Henda Mahmoudi | Remote Sensing | Best Researcher Award

Dr. Henda Mahmoudi | Remote Sensing | Best Researcher Award

Plant Physiologist | ICBA | Tunisia 

Dr. Henda Mahmoudi is a Plant Physiologist at the International Center for Biosaline Agriculture (ICBA) in Dubai, United Arab Emirates. She holds a Ph.D. in Plant Biology (2008) and a Master’s Diploma in Plant Physiology (2002) from the Faculty of Sciences of Tunis and the National Institute of Scientific and Technical Research, Tunisia, with specialization in plant eco-physiology and iron deficiency mechanisms in legumes. Her primary research focuses on plant eco-physiology, salinity management, and sustainable crop production under abiotic stress conditions, with emerging interests in biotechnology-driven soil and water conservation strategies. Dr. Mahmoudi has held several key academic and research positions, including Assistant Professor at the Center of Biotechnology in Borj-Cédria, Tunisia, and Biotechnologist and Visiting Scientist at ICBA. Her research has led to significant contributions in stress-resilient crop development, innovative soil enhancement techniques, and digital agriculture applications, including the development of AI-powered tools for plant disorder detection and contributions to international projects on quinoa drought tolerance and rhizosphere microbiota. She has secured and led numerous competitive grants, including large-scale initiatives funded by USAID, QNRF, and international development agencies, and has contributed to policy-relevant projects across North Africa and the Middle East. Dr. Mahmoudi has received notable research grants and serves on editorial boards, peer-reviews for high-impact journals, and is an active member of various international scientific networks. She has organized international workshops on climate-smart agriculture, women’s empowerment in agricultural innovation, and vertical farming, reflecting her leadership in capacity development. Her vision centers on advancing sustainable agriculture through integrative plant science, biotechnology, and digital innovation to address global food security and climate resilience challenges, fostering knowledge exchange between science, society, and industry. She has 930 citations from 34 publications, with an h-index of 15.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications 

1. Buchaillot, M. L., Mahmoudi, H., Thushar, S., Yousfi, S., Serret, M. D., Kefauver, S. C., & Araus, J. L. (2025). Monitoring salinity stress in Moringa and Pomegranate: Comparison of different proximal remote sensing approaches. Remote Sensing, 17(2045). https://doi.org/10.3390/rs17122045

2. Ali, S., Mir, R. A., Tyagi, A., Manzar, N., Kashyap, A. S., Mushtaq, M., ... Mahmoudi, H., & Bae, H. (2023). Chromium toxicity in plants: Signaling, mitigation, and future perspectives. Plants, 12(7), 1502. https://doi.org/10.3390/plants12071502

3. Tyagi, A., Ali, S., Ramakrishna, G., Singh, A., Park, S., Mahmoudi, H., & Bae, H. (2022). Revisiting the role of polyamines in plant growth and abiotic stress resilience: Mechanisms, crosstalk, and future perspectives. Journal of Plant Growth Regulation. https://doi.org/10.1007/s00344-022-10847-3

4. Kouhen, M., García-Caparrós, P., Twyman, R. M., Abdelly, C., Mahmoudi, H., Schillberg, S., & Debez, A. (2022). Improving environmental stress resilience in crops by genome editing: Insights from extremophile plants. Critical Reviews in Biotechnology. https://doi.org/10.1080/07388551.2022.2042481

5. Mahmoudi, H., Koyro, H. W., & Abdelly, C. (2009). Comparison of two chickpea varieties regarding their responses to direct and induced iron deficiency. Experimental and Environmental Botany, 66, 349–356. https://doi.org/10.1080/07388551.2022.2042481

Hesham Ghazzawy | Sustainable Agriculture | Excellence in Research Award

Prof. Dr. Hesham Ghazzawy | Sustainable Agriculture | Excellence in Research Award

Head of the Biotechnology Program | King Faisal University | Saudi Arabia

Prof. Dr. Hesham Sayed Tawfik Ghazzawy is a Professor at the Central Laboratory for Date Palm Research and Development under the Agricultural Research Center (ARC) in Egypt and serves concurrently at the Date Palm Research Center of Excellence (DPRC), King Faisal University, Saudi Arabia. He earned his Ph.D. in Pomology from Banha University in 2010 after completing his M.Sc. and B.Sc. in Pomology and Horticulture, respectively, at Cairo University. His research focuses on biotechnology, date palm physiology, crop improvement, somatic embryogenesis, and tissue culture innovations, with additional interests in sustainable horticulture, plant stress tolerance, and agricultural by-product utilization. Over a three-decade career, he has held progressive academic and research positions including Research Assistant, Associate Professor, and Consultant to international organizations such as FAO, AOAD, and ACSAD. His major contributions include advancements in in vitro propagation of date palm, improvements in fruit quality enhancement techniques, and innovations in agricultural biotechnology demonstrated through patents such as nanocomponent-based tissue culture media and color-changing food storage wrappers. He has also contributed to strategic projects in Saudi Arabia addressing crop resilience, waste recycling, biochar production, and postharvest technologies. Prof. Ghazzawy has received competitive research grants from agencies such as King Abdulaziz City for Science and Technology (KACST) and the Date Palm Research Center of Excellence, reflecting his leadership in applied plant science. He serves on editorial boards for journals such as Advances in Agricultural Technology & Plant Sciences and the Sumerianz Journal of Agriculture and Veterinary, and actively reviews manuscripts for MDPI journals, the International Journal of Plant & Soil Science, and other agricultural and biotechnology publications. His professional affiliations include the Scientific Society for Flowers and Ornamental Plants and the International Association for Plant Biotechnology, underscoring his engagement in global scientific networks. With a prolific publication record spanning plant genetics, crop physiology, postharvest sciences, and climate-resilient agronomy, his work has informed both academic research and agricultural policy. His vision focuses on strengthening food security, modernizing sustainable crop production systems, and advancing plant biotechnology to support industry, environmental resilience, and global agricultural innovation. He has 595 citations from 42 publications, with an h-index of 13.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

