Hyoungsoo Kim | Scientific Breakthroughs | Research Excellence Award

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Prof. Hyoungsoo Kim | Scientific Breakthroughs | Research Excellence Award

KAIST | South Korea

Dr. Hyoungsoo Kim is a Professor of Mechanical Engineering at KAIST and Principal Investigator of the Fluid & Interface Laboratory, where his research sits at the intersection of experimental fluid mechanics, soft-matter hydrodynamics, and interfacial instabilities. His work uncovers novel physicochemical phenomena across nano- to macro-scales using advanced optical diagnostics, custom experimental platforms, theoretical modeling, scaling laws, and data-driven analysis. He has made seminal contributions to Marangoni flows, evaporation-driven patterning, liquid-metal systems, and interfacial transport, with applications spanning uniform coatings, semiconductor processing, micro/nanoparticle removal, flexible electronics, metamaterials, and plasma control.

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Julie Leignadier | Scientific Breakthroughs | Research Excellence Award

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Dr. Julie Leignadier | Scientific Breakthroughs | Research Excellence Award

Lucas Meyer Cosmetics by Clariant | France

Dr. Julie Leignadier is an accomplished immunologist and biologist with extensive experience in both fundamental research and applied biotechnology. She earned her PhD in Montreal, where over five years she studied the mechanisms underlying the strength of the memory T cell receptor, gaining deep expertise in adaptive immunity and molecular signaling. Her doctoral work provided critical insights into immune memory and receptor dynamics, establishing a solid foundation for her future research. Following her PhD, Dr. Leignadier spent eight years as a postdoctoral researcher in leading Swiss and French laboratories, where she led multiple projects at the intersection of immunology and oncology. During this period, she honed her skills in experimental design, cellular and molecular biology, and translational research, contributing to high-impact publications and fostering international collaborations. Her work in cancer immunology emphasized understanding complex immune responses and translating fundamental findings into potential therapeutic strategies. In 2020, Dr. Leignadier joined Lucas Meyer Cosmetics by Clariant as Head of the Biology Laboratory, where she oversees the development of innovative and sustainable active ingredients for the cosmetics industry. In this role, she leverages her expertise in cellular biology and immunology to create biologically effective compounds that meet both consumer needs and environmental sustainability standards. Her leadership drives research initiatives that bridge cutting-edge science with industrial application, positioning the company at the forefront of sustainable cosmetic innovation. Dr. Leignadier remains committed to integrating scientific excellence with industrial innovation, applying her deep knowledge of immunology and molecular biology to deliver products that are both effective and environmentally responsible. Her career reflects a unique blend of academic rigor and practical expertise, making her a recognized leader in biologically informed cosmetic research.

 


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Xingwang Bian | Scientific Breakthroughs | Research Excellence Award

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Mr. Xingwang Bian | Scientific Breakthroughs | Research Excellence Award

Mr. Xingwang Bian | Beijing Vacuum Electronics Research Institute | China

Xingwang Bian is a senior-level researcher at the Beijing Vacuum Electronics Research Institute, working in the domain of vacuum electronics and high-frequency device engineering. He specializes in the research, design, and experimental development of traveling-wave tubes (TWTs) operating at millimeter-wave and terahertz (THz) frequencies — especially in the G-band. His work leverages advanced slow-wave structure designs, electron-beam systems, and optimized focusing/magnetics, aiming to push the power, bandwidth, and efficiency envelope for THz vacuum-electronic amplifiers.  Among his important contributions: he co-authored demonstration of a broadband continuous-wave G-band TWT providing multi-GHz bandwidth and tens of watts of output power — a promising step toward practical THz wireless communications and radar systems.  Bian has also been centrally involved in the development of pulsed G-band TWTs for radar applications, combining innovations in slow-wave structure (modified folded waveguide), high-current electron beams, and phase-velocity tapering to reach high output power levels (on the order of 100 W+ in pulsed operation) in a compact, vacuum-electronic device.  Through these efforts, Bian has helped advance what is arguably one of the leading THz-band vacuum-electronic technology pipelines from BVERI, contributing to both academic publications and applied-device development.  In sum: Bian is a specialized vacuum-electronics engineer/scientist whose expertise lies at the intersection of electromagnetic design, electron-beam physics, and high-frequency amplifier fabrication — with a clear emphasis on making high-power, wide-band, THz-band TWTs viable for radar, sensing, and communication applications.

