Heny Herawati | Agricultural and Biological Sciences | Best Researcher Award

Published on 18/05/202619/05/2026 by Top Teachers

Best Researcher Award

Heny Herawati
National Research and Innovation Agency, Indonesia

Heny Herawati
Affiliation	National Research and Innovation Agency
Country	Indonesia
Scopus ID	37060931100
Documents	58
Citations	249
h-index	8
Subject Area	Agricultural and Biological Sciences
Event	Top Teachers Awards
Google Scholar	olQdHUYAAAAJ

Heny Herawati is an Indonesian researcher affiliated with the National Research and Innovation Agency (BRIN), specializing in post-harvest technology, agroindustry, food science, hydrocolloid applications, and gluten-free food innovation. Her scholarly work has focused on sustainable food systems, agricultural residue utilization, hydrocolloid development, and food processing technologies relevant to modern agro-industrial applications.[1] Her research portfolio includes international journal publications, funded research projects, and intellectual property registrations related to food technology and agricultural engineering.[2]

Contents

Abstract
Keywords
Introduction
Research Profile
Research Contributions
Publications
Research Impact
Award Suitability
Conclusion
External Links
References

Abstract

This article presents an academic overview of the research profile, scientific contributions, publications, funded projects, and intellectual property achievements of Heny Herawati. Her work primarily addresses food technology innovation, post-harvest processing, hydrocolloid applications, gluten-free product development, and sustainable agro-industrial engineering. The profile also highlights her involvement in interdisciplinary collaborations, applied food science, and agricultural technology advancement within Indonesia and international scholarly communities.[3]

Keywords

Food Science, Hydrocolloids, Agroindustry, Post-Harvest Technology, Gluten-Free Bread, Agricultural Residues, Food Engineering, Functional Foods, Precision Food Technology, Sustainable Agriculture

Introduction

The advancement of agricultural and food sciences has increasingly emphasized sustainable processing technologies, alternative food ingredients, and precision-based manufacturing systems. Researchers in these fields contribute to improving food quality, preservation, nutritional functionality, and industrial efficiency. Within this context, Heny Herawati has developed a research portfolio focusing on hydrocolloids, gluten-free food systems, agro-industrial technologies, and biomass utilization.[4]

Her educational background includes undergraduate studies in Agricultural Technology at IPB University, graduate education in Chemical Engineering at Diponegoro University, and doctoral specialization in Food Science at IPB University. These interdisciplinary academic foundations support her contributions to food engineering, agricultural processing technologies, and sustainable product innovation.[5]

Research Profile

Heny Herawati currently serves as a researcher at the Process Technology Research Center under the National Research and Innovation Agency (BRIN), Indonesia. Her expertise areas include post-harvest technology, agroindustry, hydrocolloid engineering, functional food development, and gluten-free product innovation.[6]

Institution: Process Technology Research Center, National Research and Innovation Agency
Research Position: Researcher
Primary Expertise: Post Harvest Technology and Agroindustry
Office Location: KST Habibie, Serpong, South Tangerang, Banten Province, Indonesia
Research Interests: Hydrocolloids, gluten-free foods, food preservation, agro-processing systems, and sustainable food manufacturing

Her funded projects include collaborations with national agencies, universities, and industrial partners. These projects have addressed hydrocolloid production, food preservation technologies, shallot storage systems, glucomannan optimization, and gluten-free commercial food applications.[7]

Research Contributions

The research contributions of Heny Herawati include innovations in food hydrocolloids, agricultural residue processing, gluten-free product engineering, and food preservation technologies. Her investigations have contributed to understanding rheological characteristics of gluten-free bread systems, hydrocolloid applications, and natural emulsifier development.[8]

Development of hydrocolloid technologies for gluten-free bread manufacturing.
Research on glucomannan extraction and functional food applications.
Innovation in agricultural residue utilization for cellulose and carboxymethyl cellulose production.
Design of food preservation technologies for mangoes and shallots intended for export supply chains.
Research on 3D printer-based precision food manufacturing systems for gluten-free products.
Contribution to sustainable food engineering and biomass-based processing technologies.

Her intellectual property portfolio demonstrates extensive applied innovation activity, including patents related to gluten-free noodles, hydrocolloid extraction, porang drying technologies, nanoemulsion preservatives, modified cellulose production, and precision food manufacturing systems.[9]

Publications

Heny Herawati has contributed to multiple international journal publications focusing on food chemistry, hydrocolloids, food processing systems, and gluten-free food technology.[10]

“Characteristics of GABA (Gamma Amino Butyric Acid), antioxidant and sensory quality of modified Tempeh.” International Journal of Food Properties, 2023.
“Application of Hydrocolloids For Gluten-Free Breads And Impact On Their Rheological Properties: Bibliometric Study.” Journal of Southwest Jiaotong University, 2023.
“Applications of Hydrocolloids and Its Effects on Physicochemical Characteristics of Gluten-Free Bread from Corn and Rice Flour.” Sains Malaysiana, 2024.
“The Potency of Maillard Conjugates Containing Whey Protein as Natural Emulsifier.” International Journal of Food Science, 2024. DOI: https://doi.org/10.1155/2024/3254132
“Facile Synthesis of Carboxymethyl Cellulose (CMC) from Agricultural Residues.” Cellulose Chemistry and Technology, 2024.

