Dr. MARIA BELEN GUIJARRO DIAZ OTERO | Plant Biology | Excellence in Research Award

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Dr. MARIA BELEN GUIJARRO DIAZ OTERO | Plant Biology | Excellence in Research Award

INIA-CSIC (National Institute for Agricultural and Food Research and Technology – Spanish National Research Council)
Spain

Dr. Belén Guijarro Díaz-Otero is a senior researcher in Plant Protection at INIA-CSIC, Spain, with extensive expertise in phytopathology, biocontrol, and the management of fungal plant diseases. She obtained her academic training in Agricultural Engineering from the Polytechnic University of Madrid and completed her PhD with a strong focus on plant protection and biocontrol agents. Her professional experience includes international postdoctoral research in Australia, where she worked on plant genomics, plant pathology, and integrated disease management strategies, as well as applied research roles addressing alternatives to chemical fumigants and soil health improvement in horticultural systems. Since joining INIA-CSIC, her research has centered on fungal plant diseases, biopesticides, epidemiology, fungicide resistance, and soilborne pathogens, contributing significantly to sustainable agriculture and integrated pest management. She has participated in numerous national and European competitive R&D projects, including Horizon Europe and EFSA-related initiatives, and actively contributes to regulatory science through her involvement with European Commission and OECD expert groups on biopesticides. Her scientific output includes peer-reviewed publications, book chapters, and extensive participation in international conferences. Recipient of the Australian Endeavour International Postdoctoral Fellowship, her work bridges fundamental research, applied innovation, and regulatory frameworks, supporting the development of safe, effective, and sustainable plant protection solutions for modern agriculture.

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Featured Publications

Dr. Zafar Iqbal | Molecular Biology | Research Excellence Award

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Dr. Zafar Iqbal | Molecular Biology | Research Excellence Award

King Faisal University | Saudi Arabia

Dr. Zafar Iqbal is a biotechnologist and academic researcher with extensive expertise in plant molecular virology, biotechnology, and bioinformatics. He obtained his PhD in Biotechnology from the Pakistan Institute of Engineering and Applied Sciences in collaboration with the Swedish University of Agricultural Sciences, following advanced degrees in biochemistry. Currently serving as Assistant Professor at Central Laboratories, King Faisal University, Saudi Arabia, he brings over a decade of experience in university-level teaching, research leadership, laboratory quality management, and international collaboration. His research interests encompass plant–virus–vector interactions, whole-genome and microbiome sequencing, CRISPR/Cas-based resistance development, nanoparticle-mediated stress mitigation, biofuels, and sustainable agricultural innovations. He has led and contributed to more than 25 funded research projects, including prestigious RDIA support for establishing a Hi-Tech Next Generation Sequencing facility, and has published extensively in high-impact international journals with more than 1100 citations. Dr. Iqbal actively contributes to the scientific community as a peer reviewer, trainer, and mentor, while playing key roles in ISO 17025 laboratory quality systems and capacity-building programs. Through an integrated approach combining molecular biology, computational analysis, and applied biotechnology, he continues to advance translational life science research and sustainable solutions for agriculture and environmental resilience.

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Featured Publications

Dr. Mahmoud Abo- Elmaaref | Life Sciences Innovation | Life Sciences Innovation

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Dr. Mahmoud Abo- Elmaaref | Life Sciences Innovation | Life Sciences Innovation

Conservation Department, Faculty of Archaeology, Sohag University, Sohag, Egypt

Mahmoud Abo Elmaaref is a lecturer and specialist in the conservation of archaeological organic materials, with a particular focus on ancient textiles. He holds a master’s degree in textile conservation (2017) and a PhD in the prevention of microbiological deterioration in archaeological linen using enzymes and nanomaterials (2022), both from Sohag University. Over the course of his academic career, he has served as demonstrator, assistant lecturer, lecturer, and former director of the Center for Studies and Research of Archaeology and Restoration. He has completed extensive training in conservation sciences, documentation, quality assurance, scientific research skills, data analysis, microscopy, nanomaterials applications, and museum collection care through national and international workshops. His research interests include textile conservation, nanomaterials, enzymatic cleaning, antifungal treatments, aging studies, characterization techniques, and sustainable conservation approaches. He has published numerous studies in recognized journals, contributing knowledge on linen and cotton conservation, fungal deterioration, silver-nanoparticle treatments, polymer nanocomposites, and eco-friendly antimicrobial agents. His work demonstrates strong commitment to advancing textile preservation through innovative scientific methods. Overall, his career reflects a blend of research productivity, academic development, conservation practice, and dedication to protecting archaeological heritage for future generations.

