Rahila K | Pesticide toxicity | Best Researcher Award

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Mrs. Rahila K | Pesticide toxicity | Best Researcher Award

Mrs. Rahila K, University of Calicut, Malappuram, Kerala, India

Mrs. Rahila K is a dedicated researcher specializing in pesticide toxicity and its impacts. She holds an M.Sc in Applied Zoology (2015) and a B.Sc in Zoology (2012) from Calicut University, achieving high academic distinctions. With a focus on quality-based research, she excels in laboratory experiments and experimental design. Notable works include comparative transcriptome profiling in Drosophila melanogaster, published in reputable journals. She has presented at various national and international conferences, contributing significantly to her field. Rahila has also taught as a Higher Secondary teacher and actively participates in scientific workshops and conferences. 📚🦋🔬

Publication Profile

Scopus

Academic Qualifications 🎓

M.Sc in Applied Zoology (2015): Department of Zoology, Calicut University, with 76%.

B.Sc in Zoology (2012): P.S.M.O College, Tirurangadi, Calicut University, with 96%.

Higher Secondary (2009): Govt. Rajas HSS Kottakkal, Kerala State Higher Secondary Board, with 85%.

S.S.L.C (2007): Govt. Rajas HSS Kottakkal, Board of Public Examination, Kerala, with 85%.

 

Research Focus

Rahila K’s research primarily focuses on the toxicological impacts of pesticides on non-target organisms, specifically using Drosophila melanogaster as a model. Her work includes comparative transcriptome profiling to understand molecular responses to pesticides such as Acephate and Chlorantraniliprole. By analyzing gene expression changes, her research aims to uncover the biochemical and physiological effects of these pesticides, contributing to the field of environmental toxicology and pesticide safety. This work is crucial for developing safer pest management strategies and mitigating adverse effects on non-target species.

 

Publication Top Notes

Comparative transcriptome profiling of two pesticides, Acephate and Chlorantraniliprole in non-targeted insect model, Drosophila melanogaster

Jianye Ma | Water Conservation | Best Researcher Award

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  Dr Jianye  Ma |  Water Conservation |  Best Researcher Award

Associate professor at  Xi’an University of Technology, China

Dr. Jianye Ma is an associate professor at Xi’an University of Technology, specializing in soil and water conservation, ecological restoration, and ecohydrology. He graduated from Northwest A&F University with a degree in Soil and Water Conservation and Desertification Control. Dr. Ma has extensive experience in ecological research and has led several key projects funded by the National Natural Science Foundation and the National Key Research and Development Program of China. He has published over 30 papers, including 12 SCI articles, and his work has been cited more than 160 times. His research explores factors affecting soil detachment and hydrological properties, with significant findings on the impact of plant roots on soil dynamics. Dr. Ma is a co-guest editor of the Journal of WATER and a member of the Chinese Soil Society.

Profile:

Academic & Professional Background:

Dr. Jianye Ma is an Associate Professor at Xi’an University of Technology. He earned his degree in Soil and Water Conservation and Desertification Control from Northwest A&F University. His research focuses on ecological restoration, soil and water conservation, and ecohydrology. Dr. Ma has been involved in significant projects, including the Key Project of the National Natural Science Foundation and National Key Research and Development Program projects of China. He has led a National Natural Science Foundation youth project and has published over 30 papers, with 12 being SCI-indexed, and has been cited more than 160 times.

