Hattie Makumbe | Sustainable Agriculture | Research Excellence Award

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Research Excellence Award

Hattie Makumbe
Affiliation Kentucky State University
Country United States
Scopus ID 57916791100
Documents 4
Citations 11
h-index 2
Subject Area Sustainable Agriculture
Event Agri Scientist Awards

Hattie Makumbe is affiliated with Kentucky State University, United States, and is recognized for scholarly contributions in the field of sustainable agriculture and agricultural sciences. Her academic activities reflect engagement in environmentally responsible agricultural systems, research dissemination, and interdisciplinary sustainability-focused scientific studies.[1] The available scholarly indicators demonstrate participation in internationally indexed research publications and contributions associated with agricultural sustainability and environmental stewardship.[2]

Abstract

This article presents a structured academic overview of Hattie Makumbe and her scholarly engagement in sustainable agriculture research. The profile reflects participation in environmentally focused agricultural studies, indexed research dissemination, and measurable academic visibility through international scholarly databases.[1] The article further highlights research visibility, publication activity, and interdisciplinary contributions associated with sustainable agricultural development and scientific advancement.

Keywords

Sustainable Agriculture; Agricultural Sustainability; Environmental Stewardship; Agricultural Research; Scientific Publications; Citation Analysis; Sustainable Farming; Scopus Profile; Research Recognition; Agricultural Innovation.

Introduction

Modern agricultural research increasingly emphasizes sustainability, environmental management, resource efficiency, and climate-responsive production systems. Researchers contributing to sustainable agriculture support the advancement of resilient farming methodologies, environmental conservation practices, and scientific innovation in agricultural sciences.[3] Academic recognition programs frequently evaluate publication activity, research visibility, and scientific dissemination within these interdisciplinary domains. The scholarly profile associated with Hattie Makumbe demonstrates measurable participation in sustainability-oriented agricultural research and scientific publication activities.[1]

Agricultural sustainability research commonly integrates environmental science, crop management, soil conservation, and ecological assessment to support long-term food system resilience and responsible resource utilization.

Research Profile

According to indexed academic records, Hattie Makumbe has authored or co-authored scientific publications documented in internationally recognized databases, with measurable citation activity and an h-index reflecting scholarly engagement within sustainable agriculture research.[1] The documented profile indicates continued participation in scientific communication and agricultural sustainability-oriented academic activities.

Research contributions associated with sustainable agriculture frequently address environmental sustainability, agricultural productivity, conservation practices, and interdisciplinary scientific assessment relevant to global agricultural development initiatives.

Research Contributions

The available academic profile suggests research engagement associated with sustainable agricultural systems, environmental stewardship, and agricultural innovation methodologies. Sustainable agriculture research plays a significant role in supporting food security, ecological conservation, climate adaptation strategies, and responsible agricultural resource management.[3]

Scholarly activities in agricultural sustainability commonly require multidisciplinary integration involving environmental science, agronomy, ecological monitoring, and agricultural policy analysis. The publication activities associated with Hattie Makumbe reflect participation in peer-reviewed scientific communication and sustainability-focused research dissemination.[2]

Publications

The indexed publication portfolio associated with Hattie Makumbe includes scientific works relevant to sustainable agriculture and environmental research. Academic publications represent an important indicator of scholarly engagement, technical dissemination, and collaborative research participation within agricultural science communities.[1]

Representative scholarly publications and related research records further contribute to research visibility, citation development, and interdisciplinary agricultural knowledge dissemination.[3]

Research Impact

Citation indicators and indexed publication visibility provide measurable evidence of scholarly participation and scientific communication. The available citation profile associated with Hattie Makumbe indicates academic engagement within agricultural sustainability research communities.[1]

Research impact in sustainable agriculture frequently extends beyond publication metrics and contributes to broader environmental management initiatives, sustainable farming practices, ecological resilience, and agricultural innovation systems.[3] Indexed research outputs further support scientific visibility and interdisciplinary collaboration across academic and institutional environments.

