Alžběta Danielisová | Humanities and Science Integration | Excellence in Research Award

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Dr. Alžběta Danielisová | Humanities and Science Integration | Excellence in Research Award

Institute of Archaeology of the CAS, Prague | Czech Republic

Dr. Alžběta Danielisová is a distinguished archaeological scientist whose research integrates geochemistry, biochemistry, and material science to advance the understanding of past human societies across Europe and Southern Arabia. Her work focuses on the systematic interpretation of biochemical and geochemical datasets, combining humanities-driven archaeological inquiry with innovative scientific methodologies. She specializes in multi-isotopic, proteomic, and provenance analyses applied to metallic artefacts particularly copper alloys as well as biological materials, including human and animal remains, enabling high-resolution reconstructions of ancient mobility, dietary habits, technological practices, and socio-economic organization. Dr. Alžběta Danielisová has an extensive publication record, with 35 Scopus-indexed articles, 514 citations from 452 citing documents, and an h-index of 11, reflecting her significant impact in the field of archaeological science. Her research has produced major insights into Iron Age transformations in Central Europe, early Medieval cosmopolitanism in Finland, Neolithic occupation in Oman, and environmental adaptation in marginal landscapes. In collaboration with the Max Planck Institute in Mainz, she has pioneered nitrogen isotope analysis of human enamel, providing novel perspectives on dietary resilience and life-history trajectories. Her completed and ongoing projects expand archaeological science through the integration of isotopic systems, advanced geochemical modelling, and spatial data analysis, contributing to an understanding of risk management, resource strategies, and long-term cultural resilience. Recognized internationally for her interdisciplinary innovation, methodological advancements, and collaborative research, Danielisová continues to shape the field by producing evidence-based reconstructions of ancient lifeways, offering both historical insight and frameworks that inform contemporary studies of sustainability, adaptation, and socio-environmental dynamics.

Profiles: Scopus | ORCID | ResearchGate

Featured Publications

  1. Danielisová, A., Hajnalova, M., Pokorna, A., Kočár, P., Kertés, S., Bursák, D., Pachnerova Brabcova, K., Tvrdý, Z., Šálková, T., Komárková, V., & Světlík, I. (2025). Multiproxy evidence of millet reliance and selective dietary change during Iron Age transformation in Central Europe. Scientific Reports, 15(1).

  2. Danielisová, A., Maiorano, M. P., Sneberger, J., Ackerman, L., Daněček, D., Garba, R., Martínez-García, A., & Lüdecke, T. (2025). The first collective Neolithic megalithic tomb in Oman. Antiquity.

  3. Garba, R., Czech Academy of Sciences, & Danielisová, A. (2025). Archaeological landscape and environmental dynamics of Duqm and Nejd (ARDUQ) | Season 2 (2022–2023). In Athar: Bulletin of Archaeological Research in the Sultanate of Oman, Issue 1 (pp. 54–62). Ministry of Heritage and Tourism, Sultanate of Oman, Muscat.

  4. Nordfors, U., Danielisová, A., Etu‐Sihvola, H., Ackerman, L., Mannermaa, K., & Arppe, L. (2025). The origins of Viking Age dogs in Luistari, Eura, Finland. International Journal of Osteoarchaeology, 35(4).

  5. Danielisová, A., Nordfors, U., Kertés, S., Wessman, A., Ackerman, L., Oinonen, M., Etu-Sihvola, H., & Arppe, L. (2025). Multi-isotopic evidence reveals the emergence of a cosmopolitan community at the Luistari cemetery in Eura, Finland, during the early Medieval period (600–1130 CE). Archaeological and Anthropological Sciences, 17(3).

Oguz Ozcelik | Medicine and Health Sciences | Best Researcher Award

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Prof. Dr. Oguz Ozcelik | Medicine and Health Sciences | Best Researcher Award

Kastamonu University | Turkey

Dr. Oğuz Özçelik (MD, PhD) is a distinguished Professor at Kastamonu University, Turkey, widely recognized for his pioneering work in exercise physiology, metabolism, and oxidative stress. His academic foundation in medicine and physiology has driven decades of impactful research exploring the complex relationships between aerobic fitness, respiratory regulation, and metabolic health. Through rigorous experimental design and translational insights, he has advanced understanding of how exercise modulates physiological and biochemical responses in both healthy and clinical populations. Dr. Oğuz Özçelik’s scientific contributions span more than forty peer-reviewed publications in international journals, reflecting depth, innovation, and clinical relevance. His notable works include studies on the relationship between aerobic fitness levels and isocapnic buffering periods during incremental exercise tests (Cellular and Molecular Biology, 2017, cited by 132), the effects of body mass index on maximal work production and aerobic capacity (Physiological Research, 2004, cited by 84), and the role of nesfatin-1 in glucose tolerance and depressive disorders (Physiological Research, 2016; Psychiatry Investigation, 2018). With an h-index of 13 and more than 474 citations, his scholarly influence demonstrates sustained research excellence. Dr. Oğuz Özçelik’s current investigations focus on the hormonal and metabolic adaptations to exercise and their relevance to neuroendocrine and cardiometabolic health. His leadership, academic rigor, and enduring contributions to human performance and biomedical science exemplify the highest standards of professional achievement and research integrity within the global scientific community.

Profile: Scopus | Google Scholar | ORCID

Featured Publications

  1. Algul, S., Ozcelik, O., & Yilmaz, B. (2017). Evaluation of relationship between aerobic fitness level and range of isocapnic buffering periods during incremental exercise test. Cellular and Molecular Biology, 63(3), 78–82.

  2. Ozcelik, O., Aslan, M., Ayar, A., & Kelestimur, H. (2004). Effects of body mass index on maximal work production capacity and aerobic fitness during incremental exercise. Physiological Research, 53(2), 165–170.

  3. Algul, S., Ozkan, Y., & Ozcelik, O. (2016). Serum nesfatin-1 levels in patients with different glucose tolerance levels. Physiological Research, 65(6), 979–985.

  4. Ozcelik, O., Ward, S. A., & Whipp, B. J. (1999). Effect of altered body CO₂ stores on pulmonary gas exchange dynamics during incremental exercise in humans. Experimental Physiology, 84(5), 999–1011.

  5. Algul, S., & Ozcelik, O. (2018). Evaluating the levels of nesfatin-1 and ghrelin hormones in patients with moderate and severe major depressive disorders. Psychiatry Investigation, 15(2), 214–218.