Publication Profile

Scopus | ORCID

Featured Publications 

Bian, X., Pan, P., Du, X., Feng, Y., Li, Y., Song, B., & Feng, J. (2025). Design and experiment of modified folded waveguide slow wave structure for 60-W G-band traveling wave tube. IEEE Microwave and Wireless Technology Letters.

Bian, X., Pan, P., Xian, S., Yang, D., Zhang, L., Cai, J., & Feng, J. (2025). A G-band pulsed wave traveling wave tube for THz radar. Preprints.

Zhu, M., Cai, Y., Zhang, L., Zhang, J., Hua, B., Ma, K., Ding, J., Bian, X., et al. (2025). Surpassing kilometer-scale terahertz wireless communication beyond 300 GHz enabled by hybrid photonic–electronic synergy. Research Square.

Bian, X., Pan, P., Du, X., Song, B., Zhang, L., Cai, J., & Feng, J. (2024). Demonstration of a high-efficiency and wide-band 30-W G-band continuous wave traveling wave tube. IEEE Electron Device Letters.

Feng, Y., Bian, X., Song, B., Li, Y., Pan, P., & Feng, J. (2022). A G-band broadband continuous wave traveling wave tube for wireless communications. Micromachines

Tang Qingjun | Scientific Breakthroughs | Best Researcher Award

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Assoc. Prof. Dr. Tang Qingjun | Scientific Breakthroughs | Best Researcher Award

Assoc. Prof. Dr. Tang Qingjun | Technical Institute of Physics and Chemistry, Chinese Academy of Sciences | China

This research portfolio centers on advancing space thermal control and cryogenic refrigeration technologies, with significant emphasis on precision temperature management, lightweight system design, and enhanced performance for scientific payloads in orbit. The work covers key technological domains such as flexible heat transfer, thermal matching for low-temperature devices, insulation support structures, contamination control, and integrated thermal–mechanical engineering for spacecraft. A major focus of the research involves developing high-precision low-temperature control systems for space missions, enabling stable operation of sensitive optical payloads in complex orbital environments. Through comprehensive mastery of mechanics, thermodynamics, electromagnetics, and automated temperature regulation, several critical engineering challenges were overcome. These include improving temperature stability, reducing micro-vibration output, and optimizing thermal interfaces for high-performance detection instruments. The resulting technologies enhanced the scientific capabilities of spaceborne payloads and earned recognition from international experts in spacecraft engineering. Another central contribution lies in the development of lightweight pulse tube cryocoolers for space applications. Under major scientific and engineering programs, extensive basic and applied studies were conducted to design and optimize compact refrigeration systems. A series of prototypes was successfully built, achieving significant reductions in mass while preserving cooling capacity, operational lifespan, and structural robustness. These innovations contribute to next-generation spacecraft refrigeration solutions, supporting advanced astronomical observations and deep-space scientific missions. The research integrates theoretical modeling, high-frequency performance analysis, experimental verification, and system-level optimization. Publications include studies on coaxial and single-stage pulse tube cryocoolers, micro-scale units capable of reaching extremely low temperatures, inertance tube phase-shifting characteristics, multi-cold-finger systems, and thermo-mechanical behavior of cryogenic components. The work has appeared in leading scientific journals and international conferences covering thermal engineering, cryogenics, refrigeration science, and astronomical instrumentation. Collectively, these contributions advance cutting-edge cryogenic and thermal control technologies essential to modern space science, supporting higher-accuracy payloads, more efficient cooling solutions, and improved performance of future spacecraft systems.

Profile: Scopus

Featured Publications

Liu, C., Tian, B., Ma, J., Niu, Y., Tang, Q., Ma, Y., & Cai, J. (2025). Experimental investigation of a single-stage micro pulse tube cryocooler operating at 59 Hz with liquid nitrogen precooling: Achieving 14.8 K under 5 W input power. International Journal of Refrigeration.

Tian, B., Liu, C., Ma, J., Niu, Y., Tang, Q., Ma, Y., & Cai, J. (2025). Investigation on a micro pulse tube cryocooler operating at 152 Hz. Cryogenics.