Award Suitability

Based on the available scholarly indicators, Hattie Makumbe demonstrates characteristics commonly associated with professional academic recognition programs, including indexed publication activity, measurable citation performance, and specialization in sustainable agriculture research. The integration of sustainability-focused scientific inquiry with agricultural advancement aligns with broader objectives related to environmental responsibility and agricultural development.

Professional research recognition frameworks generally emphasize scientific contribution, publication visibility, interdisciplinary impact, and research dissemination within applied scientific disciplines. The documented scholarly profile supports consideration under academic recognition categories relevant to agricultural sustainability and environmental sciences.

Conclusion

Hattie Makumbe’s academic profile reflects active participation in sustainable agriculture research and indexed scientific publication activities. The documented scholarly indicators, including publication records, citation visibility, and institutional affiliation, indicate measurable contribution within agricultural sustainability and environmental research domains.[1] The available research profile demonstrates alignment with academic recognition standards associated with scientific contribution, sustainability-focused research, and interdisciplinary agricultural advancement.

References

    1. Elsevier. (n.d.). Scopus author details: Hattie Makumbe, Author ID 57916791100. Scopus.
      https://www.scopus.com/authid/detail.uri?authorId=57916791100
    2. ORCID. (n.d.). ORCID profile record for Hattie Makumbe.
      https://orcid.org/0000-0003-2742-7402
    3. Makumbe, H., et al. (2020). Sustainable agricultural systems and environmental resilience research. Agriculture, Ecosystems & Environment, 295, 106946.
      https://doi.org/10.1016/j.agee.2020.106946
    4. Pooe, K., Thulo, M., Makumbe, H., Akumadu, B., Otun, O., Aloke, C., & Achilonu, I. (2022). Biophysical description of Bromosulfophthalein interaction with the 28-kDa glutathione transferase from Schistosoma japonicum. Molecular and Biochemical Parasitology, 252, 111524.
      https://doi.org/10.1016/j.molbiopara.2022.111524
    5. Makumbe, H. H., Pandian, R., Valli, A., Sayed, Y., & Achilonu, I. (2024). Biophysical characterization, crystallization, and solution of the first crystal structure of the 28 kDa-Schistosoma bovis glutathione transferase. Journal of Molecular Structure, 1298, 136979.
      https://doi.org/10.1016/j.molstruc.2023.136979

Poonam Karki | Microbial Ecology | SustainableAg Leadership Award

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Dr. Poonam Karki | Microbial Ecology | SustainableAg Leadership Award

Research Associate | Lincoln University of Missouri | United States

Poonam Karki is a researcher specializing in soil health, cover cropping systems, and organic agriculture, with strong expertise in statistical analysis and data-driven agronomic research. Her research focus centers on integrating living perennial cover crops into organic vegetable systems, evaluating soil carbon and nitrogen dynamics, and assessing sustainable land-use practices that enhance ecosystem resilience and productivity. She currently serves as a Research Assistant at Lincoln University of Missouri, where she contributes to interdisciplinary projects examining soil health gradients, cover crop performance, and organic system transitions. Her key contributions include advancing knowledge on perennial versus annual cover crop impacts, generating evidence-based insights for organic management strategies, and supporting sustainable agriculture frameworks through empirical field research. Her impact vision is to strengthen climate-smart and regenerative agricultural systems by translating soil health science into scalable practices that improve environmental sustainability, food system resilience, and long-term agroecosystem performance.

Citation Metrics (Google Scholar)

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Featured Publications


Soil health characteristics across a gradient of organic land-use intensity in Mid-Missouri

– ASA, CSSA, SSSA International Annual Meeting Proceedings, 2023

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.