Research Impact

The research activities of Heny Herawati have contributed to scientific advancement in sustainable food systems, precision food engineering, and agro-industrial innovation. Her work demonstrates relevance to current global interests in gluten-free foods, food security, renewable biomaterials, and agricultural sustainability.[11]

Her patent registrations further indicate the translational and industrial relevance of her scientific investigations. Several patented technologies focus on food preservation systems, gluten-free product development, hydrocolloid extraction, biomass processing, and precision manufacturing technologies for functional foods.[12]

Through collaborations with governmental institutions, universities, and private-sector partners, her projects demonstrate interdisciplinary integration between food science, engineering, agriculture, and industrial technology development.[13]

Award Suitability

The academic profile of Heny Herawati reflects sustained engagement in scientific research, technological innovation, interdisciplinary collaboration, and applied industrial research. Her combination of scholarly publications, funded projects, and registered patents demonstrates a balanced contribution to both theoretical and practical aspects of agricultural and food sciences.[14]

Her work aligns with the objectives of international academic recognition programs that acknowledge contributions to innovation, sustainability, scientific advancement, and educational impact within agricultural and biological sciences.[15]

Conclusion

Heny Herawati has established an academic and research profile centered on food science innovation, agroindustry, hydrocolloid applications, and sustainable agricultural technologies. Her contributions encompass peer-reviewed publications, funded collaborative projects, and intellectual property development associated with food engineering and post-harvest technologies. These achievements illustrate her active role within contemporary agricultural and biological sciences research.[16]

External Links

References

Elsevier. (n.d.). Scopus author details: Heny Herawati, Author ID 37060931100. Scopus. https://www.scopus.com/authid/detail.uri?authorId=37060931100
Google Scholar. (n.d.). Heny Herawati citation profile. https://scholar.google.com/citations?user=olQdHUYAAAAJ&hl=en&oi=sra
International Journal of Food Properties. (2023). Characteristics of GABA, antioxidant and sensory quality of modified Tempeh.
Journal of Southwest Jiaotong University. (2023). Application of Hydrocolloids for Gluten-Free Breads and Impact on Their Rheological Properties.
IPB University and Diponegoro University. (n.d.). Academic qualifications and formal education records.
National Research and Innovation Agency. (n.d.). Researcher profile and institutional affiliation.
LPDP and National Research and Innovation Agency. (2023–2025). Funded research projects on hydrocolloids, food preservation, and agroindustry.
Sains Malaysiana. (2024). Applications of Hydrocolloids and Its Effects on Physicochemical Characteristics of Gluten-Free Bread.
Directorate General of Intellectual Property. (2023–2025). Registered patents related to hydrocolloids, gluten-free products, and agricultural processing technologies.
Cellulose Chemistry and Technology. (2024). Facile Synthesis of Carboxymethyl Cellulose from Agricultural Residues.
International Journal of Food Science. (2024). The Potency of Maillard Conjugates Containing Whey Protein as Natural Emulsifier. https://doi.org/10.1155/2024/3254132
Indonesian Patent Registry. (2025). Registered patents involving gluten-free noodles, food preservation, and biomass-based processing systems.
National Research Collaborations. (2024). Interdisciplinary research partnerships in agroindustry and food engineering.
Top Teachers Awards. (n.d.). Recognition criteria for scientific and academic achievement. https://topteachers.net/
Agricultural and Biological Sciences Citation Records. (n.d.). Publication and citation impact data.
Research Portfolio Documentation. (2025). Summary of scholarly activities, patents, and international publications.

Junpeng Niu | Agricultural and Biological Sciences | Innovative Research Award

Published on 12/05/202619/05/2026 by Top Teachers

Innovative Research Award

Junpeng Niu
Assistant Researcher, Shaanxi Normal University, China

Junpeng Niu
Affiliation	Shaanxi Normal University
Country	China
Scopus ID	57209850145
Documents	47
Citations	823 Citations by 735 documents
h-index	16
Subject Area	Agricultural and Biological Sciences
Event	Top Teachers Awards
ORCID	0009-0009-0055-4015

Junpeng Niu is an Assistant Researcher at Shaanxi Normal University, China, whose scholarly activities are centered on postharvest biotechnology, plant stress physiology, and seed dormancy mechanisms in horticultural crops. His academic training includes doctoral studies at Northwest A&F University and a two-year joint research training program at INRAE in France. Junpeng Niu has contributed substantially to the understanding of fruit preservation physiology and stress tolerance in plants through experimental and molecular investigations. His research profile demonstrates sustained productivity through publications in SCI-indexed journals and participation in multiple competitive research projects supported by regional and national scientific funding programs.[1]

Contents

Abstract
Keywords
Introduction
Research Profile
Research Contributions
Publications
Research Impact
Award Suitability
Conclusion
External Links
References