Xiaoping Ren | Scientific Breakthroughs | Distinguished Scientist Award

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Prof. Dr. Xiaoping Ren | Scientific Breakthroughs | Distinguished Scientist Award

Prof. Dr. Xiaoping Ren | Affiliated Hospital of Guangxi University | China

Dr. Xiaoping Ren is an internationally recognized surgeon and scientist known for pioneering breakthroughs in hand transplantation, spinal cord fusion, and head transplantation research. He designed the world’s first clinical hand allotransplantation model, contributed to the United States’ first hand transplant, and discovered key mechanisms such as RPCT and RCI. He led landmark achievements including the first mouse head transplant, the first human head-transplant surgical model, and multiple world-first advances in spinal cord fusion that restored neural continuity in animal studies. His work established him as a global leader in paralysis treatment and regenerative reconstruction. Dr. Ren has earned major international honors, including election to the Russian Academy of Natural Sciences, fellowship of the International College of Surgeons, and leadership roles such as Chief Scientist of the GICUP Alliance, supported by an extensive publication record across microsurgery, neurology, cardiology, and regenerative medicine.

Profiles: Scopus 

Featured Publications

Ren, X., et al. (2025). Establishment of a canine model of vascularized allogeneic spinal cord transplantation and preliminary study on spinal cord continuity reconstruction. Chinese Journal of Reparative and Reconstructive Surgery.

Ren, X., et al. (2024). Recovery of independent ambulation after complete spinal cord transection in the presence of the neuroprotectant polyethylene glycol in monkeys. IBRO Neuroscience Reports.

Ren, X., et al. (2024). A novel strategy for spinal cord reconstruction via vascularized allogeneic spinal cord transplantation combined with spinal cord fusion. CNS Neuroscience and Therapeutics.

Ren, X., et al. (2024). Developing preclinical dog models for reconstructive severed spinal cord continuity via spinal cord fusion technique. IBRO Neuroscience Reports.

Ren, X., et al. (2023). Effect of vascularized lymph node transplantation combined with lymphatico-venous anastomosis in the treatment of lymphedema after breast cancer surgery. Chinese Journal of Plastic Surgery.

Sergey Pulinets | Scientific Breakthroughs | Best Researcher Award

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Prof. Sergey Pulinets | Scientific Breakthroughs | Best Researcher Award

Prof. Sergey Pulinets | Space Research Institute of the Russian Academy of Sciences (RAS) | Russia

Prof. Sergey A. Pulinets is a leading geophysicist and space plasma physicist  in the fields of space plasma physics, ionospheric physics, and geophysics. A graduate of the Faculty of Physics at Lomonosov Moscow State University , he has held major scientific and administrative positions at IZMIRAN, the National Autonomous University of Mexico (UNAM), and the Institute of Applied Geophysics, before joining the Space Research Institute (IKI RAS) in 2009 as Chief Research Scientist. Prof. Pulinets is internationally recognized for his pioneering studies on ionization processes and their effects on the atmosphere, leading to the development of a comprehensive Lithosphere–Atmosphere–Ionosphere coupling model, widely used today for short-term earthquake precursor monitoring. He has led and participated in numerous space experiments aboard Soviet and Russian satellites and currently serves as the chief designer of the LAERT ionosonde-radar, part of the “Ionosonde-2025” satellite constellation under the Russian Federal Space Program. He has authored over 192 scientific publications, which have garnered 6,824 citations across 2,736 documents, with an h-index of 38 (Scopus). His work integrates multidisciplinary approaches to earthquake forecasting, as reflected in his monographs with Springer, AGU/Wiley, and IOP Publishing. Prof. Pulinets is a member of COSPAR, URSI, EMSEV, and the International Academy of Astronautics (IAA) and serves as an editor for MDPI Atmosphere and the RAS journal Geomagnetism and Aeronomy. He has reviewed for more than 30 international journals including JGR, Radio Science, and Natural Hazards. His scientific achievements have been recognized with VDNKh Bronze and Silver Medals, the Korolev Medal, and numerous honors from the Russian Federation of Cosmonautics. Holding 10 patents and one scientific discovery, Prof. Pulinets stands among the top 25 most-cited Russian scientists in geophysics.