Areas of Research:

  • Soil and Water Conservation
  • Ecohydrology
  • Plant Roots
  • Water Cycle

Water Conservation Research Focus 🌊

Dr. Jianye Ma’s research in water conservation revolves around understanding and improving soil and water management practices to enhance ecological sustainability. His key areas of focus include:

  1. Soil and Water Conservation Techniques: Developing and optimizing methods for effective soil and water conservation to prevent erosion, improve soil fertility, and manage water resources sustainably.
  2. Ecological Hydrology: Investigating how water cycles interact with ecological processes. This includes studying the impact of vegetation and soil properties on water infiltration, runoff, and overall watershed health.
  3. Soil Hydrological Properties: Analyzing soil properties such as saturated hydraulic conductivity and water content under various vegetation conditions. This research aims to understand how different root systems affect soil’s ability to manage water.
  4. Impact of Plant Roots: Examining the role of plant roots in soil conservation. Dr. Ma studies how different types of roots, such as fibrous and tap roots, influence soil stability, water retention, and erosion control.
  5. Critical Factor Analysis: Identifying and quantifying key factors that affect soil detachment and hydrological properties, providing insights into the conditions that shape soil and water interactions.

Publication Top Notes:

  • Effect of Mixed Plant Roots on Saturated Hydraulic Conductivity and Saturated Water Content of Soil in the Loess Region
    Ma, J., Li, Z., Li, P., Wang, Z., Min, Z.
    Agricultural Water Management, 2024, 295, 108784
  • Effect of Roots on the Soil Detachment Process in Grassland and Shrubland
    Ma, J., Ma, B., Li, Z., Zhang, Z., Li, G.
    Land Degradation and Development, 2023, 34(10), pp. 3017–3032
  • Correction to: Wheat Straw Reduces Runoff, Sediment Yield and Flow Velocity in Sloping Farmland Under Two Straw Mulching Methods
    Ma, J., Ma, B., Wang, C., Fan, S., Li, C.
    Plant and Soil, 2023, 483(1-2), pp. 721
  • Determining the Mechanism of the Root Effect on Soil Detachment Under Mixed Modes of Different Plant Species Using Flume Simulation
    Ma, J., Ma, B., Li, Z., Shang, Y., Zhang, Z.
    Science of the Total Environment, 2023, 858, 159888
  • Wheat Straw Reduces Runoff, Sediment Yield and Flow Velocity in Sloping Farmland Under Two Straw Mulching Methods
    Ma, J., Ma, B., Wang, C., Li, C., Fan, S.
    Plant and Soil, 2023, 483(1-2), pp. 355–377
  • Effect of Wheat Straw Mulch on Slope Hydrodynamic Characteristics
    Li, G., Cao, W., Ma, J., Wang, Y., Wang, Q.
    Nongye Gongcheng Xuebao/Transactions of the Chinese Society of Agricultural Engineering, 2023, 39(1), pp. 108–116
  • Response Mechanism of the Soil Detachment Capacity of Root-Soil Composites Across Different Land Uses
    Ma, J., Li, Z., Ma, B., Sun, B., Shang, Y.
    Soil and Tillage Research, 2022, 224, 105501
  • Effects of Seasonal Freeze–Thaw and Wind Erosion on Runoff and Sediment Yields of Three Loamy Slopes of Loess Plateau, China
    Sun, B., Liu, J., Ren, F., Ma, B., Li, Z.
    Catena, 2022, 215, 106309
  • Combined Effects of the Wheat Straw Length and Incorporation Rate on Reducing Runoff and Sediment Yields
    Ma, J., Ma, B., Wang, Y., Li, C., Xiao, J.
    Catena, 2022, 215, 106310
  • Mechanism and Modeling of Different Plant Root Effects on Soil Detachment Rate
    Ma, J., Li, Z., Sun, B., Ma, B.
    Catena, 2022, 212, 106109

 

Lyndon Sackey | Environmental Protection | Best Researcher Award

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Dr Lyndon Sackey |  Environmental Protection |  Best Researcher Award

Lecturer at  Kwame Nkrumah University of Science ,  Ghana

 

Lyndon Nii Adjiri Sackey is a dedicated Environmental Scientist with a strong commitment to ethical and professional standards. Combining expertise in laboratory technology and environmental management, he integrates practical experience with rigorous academic research.

Profile:

Education:

  • Ph.D. in Environmental Chemistry and Technology (Ecotoxicology), University of Chemistry and Technology, Prague, Czech Republic (2017-2020)
  • MSc. in Public Administration (Regional Development and Governance), University of Pardubice, Pardubice, Czech Republic (2015-2017)
  • MSc. in Environmental Science, Kwame Nkrumah University of Science & Technology (KNUST), Kumasi, Ghana (2010-2013)
  • BSc. (Hons) in Environmental Science, University of Cape Coast (UCC), Cape Coast, Ghana (2003-2007)

Professional Experience:

  • Lecturer, Department of Environmental Science, Kwame Nkrumah University of Science and Technology (KNUST), Accra, Ghana (July 2021-Present)
    • Teaching undergraduate and postgraduate students
    • Research on waste management, ecotoxicology, water quality assessment, risk management, and bioremediation
    • Community service
  • PhD Student and Research Assistant, University of Chemistry and Technology, Prague (Feb 2017-Dec 2020)
    • Assisted in teaching and research on ecotoxicology, focusing on wood leachates and constructional waste
    • Managed the ecotoxicity laboratory and prepared project proposals
  • Guest PhD Student, Vrije University, Amsterdam, Netherlands (June-Sep 2018)
    • Studied the toxicity of microplastics on soil invertebrates
  • Assistant Operations Manager, Waste Landfills Company Ltd, Accra, Ghana (Mar 2015-Nov 2015)
    • Managed operations and prepared tender documents
  • Landfill Supervisor, Zoomlion Ghana Ltd, Accra, Ghana (Nov 2008-Feb 2015)
    • Monitored landfill operations and leachate quality
  • Laboratory Analyst, Ghana Water Company Ltd and Kinapharma Ghana Ltd (2004-2003)
    • Conducted water and drug analyses and managed laboratory operations

Research Experience:

  • 2023-Present: Feasibility study and value chain assessment of recyclables in the solid waste stream in Ashanti Region
  • 2022: Quality assessment of sewage sludge and the use of plant powders on maize weevil
  • 2020: Ecotoxicological impact of wood leachates
  • Ph.D. Research: Ecotoxicological impact of wood leachates on aquatic environments

Research Focus:

Lyndon Nii Adjiri Sackey, Ph.D., focuses on several critical areas within environmental protection, including:

  1. Ecotoxicology: Dr. Sackey’s research investigates the toxic effects of environmental pollutants, such as wood leachates and microplastics, on aquatic and soil organisms. His work aims to understand how these contaminants impact ecosystems and to develop strategies for mitigating their effects.
  2. Waste Management: He explores various aspects of waste management, including the assessment of waste quality, recycling processes, and the environmental impact of waste materials. His studies involve evaluating the effectiveness of waste treatment methods and improving waste management practices.
  3. Water Quality Assessment: Dr. Sackey assesses the quality of water in different environments, such as wastewater treatment plants and natural water bodies. His research focuses on identifying contaminants and evaluating their effects on water ecosystems.
  4. Bioremediation: He investigates the use of biological processes to remove or neutralize contaminants from the environment. This includes studying the potential of plant powders and other natural agents to control pests and improve soil health.
  5. Risk Assessment and Management: Dr. Sackey assesses environmental risks associated with various pollutants and waste products. His work aims to develop strategies for managing and mitigating these risks to protect human health and the environment.

Dr. Sackey’s research contributes to advancing knowledge in environmental protection and developing effective solutions for managing environmental challenges.

