Yunliang Li | Water Resources | Best Researcher Award

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Prof. Yunliang Li | Water Resources | Best Researcher Award

Professor at Nanjing Institute of Geography and Limnology, Chinese Academy of Sciences, China

Yunliang Li is a distinguished researcher specializing in hydrological studies of floodplain lakes, with significant contributions to understanding surface-groundwater interactions, lake flood-pulse processes, and hydrological connectivity in highly heterogeneous floodplain settings. He has independently developed the Lake-Catchment Simulator v1.0, a large-scale numerical model that assesses the hydrodynamic and environmental responses of floodplain lakes to natural and human disturbances. With 71 peer-reviewed publications (including 41 SCI papers) and over 1352 citations, along with two academic monographs, his work has gained substantial recognition. He has received multiple prestigious awards, including the Second Prize for Scientific and Technological Progress from the China National Committee on Large Dams and the Changjiang Technology and Economy Society, as well as honors from the Chinese Academy of Sciences and the Ministry of Water Resources Science and Technology Talent. Holding 23 patents and software copyrights, his research not only advances scientific understanding but also contributes to practical environmental management. His future work aims to deepen insights into the impact of natural and anthropogenic disturbances on floodplain hydrodynamics, further cementing his influence in the field.

Professional Profile 

Education

Yunliang Li holds a strong academic background in hydrology and water resources, with advanced degrees that have laid the foundation for his expertise in floodplain lake dynamics and hydrological connectivity. He obtained his Ph.D. in Hydrology and Water Resources from a leading institution, where he conducted in-depth research on surface-groundwater interactions and floodplain hydrodynamics. Prior to that, he earned his Master’s and Bachelor’s degrees in related fields, equipping him with a solid understanding of eco-hydrology, numerical modeling, and environmental water management. His academic journey has been marked by interdisciplinary learning, innovative research, and technical skill development, enabling him to make substantial contributions to the field of hydrological science.

Professional Experience

Yunliang Li has an extensive professional background in hydrological research, focusing on floodplain lake dynamics, surface-groundwater interactions, and eco-hydrological modeling. He has been actively engaged in scientific research and technological innovation, contributing significantly to the development of hydrological connectivity theories and large-scale numerical simulation tools such as the Lake-Catchment Simulator v1.0. Throughout his career, he has led and participated in numerous high-impact research projects, systematically assessing the effects of extreme hydrological events and human activities on floodplain lakes like Poyang Lake. His expertise has been recognized through multiple prestigious awards and leadership roles in scientific committees, research institutions, and environmental assessment initiatives. In addition to his academic contributions, he has played a key role in patent development and software innovation, further bridging the gap between scientific research and practical water resource management. His ongoing work continues to advance the understanding of hydrodynamic processes, influencing both national and international water management strategies.

Research Interest

Yunliang Li’s research interests lie at the intersection of hydrology, eco-hydrodynamics, and environmental water management, with a particular focus on floodplain lake systems. He is dedicated to understanding surface-groundwater interactions, the hydrological connectivity of heterogeneous floodplains, and the impacts of natural and anthropogenic disturbances on lake hydrodynamics. His work involves developing advanced numerical modeling techniques, such as the Lake-Catchment Simulator v1.0, to assess hydrodynamic and environmental changes under extreme hydrological events and human interventions. Additionally, he is deeply interested in hydrological regulation, ecological restoration, and water resource sustainability, aiming to bridge theoretical research with practical applications for flood risk management, ecosystem conservation, and climate adaptation strategies. Through his research, he seeks to provide scientific insights and technical solutions for better managing floodplain lakes and water environments in response to global environmental changes.

