Mohd Huzairi Mohd Zainudin | Livestock waste management | Best Researcher Award

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Dr Mohd Huzairi  Mohd Zainudin |  Livestock waste management |  Best Researcher Award

Researcher at  Universiti Putra Malaysia, Malaysia

Dr. Mohd Huzairi Mohd Zainudin, a Malaysian Research Officer at UPM’s Laboratory of Sustainable Animal Production and Biodiversity, Institute of Tropical Agriculture & Food Security, has built a notable career in environmental biotechnology. Born on October 26, 1983, Dr. Huzairi earned his Ph.D. in Environmental Biotechnology from Universiti Putra Malaysia in 2015, following an M.Sc. (2009) and a B.Sc. (2005) in Biotechnology from the same institution. His research focuses on microbial ecology, composting, organic waste treatment, and sustainable biomass utilization, contributing significantly to environmental sustainability.

Publication Profile

Academic Background:

  • Ph.D. in Environmental Biotechnology, Universiti Putra Malaysia, 2015
  • M.Sc. in Environmental Biotechnology, Universiti Putra Malaysia, 2009
  • B.Sc. in Biotechnology, Universiti Putra Malaysia, 2005

Research Expertise:

Dr. Huzairi’s research focuses on Environmental Biotechnology, Environmental Microbiology, Composting, Molecular Biology, Bioprocess Technology, Biomass Treatment, and Biocatalysts.

Professional Experience and Roles:

Dr. Huzairi has served as a reviewer for numerous international journals, including Frontiers in Microbiology, Scientific Reports, Environmental Pollution, and Bioresource Technology Reports. He is also a judge and guest editor in various symposiums and journals in biotechnology and environmental sciences.

Honors and Awards:

Notable awards include the Graduate Research Fellowship (2010–2013) from UPM, Excellent Service Award (2019), and several medals for his innovations in waste treatment and composting at national and international expos.

Citations:

All-Time Statistics

  • Citations: 725
  • h-index: 13
  • i10-index: 13

Since 2019

  • Citations: 524
  • h-index: 12
  • i10-index: 13

Publication Top Notes

  • Biochar enhanced the nitrifying and denitrifying bacterial communities during the composting of poultry manure and rice straw
    MH Zainudin, NA Mustapha, T Maeda, N Ramli, K Sakai, M Hassan
    Waste Management, 106, 240-249 (2020) — 143 citations
  • Effect of steam pretreatment on oil palm empty fruit bunch for the production of sugars
    S Shamsudin, UKM Shah, H Zainudin, S Abd-Aziz, SMM Kamal, Y Shirai, …
    Biomass and Bioenergy, 36, 280-288 (2012) — 135 citations
  • Indigenous cellulolytic and hemicellulolytic bacteria enhanced rapid co-composting of lignocellulose oil palm empty fruit bunch with palm oil mill effluent anaerobic sludge
    MHM Zainudin, MA Hassan, M Tokura, Y Shirai
    Bioresource Technology, 147, 632-635 (2013) — 94 citations
  • Cellulase Production from Treated Oil Palm Empty Fruit Bunch Degradation by Locally Isolated Thermobifida fusca
    NAF Harun, AS Baharuddin, MHM Zainudin, EK Bahrin, MN Naim, …
    BioResources, 8 (1) (2013) — 52 citations
  • Enhancement of agro-industrial waste composting process via the microbial inoculation: a brief review
    MHM Zainudin, A Zulkarnain, AS Azmi, S Muniandy, K Sakai, Y Shirai, …
    Agronomy, 12 (1), 198 (2022) — 48 citations
  • Novel multifunctional plant growth–promoting bacteria in co-compost of palm oil industry waste
    CFS Chin, Y Furuya, MHM Zainudin, N Ramli, MA Hassan, Y Tashiro, …
    Journal of Bioscience and Bioengineering, 124 (5), 506-513 (2017) — 42 citations
  • Bacterial community shift for monitoring the co-composting of oil palm empty fruit bunch and palm oil mill effluent anaerobic sludge
    MHM Zainudin, N Ramli, MA Hassan, Y Shirai, K Tashiro, K Sakai, …
    Journal of Industrial Microbiology and Biotechnology, 44 (6), 869-877 (2017) — 41 citations
  • Bacterial community structure and biochemical changes associated with composting of lignocellulosic oil palm empty fruit bunch
    MHM Zainudin, MA Hassan, UKM Shah, N Abdullah, M Tokura, …
    BioResources, 9 (1), 316-335 (2013) — 37 citations
  • A highly thermostable crude endoglucanase produced by a newly isolated Thermobifida fusca strain UPMC 901
    MHM Zainudin, NA Mustapha, MA Hassan, EK Bahrin, M Tokura, …
    Scientific Reports, 9 (1), 13526 (2019) — 29 citations
  • Inhibition of methane production by the palm oil industrial waste phospholine gum in a mimic enteric fermentation
    NA Mustapha, SS Sharuddin, MHM Zainudin, N Ramli, Y Shirai, T Maeda
    Journal of Cleaner Production, 165, 621-629 (2017) — 24 citations
  • Utilization of glucose recovered by phase separation system from acid-hydrolysed oil palm empty fruit bunch for bioethanol production
    M Funaoka, T Shinano, Y Shirai, M Wakisaka, MA Hassan
    Pertanika Journal of Tropical Agricultural Science, 35 (1), 117-126 (2012) — 22 citations
  • Effect of inorganic fertilizer application on soil microbial diversity in an oil palm plantation
    SS Salamat, MA Hassan, Y Shirai, AHM Hanif, MS Norizan, …
    BioResources, 16 (2), 2279-2302 (2021) — 20 citations
  • Indigenous cellulolytic aerobic and facultative anaerobic bacterial community enhanced the composting of rice straw and chicken manure with biochar addition
    MHM Zainudin, JT Singam, AQ Sazili, Y Shirai, MA Hassan
    Scientific Reports, 12 (1), 5930 (2022) — 15 citations
  • Enhanced biogas production from palm oil mill effluent supplemented with untreated oil palm empty fruit bunch biomass with a change in the microbial community
    AAM Ali, MHM Zainudin, A Idris, AS Baharuddin, A Sulaiman, …
    Japan Journal of Food Engineering, 13 (3), 37-41 (2012) — 8 citations
  • Enteric methane emission models for diverse beef cattle feeding systems in South-east Asia: A meta-analysis
    TP Tee, YM Goh, MHM Zainudin, SCL Candyrine, K Sommart, …
    Animal Feed Science and Technology, 294, 115474 (2022) — 5 citations
  • Improving Composting Process By Controlling Aeration Time
    KBB Abd Hamid, MHM Zainudin, MAA Samah, K Yunus
    International Journal of Applied Chemistry, 12 (1), 130-135 (2016) — 3 citations
  • Author Correction: A highly thermostable crude endoglucanase produced by a newly isolated Thermobifida fusca strain UPMC 901
    MHM Zainudin, NA Mustapha, MA Hassan, EK Bahrin, M Tokura, …
    Scientific Reports, 10 (2020) — 2 citations
  • Sustainable agricultural and livestock waste management through composting
    MHM Zainudin, MZ Mohd Yusoff, N Ramli, NH Mohd Yasin
    Frontiers in Sustainable Food Systems, 8, 1412594 (2024) — 1 citation
  • Enzymatic Pretreatment Improved the In Vitro Ruminal Degradability of Oil Palm Fronds
    MA Azmi, AF Nicholas, AFM Azmi, MHM Zainudin, MT Yusof, Z Zakaria, …
    Catalysts, 12 (5), 461 (2022) — 1 citation
  • Improvement of bioethanol production in consolidated bioprocessing (CBP) via consortium of Aspergillus niger B2484 and Trichoderma asperellum B1581
    MFSM Ghazali, M Mustafa, NA Izzati, M Zainudin, NA Abd Aziz
    Pertanika Journal of Tropical Agricultural Science, 29 (1) (2021) — 1 citation