 

Citations:

  • Total Citations: 247
  • Citations Since 2019: 241
  • h-index: 7
  • h-index Since 2019: 7
  • i10-index: 7
  • i10-index Since 2019: 6

Publication Top Notes:

  • “Exploring the impacts of microplastics and associated chemicals in the terrestrial environment–Exposure of soil invertebrates to tire particles”
    • Authors: S. Selonen, A. Dolar, A.J. Kokalj, L.N.A. Sackey, T. Skalar, V.C. Fernandes, et al.
    • Journal: Environmental Research
    • Year: 2021
    • Citations: 58
    • Summary: This study investigates the effects of microplastics and tire particles on soil invertebrates, highlighting the broader implications of microplastic pollution in terrestrial ecosystems.
  • “Ecotoxicological effects on Lemna minor and Daphnia magna of leachates from differently aged landfills of Ghana”
    • Authors: L.N.A. Sackey, V. KoÄŤĂ­, C.A.M. van Gestel
    • Journal: Science of the Total Environment
    • Year: 2020
    • Citations: 50
    • Summary: This research evaluates the ecotoxicological impacts of leachates from landfills of various ages on aquatic plants and organisms, providing insights into the long-term effects of landfill leachates on the environment.
  • “A review of the principles of composting: understanding the processes, methods, merits, and demerits”
    • Authors: E.E.Y. Amuah, B. Fei-Baffoe, L.N.A. Sackey, N.B. Douti, R.W. Kazapoe
    • Journal: Organic Agriculture
    • Year: 2022
    • Citations: 27
    • Summary: This review article explores composting principles, including processes, methods, advantages, and disadvantages, contributing to a better understanding of composting as a waste management technique.
  • “Environmental impact of concrete and concrete-based construction waste leachates”
    • Authors: K.A. Mocová, L.N.A. Sackey, P. Renkerová
    • Journal: IOP Conference Series: Earth and Environmental Science
    • Year: 2019
    • Citations: 23
    • Summary: This paper assesses the environmental impacts of leachates from concrete and construction waste, focusing on their effects on the environment.
  • “Assessment of the quality of leachate at Sarbah landfill site at Weija in Accra”
    • Authors: L.N.A. Sackey, K. Meizah
    • Journal: Journal of Environmental Chemistry and Ecotoxicology
    • Year: 2015
    • Citations: 18
    • Summary: The study examines the quality of leachate from a specific landfill site, providing data on the contamination levels and potential environmental risks.
  • “Multivariate studies and heavy metal pollution in soil from gold mining area”
    • Authors: O. Akoto, S. Yakubu, L.A. Ofori, N. Bortey-Sam, N.O. Boadi, J. Horgah, et al.
    • Journal: Heliyon
    • Year: 2023
    • Citations: 14
    • Summary: This research uses multivariate analysis to study heavy metal pollution in soil from gold mining areas, contributing to the understanding of mining’s environmental impact.
  • “Risk assessment of heavy metals concentration in cereals and legumes sold in the Tamale Aboabo market, Ghana”
    • Authors: A.A. Adam, L.N.A. Sackey, L.A. Ofori
    • Journal: Heliyon
    • Year: 2022
    • Citations: 10
    • Summary: This study assesses the concentration of heavy metals in food sold in a Ghanaian market, evaluating potential health risks associated with heavy metal contamination in agricultural products.

 

 

Priya Lal Chandra Paul | Conservation agriculture | Excellence in Research

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Dr Priya Lal Chandra Paul |  Conservation agriculture | Excellence in Research

Senior Scientific Officer at  Bangladesh Rice Research Institute, Bangladesh

Dr. Priya Lal Chandra Paul is a Senior Scientific Officer at the Irrigation and Water Management Division of the Bangladesh Rice Research Institute (BRRI) in Gazipur, Bangladesh. With a profound interest in soil water and salinity dynamics, waterlogging mitigation techniques, and conservation agriculture, Dr. Paul has made significant contributions to agricultural science and water management.