Profiles: Orcid | Research Gate

Featured Publications

Abo-Elmaaref, M., Mohamed, W. S., & Swielam, E. M. (2025, November 29). Eco-friendly nano-curcumin loaded on different polymers: Properties and applications as a consolidation and antimicrobial agent for archaeological cotton textiles. Discover Applied Sciences.

Abo-Elmaaref, M. (2025, October 21). TiO2 nanoparticles loaded onto methyl methacrylate/ethyl acrylate nanopolymers as consolidation and antimicrobial agents for ivory artefacts. Pigment & Resin Technology.

Abo-Elmaaref, M. (2025, September 24). Synthesis of Chitosan/Klucel E nanocomposite: Properties and application as an antimicrobial and consolidation agent to conserve dyed linen textiles. Pigment & Resin Technology.

Abo-Elmaaref, M. (2024). The usage of AgNPs/Klucel G nanocomposites and some conventional materials in the conservation of archaeological linen textile remains. Advanced Research in Conservation Science.

Abo-Elmaaref, M. (2023). A comparative study for the effect of laboratory aging and fungal infection on properties of raw and dyed linen textiles. Advanced Research in Conservation Science.

Mr. Kamran Haider | Life Sciences Innovation | Young Researcher Award

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Mr. Kamran Haider | Life Sciences Innovation | Young Researcher Award

Huazhong Agricultural University | Wuhan, China

Kamran Haider is an emerging researcher in agricultural entomology with a strong focus on insect–plant interactions, biological control, and molecular approaches for pest management. He completed his M.Sc. (Hons.) in Agriculture Entomology and B.Sc. (Hons.) in Agricultural Sciences from the University of Agriculture, Faisalabad, where his research centered on the management of Fall armyworm using sodium silicate and Trichogramma integration for sustainable maize protection. Kamran gained international research exposure as a Research Trainee at Huazhong Agricultural University, China, working on insect–plant molecular interactions and gaining practical skills in insect rearing, RNA/DNA extraction, cDNA synthesis, RNA interference, and gel electrophoresis. His additional experience includes internships in pest monitoring, pesticide quality analysis, and field surveys using modern diagnostic tools. He has co-authored research and review papers on topics such as silicon-based insect management, plant melatonin metabolism, and the role of gut microbiota in insect immunity and adaptation. Kamran has completed several certified courses in plant bioinformatics and insect biology and participated in international scientific conferences and workshops. He has received academic awards, including scholarship support and recognition for scientific engagement. He aims to contribute to innovative pest management strategies and sustainable agriculture through advanced entomological research.

Profile: Google Scholar 

Featured Publications

Ahmed, W., Safdar, U., Ali, A., Haider, K., Tahir, N., Sajid, S., Ahmad, M., … (2022). Sustainable water use in agriculture: A review of worldwide research. [Journal name and volume not provided].

Ikram, M., Mehran, M., ur Rehman, H., Ullah, S., Bakhsh, M. Z. M., Tahira, M., … (2024). Mechanistic review of melatonin metabolism and signaling pathways in plants: Biosynthesis, regulation, and roles under abiotic stress. Plant Stress, 14, 100685.

Zaib, M., Aryan, M., Khaliq, A., Haider, K., Ahmad, S., Zeeshan, A., Haq, E. U., … (2023). Essential insights for effective environmental management and human well-being: Strategies for remediation in soil-plant-environment systems. Journal of Asian Development Studies, 12(3), 1453–1469.

Zaib, M., Farooq, U., Adnan, M., Sajjad, S., Abbas, Z., Haider, K., Khan, N., … (2022). Remediation of saline soils by application of biochar: A review. Journal of Environmental and Agricultural Sciences, 24, 29–36.

Zaib, M., Farooq, U., Adnan, M., Abbas, Z., Haider, K., Muhay-Ul-Din, M. F., … (2023). Water stress in crop plants: Implications for sustainable agriculture. Journal of Environmental and Agricultural Sciences, 25(1), [page numbers not provided].

Haider, K., Abbas, D., Galian, J., Ghafar, M. A., Kabir, K., Ijaz, M., Hussain, M., … (2025). The multifaceted roles of gut microbiota in insect physiology, metabolism, and environmental adaptation: Implications for pest management strategies. World Journal of Microbiology and Biotechnology, 41(3), 75.

