Assist. Prof. Dr. Mridul Umesh | Plant Stress Physiology | Biotechnology in Botany Award

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🎓 Education

Dr. Mridul Umesh has pursued a focused academic journey in biotechnology and microbiology. He holds a Ph.D. and M.Phil. in Microbial Biotechnology from the prestigious Bharathiar University, Coimbatore. His doctoral work explored the biosynthesis, characterization, and application of bioplastics derived from fruit peel waste using Bacillus species, reflecting a deep integration of microbiology with plant-based industrial applications. Prior to this, he completed an M.Sc. in Industrial Biotechnology, also from Bharathiar University, where he worked on lactic acid and biosurfactant production using agro-waste. His undergraduate studies were in Microbiology at Sree Narayana Guru College, Coimbatore. Additionally, Dr. Umesh completed a Communicative English course to enhance his teaching and presentation skills. His academic training is further strengthened by hands-on research internships and training projects in diagnostic microbiology and molecular biology, including work on Listeria monocytogenes detection. This solid educational foundation equips him with interdisciplinary skills essential for research and academic leadership in microbial and plant biotechnology.

💼 Professional Experience

Dr. Mridul Umesh has over 10 years of academic experience with a robust focus on teaching, research, and curriculum engagement. Since May 2018, he has been serving as an Assistant Professor in the Department of Life Sciences, Christ University, where he handles both undergraduate and postgraduate courses, mentors Ph.D. scholars, and coordinates internal quality initiatives as part of the IQAC. Previously, he held teaching positions as Assistant Professor and Guest Faculty at GURUJEE Institute of Science, Coimbatore, where he specialized in training students for NEET and IIT-JEE exams. Throughout his academic tenure, Dr. Umesh has taken on additional responsibilities such as research project leader, reviewer, doctoral committee member, and editorial board member. His teaching style is deeply research-integrated, encouraging students to bridge theory with practical innovation. He has also participated in faculty development initiatives and served as a Master Trainer in Christ University’s Teaching and Learning Cell (TLEC). His dynamic teaching profile, coupled with administrative and mentoring roles, exemplifies a balanced academic leadership ideal in higher education institutions.

🔬 Research Interests

Dr. Mridul Umesh’s research interests lie at the exciting intersection of environmental microbiology, industrial biotechnology, and plant-based innovation. His primary focus is on the valorization of agro-industrial waste, especially fruit peels and fish waste, to develop biodegradable polymers, probiotics, and bioactive compounds. His Ph.D. and postdoctoral research highlight the biosynthesis of polyhydroxyalkanoates (PHAs) and their potential application in areas like wound healing, drug delivery, and eco-friendly packaging. He is equally invested in aquaculture, where he develops feed formulations and immunostimulants from sustainable sources. His work on organic acids, antioxidants, and endophytic metabolites reflects a broader goal of integrating microbial processes with botanical materials for environmental sustainability. Dr. Umesh is also interested in bioplastics, single-cell proteins, and the use of plant growth-promoting bacteria (PGPB) to enhance agricultural output. His interdisciplinary research connects lab science with ecological and industrial applications, ensuring both academic rigor and societal relevance. These interests make him a forward-thinking scientist in the field of green biotechnology and sustainable plant-microbe interactions.

🧪 Research Skills

Dr. Umesh is highly skilled in a range of experimental, analytical, and computational techniques relevant to biotechnology. His core laboratory competencies include microbial fermentation, biopolymer extraction and characterization, waste substrate optimization, and advanced spectroscopic and microscopic analyses. He is proficient in designing statistical optimization experiments using RSM (Response Surface Methodology) for process refinement. His skills extend to antibacterial and antioxidant activity assays, drug delivery system development, and biodegradation studies of fabricated biomaterials in diverse environments. In molecular biology, he is trained in gene sequencing, PCR techniques, and phylogenetic analysis. Dr. Umesh is also experienced in scientific writing, data visualization, and research dissemination through presentations and publications. Additionally, he is well-versed in MOOC-based learning platforms, regularly updating his skills with certifications in cutting-edge scientific methods. His ability to guide Ph.D. scholars and collaborate with international researchers reflects his capacity for project planning, funding acquisition, and scientific leadership. These combined skills position him as a well-rounded researcher capable of solving real-world problems through innovative science.