 

Radha Rani | Sustainable Agriculture | Women Researcher Award

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Dr Radha Rani |  Sustainable Agriculture |  Women Researcher Award

Associate Professor at  Motilal Nehru National Institute of Technology Allahabad,  India

Dr. Radha Rani is an esteemed Associate Professor in the Department of Biotechnology at Motilal Nehru National Institute of Technology, Allahabad. With a Ph.D. in Microbiology, her research focuses on environmental microbiology and biotechnology, specifically in the areas of bioremediation, biodegradation, and phytodegradation of organic pollutants, as well as plant-microbe interactions. Dr. Rani possesses technical expertise in remediating soil contaminated with organic and inorganic pollutants, microbial fermentation, and studying microbial diversity. She is proficient in advanced analytical techniques, including GC/LC-MS and ICP-AES, contributing significantly to the field through her innovative research and dedication to environmental sustainability.

Publication profile:

Specialization:

Dr. Radha Rani specializes in Environmental Microbiology and Biotechnology, focusing on Bioremediation, Biodegradation, and Phytodegradation of organic pollutants, as well as plant-microbe interactions.

Technical Expertise:

  • Bioremediation of soil contaminated with organic/inorganic pollutants
  • Microbial fermentation
  • Microbial diversity studies
  • GC/LC-MS and ICP-AES techniques

Research Experience:

  • Doctoral Research: Conducted at the National Environmental Engineering Research Institute (NEERI), Nagpur
  • Teaching Experience:
    • Shri Shivaji Education Society Amravati’s Science College, Nagpur
    • IFTM University, Moradabad
    • MNNIT, Allahabad

Citations:

  • Citations: 2,032 (1,871 since 2019)
  • h-index: 23 (22 since 2019)
  • i10-index: 31 (29 since 2019)

 

Publication Top Notes:

  • A critical review on speciation, mobilization and toxicity of lead in soil-microbe-plant system and bioremediation strategies
    A. Kushwaha, N. Hans, S. Kumar, R. Rani
    Ecotoxicology and Environmental Safety 147, 1035-1045 (2018)
    Citations: 495
  • Heavy metal detoxification and tolerance mechanisms in plants: Implications for phytoremediation
    A. Kushwaha, R. Rani, S. Kumar, A. Gautam
    Environmental Reviews 24 (1), 39-51 (2015)
    Citations: 204
  • Liposome and their applications in cancer therapy
    H. Pandey, R. Rani, V. Agarwal
    Brazilian Archives of Biology and Technology 59, e16150477 (2016)
    Citations: 152
  • Tolerance and Reduction of Chromium(VI) by Bacillus sp. MNU16 Isolated from Contaminated Coal Mining Soil
    N. Upadhyay, K. Vishwakarma, J. Singh, M. Mishra, V. Kumar, R. Rani, …
    Frontiers in Plant Science 8, 778 (2017)
    Citations: 130
  • Adsorption kinetics and molecular interactions of lead [Pb(II)] with natural clay and humic acid
    J. K. P. Kushwaha, A. Rani
    International Journal of Environmental Science and Technology 1, 1-12 (2019)
    Citations: 96
  • Recent progress in microbial fuel cells for industrial effluent treatment and energy generation: Fundamentals to scale-up application and challenges
    R. Selvasembian, J. Mal, R. Rani, R. Sinha, R. Agrahari, I. Joshua, …
    Bioresource Technology 346, 126462 (2022)
    Citations: 94
  • A new insight to adsorption and accumulation of high lead concentration by exopolymer and whole cells of lead-resistant bacterium Acinetobacter junii L. Pb1 isolated from coal …
    M. A. Anamika Kushwaha, Radha Rani, Sanjay Kumar, Tarence Thomas, Arun Alfred David
    Environmental Science and Pollution Research 24 (11), 10652-10661 (2017)
    Citations: 75
  • Emerging bioremediation technologies for the treatment of textile wastewater containing synthetic dyes: a comprehensive review
    A. Srivastava, R. M. Rani, D. S. Patle, S. Kumar
    Journal of Chemical Technology & Biotechnology 97 (1), 26-41 (2022)
    Citations: 73
  • Evaluation of the cytotoxicity and interaction of lead with lead resistant bacterium Acinetobacter junii Pb1
    R. R. Singh, P. K., Kushwaha A., Hans N., Gautam A.
    Brazilian Journal of Microbiology 50 (1), 223 (2019)
    Citations: 50
  • Microbial decolorization of Reactive Black 5 dye by Bacillus albus DD1 isolated from textile water effluent: kinetic, thermodynamics & decolorization mechanism
    A. Srivastava, L. K. Dangi, S. Kumar, R. Rani
    Heliyon 8 (2) (2022)
    Citations: 48
  • Advances in the development of electrode materials for improving the reactor kinetics in microbial fuel cells
    R. Agrahari, B. Bayar, H. N. Abubackar, B. S. Giri, E. R. Rene, R. Rani
    Chemosphere 290, 133184 (2022)
    Citations: 47
  • Soil ecophysiological and microbiological indices of soil health: a study of coal mining site in Sonbhadra, Uttar Pradesh
    N. Upadhyay, S. Verma, A. Pratap Singh, S. Devi, K. Vishwakarma, N. Kumar, …
    Journal of Soil Science and Plant Nutrition 16 (3), 778-800 (2016)
    Citations: 41
  • Biodegradation of phorate in soil and rhizosphere of Brassica juncea (L.)(Indian Mustard) by a microbial consortium
    R. Rani, A. Juwarkar
    International Biodeterioration & Biodegradation 71, 36-42 (2012)
    Citations: 41
  • Optimization of operating conditions of miniaturized single chambered microbial fuel cell using NiWO4/graphene oxide modified anode for performance improvement and microbial …
    R. Rani, D. Sharma, S. Kumar
    Bioresource Technology 285, 121337 (2019)
    Citations: 39
  • High-capacity polyaniline-coated molybdenum oxide composite as an effective catalyst for enhancing the electrochemical performance of the microbial fuel cell
    R. Rani, S. Kumar
    International Journal of Hydrogen Energy 44 (31), 16933-16943 (2019)
    Citations: 34
  • Role of root exudates on the soil microbial diversity and biogeochemistry of heavy metals
    P. Agarwal, R. Vibhandik, R. Agrahari, A. Daverey, R. Rani
    Applied Biochemistry and Biotechnology 196 (5), 2673-2693 (2024)
    Citations: 33
  • Unravelling the role of rhizospheric plant-microbe synergy in phytoremediation: a genomic perspective
    P. Agarwal, B. S. Giri, R. Rani
    Current Genomics 21 (5), 334-342 (2020)
    Citations: 33
  • Mechanism of soil-metal-microbe interactions and their implication on microbial bioremediation and phytoremediation
    A. Kushwaha, R. Rani, S. Kumar
    Environmental Science and Engineering. Biodegradation and Bioremediation 8 (2017)
    Citations: 31
  • Enhanced Performance of a Single Chamber Microbial Fuel Cell Using NiWO4/Reduced Graphene Oxide Coated Carbon Cloth Anode
    S. K. Geetanjali, Radha Rani
    Fuel Cell (2019) DOI: 10.1002/fuce.201800120
    Citations: 28
  • Reduction of Hexavalent Chromium [Cr(VI)] by Heavy Metal Tolerant Bacterium Alkalihalobacillus clausii CRA1 and Its Toxicity Assessment Through Flow Cytometry
    A. Gautam, A. Kushwaha, R. Rani
    Current Microbiology 79 (1), 33 (2022)
    Citations: 27

 

Tangyuan Ning | sustainable crop production | Best Researcher Award

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Tangyuan Ning | sustainable crop production | Best Researcher Award

Prof. Dr. Tangyuan Ning , academic at Shandong Agricultural University in China.

Prof. Dr. Tangyuan Ning is a leading scholar in agricultural science at Shandong Agricultural University. His expertise spans crop physiology, drought tolerance, and soil management. With significant contributions to agricultural innovation, he serves as the director of the Key Laboratory of Crop Water Physiology and Drought-Tolerance Germplasm Improvement. Prof. Ning has a notable research profile with extensive international collaboration and a strong citation record. He is dedicated to advancing sustainable agricultural practices through his research and leadership. 🌱📚

PUBLICATION:

orcid

Education:

  1. Visiting Research Scholar, The Ohio State University, USA
    June 2014 – June 2015
    Conducted advanced research on crop physiology and water management.
  2. Visiting Research Scholar, University of Göttingen, Germany
    November 2019 – October 2020
    Focused on drought tolerance and soil fertility.
  3. Ph.D. in Agricultural Science, Shandong Agricultural University, China
    Specialized in crop improvement and soil management.
  4. Master’s in Crop Science, Shandong Agricultural University, China
  5. Bachelor’s in Agronomy, Shandong Agricultural University, China