1. Shabir, M. A., Khan, A. Z., Shabir, A., Jameel, I., Li, D., Al-Khayri, J. M., Ismail, M. M., Ghazzawy, H. S., Al-Mssallem, M. Q., & Almaghasla, M. I. (2025). Long term co-application of composted poultry manure and inorganic fertilizers promoted the soil fertility and productivity of maize-maize cropping system. Polish Journal of Environmental Studies. https://doi.org/10.15244/pjoes/202201

2. Alqahtani, N. K., Ghazzawy, H. S., Mathew, R. T., Alkhamis, Y. A., Alngada, R. S., Eissa, M. E. H., Abelnour, S. A., Ghanem, S. F., Almutairi, L. A., & Hemdan, E. (2025). Enhancing reproductive capacity in hybrid red tilapia via dietary administration of date palm pollen. Aquaculture Reports. https://doi.org/10.1016/j.aqrep.2025.102670

3. Kamara, M. M., Safhi, F. A., Al Aboud, N. M., Aljabri, M., Alharbi, S. A., Ghazzawy, H. S., Alshaharni, M. O., Fayad, E., Felemban, W. F., Abd El-Moneim, D., Hassanin, A. A., Ben Abdelmalek, I., Ali, A. M., & Mansour, E. (2024). Genetic diversity and combining ability of developed maize lines for arid conditions. Phyton – International Journal of Experimental Botany. https://doi.org/10.32604/Phyton-2024.058628

4. Elazazi, A. M. E., Awad, E.-S. A. M., Dahdoh, S. M., Hussein, A. S., Radwan, E. M. A., Hussein, E. M. E., Saeed, H. H. M., Ghazzawy, H. S., Abdelkader, M. F. M., Mahmoud, M. H., Gouda, M. M., Li, X., Abdein, M. A., & Qaoud, E.-S. M. (2024). Comprehensive evaluation of mineral and bio phosphorus fertilization on orange tree productivity. Heliyon, 10(21). https://doi.org/10.1016/j.aqrep.2025.102670

5. Mallik, S., Paria, B., Firdous, S. M., Ghazzawy, H. S., Alqahtani, N. K., He, Y., & Li, X. (2024). The positive implication of natural antioxidants on oxidative stress-mediated diabetes mellitus complications. Journal of Genetic Engineering and Biotechnology, 22(4), 100424.

Noah Adamtey | Soil Fertility Management | Best Researcher Award

Dr. Noah Adamtey | Soil Fertility Management | Best Researcher Award

Senior Researcher | International Water Management Institute | Ghana

Dr. Noah Adamtey is a distinguished Agronomist and Environmental Scientist, currently serving as Senior Researcher in Resource Recovery and Agri-food Systems at the International Water Management Institute (IWMI), Ghana. He earned his BSc in Agricultural Science and MPhil in Environmental Science from the University of Ghana, followed by a PhD in Environmental Science from the University of Ghana in collaboration with IWMI and Eawag-Sandec, Switzerland, and later pursued a Habilitation at the University of Giessen, Germany, focusing on resource recovery and use efficiency in farming systems. With over two decades of expertise, Dr. Adamtey’s research spans agroecology, bio-circular economy, soil fertility, nutrient cycling, sustainable water use, and climate-resilient agricultural systems. He has led and collaborated on several international projects, including long-term farming systems comparison trials across Africa, Asia, and Latin America, significantly advancing knowledge on organic versus conventional agriculture. His extensive publication record includes impactful articles in Applied Soil Ecology, Frontiers in Sustainable Food Systems, and Global Environmental Change, as well as contributions to book chapters, training manuals, and technical guides. Dr. Adamtey’s research has been recognized with prestigious awards such as the 2025 IWMI Board of Governors Award, the 2021 Louis Malassis International Scientific Award for Agroecology, and the 2019 Swiss Forum for International Agricultural Research Award. Beyond research, he contributes to academia as a lecturer at the University of Giessen and University of Hohenheim, Germany, and has been instrumental in curriculum development for agricultural institutions in Africa. He is also an active reviewer for leading journals, including Nutrient Cycling in Agroecosystems, Agronomy Journal, and Sustainability. Through his scientific leadership, teaching, and international collaborations, Dr. Adamtey continues to influence sustainable agriculture, environmental stewardship, and food security worldwide

Profile: Google Scholar 

Featured Publications 

1. Adamtey, N., Musyoka, M. W., Zundel, C., Cobo, J. G., Karanja, E., Fiaboe, K. K. M., ... (2016). Productivity, profitability and partial nutrient balance in maize-based conventional and organic farming systems in Kenya. Agriculture, Ecosystems & Environment.

2. Adamtey, N., Cofie, O., Ofosu-Budu, K. G., Ofosu-Anim, J., Laryea, K. B., & Forster, D. (2010). Effect of N-enriched co-compost on transpiration efficiency and water-use efficiency of maize (Zea mays L.) under controlled irrigation. Agricultural Water Management.

3. Adamtey, N., Cofie, O., Ofosu-Budu, G. K., Danso, S. K. A., & Forster, D. (2009). Production and storage of N-enriched co-compost. Waste Management.

4. Neither, W., Schneidewind, U., Armengot, L., Adamtey, N., Schneider, M., ... (2017). Spatial-temporal soil moisture dynamics under different cocoa production systems. Catena.

