spans clinical physiology, diabetes, hypertension, and medical education innovations. She is deeply invested in exploring translational research that bridges laboratory findings with clinical applications, alongside developing strategies for competency-based education. Her work includes integrating digital assessment tools, Early Clinical Exposure, AETCOM programs, and self-directed learning, aimed at improving student engagement, assessment accuracy, and measurable academic outcomes.

Experience

Her professional journey began as a PG Tutor at M S Ramaiah Medical College, progressing through roles as Assistant Professor, Associate Professor, and Professor, culminating in her current position as Professor & HOD. She has extensive experience in curriculum design, faculty development, student mentoring, and departmental leadership, including overseeing CBME implementation, institutional accreditation processes, and strategic academic planning. She has also served as Vice Dean for Academics and Student Affairs, College Council Member Secretary, NAAC Coordinator, and resource faculty for multiple MET workshops, demonstrating her multi-faceted leadership and administrative capabilities.

Research Timeline & Activities

Since 2006, Dr. Thejaswini has actively engaged in research and academic initiatives, presenting 14 research papers at state, national, and international forums, and publishing 22 peer-reviewed articles, including 13 in international journals. She contributed a book chapter on Big Data in Medical Analytics (IGI Global, 2023) and served as a reviewer for textbooks on physical examination and history taking. She has mentored numerous undergraduate and postgraduate research projects, participated in advanced courses in medical education, and led collaborative initiatives to implement evidence-based practices in medical teaching and learning.

Awards & Honors

Dr. Thejaswini has been recognized for her academic contributions and innovation in medical education, notably receiving a Letter of Commendation for her exemplary role in the Advanced Course in Medical Education (ACME, 2024A). Her achievements highlight her commitment to improving educational outcomes, integrating innovative teaching practices, and providing mentorship to the next generation of medical professionals. She is also acknowledged for her ability to navigate changing educational environments with adaptability and a solution-oriented approach.

Recent Publication

One of Dr. Thejaswini’s most impactful contributions is the book chapter “The Suggested Use of Big Data in Medical Analytics”, published in IGI Global (2023, pp. 275–280). This work showcases her ability to combine clinical research with emerging technological trends, emphasizing the potential of data analytics to transform medical practice and research. In addition, her numerous publications in indexed international and national journals demonstrate her sustained commitment to advancing knowledge in physiology, diabetes research, and medical education.

  • Role of plasma adiponectin in peripheral arterial disease (PAD) in type 2 diabetes mellitus, International Journal of Diabetes in Developing Countries, 2026-01-15, DOI: 10.1007/s13410-025-01608-5. This study investigates the link between plasma adiponectin levels and PAD in type 2 diabetic patients, highlighting its potential as a biomarker for cardiovascular risk management.

  • IoT and Supply Chain Management: Enhancing Efficiency and Security through Smart Technologies, Proceedings of the 7th International Conference on Computational Intelligence and Communication Technologies (CCICT 2025), DOI: 10.1109/CCICT65753.2025.00122. Dr. Thejaswini collaborated on exploring IoT applications for improving efficiency and security in supply chain systems, demonstrating interdisciplinary expertise bridging healthcare and technology.

  • Scope of Blockchain in Building a Decentralized Approach for Political Ecosystems, Proceedings of CCICT 2025, DOI: 10.1109/CCICT65753.2025.00047. This work addresses decentralized systems and their potential applications beyond healthcare, reflecting Dr. Thejaswini’s interest in innovative computational models.

  • The Impact of Electromagnetic and Optical Radiation on Physical and Biological Systems, Journal of Nano and Electronic Physics, 2025, DOI: 10.21272/jnep.17(4).04012. The publication explores interactions of electromagnetic and optical radiation with biological systems, emphasizing translational implications for biomedical research.

  • Innovations and Risks in Decentralized Finance (DeFi) for Blockchain-Based Healthcare Systems, Proceedings of the 4th International Conference on Technological Advancements in Computational Sciences (ICTACS 2024), DOI: 10.1109/ICTACS62700.2024.10841326. This research examines how blockchain and DeFi can revolutionize healthcare systems, highlighting Dr. Thejaswini’s interdisciplinary approach in integrating medical science with digital innovations.

Title: Role of plasma adiponectin in peripheral arterial disease (PAD) in type 2 diabetes mellitus

  • Authors: M. S. Roopakala, K. O. Thejaswini, Arun Kumar Mohan, K. M. Prasanna Kumar, P. Srinivas & Vivek Veeraiah

  • Journal: International Journal of Diabetes in Developing Countries

  • Publication Date: 15 January 2026

  • Type: Original research article

  • Study Design: Cross-sectional

Novelty of the Study

  1. Focus on adiponectin in diabetic PAD:

    • Although adiponectin has been widely studied in diabetes and cardiovascular disease, its specific role in PAD among T2DM patients is not well established.

  2. Use of ABI to define PAD:

    • ABI is a simple, non-invasive vascular assessment. This study correlates ABI with adiponectin and inflammatory markers, which is less commonly reported.

  3. Combination of renal, metabolic, and vascular markers:

    • Evaluating urine albumin, hs-CRP, and adiponectin together provides a more comprehensive assessment of vascular and renal microvascular health in T2DM.

  4. Correlation analysis within PAD subgroup:

    • The study identifies a negative correlation between adiponectin and urine albumin specifically in patients with low ABI, hinting at a renal microvascular protective role rather than macrovascular PAD effect.

Impact / Significance

  1. Clinical relevance:

    • Confirms that glycemic control (HbA1c) and systemic inflammation (hs-CRP) are more critical markers of PAD risk in T2DM than plasma adiponectin.

    • Highlights urine albumin as a potential early vascular risk marker that may interact with adiponectin.

  2. Scientific contribution:

    • Provides evidence that total plasma adiponectin may not be a reliable marker for PAD in T2DM.

    • Suggests future research should focus on adiponectin isoforms or other adipocytokines.

  3. Research directions:

    • Larger, longitudinal studies to track PAD progression.

    • Exploration of high-molecular-weight adiponectin in diabetic vascular complications.

    • Integration with inflammatory and oxidative stress markers to understand complex mechanisms.

Strengths for Best Innovator Award

Transformational Medical Education

Implemented Competency-Based Medical Education (CBME) with Early Clinical Exposure, AETCOM programs, self-directed learning, and digital assessments.

Enhances student engagement, clinical skills, and measurable learning outcomes.

Translational Clinical Research

Advanced studies on diabetes, peripheral arterial disease (PAD), and novel biomarkers (adiponectin, hs-CRP, urine albumin).

Bridges laboratory research with clinical applications for early risk detection and improved patient care.

Interdisciplinary Technology Integration

Applied Big Data analytics, IoT, blockchain, and DeFi in healthcare and medical education.

Demonstrates innovation at the intersection of medicine and emerging technologies.

Mentorship and Capacity Building

Guided numerous students and faculty in research, clinical projects, and educational reforms.

Cultivates a new generation of innovators and ensures sustainable academic growth.

Strategic Academic Leadership

Held roles including Professor & HOD, Vice Dean, NAAC Coordinator, leading curriculum reform, accreditation, and institutional planning.

Combines visionary leadership with actionable innovation, driving systemic impact.