Award nd Honor

Yunliang Li has received numerous prestigious awards and honors in recognition of his outstanding contributions to hydrological research and water resource management. He was awarded the Second Prize for Scientific and Technological Progress by both the China National Committee on Large Dams and the Changjiang Technology and Economy Society, highlighting his pioneering work in floodplain hydrodynamics and hydrological connectivity. He has also been honored as an Excellent Member of the Youth Innovation Promotion Association of the Chinese Academy of Sciences (CAS) and was selected for the Jiangxi Province Thousand Talents Program, demonstrating his influence in advancing eco-hydrological research. Additionally, he has been recognized by the Ministry of Water Resources Science and Technology Talent Program for his contributions to water science and technology innovation. With 23 patents and software copyrights, his research has not only expanded scientific knowledge but also provided practical solutions for water resource management and environmental sustainability. These accolades underscore his leadership and impact in the field of hydrology.

Conclusion

Yunliang Li is a highly deserving candidate for the Best Researcher Award. His groundbreaking contributions to hydrological connectivity, floodplain lake dynamics, and numerical modeling demonstrate excellence. His publication record, patents, and national recognition underscore his impact. Strengthening international collaborations and interdisciplinary applications could further enhance his standing. Given his contributions and achievements, he is a strong contender for this award.

Publications Top Noted

  1. Title: A distributed and process-based model coupling water-sediment-antibiotic interactions to simulate dynamic source-transport-fate of antibiotics at catchment scale

    • Authors: H. Xie, Hui; M. Shang, Meiqi; J. Dong, Jianwei; Y. Li, Yunliang; X.J. Lai, Xijun Jun

    • Year: 2025

    • Citations: 1

  2. Title: How do agricultural polders modulate nutrient dynamics under extreme flooding: Insights for water management in lowland areas

    • Authors: H. Xie, Hui; Y. Li, Yunliang; M. Shang, Meiqi; Y. Wang, Yang; X.J. Lai, Xijun Jun

    • Year: 2025

    • Citations: 0

  3. Title: Disentangling the spatially combined and temporally lagged influences of climate oscillations on seasonal droughts in the East Asian monsoon influenced Poyang Lake Basin

    • Authors: Z. Xing, Zikang; J. Wei, Jianhui; Y. Li, Yunliang; P. Laux, Patrick; H. Kunstmann, Harald

    • Year: 2024

    • Citations: 3

  4. Title: Hydrological Modeling to Unravel the Spatiotemporal Heterogeneity and Attribution of Baseflow in the Yangtze River Source Area, China

    • Authors: H. Ren, Huazhun; G. Wu, Guangdong; L. Shu, Longchang; Y. Li, Yunliang; Y. Wang, Yuxuan

    • Year: 2024

    • Citations: 0

  5. Title: Unravelling groundwater budget in the Poyang floodplain system under intensifying seasonal lake inundation

    • Authors: W. Jiang, Wenyu; B. Liu, Bo; Y. Li, Yunliang; C. Lu, Chengpeng; L. Shu, Longchang

    • Year: 2024

    • Citations: 2

  6. Title: The effects of damming and dam regulation on a river–lake-aquifer system: 3D groundwater flow modeling of Poyang Lake (China)

    • Authors: W. Jiang, Wenyu; B. Liu, Bo; Y. Li, Yunliang; C. Lu, Chengpeng; L. Shu, Longchang

    • Year: 2024

    • Citations: 3

  7. Title: Unveiling ionic structure in the LiF-NdF3 molten salt system as determined by Raman spectroscopy and quantum chemical calculations

    • Authors: M. Lin, Ming; J. Guan, Jinzhao; M. Aziz Diop, Mouhamadou; Y. Li, Yunliang; P. Chen, Peng

    • Year: 2024

    • Citations: 2

  8. Title: Revealing temporal variation of baseflow and its underlying causes in the source region of the Yangtze River (China)

    • Authors: G. Wu, Guangdong; J. Zhang, Jianyun; Y. Li, Yunliang; H. Ren, Huazhun; M. Yang, Mingzhi

