D. K. Meena | Sustainable Fisheries and Aquaculture | Editorial Board Member

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Dr. D. K. Meena | Sustainable Fisheries and Aquaculture | Editorial Board Member

Senior Scientist | ICAR | India

Dr. Dharmendra Kumar Meena is a Senior Scientist at ICAR-Central Inland Fisheries Research Institute (CIFRI), Barrackpore, Kolkata, India, specializing in fisheries resources management, aquaculture nutrition, and waste-to-wealth innovations. He earned his Ph.D. in Fish Nutrition and Feed Technology, MFSc in Fish Nutrition, Biochemistry, and Physiology, and BFSc in Fisheries Science. Over the years, Dr. Meena has contributed extensively to fish nutrigenomics, herbal therapy, feed technology, aquatic toxicology, biodiversity conservation, and sustainable aquaculture practices. His pioneering work includes valorization of non-conventional resources for eco-friendly fish feed, commercialization of “CIFRI CAGE GROW,” and development of the “RESHMEEN” feed series using silkworm pupae and black soldier fly larvae. His publications on probiotics, immunostimulants, and environmental sustainability in aquaculture are widely cited. Dr. Meena has been recognized with prestigious honors, including the Young Scientist Award from the Academy of Environmental Biology, Fellowships of Environmental Biology, Fisheries and Life Sciences, Biotic and Environmental Research, and the Zoological Society of India. He has also received multiple best presentation awards at international and national forums. As an active science promoter, he has trained over 10,000 fishers, students, and officers, organized workshops, and contributed to policy documents for NITI Aayog and NFDB. Dr. Meena serves in editorial roles across numerous reputed journals such as Frontiers in Aquatic Physiology, Scientific Reports, PLOS ONE, Advances in Agriculture, and International Aquatic Research, besides guest-editing special issues in leading journals. His contributions in consultancy, environmental conservation, and aquaculture technology standardization further highlight his impactful career dedicated to sustainable fisheries and ecological innovation. He has 1838 citations from 1669 documents across 98 publications, with an h-index of 20.

Profiles: Google Scholar | ORCID | Scopus

Publications

1. Meena, D. K., Das, P., Kumar, S., Mandal, S. C., Prusty, A. K., Singh, S. K., Akhtar, M. S., … (2013). Beta-glucan: An ideal immunostimulant in aquaculture (a review). Fish Physiology and Biochemistry.

2. De, B. C., Meena, D. K., Behera, B. K., Das, P., Das Mohapatra, P. K., & Sharma, A. P. (2014). Probiotics in fish and shellfish culture: Immunomodulatory and ecophysiological responses. Fish Physiology and Biochemistry.

3. Kumar, V., Roy, S., Meena, D. K., & Sarkar, U. K. (2016). Application of probiotics in shrimp aquaculture: Importance, mechanisms of action, and methods of administration. Reviews in Fisheries Science & Aquaculture.

4. Sarkar, U. K., Mishal, P., Borah, S., Karnatak, G., Chandra, G., Kumari, S., … (2020). Status, potential, prospects, and issues of floodplain wetland fisheries in India: Synthesis and review for sustainable management. Reviews in Fisheries Science & Aquaculture.

5. Meena, M. D., Dotaniya, M. L., Meena, B. L., Rai, P. K., Antil, R. S., Meena, H. S., … (2023). Municipal solid waste: Opportunities, challenges and management policies in India: A review. Waste Management Bulletin.

Dr. Rupal Mangukiya | Climate Change | Editorial Board Member

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Dr. Rupal Mangukiya | Climate Change | Editorial Board Member