5. Atandi, J. G., Haukeland, S., Kariuki, G. M., Coyne, D. L., Karanja, E. N., ... (2017). Organic farming provides improved management of plant parasitic nematodes in maize and bean cropping systems. Agriculture, Ecosystems & Environment.

 

Prof. Sue Walker | Agrometeorology | Best Researcher Award

Prof. Sue Walker | Agrometeorology | Best Researcher Award

Principal Researcher Agromet | ARC-NRE & UFS | South Africa

Prof. Sue Walker is an Affiliated Emeritus Professor of Agrometeorology at the University of the Free State and a Principal Specialist Researcher in Agrometeorology at the Agricultural Research Council, South Africa. She holds a Ph.D. in Plant Physiology from the University of California, Davis, and advanced diplomas in Project Management and Innovation & Design Thinking. Prof. Walker’s research focuses on the development of climate services for agricultural systems, climate-smart agriculture, crop-climate modeling, and adaptation strategies for smallholder farmers in semi-arid regions. She has authored over 131 peer-reviewed scientific articles and 40 book chapters, contributing significantly to areas like water-energy-food nexus, crop modeling, and the application of seasonal forecasts in agriculture. Her work includes notable projects such as the “Climate-Wise Women” initiative and the “Rain for Africa” project. Prof. Walker has received several prestigious awards, including a Fulbright Scholarship, a South African National Research Foundation B3-rating, a fellowship with the South African Society of Crop Production, and the Bram Fischer Oxford-South Africa Award. She has served as Chair of the World Meteorological Organization's OPAG on Agrometeorological Services and as a representative to WMO-CAgM and ICID Working Groups. Additionally, she serves on the Editorial Committee of the South African Journal of Plant and Soil. Her work emphasizes participatory rural appraisal methods, decision support tools for farmers, and the integration of climate services into agricultural development strategies. With extensive global experience from over 54 countries, she remains a leading expert in building resilience against climate variability in the agricultural sector. She has 3039 citations from 2600 documents across 115 publications, with an h-index of 30.

Profiles:  Google Scholar | ORCID | Scopus

Publications 

1. Kumssa, D. B., Joy, E. J. M., Ander, E. L., Watts, M. J., Young, S. D., Walker, S., ... (2015). Dietary calcium and zinc deficiency risks are decreasing but remain prevalent. Scientific Reports, 5(1), 10974.

2. Tsubo, M., Walker, S., & Ogindo, H. O. (2005). A simulation model of cereal–legume intercropping systems for semi-arid regions: I. Model development. Field Crops Research, 93(1), 10–22.

3. Tsubo, M., Walker, S., & Mukhala, E. (2001). Comparisons of radiation use efficiency of mono-/inter-cropping systems with different row orientations. Field Crops Research, 71(1), 17–29.

4. Gandure, S., Walker, S., & Botha, J. J. (2013). Farmers' perceptions of adaptation to climate change and water stress in a South African rural community. Environmental Development, 5, 39–53.

5. Tesfaye, K., Walker, S., & Tsubo, M. (2006). Radiation interception and radiation use efficiency of three grain legumes under water deficit conditions in a semi-arid environment. European Journal of Agronomy, 25(1), 60–70.

Prof. Dr. Jehangir Bhadha | Soil Sustainability | Best Researcher Award 

Prof. Dr. Jehangir Bhadha | Soil Sustainability | Best Researcher Award 

Associate Professor | University of Florida | United States

Dr. Jehangir H. Bhadha is an Associate Professor at the University of Florida’s Everglades Research and Education Center within the Soil, Water, & Ecosystem Sciences Department, with affiliate roles in Agricultural & Biological Engineering, Interdisciplinary Ecology, the Water Institute, and the Center for Sustainable and Organic Food Systems. He holds a Ph.D. in Soil and Water Science and an M.S. in Geological Sciences from the University of Florida, alongside an MSc in Geology and a BS (Honors) in Mineralogy from the University of Bombay, India. Dr. Bhadha’s key research focuses on water quality, soil sustainability, sustainable agriculture, and nutrient management, specifically developing and testing innovative best management practices (BMPs) to reduce phosphorus pollution and enhance soil health in subtropical agroecosystems. His prolific publication record includes contributions to high-impact journals such as Frontiers in Soil Science, Journal of Environmental Management, PLOS ONE, and HortScience, reflecting interdisciplinary work on phosphorus management, biochar use, and organic matter dynamics. His work has received national and international recognition, including the George Barley Water Prize for phosphorus removal solutions, the Epsilon Sigma Phi Visionary Leadership Award, and multiple service awards from Epsilon Sigma Phi and the University of Florida. In addition to research, Dr. Bhadha serves on editorial boards of journals like Discover Soil Journal, Frontiers in Environmental Sciences, and PLOS ONE, actively contributing to advancing scientific communication in soil and environmental sciences. His commitment to sustainability and applied research continues to influence agricultural practices and environmental policy, aiming for practical solutions that balance productivity with ecological stewardship.

Profiles: Google Scholar | ORCID

Publications

1. Bhadha, J. H., Capasso, J. M., Khatiwada, R., Swanson, S., & LaBorde, C. (2017). Raising soil organic matter content to improve water holding capacity. University of Florida IFAS EDIS, Publication# SL447.

2. Alvarez-Campos, O., Lang, T. A., Bhadha, J. H., McCray, M. J., Glaz, B., & Daroub, S. H. (2018). Biochar and mill ash improve yields of sugarcane on a sand soil in Florida. Agriculture, Ecosystems & Environment, 253, 112–130.

