Dr. Samia Daldoul, Centre of biotechnology of borj cedria, Tunisia
Scopus
Summary:
Dr. Samia Daldoul is an outstanding researcher in plant biotechnology, specializing in grapevine stress responses and abiotic stress tolerance. Her contributions are scientifically relevant, internationally recognized, and impactful in the context of sustainable agriculture. She has a strong publication record, international collaborations, and interdisciplinary expertise, making her an excellent candidate for the Women Researcher Award.
🎓 Education
Dr. Samia Daldoul earned her Ph.D. in Plant Biotechnology from the Faculty of Sciences of Tunis, Tunisia, in 2010. Following her doctoral studies, she completed a postdoctoral fellowship in 2011 at the Center of Biotechnology, Technopark of Borj-Cédria, Tunisia.
💼Experience
Since 2012, Dr. Daldoul has held a permanent position as an Assistant Professor at the Center of Biotechnology of Borj-Cédria in Tunisia. She has also participated in multiple international fellowships and research collaborations, notably through the Deutscher Akademischer Austauschdienst (DAAD) program in Germany, where she worked with teams specializing in genomics, genetic engineering, virology, and plant pathology. Additionally, she undertook a short-term scientific mission funded by the European Network COST in France, focusing on grapevine defense mechanisms and stress adaptation.
🔬Research Focus
Dr. Daldoul specializes in plant biotechnology, with a strong emphasis on grapevine responses to abiotic and biotic stresses, particularly salinity and drought. Her research integrates genomics, transcriptomics, and metabolomics approaches to understand plant resilience mechanisms. She has been actively involved in international research projects addressing viticulture sustainability, grapevine improvement through omics technologies, genome editing, and epigenetic mechanisms for crop adaptation to climate change.
Awards
Dr. Daldoul has received multiple prestigious fellowships from DAAD, allowing her to work with leading research institutions in Germany. She has also contributed to several high-impact international projects, including those funded by the European Union and Marie Skłodowska-Curie Actions.
Publications
- Deciphering the regulatory networks involved in mild and severe salt stress responses in the roots of wild grapevine Vitis vinifera spp. sylvestris – Daldoul, S., Hanzouli, F., Boubakri, H., Mliki, A., Gargouri, M. (2024) – 0 citations.
- Evidence of an active role of resveratrol derivatives in the tolerance of wild grapevines (Vitis vinifera ssp. sylvestris) to salinity – Hanzouli, F., Zemni, H., Gargouri, M., Vincenzi, S., Daldoul, S. (2024) – 0 citations.
- Stilbene production as part of drought adaptation mechanisms in cultivated grapevine (Vitis vinifera L.) roots modulates antioxidant status – Hanzouli, F., Daldoul, S., Zemni, H., Mliki, A., Gargouri, M. (2024) – 0 citations.
- Enhancing biological activities and phenolic content of wild grapevine roots by severe drought stress – Daldoul, S., Hanzouli, F., Fares, N., Mliki, A., Gargouri, M. (2024) – 1 citation.
- A Tunisian wild grape leads to metabolic fingerprints of salt tolerance – Daldoul, S., Gargouri, M., Weinert, C., Mliki, A., Nick, P. (2023) – 5 citations.
- Ectopic expression of a grapevine alkaline α-galactosidase seed imbibition protein VvSIP enhanced salinity tolerance in transgenic tobacco plants – Ben-Amar, A., Daldoul, S., Allel, D., Wetzel, T., Mliki, A. (2023) – 3 citations.
- The root transcriptome dynamics reveals new valuable insights in the salt-resilience mechanism of wild grapevine (Vitis vinifera subsp. sylvestris) – Daldoul, S., Hanzouli, F., Hamdi, Z., Mliki, A., Gargouri, M. (2022) – 10 citations.
- First report of grapevine Virus L in grapevine in Tunisia – Ben Amar, A., Daldoul, S., Zemni, H., Olmos, A., Ruiz-García, A.B. (2020) – 5 citations.
Conclusion: