Kamel Nagaz | Crop Water Modelling | Best Researcher Award

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Prof Kamel Nagaz | Crop Water Modelling | Best Researcher Award

Senior researcher at  Institut des régiosn Arides, Tunisia

Kameleddine Nagaz was born on February 18, 1964, in Tunis, Tunisia. He is a distinguished professor specializing in rural engineering, water, and forestry at the Institut des Régions Arides. He serves as the head of the Laboratory of Aridoculture and Oasis Crops (LR16IRA02) under the Ministry of Agriculture, Water Resources, and Fisheries.

Profile:

Career Development:

  • October 2015 – Present: Professor in Rural Engineering, Water, and Forestry 👨‍🏫
  • May 2009: Associate Professor in Rural Engineering, Water, and Forestry 🎓
  • March 2008: Habilitation to direct research in Rural Engineering, Water, and Forestry 📚
  • January 2007: Ph.D. in Agronomic Sciences with a dissertation on “Management of Irrigation with Saline Water in Steppic Areas” 🌱
  • November 2001: Promoted to Assistant Professor in Rural Engineering, Water, and Forestry 🌳
  • October 1997: Recruited as an Assistant in Rural Engineering, Water, and Forestry 💧

Research Focus: Crop Water Modelling 🌱💧

1. Saline Water Irrigation Management

Kameleddine Nagaz’s research primarily focuses on the management of irrigation with saline water. He investigates the effects of saline water on crop yield and soil health, developing models that predict the optimal use of saline water for irrigation. This work is crucial for regions where freshwater resources are scarce and saline water is a viable alternative for agricultural practices.

2. Water Use Efficiency in Arid Regions

Nagaz explores strategies to enhance water use efficiency in arid and semi-arid regions. His models consider various factors such as soil type, crop species, and climatic conditions to provide comprehensive solutions for efficient water use. This research helps in formulating best practices for farmers to maximize crop yield while minimizing water usage.

3. Sustainable Agricultural Practices

Sustainability is a core component of Nagaz’s research. He aims to develop sustainable agricultural practices that can be adopted by farmers in arid regions. By integrating crop water modelling with sustainable farming techniques, Nagaz’s work supports the long-term viability of agriculture in water-scarce areas.

4. Impact of Climate Change on Water Resources

Nagaz examines the impact of climate change on water availability and crop production. His models predict how changing weather patterns affect water resources and crop yields, providing vital information for developing adaptive strategies to mitigate the adverse effects of climate change on agriculture.

5. Innovations in Irrigation Techniques

Innovation is at the heart of Nagaz’s research. He investigates new irrigation techniques and technologies that can improve water distribution and usage efficiency. This includes the development of advanced irrigation systems and the use of remote sensing technology to monitor and manage water resources effectively.

Citations:

Overall Citation Metrics

  • Total Citations: 1030
  • h-index: 18
  • i10-index: 34

Recent Citation Metrics (Since 2019)

  • Citations: 731
  • h-index: 16
  • i10-index: 31

Publication Top Notes:

1. Impacts of Irrigation Regimes with Saline Water on Carrot Productivity and Soil Salinity

  • Authors: K. Nagaz, M.M. Masmoudi, N.B. Mechlia
  • Journal: Journal of the Saudi Society of Agricultural Sciences, 2012
  • Citations: 63
  • Summary: This study examines the effects of different irrigation regimes using saline water on carrot yields and soil salinity. The findings provide insights into optimizing irrigation practices to maintain productivity while managing soil salinity in arid regions.

2. Soil Salinity and Yield of Drip-Irrigated Potato under Different Irrigation Regimes with Saline Water in Arid Conditions of Southern Tunisia

  • Authors: K. Nagaz, M.M. Masmoudi, N.B. Mechlia
  • Year: 2007
  • Citations: 51
  • Summary: Investigates the impact of various saline water irrigation schedules on potato yields and soil salinity. The research highlights effective strategies for enhancing potato productivity in arid conditions while mitigating salinity issues.

3. Modeling and Optimization of Capsaicin Extraction from Capsicum annuum L. Using Response Surface Methodology (RSM), Artificial Neural Network (ANN), and Simulink Simulation

  • Authors: N. Gammoudi, M. Mabrouk, T. Bouhemda, K. Nagaz, A. Ferchichi
  • Journal: Industrial Crops and Products, 2021
  • Citations: 50
  • Summary: This paper presents an integrated approach using RSM, ANN, and Simulink simulation to optimize capsaicin extraction from peppers. The study provides a model for enhancing extraction efficiency, which is crucial for industrial applications.

4. Effects of Deficit Drip-Irrigation Scheduling Regimes with Saline Water on Pepper Yield, Water Productivity, and Soil Salinity under Arid Conditions of Tunisia

  • Authors: K. Nagaz, M.M. Masmoudi, N.B. Mechlia
  • Journal: Journal of Agriculture and Environment for International Development (JAEID), 2012
  • Citations: 50
  • Summary: Explores how different deficit irrigation schedules using saline water affect pepper yields and soil salinity. The research suggests optimal irrigation practices to maximize water productivity and crop yield under arid conditions.

5. Yield Response of Drip-Irrigated Onion under Full and Deficit Irrigation with Saline Water in Arid Regions of Tunisia

  • Authors: K. Nagaz, M.M. Masmoudi, N. Ben Mechlia
  • Journal: International Scholarly Research Notices, 2012
  • Citations: 43
  • Summary: Analyzes the effects of full and deficit irrigation using saline water on onion yields. The study offers valuable guidelines for managing saline water irrigation to sustain onion production in arid areas.

6. Yield and Water Use-Efficiency of Pearl Millet (Pennisetum glaucum (L.) R. Br.) under Deficit Irrigation with Saline Water in Arid Conditions of Southern Tunisia

  • Authors: K. Nagaz, M. Masmoudi, N. Mechlia
  • Journal: Research Journal of Agronomy, 2009
  • Citations: 43
  • Summary: Focuses on the response of pearl millet to deficit irrigation with saline water. The research contributes to understanding how to enhance water use efficiency and crop yield under saline and arid conditions.

7. Yield and Water Productivity of Drip-Irrigated Potato under Different Nitrogen Levels and Irrigation Regime with Saline Water in Arid Tunisia

  • Authors: F. El Mokh, K. Nagaz, M.M. Masmoudi, N.B. Mechlia
  • Journal: American Journal of Plant Sciences, 2015
  • Citations: 37
  • Summary: Investigates the interplay between nitrogen levels and irrigation regimes on potato yields and water productivity. The findings aid in optimizing fertilization and irrigation practices for better crop performance in saline conditions.

8. Phytochemical Profiles and Nutritional Composition of Squash (Cucurbita moschata D.) from Tunisia

  • Authors: S. Enneb, S. Drine, M. Bagues, T. Triki, F. Boussora, F. Guasmi, K. Nagaz, …
  • Journal: South African Journal of Botany, 2020
  • Citations: 36
  • Summary: Provides a detailed analysis of the phytochemical and nutritional properties of Tunisian squash. This research supports the nutritional evaluation and potential health benefits of locally grown squash varieties.

9. Effects of Surface and Subsurface Drip Irrigation Regimes with Saline Water on Yield and Water Use Efficiency of Potato in Arid Conditions of Tunisia

  • Authors: F. El Mokh, K. Nagaz, M. Masmoudi, N.B. Mechlia
  • Journal: Journal of Agriculture and Environment for International Development (JAEID), 2014
  • Citations: 26
  • Summary: Examines the efficiency of surface and subsurface drip irrigation using saline water on potato crops. The study provides insights into the most effective irrigation methods for arid regions.

10. Soil Salinity and Barley Production under Full and Deficit Irrigation with Saline Water in Arid Conditions of Southern Tunisia

  • Authors: K. Nagaz, I. Toumi, M.M. Masmoudi, N.B. Mechilia
  • Journal: Research Journal of Agronomy, 2008
  • Citations: 24
  • Summary: Investigates the effects of saline water irrigation on barley production and soil salinity. The research offers practical recommendations for managing barley crops under saline and water-scarce conditions.

11. Soil Salinity, Yield, and Water Productivity of Lettuce under Irrigation Regimes with Saline Water in Arid Conditions of Tunisia

  • Authors: K. Nagaz, F. El-Mokh, M.M. Masmoudi, N. Ben Mechlia
  • Year: 2013
  • Citations: 23
  • Summary: Analyzes the impact of saline water irrigation on lettuce yields and soil salinity. The study contributes to optimizing irrigation practices to improve lettuce production in arid regions.

 

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