3. Zhang, Z., Wang, J. J., Lyu, X., Jiang, M., Bhadha, J. H., & Wright, A. (2019). Impacts of land use change on soil organic matter chemistry in the Everglades, Florida—a characterization with pyrolysis-gas chromatography–mass spectrometry. Geoderma, 338, 393–400.

4. Bhadha, J. H., Harris, W. G., & Jawitz, J. W. (2010). Soil phosphorus release and storage capacity from an impacted subtropical wetland. Soil Science Society of America Journal, 74(5), 1816–1825.

5. Bhadha, J. H., Daroub, S. H., & Lang, T. A. (2012). Effect of kinetic control, soil: solution ratio, electrolyte cation, and others, on equilibrium phosphorus concentration. Geoderma, 173, 209–214.

Mr. Asamoah Zadok | Agribusiness |   SustainableAg Leadership Award

Mr. Asamoah Zadok | Agribusiness | SustainableAg Leadership Award

Research Assistant at Lincoln University of Missouri | United States

Asamoah Oppong Zadok is a dedicated Research Assistant and Extension Associate at Lincoln University of Missouri, USA, specializing in sustainable agriculture and agribusiness. His expertise bridges the gap between academia and industry, focusing on agricultural policy, local food systems, and livestock production. Asamoah actively contributes to research and extension activities that promote sustainable farming practices and market-driven solutions. His interdisciplinary background integrates research, auditing, and teaching, enabling him to address complex agricultural challenges. His contributions support both policy development and practical applications in agribusiness, making him a key player in advancing resilient and sustainable agricultural systems.

Professional Profiles

Google Scholar | ORCID

Education

Asamoah Oppong Zadok earned a Master of Science in Sustainable Agriculture from Lincoln University, USA, following a Bachelor of Science in Agribusiness from the University of Cape Coast . His academic foundation reflects a deep commitment to sustainable development within agriculture, emphasizing both theoretical and practical approaches. He specialized in consumer demand analysis, local food systems, and sustainable livestock management. His education equipped him with critical analytical skills and a holistic understanding of agribusiness operations, preparing him for the challenges of research and industry applications. His strong academic background serves as the cornerstone for his professional achievements and innovative research work.

Professional Experience

Asamoah Oppong Zadok has developed a rich professional career, combining research and industry expertise. At Lincoln University, he serves as a Research Assistant supporting USDA-funded projects, focusing on consumer demand and small ruminant production. He is engaged in fieldwork, data collection, and policy analysis to support sustainability goals. His industry role includes serving as an Auditor for Control Union Certifications, where he ensured compliance with sustainable agricultural standards for companies such as Olam Atsource Plus and Rainforest Alliance. His combined experience in academic research and industry auditing enables him to offer comprehensive solutions bridging compliance, research, and practical implementation of sustainable agriculture practices.

Research Interest

Asamoah Oppong Zadok’s research interests center on consumer demand, food choice behavior, and the sustainability of local food systems. He is particularly focused on how state-sponsored marketing programs influence local agricultural markets, with the Missouri case study being a notable example. His work includes investigating the pre-weaning performance of Katahdin × East Friesian crossbred lambs and promoting organic oyster mushroom production through student-led projects. His research contributes to understanding the intersection of agricultural policy, market structures, and sustainability, aiming to optimize the viability and resilience of farming systems. Collaborative projects with international researchers further broaden his perspective on global agricultural challenges.

Award and Honor

Asamoah Oppong Zadok's research and professional efforts have garnered recognition for contributions to agricultural sustainability, policy development, and innovative farming practices. He actively participates in interdisciplinary collaborations and serves on editorial boards and academic committees, strengthening the global research community. His dedication to promoting sustainable agriculture has earned him a reputation as a forward-thinking and impactful researcher. These honors reflect not only his individual achievements but also his commitment to fostering resilient agricultural systems that benefit farmers, consumers, and policymakers alike.

Research Skill

Asamoah Oppong Zadok is proficient in a range of research methodologies and technical skills central to agricultural science. His expertise includes field experiments, data analysis, policy assessment, and consumer demand modeling. He is adept at conducting audits based on internationally recognized sustainability standards and applying quantitative methods to assess livestock performance and market interventions. His skills extend to research writing and publication, demonstrated by contributions to high-impact journals and conference presentations. Furthermore, he collaborates effectively with interdisciplinary teams, utilizing software tools and statistical techniques to generate actionable insights for sustainable agricultural development and policy improvements. His skill set ensures robust and impactful research outputs.

Publications

Asamoah Oppong Zadok has contributed to multiple peer-reviewed journals including the International Journal of Science and Research Archive, World Journal of Agricultural Research, and the Journal of the Indonesian Tropical Animal Agriculture. His work explores consumer behavior in food choice, the effectiveness of local food marketing channels, and livestock production sustainability. He collaborates internationally, co-authoring papers with researchers from Ghana, Algeria, and Mexico. His publications serve as a significant contribution to the academic field, helping bridge research, policy, and industry practice. His efforts not only support sustainable agricultural development but also influence policymaking by providing empirical evidence on market dynamics and agricultural sustainability.

Title: Student-led agribusiness innovation: Organic oyster mushroom production and marketing in Cape Coast, Ghana
Year: 2025

Title: Purchasing Behavior of Fruits and Vegetables among International Students at University of Tlemcen, Algeria: Preferences, Income Effects, and Budget Constraints
Year: 2025

Title: Pre-weaning performance and growth curve in F1 Katahdin x East Friesian crossbred lambs
Year: 2025

Conclusion

Asamoah Oppong Zadok represents a new generation of agricultural scientists dedicated to sustainability, innovation, and practical application. His comprehensive experience in research, industry auditing, and policy analysis uniquely positions him to impact agricultural development positively. By collaborating with global experts and contributing to scientific literature, he has expanded the knowledge base on local food systems and livestock sustainability. His work exemplifies the integration of research into real-world solutions, helping to build resilient agricultural systems that are both economically viable and environmentally sustainable. His continued dedication ensures the advancement of sustainable agriculture practices for future generations.

