Zahoor Ahmad | Crop Physiology | Best Researcher Award

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Assoc Prof Dr Zahoor Ahmad |  Crop Physiology |  Best Researcher Award

Associate Professor at  University of Central Punjab, Pakistan

Associate Professor, Campus Coordinator University of Central Punjab, Constituent Punjab College Bahawalpur.

Profile:

Academic Qualifications:

  • Post-Doctorate: Department of Field Crops, Faculty of Agriculture, Cukurova University, Adana, Turkey (January 17 – September 17, 2020)
  • Ph.D. in Crop Physiology: University of Agriculture Faisalabad, Punjab, Pakistan (Completed on December 13, 2015)
    • Thesis Title: Maize (Zea mays L.) Responses to Supplemental Foliar Applied Phosphorus under Drought Stress
  • M.Sc. (Hons.) in Agriculture (Agronomy/Crop Physiology): University of Agriculture Faisalabad, Punjab, Pakistan (2011)
    • Thesis Title: Response of Cotton (Gossypium hirsutum L.) to Foliar Applied Potassium Sulphate (K2SO4)
  • B.Sc. (Hons.) in Agriculture (Agronomy/Crop Physiology): University of Agriculture Faisalabad, Punjab, Pakistan (2009)
  • Intermediate (F.Sc. Pre-medical): BISE Bahawalpur (2005)
  • Matric (Science): BISE Bahawalpur (2002)

Professional Experience:

  • Assistant Professor, Head of Botany Department: Constituent College of University of Central Punjab, Bahawalpur (October 2, 2020 – Present)
  • Post-Doctoral Researcher: Department of Field Crops, Faculty of Agriculture, Cukurova University, Adana, Turkey (January 17 – September 17, 2020)
  • Visiting Faculty Member: Department of Life Sciences (Botany), The Islamia University of Bahawalpur (October 4, 2017 – January 10, 2020)
  • Lecturer: Allama Iqbal College Bahawalpur (September 15, 2017 – December 31, 2019)
  • Assistant Professor: Cholistan Institute of Desert Studies (CIDS), The Islamia University of Bahawalpur, Punjab, Pakistan (July 19, 2016 – July 18, 2017)

Research Interests:

  • Understanding the physiological limitations to crop productivity under field and controlled conditions.
  • Exploring abiotic stress tolerance (drought, salinity, heavy metals, heat) through foliar application of nutrients and trace elements.
  • Identifying morphological, physiological, and biochemical traits for enhanced stress tolerance in crops.
  • Screening germplasm for stress tolerance traits and developing methodologies for productivity enhancement under abiotic stress conditions.

Conclusion:

Considering Dr. Zahoor Ahmad’s research focus, academic background, professional experience, publication record, and contribution to crop physiology under abiotic stress conditions, he seems to be a suitable candidate for the “Best Researcher Award.” His work is significant for improving crop resilience and productivity, making him a valuable contributor to agricultural sciences.

Citations:

  • 1,729 Citations from 1,395 documents
  • 91 Documents authored
  • h-index of 22

Publication Top Notes:

  • Modulating Physiological and Antioxidant Responses in Wheat Cultivars via Foliar Application of Silicon Nanoparticles (SiNPs) Under Arsenic Stress Conditions
    Ahmad, Z., Younis, R., Ahmad, T., Alharby, H.F., Alsamadany, H. (2024). Silicon, 16(12), 5199–5211.
  • Silicon-Mediated Improvement in Maize (Zea mays L.) Resilience: Unrevealing Morpho-Physiological, Biochemical, and Root Attributes Against Cadmium and Drought Stress
    Sabir, A., Waraich, E.A., Ahmad, M., Ahmad, Z., Bibi, S. (2024). Silicon, 16(7), 3095–3109. (1 Citation)
  • Improving Alkaline Stress Tolerance in Maize through Seed Priming with Silicon Nanoparticles: A Comprehensive Investigation of Growth, Photosynthetic Pigments, Antioxidants, and Ion Balance
    Alsamadany, H., Alharby, H.F., Ahmad, Z., Alzahrani, Y.M., Almaghamsi, A. (2024). Silicon, 16(5), 2233–2244.
  • Enhancing the Physiological and Biochemical Potential of Praecitrullus fistulosus L. through Synergistic Action of Biochar and Zinc Oxide Nanoparticles
    Sana, S., Binyamin, A., Ramzan, M., Avila-Quezada, G.D., Abd-Allah, E.F. (2024). Journal of Soil Science and Plant Nutrition.
  • Perspectives of Nanoparticles as Priming Agents for Amelioration of Abiotic Stresses in Crops
    Ahmad, Z., Waraich, E.A., Iqbal, M.A., Ahmed, S., Bano, S. (2024). In The Nanotechnology Driven Agriculture: The Future Ahead (pp. 117–137).
  • Prospects of Nanotechnology for Abiotic and Biotic Stresses Amelioration in Field Crops
    Ahmad, Z., Waraich, E.A., Barutçular, C., Ahmad, M., Bano, S. (2024). In The Nanotechnology Driven Agriculture: The Future Ahead (pp. 67–84).
  • Effect of Form of Silicon and the Timing of a Single Foliar Application on Sugar Beet Yield
    Siuda, A., Artyszak, A., Gozdowski, D., Ahmad, Z. (2024). Agriculture (Switzerland), 14(1), 86.
  • Ecofriendly Management of Insect Pests for Sustainable Agriculture
    Abbasi, A., Asif, A., Ahmad, Z., Saleha, A., Zafar, Z. (2023). In Climate-Resilient Agriculture, Volume 2, pp. 931–957. (1 Citation)
  • Climate Change and Global Crop Production
    Ahmad, Z., Ahmad, T., Abbasi, A., Sana, S., Jameel, J. (2023). In Climate-Resilient Agriculture, Volume 1, pp. 27–56. (1 Citation)
  • Silicon-Mediated Growth, Physiological, Biochemical and Root Alterations to Confer Drought and Nickel Stress Tolerance in Maize (Zea mays L.)
    Ishaq, H., Waraich, E.A., Hussain, S., Ahmad, Z., Saifullah. (2023). Silicon, 15(15), 6579–6589. (1 Citation)