    • Year: 2024

    • Citations: 6

  9. Title: Tracing Water Recharge and Transport in the Root-Zone Soil of Different Vegetation Types in the Poyang Lake Floodplain Wetland (China) Using Stable Isotopes

    • Authors: X. Xu, Xiuli; J. Zhao, Jun; G. Wu, Guangdong; Y. Li, Yunliang; L. Hou, Lili

    • Year: 2024

    • Citations: 1

  10. Title: Impact of the Three Gorges Dam on hydrological connectivity and vegetation growth of Poyang Lake floodplain, China

  • Authors: J. Zeng, Jinfeng; J. Qiu, Jingfeng; Z. Wu, Zeyu; X. Liu, Xinggen; Y. Li, Yunliang

  • Year: 2024

  • Citations: 10

 

 

Mingxing Yang | Groundwater Hydrology | Best Researcher Award

Published on by Hydrologists

Prof. Mingxing Yang | Groundwater Hydrology | Best Researcher Award

Professor at Guizhou Institute of Technology,china

Prof. Mingxing Yang, Ph.D., is a distinguished researcher in hydrogeology, currently serving as a professor at the Guizhou Institute of Technology, School of Resources and Environmental Engineering. He earned his Ph.D. from Jilin University in 2014 and completed postdoctoral research at the Institute of Geochemistry, Chinese Academy of Sciences. His expertise lies in groundwater pollution remediation, carbon cycling in karst areas, and groundwater resource conservation. Prof. Yang has led multiple prestigious research projects funded by the National Natural Science Foundation of China, the Guizhou Provincial Government, and national high-tech programs such as the 973 and 863 Plans. He has published over 30 papers in important academic journals, contributing significantly to environmental science and hydrogeology. While his research impact is strong at the national level, further international collaborations and recognition could enhance his global standing. His extensive contributions make him a strong candidate for the Best Researcher Award in his field.

Professional Profile 

Education

Prof. Mingxing Yang obtained his Ph.D. in Hydrogeology from Jilin University in 2014, where he specialized in groundwater research and environmental sustainability. Following his doctoral studies, he pursued postdoctoral research at the Institute of Geochemistry, Chinese Academy of Sciences, from 2014 to 2016. His academic training provided him with a strong foundation in hydrogeological processes, groundwater pollution remediation, and environmental geochemistry. His education and research experience have significantly contributed to his expertise in groundwater resource conservation and carbon cycling in karst regions, shaping his career as a leading researcher in environmental science.

Professional Experience

Prof. Mingxing Yang is a highly accomplished researcher in hydrogeology and environmental science. Since completing his postdoctoral research at the Institute of Geochemistry, Chinese Academy of Sciences (2014–2016), he has been serving as a professor at the Guizhou Institute of Technology, School of Resources and Environmental Engineering. His research focuses on groundwater pollution remediation, carbon cycling in karst areas, and groundwater resource conservation. Over the years, he has led and participated in numerous high-profile research projects funded by the National Natural Science Foundation of China, the Guizhou Provincial Government, and national high-tech initiatives such as the 973 and 863 Programs. Through his leadership and contributions, Prof. Yang has played a pivotal role in advancing environmental sustainability and hydrogeological research, establishing himself as a key figure in his field.

Research Interest

Prof. Mingxing Yang’s research interests lie at the intersection of hydrogeology, environmental science, and sustainability. His work primarily focuses on groundwater pollution remediation, aiming to develop effective strategies for protecting water resources from contamination. Additionally, he studies the carbon sink and carbon cycle in karst regions, exploring how these natural systems contribute to carbon sequestration and climate change mitigation. Another key area of his research is groundwater resource conservation, where he investigates sustainable water management practices to ensure long-term water availability. His studies not only address critical environmental challenges but also contribute to the development of policies and technologies for ecological protection and sustainable development.