Mather Khan | Food Security and Nutrition | Best Researcher Award

Dr. Mather Khan | Food Security and Nutrition | Best Researcher Award

Scientist at University of Missouri | United States

Dr. Mather A Khan is a distinguished Plant Molecular Biologist with over a decade of research expertise focused on metal homeostasis, crop nutrition, and abiotic stress adaptation. His work integrates advanced molecular techniques, yeast systems, and multi-omics approaches to uncover plant-environment interactions. Dr. Khan has led independent research programs and published extensively in high-impact journals, contributing significantly to plant stress biology. He emphasizes sustainable agricultural solutions, aligning his research with global food security goals. As a mentor and innovator, Dr. Khan supports interdisciplinary collaboration to advance scientific understanding and develop practical solutions to agricultural challenges.

Professional Profile

Google Scholar 

Education

Dr. Mather A Khan completed his Ph.D. in Biotechnology from Hamdard University, New Delhi, India, where his thesis focused on Fusarium wilt resistance in chickpea using sulfur and microbial consortium. He earned a Master of Science in Biotechnology from Barkatullah University, Bhopal, India, with research on the chemopreventive role of green tea at CNCI, Kolkata. He graduated with a Bachelor of Science in Biosciences from the University of Calcutta, India. Additionally, Dr. Khan completed a specialized Certificate Program in Preparing Tomorrow's Leaders for Science at the University of Missouri, USA.

Professional Experience

Dr. Khan is currently a Scientist at the University of Missouri, where he pioneers integrative molecular and systems biology research to decode iron sensing mechanisms in plants. He previously served as Senior Scientist at Heinrich Heine University in Germany, where he led projects to enhance iron bioavailability in legumes and developed innovative protein interaction pipelines. As a Research Scientist and Postdoctoral Fellow at the University of Missouri, he assembled Arabidopsis transcription factor libraries and advanced single-cell proteomics. His contributions include mentoring over 15 researchers and coordinating high-profile scientific discussions, with a strong focus on precision nutrient uptake and sustainable crop engineering.

Research Interest

Dr. Khan’s research focuses on understanding plant nutrient homeostasis, particularly iron sensing, uptake, and transport mechanisms. He employs multi-omics strategies, high-throughput yeast one-hybrid and yeast two-hybrid platforms, and CRISPR-Cas9 genome editing to uncover molecular interactions regulating plant responses to abiotic stress. His work extends to developing tissue-specific expression systems for trait improvement and engineering advanced metal transporters to enhance nutrient use efficiency in crops. Dr. Khan emphasizes integrating transcriptomic, proteomic, and metabolomic data to reveal complex regulatory networks. His research contributes to sustainable agriculture by improving crop resilience and nutritional quality in the face of global environmental challenges.

Awards and Honor

Dr. Khan has received multiple honors for his contributions to plant molecular biology, including being a panelist for the National Science Foundation’s Division of Biological Infrastructure in 2024 and 2025. He was recognized as a Plantae Fellow by the American Society of Plant Biologists and awarded the Douglas D Randall Young Scientists Development Fund. His scientific impact is further validated by travel awards and participation in international conferences. Dr. Khan’s pioneering work in iron sensing and biofortification has earned him invitations to prestigious scientific meetings and key roles in research panels, reflecting his leadership and expertise in advancing global agricultural science.

Research Skill

Dr. Khan possesses a comprehensive technical skill set in molecular and synthetic biology, including advanced cloning techniques, vector design, and genome engineering with CRISPR-Cas9. His expertise extends to yeast system manipulation for functional gene analysis, protein-protein and protein-DNA interactions using Y1H/Y2H, Co-IP, and BiFC. In plant systems, he conducts genetic crossings, transient expression studies, and elemental analysis. He is proficient in multi-omics techniques such as RNA-seq, proteomics, metabolomics, and ionomics, alongside advanced microscopy and bioinformatics for data analysis. Dr. Khan integrates computational tools (R, Python) for data visualization and analysis, promoting innovative, data-driven solutions in plant molecular research.

Publications

Dr. Khan has an extensive publication record, contributing to high-impact journals in plant biology and molecular sciences. His recent work includes elucidating the role of bHLH35 in plant stress responses and age-dependent iron deficiency responses in Arabidopsis. He has co-authored studies on secondary metabolite biosynthesis, sustainability research comparing mung bean growth conditions, and molecular transport mechanisms in plants. Dr. Khan’s publications extend from mechanistic studies of phloem transporters to innovative methods in proteomics and metabolomics. His research is well cited, contributing substantially to the scientific understanding of plant nutrition, stress adaptation, and molecular biofortification strategies worldwide.

Khan, M. A., Castro-Guerrero, N., & Mendoza-Cozatl, D. G. (2014). Moving toward a precise nutrition: Preferential loading of seeds with essential nutrients over non-essential toxic elements. Frontiers in Plant Science, 5, 51.

Khan, M. A., Castro-Guerrero, N. A., McInturf, S. A., Nguyen, N. T., Dame, A. N., & Mendoza-Cozatl, D. G. (2018). Changes in iron availability in Arabidopsis are rapidly sensed in the leaf vasculature and impaired sensing leads to opposite transcriptional programs in leaves and roots. Plant, Cell & Environment, 41(10), 2263-2276.