Abstract

The academic work of Junpeng Niu is primarily focused on agricultural and biological sciences, with particular emphasis on postharvest fruit preservation biotechnology, plant stress responses, and seed dormancy regulation. His studies have explored molecular and physiological mechanisms associated with fruit quality maintenance, cold injury prevention, oxidative stress regulation, and germination control in horticultural species. Through collaborative experimental methodologies and molecular analyses, Junpeng Niu has contributed to the advancement of sustainable agricultural preservation technologies and stress adaptation strategies. His publication record, citation impact, and participation in funded scientific projects collectively indicate an active and emerging research trajectory within plant science and postharvest biology.[2]

Keywords

Postharvest biotechnology
Plant stress physiology
Seed dormancy
Fruit preservation
Horticultural crops
Oxidative stress regulation
Cold storage physiology
Agricultural biotechnology

Introduction

Research in postharvest biology has become increasingly significant due to the growing demand for sustainable food preservation systems and improved crop storage efficiency. The scientific contributions of Junpeng Niu address important physiological and molecular processes associated with fruit quality retention, ripening regulation, and stress adaptation in horticultural crops. His work integrates biotechnology, molecular genetics, and plant physiology to investigate mechanisms that influence storage life and resistance to environmental stressors.[3]

Junpeng Niu’s research background also reflects interdisciplinary training and international academic exposure through collaborative work with INRAE in France. His investigations have focused on pears, kiwifruit, apples, and alfalfa, contributing to broader agricultural objectives involving food security, crop resilience, and postharvest sustainability. These scientific endeavors align closely with emerging priorities in agricultural biotechnology and horticultural science.[4]

Research Profile

Junpeng Niu obtained his doctoral degree from Northwest A&F University and subsequently completed a joint research training period at INRAE, France, where he expanded his expertise in plant physiological regulation and postharvest biology. He currently serves as an Assistant Researcher at Shaanxi Normal University, China, where his investigations continue to focus on preservation biotechnology and molecular regulation in horticultural systems.[5]

His academic record includes participation in six funded research projects supported by postdoctoral science foundations, industrial innovation initiatives, provincial funding programs, and university basic research grants. These projects collectively demonstrate sustained engagement with scientific innovation and applied agricultural research.[6]

China Postdoctoral Science Foundation General Funding Project
Qinchuangyuan Industrial Innovation Cluster Integration Project
Shaanxi Province Postdoctoral Research Funding Project
Horizontal Research Project
Two Chains Integration Key Special Project
Special Fund Project for Basic Research Expenses of Central Universities

Research Contributions

One of Junpeng Niu’s significant scientific contributions involves elucidating the preservation effects of CLE peptides on kiwifruit quality during postharvest storage. His studies demonstrated their inhibitory effects on postharvest diseases and their influence on fruit preservation processes.[7]

He also clarified the mechanism by which 6-methyl-5-hepten-2-one regulates superficial scald in pear through programmed cell death pathways. In related work, he identified the functional role of PbrDHAR5 in regulating the ascorbic acid redox state during the scald process, thereby contributing to understanding oxidative stress physiology in stored fruits.[8]

Additional investigations conducted by Junpeng Niu revealed the regulatory mechanism of PbrIDD2-PbrAPX14 in ethylene-induced pear ripening and senescence. He further elucidated the roles of MdPPO1 and MdLAC9 in superficial scald processes and identified the interaction of MdWRKY40 with MdPGIP and MdPOD1 in the regulation of cold damage responses in apples.[9]

Investigation of fruit postharvest disease suppression mechanisms
Regulation of oxidative stress and redox balance in pears
Molecular analysis of fruit ripening and senescence pathways
Research on alfalfa stress tolerance and adaptation mechanisms
Studies on seed dormancy and germination regulation

Publications

Junpeng Niu has published approximately 50 papers in SCI-indexed academic journals as the first or corresponding author. His publications address topics associated with fruit physiology, plant molecular biology, and postharvest storage biotechnology. Selected publication themes include pear superficial scald regulation, kiwifruit disease suppression, ethylene-mediated senescence, and cold injury signaling pathways.[10]

Studies on CLE peptides and postharvest preservation in kiwifruit
Research on programmed cell death in pear superficial scald regulation
Investigations into ethylene-induced fruit ripening pathways
Cold injury molecular regulation in apple storage systems
Research on plant stress physiology and tolerance mechanisms

Representative DOI-linked publications and associated scientific outputs contribute to the visibility of his work within agricultural and biological sciences.[11]

Research Impact

The research impact of Junpeng Niu is reflected through his citation metrics, publication productivity, and research engagement across international scientific platforms. His Scopus profile reports more than 823 citations across 735 citing documents and an h-index of 16, while ResearchGate metrics indicate substantial scholarly interaction and visibility within the scientific community.[12]

The practical relevance of his work extends to agricultural preservation technologies and crop stress management strategies. His investigations contribute to improving storage efficiency, minimizing postharvest losses, and advancing molecular understanding of physiological stress responses in economically important horticultural crops.[13]

Award Suitability

Junpeng Niu demonstrates qualifications consistent with the objectives of the Innovative Research Award through his sustained scientific productivity, interdisciplinary research contributions, and measurable scholarly impact. His work combines molecular biology, physiology, and biotechnology to address practical challenges in postharvest preservation and crop stress tolerance.[14]

The integration of applied agricultural research with mechanistic molecular investigations highlights the innovative dimension of his scientific activities. His involvement in multiple funded projects and consistent publication record further support recognition within the category of innovative agricultural and biological research.[15]

