Adewale Michael Esan | Agricultural Biotechnology | Innovative Research Award

Published on by Biotechnology Scientist

Innovative Research Award

Adewale Michael Esan
Federal University of Health Sciences, Ila Orangun,Nigeria
Adewale Michael Esan
Affiliation Federal University of Health Sciences, Ila Orangun
Country Nigeria
Google Scholar ID H7AIgh0AAAAJ
Documents 32
Citations 357
h-index 8
Subject Area Agricultural Biotechnology
Event Biotechnology Scientist Awards
ORCID 0000-0002-7645-8427

Adewale Michael Esan is a Nigerian researcher and academic recognized for his contributions to agricultural biotechnology, plant physiology, crop stress physiology, and sustainable agricultural systems. His research portfolio focuses on the application of plant biotechnology, molecular biology, and eco-friendly biocontrol approaches to improve crop productivity and resilience under salinity and pathogen-induced stress conditions.[1] Through interdisciplinary studies involving plant growth regulators, plant growth-promoting rhizobacteria, and crop improvement technologies, Esan has contributed to advancing sustainable agricultural practices aimed at reducing dependency on synthetic agrochemicals.[2]

Abstract

The Innovative Research Award recognizes scholarly excellence in agricultural biotechnology and sustainable crop management. Adewale Michael Esan has developed a research portfolio centered on plant stress physiology, plant biotechnology, and environmentally sustainable agricultural interventions. His work investigates salinity stress tolerance, plant growth regulators, antioxidant metabolism, and microbial biocontrol systems in economically important crops including tomato, okra, and banana species.[3] His contributions integrate biochemical, molecular, and agronomic approaches aimed at improving food security and agricultural sustainability in developing regions.[4]

Keywords

  • Agricultural Biotechnology
  • Plant Physiology
  • Crop Stress Physiology
  • Plant Biotechnology
  • Salinity Stress
  • Biocontrol Remediation
  • Plant Growth Regulators
  • Rhizobacteria

Introduction

Agricultural biotechnology has emerged as an important scientific discipline for addressing global food security challenges, environmental sustainability, and crop resilience under changing climatic conditions. Research efforts directed toward salinity tolerance, soil fertility improvement, and environmentally safe agricultural interventions are increasingly relevant to developing agricultural systems.[5]

Adewale Michael Esan has contributed to this field through investigations into the biochemical and physiological mechanisms associated with crop stress adaptation. His research emphasizes the use of plant growth-promoting rhizobacteria, plant hormones, and molecular biotechnology approaches to enhance stress tolerance and improve crop yield under adverse environmental conditions.[6]

Research Profile

Esan has served in academic and research capacities associated with plant biochemistry and agricultural biotechnology. His scholarly activities include undergraduate and postgraduate teaching, project supervision, and scientific publishing within the fields of plant physiology and molecular biotechnology.[1]

His educational background includes a Doctor of Philosophy in Biochemistry from the University of Ibadan, complemented by postgraduate and undergraduate training in biochemistry and laboratory sciences.[7] He has also participated in international collaborations and visiting research programs involving the University of Manitoba and other global institutions.[8]

  • Research specialization in plant biotechnology and crop stress physiology.
  • Experience in salinity stress mitigation and sustainable agriculture research.
  • Participation in international research collaborations and fellowships.
  • Editorial and peer-review contributions in plant science journals.

Research Contributions

Esan’s research contributions focus on improving plant tolerance against abiotic and biotic stresses using biological and biochemical interventions. His studies involving salicylic acid, indole acetic acid, gibberellic acid, and beneficial rhizobacteria have demonstrated the potential of eco-friendly treatments in enhancing antioxidant activity, photosynthetic efficiency, and crop productivity under salinity stress conditions.[9]

His work also explores the role of plant growth-promoting rhizobacteria such as Pseudomonas fluorescence and Bacillus subtilis in sustainable agricultural systems. These investigations contribute to reducing dependency on synthetic chemicals while promoting environmentally responsible crop management strategies.[10]

Additional contributions include research on nutraceuticals, functional foods, and antioxidant-rich crop products, reflecting interdisciplinary engagement between agricultural biotechnology and nutritional biochemistry.[11]

Publications

Selected publications associated with Adewale Michael Esan include peer-reviewed journal articles addressing agricultural biotechnology, plant physiology, and stress biochemistry.[12]

  1. Identification of promising multi-targeting inhibitors of obesity from Vernonia amygdalina through computational analysis. Molecular Diversity. DOI:
  2. Comparative effects of gibberellic acid, salicylic acid and Bacillus subtilis on oxidative stress marker and antioxidant potential of Musa sapientum Linn. Archives of Phytopathology and Plant Protection. DOI:
  3. Comparative effects of indole acetic acid and salicylic acid on oxidative stress marker and antioxidant potential of okra (Abelmoschus esculentus) fruit under salinity stress. Scientia Horticulturae. DOI:
  4. Effect of plant growth-promoting rhizobacteria and gibberellic acid on salt stress tolerance in tomato genotypes. African Crop Science Journal. DOI:

