Navdeep Singh | Soil Conservation | Best Researcher Award

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Dr. Navdeep Singh | Soil Conservation | Best Researcher Award

Assistant Professor | Western Kentucky University | United States

Dr. Navdeep Singh is a researcher specializing in Soil Physics and Hydrology, with strong expertise in soil water management, conservation practices, and sustainable agriculture. His research focuses on understanding soil pore architecture, hydrological processes, and greenhouse gas dynamics under conservation tillage, cover cropping, and integrated crop–livestock systems, using advanced tools such as X-ray computed tomography and simulation modeling. He has held key academic research roles at Western Kentucky University and collaborated extensively with multidisciplinary teams addressing soil health and climate-smart agriculture. Dr. Singh’s major contributions include high-impact studies on soil structural dynamics, water availability, carbon sequestration, and management-driven improvements in agroecosystem resilience, influencing best management practices and soil health assessment frameworks. His work supports evidence-based agricultural policies and field-scale decision-making. Driven by an impact-oriented vision, Dr. Singh aims to advance sustainable land-use systems that enhance productivity, conserve water resources, mitigate climate impacts, and strengthen global food security through science-based innovation.

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Featured Publications

Baoping Zhao | Agronomy | Editorial Board Member

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Prof. Baoping Zhao | Agronomy | Editorial Board Member

Deputy Dean | Inner Mongolia agriculturial University | China

Prof. Baoping Zhao, a distinguished researcher at Neimenggu Agricultural University, Hohhot, China, is a leading specialist in crop science, stress physiology, and sustainable agronomy whose work advances resilient cereal production and soil–plant health. His research focuses on understanding plant responses to salinity, drought, heavy-metal stress, microplastic contamination, and nutrient limitations, while developing innovative strategies to improve oat, buckwheat, and wheat performance under challenging environmental conditions. Emerging interests include multi-omics–guided crop improvement and nature-based soil amendments that enhance both yield and ecological sustainability. With a strong record of 70 publications, over 430 citations, and an h-index of 10, he has contributed extensively through collaborative, high-impact studies. His professional experience spans key academic roles in plant science research, where he has led and co-led projects revealing how crops respond to salinity and drought stress, including integrated germination and field assessments that identify saline–alkali-tolerant oat germplasm, molecular insights into drought-responsive pathways using multi-omics tools, and proteomic analysis of root respiratory metabolism under salt stress. Among his notable contributions are breakthroughs in improving crop resilience, such as demonstrating how fulvic acid enhances oat growth and grain yield under water-deficit by regulating antioxidant systems and carbon assimilation, and how manganese–zinc fertilizers mitigate cadmium toxicity in wheat, reducing potential human-health risks through safer grain production practices. His work has also illuminated the environmental risks posed by microplastics in agricultural soils, showing their effects on soil properties and buckwheat performance, thus informing soil-health monitoring and sustainable land-management policies. Through open-access contributions that strengthen global scientific accessibility, his research findings support innovations in crop breeding, fertilizer management, and climate-adaptive agriculture, offering practical applications for both farmers and industry stakeholders. Driven by the vision of building resilient agroecosystems, Prof. Zhao aims to translate advanced plant-response knowledge into solutions that enhance food security, protect soil ecosystems, and promote sustainable agricultural transformation. His ongoing commitment to interdisciplinary collaboration positions him as a key contributor to global efforts in adapting agriculture to environmental change while supporting healthier, more productive cropping systems for future generations.

Profile: Scopus

Featured Publications

1. Effects of preservatives and drying methods on the nutrient composition and mould counts of hay and pellet processing of oats. Scientific Reports.

2. Testing of saline–alkali tolerance in oat germplasm through integrated germination and field performance assessments. Agronomy.

3. Potential impacts of microplastic particle size and type on soil properties and buckwheat performance. Agronomy.

4. Fulvic acid enhances oat growth and grain yield under drought deficit by regulating ascorbate–glutathione cycle, chlorophyll synthesis, and carbon-assimilation ability. Agronomy.

