Lianyi Guo | Climate Change Mitigation and Adaptation | Research Excellence Award

Published on by Civil Engineering Awards

Dr. Lianyi Guo | Climate Change Mitigation and Adaptation | Research Excellence Award

Lecturer | Yangzhou University | China

Dr. Lianyi Guo is an emerging scholar in climate-system research whose work focuses on the attribution and projection of extreme climate change, with a strong emphasis on understanding nonlinear rainfall responses to large-scale atmospheric circulation patterns. With a growing research portfolio that includes leading or participating in eight national and provincial research projects, Guo has established a solid foundation in advancing methodologies for diagnosing climate extremes and improving future climate projections. His contributions include developing a novel analytical framework that bridges dynamic and thermodynamic processes to interpret changes in summer rainfall patterns, particularly across China, enabling more accurate attribution of observed hydrometeorological variations to anthropogenic influences. He has authored eight SCI-indexed journal articles, including publications in high-impact outlets, and his current citation record and h-index of 6 reflect a promising upward trajectory. Beyond publications, his engagement in two consultancy or industry-linked projects demonstrates an ability to translate scientific insight into practical climate-related applications. Guo’s collaborations across national research institutes further strengthen the interdisciplinary relevance of his work, supporting advances in climate diagnostics, model evaluation, and regional climate risk assessment. His ongoing studies aim to refine constraint-based projections of extreme rainfall, offering potential benefits for disaster preparedness, water-resource management, and climate-policy development. The scientific rigor, methodological innovation, and applicability of Guo’s research underline his significant contribution to the field and position him as a valuable contributor to global climate-science efforts, with strong potential for continued impact through high-quality publications, collaborative research, and the development of improved tools for understanding and predicting climate extremes.

Profiles: Scopus | ORCID | Research Gate 
Publications:

Guo, L., Shi, Y., & Zhao, Y. (2023). Future projections of extreme integrated water vapor transport and population exposure over the Asian monsoon region. Earth’s Future.

Guo, L., Jiang, Z., Li, L., & Wang, H. (2022). Increase of future summer rainfall in the middle and lower reach of the Yangtze River Basin projected with a nonhomogeneous hidden Markov model. Geophysical Research Letters.

Guo, L. (2022). Comparison of impact and water vapor characteristics between two types of floods in Eastern China. Environmental Research Letters.

Guo, L. (2020). Projected precipitation changes over China for global warming levels at 1.5 °C and 2 °C in an ensemble of regional climate simulations: Impact of bias-correction algorithms. Climatic Change.

Guo, L., Jiang, Z., Ding, M., Chen, W., & Li, L. (2019). Downscaling and projection of summer rainfall in Eastern China using a nonhomogeneous hidden Markov model. International Journal of Climatology.

Zou Jianwei – Climate Change Mitigation and Adaptation – Best Researcher Award

Published on by Civil Engineering Awards

Zou Jianwei - Climate Change Mitigation and Adaptation - Best Researcher Award

guangxi university - China

AUTHOR PROFILE

ORCID

SUMMARY

Zou Jianwei is a dedicated researcher in the field of Animal Genetics, Breeding, and Reproduction, currently pursuing a Ph.D. at Guangxi University. The focus lies in exploring how environmental stressors, particularly heat stress, influence reproductive health in livestock. Through methodical experimentation and data-driven insights, the research contributes significantly to animal science, with implications for both academic progress and agricultural resilience. Academic activities are marked by diligence in project execution, data analysis, and scholarly writing. The journey is defined by innovation, precision, and a commitment to enhancing livestock productivity through science. This profile reflects academic rigor and meaningful contribution to sustainable livestock systems.

EARLY ACADEMIC PURSUITS

Academic foundations were laid at Guangxi University, where deep interest in animal science evolved into a focused pursuit of advanced research. The academic pathway reflects an early passion for biological systems, agricultural sustainability, and genetic mechanisms. Rigorous training in animal physiology and biotechnology provided essential skills for complex research. Enrollment in a doctoral program enabled deeper exploration of livestock reproduction under climatic challenges. Early learning experiences involved mastering laboratory techniques, understanding genetic pathways, and engaging with literature that bridges fundamental biology and applied science. These formative years created the groundwork for a promising research career that addresses real-world agricultural issues.