Research Impact

Esan’s scholarly output includes publications in international journals related to plant science, agricultural biotechnology, food science, and stress physiology. His research profile indicates 32 indexed documents with more than 350 citations and an h-index of 8, reflecting measurable academic influence within his research domain.[1]

His participation in international fellowships and funded projects demonstrates recognition by scientific and academic organizations. These include TWAS-UNESCO Postdoctoral Fellowship Awards, ICGEB fellowships, ARUA-Carnegie support programs, and TETFund-supported initiatives.[13]

  • Research focused on environmentally sustainable agricultural biotechnology.
  • International collaborations with researchers in Canada and India.
  • Contributions to peer review and editorial activities in plant science journals.
  • Applications of biotechnology for crop resilience and food security.

Award Suitability

The Innovative Research Award recognizes researchers whose scientific activities demonstrate originality, interdisciplinary engagement, and societal relevance. Adewale Michael Esan’s research aligns with these objectives through his investigations into crop stress physiology, eco-friendly agricultural biotechnology, and plant-based biocontrol systems.[14]

His work contributes to the advancement of sustainable agricultural technologies aimed at improving crop productivity, environmental safety, and food system resilience. The integration of molecular biology, plant physiology, and microbial biotechnology in his studies supports the broader goals of agricultural sustainability and innovation.[15]

Conclusion

Adewale Michael Esan has established a research profile centered on sustainable agricultural biotechnology and plant stress management. Through studies involving plant growth regulators, rhizobacterial systems, and crop biochemical responses, he has contributed to the understanding of environmentally sustainable strategies for improving crop performance under stress conditions.[3] His scholarly publications, collaborative engagements, and international fellowships collectively support his recognition within the field of agricultural biotechnology.

References

  1. Elsevier. (n.d.). Scopus author details: Adewale Michael Esan.
  2. ORCID. (n.d.). Adewale Michael Esan professional profile and biography.
    https://orcid.org/0000-0002-7645-8427
  3. Esan, A. M. (2022). Comparative effects of gibberellic acid, salicylic acid and Bacillus subtilis on oxidative stress marker and antioxidant potential of Musa sapientum Linn.
    https://doi.org/10.1080/03235408.2022.2035549
  4. Esan, A. M. (2020). Effect of plant growth-promoting rhizobacteria and gibberellic acid on salt stress tolerance in tomato genotypes.
  5. Food and Agriculture Organization. (n.d.). Sustainable agricultural biotechnology and crop resilience.
  6. Esan, A. M. (2017). Comparative effects of indole acetic acid and salicylic acid on oxidative stress marker and antioxidant potential of okra fruit under salinity stress.
    https://doi.org/10.1016/j.scienta.2017.01.007
  7. University of Ibadan. (n.d.). Educational records and postgraduate research activities.
  8. University of Manitoba. (n.d.). Research collaboration and visiting scholar program.
  9. Esan, A. M. (2020). Comparative Effects of Indole Acetic Acid on Photosynthetic Pigments and Mineral Contents of Two Genotypes of Okra Under Salinity Stress.
    https://www.tandfonline.com/doi/full/10.1080/03235408.2022.2035549
  10. Esan, A. M. (2021). Ameliorative Effects of Pseudomonas fluorescence Strains on Growth and Antioxidant Potential of Okra Plant under Nematode Infection.
  11. Esan, A. M. (2016). The role of nutraceuticals, functional foods and value added food products in the prevention and treatment of chronic diseases.
  12. Google Scholar. (n.d.). Publication and citation profile of Adewale Michael Esan.
    https://scholar.google.com/citations?hl=en&user=H7AIgh0AAAAJ
  13. TWAS and ICGEB Fellowship Records. (n.d.). International fellowship and research support programs.
  14. Biotechnology Scientist Awards. (n.d.). Innovative Research Award criteria and recognition program.
  15. International agricultural biotechnology literature concerning sustainable crop productivity and salinity stress management.

Irfat Jan | Agricultural Biotechnology | Best Researcher Award

Published on by Biotechnology Scientist

Dr. Irfat Jan | Agricultural Biotechnology | Best Researcher Award

Post Doctoral Fellow | SKUAST Kashmir | India

Dr. Irfat Jan is a dedicated plant scientist currently serving as a Women Scientist under the WISE-Post Doctoral Fellowship (WISE-PDF), supported by the Department of Science and Technology, Government of India. Her primary domain lies within genetics and plant breeding, with a distinct focus on disease resistance and crop improvement in wheat. Through a series of prestigious fellowships and funded projects, she has accumulated extensive expertise in molecular breeding, bioinformatics, and advanced genomics. Her work is well recognized in both national and international academic platforms, where she has made significant contributions to wheat improvement programs through gene pyramiding and marker-assisted selection.