Experience:

  1. Professor, Agricultural College, Shandong Agricultural University
    2014 – Present
    Leads research on crop water physiology and drought tolerance. Oversees the Key Laboratory of Crop Water Physiology and Drought-Tolerance Germplasm Improvement and is the Principal Investigator of the National Engineering Laboratory for Efficient Utilization of Soil and Fertilizer. 🌾🔬
  2. Visiting Research Scholar, The Ohio State University
    June 2014 – June 2015
  3. Visiting Research Scholar, University of Göttingen
    November 2019 – October 2020
  4. Director, Key Laboratory of Crop Water Physiology and Drought-Tolerance Germplasm Improvement
    Ministry of Agriculture
    Manages research initiatives and technological advancements in crop water management.

Research Interests:

  1. 🌱 Soil Carbon Formation and Properties
    Prof. Dr. Tangyuan Ning’s research delves into the dynamics of soil carbon formation and its impact on soil quality and agricultural productivity. He investigates how soil organic carbon contributes to soil health, fertility, and long-term sustainability.
  2. 🌾 Crop Carbon Fixation
    A significant focus of Dr. Ning’s work is on understanding crop carbon fixation processes. His research aims to optimize how crops absorb and utilize carbon dioxide, which is crucial for improving crop yield and reducing atmospheric CO₂ levels.
  3. 🚜 Cropping Systems and Soil Management
    Dr. Ning explores innovative cropping systems and soil management practices to enhance productivity and sustainability. His research includes the development of practices that integrate conservation tillage, crop rotation, and soil fertility management to improve overall farm efficiency.
  4. 🔬 Conservation Tillage Practices
    His studies on conservation tillage aim to assess its effects on soil carbon sequestration, soil health, and crop yields. Dr. Ning is interested in how different tillage methods influence long-term soil sustainability.
  5. 🌾 Intercrop Systems and Sustainable Farming
    Dr. Ning investigates the benefits of intercropping systems, such as the combination of maize with other crops like peanuts. His research focuses on optimizing these systems to enhance soil health, improve productivity, and maintain sustainable farmland.
  6. 📉 Soil Fertility and Nutrient Management
    Research on soil fertility and nutrient management is key to Dr. Ning’s work. He examines how different fertilizer applications and soil amendments affect crop growth, yield, and soil nutrient status.
  7. 🌍 Climate-Smart Agriculture
    Dr. Ning is committed to climate-smart agricultural practices that adapt to changing climatic conditions. His research includes developing strategies to mitigate climate impacts on agriculture while enhancing resilience and productivity.
  8. 🔍 Microbial Communities and Carbon Sequestration
    Dr. Ning explores how microbial communities in the soil contribute to carbon sequestration and overall soil health. His work aims to understand and leverage these microbial processes for improved soil management.
  9. 📈 Agricultural Waste Recycling
    He is involved in research on recycling agricultural waste to enhance soil health and sustainability. This includes developing technologies to convert waste into valuable resources for crop production.

Awards & Grants:

  • Key Technology and Integrated Application of Multi-Harvest Farming
    Award: Shennong China Agricultural Science and Technology Award, First Prize
    Year: 2019
    Recognized for groundbreaking advancements in multi-harvest farming techniques that significantly enhance agricultural productivity and sustainability.
  • Research, Development, and Industrial Application of New Functional Greenhouse Film and Mulch Film in Agriculture
    Award: Scientific and Technological Achievement Award, First Prize
    Organization: Shandong Provincial Government
    Year: 2018
    Honored for innovative contributions to the development of functional greenhouse and mulch films that improve agricultural practices and efficiency.
  • Key Technologies and Application of Recycling Use of Agricultural Wastes in Huang-Huai-Hai Region
    Award: Scientific and Technological Achievement Award, Second Prize
    Organization: Shandong Provincial Government
    Year: 2016
    Awarded for significant work in recycling agricultural wastes, contributing to sustainable farming practices in the Huang-Huai-Hai region.
  • National Excellent Resource-Sharing Course: Agro-ecology
    Award: National Recognition
    Year: 2013
    Acknowledged for creating a leading resource-sharing course in agro-ecology, enhancing the field’s educational resources.
  • Pioneer of Teaching Award
    Institution: Shandong Agricultural University
    Year: 2013
    Recognized for outstanding contributions to education and teaching excellence at Shandong Agricultural University.
  • Technical System Establishment and Demonstration for High Yield Intercropping System of Wheat, Peanut, and Maize
    Award: Scientific and Technological Achievement Award, First Prize
    Organization: Henan Provincial Education Department
    Year: 2012
    Awarded for developing and demonstrating a successful intercropping system that improves yield and efficiency in wheat, peanut, and maize cultivation.
  • Top Ten Outstanding Young Skilled Workers
    Institution: Shandong Agricultural University
    Year: 2012
    Honored for exceptional skills and contributions to the agricultural field as a young professional.
  • Key Technologies Research and Demonstration for Standardized Production of Pollution-Free High-Quality Wheat
    Award: Scientific and Technological Achievement Award, Second Prize
    Organization: Shandong Provincial Government
    Year: 2011
    Recognized for research and technology in producing high-quality, pollution-free wheat, enhancing crop quality and sustainability.
  • Outstanding Young Scientist in Farming System Branch of China Association of Agricultural Science Societies
    Award: Outstanding Young Scientist
    Year: 2010
    Acknowledged for significant contributions to farming systems and agricultural science.
  • Shandong Provincial Awards for Farming, Forestry, Animal Husbandry
    Award: Demonstration for Drought and Salt Tolerance of High-Quality Wheat Varieties and Technologies for Cost Reduction and Efficiency Improvement
    Year: 2005
    Awarded for advances in developing drought and salt-tolerant wheat varieties, improving agricultural resilience and cost-efficiency

Research projects:

Prof. Dr. Tangyuan Ning has made significant contributions through his research projects, focusing on soil management and crop physiology. He has completed approximately 20 research projects and is currently engaged in 7 ongoing projects. His research addresses critical areas such as crop water efficiency, soil fertility, and drought resistance.

