Yufeng Liu | photosynthesis | Best Researcher Award

Prof. Yufeng Liu | photosynthesis | Best Researcher Award

Prof. Yufeng Liu , Shenyang Agricultural University , China

Professor Yufeng Liu is a distinguished academic at the Modern Facilities Horticultural Engineering Technology Center, Shenyang Agricultural University, China. With a rich background in horticulture and vegetable science, he has dedicated his career to advancing agricultural innovation and sustainability. His research focuses on the molecular mechanisms of photosynthesis and stress responses in plants, particularly tomatoes. Professor Liu has made significant contributions to greenhouse technology and energy-efficient cultivation methods. He is recognized for his commitment to education and research, inspiring a new generation of horticulturists. As a member of various professional societies, he actively collaborates on national projects, driving impactful advancements in the field.

Publication Profile

Scopus

Strengths for the Award

Professor Yufeng Liu is a highly accomplished researcher in the field of horticultural science, particularly known for his work on photosynthesis and stress responses in plants. His strong academic background, highlighted by a PhD in Vegetable Science and significant positions at Shenyang Agricultural University, showcases his commitment to advancing agricultural practices. With 30 publications in indexed journals and 16 patents, he has made substantial contributions to both theoretical and applied research. His innovative technologies in greenhouse cultivation and understanding of stress mechanisms in tomatoes have implications for enhancing crop resilience, making him a valuable asset to the scientific community. His recent recognition through the Changjiang Scholar Award further validates his impact and leadership in horticultural engineering.

Areas for Improvement

While Professor Liu has demonstrated exceptional research capabilities, expanding his outreach to engage with industry stakeholders could enhance the practical application of his findings. Increased collaboration with international researchers may also lead to broader perspectives and innovations in his research. Further, developing more interdisciplinary projects could strengthen his work’s relevance in global agricultural challenges.

Education 

Professor Yufeng Liu obtained his Bachelor’s degree in Horticulture from Shandong Agricultural University in 2009. He pursued his PhD in Vegetable Science at Shenyang Agricultural University, completing it in 2009. His academic journey continued as he transitioned into various teaching roles at the same institution. In March 2012, he became a Lecturer, followed by promotion to Associate Professor in November 2017. By November 2021, he achieved the position of Professor. His educational achievements are complemented by participation in prestigious programs, including the Changjiang Scholar Award Program for Young Scholars in August 2023 and his role as a National bulk vegetable technical system post scientist since August 2022.

Experience 

Professor Yufeng Liu has extensive teaching and research experience spanning over a decade at Shenyang Agricultural University. His roles have evolved from Lecturer to Professor, allowing him to influence academic curricula and guide numerous graduate students. With a focus on innovative agricultural practices, he has led 16 completed and ongoing research projects, resulting in 30 published articles in indexed journals and 16 patents related to greenhouse technology and plant cultivation techniques. His expertise lies in photosynthesis, stress mechanisms, and calcium regulation in plants, contributing to advancements in stress-resistant vegetable cultivation. Additionally, his editorial role as a Guest Editor for the journal 《Horticulture》 showcases his leadership in the scientific community, and his active memberships in the Chinese Horticultural Society and Chinese Society of Agricultural Engineering reflect his commitment to professional collaboration and knowledge dissemination.

Awards and Honors 

Professor Yufeng Liu’s achievements have garnered him several prestigious awards and recognitions. He was honored with the Changjiang Scholar Award in August 2023, acknowledging his contributions to horticultural science as a young scholar. As a National bulk vegetable technical system post scientist since August 2022, he has played a critical role in developing advanced agricultural techniques. His promotions within Shenyang Agricultural University—from Lecturer to Professor—highlight his impact on academia and research. Furthermore, his contributions to the field have resulted in 16 patents and multiple publications in high-impact journals. Liu’s dedication to enhancing agricultural practices and fostering innovation is evident through his active involvement in professional societies, where he collaborates on various industry projects, strengthening his reputation as a leader in horticultural engineering.