Assoc. Prof. Dr. Meryem Şenay Şengül Demirak | Molecular Biology | Women Researcher Award

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Assoc. Prof. Dr. Meryem Şenay Şengül Demirak | Molecular Biology | Women Researcher Award

Tokat Gaziosmanpaşa University | Turkey

M. Senay Sengul Demirak, Ph.D., is an Associate Professor of Molecular Biology and Genetics with expertise in insect molecular genetics, chemical ecology, and molecular systematics. She completed a Ph.D. in Biochemistry from Virginia Tech and advanced postdoctoral training in Chemical Ecology at the Swedish University of Agricultural Sciences, where she worked on mosquito olfaction, odorant-binding proteins, and vector biology. Her academic career includes faculty roles in molecular biology laboratories, extensive teaching at graduate and undergraduate levels, and coordination responsibilities in international research and exchange programs. She has contributed to multiple research projects supported by national and international funding bodies, including NIH, FORMAS, TUBITAK, and university research coordination units, with a focus on mosquito genomics, barcoding genes, OBP gene characterization, and molecular identification of insects and macrofungi. She has supervised graduate theses in molecular taxonomy and insect genetics and has received recognitions such as scholarships from Virginia Tech, Keystone Symposia, and the Scientific and Technical Research Council of Turkey. Her research aims to advance molecular tools for species identification and genetic analysis that support disease vector management and biodiversity studies. She remains dedicated to developing molecular biology capacity and fostering collaborative research in vector biology and genomics.

Profile:  Google Scholar 

Featured Publications

Şengül Demirak, M. Ş., & Canpolat, E. (2022). Plant-based bioinsecticides for mosquito control: Impact on insecticide resistance and disease transmission. Insects, 13(2), 162.

Sengul, M. S., & Tu, Z. (2010). Identification and characterization of odorant-binding protein 1 gene from the Asian malaria mosquito, Anopheles stephensi. Insect Molecular Biology, 19(1), 49–60.

Sengul, M. S., & Tu, Z. (2010). Expression analysis and knockdown of two antennal odorant-binding protein genes in Aedes aegypti. Journal of Insect Science, 10(1), 171.

Sengul, M. S., & Tu, Z. (2008). Characterization and expression of the odorant-binding protein 7 gene in Anopheles stephensi and comparative analysis among five mosquito species. Insect Molecular Biology, 17(6), 631–645.

Şengül Demirak, M. Ş., Işık, H., & Türkekul, İ. (2022). Molecular and morphological identification of Cortinarius eucaeruleus Rob. Henry (Subgenus Phlegmacium) from Türkiye. Anatolian Journal of Botany, 6(1), 27–33.

Demirak, M. Ş. Ş., & Türkekul, İ. (2021). Cortinarius lilacinovelatus (Agaricales, Cortinariaceae) – A new record for Turkey. Nova Hedwigia, 113(1–2), 217–227.

Sengul Demirak, M. S., Turkekul, I., & Isik, H. (2021). Conocybe romagnesii and Gerronema subclavatum (Basidiomycota: Agaricales) in the Central Black Sea Region of Turkey. Nordic Journal of Botany, 39(12).

Demirak, M. Ş. Ş., Işık, H., & Türkekul, İ. (2020). Morphological and molecular phylogeny of Cortinarius rufo-olivaceus (Pers.) Fr. (Subgenus Phlegmacium sect. Calochroi) collected from Tokat region. Kahramanmaraş Sütçü İmam Üniversitesi Tarım ve Doğa Dergisi, 23(3), 600–605.

Jayateertha Diwan | Genetics | Best Researcher Award

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Dr. Jayateertha Diwan | Genetics | Best Researcher Award

University of Agricultural Sciences | India

Dr. Jayateertha R. Diwan has made exceptional contributions to agricultural genetics and plant breeding, focusing on rice crop improvement, molecular breeding, and the integration of genomic tools in agronomic research. His Scopus profile lists an h-index of 5, over 17 peer-reviewed documents, and more than 98 citations, reflecting his strong scientific influence in plant molecular genetics and crop biotechnology. He has published widely in reputed journals such as Frontiers in Physiology, Crop and Pasture Science, and Current Genetics, with recent papers addressing genome-wide association studies, quantitative trait loci mapping, and the genetic basis of stress tolerance and nutrient efficiency in rice. He has also authored book chapters on genome editing and phytoremediation and participated in collaborative projects with institutions including the Centre for DNA Fingerprinting and Diagnostics, Hyderabad. Beyond his research output, Dr. Diwan has guided numerous postgraduate and doctoral students and led nationally funded projects from DST-SERB, DBT, and RKVY focusing on molecular characterization and sustainable agricultural systems. His consistent record of scholarly excellence, mentorship, and scientific leadership places him among the leading researchers in the field of genetics and plant breeding in India.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Diwan, J. R., Mahadevaswamy, Patil, S., Bhanu, D., Devi, K. L., Hegde, S. N., Krishnaraj, P. U., Namitha, R., Pradhan, B. B., & Vashisht, D. (2025). Genome characterization of Acinetobacter species from the rice rhizosphere: A potential plant growth promoting rhizobacteria (PGPR).