Assistant Professor | Cottey College | United States

Dr. Rupal D. Mangukiya is an accomplished researcher and educator specializing in Environmental Science, Environmental Policy, and Waterscape Management, with nine years of full-time equivalent experience in higher education and scholarly research. Her work centers on waterscape ecology, land-use modeling, sustainable development assessments, and GIS-based environmental analysis, with emerging interests in environmental justice and technology-enabled pedagogy. Dr. Mangukiya currently serves as Assistant Professor and Program Coordinator of Environmental Studies at Cottey College, Nevada, Missouri, where she leads curriculum development, supervises student research, delivers core courses in environmental science and geography, and steers departmental planning and program enhancement. Her research has generated meaningful contributions to the understanding of socio-ecological systems, including advanced applications of GIS, quantitative modeling techniques, and policy-relevant evaluations of natural resource management. Among her notable scholarly outputs is her work analyzing the three pillars of the Sustainable Development Goals at sub-national scales within the United States, offering valuable insights for regional policy development and sustainability planning. Through her doctoral research and ongoing publications, she has helped advance the integration of spatial analytics with environmental policy frameworks, supporting improved decision-making around land use, waterscape governance, and long-term resource resilience. Dr. Mangukiya’s broader impact lies in her commitment to strengthening environmental literacy, fostering research-driven academic programs, and equipping future practitioners with the analytical and ethical tools needed to address complex ecological challenges. Her vision is rooted in advancing sustainable resource management, promoting equity-centered environmental policy, and bridging science with community-oriented solutions to support resilient societies and evidence-based environmental innovation.

Profiles: Google Scholar | ORCID

Featured Publications

1. Quality Characterization of Groundwater Using Water Quality Index in Surat City, Gujarat, India. M. Rupal, B. Tanushree, C. Sukalyan
International Research Journal of Environment Sciences, 1(4), 14–23 (2012)

2. Analyzing Three Pillars of Sustainable Development Goals at Sub-National Scales Within the USA . R.D. Mangukiya, D.M. Sklarew
World Development Sustainability, 2, 100058 (2023)

Kobra Sadat Hasheminasab | Food Security | Editorial Board Member

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Assist .Prof. Dr. Kobra Sadat Hasheminasab | Food Security | Editorial Board Member

Faculty Member | Soil and Water Research Institute | Iran

Dr. Kobra Sadat Hasheminasab Zavareh is a Research Assistant Professor at the Soil and Water Research Institute (SWRI), specializing in Analytical Chemistry with a strong focus on Food Security and Nutrition, health monitoring of agricultural products, and advanced Quality Assurance/Quality Control (QA/QC) methodologies. Her research centers on developing innovative analytical techniques for detecting heavy metals, oil pollutants, and environmental contaminants in agricultural and biological samples, while her emerging interests include integrating nano-materials and microextraction systems to improve sensitivity and precision in environmental assessment. Over the course of her career, she has held key research and academic roles that highlight her expertise in environmental sample analysis, instrumental chemistry, and advanced extraction technologies. Dr. Hasheminasab has made notable contributions through the development of carbon-nanotube-assisted electromembrane extraction systems, pioneering work in microextraction and switchable-hydrophilicity solvent methods, and significant advancements in pollutant detection across water and agricultural matrices. Her innovations have enhanced the efficiency, selectivity, and reliability of analytical procedures widely adopted in environmental and food safety laboratories. With more than 570 citations, an h-index of 11, and a growing body of impactful publications, her scientific contributions continue to influence analytical chemistry research and applications. She envisions a future where precise, rapid, and accessible pollutant-monitoring tools strengthen global food safety frameworks, environmental health systems, and sustainable agricultural practices, ultimately ensuring safer food production and improved public health outcomes.

Profile: Google Scholar

Featured Publications 

1. Hasheminasab, K. S., et al. (2013). A new method for the enhancement of electromembrane extraction efficiency using carbon nanotube-reinforced hollow fiber for the determination of acidic drugs in spiked plasma.

2. Hasheminasab, K. S., et al. (2013). Development and application of carbon nanotube-assisted electromembrane extraction (CNTs/EME) for the determination of buprenorphine as a model of basic drugs from urine samples.

3. Hasheminasab, K. S., et al. (2014). Development of carbon-nanotube-assisted electromembrane extraction in the two-phase mode combined with GC for the determination of basic drugs.

4. Hasheminasab, K. S., et al. (2017). Switchable-hydrophilicity solvent-based microextraction combined with gas chromatography for determination of nitroaromatic compounds in water samples.

5. Hasheminasab, K. S., et al. (2015). Application of nonionic surfactant as a new method for enhancing electromembrane extraction performance for determination of basic drugs in biological samples.