Research Focus 

Professor Yufeng Liu’s research primarily explores the intricate processes of photosynthesis, plant stress responses, and calcium dynamics in horticultural crops. His significant contributions include clarifying molecular mechanisms of photosynthetic disorders in tomatoes under low night temperatures, which aids in developing stress-resistant varieties. Liu has investigated photoprotection mechanisms, contributing to the understanding of how tomatoes cope with adverse environmental conditions. He also focuses on innovative technologies for the efficient cultivation of facility vegetables, emphasizing energy-saving techniques in greenhouse operations. His work has resulted in breakthroughs in the prevention and control of soil-related obstacles in vegetable production. Through 16 ongoing and completed projects, Liu continues to innovate and enhance cultivation strategies, aligning his research with global agricultural sustainability goals.

Publication Top Notes

  1. Genome-wide identification and expression analysis of the UPF0016 family in tomato under drought stress 🌱
  2. Galactinol Regulates JA Biosynthesis to Enhance Tomato Cold Tolerance ❄️
  3. Light quality regulates plant biomass and fruit quality through a photoreceptor-dependent HY5-LHC/CYCB module in tomato 🌞
  4. Microorganisms regulate soil phosphorus fractions in response to low nocturnal temperature 🌍
  5. Progress on the UPF0016 family in plants 🌿
  6. Analysis of YUC and TAA/TAR Gene Families in Tomato 📊
  7. Effects of Low Temperature on Pedicel Abscission and Auxin Synthesis Key Genes of Tomato ❄️
  8. Genome-wide investigation of the phospholipase C gene family in Solanum lycopersicum and abiotic stress analysis 🌱
  9. Detection of Cucumber Powdery Mildew Based on Spectral and Image Information 🥒
  10. Effects of CO2 Enrichment on Carbon Assimilation, Yield and Quality of Oriental Melon Cultivated in a Solar Greenhouse 🌞🍈

Conclusion

Professor Yufeng Liu’s impressive body of work, academic achievements, and ongoing commitment to research make him a strong candidate for the Best Researcher Award. His contributions not only advance scientific understanding but also offer practical solutions to pressing agricultural issues. By fostering industry connections and broadening his collaborative efforts, he can further amplify the impact of his research on global horticulture. Recognizing him with this award would acknowledge his valuable contributions and inspire further innovation in the field.

 

 

Chikezie Onuora Ene | Plant Breeding | Best Researcher Award

Dr Chikezie Onuora  Ene |  Plant Breeding |  Best Researcher Award

Lecturer II at  Alex Ekwueme Federal University Ndufu-Alike, Abakaliki, Ebonyi State, Nigeria

 

Dr. Chikezie Onuora Ene is a distinguished academic and researcher in the Department of Crop Science at Alex Ekwueme Federal University Ndufu-Alike (AE-FUNAI). He earned his Ph.D. in Plant Breeding from Jimma University, Ethiopia, in 2023, where he conducted genetic analysis and quantitative trait loci mapping for tomato traits, graduating with a GPA of 3.86/4.00. He also holds an M.Sc. in Plant Breeding and Genetics from the University of Nigeria, Nsukka, achieving a CGPA of 4.91/5.00, and a B.Sc. in Crop Production and Protection from Abia State University, Uturu, with first-class honors.

Profile:

Qualifications and Education:

  1. Ph.D. in Plant Breeding from Jimma University, Ethiopia, with a thesis on genetic analysis and QTL mapping for tomato traits. Graduated with a high GPA of 3.86/4.00.
  2. M.Sc. in Plant Breeding and Genetics from the University of Nigeria, Nsukka, with a focus on variability and heritability in cucumber, and an outstanding CGPA of 4.91/5.00.
  3. B.Sc. in Crop Production and Protection from Abia State University, Uturu, with first-class honors and a CGPA of 4.62/5.00.

Research Interests:

Dr. Ene’s research focuses on improving fruit/grain yield and quality of vegetables and cereals under abiotic stresses using plant molecular breeding techniques. This is a highly relevant and impactful area of research, addressing critical issues in agriculture.

Work Experience:

  1. Lecturer in Crop Science Department at Alex Ekwueme Federal University Ndufu-Alike since 2017, teaching various crop science courses and contributing significantly to the academic community.
  2. Research/Laboratory Assistant at National Root Crops Research Institute (NRCRI), involved in yam breeding, plant protection, and tissue culture.
  3. Field Enumerator/Farm Attendant at the Ministry of Agriculture, Abia State, focusing on cassava farming and processing data collection.
  4. Agricultural Science Teacher during the National Youth Service Corps (NYSC) at Kono Secondary School.