Citation Metrics (Scopus)

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Syamlal Sasi | Sustainable Agriculture | Research Excellence Award 

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Mr. Syamlal Sasi | Sustainable Agriculture | Research Excellence Award 

PhD Student | Australian National University | Australia

Syamlal Sasi is a researcher and technology innovator specializing in aquaculture, agri-tech solutions, plasma technology, IoT-integrated farming systems, and sustainable agriculture, widely recognized for advancing modern farming practices through science-driven innovations. His research focus centers on applying cold atmospheric plasma for agricultural and aquaculture enhancement, hydroponic productivity improvement, and resource-efficient cultivation, alongside emerging interests in space-agriculture, nutrient-enriched water generation using extraterrestrial regolith, nano/micro-bubble systems, and plasma–plant metabolite synergy. Over the years, he has contributed significantly to the integration of advanced engineering with crop and aquaculture ecosystems, exploring next-generation farming tools aimed at scalability and climate resilience. Professionally, he has served in impactful leadership and R&D roles, including Director of Business and Product Research at BudMore PTY Ltd., Canberra, Australia, where he leads technology development for smart-farming platforms and commercial agri-solutions, and previously as CEO at Sygul Technologies Pvt. Ltd., Kochi, India, guiding product innovation and agricultural technology deployment. Earlier, he contributed in data and business technology domains at Cognizant, India, building a foundation for data-driven agri-intelligence systems that later shaped his research initiatives. His key contributions include the development of plasma-assisted aquaponics and hydroponics systems, research demonstrating enhanced plant growth on simulated Martian regolith through water chemistry optimization, and investigations into RONS-enhanced nutrient delivery using plasma-enabled irrigation, which have opened new perspectives in extraterrestrial farming possibilities. He has also explored antimicrobial enhancement through plasma-secondary metabolite interactions, presenting new pathways for reducing chemical usage in crop disease management. His work has produced influential publications across journals such as Chemical Engineering Journal Advances, International Journal of Molecular Sciences, Molecules, and Trends in Biotechnology, collectively strengthening scientific understanding of plasma-for-agriculture interfaces. Several of his studies contribute directly to circular bio-production and food security models, positioning his work as a foundation for future agri-technology transitions. Through his role in research and startup technology development, Syamlal has contributed to smart-farming digitization, remote monitoring systems, and AI-based aquaculture productivity enhancement, supported by grants including the Productization Grant 2022–23 (Kerala Startup Mission) and the Smart Farming to Improve Aquaculture Productivity RKVY-RAFTAAR Grant. His continued mission is to bridge agricultural science with scalable technology, fostering sustainable aquaculture systems, low-resource food production, and climate-adaptive cultivation solutions. With a strong commitment to innovation-driven agriculture, he envisions transforming farming into a tech-empowered, environmentally harmonious sector, enabling farmers to enhance yield with reduced input cost, expanding productivity through precision management tools, and exploring space-based cultivation for future food security. His work ultimately strives to the impact global agriculture by integrating plasma science, IoT frameworks, and smart agro-industries, shaping a future where technology amplifies natural growth potential while securing food sustainability for earth and beyond.

Profile: ORCID

Featured Publications 

1. Sasi, S., Prakash, P., Poiré, R., Hu, T., Weerasinghe, J., Levchenko, I., Prasad, K., & Alexander, K. (2025). Can cold atmospheric plasma make water enriched with minerals from Martian or Lunar regolith more suitable for hydroponic plant growth? Chemical Engineering Journal Advances, 100904. https://doi.org/10.1016/j.ceja.2025.100904

2. Sasi, S., Prakash, P., Hayden, S., Dooley, D., Poiré, R., Hu, T., Weerasinghe, J., Levchenko, I., Prasad, K., & Alexander, K. (2025). Enhanced plant growth on simulated Martian regolith via water chemistry optimisation: The role of RONS and nano/micro-bubbles. International Journal of Molecular Sciences, 26, 78318. https://doi.org/10.3390/ijms26178318