PROFESSIONAL ENDEAVORS

Current doctoral research at Guangxi University represents a significant phase in professional development. A key project investigates how heat stress affects ovarian function and circRNA expression in Hu sheep. This endeavor required designing and executing controlled animal studies, collecting and analyzing physiological data, and conducting advanced molecular biology experiments. Professional involvement spans experimental modeling, histological evaluation, sequencing, and collaborative manuscript writing. These responsibilities showcase strong technical acumen and organizational skills. Through this project, valuable contributions have been made toward understanding stress-induced fertility disruptions in livestock. The research has real-world relevance, addressing issues of food security and livestock management under changing climates.

CONTRIBUTIONS AND RESEARCH FOCUS

Primary research centers on understanding the molecular mechanisms behind heat stress-induced reproductive dysfunction in Hu sheep. Focused investigations target antioxidant systems, follicular development, cell apoptosis, and regulatory roles of circular RNAs (circRNAs). This integrative approach offers novel insights into how environmental stress alters gene expression and cellular health in reproductive tissues. The design of heat stress models and in-depth analysis of circRNA profiles contribute to emerging genomic knowledge. These contributions strengthen the field of animal biotechnology by providing data that can inform breeding strategies and improve resilience. Research enhances scientific understanding and supports genetic improvement for climate-adapted livestock.

ACCOLADES AND RECOGNITION

Scientific achievements include co-authoring a high-impact publication in the peer-reviewed journal Animals, highlighting original findings on heat stress and circRNA expression in Hu sheep. This paper, recognized for its methodological rigor and relevance, contributes to the international discourse on livestock adaptation. Involvement in this research has been acknowledged by academic mentors and peers alike, reflecting high standards of experimental and analytical competence. The project’s success and publication underscore a growing reputation in the field of animal science. The academic journey is marked by early success, promising further recognition through continued dedication to innovation and scholarly excellence in reproductive genetics.

IMPACT AND INFLUENCE

Research has significant implications for livestock production systems facing environmental stress, particularly in subtropical regions like Guangxi. By revealing the biological impact of heat stress on sheep reproduction, the work contributes to global efforts in sustainable agriculture and animal welfare. Findings may guide breeding programs aiming to develop thermotolerant livestock, improving productivity and resilience. Through academic dissemination and collaboration, the research extends beyond the laboratory, offering practical solutions to climate-related challenges in animal husbandry. This growing influence is rooted in scientific depth, societal relevance, and a vision for integrating molecular biology with applied agricultural needs in real-world settings.

LEGACY AND FUTURE CONTRIBUTIONS

Future ambitions include expanding research on reproductive genetics, epigenetics, and environmental adaptation in livestock. By integrating omics technologies with applied breeding, the goal is to develop practical tools for improving fertility and stress tolerance. Planned contributions aim to influence policy, guide breeding programs, and inspire interdisciplinary collaboration. The legacy envisioned is one of translational research—where molecular insights drive agricultural innovation. Further studies will likely explore broader species contexts, delve into RNA regulatory networks, and engage with global agricultural communities. With a strong foundation and forward-looking vision, this research journey is poised to make lasting contributions to animal science.

NOTABLE PUBLICATIONS

Title: Effect of heat stress on growth performance, carcase characteristics, meat quality and rumen-muscle axis of Hu sheep
Authors: Sanbao Zhang, Yu Zhang, Yirong Wei, Jianwei Zou, Bao Yang, Qian Wang, Jun Lu, Junzhi Lu, Zihua Zheng, Yanna Huang, et al.
Journal: Italian Journal of Animal Science (Published: 2024-12-31)


Title: Transcriptome-Wide Study Revealed That N6-Methyladenosine Participates in Regulation Meat Production in Goats
Authors: Juhong Zou, Yujian Shen, Jianwei Zou, Jingsu Yu, Yuhang Jiang, Yanna Huang, Qinyang Jiang
Journal: Foods (Published: 2023-03-09)

Professor Katarzyna Glińska – Water management and climate change – Best Researcher Award

Published on by Civil Engineering Awards

Professor Katarzyna Glińska - Water management and climate change - Best Researcher Award

University of Warmia and Mazury in Olsztyn - Poland

AUTHOR PROFILE

SCOPUS
ORCID
GOOGLE SCHOLAR

SUMMARY

Professor Katarzyna Glińska-Lewczuk is a distinguished environmental scientist specializing in hydrology, hydrochemistry, and ecohydrology. With over three decades of experience, she has contributed significantly to freshwater ecosystem research, focusing on biogeochemical processes, hydrological connectivity, and climate change impacts. Her interdisciplinary expertise integrates scientific research, project leadership, academic teaching, and policy advising. She has authored or co-authored over 300 publications, developed patented methods, and supervised numerous PhD students. As an expert evaluator and advisor in EU and national projects, she continues to shape the direction of sustainable water management and wetland restoration in Poland and across Europe.