5. Foliar application of manganese–zinc fertilizer mitigated the harmful effects of cadmium on wheat and reduced human health risks. Sustainability.

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.

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

Cleyton de Almeida Araújo | Sustainable Agriculture | Best Researcher Award

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Prof. Dr. Cleyton de Almeida Araújo | Sustainable Agriculture | Best Researcher Award

Professor | UNIVASF | Brazil

Dr. Cleyton de Almeida Araújo is a distinguished researcher and academic specializing in Animal Science, with an emphasis on ruminant nutrition, forage management, and sustainable livestock production systems. His research primarily focuses on optimizing feed efficiency, improving forage quality, and developing eco-friendly livestock management practices that reduce greenhouse gas emissions while enhancing animal productivity in semiarid regions. As an Adjunct Professor at the Federal University of the São Francisco Valley (UNIVASF), he plays a vital role in advancing experimental studies on silage fermentation, mineral balance in animal nutrition, and biosaline agriculture. Over the years, Dr. Araújo has authored numerous scientific articles in high-impact journals, contributing significantly to understanding forage preservation, carbohydrate fractionation, and the nutritional dynamics of alternative feed resources such as cactus pear and cassava shoots. His collaborative works have also examined the interplay between animal nutrition and environmental sustainability, highlighting innovative strategies for resource-limited ecosystems. Beyond his academic achievements, he has contributed to the scientific community through applied research that supports livestock farmers and policymakers in developing climate-resilient agricultural systems. His findings on feed substitution and silage improvement have practical implications for animal welfare, soil health, and rural livelihoods. Dr. Araújo’s scientific vision is rooted in bridging advanced nutritional science with sustainable production methods, fostering innovations that balance productivity with environmental stewardship. Through his continued research and mentorship, he aims to strengthen the resilience of tropical livestock systems, contributing to global efforts in food security, ecological conservation, and rural development. He has 78 citations from 26 publications, with an h-index of 5.

Profiles: Scopus | ORCID

Featured Publications

1. Araújo, C. A., Lima, R. S., Oliveira, G. F., Nascimento, D. B., Campos, F. S., Gois, G. C., Silva, T. G. F., Magalhães, A. L. R., & Araújo, G. G. L. (2025). Carbohydrate fractionation and nitrogen compounds, mineral status, and gas production in arboreal cotton and cactus silages. Arquivo Brasileiro de Medicina Veterinária e Zootecnia, 77(1). https://doi.org/10.1590/1678-4162-13274

2. Pereira, P. H. B., Oliveira, J. S., Guerra, R. R., Conceição, Â. I. da, Magalhães, A. L. R., Silva, D. K. de A., Bispo, S. V., Dias, G. G., Araújo, C. de A., & Valença, R. de L., et al. (2025). Forage cactus as a substitute for corn as an energy source in the finishing of feedlot lambs. Tropical Animal Health and Production, 57(6). https://doi.org/10.1007/s11250-025-04502-8

3. Nascimento, D. B. do, Magalhães, A. L. R., Teodoro, A. L., Gois, G. C., Santos, K. C. dos, Amaral, T. N. E. de, Araújo, C. A. de, Silva, P. B. da, Severo, M. F. de S., & Campos, F. S. (2025). Chemical composition, mineral profile, carbohydrate fractionation, dry matter digestibility and in vitro gas production of Furcraea foetida (L.) Haw at different phenological stages. New Zealand Journal of Agricultural Research, 68(2). https://doi.org/10.1080/00288233.2023.2260770

4. Borges, E. N., Araújo, C. A. de, Monteiro, B. S., Silva, A. S., Albuquerque, L. de F., Araújo, G. G. L. de, Campos, F. S., Gois, G. C., Souza, R. C. de, & Araújo, A. O. de. (2025). Buffel grass pre-dried as a modulator of the fermentation, nutritional and aerobic stability profile of cactus pear silage. New Zealand Journal of Agricultural Research, 68(1). https://doi.org/10.1080/00288233.2023.2212173

5. Silva, C. de S., Miranda, A. S. de, Novaes, J. J. da S., Araújo, C. A. de, Macedo, A. de, Araújo, J. S. de, Lima, D. O., Neto, J. V. E., Gois, G. C., & Araújo, G. G. L. de, et al. (2024). Fermentation profile, nutritional value and aerobic stability of mixed elephant grass and butterfly pea silages. Ciência Animal Brasileira, 25, e76994e. https://doi.org/10.1590/1809-6891v25e-76994e

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

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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.