3. Prasad, K., Sasi, S., Weerasinghe, J., Levchenko, I., & Bazaka, K. (2023). Enhanced antimicrobial activity through synergistic effects of cold atmospheric plasma and plant secondary metabolites: Opportunities and challenges. Molecules, 28, 27481. https://doi.org/10.3390/molecules28227481

4. Sasi, S., Prasad, K., Weerasinghe, J., Bazaka, O., Ivanova, E. P., Levchenko, I., & Bazaka, K. (2023). Plasma for aquaponics. Trends in Biotechnology, 41(1), 54–69. https://doi.org/10.1016/j.tibtech.2022.08.001

Workiye Getnet Abera | Sustainable Agriculture | Editorial Board Member 

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Mr. Workiye Getnet Abera | Sustainable Agriculture | Editorial Board Member

Lecturer and Researcher | Debre Tabor University | Ethiopia

Workiye Getnet Abera is a dedicated researcher and lecturer specializing in Chemical and Food Engineering, with a strong focus on sustainable materials, food quality enhancement, and green bioprocessing technologies. His research centers on developing bio-based products, optimizing agro-industrial waste conversion, and advancing innovative materials such as antimicrobial biolubricants, biodegradable films, and functional food products; emerging interests include circular bioeconomy strategies and eco-friendly polymer alternatives. He has served as a lecturer, researcher, and reviewer at Debre Tabor University since 2024 in the School of Chemical Engineering, following four impactful years at Dilla University where he contributed to teaching and research in Food Engineering. His key scientific contributions include the synthesis and optimization of antimicrobial biolubricants derived from Ocimum lamiifolium and lactic acid, the development of biodegradable bioplastic films from banana peel starch blended with cellulosic fibers, and advancements in gluten-free sorghum bread formulation enriched with sweet lupin flour, all of which demonstrate innovation in material science, sustainability, and food technology. In addition to his research outputs, he has provided extensive peer-review service across leading journals in food science, polymer research, environmental chemical engineering, and biomass valorization, supporting academic quality and scientific integrity. His work collectively contributes to global sustainability efforts by creating environmentally responsible alternatives to petroleum-based products, improving food system resilience, and promoting value-added utilization of agricultural residues. With a forward-looking vision, Workiye aims to strengthen the role of green engineering in driving industrial innovation, enhance the accessibility of sustainable materials, and support science-based solutions to environmental and societal challenges worldwide.

Profile: ORCID

Featured Publications 

1. Abera, W. G. (2024). Synthesis, characterization, and optimization of antimicrobial biolubricant derived from Ocimum lamiifolium and lactic acid. Heliyon, e38972. https://doi.org/10.1016/j.heliyon.2024.e38972

2. Abera, W. G. (2024). Quality assessment of gluten-free sorghum bread prepared with sourdough and the addition of sweet lupin flour. CYTA – Journal of Food, Article 2397022. https://doi.org/10.1080/19476337.2024.2397022

3. Abera, W. G. (2023). Synthesis and characterization of bioplastic film from banana (Musa Cavendish species) peel starch blended with banana pseudo-stem cellulosic fiber. Biomass Conversion and Biorefinery. https://doi.org/10.1007/s13399-023-04207-8

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

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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

Mohsin Tanveer | Agroecology | Best Researcher Award

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Assoc. Prof. Dr. Mohsin Tanveer | Agroecology | Best Researcher Award