Training and Workshops:

  1. Training on GLMM at Jimma University.
  2. Hands-on training on marker-assisted breeding at BecA-ILRI hub, Nairobi, Kenya.
  3. Training on econometrics for policy analysis using Stata.
  4. Workshop on publishing and grant proposal writing.

Research Contributions and Impact:

Dr. Ene has been involved in significant research contributions across multiple projects and publications, particularly in:

  1. Fruit/Grain Yield Improvement under abiotic stresses.
  2. Plant Molecular Breeding and marker-assisted selection.
  3. Collaboration with international research bodies and institutions

Conclusion:

Given Dr. Ene’s extensive education, research focus, teaching experience, and contributions to the field of crop science, he is well-qualified for the Best Researcher Award. His work addresses crucial agricultural challenges, and his academic and professional achievements highlight his dedication and impact in the field.

Publication Top Notes:

  • Studies of phenotypic and genotypic variation in sixteen cucumber genotypes
    CO Ene, PE Ogbonna, CU Agbo, UP Chukwudi
    Chilean Journal of Agricultural Research, 76(3), 307-313, 2016. (82 citations)
  • Heterosis and combining ability in cucumber (Cucumis sativus L.)
    CO Ene, PE Ogbonna, CU Agbo, UP Chukwudi
    Information Processing in Agriculture, 6(1), 150-157, 2019. (38 citations)
  • Evaluation of Sixteen Cucumber (Cucumis sativus L.) Genotypes in Derived Savannah Environment Using Path Coefficient Analysis
    CO Ene, PE Ogbonna, CU Agbo, UP Chukwudi
    Notulae Scientia Biologicae, 8(1), 85-92, 2016. (35 citations)
  • Correlation and path coefficient analyses of yield and yield components of eggplant (Solanum melongena) in a coarse-textured Ultisol
    VN Onyia, UP Chukwudi, AC Ezea, AI Atugwu, CO Ene
    Information Processing in Agriculture, 7(1), 173-181, 2020. (18 citations)
  • Environmental impact and genetic expressions of new drought-tolerant maize genotypes in derived savannah agro-ecology
    UNI Paul Inyang, Chikezie Onuora Ene, Ankrumah Emmanuel, Uchechukwu P. Chukwudi
    Notulae Scientia Biologicae, 13(1), 10691, 2021. (15 citations)
  • Genetic characterization and quantitative trait relationship using multivariate techniques reveal diversity among tomato germplasms
    CO Ene, WG Abtew, HO Oselebe, FU Ozi, UN Ikeogu
    Food Science & Nutrition, 10(7), 2426-2442, 2022. (7 citations)
  • Benefit Cost Analysis of Orange Flesh Sweet Potato (Ipomoea batatas L.) Varieties under Varying Planting Density
    DA Uzoigwe, CO Muoneke, CC Nwokoro, CO Ene
    Notulae Scientia Biologicae, 11(1), 145-148, 2019. (6 citations)
  • Hybrid Vigor and Heritability Estimates in Tomato Crosses Involving Solanum lycopersicum × S. pimpinellifolium under Cool Tropical Monsoon Climate
    CO Ene, WG Abtew, HO Oselebe, FU Ozi, O Ogah, EC Okechukwu, …
    International Journal of Agronomy, 2023(1), 3003355, 2023. (5 citations)
  • Analysis of Leaf Yield Components in Fluted Pumpkin (Telfairia occidentalis Hook F.) Grown in Derived Savannah Agro-ecology
    UP Chukwudi, CU Agbo, CO Ene, CU Uba, JI Enyi
    Notulae Scientia Biologicae, 9(3), 386-391, 2017. (4 citations)
  • Growth and yield response of selected improved soybean (Glycine max [L.] Merrill) varieties to varying weeding regimes under a tropical condition
    CO Ene, A Anyim, UP Chukwudi, EC Okechukwu, UN Ikeogu
    Journal of Central European Agriculture, 20(1), 157-178, 2019. (3 citations)
  • Evaluation of Tomato Genotypes Growth, Yield, and Shelf Life Enhancement in Nigeria
    VN Onyia, UP Chukwudi, VC Ogwudu, AI Atugwu, SC Eze, CO Ene, …
    Journal of Agricultural Science and Technology, 21(1), 143-152, 2019. (3 citations)
  • Selfing revealed potential for higher yield performance than backcrossing among tomato segregating populations of Solanum lycopersicum × S. pimpinellifolium crosses under …
    CO Ene, WG Abtew, HO Oselebe, UP Chukwudi, EC Okechukwu, FU Ozi, …
    *Journal of Agriculture and Food Research, 15, 100993, 2024. (1 citation)
  • Influence of varying preservation methods on the shelf life and proximate composition of Pleurotus plumonarius (Fr) Quel cultivated on Andropogon gayanus substrate
    CM Ahaiwe, O Nnamdi, CO Ene, UP Chukwudi
    International Journal of Agriculture Environment and Food Sciences, 3(3), 2019. (1 citation)

