Sonia Malik | Plant Biotechnology | Excellence in Plant Tissue Culture

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Prof. Dr. Sonia Malik | Plant Biotechnology | Excellence in Plant Tissue Culture

Baba Farid Group of Institutions | India

Dr. Sonia Malik, Ph.D. in Plant Biotechnology, is an accomplished researcher and academic leader currently serving as Professor and Dean of Research and Development at the Baba Farid Group of Institutions, India. She has produced more than 65 research publications (documents), which have collectively received over 1660 citations and earned her a strong h-index of 23, demonstrating her significant global scientific impact. Dr. Malik earned her PhD from the CSIR-Institute of Himalayan Bioresource Technology & Guru Nanak Dev University in 2009, specializing in in vitro culture systems and secondary metabolite production. She has held prestigious research and teaching positions in India, Brazil, Australia, the UK, the Czech Republic, France, and South America, contributing to major projects in plant metabolic engineering, hairy root cultures, hydroponic and aeroponic systems, phytochemical profiling, and nanoparticle-mediated elicitation. Her research focuses on the biotechnological production of high-value bioactive compounds for pharmaceutical, cosmetic, and food industries. She has received notable awards, including the Fellow Award from the Society for Plant Research (2025), along with competitive grants and fellowships from FAPESP, FAPEMA, and CNPq. Dr. Malik continues to advance interdisciplinary scientific progress worldwide through her roles as an editor, reviewer, symposium organizer, and invited speaker.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Jacinto, C., Javed, Y., Lavorato, G., Tarraga, W. A., Conde, B. I. C., Orozco, J. M., Picco, A. S., Garcia, J., Dias, C. S. B., Malik, S., et al. (2025). Biotransformation and biological fate of magnetic iron oxide nanoparticles for biomedical research and clinical applications. Nanoscale Advances.

Luz, T. R. S. A., Serejo, A. P. M., Moraes, M. B. C., Oliveira, J. A. R. N., Heena, Kumaraguru, G., Shanmugam, G., Malik, S., Amaral, F. M. M., & Coutinho, D. F. (2025). Essential oils to treat insomnia: Clinical-based studies. In Essential Oil-Bearing Plants.

Jacinto, C., Silva, W. F., Garcia, J., Zaragosa, G. P., Ilem, C. N. D., Sales, T. O., Santos, H. D. A., Conde, B. I. C., Barbosa, H. P., Malik, S., et al. (2025). Nanoparticles-based image-guided thermal therapy and temperature feedback. Journal of Materials Chemistry B.

Malik, S., Salvatore, M. M., Bauchet, L., Bruat, M., Roubinet, B., Carpin, S., Andolfi, A., Cimmino, A., Landemarre, L., Masi, M., et al. (2025, November). Hydroponic cultivation technique in Populus nigra (L.) for the sustainable production of root metabolites with antimicrobial and prebiotic potential for skin microbiota. Industrial Crops and Products.

Heena, Sharma, P., Shaveta, Sharma, D., Pawan, R., Coutinho, D. F., Arroo, R., & Malik, S. (2025, June 20). Exploring the bioactive components of Stevia essential oil and their versatile applications in the food, cosmetic, and agricultural domains. Chemistry & Biodiversity.

Aladji Abatchoua Madi Madi Ibram | Plant Breeding | Best Researcher Award

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Dr. Aladji Abatchoua Madi Madi Ibram | Plant Breeding | Best Researcher Award