Award and Honor

While specific awards and honors of Prof. Mingxing Yang are not mentioned, his significant contributions to hydrogeology and environmental science have earned him recognition as a leading researcher in his field. He has successfully led multiple prestigious research projects funded by the National Natural Science Foundation of China, the Guizhou Provincial Government, and major national programs such as the 973 and 863 Plans, reflecting his research excellence. His extensive publication record in important academic journals further highlights his impact on groundwater pollution remediation, carbon cycling in karst areas, and water resource conservation. As a respected professor at the Guizhou Institute of Technology, his work continues to shape the field of environmental sustainability. Additional international recognitions, keynote invitations, and awards could further enhance his global academic standing.

Conclusion

Prof. Mingxing Yang is a highly qualified researcher with significant contributions to hydrogeology, groundwater pollution remediation, and environmental sustainability. His research leadership, funded projects, and publication record make him a strong candidate for the Best Researcher Award. However, expanding his international collaborations and increasing global recognition could further strengthen his case. If the award prioritizes national impact and funded research, he is a very suitable candidate. If it seeks global recognition and influence, he may need additional international contributions.

Publications Top Noted

  • Title: Changing Soil Water Content: Main Trigger of the Multi-Phase Mobilization and Transformation of Petroleum Pollution Components—Insights from the Batch Experiments

    • Authors: Mingxing Yang, Bing Wang, Yubo Xia, Chunling Li, Zhendong Cao

    • Year: 2024

    • Citations: 1

  • Title: Molecular Fingerprinting of the Biodegradation of Petroleum Organic Pollutants in Groundwater and under Site-Specific Environmental Impacts

    • Authors: Mingxing Yang, Yuesuo Yang, Xinyao Yang, Xinqiang Du, Ying Lu

    • Year: 2024

    • Citations: 1

Tatek Wondimu Negash | Water Resources | Best Researcher Award- 1074

Published on by Hydrologists

Tatek Wondimu Negash | Water Resources | Best Researcher Award

Agricultural Water Management Researcher at Ethiopia Institute Of Agricultural Research, Melkassa Agricultural Research Center, Ethiopia

Tatek Wondimu Negash is a highly skilled water resource and irrigation engineer with over eight years of research experience in agricultural water management, hydrology, land use, and climate change. Holding a BSc in Water Resources and Irrigation Engineering and an MPhil in Irrigation and Drainage Engineering, his work focuses on optimizing irrigation efficiency and improving water use in semi-arid regions. He has authored multiple peer-reviewed publications on irrigation water allocation, evapotranspiration, and watershed hydrology, demonstrating his expertise in hydrological modeling and data analysis using tools like ArcGIS, ArcSWAT, and AquaCrop. As a researcher at the Ethiopia Institute of Agricultural Research, he collaborates with farmers, government agencies, and research institutions to implement sustainable irrigation practices. His contributions have earned him recognition, including a prestigious Master’s Scholarship from WACWISA, Ghana, and an Editorial Board membership for the International Analytical Chemistry Awards. With strong technical skills, stakeholder engagement experience, and a commitment to advancing water resource management, Tatek stands out as a leading researcher in his field.

Professional Profile 

Education

Tatek Wondimu Negash holds a Bachelor of Science (BSc) degree in Water Resources and Irrigation Engineering from Hawassa University, Ethiopia, where he developed a strong foundation in agricultural water management and irrigation system design. He further advanced his expertise by earning a Master of Philosophy (MPhil) in Irrigation and Drainage Engineering from the University for Development Studies in Ghana. His master’s research focused on the impact of land use and land cover change on watershed hydrology, reflecting his deep interest in sustainable water resource management. Throughout his academic journey, he has acquired specialized training in hydrological modeling, irrigation technologies, and integrated water resource management, enhancing his skills in data analysis and research methodologies. His education, combined with professional development courses in Python, Jupyter, and data analysis, has equipped him with the technical proficiency needed for high-impact research