Muhammad Atif Irshad | Innovation | Editorial Board Member

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Dr. Muhammad Atif Irshad | Innovation | Editorial Board Member

Assistant Professor | University of Lahore | Pakistan

Dr. Muhammad Atif Irshad is a dedicated environmental scientist specializing in nanotechnology-based solutions for sustainable water and soil management, with a strong research emphasis on titanium dioxide (TiO₂) nanoparticle synthesis, wastewater remediation, and plant stress physiology. His work explores advanced oxidation processes, eco-friendly nanomaterials for pollutant removal, and nature-derived treatments for industrial effluents, positioning him at the forefront of innovation in environmental safety and sustainable agriculture. As an Assistant Professor in the Department of Environmental Sciences at The University of Lahore, Pakistan, he contributes extensively to academic development through teaching, research supervision, and departmental coordination roles. Previously, he served as a Lecturer at the same institution and worked as a research scholar in industrial environmental projects, where he applied scientific principles to real-world wastewater challenges. Dr. Irshad’s notable contributions include developing TiO₂ nanoparticle-based antifungal solutions for wheat rust, pioneering field-scale applications of nanomaterials for cadmium adsorption, and introducing green-synthesized nanomaterials to reduce environmental toxicity—advancements that collectively support safer food systems and cleaner water resources. His research has further contributed to improved wastewater treatment protocols within paint, pulp, and paper industries through the use of plant-based extracts and advanced oxidation technologies. With over 600 citations, an h-index of 10, and widely recognized publications, his scientific influence continues to expand across environmental nanotechnology and sustainable remediation disciplines. Driven by a vision of environmentally responsible innovation, Dr. Irshad aims to bridge scientific research with societal and industrial needs by developing scalable, nature-inspired, and cost-effective technologies that strengthen global environmental resilience and agricultural sustainability.

Profile: Google Scholar

Featured Publications

1. Irshad, M. A., & Others. (2021). Synthesis, characterization and advanced sustainable applications of titanium dioxide nanoparticles: A review.

2. Irshad, M. A., & Others. (2020). Synthesis and characterization of titanium dioxide nanoparticles by chemical and green methods and their antifungal activities against wheat rust.

3. Irshad, M. A., & Others. (2021). Effect of green and chemically synthesized titanium dioxide nanoparticles on cadmium accumulation in wheat grains and potential dietary health risk: A field investigation.

4. Irshad, M. A., & Others. (2019). Synthesis and application of titanium dioxide nanoparticles for removal of cadmium from wastewater: Kinetic and equilibrium study.

5. Irshad, M. A., & Others. (2023). Application of nanomaterials for cadmium adsorption for sustainable treatment of wastewater: A review.

Alice Olatunji | Crop Science & Breeding | Best Researcher Award

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Dr. Alice Olatunji | Crop Science & Breeding | Best Researcher Award

Senior Research Assistant | IITA/University Canada West | Nigeria

Dr. Alice Adenike Olatunji is a distinguished agricultural scientist specializing in yam agronomy and genotype performance evaluation, with a research focus on enhancing crop productivity and resilience under diverse environmental conditions. Her primary research centers on the agronomic performance, genetic improvement, and yield stability of elite White Guinea Yam (Dioscorea rotundata) genotypes cultivated across multiple agroecological zones in Nigeria. As a Senior Research Officer at CGIAR, Montpellier, France, Dr. Olatunji contributes to global agricultural research through the development of sustainable practices and data-driven varietal selection frameworks. Her seminal work, including publications in the Agronomy journal and preprints in the Multidisciplinary Digital Publishing Institute, has provided vital insights into genotype-environment interactions influencing yam yield stability. Dr. Olatunji’s research outcomes have informed breeding strategies, agricultural policies, and sustainable food security programs, offering practical pathways for improving smallholder farmer livelihoods and advancing resilient yam production systems in Sub-Saharan Africa. Through collaborative research and innovation, she continues to bridge scientific knowledge with real-world agricultural needs, driving forward the CGIAR mission of transforming food, land, and water systems. Her impact vision emphasizes strengthening food system resilience, enhancing crop adaptation to climate variability, and empowering farmers through science-led agricultural innovation that contributes to global goals for nutrition security and sustainable development.