University of Ebolowa | Cameroon

Dr. Aladji Abatchoua Madi Madi Ibram is a distinguished researcher in Genetics and Plant Breeding at the University of Ebolowa, Cameroon. He holds a Ph.D. in Genetics and Plant Breeding and has demonstrated strong expertise in the application of advanced statistical tools such as DIAL 98 and GEST 98 for diallel crosses and genotype-by-environment interaction studies. His research primarily focuses on the genetic improvement of common beans (Phaseolus vulgaris L.), emphasizing the development of high-yielding and nutritionally enriched varieties with significant biochemical compounds to promote sustainable agricultural development and food security. Dr. Ibram’s scientific contributions are reflected in his publications in reputed journals such as Springer’s Journal of Applied Genetics and Vegetos, where his studies on genetic variability and combining ability have been well recognized. He also serves on the editorial board of the International Journal of Genetics and Genomics. His research collaborations with the Institute for Agricultural Research and Development further underscore his commitment to enhancing crop productivity through innovative breeding strategies. Dr. Ibram was honored as the Best Researcher in the category of Multivariate Analysis, showcasing his excellence and dedication to advancing plant genetic research.

Profile: Orcid

Featured Publication

Aladji Abatchoua Madi Madi Ibram. (2025). Genetic analysis of common bean (Phaseolus vulgaris L.) for root traits, yield components and seed yield. Journal of Applied Genetics.

Sanjay Kumar Katiyar | Plant Breeding | Best Researcher Award

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Prof. Dr. Sanjay Kumar Katiyar | Plant Breeding | Best Researcher Award

CGIAR- AfricaRice | Côte d’Ivoire

Dr. Sanjay Kumar Katiyar is an accomplished geneticist and global agricultural research leader with over three decades of expertise in crop breeding, genetics, and agricultural innovation. He earned his Ph.D. in Genetics from the Indian Agricultural Research Institute (IARI) and completed postdoctoral research at the International Rice Research Institute (IRRI). Currently serving as Program Leader for Genetic Diversity & Improvement at CGIAR-AfricaRice, Director of the CGIAR Global Rice Breeding Platform (AfricaRice, IRRI, and CIAT), and Co-Lead of CGIAR’s Breeding for Tomorrow—Accelerated Breeding, he provides strategic and scientific leadership across global breeding initiatives. Dr. Katiyar’s career spans leading roles in CGIAR centers (IRRI, CIMMYT, AfricaRice), multinational seed industries (ADVANTA, BIOSEEDS), and public research institutions (IGKV). His research focuses on accelerated and predictive breeding, genomic selection, gene editing, and data-driven crop improvement for sustainable agriculture and climate resilience. He has secured over $50 million in competitive research grants. Recognized for his leadership and capacity building, Dr. Katiyar has trained over 1,000 scientists and supervised 80 postgraduate researchers, contributing significantly to global food security and the modernization of plant breeding programs across Asia and Africa.

Profile: Google Scholar

Featured Publications

Juma, R. U., Bartholomé, J., Thathapalli Prakash, P., Hussain, W., Platten, J. D., Katiyar, S. K., … (2021). Identification of an elite core panel as a key breeding resource to accelerate the rate of genetic improvement for irrigated rice. Rice.

Nguyen, V. H., Morantte, R. I. Z., Lopena, V., Verdeprado, H., Murori, R., Katiyar, S. K., … (2023). Multi-environment genomic selection in rice elite breeding lines. Rice.

Subbaiyan, G. K., Waters, D. L. E., Katiyar, S. K., Sadananda, A. R., Vaddadi, S., … (2012). Genome‐wide DNA polymorphisms in elite indica rice inbreds discovered by whole‐genome sequencing. Plant Biotechnology Journa.

Katiyar, S. K., Tan, Y., Huang, B., Chandel, G., Xu, Y., Zhang, Y., Xie, Z., & Bennett, J. (2001). Molecular mapping of gene Gm-6 (t) which confers resistance against four biotypes of Asian rice gall midge in China. Theoretical and Applied Genetics.