Citation Index:

  • Scopus: H-index 26
  • Web of Science: H-index 18
  • Scientific Index: H-index 32
  • Total i10 Index: 90
  • ResearchGate: Research Interest Score 1,406; Citations: 2,450

Consultancy/Industry Projects:
Prof. Ning has undertaken 3 consultancy or industry-sponsored projects, contributing his expertise to practical applications and industry advancements in agriculture.

Publication Top notes:

  • Maize (Zea mays L.) planted at higher density utilizes dynamic light more efficiently
    Plant, Cell & Environment
    November 2023
    DOI: 10.1111/pce.14673
  • Long-Term Maize Intercropping with Peanut and Phosphorus Application Maintains Sustainable Farmland Productivity by Improving Soil Aggregate Stability and P Availability
    Preprint
    October 17, 2023
    DOI: 10.20944/preprints202310.1022.v1
  • Statistical analysis of the effects of variations in leaf shape, planting density, and nitrogen application rate on direct and diffuse light contributions to the crop yield from soy
    Preprint
    March 29, 2023
    DOI: 10.22541/au.168006250.03586141/v1
  • Climate-Smart Tillage Practices with Straw Return to Sustain Crop Productivity
    Agronomy
    October 10, 2022
    DOI: 10.3390/agronomy12102452
  • Nitrogen fixation and crop productivity enhancements co‐driven by intercrop root exudates and key rhizosphere bacteria
    Journal of Applied Ecology
    October 2021
    DOI: 10.1111/1365-2664.13964
  • Soil organic carbon increment sources and crop yields under long‐term conservation tillage practices in wheat‐maize systems
    Land Degradation & Development
    May 30, 2020
    DOI: 10.1002/ldr.3531
  • Responses of soil carbon, nitrogen, and wheat and maize productivity to 10 years of decreased nitrogen fertilizer under contrasting tillage systems
    Soil and Tillage Research
    February 2020
    DOI: 10.1016/j.still.2019.104444
  • Shifts in microbial community and carbon sequestration in farmland soil under long-term conservation tillage and straw returning
    Applied Soil Ecology
    April 2019
    DOI: 10.1016/j.apsoil.2018.12.016
  • Suitability of mulching with biodegradable film to moderate soil temperature and moisture and to increase photosynthesis and yield in peanut
    Agricultural Water Management
    September 2018
    DOI: 10.1016/j.agwat.2018.06.027

 

 

Radwa El-Behairy | Agricultural Sustainability | Best Researcher Award

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Ms. Radwa El-Behairy | Agricultural Sustainability | Best Researcher Award

PhD student, Tanta University, Egypt

Radwa Abdullah Ahmed Abdullah El-Behairy is a dedicated PhD student at the Faculty of Agriculture, Tanta University, Egypt. Her research focuses on integrating AI and GIS to evaluate soil quality and crop suitability in arid areas, aiming to enhance food security sustainably. In addition to her studies, she serves as an assistant lecturer at the Higher Institute for Agricultural Cooperation in Shubra El Kheima.

Profile

Scopus

Orcid

Education 🎓

Radwa Abdullah Ahmed Abdullah El-Behairy is a dedicated scholar in the field of agricultural and soil sciences. She earned her Bachelor of Science degree in Agricultural Science from Tanta University, Egypt, in 2017. Building on her foundational knowledge, she pursued a Master of Science in Soil Science, also at Tanta University, which she completed in 2021. Currently, Radwa is a Ph.D. student at the same institution, where she is focusing on integrating artificial intelligence and geographic information systems to evaluate soil quality and crop suitability in arid areas. Her academic journey is marked by a strong commitment to advancing agricultural practices and sustainability through innovative research methodologies.

Experience 🏫

Radwa Abdullah Ahmed Abdullah El-Behairy is an Assistant Lecturer at the Higher Institute for Agricultural Cooperation in Shubra El Kheima and a PhD student at the Faculty of Agriculture, Tanta University, Egypt. Her research focuses on integrating Artificial Intelligence (AI) and Geographic Information Systems (GIS) to evaluate soil quality and crop suitability in arid regions. With a solid background in soil science and agricultural science, Radwa has published seven research articles, contributing valuable insights into soil management and crop optimization. Her work aims to enhance agricultural productivity and sustainability through innovative technologies.

Research Interests 🔍

Radwa Abdullah Ahmed Abdullah El-Behairy’s research interests encompass a broad spectrum of fields related to agricultural and environmental sciences. Her primary focus is on agricultural sustainability and pedology, where she explores methods to enhance the resilience and productivity of agricultural systems. She employs remote sensing and GIS technologies to monitor and analyze soil and water resources, integrating these with modeling of irrigation water quality to improve resource management. Her work also addresses environmental contamination through advanced artificial intelligence techniques, contributing to assessments of crop suitability and soil quality. Radwa’s expertise in machine learning and deep learning further supports her efforts to develop innovative solutions for optimizing agricultural practices and ensuring environmental sustainability.