Conclusion

The scholarly profile of Junpeng Niu reflects an active contribution to contemporary agricultural and biological sciences through research in postharvest biotechnology, plant physiology, and seed biology. His work has advanced understanding of fruit preservation mechanisms and physiological stress regulation while supporting broader objectives in sustainable agriculture and food preservation science. Through scientific publications, funded projects, and measurable citation impact, Junpeng Niu has established a research trajectory aligned with innovation-oriented academic recognition programs and international standards of scientific productivity.[16]

External Links

References

Libin Wang, Junpeng Niu, Xiaoyu Tan, Shaoling Zhang. PbrIDD2‐PbrAPX14 Module Functions in the Ethylene‐Mediated Ripening and Senescence Process of Pear Fruit. Plant, Cell & Environment. https://doi.org/10.1111/pbi.70664
Zhang Xu, Junpeng Niu, Yanmin Du, Shaoling Zhang. The Mechanism of Dynamic Equilibrium of Ascorbate Redox Status Mediated by PbrDHAR5 During Scald Development in Pear Fruit. Postharvest Biology and Technology
https://link.springer.com/article/10.1186/s43897-025-00203-w
Junpeng Niu, Huizhen Bao, Sibo Jiao, Guodong Wang.Effects of γ-Aminobutyric Acid and Melatonin on Quality, Physiological-Biochemical Characteristics, Cell Ultrastructure and Sugar Metabolism of Kiwifruit During Postharvest Shelf Life. Food Chemistry. https://www.sciencedirect.com/science/article/abs/pii/S0308814625041755
Ziyao Hu, Junpeng Niu, Langrang Zhang, Guodong Wang. Engineered CLE Peptides Promote De Novo Shoot Regeneration in Arabidopsis. Nature Plants. https://link.springer.com/article/10.1007/s11427-025-3091-2
Junpeng Niu, Sibo Jiao, Huizhen Bao, Guodong Wang. The CLE45 Peptide Maintains Quality, Delays Senescence, and Extends Shelf Life Through Regulating Fruit Energy Metabolism in Kiwifruit. Postharvest Biology and Technology. https://www.sciencedirect.com/science/article/abs/pii/S0925521425006180

Tozhan Zhomartkyzy | Agricultural Science and Innovation | Research Excellence Award

Published on 09/04/202609/04/2026 by Top Teachers

Ms. Tozhan Zhomartkyzy | Agricultural Science and Innovation | Research Excellence Award

Kazakh Research Institute of Food Processing and Food Industry | Kazakhstan

Ms. Togzhan Zhomartkyzy is an emerging researcher in food science and processing technology, specializing in innovative approaches to food safety and sustainable production systems. Her research focuses on developing advanced preservation techniques, functional food products, and value-added processing methods, particularly in dairy, poultry, and plant-based resources. She has contributed to multidisciplinary projects involving bio-preservation, triticale-based product development, and nutraceutical extraction from natural sources. Her current doctoral work explores functional tonic beverages, integrating scientific innovation with industrial applicability. With a strong foundation in both research and academic practice, she is steadily building a promising profile in modern food engineering and technology.

ORCID

Featured Publications

Development of Technology for Obtaining Extracts from Powdered Herbs and Their Use in Culinary Products and Dishes
– Molecules, 2026

The influence of food coatings on the preservation of the quality of chilled poultry meat during storage
– The Journal of Almaty Technological University, 2025

Dipali Ingavale | Agricultural Science and Innovation | Research Excellence Award

Published on 09/04/202609/04/2026 by Top Teachers

Ms. Dipali Ingavale | Agricultural Science and Innovation | Research Excellence Award

Shivaji University | India

Ms. Dipali Ingavale is an emerging researcher in agrochemicals and nanotechnology, specializing in nano-enabled solutions for sustainable agriculture. Her work focuses on the synthesis and characterization of nanofertilizers, including zinc oxide and manganese ferrite nanoparticles, to enhance nutrient delivery, plant growth, and soil health. She has contributed to advancing micronutrient efficiency and eco-friendly farming through innovative nano-formulations and experimental research. With a Scopus profile of Ms. Dipali Ingavale reflecting 4 citations, 2 documents, and an h-index of 1, she demonstrates growing academic impact. Her research aligns with modern agricultural challenges, promoting productivity, sustainability, and technological integration.

Citation Metrics (Scopus)

Citations
4

h-index

Documents
2

Citations

h-index

Documents

Scopus Google Scholar

Featured Publications

Field application of Ca-doped ZnO nanoparticles to maize and wheat plants
– Plant Physiology and Biochemistry, 2024

Zn- and Cu-Doped MnFe2O4 Nanofertilizer: Synthesis, Characterization, and Their Role in Enhancing Fenugreek (Trigonella foenum-graecum) Growth
– Nanomaterials, 2026

Zinc oxide nanoparticles for enhanced seed germination and growth performance in maize
– Journal of Tropical Agriculture, 2025