 

Profile:

Education:

🎓 PhD in Agricultural Science, Murdoch University, Perth, Australia (2020).🎓 M.S. in Irrigation and Water Management, Bangladesh Agricultural University, Mymensingh (2006).🎓 B. Sc. Agricultural Engineering, Bangladesh Agricultural University, Mymensingh (2004)

Professional Experience:

Senior Scientific Officer, BRRI (Dec 2014 – Present). Scientific Officer, BRRI (Aug 2009 – Dec 2014). Assistant General Manager, Bangladesh Rural Electrification Board (REB) (Nov 2008 – Aug 2009). Assistant Manager, Bangladesh Sugar and Food Industries Corporation (BSFIC) (Jul 2008 – Nov 2008). Agricultural Engineer, Department of Agriculture Extension (DAE), Ministry of Agriculture (Jul 2006 – Jul 2008)

Professional Development:

Dr. Paul has continually enhanced his expertise through various training programs and courses, including GIS and Remote Sensing in Smart Agriculture, Adaptive Delta Management, and Integrated Water Resource Management. 🌍

Awards and Fellowships:

🏆 ACIAR John Allwright Fellowship, Australia
🏆 TWAS-USM Fellowship, Malaysia
🏆 VLIR-UOS Training Scholarship, Belgium
🏆 National Integrity Strategy Award 2023, BRRI

Dr. Paul’s dedication to agricultural research and development is evident through his extensive involvement in projects aimed at mitigating climate risks and enhancing the resilience of agricultural systems in Bangladesh. 🌱

Conservation Agriculture Research Focus 🌾

Dr. Priya Lal Chandra Paul is deeply engaged in research focused on conservation agriculture, emphasizing sustainable practices that enhance soil health, improve water use efficiency, and increase crop yields while reducing environmental impact. His key research areas in this domain include:

  1. Soil Water Conservation:
    • Investigating techniques to conserve soil moisture, crucial for sustaining crop growth in water-scarce regions.
    • Implementing mulching practices and other soil amendments to maintain optimal soil moisture levels.
  2. Tillage Practices:
    • Exploring minimum tillage and no-till farming methods to reduce soil erosion and degradation.
    • Assessing the impact of different tillage practices on soil structure, water infiltration, and root growth.
  3. Crop Establishment in Saline-Wet Soils:
    • Developing strategies for successful crop establishment in challenging saline and waterlogged soils, typical in coastal regions.
    • Evaluating salt-tolerant crop varieties and appropriate planting techniques to mitigate salinity effects.
  4. Conjunctive Use of Saline and Freshwater:
    • Studying the combined use of saline and freshwater resources to optimize irrigation practices.
    • Implementing water management strategies that balance the use of available water resources to maintain soil health and crop productivity.
  5. Water Saving Techniques:
    • Promoting the use of efficient irrigation systems, such as drip and sprinkler irrigation, to minimize water wastage.
    • Investigating alternate wetting and drying (AWD) techniques in rice cultivation to save water and improve water use efficiency.
  6. Conservation Agriculture in Coastal Agriculture and Hydrology:
    • Addressing the unique challenges faced by coastal agricultural systems, including salinity, waterlogging, and soil degradation.
    • Developing and promoting integrated water and soil management practices to enhance the resilience of coastal farming systems.

Dr. Paul’s research is instrumental in developing sustainable agricultural practices that ensure long-term productivity and environmental conservation, particularly in regions facing climatic and hydrological challenges. His work aims to provide practical solutions for farmers to adapt to changing conditions and maintain agricultural sustainability. 🌱

Citation Metrics đź“Š

  • Total Citations: 339 (since 2019: 312)
  • h-index: 11 (since 2019: 10)
  • i10-index: 12 (since 2019: 11)

Publication Top Notes:

