M.H. Ali | Climate and Water | Scientific Excellence Achievement Award

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Dr. M.H. Ali | Climate and Water | Scientific Excellence Achievement Award

Chief Scientific Officer, Bangladesh Institute of Nuclear Agriculture (BINA), Bangladesh

Dr. Md. Hossain Ali (M.H. Ali) is a distinguished scientist and the Chief Scientific Officer at the Agricultural Engineering Division of the Bangladesh Institute of Nuclear Agriculture (BINA). With over 31 years of experience, he has significantly contributed to irrigation management, water resources, and agro-meteorology. Renowned for his innovative models and tools, Dr. Ali is a recipient of numerous prestigious awards, including the “Shudhachar Award 2022” and “Best Scientist Award 2016”. His work is recognized globally, as evidenced by his inclusion in Marquis Who’s Who and other international directories. With 159 publications, eight books, and numerous research tools, he continues to lead groundbreaking research in agricultural sustainability and water resource management.

Profile 

Google Scholar

Education

Dr. Ali earned his Ph.D. in Irrigation & Water Management from Bangladesh Agricultural University in 2008, followed by a postdoctoral fellowship at the University Sains Malaysia in 2011. He holds an M.Engg.Sci. from the University of Melbourne (2000), an M.Sc. in Agricultural Engineering from Bangladesh Agricultural University (1990), and a B.Sc. (Hons) in Agricultural Engineering (1988). He excelled academically, securing a first-class distinction in his undergraduate studies. His secondary and higher secondary education were also marked by distinctions in science under the Dhaka Board.

Experience

Dr. Ali has 31 years of professional experience encompassing teaching, research, and administrative roles. He began as an Assistant General Manager at the Bangladesh Rural Electrification Board before joining BINA in 1994 as a Scientific Officer. Rising through ranks, he became Chief Scientific Officer in 2019. He served as a Visiting Senior Lecturer at the University Malaysia Pahang, teaching Engineering Economics and Environmental Engineering. Dr. Ali has led interdisciplinary research teams and supervised graduate students, contributing to advancements in agricultural engineering and water management.

Research Focus

Dr. Ali’s research focuses on irrigation management, water resources, agro-meteorology, and climate change. He specializes in deficit irrigation techniques, hydrological modeling, and crop water requirements. His innovative tools like M-RechargeCal and M-EToCal have transformed water management practices. He has developed sustainable approaches to combat climate change impacts on agriculture and groundwater resources. With an h-index of 18 and over 2,660 citations, his research has a profound influence on agricultural water productivity and environmental sustainability globally.

Publications

🌾Increasing water productivity in crop production—A synthesis
📚 Effects of deficit irrigation on yield, water productivity, and economic returns of wheat
📘 Fundamentals of Irrigation & On-farm Water Management
📙 Practices of Irrigation & On-farm Water Management: Volume 2
☔ Effective rainfall calculation methods for field crops: An overview
🔍 A new novel index for evaluating model performance
🥔 Effect of deficit irrigation at different growth stages on the yield of potato
💧 Sustainability of groundwater resources in the North-Eastern Region of Bangladesh
🌞 Crop water requirement and irrigation scheduling
🌻 Effects of deficit irrigation on yield and economic return of sunflower
📈 Water table dynamics of Dhaka City and trend analysis using the “MAKESENS” model
🌊 Sensitivity of Penman–Monteith estimates to errors in climatic data
🌍 Management of salt-affected soils
🌱 Approaches to quantifying natural groundwater recharge
💦 Groundwater-table declination and sustainable water use in Barind region
🌾 Impact of climate change on crop water demand in Bangladesh
🌡️ Estimation of evapotranspiration using a simulation model
🌟 Response of Chickpea Varieties to Different Irrigation Regimes
🌾 Deficit irrigation for wheat cultivation under limited water supply
📋 Methods of Irrigation Scheduling: An overview

Seohee Yang | Environmental Science | Best Researcher Award

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Ms. Seohee Yang | Environmental Science | Best Researcher Award

Postdoctoral Researcher, Myongji university, South Korea

Seohee H. Yang is a dedicated Postdoctoral Researcher at the East Asia Future Environment Institute, specializing in atmospheric chemistry and climate modeling. Her research focuses on improving aerosol optical properties and climate impact assessments, with significant contributions to understanding the effects of organic aerosols on regional climate patterns. 🏆