Cairo Pedro | Soil Science | Best Researcher Award

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Prof. Dr. Cairo Pedro | Soil Science | Best Researcher Award

Researcher at Atacama University | Chile

Pedro Cairo Cairo is a distinguished agricultural scientist with more than five decades of contribution to sustainable soil management and organic agriculture. He has been instrumental in advancing ecological farming practices and restoring degraded soils across different regions, with significant recognition at both national and international levels. His research has spanned soil fertility, agroecology, and sustainable agriculture, resulting in groundbreaking contributions that have shaped agricultural development in Cuba and beyond. With numerous books, journal publications, and collaborative projects, Pedro Cairo Cairo stands as an influential figure committed to fostering sustainable farming and improving soil health globally.

Professional Profile

ORCID

Education

Pedro Cairo Cairo pursued his higher education in agricultural sciences, specializing in soil fertility and ecological management. His academic journey led him to complete a PhD in Agricultural Science, followed by four postdoctoral fellowships at the University of Rostock in Germany. These experiences deepened his expertise in soil quality, organic matter utilization, and sustainable land management. Through his education, he built a strong foundation in agroecology and organic agriculture, which has guided his professional and research career. His scholarly formation provided him with both theoretical and practical insights, enabling him to make impactful contributions to soil science worldwide.

Professional Experience

With over 50 years of professional expertise, Pedro Cairo Cairo has dedicated his career to soil restoration, sustainable agriculture, and organic farming. He has worked extensively in Cuba, where his research and innovations in soil fertility earned him national acclaim, and later continued his contributions at the Universidad de Atacama in Chile. His professional work includes mentoring PhD and Master’s students, publishing extensively, and leading several national and international projects. His leadership extends to collaborations with global institutions, contributing to agricultural sustainability strategies, soil quality improvement, and climate-resilient farming practices, shaping future generations of agricultural scientists.

Research Interest

Pedro Cairo Cairo’s research interests revolve around sustainable agriculture, soil fertility, and organic farming systems. He is particularly dedicated to studying soil quality indicators, the role of organic matter in fertility improvement, and sustainable management of salt-affected and degraded soils. His work also integrates agroecology, plant nutrition, and climate change adaptation strategies, reflecting a holistic approach to agricultural sustainability. He has consistently focused on identifying natural and organic solutions to restore soil health and increase productivity. These interests align with his commitment to building resilient agricultural systems that balance productivity with environmental protection and long-term sustainability.

Awards and Honors

Pedro Cairo Cairo has received numerous prestigious awards in recognition of his outstanding contributions to science and agriculture. He was honored with the Carlos J. Finlay Order, Cuba’s highest scientific distinction, in 2001. In 1999, he was awarded the International Right Livelihood Award, often referred to as the “Alternative Nobel Prize,” for his work in organic agriculture. Additionally, he has received national and provincial awards for scientific achievements and labor excellence, alongside multiple recognitions for his technical innovations. These honors highlight his lifelong dedication to sustainable soil management and his influential role in global agricultural research.

Research Skills

Throughout his career, Pedro Cairo Cairo has developed and demonstrated advanced skills in soil fertility analysis, organic matter management, and sustainable farming practices. His expertise includes the use of organic waste, biofertilizers, and natural minerals for soil restoration. He is proficient in designing and evaluating sustainability indicators for soil quality and has led projects addressing saline and alkaline soil management. His research skills extend to mentoring doctoral candidates, producing high-impact publications, and collaborating internationally. These skills, combined with his ability to integrate science with practical applications, make him a leading figure in advancing sustainable agricultural systems.