  • Straw mulch and irrigation affect solute potential and sunflower yield in a heavy textured soil in the Ganges Delta
    • Agricultural Water Management 239, 106211 (2020)
    • Citations: 45
  • Banding of fertilizer improves phosphorus acquisition and yield of zero tillage maize by concentrating phosphorus in surface soil
    • Sustainability 10 (9), 3234 (2018)
    • Citations: 35
  • Variation in the yield of sunflower (Helianthus annuus L.) due to differing tillage systems is associated with variation in solute potential of the soil solution in a salt-affected soil
    • Soil and Tillage Research 197, 104489 (2020)
    • Citations: 34
  • Impact of rice straw mulch on soil physical properties, sunflower root distribution and yield in a salt-affected clay-textured soil
    • Agriculture 11 (3), 264 (2021)
    • Citations: 29
  • Opportunities for cropping system intensification in the coastal zone of Bangladesh
    • Conference proceedings, Revitalizing the Ganges Coastal Zone: Turning Challenges into Opportunities (2015)
    • Citations: 28*
  • Optimum sowing window for boro cultivation in the coastal zone of Bangladesh
    • Conference proceedings, Revitalizing the Ganges Coastal Zone: Turning Challenges into Opportunities (2015)
    • Citations: 22*
  • Refinement of alternate wetting and drying irrigation method for rice cultivation
    • Bangladesh Rice Journal 17 (1-2), 33-37 (2013)
    • Citations: 22
  • Opportunities and risks with early sowing of sunflower in a salt-affected coastal region of the Ganges Delta
    • Agronomy for Sustainable Development 41 (3), 39 (2021)
    • Citations: 18
  • Water productivity improvement using water saving technologies in Boro rice cultivation
    • Bangladesh Rice Journal 20 (1), 17-22 (2016)
    • Citations: 17
  • Triple rice in a year: Is it a feasible option for the low salinity areas of the coastal zone of Bangladesh
    • Conference proceedings, Revitalizing the Ganges Coastal Zone: Turning Challenges into Opportunities (2015)
    • Citations: 14*
  • Short-Term Waterlogging Depresses Early Growth of Sunflower (Helianthus annuus L.) on Saline Soils with a Shallow Water Table in the Coastal Zone of the Ganges Delta
    • Soil Systems 5 (4), 68 (2021)
    • Citations: 12
  • Selection of Profitable Rice Based Cropping System Under Prevailing Water Environment in Satkhira District of Bangladesh
    • Academia Journal of Agricultural Research 4 (9), 581-588 (2016)
    • Citations: 11*
  • Early transplanting of rainfed rice minimizes irrigation demand by utilizing rainfall
    • Environmental Systems Research 10, 1-11 (2021)
    • Citations: 9
  • Impacts of different tillage systems on the yield of sunflower (Helianthus annuus L.) in a salt-affected clayey soil of the Ganges Delta
    • Soil Tillage Res 197, 104489 (2020)
    • Citations: 8
  • Rice-rice-rabi cropping systems for increasing the productivity of low salinity regions of the coastal zone of Bangladesh
    • Conference proceedings, Revitalizing the Ganges Coastal Zone: Turning Challenges into Opportunities (2015)
    • Citations: 8*
  • Agronomic practices increase sunflower yield in the rabi (dry) season in clay-textured, salt-affected soils of the coastal region of Bangladesh
    • Murdoch University (2020)
    • Citations: 4
  • Water productivity evaluation for rice based cropping system in Gazipur District of Bangladesh
    • Eco-friendly Agricultural Journal 6 (12), 279-284 (2013)
    • Citations: 4

 

Feng Wu | Soil Engineering | Best Researcher Award

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Prof Feng Wu |  Soil Engineering |  Best Researcher Award

Professor at  North China University of Water Resources and Electric Power,  China

Feng Wu is a distinguished researcher for his expertise in the theory and technology of water-saving irrigation. Born on November 12, 1969, in China, Wu embarked on his academic journey by obtaining a Bachelor’s degree in Agricultural Water Conservancy Engineering from the College of Water Conservancy, North China University of Water Resources and Electric Power, in 1992. He furthered his education by pursuing a Master’s degree in Agricultural Water and Soil Engineering at the Chinese Academy of Agricultural Sciences and later earned his Ph.D. in Agricultural Water and Soil Engineering from Northwest A&F University.

