Janet Leandro Marmolejo | Soil Biology | Research Excellence Award

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Prof. Janet Leandro Marmolejo | Soil Biology | Research Excellence Award

College of Postgraduates | Mexico

Janet Leandro Marmolejo is an accomplished agricultural and livestock professional with strong expertise in health, microbiology, parasitology, and animal production systems. Her background spans hands-on roles in cattle, buffalo, sheep, turkey, and swine management, where she has applied biosecurity measures, disease prevention strategies, and reproductive evaluation techniques to enhance productivity. She has contributed significantly to silvopastoral systems, dairy and meat operations, and reproductive studies, including work with andrological examinations in buffalo. Janet has overseen the implementation of good livestock practices, feed formulation, monitoring of productive and reproductive indicators, and the development of animal health protocols. Her experience managing dual-purpose cattle, native turkeys, and buffalo herds demonstrates strong diagnostic, behavioral assessment, and disease-control capabilities. As an advisor in sheep production, she has managed vaccination schedules, reproductive monitoring, herd performance, and resource planning. In swine units, her responsibilities have included clinical sampling, nutritional adjustments, sanitary procedures, and growth monitoring. Janet’s academic foundation in genetic resources, livestock productivity, agricultural engineering, and zootechnics complements her extensive field experience, enabling her to integrate scientific knowledge with practical livestock management. Her diverse expertise positions her as a versatile professional capable of contributing to research, industrial, livestock, and agronomic sectors.

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Featured Publications

Leandro Marmolejo, J., Crosby Galván, M. M., Crosby Galván, E. M., Vallejo Hernández, L. H., Sánchez-Torres Esqueda, M. T., Cortez Romero, C., & Améndola Massiotti, R. D. (2025). The metabolism of Streptomyces avermitilis isolated from agricultural soils during the four seasons of the year. Applied Microbiology, 5(4), 138.

Marmolejo, J., & Ahedo, A. (2023). Métodos de rotación de calendarios sanitarios en corrales de engorda de ovinos de la raza Suffolk [Design]. Universidad Autónoma Chapingo.

Leandro, J. M. (2023, June 30). Determinación de los indicadores morfométricos reproductivos en machos de búfalo de agua (Bubalus bubalis) mediante examen andrológico con el uso del electro-eyaculador en Costa Rica [Conference poster]. 4º Congreso Nacional Estudiantil en Biología, Educación Ambiental y Agricultura Orgánica.

Leandro, J. M. (2023, June 28). Evaluación etológica en dos tipos de ambiente y su respuesta productiva en pavos doble pechuga (Meleagris gallopavo Linn) [Conference poster]. 4º Congreso Nacional Estudiantil en Biología, Educación Ambiental y Agricultura Orgánica.

Bhaskar Das | Soil Microbial | Best Researcher Award

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Mr. Bhaskar Das | Soil Microbial | Best Researcher Award

Bhaskar Das | Assam University | India

Bhaskar Das is a PhD scholar in Microbiology at Assam University, India. His research focuses on antimicrobial resistance at the clinical-environmental interface, with contributions including the discovery of anti-plasmid compounds and the development of rapid diagnostic tools for resistant pathogens. He has authored 29 journal publications, three book chapters, and holds two patents with one more under process. Recognized with the ICMR Senior Research Fellowship, Bhaskar has established himself as a promising researcher dedicated to tackling global health challenges through innovative microbiological solutions.

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Summary

Bhaskar Das has established himself as a highly dedicated and innovative researcher in the field of microbiology. With a strong foundation in antimicrobial resistance research, he combines theoretical expertise with practical solutions, evident in his patents and diagnostic innovations. His academic achievements, fellowship recognition, and impactful publications make him a highly deserving candidate for the Best Researcher Award.

Education

Bhaskar Jyoti Das holds an MPhil degree in Microbiology and is currently awaiting his PhD thesis defense at Assam University, Silchar. His academic training has provided a strong foundation in clinical and medical molecular microbiology with a specialization in antimicrobial resistance.

Experience

He has extensive research experience in microbiology with a focus on antimicrobial resistance at the clinical and environmental interface. His work involves the identification of anti-plasmid compounds, the development of diagnostic methods for resistant bacteria, and contributing to patents, books, and high-impact journal publications.

Research Focus

His research primarily focuses on antimicrobial resistance in the clinical-environmental interface. He has contributed to the discovery of anti-plasmid compounds with the potential to counter carbapenem resistance and developed rapid, cost-effective diagnostic tools for detecting resistant pathogens.

Skills

Bhaskar is skilled in molecular microbiology techniques, antimicrobial resistance analysis, diagnostic test development, and research innovation. His ability to combine clinical and environmental perspectives in microbiology research highlights his multidisciplinary expertise.

Awards

He has been awarded the Senior Research Fellowship by the Indian Council of Medical Research in recognition of his research excellence.