 

Elham Soliman | Plant science | Women Researcher Award

Assist Prof Dr Elham Soliman |  Plant science |  Women Researcher Award

Helwan University faculty of science at  Helwan University, Egypt

Dr. Elham Riad Salama Soliman is dedicated to advancing scientific knowledge, focusing on plant molecular responses to environmental cues and their impact on growth and development. With a strong background in molecular identification and genetic characterization, she employs bioinformatics tools to analyze molecular data.

Profile

Education:

Ph.D. in Molecular Biology (2009-2014), Faculty of Biological Science, Leeds University, UK. Research: Arabidopsis promoter mechanisms and tissue-stress responsiveness. M.Sc. in Cytology and Genetics (2003-2007), Faculty of Science, Helwan University, Egypt. Research: Effects of mycorrhiza and Rhizobium biofertilizers on Vicia faba. B.Sc. in Chemistry and Botany (1998-2002), Faculty of Science, Helwan University, Egypt.

Work Experience:

Lecturer (2014-present), Botany and Microbiology Department, Faculty of Science, Helwan University, Egypt. Responsibilities include teaching, supervising research, and coordinating quality assurance. General Quality Assurance Coordinator (2015-present), Faculty of Science, Helwan University, Egypt. Voluntary Postdoctoral Researcher (2014), Faculty of Biological Science, University of Leeds, UK. Focused on transgenic Arabidopsis lines. Assistant Lecturer (2007-2014) and Demonstrator (2002-2007), Botany and Microbiology Department, Faculty of Science, Helwan University, Egypt.

Skills:

Laboratory techniques: Gene expression analysis, PCR, DNA methylation, characterization of Arabidopsis plants, and various molecular techniques. Bioinformatics: Data analysis using Clone Manager, Gel Documentation System, WASABI, and other software. Teaching: Expertise in practical genetics, molecular biology, and plant biotechnology.

Research Interests:

  • Plant growth and development under environmental stress
  • Epigenetic mechanisms and stress-induced memory
  • Gene signaling pathways and transgenic plants
  • Application of nanotechnology in biology

Academic Awards and Activities:

  • Awarded at Multi-theme Hackathon on climate change (2022)
  • Participated in various conferences and workshops on molecular biology, biotechnology, and nanotechnology
  • Jury member for INTEL ISEF science and engineering fairs

Professional Memberships:

  • Academic staff member, Faculty of Science, Helwan University
  • Member, Syndicate of Scientific Professions, Egypt

Research Focus: Plant science

Dr. Elham Riad Salama Soliman’s research in plant science is centered on understanding how plants respond to environmental stresses at the molecular level and utilizing this knowledge for practical applications. Her primary areas of focus include:

  1. Plant Molecular Responses to Environmental Stress: Investigating how various environmental factors affect plant molecular mechanisms, growth, and development. This includes studying stress-responsive genes and pathways.
  2. Epigenetic Mechanisms: Exploring how epigenetic modifications, such as DNA methylation, influence gene expression in response to environmental stresses. This involves understanding gene silencing, activation, and stress-induced memory.
  3. Transgenic Plants: Developing genetically modified plants with enhanced resistance to environmental stresses. This research aims to improve crop resilience and productivity under adverse conditions.
  4. Bioinformatics in Plant Science: Utilizing bioinformatics tools to analyze molecular data, including gene expression profiles and genetic variations. This helps in identifying key genes and pathways involved in stress responses.
  5. Nanotechnology Applications: Applying nanotechnology to advance plant science research, including the development of nanomaterials and techniques for enhancing plant growth and stress tolerance.
  6. Plant Biotechnology: Employing molecular techniques and genetic engineering to improve plant traits and develop new biotechnological applications for agriculture.