Kottapalli, P., Gaur, P. M., Katiyar, S. K., Crouch, J. H., Buhariwalla, H. K., Pande, S., … (2009). Mapping and validation of QTLs for resistance to an Indian isolate of Ascochyta blight pathogen in chickpea. Euphytica,

Rameswar Prasad Sah | Plant Breeding | Outstanding Scientist Award

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Dr. Rameswar Prasad Sah | Plant Breeding | Outstanding Scientist Award

ICAR-Central Rice Research Institute | India

Dr. Rameswar Prasad Sah is a Senior Scientist at the ICAR–National Rice Research Institute (NRRI), Cuttack, specializing in Genetics and Plant Breeding with a research focus on molecular breeding, direct-seeded rice, and the development of early-maturing, high-yielding rice varieties. He earned his B.Sc. (Agri.) with honours from IGKV, Raipur, and completed both his M.Sc. and Ph.D. in Plant Breeding and Genetics from Birsa Agricultural University, Ranchi, where he was the academic topper of his batch. With over 22 h-index, 46 i10-index, 1759 citations, and more than 120 scientific documents, Dr. Sah has made significant contributions to rice genomics, QTL mapping, and marker-assisted breeding. His research integrates physiological, molecular, and genomic tools to enhance stress tolerance and productivity in rice. He has co-authored several high-impact papers in journals such as Field Crops Research, Scientific Reports, and BMC Plant Biology, and contributed to numerous books and NRRI bulletins. His dedication to advancing sustainable rice production has been recognized through awards such as “Best Oral Presentation” at the 13th National Seed Congress (2024). Dr. Sah continues to contribute to national breeding programs and genomic innovations aimed at ensuring food security and climate-resilient rice cultivation in India.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Mohanty, S., Das, S., Panda, D., Choudhury, N. K., Mishra, B., Jena, R. K., Sah, R. P., Chandrappa, A. K., Navadagi, D. B., Raj, R. K. R., et al. (2025, September 29). Identification of novel quantitative trait loci and candidate genes associated with grain yield and related traits under low-light stress conditions in rice. Biomolecules.

Snehi, S., Singh, P. K., Beena, R., Kota, S., Sanwal, S. K., Ravi Kiran, K. T., Anilkumar, C., Chattopadhyay, K., Prakash, N. R., & Sah, R. P. (2025, June). QTL-meta-analysis and candidate gene(s) for anaerobic germination potential in rice. Journal of Plant Growth Regulation.

Anilkumar, C., Sah, R. P., Muhammed Azharudheen, T. P., Behera, S., Mohanty, S. P., Anandan, A., Marndi, B. C., & Samantaray, S. (2025, March). Integrating multi-trait genomic selection with simulation strategies to improve grain yield and parental line selection in rice. Annals of Applied Biology.

Sahoo, U., Biswal, M., Nayak, L., Kumar, R., Tiwari, R. K., Lal, M. K., Bagchi, T. B., Sah, R. P., Singh, N. R., Sharma, S., et al. (2025, March 30). Rice with lower amylose content could have reduced starch digestibility due to crystallized resistant starch synthesized by linearized amylopectin. Journal of the Science of Food and Agriculture.

Anilkumar, C., Sah, R. P., Beena, R., Muhammed Azharudheen, T. P., Kumar, A., Behera, S., Sunitha, N. C., Pradhan, S. K., Raj, K. R. R., Parameswaran, C., et al. (2023, August). Conventional and contemporary approaches for drought tolerance rice breeding: Progress and prospects. Plant Breeding.

Vera Pavese | Plant Breeding | Best Researcher Award

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Dr. Vera Pavese | Plant Breeding | Best Researcher Award