Mehmet Akif ÇAM | Agricultural Sciences | Best Researcher Award

Published on 18/11/2025 by Top Teachers

Prof. Dr. Mehmet Akif ÇAM | Agricultural Sciences | Best Researcher Award

Ondokuz Mayis University | Turkey

Prof. Dr. Mehmet Akif ÇAM is a distinguished scholar in Agricultural Sciences whose extensive research in animal husbandry, reproductive physiology, small ruminant management, and livestock welfare has significantly advanced scientific understanding and practical applications in the field. With a strong academic foundation culminating in a Ph.D. in Animal Science, he has developed a prolific research career focusing on sheep production systems, reproductive performance modulation through hormonal treatments, morphometric-based body weight prediction, carcass yield improvement, and environmental impacts on animal welfare. His body of work, comprising 23 Scopus-indexed publications, over 1,500 citations, and an h-index spanning 11 (Scopus) to 15 (Google Scholar), demonstrates impactful contributions across high-quality journals such as Animal Reproduction Science, Small Ruminant Research, Meat Science, and the Asian Journal of Animal and Veterinary Advances. His research achievements include groundbreaking studies on GnRH/hCG interventions to enhance reproductive outcomes, nutritional strategies to improve lamb survival and ewe productivity, genetic diversity mapping of Turkish sheep breeds, and stress–quality interactions in meat production. While his academic contributions are substantial, increasing publications in top-tier Q1 journals and expanding participation in global collaborations, editorial boards, and keynote engagements would further elevate his international research visibility. With his expertise, ongoing investigations in livestock genetics, climate-resilient production, and welfare optimization position him to lead future innovations that contribute to sustainable animal agriculture worldwide. His strong research trajectory, collaborative mindset, and commitment to advancing small ruminant science make him highly deserving of the Best Researcher Award, reflecting both his scientific impact and his potential to shape the next generation of agricultural research leadership.

Publication Profile

Scopus | Orcid | Google Scholar

Featured Publications

Cam, M. A., Olfaz, M., & Soydan, E. (2010). Body measurements reflect body weights and carcass yields in Karayaka sheep. Asian Journal of Animal and Veterinary Advances, 5(2), 120–127.

Cam, M. A., Olfaz, M., & Soydan, E. (2010). Possibilities of using morphometric characteristics as a tool for body weight prediction in Turkish Hair goats (Kilkeci). Asian Journal of Animal and Veterinary Advances, 5(1), 52–59.

Cam, M. A., & Kuran, M. (2004). Effects of a single injection of hCG or GnRH agonist on day 12 post-mating on fetal growth and reproductive performance of sheep. Animal Reproduction Science, 80(1–2), 81–90.

Ocak, N., Cam, M. A., & Kuran, M. (2005). The effect of high dietary protein levels during late gestation on colostrum yield and lamb survival rate in singleton-bearing ewes. Small Ruminant Research, 56(1–3), 89–94.

Olfaz, M., Ocak, N., Erener, G., Cam, M. A., & Garipoglu, A. V. (2005). Growth, carcass and meat characteristics of Karayaka growing rams fed sugar beet pulp partially substituting for grass hay as forage. Meat Science, 70(1), 7–14.

Cam, M. A., Kuran, M., Yildiz, S., & Selcuk, E. (2002). Fetal growth and reproductive performance in ewes administered GnRH agonist on day 12 post-mating. Animal Reproduction Science, 72(1–2), 73–82.

Cam, M. A., & K. M. (2004). Shearing pregnant ewes to improve lamb birth weight increases milk yield of ewes and lamb weaning weight. Asian-Australasian Journal of Animal Sciences, 17(12), 1669–1673.

Shenao Ma | Rural development | Best Researcher Award

Published on 02/04/202502/04/2025 by Top Teachers

Mr. Shenao Ma | Rural development | Best Researcher Award

Graduate Student at School of Management, Gansu Agricultural University, China.

Shenao Ma is a graduate student at the School of Management, Gansu Agricultural University. With a keen interest in rural development, his research focuses on sustainable revitalization strategies for traditional communities. His work integrates public policy and cultural identity to create replicable models for inclusive transformation. He has published peer-reviewed articles and is actively involved in field research, particularly in Tibetan villages. His studies bridge ethnographic surveys with policy evaluation, contributing to the advancement of rural modernization frameworks. His dedication to research and innovation positions him as a promising academic in the field of rural governance.

professional profiles

ORCID

Education

Shenao Ma is currently pursuing a Master’s degree in Agronomy at Gansu Agricultural University, specializing in rural development. His academic journey is marked by a strong foundation in public policy, sustainable governance, and agricultural economics. He has participated in rigorous coursework and field studies that emphasize integrating cultural-tourism strategies into rural revitalization models. His education is complemented by hands-on research experience, allowing him to develop practical insights into modernizing rural communities. Through his studies, he aims to address policy gaps and propose evidence-based solutions for sustainable rural development in China.

work Experience

Shenao Ma has actively contributed to academic research and fieldwork focusing on rural modernization. He leads field studies in Tibetan villages, analyzing the impact of cultural-tourism integration on local economies. His expertise in policy evaluation and ethnographic research has enabled him to design and implement models that enhance tourism revenue while preserving cultural heritage. He has published peer-reviewed papers that influence provincial policy frameworks. His research coordination and data analysis skills have made significant contributions to community-based decision-making processes, bridging grassroots initiatives with institutional planning.