 

 

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

 

 

Seyed Abdolreza Kazemeini | Crop Production | Best Researcher Award

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Prof Seyed Abdolreza Kazemeini |  Crop Production |  Best Researcher Award

Faculty of Agriculture at  Shiraz University, Iran

Dr. Seyed Abdolreza Kazemeini is a distinguished faculty member in the Plant Production and Genetics Department at Shiraz University, Iran. Born on August 7, 1967, Dr. Kazemeini has dedicated over 30 years to the field of crop production, focusing on biotic and abiotic stress and biostimulants. He earned his Ph.D. in Crop Production from Shiraz University in 2008, where he also completed his M.Sc. and B.A. in Agronomy.

Profile:

Educational Background:

Ph.D. in Crop Production, Shiraz University, Iran (2004-2008). M.Sc. in Agronomy, Shiraz University, Iran (1998-2000). B.A. in Agronomy, Shiraz University, Iran (1986-1990)

Professional Experience

Total Experience: 30 Years. Head of Agricultural College Agronomy Station: Since 2006. Head of Plant Production and Genetics Department: 2011-2014. In Charge of Agriculture Station and Research Center, Shiraz University College: 20 Years

Teaching and Supervision

Courses Taught: Various undergraduate and graduate courses in agronomy and crop production. Graduate Supervision: Supervising 7 MSc and PhD students; involved in 10 student programs and 6 PhD thesis projects as an advisory committee member. Research Projects Supervised: Over 170 graduate-level research projects

Skills and Competencies

Data Analysis Software: Excel, SAS, Minitab, OriginPro. Research and Development: Supervision of PhD, MSc, and BSc students; development of research around new technologies Analytical Lab Experience: Advanced research and analysis

Research Focus: Crop Production

Dr. Seyed Abdolreza Kazemeini, a faculty member in the Plant Production and Genetics Department at Shiraz University, Shiraz, Iran, has dedicated his research to advancing the field of crop production. His work is particularly focused on addressing critical issues related to biotic and abiotic stress, and the application of biostimulants.

Key Areas of Research: Biotic and Abiotic Stress Management: Abiotic Stress: Investigating the impact of various environmental stresses such as drought, salinity, and extreme temperatures on crop yield and quality. Developing strategies to enhance plant resilience through genetic and agronomic approaches. Biotic Stress: Studying plant-pathogen interactions, pest resistance, and the use of biological control methods to manage diseases and pests in crops. Biostimulants: Exploring the use of biostimulants to enhance crop growth, yield, and stress tolerance. This includes the application of natural and synthetic compounds that can improve plant health and productivity under stress conditions. Crop Physiology and Agronomy: Examining the physiological responses of crops to various environmental factors and management practices. This includes nutrient management, water use efficiency, and the optimization of planting techniques to maximize yield and sustainability. Weed Science: Researching effective weed management strategies to minimize competition and improve crop performance. This involves studying the biology of weeds, their impact on crops, and the development of integrated weed management practices.

Citations:

  • Total Citations: 1663
  • Citations Since 2019: 1167
  • H-index: 17
  • H-index Since 2019: 14
  • i10-index: 33
  • i10-index Since 2019: 29

Publication Top Notes:

  1. Effect of Organic and Inorganic Fertilizers on Grain Yield and Protein Banding Pattern of Wheat
    • Year: 2010
    • Citations: 339
  2. Wheat Yield and Grain Protein Response to Nitrogen Amount and Timing
    • Year: 2011
    • Citations: 242
  3. Changes in Soil Properties and Productivity Under Different Tillage Practices and Wheat Genotypes: A Short-Term Study in Iran
    • Year: 2018
    • Citations: 83
  4. The Impact of Nitrogen and Organic Matter on Winter Canola Seed Yield and Yield Components
    • Year: 2010
    • Citations: 76
  5. The Role of ACC Deaminase Producing Bacteria in Improving Sweet Corn (Zea mays L. var saccharata) Productivity Under Limited Availability of Irrigation Water
    • Year: 2020
    • Citations: 68
  6. Interaction Effects of Deficit Irrigation and Row Spacing on Sunflower (Helianthus annuus L.) Growth, Seed Yield and Oil Yield
    • Year: 2009
    • Citations: 68
  7. Feasibility of Satellite and Drone Images for Monitoring Soil Residue Cover
    • Year: 2020
    • Citations: 44
  8. Evaluation of Drought Tolerance in Rapeseed (Brassica napus L.) Cultivars Using Drought Tolerance Indices
    • Year: 2014
    • Citations: 34
  9. Forage Yield and Quality as Affected by Salt Stress in Different Ratios of Sorghum bicolor-Bassia indica Intercropping
    • Year: 2020
    • Citations: 31
  10. Improving Sweet Corn (Zea mays L. var saccharata) Growth and Yield Using Pseudomonas fluorescens Inoculation Under Varied Watering Regimes
    • Year: 2019
    • Citations: 28