Awards 🏆

Training in the research project “Monitoring land and water productivity through remote sensing WaPOR II”

Publications Top Notes 📚

An Accurate Approach for Predicting Soil Quality Based on Machine Learning in Drylands Agriculture, 2024-04-18 | link

A Novel Approach for Predicting Heavy Metal Contamination Based on Adaptive Neuro-Fuzzy Inference System and GIS in an Arid Ecosystem Agronomy, 2023-07-15 | link

Artificial Intelligence Integrated GIS for Land Suitability Assessment of Wheat Crop Growth in Arid Zones to Sustain Food Security Agronomy, 2023-04-29 |link

Assessment of Potential Heavy Metal Contamination Hazards Based on GIS and Multivariate Analysis in Some Mediterranean Zones Agronomy, 2022-12-19 | link

Combination of GIS and Multivariate Analysis to Assess the Soil Heavy Metal Contamination in Some Arid Zones
Agronomy, 2022-11-16 | link

 

 

 

 

 

 

 

 

Vladimir Verzhuk | Sustainable Crop Production | Best Researcher Award

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Dr Vladimir Verzhuk |  Sustainable Crop Production |  Best Researcher Award

Senior researcher at N.I. Vavilov All-Russian Institute of Plant Genetic Resources (VIR) St. Petersburg, Russia

Verzhuk Vladimir Grigorevich is a Senior Researcher at the N.I. Vavilov All-Russian Institute of Plant Genetic Resources (VIR) in St. Petersburg, Russia. He holds a Candidate of Biological Sciences degree and has been a pivotal figure in the field of plant cryopreservation since completing his postgraduate studies at VIR in 1976.

 

Profile:

Academic and Professional Background:

Verzhuk Vladimir Grigorevich, a Candidate of Biological Sciences, is a Senior Researcher at the Laboratory of Long-term Storage of Plant Genetic Resources of VIR. He graduated from the Crimean Agricultural Institute in 1971 and completed his postgraduate studies at VIR in 1976, focusing on photosynthesis and productivity. Since 2000, he has led the cryopreservation group, specializing in low-temperature storage of vegetative shoots, buds, and pollen of fruit crops.

Areas of Research:

Verzhuk’s research focuses on developing and improving cryopreservation methods for the genetic resources of vegetatively propagated crops at VIR.

Sustainable Crop Production Research Focus:

Verzhuk’s research emphasizes sustainable crop production through the development of cryopreservation methods for genetic resources. His work ensures the long-term viability and diversity of crop species, contributing to the sustainability of agricultural systems by preserving genetic material that can adapt to changing environmental conditions and stressors.

Publication Top Notes:

  • Conservation of the Bird Cherry (Padus Mill.) Germplasm by Cold Storage and Cryopreservation of Winter Cuttings
    • Journal: Biology
    • Date: 2023-07
    • DOI: 10.3390/biology12081071
    • Contributors: Vladimir Verzhuk, Sergey Murashev, Liubov Novikova, Stepan Kiru, Svetlana Orlova
  • Post-Cryogenic Viability of Peach (Persica vulgaris Mill.) Dormant Buds from the VIR Genetic Collection
    • Journal: Agriculture
    • Date: 2022-12
    • DOI: 10.3390/agriculture13010111
    • Contributors: Vladimir Verzhuk, Victor Eremin, Taisya Gasanova, Oksana Eremina, Liubov Novikova, Galina Filipenko, Maxim Sitnikov, Alexander Pavlov
  • Viability of Red (Ribes rubrum L.) and Black (Ribes nigrum L.) Currant Cuttings in Field Conditions after Cryopreservation in Vapors of Liquid Nitrogen
    • Journal: Agriculture
    • Date: 2020-10
    • DOI: 10.3390/agriculture10100476
    • Contributors: Vladimir Verzhuk, Alexander Pavlov, Liubov Novikova, Galina Filipenko

 

Boubie Vincent Bado | Soil Fertility | Best Researcher Award

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Dr Boubie Vincent  Bado | Soil Fertility | Best Researcher Award

Principal Scientist at  Institute of Environment and Agricultural Research, Burkina Faso

Vincent Boubié Bado is an esteemed agronomist specializing in Soil Science and Environmental studies. Holding an Agronomy Engineer degree from the University of Ouagadougou, Burkina Faso, he pursued further education, earning an MSc in Soil Fertility and a PhD in Soil Science and Environment from the University of Laval, Canada.

Profile:

Background:

🎓 B.Sc. Agronomy Engineer in Rural Development, University of Ouagadougou (Burkina Faso) 🎓 M.Sc. Soil Fertility, University of Laval (Canada) 🎓 Ph.D. Soil Science and Environment, University of Laval (Canada)

 

Experience:

🌾 31 years in National Agricultural Research System (NARS) of Burkina Faso 🌾 Program Coordinator & Program Leader roles 🌍 14 years at Africa Rice Center (AfricaRice), CGIAR member 🌾 Principal Scientist, Head of Regional Station (West Africa Sahel), Country Representative (Senegal) 🌾 Regional Representative (7 countries), focal point for partnership with WAEMU

Vincent Bado brings expertise in Cropping Systems & Natural Resource Management, fostering sustainable agriculture for positive impact in Africa and beyond.

Soil Fertility Research Focus:

Vincent Bado’s research focuses on enhancing soil fertility through sustainable agricultural practices. With a background in Agronomy and specialized studies in Soil Fertility, his work aims to understand soil nutrient dynamics, improve soil health, and optimize crop productivity. Through his extensive experience in both national and international agricultural research systems, Vincent has contributed significantly to the development of innovative strategies for soil fertility management, benefiting farming communities and promoting sustainable agricultural practices.