Ram, M., Abdin, M. Z., Khan, M. A., & Jha, P. (2011). HPTLC fingerprint analysis: A quality control for authentication of herbal phytochemicals. High-Performance Thin-Layer Chromatography (HPTLC), 105–116.

Ram, M., Khan, M. A., Jha, P., Khan, S., Kiran, U., Ahmad, M. M., & Javed, S. (2010). HMG-CoA reductase limits artemisinin biosynthesis and accumulation in Artemisia annua L. plants. Acta Physiologiae Plantarum, 32(5), 859-866.

Jha, P., Ram, M., Khan, M. A., Kiran, U., & Abdin, M. Z. (2011). Impact of organic manure and chemical fertilizers on artemisinin content and yield in Artemisia annua L. Industrial Crops and Products, 33(2), 296–301.

Conclusion

Dr. Mather A Khan is a visionary researcher dedicated to advancing plant molecular biology for sustainable agriculture. His interdisciplinary approach bridges molecular techniques and systems biology to address critical issues in crop nutrition and abiotic stress resilience. With a passion for scientific discovery and mentorship, Dr. Khan continues to innovate high-throughput methodologies, paving the way for improved plant nutrient sensing and enhanced agricultural productivity. His commitment to global food security is demonstrated through collaborative research, impactful publications, and participation in international panels. Dr. Khan’s work exemplifies the integration of fundamental research with practical solutions for a sustainable future.

Mr. Adeoluwa Olasehinde | Indoor Farming | AgroGenius Excellence in Research Award

Mr. Adeoluwa Olasehinde | Indoor Farming | AgroGenius Excellence in Research Award

Mr. Adeoluwa Olasehinde | Indoor Farming - Research Scientist at Grow Erie, Nigeria

Adeoluwa Olasehinde is a dynamic environmental scientist and biochemist with interdisciplinary expertise in hydroponics, sustainable agriculture, environmental compliance, and biotechnological innovations. With a strong academic background and practical experience across research, industry, and public sector environments, he excels in developing data-driven solutions that address global agricultural and ecological challenges. His leadership in hydroponic systems, regulatory policy, and environmental health has positioned him as a proactive advocate for sustainability. Through collaborative projects, publications, and community engagement, Olasehinde consistently advances science-based approaches that integrate cutting-edge technologies with real-world applications for sustainable development.

Professional Profile

Google Scholar

Education

Mr. Olasehinde holds a Master of Science in Environmental Science and Management from Gannon University, where he specialized in risk assessment, environmental chemistry, and environmental law. He also earned a certificate in Environmental Law and Policy from the University of North Carolina, Chapel Hill, enriching his knowledge of regulatory frameworks. His academic journey began with a Bachelor of Science in Biochemistry from the University of Ibadan, Nigeria. This combination of scientific depth and regulatory insight has enabled him to bridge environmental research with actionable solutions in the fields of sustainability, public health, and resource management.

Professional Experience

Adeoluwa’s career spans academia, industry, and regulatory bodies. As a Research Scientist at Grow Erie, he led initiatives in hydroponic system design and bio-based media development, significantly improving crop yield and sustainability. At Eriez Manufacturing, he pioneered magnetic separation technologies to enhance nutrient recovery and led patent-generating research. His tenure at NESREA in Nigeria focused on environmental health, compliance, and community-based conservation projects. With each role, he brought innovation, operational excellence, and a commitment to sustainable practices. His leadership in environmental safety, cross-functional collaboration, and real-time monitoring systems marks his significant contributions to the sector.

Research Interest

His research primarily focuses on sustainable indoor agriculture, nutrient optimization, renewable resource use, and smart farming technologies. Adeoluwa explores how hydroponic systems can be integrated with IoT, AI, and green technologies to maximize productivity while reducing environmental impacts. His interests extend to the intersection of environmental health policy, bioinformatics, water recycling, and agricultural biotechnology. His current research includes photonic feedback systems for plant health and the modeling of photosynthetic efficiency under spectral lighting, showing his passion for leveraging technology to create efficient, scalable farming solutions in both urban and rural environments.

Award and Honor

Adeoluwa has received numerous accolades, including the Global Student of the Year Award (2023) at Gannon University and multiple “Employee of the Year” honors for outstanding contributions in environmental science. He has also won regional science competitions and received bursary support for academic excellence. These recognitions reflect his unwavering dedication to research, innovation, and community engagement. His ability to combine leadership with scientific rigor has not only earned him academic and professional accolades but also positioned him as a thought leader in sustainable agriculture and environmental policy development on local and international platforms.

Research Skill

Mr. Olasehinde is skilled in hydroponic system design, nutrient formulation, and environmental impact analysis. He utilizes advanced analytical techniques such as spectrophotometry, chromatography, and GIS for environmental data modeling. His research methodology emphasizes system automation, statistical analysis (SPSS, R), and sensor-based monitoring to ensure precision in controlled environments. Adeoluwa’s technical proficiency extends to water quality analysis, pest control strategies, and data-driven farming innovations. Whether managing a $250,000 research budget or leading interdisciplinary collaborations, he excels in translating complex research into impactful, scalable, and sustainable agricultural and environmental solutions.

Publications

Adeoluwa has authored several peer-reviewed articles in journals such as the Current Journal of Applied Science and Technology and International Journal of Engineering Technology Research & Management. His publications cover topics like nutrient management, hydroponic crop diversity, magnetic separation, and AI-optimized agronomic systems. He has also co-authored interdisciplinary studies on bio-photonics and phenotypic response in indoor crops. These works have strengthened the academic discourse around sustainable agriculture, particularly in indoor farming technologies, and have contributed significantly to knowledge-sharing in environmental biotechnology and smart farming systems.