Profile:

Education and Academic Achievements:

Dr. Feng Wu earned his Bachelor’s degree in Agricultural Water Conservancy Engineering from the College of Water Conservancy at North China University of Water Resources and Electric Power in 1992. He pursued further studies, obtaining a Master’s degree in Agricultural Water and Soil Engineering from the Chinese Academy of Agricultural Sciences in 2002. His academic journey culminated in a Ph.D. in Agricultural Water and Soil Engineering from Northwest A&F University in 2010. Dr. Wu has since become a leading figure in agricultural engineering in Henan Province, holding prestigious positions such as Ph.D./Master supervisor and serving as a backbone of North China University of Water Resources and Electric Power.

Professional Experience:

Dr. Wu’s illustrious career spans over three decades, starting as a Professor at the Chinese Academy of Agricultural Sciences in Henan, China, from 1993 to 2011. He then served as a Professor at the College of Water Conservancy at North China University of Water Resources and Electric Power until 2020, and currently continues his academic pursuits as a Professor at the College of Water Resources at the same institution. Throughout his career, he has successfully led numerous research projects and contributed significantly to the advancement of water-saving irrigation technology.

Research Contributions:

Dr. Wu’s primary research focus lies in the theory and technology of water-saving irrigation. He is renowned for his pioneering work in developing the Stalk Composite Pipe, a revolutionary subsurface irrigation product that optimizes water delivery and infiltration in agricultural fields. Over the past decade, he has led a dedicated research team in exploring various aspects of this technology, from green pipe development using crop stalks to the integration of machinery and equipment for manufacturing and installation. His comprehensive approach has resulted in the establishment of innovative underground irrigation techniques based on the Stalk Composite Pipe.

Soil Engineering Research Focus:

 

Dr. Feng Wu, a distinguished researcher in Agricultural Water and Soil Engineering, has made significant contributions to the field with a particular focus on soil engineering. Throughout his extensive academic career, Dr. Wu has demonstrated expertise in understanding soil properties and their implications for agricultural practices, especially in the context of water-saving irrigation.

His research endeavors have delved into various aspects of soil engineering, including soil structure analysis, soil-water interaction, and soil fertility management. Dr. Wu’s investigations have aimed to optimize soil conditions for crop growth while conserving water resources through innovative irrigation techniques.

One of his notable contributions is the development of underground irrigation technology based on the Stalk Composite Pipe, which not only optimizes water delivery and infiltration but also enhances soil structure and fertility. By integrating soil engineering principles into irrigation technologies, Dr. Wu has pioneered sustainable agricultural practices that promote both water conservation and soil health.

Furthermore, Dr. Wu’s expertise extends to soil erosion control and soil remediation strategies, where he has explored novel approaches to mitigate soil degradation and enhance land productivity.

Overall, Dr. Feng Wu’s research in soil engineering has significantly advanced our understanding of soil-water dynamics and has practical implications for sustainable agriculture and environmental stewardship.

 

Publication Top Notes:

  • Effects of Straw-based Composite Pipe Subsurface Irrigation on Growth and Water Use Efficiency of Winter Wheat
  • Effects of Fertilization Practices on the Metabolic Functions of Soil Microbial Communities under Subsurface Irrigation with Stalk Composite Pipe
  • Analysis of the Spatial-Temporal Distribution Characteristics of Climate and Its Impact on Winter Wheat Production in Shanxi Province, China, 1964–2018
  • Effects of Burial Furrow Parameters on Soil Water Movement under Subsurface Stalk Composite Pipe Irrigation
  • Position parameters of stalk composite pipe
  • Simulation optimization design of straw returning machine picker
  • Model for predicting the hydraulic elements of drip irrigation system with automatic flushing valves under high sediment water
  • Characteristics and Impacts of Water–Thermal Variation on Grain Yield in the Henan Province, China, on Multiple Time Scales
  • Early warning analysis of mountain flood disaster based on Copula function risk combination
  • Study on coordinated allocation of conventional and unconventional water resources in typical regions of North China