Citations:
  • Citations: 509
  • Documents: 449
  • h-index: 14

Publication Top Notes:

  • Evaluation of fermentation progress during storage of millet stovers silage based on pH-indicators
    • Authors: Korombé, H.S., Bado, V.B., Abdou, N., Ibrahima, A., Gouro, A.S.
    • Journal: Online Journal of Animal and Feed Research, 2023, 13(2), pp. 116–126
    • Citations: 1
  • Improving the productivity of millet-based cropping systems in the West African Sahel: Experiences from a long-term experiment in Niger
    • Authors: Bado, B.V., Bationo, A., Whitbread, A., Tabo, R., Manzo, M.L.S.
    • Journal: Agriculture, Ecosystems and Environment, 2022, 335, 107992
    • Citations: 8
  • Thirty years of agronomy research for development in irrigated rice-based cropping systems in the West African Sahel: Achievements and perspectives
    • Authors: Ibrahim, A., Saito, K., Bado, V.B., Wopereis, M.C.S.
    • Journal: Field Crops Research, 2021, 266, 108149
    • Citations: 22
  • Evaluation of chemical composition and in vitro digestibility of stovers of different pearl millet varieties and their effect on the performance of sheep in the West African Sahel
    • Authors: Umutoni, C., Bado, V., Whitbread, A., Ayantunde, A., Gangashetty, P.
    • Journal: Acta Agriculturae Scandinavica A: Animal Sciences, 2021, 70(2), pp. 91–99
    • Citations: 6
  • Improving agricultural productivity using agroforestry systems: Performance of millet, cowpea, and ziziphus-based cropping systems in West Africa Sahel
    • Authors: Bado, B.V., Whitbread, A., Sanoussi Manzo, M.L.
    • Journal: Agriculture, Ecosystems and Environment, 2021, 305, 107175
    • Citations: 31

 

Weibo Qin | Agricultural Insects | Best Researcher Award

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Dr Weibo Qin | Agricultural Insects |  Best Researcher Award

Jilin Agricultural University,  China

Weibo Qin is a dedicated student specializing in Agricultural Insects and Pest Control. He is currently pursuing his Ph.D. at the College of Plant Protection, Jilin Agricultural University, where he also serves as a student. Weibo’s academic journey reflects a strong commitment to advancing agricultural science and pest management.

Profile:

Education:

Master’s Degree

  • Institution: Yunnan Agricultural University
  • Location: Kunming, Yunnan, China
  • Faculty: Big Data Academy
  • Duration: September 1, 2020 – July 1, 2022

PhD

  • Institution: Jilin Agricultural University
  • Location: Changchun, Jilin, China
  • Faculty: Plant Protection Institute
  • Duration: September 1, 2022 – July 1, 2026

Area of Specialization:

Weibo Qin specializes in Agricultural Insects and Pest Control, focusing on innovative methods to protect crops and enhance agricultural productivity through the management of pest populations.

Academic Achievements:

During his academic career, Weibo Qin has pursued rigorous training and research, particularly in the integration of big data analytics with agricultural practices to improve pest control measures. His dedication to advancing the field of agricultural pest management has been demonstrated through various projects and research initiatives.

Experience:

Weibo Qin has accumulated significant knowledge and expertise in the field of plant protection, especially in agricultural insects and pest control. His education at prominent agricultural universities in China has equipped him with the skills necessary to contribute to sustainable agricultural practices.

Research Focus on Agricultural Insects:

Weibo Qin’s research primarily centers around Agricultural Insects and Pest Control, with a specific focus on the following areas:

Integrated Pest Management (IPM)

Weibo Qin investigates comprehensive strategies to manage pest populations effectively. His research aims to combine biological, cultural, mechanical, and chemical tools to minimize the economic, health, and environmental risks associated with pest control.

Biological Control Methods

A significant portion of Weibo Qin’s research is dedicated to exploring biological control agents such as predators, parasitoids, and pathogens. He studies their effectiveness in reducing pest populations without harming the environment, aiming to develop sustainable pest control practices.

Impact of Climate Change on Pest Dynamics

Weibo Qin examines how changing climate conditions affect the behavior, distribution, and lifecycle of agricultural pests. His research includes modeling the potential impacts of climate change on pest outbreaks and developing adaptive pest management strategies to mitigate these effects.

Use of Big Data in Pest Management

Leveraging his background in Big Data from his Master’s degree, Weibo Qin integrates data analytics into pest control research. He focuses on the use of big data to predict pest outbreaks, monitor pest populations, and assess the effectiveness of pest control measures in real-time.

Insect-Plant Interactions

Understanding the interactions between agricultural insects and their host plants is crucial for developing effective pest control methods. Weibo Qin’s research delves into the mechanisms of plant resistance and susceptibility to insect pests, aiming to enhance crop protection through the development of pest-resistant plant varieties.

Sustainable Agricultural Practices

Weibo Qin is committed to promoting sustainable agricultural practices that reduce reliance on chemical pesticides. His research supports the development and implementation of environmentally friendly pest control methods that ensure long-term agricultural productivity and ecosystem health.

Through his research, Weibo Qin contributes to advancing the field of agricultural pest management, aiming to enhance crop protection and promote sustainable agricultural practices.