Università di Torino | Italy

Dr. Vera Pavese is a Postdoctoral Researcher at the University of Turin, Department of Agricultural, Forest and Food Sciences (DISAFA), Italy. She earned her PhD in Agricultural, Forest, and Food Sciences in 2022 under the supervision of Prof. Roberto Botta, following her Master’s in Plant Biotechnology (2017) and Bachelor’s in Natural Sciences (2015) from the same institution. Her research focuses on developing biotechnological tools to enhance the resilience of woody crops, integrating in vitro culture, CRISPR/Cas9 genome editing, LED-based priming, and RNA-based gene silencing (SIGS). She has pioneered transgene-free genome editing systems and demonstrated the biostimulant potential of LEDs in woody plant micropropagation. Dr. Pavese has authored 24 peer-reviewed papers, accumulating 237 citations and an h-index of 10. Her achievements have earned her four national Best Oral Presentation Awards, invitations as a keynote speaker at international symposia, and recognition as Session Chair at major conferences. A recipient of the RILO Young Researchers Grant (2024), she actively promotes Open Science and serves as Guest Editor for Plants and Agronomy. Her work advances sustainable crop improvement and genetic innovation, positioning her as a rising leader in woody plant biotechnology and genome engineering.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Marino, L. A., Ruffa, P., Mozzanini, E., Patono, D. L., Sereno, A., & Pavese, V. (2025). LEDs in plant tissue culture: Boosting micropropagation of Castanea sativa cultivars. Journal of Plant Growth Regulation.

Marino, L. A., Pavese, V., Ruffa, P., Ferrero, M., Acquadro, A., Barchi, L., Botta, R., & Torello Marinoni, D. (2024). Guardians of quality: Advancing Castanea sativa traceability using DNA analysis from seed to processed food. Scientia Horticulturae.

Pavese, V., Moglia, A., Acquadro, A., Barchi, L., Portis, E., Torello Marinoni, D., Valentini, N., Milani, A. M., Abbà, S., Silvestri, C., et al. (2023). Development of biotechnological tools for hazelnut breeding. Acta Horticulturae.

Ferrucci, A., Lupo, M., Turco, S., Pavese, V., Torello Marinoni, D., Botta, R., Cristofori, V., Mazzaglia, A., & Silvestri, C. (2023). A roadmap of tissue culture and biotechnology in European hazelnut (Corylus avellana L.). Plant Physiology and Biochemistry.

Nerva, L., Dalla Costa, L., Ciacciulli, A., Sabbadini, S., Pavese, V., Dondini, L., Vendramin, E., Caboni, E., Perrone, I., Moglia, A., et al. (2023). The role of Italy in the use of advanced plant genomic techniques on fruit trees: State of the art and future perspectives. International Journal of Molecular Sciences.

Syed Inzimam Ul Haq | Plant Physiology | Best Researcher Award

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Mr. Syed Inzimam Ul Haq | Plant Physiology | Best Researcher Award

Masaryk University, Czech Republic

Dr. Syed Inzimam Ul Haq is a passionate plant physiologist and PhD candidate at Masaryk University, Czechia, specializing in the analysis of photosynthetic activity using advanced biophysical methods such as in vivo chlorophyll fluorescence and spectral reflectance. With over 3 peer-reviewed publications and a strong research portfolio, he has an h-index of 1, over 13 citations. He holds an M.Phil. and BS in Botany from Islamia College Peshawar, Pakistan, and currently serves as a part-time cooperating staff member at the Department of Experimental Biology, Masaryk University. He has previously worked as a Lab Assistant and a Biology Teacher in Pakistan. His research interests include plant stress physiology, chlorophyll fluorescence, nanotechnology, CRISPR genome editing, and sustainable agriculture. He has presented his work at national and international conferences and mentored multiple undergraduate and postgraduate students. Notable projects include studies on the phytoremediation potential of crops and the physiological adaptation of plants under space-mimicking environments like Antarctic regolith. With a consistent Q1 publication record and international collaborations, Dr. Haq is committed to advancing knowledge in plant science and making impactful contributions to global agricultural sustainability.

Profiles: Scopus | Google Scholar

Featured Publications

Haq, S. I. U., Hájek, J., & Barták, M. (2025). From Antarctic regolith to lunar greenhouses: Mechanistic insights into Brassica rapa Photosystem II dynamics for sustainable space agriculture. Life Sciences in Space Research.