Kavyashree, N. M., Diwan, J. R., Mahantashivayogayya, K., Lokesha, R., & Naik, N. M. Micro-morphological diversity of rice (Oryza sativa L.) as seen under foldscope.

Kariyanna, B., Prabhuraj, A., Mohan, M., Bheemanna, M., Kalmath, B., Pampanna, Y., & Diwan, J. R. Insecticide usage pattern and evolution of resistance in eggplant shoot and fruit borer, Leucinodes orbonalis Guenée (Lepidoptera: Crambidae) in India. ,

Umar Farooq, M. S., Diwan, J. R., Mahantashivayogayya, K., Kulkarni, V. V., & Shakuntala, N. M. Genetic evaluation of rice (Oryza sativa L.) genotypes for yield and nutritional quality traits. Journal of Experimental Biology and Agricultural Sciences,

Muniswamy, S., Lokesha, R., Yamanura, R., Ramesh, R., & Diwan, J. R. Stability for disease, genotype × environment interaction for yield and its components in pigeonpea [Cajanus cajan (L.) Millsp.].

Andrea Smidler | Gene Editing | Best Researcher Award

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Dr. Andrea Smidler | Gene Editing | Best Researcher Award

University of California San Diego | United States

Dr. Andrea L. Smidler is an accomplished molecular entomologist and genetic engineer whose research focuses on innovative CRISPR-based tools for vector control, particularly in Anopheles gambiae, the primary malaria vector. According to her Scopus profile (Author ID: 36626227000), she has published 18 scientific documents, achieving an impressive h-index of 14 and accumulating over 2008 citations, reflecting her growing influence in genetic biocontrol research. Her recent high-impact works include “Engineering gene drive docking sites in a haplolethal locus in Anopheles gambiae” (Scientific Reports, 2025), “CRISPR technologies for the control and study of malaria-transmitting Anopheline mosquitoes” (Parasites and Vectors, 2025), and “Eliminating malaria vectors with precision guided sterile males” (PNAS, 2024). Through collaborations with leading scientists such as Omar Akbari, George Church, and Flaminia Catteruccia, Dr. Smidler has advanced CRISPR-mediated gene drive and sterilization systems that aim to eradicate malaria at its source. Her consistent publication record across top-tier journals—including Science, PNAS, and Cell—and her citation metrics underscore her pioneering contributions to synthetic biology, public health genetics, and entomological engineering. Dr. Smidler continues to be a key innovator in developing genetic solutions for vector-borne disease elimination.

Featured Publications

Smidler, A., Abernathy, D., Marrogi, E., Mameli, E., Akbari, O., Church, G., Esvelt, K., & Catteruccia, F. (2025, October 8). Engineering gene drive docking sites in a haplolethal locus in Anopheles gambiae. Scientific Reports.

Smidler, A., & Akbari, O. (2025, July 3). CRISPR technologies for the control and study of malaria-transmitting Anopheline mosquitoes. Parasites and Vectors.

Gendron, W. A. C., Raban, R., Mondal, A., Sánchez, C. H. M., Smidler, A., Zilberman, D., Ilboudo, P. G., D’Alessandro, U., Marshall, J. M., & Akbari, O. S. (2025, July 18). Evaluating the cost of malaria elimination by Anopheles gambiae precision guided SIT in the Upper River region, The Gambia. PLOS Global Public Health.

Smidler, A., Apte, R., Pai, J., Chow, M., Chen, S., Antoshechkin, I., & Akbari, O. (2024, June 25). Eliminating malaria vectors with precision guided sterile males. Proceedings of the National Academy of Sciences (PNAS).

Smidler, A., Marrogi, E., Kauffman, J., Paton, D., Westervelt, K., Church, G., Esvelt, K., Shaw, W., & Catteruccia, F. (2024, February 19). CRISPR-mediated germline knockouts for genetic sterilization of male Anopheles gambiae. Scientific Reports.