Dr. Soliman’s work integrates these areas to contribute to the advancement of plant science, with a focus on improving crop resilience and understanding the complex interactions between plants and their environment.

Publication Top Notes:

  • Enhancing Drought Tolerance in Malva parviflora Plants Through Metabolic and Genetic Modulation Using Beauveria bassiana Inoculation
    • Journal: BMC Plant Biology
    • Date: July 11, 2024
    • DOI: 10.1186/s12870-024-05340-w
    • Contributors: Reda E. Abdelhameed, Elham R. S. Soliman, Hanan Gahin, Rabab A. Metwally
    • Summary: This study explores the use of the fungal inoculant Beauveria bassiana to enhance drought tolerance in Malva parviflora, focusing on both metabolic and genetic responses.
  • Costly Effective Bioleaching of Valuable Metals from Low-Grade Ore Using Aspergillus nidulans
    • Journal: International Journal of Environmental Science and Technology
    • Date: March 2024
    • DOI: 10.1007/s13762-023-05355-0
    • Contributors: B. M. Ahmed, A. A. Mohammed, N. A. Kawady, I. E. Elaasy, E. R. S. Soliman
    • Summary: This article investigates the use of Aspergillus nidulans for bioleaching valuable metals from low-grade ore, emphasizing cost-effective approaches.
  • Preserving the Adaptive Salt Stress Response Activity of a Tissue-Specific Promoter with Modulating Activity
    • Journal: Journal of Genetic Engineering and Biotechnology
    • Date: March 2024
    • DOI: 10.1016/j.jgeb.2024.100354
    • Contributors: Elham R. S. Soliman
    • Summary: This research focuses on maintaining the salt stress response activity of a tissue-specific promoter, with implications for genetic engineering and stress tolerance.
  • Biological Control of Pepper Soft Rot Disease Caused by Pectobacterium carotovorum Using Rahnella aquatilis
    • Journal: Egyptian Journal of Botany
    • Date: January 1, 2024
    • DOI: 10.21608/ejbo.2023.248458.2566
    • Contributors: Kareem A. Abdelmeguid, Elham R. S. Soliman, Marwa A. Hamada, Hoda H. El-Hendawy
    • Summary: This paper evaluates the use of Rahnella aquatilis for controlling pepper soft rot disease, highlighting biological control strategies.
  • Antagonistic Activity of Bacillus atrophaeus (MZ741525) Against Some Phytopathogenic Microorganisms
    • Journal: Egyptian Journal of Botany
    • Date: 2023
    • DOI: 10.21608/EJBO.2022.161144.2133
    • Contributors: Korany, Shereen M.; El-Hendawy, Hoda H.; Soliman, Elham R. S.; Elsaba, Yasmin M.
    • Summary: This article investigates the antagonistic properties of Bacillus atrophaeus against various phytopathogenic microorganisms.
  • Rapid and Efficient DNA Extraction Method from High Oily Content Seeds
    • Journal: Acta Agriculturae Slovenica
    • Date: December 13, 2023
    • DOI: 10.14720/aas.2023.119.4.16094
    • Contributors: Elham R. S. Soliman
    • Summary: This paper presents a novel method for extracting DNA from seeds with high oil content, aimed at improving molecular analysis.
  • Partial Genome Detection, Characterization of TYLCV (MZ546492) Infecting Tomato Plants and siRNA Sequences Detection for Alternative Control Strategy
    • Journal: Egyptian Journal of Botany
    • Date: September 20, 2023
    • DOI: 10.21608/ejbo.2023.208980.2321
    • Contributors: Hager Abd ElRahman, Mohamed A. Nasr-Eldin, Sabah A. Abo-Elmaaty, Mohamed A. Abdelwahed, Mahmoud ElHefnawi, Asmaa M. ElFiky, Elham R. S. Soliman
    • Summary: This study focuses on the genome detection and characterization of Tomato Yellow Leaf Curl Virus (TYLCV) and explores siRNA sequences for potential control strategies.

 

Priya Lal Chandra Paul | Conservation agriculture | Excellence in Research

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 📊

  • 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