Olasehinde, A. A., Blessing, A. O., Adelagun, A. A., & Obiora, S. (2022). Multi-layered modeling of photosynthetic efficiency under spectral light regimes in AI-optimized indoor agronomic systems. International Journal of Science and Research Archive.

Olasehinde, A. A., Blessing, A. O., Obodozie, J. C., & Chukwuemeka, S. O. (2023). Cyber-physical system integration for autonomous decision-making in sensor-rich indoor cultivation environments. World Journal of Advanced Research and Reviews.

Olasehinde, A. A. (2025). Evaluation of crop diversity in hydroponic systems for maximizing nutritional output. Current Journal of Applied Science and Technology.

Olasehinde, A. (2025). Biodegradable growth media alternatives for sustainable hydroponic farming. Current Journal of Applied Science and Technology.

Olasehinde, A. A., Blessing, A. O., & Chukwuemeka, S. O. (2024). Development of bio-photonic feedback systems for real-time phenotypic response monitoring in indoor crops. International Journal of Engineering Technology Research & Management.

Conclusion

Adeoluwa Olasehinde exemplifies the integration of scientific innovation, sustainability, and global impact. His multidisciplinary experiences, combined with academic rigor and practical skills, position him as a forward-thinking environmental leader. He continues to drive advancements in controlled-environment agriculture, environmental policy reform, and capacity-building initiatives that uplift communities and ecosystems alike. Whether in laboratories, classrooms, or field projects, Adeoluwa remains committed to improving global food systems and environmental outcomes through intelligent, scalable, and community-focused solutions. His journey reflects not only expertise but a deep-seated purpose to create a more sustainable and equitable world.

Chrispin Kaphaika | Agri-food systems and innovation | Young Researcher Award

Chrispin Kaphaika | Agri-food systems and innovation | Young Researcher Award

Chrispin Kaphaika | Agri-food systems and innovation - Research and Innovation Specialist/Technology Transfer Officer at Lilongwe University of Agriculture and Natural Resources, Malawi

Chrispin K. Kaphaika is an intellectual property management specialist and innovation advocate with deep expertise in technology transfer, agribusiness entrepreneurship, and research commercialization. With an interdisciplinary academic background and a strong orientation toward inclusive development, Chrispin supports enterprise growth, innovation-driven policies, and sustainable commercialization strategies. Their professional focus integrates agribusiness economics, startup support, and IP policy reform. Chrispin thrives in multicultural research and institutional settings, consistently driving impact through capacity building, policy engagement, and cross-sector collaboration aimed at fostering inclusive economic transformation in Malawi and beyond.

ACADEMIC PROFILE

ORCID

EDUCATION

Chrispin holds a PhD candidacy in Agribusiness Management and Entrepreneurship at LUANAR, and a Master's in Intellectual Property from Africa University. They also completed an MSc in Agricultural and Applied Economics at LUANAR, with a specialization in climate economics through a joint program with NMBU. Chrispin’s academic journey began with a BSc in Agricultural Economics at LUANAR. This multidisciplinary education equipped them with solid analytical, economic, and legal knowledge, enabling a unique perspective in areas like technology commercialization, innovation policy, and startup support across agriculture and allied industries.

PROFESSIONAL EXPERIENCE

Chrispin’s experience spans roles at LUANAR, University of Cape Town, CIIER, UNICEF, and various consulting projects. They currently serve as Technology Transfer Specialist at LUANAR and Co-Director at CIIER Consult. They have led national research initiatives, coordinated innovation projects, and managed IP portfolios. Their practical contributions include supporting university TTO functions, drafting commercialization agreements, and facilitating stakeholder engagement. With years of experience in research assistance and tutoring, they continue to build networks and support systems that drive institutional innovation and entrepreneurial success across multiple sectors.

RESEARCH INTEREST

Chrispin’s research interests lie at the intersection of intellectual property rights, agribusiness development, and sustainable innovation systems. They explore how IP and commercialization mechanisms can foster entrepreneurship, particularly in agriculture and food systems. Their focus extends to climate economics, policy impact evaluation, seed system adoption, and biofortified crop technologies. They are deeply engaged in assessing innovation ecosystems and contributing to frameworks that enable equitable access to knowledge, increase technology adoption, and support inclusive economic empowerment through research-led enterprise development.

AWARD AND HONOR

Chrispin has received several accolades recognizing their leadership and research excellence. These include the Research Award for Outstanding Contribution, Best Graduate and Best Student Awards in Intellectual Property Studies, and multiple Leadership Awards. These honors reflect their commitment to academic excellence, impactful research, and contributions to institutional and national innovation ecosystems. Their accolades are a testament to their consistent pursuit of high standards in both scholarly and professional capacities, particularly in shaping the future of IP and innovation in agriculture and beyond.

RESEARCH SKILL

Chrispin is highly skilled in technology transfer, IP policy design, commercialization strategies, and innovation management. They are proficient in patent search and drafting, market analysis, IP valuation, contract negotiation, and institutional policy development. With experience conducting field research, facilitating focus groups, and managing research ethics, they effectively bridge research and practice. Their ability to communicate technical concepts to diverse stakeholders and mentor early-career innovators underlines their capacity to lead innovation platforms and enhance institutional research translation across academic and entrepreneurial domains.

PUBLICATIONS

Chrispin’s publications reflect their research interest in seed systems, agricultural innovation, and pro-nutritional technology adoption. Notable works include: "More Interventions, Low Adoption: To What Extent Are the Existing Seed Sources to Blame?" and "Does the Adoption of Pro-nutritional Technologies Spur Farmers’ Yields? Evidence from Biofortified Orange-Fleshed Sweet Potato in Rural Malawi." These contributions underscore their commitment to evidence-based policy reform and inclusive innovation. Their research is informed by practical field experience and aims to generate insights that support transformative agricultural development.