Publications

Pedro Cairo Cairo has authored over ten books and numerous peer-reviewed journal articles in leading international platforms, particularly in Web of Science and Scopus indexed journals. His publications cover topics such as soil quality, organic fertilizers, bamboo biomass utilization, saline soil management, and agroecological farming practices. Recent works include studies on organo-mineral fertilizers and their impact on soil fertility and crop yield. He has also co-authored book chapters with renowned international researchers. His contributions have been widely cited, with a citation index of 23, underscoring the scientific impact and global relevance of his research output.

Cairo,P*., Torrez, P., Machado, J., Rodríguez, A., Gatorno,S., Rodríguez, O., Jimenez, R.(2017).Effects of phosphate limestone on structure and quality under sugarcane vertisoles. Centro Agrícola, 44(4), 30-36. (WoS).

Cairo,P*., Diaz, B., Rodriguez, A.(2017). Soil quality indicators in Vertisols under sugarcane. Archives of Agronomy and Soil Science, 63 (11) 1477-1488. (WoS).

Cairo,P*., Alvares, O., Yera, Y., Rodríguez, A., Mollineda, A., Torres, P., Rodríguez, O.2018. La biomasa de Bambusa vulgaris como alternativa para la recuperación de suelos degradados. Centro Agrícola. 45 (3):51-58. . (WoS).

Cairo,P*.,Diaz. B. 2019. Fertility and Mineralogy of an Aridisol Soil under Agroecological Management. Communications in Soil Science and Plant Analysis, 50 (14):1710-1721. . (WoS).

Cairo,P*. Diaz, B. 2021.Effects of dolomitic limestone and organic fertilizers on physical - chemical properties and the structure of a Vertisol. Australia Journal Crops Science.15(12) 1381-1385. Doi:10.21475/ajcs21.15.12.p3048. (SCOPUS).

Conclusion

In conclusion, Pedro Cairo Cairo’s lifelong commitment to agricultural science has left an enduring legacy in soil fertility, organic farming, and sustainable agriculture. His leadership, research, and innovations have not only advanced scientific understanding but also provided practical solutions for restoring soil health and ensuring food security. Through mentorship, publications, and international collaborations, he has influenced future generations of scientists and practitioners. His awards and honors affirm his global recognition as a pioneer in ecological agriculture. Pedro Cairo Cairo’s work continues to inspire and contribute significantly to building sustainable and climate-resilient agricultural systems worldwide.

Ricardo Luna Murillo | Crop Production | Best Researcher Award

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Mr. Ricardo Luna Murillo | Crop Production | Best Researcher Award

Researcher at Technical University of Cotopaxi | Ecuador

Ricardo Augusto Luna Murillo is an accomplished academic and researcher in the field of agricultural sciences, with a specialization in microbiology and livestock production. Over the course of his career, he has contributed significantly to teaching, research, and consultancy, focusing on sustainable livestock management, organic agriculture, and innovative agronomic practices. His experience spans universities, research institutions, and consultancy roles, where he has worked on multidisciplinary projects, published numerous scientific papers, and participated in international conferences. Through his academic and professional efforts, he has strengthened agricultural knowledge in Ecuador and beyond, promoting scientific innovation and sustainability in rural development.

Professional Profiles

Google Scholar | ORCID | Scopus

Education

Ricardo Augusto Luna Murillo pursued his undergraduate studies in Animal Science, earning a degree as an Agricultural Engineer specializing in Zootechnics. He later advanced his knowledge with a Diploma in Microbiology and subsequently a Master’s degree in Advanced Microbiology with an Industrial focus. Complementing his academic foundation, he received international certification in project formulation, evaluation, and management, which broadened his expertise in planning and implementing research-based projects. His continuous participation in specialized courses on biotechnology, livestock production, and sustainable farming has enriched his scientific background, allowing him to integrate theory with practical innovations in agriculture and microbiology.