Haq, S. I. U., Tariq, F., Sama, N. U., Jamal, H., & Mohamed, I. H. (2025). Role of autophagy in plant growth and adaptation to salt stress. Planta, 261, 49.

Ullah, Z., Haq, S. I. U., Ullah, A., Asghar, M. A., Seleiman, M. F., Saleem, K., Zeng, F., Sama, N. U., Kamran, K., & Ahmad, S. (2024). Effect of green synthesized silver nanoparticles on growth and biochemical profile of Pearl millet under NaCl stress. Environment, Development and Sustainability, 1–20.

Haq, S. I. U., Zheng, D., Feng, N., Jiang, X., Qiao, F., He, J. S., & Qiu, Q. S. (2022). Progresses of CRISPR/Cas9 genome editing in forage crops. Journal of Plant Physiology, 179, 153860.

Xie, Y., Haq, S. I. U., Jiang, X., Zheng, D., Feng, N., Wang, W., He, J.-S., & Qiu, Q. S. (2022). Plant genome editing: CRISPR, base editing, prime editing, and beyond. Grassland Research, 1–10.

 

Shabeer Ahmad Dar | Plant Biotechnology | Best Researcher Award

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Dr. Shabeer Ahmad Dar | Plant Biotechnology | Best Researcher Award

CSIR-IIIM | India

Dr. Shabeer Ahmad Dar is an accomplished plant biotechnologist with a Ph.D. in Plant Tissue Culture and Mutagenesis from the University of Kashmir, India, and currently serves as a Research Associate focusing on tissue culture, mutagenesis, and genetic transformation for improving medicinal and ornamental plants. With experience as a contractual lecturer and assistant professor, he has led and contributed to multiple projects in micropropagation, in vitro mutagenesis, secondary metabolite production, and plant conservation biology. His work has resulted in several high-impact journal publications, including studies on Atropa acuminata (In Vitro Cellular & Developmental Biology – Plant), callus induction, antioxidant profiling, and ethnomedicinal surveys. He has accumulated about 58 citations and holds an h-index of 3. He earned a Young Scientist Award in Plant Sciences in 2022. His research interests lie at the interface of plant biotechnology, synthetic biology, stress physiology, mutagenesis, and conservation of endangered medicinal germplasm. He also mentors junior researchers and promotes collaborative, interdisciplinary research. In future, he aims to expand transgenic approaches, metabolic engineering, and sustainable production of bioactive compounds while continuing efforts in plant conservation and capacity building in biotechnology.

Profile: Scopus

Featured Publications

Dar, S. A., Nawchoo, I. A., Tyub, S., & Kamili, A. N. (2022). In vitro culture and biochemical and antioxidant potential of the critically endangered medicinal plant Atropa acuminata Royle ex Lindl of Kashmir Himalaya. In Vitro Cellular & Developmental Biology – Plant.

Dar, S. A., Nawchoo, I. A., Tyub, S., & Kamili, A. N. (2021). Effect of plant growth regulators on in vitro induction and maintenance of callus from leaf and root explants of Atropa acuminata Royle ex Lindl. Biotechnology Reports, 31, e00688.

Dar, S. A., Gulzar, N., Lone, I. M., & Mohammad, H. B. (2020). Ethnomedicinal plants used by tribal community of district Pulwama with special reference to Tehsil Tral, Jammu and Kashmir–India. International Research Journal of Plant Sciences, 11(1), 1–10. https://doi.org/10.14303/irjps.2020.005

Dar, S. A., Nawchoo, I. A., Tyub, S., & Kamili, A. N. (2021). An updated overview of Atropa acuminata Royle ex Lindl: A critically endangered medicinal plant of Kashmir Himalaya. Research and Reviews: Journal of Botanical Sciences.

Dar, S. A., Nawchoo, I. A., Tyub, S., & Kamili, A. N. (2020). Plant cell cultures: Important methods for production of secondary metabolites. Journal of Research and Development.

