Md. Hossain Ali | Irrigation | Best Researcher Award

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Dr Md. Hossain  Ali | Irrigation |  Best Researcher Award

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

Dr. Md. Hossain Ali is a distinguished expert in agricultural engineering with extensive experience leading innovative research and development at the Bangladesh Institute of Nuclear Agriculture (BINA). As the Chief Scientific Officer and Head of the Agricultural Engineering Division, he has made significant contributions to advancing sustainable agricultural practices and technologies.

Profile:

Academic Background:

  • Post-Doctorate: University Sains Malaysia, Civil Engineering (Water Management)
  • Ph.D.: Bangladesh Agricultural University, Irrigation & Water Management
  • M. Engg. Sci.: University of Melbourne, Civil & Environmental Engineering
  • M.Sc. (Agril. Engg.): Bangladesh Agricultural University
  • B.Sc. (Agril. Engg.): Bangladesh Agricultural University

Expertise:

Dr. Ali specializes in Irrigation and Water Resources Management, Agro-meteorology, and Agro-economics, with over 31 years of professional experience spanning teaching, research, and administration. His technical expertise includes using advanced models like AquaCrop, DSSAT, and HYDRUS-1D for agricultural applications.

Achievements:

  • Recipient of the Shudhachar Award (2022) and Best Scientist Award (2016) from BINA.
  • Recognized in international directories such as WHO’S WHO IN THE WORLD and 2000 Outstanding Intellectuals of the 21st Century.
  • Developed innovative tools and models like M-RechargeCal, M-EToCal, and CropET0.

Citation Metrics:

  • Total Citations: 2,677
  • Citations Since 2020: 1,267
  • h-index: 18 (13 since 2020)
  • i10-index: 30 (16 since 2020)

Publication Top Notes:

  • Increasing Water Productivity in Crop Production—A Synthesis
    M.H. Ali, M.S.U. Talukder
    Agricultural Water Management, 95(11), 1201-1213, 685 citations, 2008
  • Effects of Deficit Irrigation on Yield, Water Productivity, and Economic Returns of Wheat
    M.H. Ali, M.R. Hoque, A.A. Hassan, M.A. Khair
    Agricultural Water Management, 92, 151-161, 614 citations, 2007
  • Fundamentals of Irrigation & On-farm Water Management
    M.H. Ali
    ISBN: 978-1-4419-6334-5, 560 pages, 219 citations, 2010
  • Practices of Irrigation & On-farm Water Management: Volume 2
    H. Ali
    Springer Science & Business Media, 142 citations, 2011
  • Effective Rainfall Calculation Methods for Field Crops: An Overview, Analysis, and New Formulation
    M.H. Ali, S. Mubarak
    Asian Research Journal of Agriculture, 7(1): 1-12, DOI: 10.9734/ARJA/2017/36812, 93 citations, 2017
  • A New Novel Index for Evaluating Model Performance
    M.H. Ali, I. Abustan
    Journal of Natural Resources and Development, 4, 1-9, 90 citations, 2014
  • Effect of Deficit Irrigation at Different Growth Stages on the Yield of Potato
    A.A. Hassan, A.A. Sarkar, M.H. Ali, N.N. Karim
    Pakistan Journal of Biological Sciences, 5(2), 128-134, 72 citations, 2002
  • Sustainability of Groundwater Resources in the North-Eastern Region of Bangladesh
    M.H. Ali, I. Abustan, M.A. Rahman, A.A.M. Haque
    Water Resources Management, 26, 623-641, 61 citations, 2012
  • Crop Water Requirement and Irrigation Scheduling
    M.H. Ali
    Fundamentals of Irrigation and On-farm Water Management: Volume 1, 399-452, 58 citations, 2010
  • Effects of Deficit Irrigation on Yield, Water Productivity and Economic Return of Sunflower
    A.J. Mila, M.H. Ali, A.R. Akanda, M.H. Rashid, M.A. Rahman
    Cogent Food & Agriculture, 3: 1287619, 37 citations, 2017

 

Yuch-Ping Hsieh | Water Resources | Best Researcher Award

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Prof Dr Yuch-Ping Hsieh | Water Resources | Best Researcher Award

Professor and Project Leader at  Florida A&M University, United States

Dr. Yuch Ping Hsieh is a distinguished soil and environmental chemist with extensive experience in research, teaching, and professional service. He is currently a Professor at the Center for Water Resources at Florida A&M University (FAMU). He holds a Ph.D. in Soil and Environmental Chemistry from Rutgers University (1976), an M.S. in Soil Chemistry from Montana State University (1972), and a B.S. in Agricultural Chemistry from National Chung-Hsing University in Taiwan (1969).