🏅 Awards and Honors

Dr. Mridul Umesh has received multiple recognitions that reflect the quality and impact of his research and academic contributions. He has won Best Paper Presentation Awards at several national and international conferences, highlighting the excellence of his work in biopolymer research and waste valorization. He also received the Best Research Paper Award from the Nature Science Foundation, Coimbatore, affirming the significance of his scholarly publications. In 2025, he was shortlisted for the prestigious Young Investigator Award by the International Altiora Excellence Award, further cementing his status as an emerging leader in biotechnology. Dr. Umesh’s nomination for the Biotechnology in Botany Award is well-deserved due to his interdisciplinary work that bridges microbial biotechnology with plant-derived innovation. He has been actively involved in professional societies such as AMI, MBSI, and ISRD, which enhances his visibility in the research community. Additionally, he serves as Section Editor for Plant Science Today (Scopus-indexed) and is a recognized reviewer for journals like Polymers and Biomass Conversion and Biorefinery. These honors not only showcase his academic merit but also his growing influence in the field of sustainable biotechnology. 🥇🌿

🧾 Conclusion

Dr. Mridul Umesh is a highly deserving and competitive candidate for the Biotechnology in Botany Award, especially due to:

• His translational research in converting botanical waste into high-value bioproducts.

• His interdisciplinary approach, integrating microbiology, waste management, and plant-based biotechnology.

• His strong publication record, patent, mentoring experience, and academic leadership.

While the core of his work lies at the intersection of microbial and plant sciences, the innovative use of plant-derived biomaterials and focus on sustainability aligns closely with the spirit of this award.

Verdict: ✅ Recommended for Nomination/Shortlisting with high merit in Biotechnology in Botany.

Publications Top Noted

• Emerging challenges for the agro-industrial food waste utilization: A review on food waste biorefinery
  📅 Year: 2022 | 🔢 Citations: 111

• A critical assessment of technical advances in pharmaceutical removal from wastewater – a critical review
  📅 Year: 2023 | 🔢 Citations: 84

• Production of Single Cell Protein and Polyhydroxyalkanoate from Carica papaya Waste
  📅 Year: 2017 | 🔢 Citations: 63

• Microbial polyhydroxyalkanoates (PHAs): a review on biosynthesis, properties, fermentation strategies and applications
  📅 Year: 2022 | 🔢 Citations: 55

• Toxicity analysis of endocrine disrupting pesticides on non-target organisms: A critical analysis on toxicity mechanisms
  📅 Year: 2023 | 🔢 Citations: 50

• Micropollutants characteristics, fate, and sustainable removal technologies for landfill leachate
  📅 Year: 2023 | 🔢 Citations: 50

• Statistical Optimization of Bioplastic (PHA) Production by Bacillus subtilis Using Orange Peel Medium
  📅 Year: 2018 | 🔢 Citations: 46

• Optimized production of keratinolytic proteases from Bacillus tropicus and applications in dehairing and metal recovery
  📅 Year: 2023 | 🔢 Citations: 43

• Eggshells biowaste for hydroxyapatite synthesis using Piper betel extract: Antibacterial and antibiofilm activity
  📅 Year: 2021 | 🔢 Citations: 39

• Origin, ecotoxicity, and analytical methods for microplastic detection in aquatic systems
  📅 Year: 2024 | 🔢 Citations: 38

• Potential of banana-based cellulose materials for advanced applications: Review on properties and challenges
  📅 Year: 2023 | 🔢 Citations: 35

• Synthesis and characterization of chitosan nanofibers for wound healing and drug delivery
  📅 Year: 2023 | 🔢 Citations: 33

• Biogenic PHA nanoparticle synthesis and characterization using orange peel medium
  📅 Year: 2018 | 🔢 Citations: 31

• Bioconversion of papaya peel waste into vinegar using Acetobacter aceti
  📅 Year: 2014 | 🔢 Citations: 29

• Microbial engineering strategies for synthetic microplastics cleanup: Recent approaches
  📅 Year: 2023 | 🔢 Citations: 28

• Plant growth potential of halotolerant Bacillus licheniformis as green bioinoculant on Solanum
  📅 Year: 2023 | 🔢 Citations: 28

• Integrated strategies and process modifications for PFAS removal: Current insights and prospects
  📅 Year: 2024 | 🔢 Citations: 27

• Adsorption efficacy of Cassia fistula seed carbon for Cd (II) ion removal: Isotherm study
  📅 Year: 2023 | 🔢 Citations: 27

• Mercury contamination and toxicity in environments: Retrospection and future prospects
  📅 Year: 2023 | 🔢 Citations: 27

• Water hyacinth as a substrate for bioplastic (PHA) production using Pseudomonas aeruginosa
  📅 Year: 2015 | 🔢 Citations: 27