Mallesham Bulle | Plant Biotechnology | Outstanding Scientist Award

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Dr. Mallesham Bulle | Plant Biotechnology | Outstanding Scientist Award

Lousiana State University | United States

Dr. Mallesham Bulle, Ph.D., is a dedicated plant scientist with over a decade of experience in physiological, biochemical, and molecular investigations of abiotic stress tolerance in major crops, including chili pepper, rice, cotton, soybean, and maize. His research expertise spans plant transformation, CRISPR-Cas-mediated genome editing, phytohormone signaling, stress-response mechanisms, chloroplast and nuclear genome engineering, and omics-based approaches such as transcriptomics, metabolomics, and hormonomics. Dr. Bulle has led and contributed to multiple interdisciplinary projects, including climate-resilient rice and drought-tolerant legumes, securing significant research grants from USDA, NIFA, DBT, and United Soybean Board. He has developed robust plant regeneration and transformation systems, delivered novel transgenic and genome-edited crops, and mentored graduate and undergraduate researchers. His work demonstrates impactful contributions to crop improvement and abiotic stress resilience. His research interests include elucidating signaling pathways, deciphering fruit ripening mechanisms, exploring nitric oxide and phytohormone crosstalk, and discovering novel genes for crop stress tolerance. Dr. Bulle’s work has been recognized through patents for extending produce shelf-life and innovations in plant biotechnology. He continues to drive transformative research aimed at sustainable agriculture and climate-resilient crop development.

Profiles: Google Scholar | Orcid

Featured Publications

Bulle, M., Abbagani, S., & Raza, A. (2025). Genome blaze: Engineering chilli pepper chloroplasts for sustainable production of capsaicinoids through organellar genome editing. Plant Biology.

Bulle, M., Rahman, M. M., Islam, M. R., & Abbagani, S. (2025). Strategies to develop climate-resilient chili peppers: Transcription factor optimization through genome editing. Planta.

Rahman, M. M., Keya, S. S., Bulle, M., Ahsan, S. M., Rahman, M. A., Roni, M. S., Al Noor, M. M., & Hasan, M. (2025). Past trauma, better future: How stress memory shapes plant adaptation to drought. Functional Plant Biology.

Keya, S. S., Islam, M. R., Pham, H., Rahman, M. A., Bulle, M., Patwary, A., Kanika, M. M.-A.-R., Hemel, F. H., Ghosh, T. K., & Huda, N. (2025). Thirsty, soaked, and thriving: Maize morpho-physiological and biochemical responses to sequential drought, waterlogging, and re-drying. Plant Stress.

Bulle, M., Venkatapuram, A. K., Rahman, M. M., Attia, K. A., Mohammed, A. A., Abbagani, S., & Kirti, P. B. (2024). Enhancing drought tolerance in chilli pepper through AdDjSKI-mediated modulation of ABA sensitivity, photosynthetic preservation, and ROS scavenging. Physiologia Plantarum.

Nadia Daskalova | Plant Breeding | Best Researcher Award

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Assoc. Prof. Dr. Nadia Daskalova | Plant Breeding | Best Researcher Award

Technical University of Varna, Department Plant Production | Bulgaria

Dr. Nadia Georgieva Daskalova is an Associate Professor of Plant Breeding at the Technical University of Varna, with over 26 years of professional experience, including 17 years in research and 14 years in teaching. She earned her Master’s degree in Plant Protection from the Agricultural University of Plovdiv and completed her Ph.D. in Plant Breeding in 2015. Dr. Daskalova’s research focuses on cereals, particularly wheat, rye, and triticale, with special emphasis on genetic variability, disease resistance, and hybridization using embryo rescue techniques. She has successfully developed synthetic amphiploids and identified new genes in hexaploid wheat, contributing to grain quality improvement in bread wheat varieties. She has authored 16 peer-reviewed publications (2020–2024), multiple monographs, textbooks, and is engaged in national and international collaborative projects, including with Ukraine’s National Academy of Agrarian Sciences. Her work is widely recognized, with a citation record indexed in Scopus (h-index: 4) and multiple patents under process. Dr. Daskalova has served as an editorial reviewer for Springer Nature journals and actively participates in scientific committees and professional memberships. Her contributions advance sustainable cereal breeding and agricultural biotechnology, combining practical applications with academic excellence. She is a recipient of the International Plant Scientist Awards, reflecting her commitment to innovation and global impact in plant breeding and genetics.