Research Focus

Shenao Ma’s research revolves around public policy and rural development, with an emphasis on integrating cultural identity and economic growth mechanisms. His studies explore sustainable governance models, ethnographic surveys, and policy evaluation techniques. His key research projects include cultural-tourism integration for revitalizing Tibetan villages and spatial-temporal analysis of rural modernization barriers. His findings have influenced regional policies, showcasing effective strategies for inclusive economic development. A pending patent on community-based decision-support tools reflects his commitment to bridging traditional knowledge with digital governance solutions.

Conclusion

Temporal and Spatial Evolution Characteristics and Obstacle Factor Analysis of Rural Modernization Development Level in China
Sustainability
2025-03-25 | Journal article
Part of ISSN: 2071-1050
Contributors: Mingting Shi; Shenao Ma; Sheng Zhong

Md. Kamrul Hasan | Agricultural development | Best Researcher Award

Published on 16/10/202416/10/2024 by Top Teachers

Md. Kamrul Hasan | Agricultural development | Best Researcher Award

Professor at sylhet Agricultural University, Bangladesh

Dr. Md. Kamrul Hasan, a Professor in the Department of Agricultural Chemistry at Sylhet Agricultural University, Bangladesh, has an extensive academic and research background. His expertise spans molecular stress physiology, plant hormones, and the regulation of plant growth and development. With a PhD from Zhejiang University, China, his research has primarily focused on understanding plant stress tolerance mechanisms, including the role of melatonin in cadmium stress tolerance in tomatoes. Dr. Hasan has led multiple research projects, collaborated internationally, and published widely in high-impact journals, including the Journal of Pineal Research and Journal of Hazardous Materials. He has also been awarded the prestigious International Young Scientist award by the National Natural Science Foundation of China (NSFC) in 2018.

professional profile

ORCID

Scopus Profile

Education

Dr. Md. Kamrul Hasan holds a PhD in Olericulture from Zhejiang University, Hangzhou, China, completed in 2016. His doctoral research focused on the mechanisms of melatonin-mediated cadmium stress tolerance and detoxification in tomato plants. Prior to this, he earned his Master of Science in Agricultural Chemistry from Bangladesh Agricultural University, Mymensingh, Bangladesh, in 2007, where he studied the physico-chemical basis of pod borer infestation in chickpea. He completed his Bachelor of Science in Agriculture from the same university in 2005, developing a strong foundation in agricultural sciences. Dr. Hasan also holds Secondary School Certificate (SSC) and Higher Secondary Certificate (HSC) from Dhaka, Bangladesh, completed in 1998 and 2000, respectively. His education has been instrumental in shaping his research interests, particularly in molecular stress physiology, plant hormones, and sustainable agricultural practices. Throughout his academic journey, he has excelled, receiving numerous merit scholarships for his outstanding academic performance.

work Experience

Dr. Md. Kamrul Hasan has extensive academic and research experience. Currently, he is a Professor at the Department of Agricultural Chemistry, Sylhet Agricultural University, Bangladesh, a position he has held since June 2019. Prior to this, he served as an Associate Professor (2016-2019) and Assistant Professor (2010-2016) in the same department. Between 2017 and 2019, he worked as a Post-Doctoral Researcher at the College of Agriculture and Biotechnology, Zhejiang University, China, where he expanded his research in plant stress physiology and melatonin-mediated plant responses. Dr. Hasan has also been a Visiting Lecturer at Shahjalal University of Science & Technology, Bangladesh, and held various other academic responsibilities, including Department-in-Charge for Agricultural Chemistry. His experience spans both teaching and research, allowing him to mentor students while advancing his research on sustainable agriculture and crop resilience. Dr. Hasan’s extensive international collaborations underscore his contribution to global agricultural challenges.

Research Focus

Dr. Md. Kamrul Hasan’s research primarily focuses on molecular stress physiology, specifically the mechanisms through which plants adapt to environmental stresses such as heavy metals and climate extremes. His work on the role of melatonin in improving plant tolerance to cadmium stress in tomatoes has been groundbreaking, contributing valuable insights into how plants detoxify harmful substances while maintaining growth. Dr. Hasan also explores the impact of silicon nanomaterials on plant adaptation, particularly in enhancing growth under challenging soil conditions, such as acidity. His research extends to sustainable agricultural practices, including the use of traditional fertilization methods and their effects on soil properties and crop quality. By addressing key issues related to plant hormones and their regulation, Dr. Hasan’s research contributes to the development of more resilient crops, particularly in regions susceptible to climate change and environmental degradation, making a significant impact on global food security.

Awards and honors

Dr. Md. Kamrul Hasan has been recognized with several prestigious awards for his academic and research excellence. In 2018, he received the International Young Scientist Award from the National Natural Science Foundation of China (NSFC), a testament to his significant contributions to plant stress physiology. He was also a recipient of the Chinese Government Scholarship (CSC), which supported his PhD studies at Zhejiang University from 2012 to 2016. Dr. Hasan was awarded the University Gold Medal for securing the first position in his Master of Science degree from Bangladesh Agricultural University. Additionally, he earned the Bangladesh Agricultural University Merit Scholarship both at the B.Sc. and M.S. levels in recognition of his outstanding academic performance. His contributions to peer-reviewed journals also earned him a Reviewer Certificate from the Journal of Pineal Research in 2019, further highlighting his influence in the field of plant molecular stress research.