Professional Experience

With a professional career spanning decades, Ricardo Augusto Luna Murillo has served in diverse academic, technical, and consultancy roles. He has been a professor and researcher at multiple institutions, including the Universidad Técnica Estatal de Quevedo, Universidad Agraria del Ecuador, and Universidad Técnica de Cotopaxi. His teaching has covered areas such as microbiology, animal nutrition, and pasture management, while his research projects have focused on sustainable livestock production and organic agriculture. Beyond academia, he has worked as a technical consultant, advising on agricultural investment and scientific projects. His leadership in research units and scientific committees reflects his strong commitment to advancing knowledge and innovation.

Research Interests

Ricardo Augusto Luna Murillo’s research interests are centered on sustainable livestock production, animal nutrition, microbiology, and organic agriculture. He has dedicated much of his career to studying the nutritional value of tropical forages, the use of biofertilizers and organic amendments, and the role of rhizobacteria in promoting crop growth. His interests also extend to silvopastoral systems, integrated farming practices, and the application of biotechnology in agriculture. By exploring the intersection of animal science and microbiology, his research aims to improve productivity while maintaining environmental sustainability, contributing to food security and rural development in Ecuador and the wider Latin American region.

Awards and Honors

Throughout his career, Ricardo Augusto Luna Murillo has been recognized for his outstanding academic and research contributions. He has received honors for his role as a dedicated tutor, professor, and researcher in various institutions. His scientific leadership has been acknowledged at national and international congresses, where he has been commended for advancing agricultural innovation and sustainability. He has been accredited by Ecuador’s national higher education authority as a categorized researcher, underscoring his valuable contributions to scientific knowledge. These distinctions reflect his dedication to education, research, and the dissemination of innovative practices that benefit both academia and the agricultural sector.

Research Skills

Ricardo Augusto Luna Murillo possesses a diverse range of research skills developed through years of academic and professional engagement. He is adept at designing, planning, and executing research projects, often leading multidisciplinary teams across agricultural and microbiological studies. His expertise includes animal nutrition analysis, forage evaluation, microbiological techniques, and the application of biofertilizers in crop production. Additionally, he has experience in statistical analysis, technical writing, and scientific publication. His skills extend to organizing scientific events, mentoring young researchers, and contributing as a peer reviewer for academic journals, which highlights his ability to promote high-quality, impactful scientific work.

Publications

A prolific author, Ricardo Augusto Luna Murillo has published numerous articles in indexed journals, conference proceedings, and scientific books. His publications span topics such as animal nutrition, organic fertilization, pasture and forage evaluation, microbiology, and sustainable crop production. His research findings have been disseminated in national and international journals, contributing to advancements in agricultural science. Notably, he has explored the effects of enzymes, biofertilizers, and organic amendments on animal and crop productivity. His academic output demonstrates his commitment to producing practical knowledge that supports sustainable agricultural systems, reinforcing his reputation as a respected researcher and academic leader in his field.

Avellaneda-Cevallos, J. H., Cedeño-Cedeño, T. A., Suárez-Chiquito, A., Montañez-Valdez, O., Cepeda-Cantos, C. D., Luna-Murillo, R., Espinoza-Guerra, I., Quintana, J., & Casanova-Ferrín, L. (2007). Effect of palm kernel meal plus urea on finishing of Brown Swiss young bulls. Journal of Animal Science, 85(Suppl. 1), 96.

Avellaneda-Cevallos, J. H., Quintana-Zamora, G., Espinoza-Torrico, F., Montañez-Valdez, O., Espinoza-Guerra, I., Luna-Murillo, R., González-Muñoz, S., & Tuárez-Cobeña, J. (2007). Effect of an exogenous fibrolytic enzyme on in vivo digestibility of king grass hay. Journal of Animal Science, 85(Suppl. 1), 337.