Profiles: ORCID

Featured Publications

1. Olatunji, A. A., Gana, A. S., Tolorunse, K. D., Agre, P. A., Adebola, P., & Asfaw, A. (2024). Agronomic performance and yield stability of elite White Guinea yam (Dioscorea rotundata) genotypes grown in multiple environments in Nigeria. Agronomy, 14(9), 2093. https://doi.org/10.3390/agronomy14092093

2. Olatunji, A. A., Gana, A. S., Tolorunse, K. D., Agre, P. A., Adebola, P., & Asfaw, A. (2024). Agronomic performance and yield stability of elite White Guinea yam (Dioscorea rotundata) genotypes grown in multiple environments in Nigeria. Preprints, 2024080964. https://doi.org/10.20944/preprints202408.0964.v1

Dr. Muhammad Qadir | Biopesticides | Young Scientist Award 

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Dr. Muhammad Qadir | Biopesticides | Young Scientist Award 

Postdoctorate | Hunan University | China

Dr. Muhammad Qadir is a distinguished researcher at the Hunan Key Laboratory of Plant Functional Genomics and Developmental Regulation, Hunan University, specializing in Stress Physiology, Plant-Microbe Interactions, and Molecular Biology. His research primarily focuses on understanding how beneficial microbes and endophytes can mitigate heavy metal toxicity, enhance stress tolerance, and improve crop productivity under adverse environmental conditions. Emerging interests in his work include microbial-assisted phytoremediation, hormone-mediated plant resilience, and the molecular mechanisms underlying stress signaling in plants. Dr. Qadir has contributed extensively to the field through his collaborative research on microbial biotechnology, demonstrating how endophytic fungi and rhizobacteria can alleviate metal stress, optimize antioxidant systems, and enhance phytoremediation efficiency in crops like soybean, sunflower, and Brassica species. His seminal works, including studies on Pantoea conspicua, Acinetobacter bouvetii, and Aspergillus niger, have provided vital insights into microbe-driven soil reclamation and sustainable agriculture. As a research scientist, he has held key academic positions within Hunan University, contributing to cross-disciplinary projects bridging microbiology, environmental science, and plant molecular genetics. Among his significant achievements are publications in high-impact journals such as Chemosphere, Environmental Science and Pollution Research, and Agronomy, along with groundbreaking findings on phytohormone-producing microbes that enhance tolerance to heavy metals and drought. His investigations into eco-friendly bio-remediation technologies have influenced the design of sustainable crop management systems and advanced understanding of microbial ecology in agriculture. With over 785 citations, an h-index of 15, and numerous collaborative studies addressing climate resilience and soil health, Dr. Qadir’s scientific influence extends across global agroecological innovation. His vision emphasizes integrating microbial biotechnology into sustainable food systems, aiming to develop resilient crops capable of thriving under environmental stress while maintaining ecological balance. Through his pioneering research, Dr. Qadir continues to contribute significantly to global scientific efforts toward ensuring food security, environmental sustainability, and agricultural innovation in the face of climate challenges.

Profiles: Google Scholar | ORCID | ResearchGate

Featured Publications

1. Zahoor, M., Irshad, M., Rahman, H., Qasim, M., Afridi, S. G., Qadir, M., & Hussain, A. (2017). Alleviation of heavy metal toxicity and phytostimulation of Brassica campestris L. by endophytic Mucor sp. MHR-7. Ecotoxicology and Environmental Safety, 142, 139–149. https://doi.org/10.1016/j.ecoenv.2017.04.024

2. Qadir, M., Hussain, A., Hamayun, M., Shah, M., Iqbal, A., & Murad, W. (2020). Phytohormones producing rhizobacterium alleviates chromium toxicity in Helianthus annuus L. by reducing chromate uptake and strengthening antioxidant system. Chemosphere, 258, 127386. https://doi.org/10.1016/j.chemosphere.2020.127386

3. Husna, H., Hussain, A., Shah, M., Hamayun, M., Iqbal, A., & Qadir, M. (2022). Heavy metal tolerant endophytic fungi Aspergillus welwitschiae improves growth, ceasing metal uptake and strengthening antioxidant system in Glycine max L. Environmental Science and Pollution Research, 29(11), 15501–15515. https://doi.org/10.1007/s11356-021-16518-3