Conclusion

Dr. Md. Kamrul Hasan is a highly suitable candidate for the Best Researcher Award. His research excellence, international collaborations, and impactful contributions to plant physiology and sustainable agriculture make him a strong contender. By expanding the practical applications of his research and increasing his public engagement, Dr. Hasan could further solidify his position as a leading researcher in the field.

Publications to Noted

Occurrence and temporal activity pattern of Burmese Red Serow (Capricornis rubidus, Bovidae) in Baraiyadhala National Park, Bangladesh: Insights from a camera trapping study

Authors: Hasan, M.K., Datta, A.K.

Journal: Mammalia, 2024, 88(5), pp. 363–367

Citations: 0

Unusual A(H1N7) influenza A virus isolated from free-range domestic ducks in Bangladesh, 2023

Authors: Turner, J.C.M., Walker, D., Hasan, M.K., Webby, R.J., Feeroz, M.M.

Journal: Microbiology Resource Announcements, 2024, 13(8)

Citations: 0

A Comprehensive Review of Radiation-Induced Hydrogels: Synthesis, Properties, and Multidimensional Applications

Authors: Ahmed, M.S., Islam, M., Hasan, M.K., Nam, K.-W.

Journal: Gels, 2024, 10(6), 381

Citations: 1

Hourly Feeding Regime of Modern Genetics Lactating Sows: Enhancing Productive Performance, Welfare, and Piglet Growth in Smart Farm-Based Systems

Authors: Ampode, K.M.B., Mun, H.-S., Lagua, E.B., Hasan, M.K., Yang, C.-J.

Journal: Agriculture (Switzerland), 2024, 14(5), 740

Citations: 0

Smart Pig Farming—A Journey Ahead of Vietnam

Authors: Sharifuzzaman, M., Mun, H.-S., Ampode, K.M.B., Hasan, M.K., Yang, C.-J.

Journal: Agriculture (Switzerland), 2024, 14(4), 555

Citations: 3

Technological Tools and Artificial Intelligence in Estrus Detection of Sows—A Comprehensive Review

Authors: Sharifuzzaman, M., Mun, H.-S., Ampode, K.M.B., Hasan, M.K., Yang, C.-J.

Journal: Animals, 2024, 14(3), 471

Citations: 2

First record of the Brown Blotched Bengal Treefrog, Polypedates bengalensis Purkayastha et al., 2019, from Bangladesh

Authors: Rahman, M.T., Hasan, M.K., Datta, A.K., Sultana, S.

Journal: Herpetology Notes, 2024, 17, pp. 391–393

Citations: 0

Corrigendum: Melatonin mitigates cadmium phytotoxicity through modulation of phytochelatins biosynthesis, vacuolar sequestration, and antioxidant potential in Solanum lycopersicum L

Authors: Hasan, M.K., Ahammed, G.J., Yin, L., Yu, J., Zhou, J.

Journal: Frontiers in Plant Science, 2024, 15, 1431121

Citations: 0

Backfat Thickness at Pre-Farrowing: Indicators of Sow Reproductive Performance, Milk Yield, and Piglet Birth Weight in Smart Farm-Based Systems

Authors: Mun, H.-S., Ampode, K.M.B., Lagua, E.B., Hasan, M.K., Yang, C.-J.

Journal: Agriculture (Switzerland), 2024, 14(1), 24

Citations: 3

Melatonin-induced plant adaptation to cadmium stress involves enhanced phytochelatin synthesis and nutrient homeostasis in Solanum lycopersicum L.

Authors: Xing, Q., Hasan, M.K., Li, Z., Ahammed, G.J., Zhou, J.

Journal: Journal of Hazardous Materials, 2023, 456, 131670

Citations: 33

Uwingabire Solange | Agricultural Science | Community Engagement and Outreach

Published on 23/09/202423/09/2024 by Top Teachers

Mrs. Uwingabire Solange | Agricultural Science | Community Engagement and Outreach

PhD candidate at Sokoine University of Agriculture, Rwanda

Solange Uwingabire is a PhD candidate specializing in Forest Sciences, with a focus on agroforestry for sustainable bioenergy and improved soil fertility in Rwanda. Her diverse academic background, including degrees in Soil Sciences and Land Management, complements her extensive professional experience in soil analysis, training, and community engagement initiatives. Solange’s commitment to enhancing agricultural practices and promoting environmental sustainability makes her a strong candidate for the Research for Community Engagement and Outreach award.

professional profile

ORCID

Education

Solange Uwingabire’s educational journey is marked by a strong foundation in soil sciences and forest management. She is currently pursuing her PhD in Forest Sciences, focusing on agroforestry for sustainable bioenergy in Rwanda, which she commenced in 2021. Prior to this, she earned her MSc in Soil Sciences and Land Management in 2016, equipping her with critical knowledge in soil fertility and management practices. Her undergraduate studies culminated in a Bachelor’s degree in Soil Science and Environmental Management in 2012. Throughout her academic career, Solange has engaged in various training programs and workshops, enhancing her technical skills and knowledge in agricultural sustainability, GIS applications, and statistical analysis. This solid educational background underpins her research and professional endeavors, positioning her as a knowledgeable advocate for sustainable agricultural practices in Rwanda.