Profiles: Scopus | Orcid

Featured Publications

Daskalova, N., & Spetsov, P. (2025). Variation in rye (Secale cereale L.) inbred lines with different type of glaucousness. Journal of Crop Science and Biotechnology. Advance online publication.

Daskalova, N., Georgieva, M., Angelova, R., & Spetsov, P. (2023). Agronomic performance of introgression lines derived from a cross of common wheat with synthetic hexaploid amphiploid 530-1. Journal of Central European Agriculture.

Spetsov, P., & Daskalova, N. (2023). Genetic basis of pest resistance in wheat-rye and triticale stocks. Cytology and Genetics.

Spetsov, P., & Daskalova, N. (2022). Resistance to pathogens in wheat-rye and triticale genetic stocks. Journal of Plant Pathology.

Daskalova, N., Doneva, S., & Spetsov, P. (2021). Characterization of triticale (× Triticosecale Wittmack) accessions and reciprocal hybrids possessing wheat 1D chromosome. Agriculturae Conspectus Scientificus.

Adane Gebeyehu | Plant Breeding | Best Researcher Award

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Dr. Adane Gebeyehu | Plant Breeding | Best Researcher Award

Swedish University of Agricultural Sciences | Sweden

Dr. Adane Gebeyehu Demissie is a distinguished plant genomics and biotechnology researcher with over 12 years of experience advancing genomic innovations for crop improvement. He holds a PhD in Biotechnology from Addis Ababa University in collaboration with the Swedish University of Agricultural Sciences (SLU), an MSc in Plant Biotechnology from Wageningen University, and an MSc in Plant Breeding from Bahir Dar University. His research integrates genomics-assisted breeding, QTL mapping, GWAS, genomic selection, RNA-seq, and CRISPR-Cas9 gene editing to develop climate-resilient oilseed and cereal crops. With an h-index of 3, more than 23 citations, and over 4 scientific documents, Dr. Demissie has published extensively in high-impact journals including Scientific Reports, Frontiers in Plant Science, and Agronomy. His professional experience spans postdoctoral research at SLU, senior research roles at Ethiopia’s Bio and Emerging Technology Institute, and lecturing positions where he designed the first BSc curriculum in Agricultural Biotechnology in Ethiopia. He has secured competitive grants from Carl-Tryggers Foundation, Sida-SLU, and the Ethiopian Science Foundation, and received prestigious recognitions such as the Young Scientist Award from the Ethiopian Academy of Sciences. Passionate about mentoring and policy development, Dr. Demissie continues to bridge cutting-edge genomics with agricultural innovation to enhance global food security.

Profiles: Scopus | Orcid

Featured Publications

“Transcriptome analysis identifies genes regulating self-compatibility, flowering time, and oil biosynthesis in Noug (Guizotia abyssinica)”

“SNP-based linkage mapping reveals novel quantitative trait loci for yield traits in noug (Guizotia abyssinica (L. f.) Cass.)”

“Temperature affects major fatty acid biosynthesis in noug (Guizotia abyssinica) self-compatible lines”

“Sesame, an Underutilized Oil Seed Crop: Breeding Achievements and Future Challenges”

“RNA-Seq Provides Novel Genomic Resources for Noug (Guizotia abyssinica) and Reveals Microsatellite Frequency and Distribution in Its Transcriptome”