Profile:

Education:

Ph.D. in Soil and Environmental Chemistry, Rutgers University, 1976 🎓 M.S. in Soil Chemistry, Montana State University, 1972 🌾 B.S. in Agricultural Chemistry, National Chung-Hsing University (Taiwan), 1969 🌿

Professional Experience:

Professor, Center for Water Resources, FAMU (2007-Present) 📚. Professor and Program Leader, Wetland Ecology Program, FAMU (1986-2007) 🌊. Visiting Professor, National Taiwan University (1998-1999) 🇹🇼. Associate Professor, Soil Science Research Institute, National Chung-Hsing University (1977-1980). NSF Post-Doctoral Fellow, Rutgers University (1976-1977) 🧑‍🔬

Honors:

1st Place, NSF/I-CORPS Program (2015) 🏆. Life-time Achievement Award, CESTA/FAMU (2010) 🌟. Nomination to Fellowship of the Soil Science Society of America (2000) 🎖️

Professional Skills:

Isotopic tracer techniques, sulfur species analysis, soil and water analysis, statistical multivariate analysis, and computer simulation modeling 🛠️

Water Resources Research Focus:

Dr. Yuch Ping Hsieh’s research in water resources spans multiple critical areas aimed at understanding and improving water quality, hydrodynamics, and ecosystem sustainability. Key areas of focus include. Hydrodynamics of Isolated Wetlands: Investigating how isolated wetlands reflect the health and resiliency of watersheds in North Florida. This research is crucial for understanding wetland hydrology and its implications for ecosystem management and conservation efforts. Coastal Environment Indicators: Identifying chemical and biological markers that indicate changes in coastal environments, with a particular focus on the effects of freshwater inputs, sea-level rise, and metal toxicity. This work is essential for predicting and mitigating the impacts of environmental changes on coastal ecosystems. Sulfate Reduction and Metal Toxicity Mitigation: Studying sulfur chemistry and sulfate reduction processes in wetlands and sediments to understand and mitigate the bioavailability and toxicity of heavy metals. This research helps develop strategies for environmental remediation in contaminated aquatic systems. Phosphorus Dynamics in Wetlands: Investigating the movement and transformation of phosphorus in wetland ecosystems. This research aims to enhance our understanding of nutrient cycling and inform management practices to protect water quality in wetland areas. Salt Barren Formation and Sea-Level Rise: Exploring the mechanisms behind salt barren formation in tidal marshes as an indicator of sea-level rise. This research provides insights into the effects of climate change on coastal environments and helps develop adaptive management strategies. Field Methods for Soil Erosion and Sustainability: Developing and refining field methods for measuring soil and nutrient erosion, with an emphasis on realistic, non-intrusive techniques. These methods are critical for assessing soil conservation practices and their effectiveness in protecting water resources. Agricultural Air Quality and Water Resources: Examining the effects of agricultural practices, such as prescribed burning, on air quality and subsequent impacts on water resources. This research aims to balance agricultural productivity with environmental protection and public health.

Citations and Publications:

  • 1,296 Citations by 1,200 Documents 📊
  • 44 Documents Published 📚
  • h-index: 18 📈

Publication Top Notes:

  1. Sensitivity of Using Stable Water Isotopic Tracers to Study the Hydrology of Isolated Wetlands in North Florida
    • Authors: Bugna, G.C., Grace, J.M., Hsieh, Y.-P.
    • Journal: Journal of Hydrology, 2020, 580, 124321
    • Citations: 13
  2. Nitrogen Retention of Biochar Derived from Different Feedstocks at Variable Pyrolysis Temperatures
    • Authors: Li, S., Barreto, V., Li, R., Chen, G., Hsieh, Y.-P.
    • Journal: Journal of Analytical and Applied Pyrolysis, 2018, 133, pp. 136–146
    • Citations: 148
  3. Thermochemical Properties of PM2.5 as Indicator of Combustion Phase of Fires
    • Authors: Hsieh, Y.-P., Bugna, G., Robertson, K.
    • Journal: Atmosphere, 2018, 9(6), 230
    • Citations: 2
  4. Real-Time Soil CO2 Respiration Rate Determination and the Comparison between the Infrared Gas Analyzer and Microrespirometer (MicroRes®) Methods
    • Authors: Sparda, A., Miller, R.O., Anderson, G., Hsieh, Y.-P.
    • Journal: Communications in Soil Science and Plant Analysis, 2017, 48(2), pp. 214–221
    • Citations: 4