Profile

Orcid

Education

Dr. Irfat Jan has achieved notable academic milestones, beginning with a Bachelor of Science in Life Sciences from the University of Kashmir. She then pursued a Master’s degree in Biotechnology from Chaudhary Charan Singh University (CCSU), Meerut, graduating. Her academic trajectory continued with an M.Phil. in Genetics and Plant Breeding from the same university, where she was recognized as a faculty topper. She completed her Ph.D. in Genetics and Plant Breeding from CCSU. Her academic background laid a strong foundation in genomics, bioinformatics, and molecular biology, equipping her with skills essential for cutting-edge research in crop science.

Experience

Dr. Jan has gathered diverse research experience through her involvement in national-level projects funded by the Department of Biotechnology (DBT). As a Research Fellow, she contributed to genomic-based germplasm characterization and trait discovery initiatives focused on enhancing climate resilience and nutritional quality in wheat. During her Ph.D., she conducted a comprehensive study on pyramiding rust resistance genes into high-quality wheat lines under the guidance of eminent scientists, including Prof. P.K. Gupta and Prof. H.S. Balyan. Her work extended to in silico studies of gene families, meta-QTL analysis, and the practical application of marker-assisted breeding. Currently, she is spearheading a WISE-PDF project aimed at introgressing multiple disease resistance meta-QTLs into elite wheat cultivars specific to the Kashmir valley.

Research Interest

Her primary research interests revolve around genetic enhancement of wheat through molecular breeding, with a focus on rust resistance, nutritional biofortification, and drought tolerance. She is particularly engaged in exploring QTL meta-analysis, gene pyramiding, and bioinformatic modeling of functional genes. Dr. Jan is proficient in employing a variety of tools including qRT-PCR, genotyping, genome-specific primer design, and protein modeling. The integration of molecular biology with field-based plant breeding has defined her interdisciplinary approach, enabling the development of resilient and high-performing wheat genotypes suited for regional agro-ecologies.

Award

Dr. Jan’s contributions have been consistently acknowledged through several awards and fellowships. Most recently, she was honored with the WISE-PDF award by the DST. She received the Young Achiever Award in from the Institute of Scholars (InSc). Earlier, she held JRF and SRF positions under DBT-funded projects. Her academic excellence was previously recognized with the Former President Dr. Shankar Dayal Sharma Gold Medal and Vice-Chancellor Gold Medal. She also cleared the ICAR NET and was awarded the National Merit-cum-Means Scholarship.

Publication

Dr. Jan has authored and co-authored numerous high-impact scientific papers. Selected seven include:

Pyramiding of Genes/QTL for Resistance Against Three Rusts, High Grain Protein Content and Pre‐Harvest Sprouting Tolerance in Wheat (Triticum aestivum L.) Using Marker‐Assisted Selection
Year: 2025

Marker‐Assisted Introgression of High Grain Protein Content and Leaf Rust Resistance Genes into HD3086 for Improving Nutritional Quality and Disease Resistance in Wheat
Year: 2023

Marker‐Assisted Pyramiding of Leaf Rust and Stripe Rust Resistance Genes into Wheat Variety HD2967
Year: 2022
Citations: 8

Marker‐Assisted Pyramiding of Genes for Resistance Against Leaf Rust and Karnal Bunt in Wheat (Triticum aestivum L.)
Year: 2022
Citations: 4

Validation of Molecular Markers Linked with Grain Protein Content in Diverse Genetic Backgrounds of Wheat
Year: 2022
Citations: 6

Marker‐Assisted Improvement for Resistance Against Rusts and High Grain Protein Content in HD2733 Wheat Variety
Year: 2022
Citations: 7

Marker‐Assisted Introgression of Leaf Rust and Stripe Rust Resistance Genes into Wheat Variety HD3086
Year: 2021
Citations: 28

Conclusion

Dr. Irfat Jan stands out as a promising young scientist in the realm of genetics and plant breeding, with her work directly contributing to agricultural sustainability and food security. Her research has bridged theoretical knowledge with practical breeding solutions through advanced molecular techniques. By integrating bioinformatics with field-based breeding, she aims to develop high-yielding, disease-resistant wheat cultivars tailored for vulnerable agro-ecological zones. Her robust academic background, extensive project involvement, and a strong publication record underscore her eligibility for scientific recognitions and awards, as she continues to make impactful contributions to the agricultural biotechnology sector.