4. Hussain, A., Shah, M., Hamayun, M., Iqbal, A., Alataway, A., & Qadir, M. (2023). Phytohormones producing rhizobacteria alleviate heavy metals stress in soybean through multilayered response. Microbiological Research, 266, 127237. https://doi.org/10.1016/j.micres.2023.127237

5. Qadir, M., Hussain, A., Shah, M., Hamayun, M., Iqbal, A., Irshad, M., & Sayyed, A. (2022). Comparative assessment of chromate bioremediation potential of Pantoea conspicua and Aspergillus niger. Journal of Hazardous Materials, 424, 127314. https://doi.org/10.1016/j.jhazmat.2022.127314

Muhammad Ather Nadeem | Agronomy |  Best Researcher Award

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Dr. Muhammad Ather Nadeem | Agronomy |  Best Researcher Award

Professor/Dean | University of Sargodha | Pakistan

Dr. Muhammad Ather Nadeem is a distinguished researcher specializing in Weed Science and Agronomy, with a particular focus on nano herbicides, herbicide resistance, allelopathy, and sustainable fodder production systems. His research explores the interactions between crops and weeds, emphasizing innovative and eco-friendly weed management approaches, plant–plant biochemical interactions, and the optimization of fertilizer and nutrient application for enhanced yield and quality. Serving as a leading academic at the University of Sargodha, Pakistan, Dr. Nadeem has played a vital role in advancing agricultural science through his extensive teaching, research supervision, and collaborative projects aimed at improving productivity and environmental sustainability. His scholarly contributions encompass over a hundred peer-reviewed publications, including highly cited works such as “Pesticides: Impacts on Agriculture Productivity, Environment, and Management Strategies” and “Can Hormesis of Plant-Released Phytotoxins Be Used to Boost and Sustain Crop Production?” which collectively demonstrate his commitment to balancing agricultural efficiency with environmental health. His pioneering studies on the integrated use of microbial and synthetic nitrogen sources, drought tolerance mechanisms, and sustainable fodder production have provided practical insights into mitigating climate change impacts on crop systems. Dr. Nadeem’s expertise extends beyond laboratory research to field-level innovations, influencing regional agricultural practices and policy discussions related to weed management and food security. Recognized for his remarkable academic metrics with over 5,000 citations, an h-index of 43, and an i10-index of 127, his research continues to shape new paradigms in agro-ecosystem management and resource-efficient farming. Through interdisciplinary collaboration and scientific leadership, Dr. Nadeem envisions a future where advanced biotechnological and ecological principles drive resilient and sustainable agriculture. His ongoing work contributes profoundly to global innovation in sustainable crop protection, positioning him as a key figure in the advancement of eco-agronomic research and an advocate for science-led agricultural transformation.

Profiles: Google Scholar | ResearchGate

Featured Publications

1. Ayub, M., Nadeem, M. A., Sharar, M. S., & Mahmood, N. (2002). Response of maize (Zea mays L.) fodder to different levels of nitrogen and phosphorus. Asian Journal of Plant Sciences, 1(4), 352–354.

2. Khan, B. A., Nadeem, M. A., Nawaz, H., Amin, M. M., Abbasi, G. H., Nadeem, M., & Ali, M. (2023). Pesticides: Impacts on agriculture productivity, environment, and management strategies. Emerging Contaminants and Plants: Interactions, Adaptations and Remediation, 219.

3. Ayub, M., Nadeem, M. A., Tanveer, A., & Husnain, A. (2002). Effect of different levels of nitrogen and harvesting times on the growth, yield and quality of sorghum fodder. Asian Journal of Plant Sciences, 1(4), 304–307.

4. Nadeem, M. A., Ahmad, R. A. R., & Ahmad, M. S. (2004). Effects of seed inoculation and different fertilizer levels on the growth and yield of mung bean (Vigna radiata L.). Asian Journal of Plant Sciences, 3(4), 299–303.*

5. Ayub, M., Nadeem, M. A., Tahir, M., Ibrahim, M., & Aslam, M. N. (2009). Effect of nitrogen application and harvesting intervals on forage yield and quality of pearl millet (Pennisetum americanum L.). Pakistan Journal of Life and Social Sciences, 7(2), 185–189.