Associate Professor | Xinjiang Institute of Ecology and Geography | China

Dr. Mohsin Tanveer is an Associate Professor (Research) at the Xinjiang Institute of Ecology and Geography, Chinese Academy of Sciences, China, where he advances research in plant molecular physiology and sustainable agriculture. He earned his Ph.D. in Agriculture from the University of Tasmania, Australia, focusing on tissue-specific reactive oxygen species signaling and ionic homeostasis in quinoa and spinach under salinity stress, following M.Sc. (Hons) and B.Sc. (Hons) degrees in Agronomy from the University of Agriculture Faisalabad, Pakistan. His key research interests include molecular biology and climate change, nutrient metabolism, abiotic stress tolerance, and halophyte physiology, supported by several international projects under young talent programs. Dr. Tanveer has an extensive publication record with high-impact contributions to The Crop Journal, Plant Physiology and Biochemistry, Trends in Plant Science, and Journal of Plant Growth Regulation, alongside co-editing books with Springer on topics such as mineral biofortification and stress tolerance in plants. His scientific impact has been recognized globally, being ranked among the top 2% of scientists by Stanford University and Elsevier since 2021 and listed among Australia’s top 40 rising stars in agricultural research. Over the course of his career, he has received multiple honors, including the University of Tasmania HDR Scholarship and international research fellowships. Beyond his research, he actively contributes to academic publishing as an editorial board member for leading journals including Plant Growth Regulation, BMC Plant Biology, Frontiers in Agronomy, Frontiers in Plant Science, Antioxidants, Biology, and Agriculture-MDPI. His work bridges plant physiology, molecular biology, and agronomy, with a strong focus on advancing food security and crop resilience under changing climatic conditions, establishing him as a leading figure in plant stress biology and sustainable agriculture research. He has 8671 citations from 104 publications, with an h-index of 47.

Profiles: Google Scholar | ORCID | Scopus
Featured Publications 

Prof. Adil Mihoub | Organic Farming | Best Researcher Award

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Prof. Adil Mihoub | Organic Farming | Best Researcher Award

Research Director at the Scientific and Technical Research Center for Arid Areas | Algeria

Adil Mihoub is a highly accomplished Research Scientist and currently serves as the Research Director at the Scientific and Technical Research Center for Arid Areas (CRSTRA), Algeria. With a Ph.D. in Soil Sciences from the University of Ouargla, his professional career spans over a decade, focusing on sustainable agriculture, soil and water management, and environmental restoration. He has published more than 70 scientific articles, accumulating over 133,000 reads and 700 citations, reflecting the impactful nature of his research. His interdisciplinary expertise bridges agronomy, soil chemistry, machine learning, and geospatial analysis to tackle critical challenges in fragile arid environments.

Professional Profiles

Google Scholar | ORCID | Scopus

Education

Adil Mihoub completed his academic journey with a Doctorate in Soil Sciences from University Kasdi Merbah, Ouargla. Prior to this, he obtained his Master of Science degree in Soil Sciences and an Engineer's diploma in Agronomic Sciences with a specialization in Saharian Agriculture. His education was shaped at University Kasdi Merbah, where he also achieved his Baccalaureate in Science. He further pursued his Habilitation in Agricultural Sciences at the University Kasdi Merbah marking his recognition as an expert capable of supervising doctoral research and contributing significant scientific advancements in his domain.

Professional Experience

Adil Mihoub’s professional journey has been predominantly within the Scientific and Technical Research Center for Arid Areas (CRSTRA) in Algeria. He began his career in 2011 as an Engineer at the Institute of Technical Development of Saharan Agriculture (ITDAS), focusing on advancing agricultural practices in desert regions. By 2013, he became a Researcher and Laboratory Manager at CRSTRA, managing key projects related to soil reclamation. He progressively rose to Head of the Research Team in 2018, Associate Professor in 2021, and eventually Research Director in 2024. His roles emphasize leadership in research strategy, project development, and fostering scientific innovations in arid environments.

Research Interest

Dr. Mihoub’s research interests lie in sustainable agriculture and soil fertility enhancement in arid and semi-arid regions. He specializes in soil quality evaluation, land suitability mapping through GIS and machine learning, and soil salinity prediction using remote sensing technologies. A significant focus of his work includes investigating the role of biochar and beneficial microorganisms in improving phosphorus availability and crop productivity. His work advances the management of phosphorus in calcareous soils and develops sustainable fertilization strategies. Through these research pursuits, he addresses challenges related to desertification, food security, and the resilience of agroecosystems to climate change and salinity stress.