EDUCATION

Katarzyna Glińska-Lewczuk holds a Master’s degree in Geography from the University of Gdańsk (1993), further specialized in water management at Wageningen University in the Netherlands. She earned her PhD in Environmental Protection and Management in 2001 and was awarded the title of Professor of Agricultural Sciences in 2018. Her academic trajectory is defined by a consistent dedication to freshwater research, particularly in lowland and postglacial regions, and her continuous pursuit of innovative, ecohydrological solutions for environmental challenges posed by climate change and human activities.

PROFESSIONAL EXPERIENCE

Throughout her career, Professor Glińska-Lewczuk has led multiple national and EU-funded research projects focused on the protection, functioning, and restoration of oxbow lakes and wetland systems. She has served as principal investigator in grants from the Polish Ministry of Science and Higher Education and contributed as work package leader in EU initiatives such as OPTIFERT and BIOPROS. Her practical and scientific knowledge has supported the development of integrated water management strategies and conservation plans, with notable engagement in hydromorphological assessments using advanced geospatial tools like GIS and remote sensing.

RESEARCH INTEREST

Her core research interests lie in understanding the hydrological and biochemical dynamics of river-lake systems, particularly under the influence of climate change. She has contributed pioneering work on hydrological connectivity, nutrient cycling, and ecosystem services in floodplain and oxbow lakes. Her research explores how agricultural runoff, groundwater depletion, and land use impact aquatic ecosystems. Additionally, she is involved in the development of ecological models using modern statistical methods to aid in environmental decision-making and landscape-scale water ecosystem management.

AWARD AND HONOR

Professor Glińska-Lewczuk has received wide recognition for her contributions to environmental science and water management. She has been appointed an Independent Expert Evaluator for EU frameworks including Horizon 2020, Water4All, and ERA-NET Water JPI. Her participation on expert advisory boards for Natura 2000 planning highlights her authority in policy-relevant science. As a respected reviewer for leading journals and active member of prestigious scientific societies, she maintains a prominent position in both national and international environmental research communities.

RESEARCH SKILL

She possesses advanced research skills in hydrological modeling, hydrochemical analysis, GIS, GPS, and remote sensing applications for aquatic ecosystem monitoring. Her methodological strength includes using multidimensional statistical tools to interpret complex ecological data. She is adept at applying scientific insight to real-world conservation, translating findings into actionable management plans for floodplains, wetlands, and rivers. Her experience spans from designing long-term watershed monitoring programs to evaluating the impacts of restoration efforts and guiding the implementation of ecohydrological practices.

PUBLICATIONS

Title: Mortality among the homeless: causes and meteorological relationships
Authors: J. Romaszko, I. Cymes, E. Dragańska, R. Kuchta, K. Glińska-Lewczuk
Journal: PLOS ONE

Title: The impact of urban areas on the water quality gradient along a lowland river
Authors: K. Glińska-Lewczuk, I. Gołaś, J. Koc, A. Gotkowska-Płachta, M. Harnisz, ...
Journal: Environmental Monitoring and Assessment

Title: Water quality dynamics of oxbow lakes in young glacial landscape of NE Poland in relation to their hydrological connectivity
Author: K. Glińska-Lewczuk
Journal: Ecological Engineering

Title: Effects of lateral connectivity on zooplankton community structure in floodplain lakes
Authors: A. Goździejewska, K. Glińska-Lewczuk, K. Obolewski, M. Grzybowski, ...
Journal: Hydrobiologia

Title: Heavy metal contamination in the surface layer of bottom sediments in a flow-through lake: a case study of Lake Symsar in Northern Poland
Authors: A. Kuriata-Potasznik, S. Szymczyk, A. Skwierawski, K. Glińska-Lewczuk, ...
Journal: Water

Title: The principal threats to the peatlands habitats, in the continental bioregion of Central Europe–A case study of peatland conservation in Poland
Authors: M. Grzybowski, K. Glińska-Lewczuk
Journal: Journal for Nature Conservation

CONCLUSION

Professor Katarzyna Glińska-Lewczuk stands out as an accomplished environmental scientist, educator, and leader. Her work bridges science, policy, and practical conservation, with an emphasis on safeguarding freshwater ecosystems amid changing climatic and land use patterns. She continues to contribute to sustainable water governance through research, mentorship, and expert advising. Her legacy includes shaping water protection frameworks, influencing academic curriculum through tutoring models, and strengthening the scientific foundation for protecting Europe’s most sensitive and vital water-dependent habitats.