Clay Sneller | Plant Breeding | Best Researcher Award

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Dr. Clay Sneller | Plant Breeding | Best Researcher Award

Professor | The Ohio State University | United States

Dr. Clay Sneller is a distinguished researcher and professor at The Ohio State University, specializing in Plant Breeding and Quantitative Genetics. His research primarily focuses on improving genetic diversity, yield stability, and environmental resilience in major crops such as soybean and wheat. He has significantly contributed to understanding the genetic mechanisms underlying yield potential, drought tolerance, and symbiotic nitrogen fixation, offering innovative strategies for sustainable agricultural productivity. Over his extensive career, Dr. Sneller has held key academic roles driving advanced crop improvement programs and mentoring future agricultural scientists. His collaborative research has produced impactful publications on topics like genomic prediction of wheat landraces, the relationship between genetic variance and parental diversity in soybean, and marker-assisted introgression of yield-related quantitative trait loci (QTLs). His pioneering studies, including “Crop transformation and the challenge to increase yield potential” and “Genomic selection for wheat traits and trait stability,” have guided global plant breeding strategies and influenced both policy and practice in agricultural biotechnology. With an h-index of 42 and over 5,800 citations, Dr. Sneller’s scholarly contributions have shaped the scientific understanding of crop genetics and breeding efficiency. His work bridges the gap between molecular genetics and practical agronomy, advancing the development of resilient, high-yield cultivars adapted to climate variability. Driven by a vision to enhance food security through science-led innovation, Dr. Sneller continues to contribute to the global effort toward sustainable crop production, genetic resource conservation, and next-generation breeding technologies that empower farmers and strengthen agricultural systems worldwide

Profile: Google Scholar

Featured Publications

1. Sinclair, T. R., Purcell, L. C., & Sneller, C. H. (2004). Crop transformation and the challenge to increase yield potential. Trends in Plant Science, 9(2), 70–75.

2. Carter, T. E. Jr., Nelson, R. L., Sneller, C. H., & Cui, Z. (2004). Genetic diversity in soybean. In Soybeans: Improvement, Production, and Uses (Vol. 16, pp. 303–416).

3. Sinclair, T. R., Purcell, L. C., King, C. A., Sneller, C. H., Chen, P., & Vadez, V. (2007). Drought tolerance and yield increase of soybean resulting from improved symbiotic N₂ fixation. Field Crops Research, 101(1), 68–71.

4. Sneller, C. H., Kilgore‐Norquest, L., & Dombek, D. (1997). Repeatability of yield stability statistics in soybean. Crop Science, 37(2), 383–390.

5. Crossa, J., Jarquín, D., Franco, J., Pérez-Rodríguez, P., Burgueño, J., & Sneller, C. H. (2016). Genomic prediction of gene bank wheat landraces. G3: Genes, Genomes, Genetics, 6(7), 1819–1834.*

Fariya Abubakari | Soil Science | Women Researcher Award

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Dr. Fariya Abubakari | Soil Science | Women Researcher Award

Research Scholar | Murdoch University | Australia

Dr. Fariya Abubakari is a distinguished researcher at Murdoch University, specializing in agriculture, crop science, soil science, and horticulture. Her research primarily focuses on sustainable agricultural practices, food security, and the socio-economic impacts of climate change on farming systems in sub-Saharan Africa. Dr. Abubakari’s emerging research interests include optimizing nitrogen fixation in leguminous crops and enhancing soil conservation techniques to improve smallholder productivity. Throughout her academic career, she has held vital research and teaching roles in agricultural science, where she has contributed extensively to policy-driven studies on soil fertility management, fertilizer subsidy effects, and farmers’ adaptation strategies to climate change. Her influential works, including “Determinants of Household Food Security and Climate Change Impacts on Agriculture in Ghana” and “Strategies for Improving Nodulation and Nitrogen Fixation of Leguminous Crops,” have shaped local and regional agricultural policies promoting climate resilience and sustainable crop production. Dr. Abubakari’s research on soil conservation technologies, fertilizer awareness, and tomato production constraints among rural farmers has offered practical frameworks for improving yields and livelihoods in vulnerable regions. She has also contributed to gender and development studies, notably examining the intersection of women’s empowerment and agricultural sustainability in Ghana. With over 70 citations and a growing research footprint, her work bridges scientific inquiry and real-world agricultural challenges. Her impact vision is to advance sustainable farming systems that ensure food security and environmental protection through innovative soil management, efficient crop production, and inclusive agricultural policies. By integrating scientific evidence with rural development strategies, Dr. Abubakari continues to influence both academic discourse and practical implementation, reinforcing her commitment to improving the resilience of African agriculture against climate and economic pressures while empowering communities toward sustainable livelihoods.