work Experience

Solange Uwingabire’s professional experience encompasses a blend of academic research and practical engagement in soil science and agroforestry. As a PhD student since 2021, her research project focuses on agroforestry systems that enhance sustainable bioenergy production and soil fertility in Rwanda. Previously, she worked as a research assistant in the soils and plants laboratory from 2017 to 2020, where she contributed to various soil-related projects. Solange also served as a senior expert in evaluating kitchen gardens in Rwanda for B&S Europe and provided short-term training on GIS applications at the Rwanda Institute of Management. Her consultancy work includes soil sampling and fertilizer recommendations for multiple tea factories and environmental impact assessments for agricultural projects. This diverse experience has equipped Solange with the skills to effectively address agricultural challenges while fostering community engagement and sustainable practices.

Research Focus

Solange Uwingabire’s research focus is centered on agroforestry systems that promote sustainable bioenergy production and enhance soil fertility in Rwanda. Her PhD project investigates the integration of biochar and organic amendments to improve agricultural practices in two distinct agroecological zones. This research aims to address pressing challenges in soil degradation and food security while fostering environmentally friendly energy solutions for local communities. Solange’s work emphasizes the importance of combining traditional agricultural practices with innovative approaches to sustainability, ensuring resilience against climate change. Additionally, her interest in the role of forests in carbon sequestration and climate regulation further highlights her commitment to addressing environmental issues. By engaging with local farmers and communities, Solange aims to disseminate her findings and empower others to adopt sustainable practices, thus enhancing both agricultural productivity and environmental conservation.

Awards and honors

Solange Uwingabire has received recognition for her contributions to soil science and community engagement. She was awarded a scholarship for her PhD studies in Forest Sciences, demonstrating her academic excellence and commitment to research. In 2022, she was honored with a training opportunity at the XV World Forestry Congress, focusing on building a resilient future with forests. Her active participation in international conferences, such as the Agri4D 2023 Conference and the NM-AIST International Scientific Conference, showcases her dedication to sharing knowledge and best practices in agriculture. Additionally, she is a member of several prestigious organizations, including the International Biochar Initiative and the African Forest Forum, which reflect her commitment to advancing sustainable practices in forestry and agriculture. These accolades and memberships underscore Solange’s influence in her field and her potential to make significant contributions to community outreach and engagement.

Conclusion

Solange Uwingabire is a promising candidate for the Research for Community Engagement and Outreach award, given her strong academic background, practical experience, and dedication to community education in sustainable practices. With targeted efforts to enhance her outreach and collaboration, she has the potential to make significant contributions to community engagement in Rwanda.

Publications to Noted

Uwingabire, S.; Chamshama, S.A.O.; Nduwamungu, J.; Nyberg, G.
“French Bean Production as Influenced by Biochar and Biochar Blended Manure Application in Two Agro-Ecological Zones of Rwanda.”
Agronomy 2024, 14, x. Accepted paper.

Uwingabire, S., Chamshama, S. A. O., Nyberg, G., & Nduwamungu, J.
“Gasifier use for cooking and biochar production by smallholder farmers in Rwanda.”
Biofuels, 2024, 1–8.

Natxo García-López, Solange Uwingabire, Aida Bargués-Tobella, Cecilia Sundberg, Rosa C. Goodman, Christopher Boman, Gert Nyberg.
“An integrated agroforestry-bioenergy system for enhanced energy and food security in rural sub-Saharan Africa.”
Ambio, 2024.

C. Shingiro, G. Nyagatare, H. Hirwa, S. Uwingabire.
“Effect of Human Urine and Compost Tea on Soil Physical and Chemical Properties: Case Study Rubirizi Marshland.”
Journal of Agricultural Science and Engineering, Vol. 5, No. 3, 2019, pp. 61-66.

F. Uwisunzimana, F.X, Naramabuye, O. Munyaneza, D. Uwizeyimana, S. Uwingabire.
“Effective investigation and computation of the soil Erodibility factor in Karubanda watershed using USLE nomograph (K-factor) Equation Southern Province, Rwanda.”
International Journal of Science and Research, Vol. 7, No. 6, 2016, pp. 225-236.

Uwingabire, S., Msanya, B.M., Mtakwa, P.W., Uwitonze, S., Sirikale, S.
“Pedological characterization of soils developed on Gneissic – Granite in the Congo Nile Watershed Divide and Central Plateau Zones, Rwanda.”
International Journal of Current Research (India), Vol. 8, No. 9, 2016, pp. 39489–39501.

Uwingabire, S., Turinzwenayo.
“Spacing effect on macro and micro propagated plantlets, Rwanda.”
International Journal of Current Research (India), Vol. 8, No. 11, 2016, pp. 42507–42513.

Uwitonze, P., Msanya, B. M., Mtakwa, P.W., Uwingabire, S., Sirikale, S.
“Pedological Characterization of Soils Developed from Volcanic Parent Materials of Northern Province of Rwanda.”
Agriculture, Forestry and Fisheries, Vol. 5, No. 6, 2016, pp. 225-236.