Avellaneda-Cevallos, J. H., Montanez-Valdez, O. D., Romero-Garaicoa, D., Luna-Murillo, R., Bravo-Loor, J., & Pena-Galeas, M. (2011). Effect of exogenous fibrolytic enzymes on dry matter in situ digestibility of two Brachiaria grasses. Journal of Animal Science, 89(Suppl. E. 1), 387.

Conclusion

In conclusion, Ricardo Augusto Luna Murillo stands as a distinguished figure in the fields of microbiology, zootechnics, and sustainable agriculture. His professional journey reflects a balance between teaching, research, and consultancy, with a strong focus on innovation and sustainability. Through his contributions to scientific literature, leadership in research projects, and participation in international congresses, he has become a reference point for agricultural development in Ecuador. His commitment to fostering young researchers and promoting environmentally responsible practices ensures his work continues to have a meaningful impact on academia, agricultural producers, and broader rural communities across the region.

Prof. Dr. Mercy Manyuchi | Bio-Fertilizers | Women Researcher Award

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Prof.Dr. Mercy Manyuchi | Bio-Fertilizers | Women Researcher Award

Prof.Dr. Mercy Manyuchi | Bio-Fertilizers - Director at SustainableTech Environmental Management Company, Zimbabwe

Prof. Dr. Eng. Mercy Manyuchi is a distinguished chemical engineer and academic leader with a rich portfolio in sustainable engineering. With extensive experience in academia, research, innovation, and leadership, Prof. Manyuchi has contributed significantly to the fields of waste valorisation, bioenergy, and environmental sustainability. Currently serving as Professor Extraordinarius at UNISA and former Visiting Professor at the University of Johannesburg, Prof. Manyuchi has held several high-impact academic and consultancy roles. Recognized globally for contributions to sustainability, this profile highlights a strong foundation in engineering education, groundbreaking research initiatives, and impactful publications that support the global sustainability and circular economy agenda.

Professional Profile

Google Scholar | ORCID

Education

Prof. Manyuchi holds a Doctor of Technology in Chemical Engineering from Cape Peninsula University of Technology, complemented by an MScEng from Stellenbosch University and a BEng from the National University of Science and Technology, Zimbabwe. Additionally, executive leadership training was completed through an EMBA at Bindura University and an Executive Diploma at the Zimbabwe Institute of Management. This educational trajectory highlights a strong blend of technical and managerial competencies, positioning Prof. Manyuchi as a dynamic leader in the intersection of engineering, research, and sustainable development.

Professional Experience

Prof. Manyuchi’s professional career spans over a decade of service in higher education, research, and consulting. Academic appointments include tenure at Harare Institute of Technology and a multi-level visiting professorship at the University of Johannesburg. Industry experience includes roles at ZimChem Refiners and Nestlé Zimbabwe. In leadership, Prof. Manyuchi directed departments, academic programs, and consultancy firms focused on sustainability. These roles were pivotal in leading engineering education reforms, developing environmental technologies, and managing cross-disciplinary teams. Their unique experience merges academic scholarship with industrial application, making valuable contributions to engineering practice and societal development.

Research Interest

Prof. Manyuchi’s current research focuses on the water-energy-food nexus and its alignment with sustainable development goals. Specialized areas include waste-to-energy technologies, biomass valorisation, biochar production, wastewater treatment, and circular economy innovations. Collaborative projects span local and international platforms, addressing global challenges through innovative green technologies. Their research also explores low-cost environmental engineering solutions for developing regions. By fostering interdisciplinary collaborations, Prof. Manyuchi aims to bridge scientific research and policy to promote climate resilience and sustainable urban development. The overarching objective is to engineer eco-efficient systems that benefit both society and the environment.

Award and Honor

Prof. Manyuchi has been recognized with numerous prestigious awards and fellowships. These include the Women Corporate Directors Award (2023), Green Talents Fellowship (Germany), Japanese Agricultural Researchers Award (2016), and the Presidential Research Award (Zimbabwe). Notably, Prof. Manyuchi has been a Tony Elumelu Foundation grantee and a World Energy Council Future Energy Leader. Many other accolades reflect contributions to entrepreneurship, engineering excellence, and sustainable innovation. These honors demonstrate a global appreciation of Prof. Manyuchi’s efforts in advancing environmental engineering and shaping future-ready solutions for global sustainability challenges.