Publications

Influence of AHL and Imipenem on blaNDM Conjugation and sRNA Rydb Expression in Escherichia coli
Authors: Deshamukhya, C.; Das, B.J.; Dhar, D.; Bhattacharjee, A.
Journal: Journal of Basic Microbiology

Transcriptional response study of auto inducer-2 regulatory system in Escherichia coli harboring blaNDM
Authors: Deshamukhya, C.; Ahmed, S.; Das, B.J.; Chanda, D.D.; Bhattacharjee, A.
Journal: BMC Microbiology

Incidence of carbapenem non-susceptible Chromobacterium violaceum harboring blaOXA-232 from clinical-environmental interface
Authors: Bhaskar Jyoti Das; Jayalaxmi Wangkheimayum; Mahmadur Rashid; Sonali Chealsea Singha; Deepjyoti Paul; K. Melson Singha; Debadatta Dhar Chanda; Amitabha Bhattacharjee
Journal: Indian Journal of Medical Microbiology

Characterization of blaOXA-232 carrying carbapenem-resistant Klebsiella pneumoniae (CRKP) & their expression profiles under selective carbapenem pressure: An in-depth study from India
Authors: Das, B.J.; Banerjee, T.; Wangkheimayum, J.; Mishra, K.; Kumar, A.; Bhattacharjee, A.
Journal: Indian Journal of Medical Research

Extended-spectrum β-lactamase inhibitory potential of Dichrocephala integrifolia: an in vitro and computational studies
Authors: Moirangthem, A.; Baruah, T.J.; Paul, M.; Ingti, B.; Bhattacharjee, A.; Maurya, A.P.; Paul, S.; Das, B.J.
Journal: Natural Product Research

Imipenem exposure influences the expression of quorum-sensing receptor sdiA in Escherichia coli
Authors: Deshamukhya, C.; Begom, F.; Das, B.J.; Laskar, M.A.; Goala, S.; Choudhury, M.D.; Dhar Chanda, D.; Bhattacharjee, A.
Journal: FEMS Microbiology Letters

Incidence of carbapenem-resistant Escherichia coli ST2437 of clinical origin harbouring blaOXA-144 gene: a report from India
Authors: Das, B.J.; Melson Singha, K.; Wangkheimayum, J.; Chanda, D.D.; Bhattacharjee, A.
Journal: Journal of Applied Microbiology

Conclusion

Bhaskar Das exemplifies the qualities of an emerging leader in microbiological research. His work addresses urgent healthcare challenges, particularly in combating antimicrobial resistance. With his demonstrated innovation, strong research record, and potential for broader impact, he is well-suited for recognition through the Best Researcher Award. Strengthening international collaborations and enhancing his global research footprint will further elevate his contributions and career trajectory.

Zhongfu Wang | Soil Biology | Best Researcher Award

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Mr. Zhongfu Wang | Soil Biology | Best Researcher Award

Mr. Zhongfu Wang, Beihang University, China

Mr. Zhongfu Wang is a researcher at Beihang University, China, specializing in soil microbiology, astrobiology, and life support technology for space exploration. His work focuses on developing bioregenerative systems for sustainable plant growth in extraterrestrial environments, including the Moon and Mars. He has pioneered innovations in waste recycling and plant–microbe interactions using lunar soil simulants and contributes to space agriculture experiments aboard the China Space Station.

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Summary:

Mr. Zhongfu Wang stands out for his pioneering work at the intersection of soil science and space biology, offering real-world applications for future lunar and Martian habitats. His research aligns perfectly with global scientific goals surrounding space colonization, sustainability, and ecological engineering. Despite being in an earlier phase of his research career, the quality and ambition of his work are strong indicators of long-term impact and leadership in the field.

🎓 Education

Zhongfu Wang is a dedicated researcher at the Institute of Environmental Biology and Life Support Technology, School of Biological Science and Medical Engineering, Beihang University. His academic journey centers on soil microbiology and astrobiology, with specialized expertise in life support technologies for manned deep space exploration and lunar ecology. He combines foundational scientific knowledge with applied research to support sustainable living systems beyond Earth.

💼Experience

Wang’s research bridges the gap between terrestrial ecological science and extraterrestrial applications. He has led and contributed to several high-impact projects, including improving lunar soil simulants for plant cultivation through earthworm-mediated organic waste integration and microbial synergy. His work extends to the physiological responses of soil fauna under variable magnetic fields, bioremediation in simulated lunar gravity aboard the China Space Station, and microbial adaptation studies in near-space Mars analog environments.

🔬Research Focus

His primary research areas include soil microbiology, astrobiology, life support technologies for manned deep space missions, and lunar ecology. He is particularly known for developing ecological methods to convert lunar regolith into fertile media, integrating organic waste recycling with plant–microbe interactions for use in space habitats.

🛠️Skills

Wang’s skill set includes designing and executing complex biological experiments in space-simulated conditions. He has contributed a patent on an experimental method for exposing microorganisms in near-space environments and has published peer-reviewed work that showcases his innovative approach to soil improvement for extraterrestrial agriculture. His research continues to push boundaries in space biosciences and environmental engineering for long-term human spaceflight.

🏆Awards

Zhongfu Wang has been nominated for the Best Researcher Award by the International Soil Scientist Awards committee, recognizing his pioneering role in advancing space agriculture and bioregenerative life support systems.

📚 Publications

Title: Improving Lunar Soil Simulant for Plant Cultivation: Earthworm-Mediated Organic Waste Integration and Plant–Microbe Interactions
Authors: Zhongfu Wang
Year: 2025
Journal: Plants

Conclusion:

Mr. Zhongfu Wang is a highly suitable candidate for the Best Researcher Award. With continued support and recognition, he is poised to become a leading figure in space-agriculture and soil microbiome research for extraterrestrial environments.