 

Publication Top Notes:

Identification of Cotton Pest and Disease Based on CFNet-VoV-GCSP-LSKNet-YOLOv8s: A New Era of Precision Agriculture

  • Journal: Frontiers in Plant Science
  • Year: 2024
  • DOI: 10.3389/FPLS.2024.1348402
  • Contributors: Li, Rujia; He, Yiting; Li, Yadong; Qin, Weibo; Abbas, Arzlan; Ji, Rongbiao; Li, Shuang; Wu, Yehui; Sun, Xiaohai; Yang, Jianping
  • Abstract: This study presents a novel approach for identifying cotton pests and diseases using an advanced combination of CFNet, VoV-GCSP, LSKNet, and YOLOv8s. This integrated model represents a breakthrough in precision agriculture, offering enhanced accuracy and efficiency in pest and disease detection.

Lightweight Network for Corn Leaf Disease Identification Based on Improved YOLO v8s

  • Journal: Agriculture
  • Year: 2024
  • DOI: 10.3390/agriculture14020220
  • Contributors: Rujia Li; Yadong Li; Weibo Qin; Arzlan Abbas; Shuang Li; Rongbiao Ji; Yehui Wu; Yiting He; Jianping Yang
  • Abstract: The paper introduces an improved YOLO v8s-based lightweight network designed for the identification of corn leaf diseases. This innovation aims to provide a more efficient and accessible solution for farmers to detect and manage corn diseases promptly.

Dietary Assessment Across Various Life Stages of Seven-Spotted Lady Beetle (Coccinella septempunctata) (Coleoptera: Coccinellidae)

  • Journal: The Journal of Basic and Applied Zoology
  • Year: 2023
  • DOI: 10.1186/S41936-023-00348-4
  • Contributors: Abbas, Sohail; Abbas, Muneer; Alam, Aleena; Feng, Xiao; Raza, Ali; Shakeel, Muhammad; Qin, Weibo; Han, Xiao; Chen, Rizhao
  • Abstract: This research investigates the dietary habits and requirements of the seven-spotted lady beetle across its various life stages. The findings provide valuable insights into the nutritional ecology of this beneficial insect, which plays a crucial role in biological pest control.

 

 

Mar Carreras-Sempere | Crop Production Systems | Best Researcher Award

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Ms Mar Carreras-Sempere |  Crop Production Systems | Best Researcher Award

Researcher at IRTA , Spain

Maria del Mar is a highly qualified professional in agronomic and environmental sciences, specializing in sustainable fertilization, plant nutrition, and soil microbiology. She holds a Bachelor’s degree in Biology with a focus on cellular biology and genetics from Universitat Autònoma de Barcelona (2005-2010), followed by a Master’s degree in Soil and Water Management from the Universidad de Lleida (2016-2018). Maria completed her Doctorate in agronomic and environmental science, focusing on the recovery of fertilizers from urban wastewater treatment plants for use in fertigation systems for horticultural crops (2019-2022) at the Institut de Recerca i Tecnologia Agroalimentària (IRTA).

Profile:

🎓 Education:

Maria del Mar holds a Bachelor’s Degree in Biology, specializing in Cellular Biology and Genetics, from Universitat Autònoma de Barcelona (2005-2010). She pursued an Erasmus Internship in Oulu, Finland, and later obtained a Master’s Degree in Secondary Education and Vocational Training from Universidad Internacional de La Rioja (UNIR) in 2011.

🔬 Professional Experience:

With a diverse background, Maria del Mar has worked in various laboratories, including Hospital Clínic’s Primary Hemostasis Laboratory and Silliker Netherlands B.V. as a microbiology laboratory technician. She also served as a field and laboratory technician at INSTITUT DE RECERCA I TECNOLOGÍA AGROALIMENTÁRIA (IRTA), where she conducted soil microbiological analysis and supported experimental trials in molecular biology.

📊 Skills:

Maria del Mar possesses strong teamwork and communication skills, along with proficiency in laboratory techniques and software such as Excel, Word, PowerPoint, Outlook, R-studio, and SAS enterprise.

 

Publication Top Notes:

  1. “Effect of Fertigation with Struvite and Ammonium Nitrate on Substrate Microbiota and N2O Emissions in a Tomato Crop on Soilless Culture System” (Agronomy, 2024)
    • This study likely investigates the impact of using struvite and ammonium nitrate in fertigation on the microbiota of substrates and N2O emissions in tomato crops grown in soilless culture systems. It addresses the sustainability and environmental implications of fertigation practices.
  2. “The use of recovered struvite and ammonium nitrate in fertigation in a horticultural rotation: agronomic and microbiological assessment” (Environmental Technology, 2022)
    • This article likely assesses the agronomic and microbiological aspects of using recovered struvite and ammonium nitrate in fertigation within a horticultural rotation. It examines the feasibility and effectiveness of utilizing recycled nutrients in sustainable horticulture systems.
  3. “Use of Recovered Struvite and Ammonium Nitrate in Fertigation in Tomato (Lycopersicum esculentum) Production for boosting Circular and Sustainable Horticulture” (Agriculture, 2021)
    • This publication explores the utilization of recovered struvite and ammonium nitrate in fertigation specifically for tomato production, with the aim of promoting circular and sustainable horticulture practices. It likely discusses strategies for enhancing nutrient efficiency and minimizing environmental impacts.
  4. “Recovery of Phosphorus from Wastewater Profiting from Biological Nitrogen Treatment: Upstream, Concomitant or Downstream Precipitation Alternatives” (Agronomy, 2020)
    • Although not directly related to fertigation, this study focuses on the recovery of phosphorus from wastewater in conjunction with biological nitrogen treatment. It demonstrates an interest in sustainable nutrient management practices and the circular economy principles applied to agricultural systems.