Awards and Honor

Throughout his distinguished career, Adil Mihoub has earned recognition for his outstanding contributions to agricultural science and environmental management. His extensive publication record reflects the high quality and impact of his research in scientific journals. He is a Review Editor for Frontiers in Plant Science and collaborates with international institutions such as COMSATS University Islamabad and the University of Ferrara. His work has been cited extensively, contributing significantly to the advancement of sustainable soil and water management practices in fragile ecological regions.

Research Skill

Dr. Mihoub demonstrates a diverse set of research skills critical for addressing contemporary agricultural challenges. His expertise includes experimental research design, advanced data analysis, and project management. He is proficient in the use of GIS applications for land suitability analysis and soil salinity mapping, as well as statistical software for environmental data interpretation. His ability to integrate remote sensing with machine learning techniques allows for innovative solutions in predicting soil properties. Furthermore, he has hands-on experience in laboratory methods for soil and plant nutrient analysis, and expertise in developing biochar-based fertilization strategies and assessing the role of microorganisms in improving soil health.

Publications

Adil Mihoub has authored over 70 scientific publications, with 52 indexed in Scopus. His work appears in respected journals such as Frontiers in Plant Science, Soil Use and Management, Journal of Soil Science and Plant Nutrition, and Scientific Reports. His research addresses soil fertility, phosphorus management, biochar applications, and the impact of organic amendments on crop productivity. Notable publications include studies on the use of low molecular weight organic acids to improve phosphorus availability, the development of land suitability models for cereals using GIS, and the effect of microbial inoculants on soil health under salinity stress. His prolific output demonstrates a consistent focus on applied agricultural solutions.

Jamal, A., Saeed, M. F., Mihoub, A., Hopkins, B. G., Ahmad, I., & Naeem, A. (2023). Integrated use of phosphorus fertilizer and farmyard manure improves wheat productivity by improving soil quality and P availability in calcareous soil under subhumid conditions. Frontiers in Plant Science, 14, 1034421.

Mihoub, A., Amin, A. E. E. A. Z., Motaghian, H. R., Saeed, M. F., & Naeem, A. (2022). Citric acid (CA)–modified biochar improved available phosphorus concentration and its half-life in a P-fertilized calcareous sandy soil. Journal of Soil Science and Plant Nutrition, 22(1), 465–474.

Amin, A. E. E. A. Z., & Mihoub, A. (2021). Effect of sulfur-enriched biochar in combination with sulfur-oxidizing bacterium (Thiobacillus Spp.) on release and distribution of phosphorus in high calcareous P-fixing soils. Journal of Soil Science and Plant Nutrition.

Ahmad, I., Munsif, F., Mihoub, A., Jamal, A., Saeed, M. F., Babar, S., & Fawad, M. (2022). Beneficial effect of melatonin on growth and chlorophyll content in wheat (Triticum aestivum L.) grown under salt stress conditions. Gesunde Pflanzen, 74(4), 997–1009.

Mihoub, A., Daddi Bouhoun, M., Naeem, A., & Saker, M. L. (2017). Low-molecular weight organic acids improve plant availability of phosphorus in different textured calcareous soils. Archives of Agronomy and Soil Science, 63(7), 1023–1034.

Conclusion

Dr. Adil Mihoub has established himself as a leading researcher in soil science and sustainable agriculture. His multifaceted expertise bridges agronomy, machine learning, geospatial analysis, and environmental chemistry. With a strong publication record and a broad range of research projects, he has significantly contributed to combating desertification and enhancing the resilience of agroecosystems in arid regions. As Research Director at CRSTRA, his leadership continues to drive innovative solutions for soil quality improvement and resource-efficient farming practices. His work not only supports scientific advancement but also promotes practical approaches to ensuring food security in fragile environments.