Publication Profile

ORCID

Strengths for the Award

  1. Innovative Research Focus: Seohee H. Yang’s work on developing a brown carbon scheme for the Atmospheric Chemistry-Climate Integrated Model (ACCM) is highly innovative and relevant. This work addresses critical gaps in understanding aerosol optical properties and their impact on climate, which is vital for improving climate models.
  2. Strong Academic Background: With a Ph.D. in Environmental Engineering and Energy, Yang has a solid educational foundation. Her dissertation on the climate effect of light absorption by organic aerosols demonstrates deep expertise in atmospheric chemistry and climate modeling.
  3. Notable Achievements: Yang has received multiple awards, including the Outstanding Paper Presentation Award and recognition at the European Geosciences Union (EGU). These accolades reflect the high quality and impact of her research.
  4. Relevant Publications: Yang has published impactful research in reputable journals like Atmosphere and Atmospheric Environment. Her work is both current and significant in the field of atmospheric science.
  5. Diverse Research Experience: Her involvement in various projects, including climate and air quality modeling, shows a breadth of experience and application of her research in different contexts.
  6. Advanced Technical Skills: Proficiency in programming languages such as IDL, Fortran, and Python enhances her research capabilities, particularly in data processing and modeling.

Areas for Improvement

  1. Publication Diversity: While Yang has published in reputable journals, increasing the number of publications in high-impact journals and expanding into interdisciplinary journals could further enhance her research visibility.
  2. Collaborative Efforts: Although her individual contributions are significant, increasing collaboration with other researchers or institutions could provide new perspectives and strengthen her research outcomes.
  3. Broader Impact: To further strengthen her candidacy, Yang could emphasize the practical applications of her research in policy-making or real-world environmental strategies.
  4. Outreach and Communication: Increasing efforts in communicating research findings to broader audiences through popular science articles or public talks could enhance the impact of her work beyond the academic community.

 

Education

Seohee earned her Ph.D. in Environmental Engineering and Energy from Myongji University, South Korea, in February 2024, under the supervision of Minjoong J. Kim. Her dissertation investigated the climate effects of light absorption by organic aerosols over East Asia. She completed her B.S. in Environmental Engineering and Energy from the same institution in 2017, with additional language studies at East China Normal University. 🎓

Experience

Since March 2024, Seohee has been working as a Postdoctoral Researcher at the East Asia Future Environment Institute, focusing on aerosol-climate interactions and advanced modeling techniques. Her previous experience includes various research projects on air quality and climate modeling, where she developed detailed air quality models and studied the impacts of brown carbon. 🌍

Research Focus

Seohee’s research revolves around developing a brown carbon scheme for atmospheric models, investigating nonlinear climate changes due to aerosol properties, and enhancing predictive capabilities for air quality changes using machine learning. Her work includes studying aerosol direct radiative forcing and exploring the interactions between aerosols and the climate system. 🔬

Awards and Honors

Seohee has been recognized for her outstanding contributions to atmospheric science, receiving the Outstanding Paper Presentation Award at the Korean Meteorological Society fall conference in 2021. She was also among the top 20% at the Oral Outstanding Student and PhD Candidate Presentation (OSPP) Award contest at the European Geosciences Union (EGU) 2022 and won the Outstanding Research Award at Myongji University Graduate School in February 2024. 🏅

Publication Top Notes

Yang, S.H.; Jeong, J.I.; Park, R.J.; Kim, M.J. Impact of Meteorological Changes on Particulate Matter and Aerosol Optical Depth in Seoul during the Months of June over Recent Decades. Atmosphere 2020, 11, 1282. DOI: 10.3390/atmos11121282

Yang, S.H.; Park, R.J.; Lee, S.; Jo, D.S.; Kim, M.J. Impact of changes in refractive indices of secondary organic aerosols on precipitation over China during 1980–2019. Atmospheric Environment 2023, 299, 119644. DOI: 10.1016/j.atmosenv.2023.119644

Yang, S.H.; Park, R.J.; Lee, S.; Jo, D.S.; Kim, M.J. Evaluation of Optical properties of Integrated Climate–Atmospheric Chemistry Model through Brown Carbon simulation in East Asia. (In preparation for Geoscientific Model Development (GMD) journal)

Yang, S.H.; Park, R.J.; Lee, S.; Jo, D.S.; Kim, M.J. Long-term Impacts of Direct Radiative Effects of Brown Carbon on Climate Change in East Asia. (In preparation)

Conclusion

Seohee H. Yang is a strong candidate for the “Best Research Award” due to her innovative research, solid academic background, notable achievements, and relevant technical skills. Her work on brown carbon and its effects on climate change is both timely and impactful. Addressing areas such as publication diversity and broader impact could further bolster her profile. Overall, her contributions to atmospheric chemistry and climate modeling make her a deserving candidate for the award.