Profiles: Scopus | Google Scholar | Orcid | Research Gate

Featured Publications 

Ouzounov, D., Inan, S., Kalenda, P., Neumann, L., Pulinets, S., Liu, J.-Y., Shen, X., Yan, R., Rušajová, J., Kafatos, M. C., et al. (2025, January 20). Multi-parameter study of the pre-earthquake phase associated with the Kahramanmaraş sequence in Türkiye on February 6th, 2023. EGUsphere Preprint. https://doi.org/10.5194/egusphere-egu24-6407

Smirnov, S., Pulinets, S., & Bychkov, V. (2024, December 9). Some effects of the Shiveluch Volcano eruption of 10 April 2023 on atmospheric electricity and the ionosphere. Atmosphere, 15(12), 1467. https://doi.org/10.3390/atmos15121467

Pulinets, S., & Velasco Herrera, V. M. (2024, August 5). Earthquake precursors: The physics, identification, and application. Geosciences, 14(8), 209. https://doi.org/10.3390/geosciences14080209

Pulinets, S., Mironova, I., Miklyaev, P., Petrova, T., Shitov, A., & Karagodin, A. (2024, January 27). Radon variability as a result of interaction with the environment. Atmosphere, 15(2), 167. https://doi.org/10.3390/atmos15020167

Pulinets, S. A. (2024, January 22). Physical bases of the short-term forecast of earthquakes. Astronomical and Astrophysical Transactions, 1476-3540. https://doi.org/10.17184/eac.8366

Liu, J.-Y. T., Shen, X., Chang, F.-Y., Chen, Y.-I., Sun, Y.-Y., Chen, C.-H., Pulinets, S., Hattori, K., Ouzounov, D., Tramutoli, V., et al. (2024, January 20). Spatial analyses on pre-earthquake ionospheric anomalies and magnetic storms observed by China seismo-electromagnetic satellite in August 2018. Geoscience Letters, 11(1), 20. https://doi.org/10.1186/s40562-024-00320-2

Grimalsky, V., Kotsarenko, A., Yutsis, V., Pulinets, S., & Del Razo Gonzalez, A. (2023, December 29). New insights into the simulations of electric currents for discharges and ULF magnetic-field perturbations: Applications to the Popocatepetl Volcano and a micro-discharge model. Remote Sensing, 16(1), 151. https://doi.org/10.3390/rs16010151

Shitov, A. V., Pulinets, S. A., & Budnikov, P. A. (2023, August). Effect of earthquake preparation on changes in meteorological characteristics (based on the example of the 2003 Chuya earthquake). Geomagnetism and Aeronomy, 63(6), 745–755. https://doi.org/10.1134/s0016793223600285

Alexander Migdal | Scientific Breakthroughs | Best Researcher Award

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Prof. Alexander Migdal | Scientific Breakthroughs | Best Researcher Award 

Prof. Alexander Migdal | Institute for Advanced Study | United States

Alexander A. Migdal is a renowned theoretical physicist with a lifetime of pioneering contributions to mathematical and theoretical physics. Currently a Member of the School of Mathematics at the Institute for Advanced Study, Princeton, he has advanced key areas of physics including quantum field theory, gauge theory, turbulence, and quantum gravity. Educated at the Landau Institute for Theoretical Physics, Migdal has held leading academic positions at prestigious institutions such as Princeton University and New York University. His groundbreaking work includes the Migdal–Kadanoff recursion equations, the Makeenko–Migdal loop equations in large-N QCD, the matrix model solution of two-dimensional quantum gravity, and recent advances in the exact solution of turbulence. Internationally recognized for his achievements, he has received distinguished honors such as the Landau–Weizmann Award and has delivered invited lectures across the globe, continuing to shape modern physics and inspire new generations of researchers.

Profile: OrcidGoogle Scholar

Featured Publications

Migdal, A. (2025). Spontaneous quantization of the Yang–Mills gradient flow. Nuclear Physics B. Advance online publication.

Migdal, A. (2025). Duality of Navier–Stokes to a one-dimensional system. International Journal of Modern Physics A. Advance online publication.

Migdal, A. (2024, December 23). Fluid dynamics duality and solution of decaying turbulence. Preprints.

Migdal, A. (2024, November 12). Duality of the Navier–Stokes dynamics and lack of finite-time explosion (Version 2). Preprints.