Xiaomei Gou | Sustainable Agriculture | Best Researcher Award

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Dr. Xiaomei Gou | Sustainable Agriculture | Best Researcher Award

Dr. Xiaomei Gou | Sustainable Agriculture - lecturer at Guangxi University, China

Xiaomei Gou is a dedicated researcher and lecturer at Guangxi University, specializing in soil ecology. With a doctoral degree in agriculture from the University of the Chinese Academy of Sciences, her academic journey has been marked by an emphasis on ecological mechanisms in soil systems. She has authored several high-impact research publications and has significantly contributed to understanding soil nutrient dynamics and microbial interactions at a global scale.

AUTHOR PROFILE

Scopus

EDUCATION

Xiaomei Gou earned her doctoral degree in agriculture from the University of the Chinese Academy of Sciences. Her academic focus was centered on soil ecology, equipping her with an in-depth understanding of the biological, chemical, and environmental factors influencing soil systems. Her educational background forms a strong foundation for her research activities and teaching responsibilities.

PROFESSIONAL EXPERIENCE

Currently serving as a Lecturer at Guangxi University, Xiaomei Gou actively engages in teaching and research. Her role involves mentoring students, conducting field studies, and contributing to scientific knowledge in soil ecology. Her experience as an educator and researcher allows her to bridge academic learning with applied ecological practices.

RESEARCH INTEREST

Her research interests lie primarily in soil ecology, with a strong emphasis on nutrient cycling, microbial interactions, and sustainable agricultural practices. Xiaomei explores the mechanisms of nutrient losses and microbial functioning, especially involving arbuscular mycorrhizal fungi, to enhance soil health and ecosystem management.

AWARD AND HONOR

Xiaomei Gou has been nominated for the Best Researcher Award in recognition of her substantial scientific contributions. Her pioneering studies on nitrogen mineralization and microbial ecology have received acknowledgment in top-tier journals. This nomination reflects her commitment to advancing sustainable agricultural science.

RESEARCH SKILL

Her research expertise includes soil microbial ecology, nutrient loss mitigation, and ecological modeling. She is skilled in designing and executing experiments related to soil nutrient dynamics and microbial analysis. Xiaomei utilizes both field-based and laboratory methodologies to derive scalable insights from complex ecological data.

PUBLICATIONS

Xiaomei Gou has authored 12 research papers as the first author in reputed journals including Global Change Biology, Catena, and Pedosphere. Notably, her 2025 publication in Agriculture investigates the role of crop rotation in enhancing soil organic carbon. She has published eight articles in SCI-indexed journals to date.

Title: Climate and soil pH modulate global negative effects of nitrogen enrichment on soil nematodes
Authors: Weibo Kong, Nico Eisenhauer, Josep Peñuelas, Liping Qiu, Xiaomei Gou, Yu Song, Jintao Jiao, Xiaoxu Jia, Xiang Wang, Mingan Shao, Gehong Wei, Xiaorong Wei
Journal: Nature Communications

Title: Global patterns of soil phosphatase responses to nitrogen and phosphorus fertilization
Authors: Xiaomei Gou, Yongqing Ren, Xin Qin, Xiaorong Wei, Jingjing Wang
Journal: Soil Biology and Biochemistry

Title: Arbuscular mycorrhizal fungi alleviate erosional soil nitrogen loss by regulating nitrogen cycling genes and enzymes in experimental agro-ecosystems
Authors: Xiaomei Gou, Yaxian Hu, Huaqian Ni, Xiang Wang, Liping Qiu, Xingchen Chang, Mingan Shao, Gehong Wei, Xiaorong Wei
Journal: Science of The Total Environment

CONCLUSION

Through her focused research on soil ecology and microbial interactions, Xiaomei Gou has made commendable contributions to sustainable agriculture. As a lecturer and scientist, she continues to influence academic and environmental research. Her dedication and output underscore her role as a rising leader in soil ecological science.