CONCLUSION

Chrispin K. Kaphaika exemplifies leadership in research commercialization and intellectual property management with a passion for agribusiness transformation and institutional innovation. Their trajectory reflects a rare blend of academic depth, professional engagement, and policy insight. With a vision anchored in inclusive development, Chrispin continues to contribute to building ecosystems that empower communities, elevate startups, and promote knowledge-driven economies. Their career is a model of how multidisciplinary expertise and dedication to equity can drive meaningful change across education, research, and enterprise.

Ofentse Moseki | Agronomy | Best Researcher Award

Ms. Ofentse Moseki | Agronomy | Best Researcher Award

Ms. Ofentse Moseki | Agronomy - PhD Student at NAMIBIA UNIVERSITY OF SCIENCE AND TECHNOLOGY

Ofentse Moseki is a dedicated agronomist with strong expertise in crop science, natural resource management, and climate-resilient agriculture. She is passionate about advancing sustainable farming systems, especially in semi-arid regions. With solid experience in field research, data analysis, and community engagement, she contributes to food security and environmental resilience. Her interdisciplinary background enables her to work effectively in both academic and applied research settings. Ofentse is seeking opportunities in fast-paced, impact-driven environments where she can expand her contributions to agricultural science and rural development.

ACADEMIC PROFILE

Google Scholar | ORCID | Scopus

EDUCATION

Ofentse Moseki is currently pursuing a Doctor of Philosophy in Natural Resource Sciences at the Namibia University of Science and Technology. She previously completed a Master of Philosophy in Natural Resources Management at the Okavango Research Institute. She also holds a Bachelor of Science in Crop Science and Production from the Botswana University of Agriculture and Natural Resources. Her academic foundation has equipped her with deep knowledge in crop management, irrigation, and environmental sustainability.

PROFESSIONAL EXPERIENCE

Ofentse's career includes diverse roles such as Research Assistant at the Okavango Research Institute and Scientific Mobility Participant at ICWRGC in Germany. She has also worked as a Horticultural Officer, Field Research Assistant, and interned with both government and private agricultural entities. Her responsibilities have included conducting field surveys, engaging with communities, analyzing data, and disseminating findings through reports and presentations. Each role has contributed to her multidisciplinary skillset and real-world agricultural problem-solving ability.

RESEARCH INTEREST

Her research interests revolve around improving crop productivity and resilience in semi-arid regions through efficient water use, sustainable soil management, and climate adaptation strategies. She is particularly focused on crop water requirements, modeling, irrigation management, and the environmental impacts of agriculture. Ofentse is driven by the goal of finding innovative solutions to mitigate climate change effects on agriculture and to support smallholder farmers in developing regions.

AWARD AND HONOR

Ofentse has been awarded competitive scholarships, including a PhD grant from SASSCAL and an MPhil scholarship jointly sponsored by JST, JICA, and the Government of Botswana. Her presentation on crop modeling won the Outstanding Oral Presentation Award at the 19th WaterNet Symposium. These accolades reflect both her academic excellence and her communication skills in disseminating research findings at regional and international platforms.

RESEARCH SKILL

Ofentse demonstrates strong technical capabilities in agricultural research design, data analytics using R, SPSS, and GenStat, and crop modeling using CROPWAT. She is also proficient in GIS applications and community-based data collection methods. Her skills extend to scientific writing, technical reporting, and public presentation. She integrates her knowledge across plant science, irrigation systems, and resource economics to tackle interdisciplinary agricultural challenges.

PUBLICATIONS

Ofentse Moseki has co-authored peer-reviewed articles in reputed journals such as Agronomy and Agricultural Water Management. Her published work addresses water use efficiency in crops like rice, jatropha, and pearl millet under semi-arid conditions. She has also delivered multiple oral and poster presentations at WaterNet and other regional symposiums. Her BSc and MPhil research on tomato yield and organic fertilizers further highlight her hands-on approach to agronomic studies.

Title: Crop water and irrigation requirements of Jatropha curcas L. in semi-arid conditions of Botswana: applying the CROPWAT model
Authors: O. Moseki, M. Murray-Hudson, K. Kashe
Journal: Agricultural Water Management

Title: Yield and yield attributes of tomato as influenced by organic fertilizer
Authors: W. Mojeremane, O. Moseki, T. Mathowa, G.M. Legwaila, S. Machacha
Journal: SCIENCEDOMAIN International

Title: Agro-Physiological and Morphological Responses of Pearl Millet to Varying Water Regimes in Semi-Arid Conditions of Namibia
Authors: O. Moseki, G. Kangueehi, V. Chiteculo, M. Zink, M.A. Wanga
Journal: Agronomy

Title: Structure and regeneration status of woody seed oil species in Northern Botswana
Authors: K. Kashe, G. Tsheboeng, D.L. Kgathi, G. Mmopelwa, M. Mmusii, O. Moseki

Title: Using the Cropwat model to estimate the effects of climate change and shifting planting dates on Jatropha water requirements in semi-arid conditions of Botswana
Authors: O. Moseki, M. Murray-Hudson, K. Kashe, O. Moses, D.L. Kgathi, T.S. Moroke

CONCLUSION 

Ofentse Moseki stands out as a researcher committed to practical and scientific advancement in sustainable agriculture. Her blend of academic rigor, field experience, and collaborative engagement positions her to drive impactful solutions in resource-limited environments. With a clear vision to influence agricultural development and climate adaptation, she continues to grow as a leader in her field, contributing meaningfully to both local and international research communities.