Migdal, A. (2024, November 5). Duality of the Navier–Stokes dynamics and lack of finite-time explosion (Version 1). Preprints.

Migdal, A. (2024). Quantum solution of classical turbulence: Decaying energy spectrum. Physics of Fluids, 36(9), 095117.

Migdal, A. (2024, August 4). Quantum solution of classical turbulence: Decaying energy spectrum (Version 3). Qeios.

Migdal, A. (2024, July 9). Quantum solution of classical turbulence: Decaying energy spectrum (Version 14). Preprints.

Migdal, A. (2024, July 9). Quantum solution of classical turbulence: Decaying energy spectrum (Version 2). Qeios.

Migdal, A. (2024, July 3). Quantum solution of classical turbulence: Decaying energy spectrum. Qeios.

Migdal, A. (2024, June 3). Quantum solution of classical turbulence: Decaying energy spectrum (Version 12). Preprints.

Migdal, A. (2024, May 6). Quantum solution of classical turbulence: Decaying energy spectrum (Version 11). Preprints.

gülçin gacar | Scientific Breakthroughs | Distinguished Scientist Award

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Assoc. Prof. Dr. gülçin gacar | Scientific Breakthroughs | Distinguished Scientist Award

Assoc. Prof. Dr. gülçin gacar | KOCAELI UNIVERSITY, Turkey

Dr. Gülçin Gacar is an Associate Professor at Kocaeli University, serving at the Center for Stem Cell and Gene Therapies within the Institute of Health Sciences. With a strong background in clinical microbiology, her research explores mesenchymal stem cells, exosomes, extracellular vesicles, and regenerative therapies. She actively leads and contributes to national scientific projects and serves as a mentor to graduate students. Her work bridges experimental research with clinical applications, advancing the field of stem cell biology through innovation and interdisciplinary collaboration.

Academic Profile 

ORCID, Google Scholar

Education

Dr. Gülçin Gacar pursued her academic training in medical and life sciences with a strong emphasis on clinical microbiology and cellular biology. Her foundational education equipped her with deep theoretical and practical knowledge of molecular biology, immunology, and biotechnology. Building upon this, she specialized in advanced studies of stem cells and regenerative medicine, laying the groundwork for her future research in cellular therapies and translational medicine. Her education has been a critical driver in shaping her academic vision and her interdisciplinary approach to complex biomedical challenges.

Professional Experience

Dr. Gacar currently holds the position of Associate Professor at Kocaeli University, where she is actively involved with the Center for Stem Cell and Gene Therapies. Over the years, she has gained extensive academic and research experience, having taught and mentored at undergraduate and postgraduate levels. She plays a vital role in supervising graduate theses and guiding students in advanced biomedical research. Beyond her teaching responsibilities, she is also a principal investigator and research consultant on numerous scientific projects funded by national bodies such as TÜBİTAK. Her experience includes close collaboration with multidisciplinary teams working on cellular therapies, tissue engineering, and experimental models of disease. Her leadership in research has contributed significantly to the academic output of her department and to the scientific community at large.

Research Interests

Dr. Gacar’s research focuses on the therapeutic potential of mesenchymal stem cells, exosomes, and extracellular vesicles, particularly in the context of neurodegenerative diseases, cancer biology, and tissue regeneration. Her work integrates cellular and molecular techniques to investigate disease mechanisms and therapeutic responses in experimental models. She has conducted studies on the effects of stem-cell-derived exosomes in Alzheimer’s disease models, explored the anti-inflammatory potential of compounds in oxidative stress conditions, and examined the use of photodynamic therapy agents in cancer treatment. Dr. Gacar is particularly interested in how cell-to-cell communication via extracellular vesicles can be harnessed to develop new treatment modalities. Her scientific output reflects a strong commitment to translational research, bridging the gap between bench-side discoveries and clinical applications.

Awards and Recognition

Throughout her career, Dr. Gacar has earned recognition for her contributions to medical research and scientific innovation. She has been involved in several prestigious research projects funded by national agencies, notably TÜBİTAK, and by higher education institutions. Her collaborative work has resulted in multiple successful research grants and numerous scholarly publications in peer-reviewed journals. Dr. Gacar has also contributed to the advancement of academic research infrastructure by mentoring emerging scholars and participating in advisory roles on national research panels. These accomplishments underscore her standing in the scientific community and highlight the broader impact of her research in the fields of stem cell biology and regenerative medicine.