Professional Experience

Tatek Wondimu Negash is an experienced water resource and irrigation engineer and researcher at the Ethiopia Institute of Agricultural Research (EIAR), Melkassa Agricultural Research Center. With over eight years of professional experience, he has been actively involved in developing research proposals and conducting studies on agricultural water management, hydrology, land use, and climate change. His work focuses on optimizing irrigation efficiency by evaluating and demonstrating appropriate irrigation technologies, determining crop water requirements, and improving irrigation scheduling. Tatek has played a key role in designing and supervising various irrigation projects, including sprinkler, drip, and surface irrigation systems, while also providing technical support for the construction of irrigation canals, drainage systems, and water harvesting structures. Additionally, he has extensive experience in hydrological modeling and data analysis, utilizing advanced tools such as ArcGIS, ArcSWAT, DSSAT, and AquaCrop to enhance water management practices. Beyond research, he collaborates with farmers, government agencies, and research institutions, facilitating training programs and knowledge-sharing initiatives to promote sustainable agricultural water use. His work contributes significantly to improving irrigation strategies and water conservation efforts in Ethiopia and beyond.

Research Interest

Tatek Wondimu Negash’s research interests revolve around agricultural water management, hydrology, land use, and climate change, with a strong focus on optimizing irrigation efficiency and sustainable water resource utilization. He is particularly interested in studying soil-water-plant relationships to determine crop water requirements, improve irrigation scheduling, and enhance water use efficiency in semi-arid regions. His work also explores the impact of land use and land cover changes on watershed hydrology, employing advanced hydrological modeling techniques using tools such as ArcGIS, ArcSWAT, DSSAT, and AquaCrop. Additionally, he is engaged in developing innovative irrigation technologies and management practices that support smallholder farmers and large-scale irrigation projects. Through his research, Tatek aims to contribute to climate-resilient agricultural practices by integrating data-driven solutions and evidence-based decision-making for sustainable water resource management. His interdisciplinary approach bridges the gap between scientific research and practical applications, ensuring that his findings have a tangible impact on agricultural productivity and water conservation.

Award and Honor

Tatek Wondimu Negash has received notable awards and honors in recognition of his contributions to agricultural water management and irrigation research. He was awarded the Master’s Scholarship by the West Africa Center for Water, Irrigation, and Sustainable Agriculture (WACWISA), Ghana, funded by the World Bank under the African Centre of Excellence Impact (ACE Impact) Project, which supported his postgraduate studies in irrigation and drainage engineering. His research excellence has also earned him a place on the Editorial Board of the International Analytical Chemistry Awards (2025), recognizing his expertise in scientific research and analysis. Additionally, he has participated in prestigious professional development programs, including specialized training in integrated water resources management, eco-hydrology, and canal performance improvement conducted by international institutions. These achievements highlight his dedication to advancing water resource management and underscore his growing influence in the field of irrigation engineering and hydrological research.

Conclusion

Tatek Wondimu Negash is a strong candidate for the Best Researcher Award due to his extensive research contributions, technical expertise, and impact on agricultural water management. His peer-reviewed publications, irrigation research, modeling expertise, and stakeholder engagement highlight his suitability. While he could enhance his research profile with more international collaborations, higher citation impact, and independent research funding, his overall achievements make him a worthy contender for the award.

Publications Top Noted

Title: Optimal Irrigation Water Allocation for Enhanced Productivity of Haricot Bean (Phaseolus vulgaris) and Economic Gain: An Experiment Conducted in the Semi-Arid Area of Ethiopia

Authors:

  • Tatek Wondimu Negash (T.W. Negash)
  • Abera Tesfaye Tefera (A.T. Tefera)
  • Gobena Dirirsa Bayisa (G.D. Bayisa)
  • Tigist Damtew Worku (T.D. Worku)
  • Aynalem Gurms (A. Gurms)

Year: 2025

Journal: Journal of Agriculture and Food Research

Citations: 0 (as of now)