Research Skill

Prof. Manyuchi is adept in experimental design, techno-economic assessments, process optimization, and life cycle analysis related to chemical and environmental engineering. Key skills include biomass valorisation, bioenergy systems modeling, and development of sustainable waste management technologies. Proficiency in supervising postgraduate research, conducting interdisciplinary projects, and publishing in high-impact journals showcases an ability to translate complex scientific findings into practical applications. Additional competencies include technology transfer, vermicomposting innovation, and environmental impact assessment. These skills are foundational to Prof. Manyuchi’s mission of developing technologies that contribute to cleaner, safer, and more resource-efficient communities.

Publications

Muisa, N., Nhapi, I., Ruziwa, W., & Manyuchi, M.M* (2020). Utilization of alum sludge as adsorbent for phosphorus removal in municipal wastewater: A review. Journal of Water Process Engineering.

Chaukura, Manyuchi, M.M* N., Gwenzi, W., & Tawenga, N. (2016). Biosorbents for the removal of synthetic organics and emerging pollutants: Opportunities and challenges for developing countries. Environmental Development.

Phiri, Manyuchi, M.M*. (2013). Vermicomposting in solid waste management: A review. International Journal of Scientific Engineering and Technology.

Manyuchi,M.M*, Phiri, A., Muredzi, P., & Chitambwe, T. (2013). Comparison of vermicompost and vermiwash bio-fertilizers from vermicomposting waste corn pulp. World Academy of Science, Engineering and Technology.

Manyuchi M.M*, CMEM. (2018). Potential to use municipal waste bio char in wastewater treatment for nutrients recovery.

Conclusion 

Prof. Dr. Eng. Mercy Manyuchi exemplifies a rare combination of academic brilliance, practical innovation, and leadership in the domain of sustainable chemical engineering. From impactful research and transformative teaching to international collaborations and industry contributions, Prof. Manyuchi has consistently championed green technologies and environmental resilience. With a forward-thinking approach, the work continues to inspire new solutions in waste valorisation, climate adaptation, and circular economy systems. As a mentor, researcher, and policy advocate, Prof. Manyuchi remains at the forefront of global sustainability efforts, building a legacy grounded in science, service, and societal impact.

Prof. Dr Mohamed Elsayed – Soil chemistry – Best Researcher Award

Published on by Agri Scientist

Prof. Dr Mohamed Elsayed – Soil chemistry – Best Researcher Award

Soils, Water and Environmental Research Institute (ARC) – Egypt

AUTHOR PROFILE 

SCOPUS

ORCID

GOOGLE SCHOLAR

SUMMARY

Dr. Mohamed Eid Abdelhamid Elsayed is a seasoned researcher and academician in soil and water management, currently serving as Chief Researcher at the Soils, Water and Environmental Research Institute (ARC), Egypt. With over two decades of experience, his expertise spans wastewater treatment, humic acid interaction with soil minerals, and sustainable agriculture practices. He has held leadership roles in international projects and served as a technical director. His contributions to academia and applied science are recognized through numerous awards, active roles in scientific committees, and a prolific publication record in high-impact journals.

EDUCATION

Dr. Elsayed holds a Ph.D. in Inorganic Chemistry from Sohag University (2013), with a thesis on humic acid interactions and heavy metal adsorption. He earned his M.Sc. in Chemistry from Minia University (2009), focusing on humic acid’s role in metal sorption, and a B.Sc. in Chemistry from Sohag University (2001). His educational journey laid a strong foundation for his focus on environmental chemistry, particularly soil and water pollution control. His academic path underscores his dedication to understanding chemical interactions in agricultural contexts and advancing knowledge in environmental remediation techniques.