Publications

Characterization of mesenchymal stem cells from rat bone marrow: ultrastructural properties, differentiation potential and immunophenotypic markers – Histochemistry and cell biology (2009)

Isolation and in vitro characterisation of dental pulp stem cells from natal teeth – Histochemistry and cell biology (2010)

Comparative analysis of apoptotic resistance of mesenchymal stem cells isolated from human bone marrow and adipose tissue – The Scientific World (2012)

The short-and long-term effects of estrogen deficiency on apoptosis in musculoskeletal tissues: an experimental animal model study – Archives of Iranian Medicine (2013)

In vitro protection of adipose tissue-derived mesenchymal stem cells by erythropoietin – Acta histochemica (2014)

Protective effects of resveratrol on aging-induced cognitive impairment in rats – Neurobiology of learning and memory (2016)

Restorative effect of resveratrol on expression of endothelial and neuronal nitric oxide synthase in cavernous tissues of chronic unpredictable mild stress-exposed rats: an – International Journal of Impotence Research (2018)

 

 

 

Rosabel Camacho Gastélum | Scientific Breakthroughs | Women Researcher Award

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Dr. Rosabel Camacho Gastélum | Scientific Breakthroughs | Women Researcher Award 

Dr. Rosabel Camacho Gastélum, Centro Interdisciplinario de Ciencias Marinas, Mexico

Dr. Rosabel Camacho Gastélum is a researcher at the Centro Interdisciplinario de Ciencias Marinas , Mexico. Her work focuses on marine sciences, with a particular interest in the sustainable use and conservation of marine resources. She actively contributes to interdisciplinary research aimed at understanding and protecting ocean ecosystems.

Author Profile

Google Scholar

🎓Early Academic Pursuits

Rosabel Camacho Gastélum’s academic journey began with a strong foundation in biology, leading to her Bachelor’s degree in Biology with a specialization in Marine Biology. Her undergraduate thesis,  showcased her early interest in marine ecosystems. She furthered her education with a Master’s degree in Marine Resource Management, completing her thesis on “Identification of fish larvae from the family Sciaenidae in the Upper Gulf of California using molecular markers.” Currently, she is pursuing her PhD in Marine Sciences at Centro Interdisciplinario de Ciencias Marinas , Mexico.

🔬Professional Endeavors

Rosabel’s professional experience includes working as a Research Assistant on a vessel . During this tenure, she contributed to the collection of biological samples and physical data from the southern part and entrance of the Gulf of California. Her expertise in marine biology and research skills have been valuable assets in her professional endeavors.

📚Contributions and Research Focus

Rosabel has made significant contributions to the field of marine biology through her research and publications. Some notable publications include:

– Molecular identification and morphological description of Micropogonias megalops, Cynoscion othonopterus, C. reticulatus, and Menticirrhus in Mitochondrial DNA Part A (2017)
– Interannual variations of environmental factors and their effects on larval fish habitats in the Upper Gulf of California during early summer in Continental Shelf Research (2020)
– Horizontal and vertical distribution of fish larvae in the main entrance of Bahía de La Paz, Gulf of California (October 2022) in Continental Shelf Research (2025)

Her research focuses on marine species identification, ecology, and conservation, with a particular emphasis on the Gulf of California. Rosabel has also presented her research at conferences and science fairs, including a presentation on the genetic identification of fish larvae from the family Sciaenidae in the Upper Gulf of California.

📢Impact and Influence

Rosabel’s research has the potential to inform conservation efforts and management of marine resources in the Gulf of California. Her work on fish larvae identification and ecology can contribute to a better understanding of marine ecosystems and the impacts of environmental changes. By sharing her research with academic and general audiences, Rosabel is helping to advance the field of marine biology and promote awareness about the importance of marine conservation.

✍️Notable Publications

Horizontal and vertical distribution of fish larvae in the main entrance of Bahía de La Paz, Gulf of California (October 2022).

Author: R Camacho-Gastélum, L Sánchez-Velasco, SPA Jiménez-Rosenberg,

Journal: Continental Shelf Research, 105510

Year: 2025

Identificación de larvas de peces de la familia Sciaenidae del Alto Golfo de California, mediante marcadores moleculares.