Alima Amangeldi | Climate Change | Research Excellence Award

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Ms. Alima Amangeldi | Climate Change | Research Excellence Award

Ms. Alima Amangeldi | Climate Change | Engineer at Institute of Ionosphere | Kazakhstan

Climate Change research forms the foundation of the scholarly and professional journey of Ms. Alima Amangeldi, an emerging Kazakhstani researcher whose contributions reflect a strong commitment to environmental resilience, cryosphere monitoring, and long-term hydro-climatic analysis. Ms. Alima Amangeldi is recognized for her intellectual dedication to understanding glacial dynamics and climate-driven transformations across mountainous regions, with a special focus on the Ile-Alatau Mountains within the Northern Tien Shan. Her academic background is rooted in rigorous scientific training in environmental science, Earth observation, and atmospheric studies, equipping her with a deep understanding of hydrology, remote sensing technologies, and climate processes that shape contemporary environmental challenges. Through her education, Ms. Alima Amangeldi developed expertise in satellite imagery interpretation, GIS-based glacier mapping, and the multi-temporal analysis of glacial and moraine lake changes that are vital for predicting natural hazards and informing adaptation strategies. Professionally, she serves at the Institute of Ionosphere in Almaty, Kazakhstan (2024–present), where she contributes to advanced research on atmospheric interactions, hydro-climatic variability, and geospatial environmental assessments. Her role involves conducting multi-temporal remote sensing studies, applying high-resolution climatic datasets, and collaborating with multidisciplinary experts to deepen insights into mountain cryosphere evolution and its broader regional implications. The professional experience of Ms. Alima Amangeldi is marked by her capacity to integrate field observations, satellite-based analytics, and climate modeling, which positions her as a promising researcher in climate science and natural resource management. Her research interests span climate change impacts on glacier recession, moraine lake expansion, hydro-climatic risk assessments, cryosphere monitoring, atmospheric variation analysis, and remote sensing applications in mountainous environments. In her work, Ms. Alima Amangeldi frequently employs advanced research skills such as geospatial analytics, LiDAR interpretation, multi-decadal climate data synthesis, hydrological modeling, and environmental trend analysis. She is proficient in utilizing tools like ArcGIS, QGIS, Google Earth Engine, ERDAS Imagine, and statistical packages used for climatic trend evaluation. Her analytical skills are further supported by her ability to interpret long-term climate indicators and correlate them with environmental shifts across sensitive alpine ecosystems. Although early in her academic trajectory, Ms. Alima Amangeldi has begun building an impactful scholarly presence, evidenced by her authorship of peer-reviewed scientific work focusing on long-term glacier and lake evolution from 1955–2024, informing early-warning systems, hazard prevention measures, and sustainable water resource planning. Her dedication to scientific rigor and environmental protection has earned her recognition as a promising contributor to Kazakhstan’s climate research community, and she is increasingly acknowledged within international research circles addressing cryosphere change and climate-induced mountain hazards. Awards and honors attributed to her include early-career recognition at institutional and departmental levels for excellence in scientific research and contributions to climate-related geospatial studies. Throughout her career progression, Ms. Alima Amangeldi continues to commit herself to advancing the scientific understanding of climate change impacts, strengthening the data foundations needed for sustainable policymaking, and contributing meaningful insights to global environmental research dialogues. In conclusion, Ms. Alima Amangeldi exemplifies the next generation of climate and environmental scientists whose research promises to support long-term climatic resilience, inform public awareness, and guide actionable strategies for adapting mountain ecosystems to the realities of a rapidly changing climate.

Academic Profile: ORCID

Featured Publications:

  1. Amangeldi, A. A., Iskaliyeva, G., Merekeyev, A., Sydyk, N., Abishev, B., & Baygurin, Z. (2025). Hydro-Climatic and Multi-Temporal Remote Analysis of Glacier and Moraine Lake Changes in the Ile-Alatau Mountains (1955–2024), Northern Tien Shan. Atmosphere.

 

 

Silvina Fadda | Environment | Best Researcher Award

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Dr. Silvina Fadda | Environment | Best Researcher Award

Dr. Silvina Fadda | Environment | Senior Researcher at CERELA | Argentina

Dr. Silvina Fadda is a highly accomplished female scientist specializing in food microbiology and biochemistry, currently serving as a Research Scientist at CERELA under the National Scientific and Technical Research Council (CONICET) in Argentina. Dr. Silvina Fadda earned her Doctorate in Biochemistry from the Universidad Nacional de Tucumán, where she developed extensive expertise in microbial physiology, fermentation systems, and the characterization of lactic acid bacteria relevant to food safety and preservation. Throughout her professional career, she has focused on studying beneficial and bioprotective microorganisms, particularly lactic acid bacteria and their metabolic, proteomic, and adaptive responses under food processing conditions. Her research interests include microbial ecology in meat processing environments, the antagonistic activity of probiotic strains against foodborne pathogens, and molecular techniques for assessing microbial adaptation and stress tolerance. Dr. Silvina Fadda possesses strong research skills in proteomics, molecular microbiology, bacterial strain characterization, fermentation technology, and the development of microbial-based food safety strategies. She has collaborated on internationally coordinated research projects aimed at improving safe food production practices and developing sustainable microbial biopreservation methods. Her scholarly contributions are reflected in her publications in high-impact, Scopus-indexed journals and her continued role as a reviewer for reputable journals in food chemistry, food microbiology, and biofilm research. Dr. Silvina Fadda has received recognition for her scientific contributions through her longstanding research appointment at CONICET, along with participation in scientific committees and professional networks that advance food microbiology research. Her work demonstrates leadership in laboratory-based research, interdisciplinary collaboration, and mentoring early career researchers. In conclusion, Dr. Silvina Fadda exemplifies professional excellence, scientific rigor, and an ongoing commitment to improving global food safety through microbiological innovation, making her a commendable academic and a strong contributor to both scientific research and community knowledge.

Academic Profile: ORCID | Scopus

Featured Publications:

  1. Cisneros, L., Baillo, A. A., Ploper, D., Valacco, M. P., Moreno, S., Yantorno, O., Fusco, V., & Fadda, S. (2025). Foodborne lactic acid bacteria inactivate planktonic and sessile Escherichia coli O157:H7 in a meat processing environment: A physiological and proteomic study. Foods. Citations: 5

  2. Terán, L. C., Orihuel, A., Bentencourt, E., Raya, R., & Fadda, S. (2023). Role of curing agents in the adaptive response of the bioprotective Latilactobacillus curvatus CRL 705 from a physiologic and proteomic perspective. Bacteria. Citations: 12

  3. Sandoval-Mosqueda, I. L., Llorente-Bousquets, A., Soto, C., Mercado Márquez, C., Fadda, S., & Del Río García, J. C. (2023). Ligilactobacillus murinus strains isolated from mice intestinal tract: Molecular characterization and antagonistic activity against food-borne pathogens. Microorganisms. Citations: 18

  4. Terán, L. C., Orihuel, A., Bentencourt, E., Raya, R., & Fadda, S. (2023). Role of curing agents in the adaptive response of the bioprotective Latilactobacillus Curvatus CRL 705 from a physiologic and proteomic perspective (Preprint). Citations: 3