PROFESSIONAL EXPERIENCE

Dr. Elsayed’s professional trajectory includes roles from Research Assistant to Chief Researcher. He has contributed significantly to soil and water projects at ARC, managed international collaborations (ICARDA, FAO, Fulbright), and served as a director and focal point in national and regional water resilience initiatives. His teaching roles span soil chemistry, inorganic chemistry, and environmental studies at graduate and undergraduate levels. He also completed a postdoctoral fellowship at South Dakota State University, enhancing his research capabilities in humic substances and clay interactions. His professional journey exemplifies a blend of academic rigor and practical leadership.

RESEARCH INTEREST

Dr. Elsayed’s research focuses on soil chemistry, wastewater reuse, salinity management, and environmental remediation. He investigates the kinetics of adsorption processes involving humic acids and heavy metals on clay minerals, the use of nanomaterials in water treatment, and the application of biochar under stress conditions. His work addresses food security, sustainable agriculture, and climate-resilient practices. He is particularly interested in integrating natural and modified soil amendments to improve crop productivity in saline and arid environments, contributing to the development of adaptive strategies in the face of climate change.

AWARDS AND HONORS

Dr. Elsayed has received several prestigious awards, including the Fulbright Postdoctoral Scholarship (USA), Distinguished Scientist Award (AETDS), and multiple best presentation and merit certificates from international conferences. He was honored by the ACS Division of Environmental Chemistry and has been consistently recognized for his innovative contributions in soil and water sciences. His accolades reflect his impactful research and thought leadership in environmental chemistry and sustainable agriculture, making him a prominent figure in both national and international scientific communities.

RESEARCH SKILLS

Dr. Elsayed excels in experimental design, adsorption kinetics, pollutant modeling, and advanced water treatment techniques. His skill set includes manipulating nano-adsorbents, optimizing soil amendment strategies, and conducting isotherm and thermodynamic studies. He is proficient in using scientific tools for evaluating soil and water properties and has led multidisciplinary teams on applied research projects. His analytical capabilities are complemented by strong data interpretation and scientific communication skills. His ability to bridge theory with application positions him as a key contributor to environmental sustainability solutions.

PUBLICATIONS

Title: Nanoadsorbents for water and wastewater remediation
Authors: MEA El-Sayed
Journal: Science of the Total Environment, 739, 139903 (2020)

Title: Kinetic study for copper adsorption onto soil minerals in the absence and presence of humic acid
Authors: ZR Komy, AM Shaker, SEM Heggy, MEA El-Sayed
Journal: Chemosphere, 99, 117–124 (2014)

Title: Kinetic study for adsorption humic acid on soil minerals
Authors: AM Shaker, ZR Komy, SEM Heggy, MEA El-Sayed
Journal: The Journal of Physical Chemistry A, 116 (45), 10889–10896 (2012)

Title: Pyridine Derivatives as Insecticides. Part 1: Synthesis and Toxicity of Some Pyridine Derivatives Against Cowpea Aphid, Aphis craccivora Koch (Homoptera)
Authors: EA Bakhite, AA Abd-Ella, MEA El-Sayed, SAA Abdel-Raheem
Journal: Journal of Agricultural and Food Chemistry, 62 (41), 9982–9986 (2014)

Title: Design, synthesis, characterization, and insecticidal bioefficacy screening of some new pyridine derivatives
Authors: AMK El-Dean, AA Abd-Ella, R Hassanien, MEA El-Sayed, …
Journal: ACS Omega, 4 (5), 8406–8412 (2019)

 

CONCLUSION

Dr. Mohamed E. A. Elsayed’s academic and research career is marked by innovation, leadership, and a commitment to sustainable environmental practices. His work in soil and water management has led to tangible solutions for agricultural resilience and pollution mitigation. Through research, teaching, and international collaboration, he continues to influence environmental science policies and practices globally. His legacy is defined not only by scholarly achievements but also by a passion for solving real-world environmental challenges through scientific excellence.