Profile: Google Scholar

Featured Publications

Dario Gaudioso | Seed Science | Excellence in Innovation Award

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Dr. Dario Gaudioso | Seed Science | Excellence in Innovation Award

PhD researcher | Università degli studi di Firenze | Italy

Dr. Dario Gaudioso is a distinguished researcher specializing in molecular plant pathology, with expertise in plant health, quarantine pathogens, and molecular biology. His research primarily focuses on developing rapid, economical, and high-throughput diagnostic strategies for the detection of quarantine plant pathogens, using Curtobacterium flaccumfaciens pv. flaccumfaciens as a model organism. He also explores innovative, eco-friendly biotechnological approaches for sustainable crop protection and microbial interactions in leguminous plants. Currently serving as a PhD researcher at the Department of Agricultural, Food, Environmental and Forestry Science and Technology (DAGRI), University of Florence, Dr. Gaudioso also contributes as a Scientific Communicator and OpenLab Operator, bridging science and public understanding. His prior work as a Research Fellow at the same institution strengthened his contributions to applied plant pathology and diagnostic microbiology. Among his significant scientific outputs are publications such as Isolation of a Novel Microplastic-Degrading Bacterial Strain in Chemosphere (2025), Fly High: Volatile Organic Compounds for the Early Detection of Curtobacterium flaccumfaciens in Agronomy (2025), and Exploiting Bacterial Pigmentation for Non-Destructive Detection of Seed-Borne Pathogens in Sensors (2024). He has also contributed to the book Innovative Detection of the Quarantine Plant Pathogen Curtobacterium flaccumfaciens pv. flaccumfaciens published in Plant Pathology (2022), and to reviews on multidrug transporters in Microorganisms (2024), highlighting his diverse contributions across microbiology and plant science. As an active member of prestigious organizations, including the British Society for Plant Pathology, the Italian Society of Plant Pathology, and the Italian Association for Plant Protection, he continuously engages with the international scientific community. His research outputs integrate molecular diagnostics, sensor technologies, and microbial ecology to advance sustainable agriculture and improve global plant biosecurity frameworks. Through his innovative and interdisciplinary approach, Dr. Gaudioso envisions a future where sustainable diagnostic solutions enable effective management of plant diseases, safeguard agricultural biodiversity, and support resilient food systems. His scientific vision emphasizes strengthening global plant health surveillance, fostering early detection methods that reduce economic losses and environmental impact, and promoting a collaborative framework that bridges science, technology, and sustainability to address emerging agricultural challenges.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate | LinkedIn

Featured Publications

1. Gaudioso, D. (2025). Isolation of a novel microplastic-degrading bacterial strain: A promising agent for low-density polyethylene remediation. Chemosphere. https://doi.org/10.1016/j.chemosphere.2025.144400

2. Gaudioso, D. (2025). On the effectiveness of ozone treatments: A silver bullet for plant health? Agronomy, 15(3), 567. https://doi.org/10.3390/agronomy15030567

3. Gaudioso, D. (2025). Fly high: Volatile organic compounds for the early detection of the seed-borne pathogen Curtobacterium flaccumfaciens pv. flaccumfaciens. Agronomy, 15(2), 497. https://doi.org/10.3390/agronomy15020497

4. Gaudioso, D. (2024). Exploiting bacterial pigmentation for non-destructive detection of seed-borne pathogens by using photoacoustic techniques. Sensors, 24(23), 7616. https://doi.org/10.3390/s24237616

5. Gaudioso, D. (2024). Multidrug and toxic compound extrusion transporters: Ubiquitous multifaceted proteins in microbes, plants, and their interactions. Microorganisms, 12(12), 2433. https://doi.org/10.3390/microorganisms12122433