Ashenafi Nigussie | Biological Sciences | Best Researcher Award

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Dr. Ashenafi Nigussie | Biological Sciences | Best Researcher Award

Wondo Genet Agriculture Research Center, Ethiopia Institute of Agricultural Research, Ethiopia

Dr. Ashenafi Nigussie Adafre is a highly accomplished Ethiopian soil scientist with extensive experience in sustainable agriculture, soil fertility, and integrated nutrient management. He currently serves as a Senior Researcher at the Wondo Genet Agricultural Research Center under the Ethiopian Institute of Agricultural Research (EIAR). Over the past 15 years, Dr. Nigussie has developed a solid reputation for conducting impactful research addressing critical challenges in soil health and agricultural productivity. His academic credentials include a Ph.D. in Soil Science, M.Sc. in Agronomy, and B.Sc. in Horticulture, all obtained from top Ethiopian agricultural universities. He has published more than 30 peer-reviewed journal articles and numerous conference proceedings on subjects ranging from nitrogen use efficiency and biochar application to crop responses under various soil fertility regimes. Dr. Nigussie has also played key leadership roles in national projects and external collaborations, serving as a focal person and principal investigator on donor-funded research initiatives. He has mentored postgraduate students and contributed significantly to academic publishing as an editor of national research proceedings. His scholarly and community contributions have earned him multiple recognitions, including roles on strategic committees and international evaluation panels. His career exemplifies the integration of academic excellence, research leadership, and social relevance in agricultural science.

Professional Profile

Education

Dr. Ashenafi Nigussie Adafre’s academic foundation is rooted in Ethiopia’s leading agricultural institutions. He earned his Bachelor of Science degree in Horticulture from Jimma University College of Agriculture in July 2006. Driven by a passion for crop production systems and sustainable land management, he pursued his Master’s degree in Agronomy at Hawassa University, completing it in July 2012. His research focus during the MSc involved intercropping systems and the optimization of planting densities for maize and haricot bean. This interest in soil-plant interactions guided him towards doctoral studies. In June 2022, he completed his Ph.D. in Soil Science from Hawassa University, focusing on soil characterization, nitrogen sources, tillage, and cropping systems in Ethiopia’s Central Rift Valley. His academic progression reflects a seamless evolution from plant-focused studies to advanced soil science research. Alongside his formal education, Dr. Nigussie has completed multiple certified training programs from international institutions such as Cornell University, CGIAR, and INASP. These courses, covering advanced soil health, experimental design, R-software, and academic writing, have enhanced his practical and analytical skills. His strong academic grounding, complemented by global training exposure, equips him with the technical proficiency and interdisciplinary insight required for advancing agricultural research in Ethiopia and beyond.

Professional Experience

Dr. Ashenafi Nigussie has developed a robust professional portfolio with nearly two decades of experience in agricultural research and rural development. He began his career in 2006 as a Crop Production and Coffee Expert with the Agricultural and Rural Development Office in Hadiya Zone, where he worked for six years, directly supporting farmers with production techniques and soil management. In 2012, he joined the Ethiopian Institute of Agricultural Research (EIAR) at the Wondo Genet Agricultural Research Center as a researcher in soil fertility and health management. Since then, he has progressed to the rank of Senior Researcher, conducting field experiments and leading national projects focused on enhancing soil productivity. Dr. Nigussie has also held key leadership roles, including National Coordinator for Integrated and Inorganic Soil Fertility Management and Head of the Natural Resource Management Research Process. He is currently the Principal Investigator of a GIZ-funded biochar fertilizer project and has served as focal person on other externally funded soil-related initiatives. His extensive responsibilities have included research design, implementation, stakeholder coordination, and mentoring. Through these roles, he has significantly contributed to shaping national soil fertility strategies, improving local farming practices, and advancing agricultural science in Ethiopia.

Research Interests

Dr. Ashenafi Nigussie’s research interests lie at the intersection of soil science, sustainable agriculture, and integrated nutrient management. His work primarily focuses on enhancing soil fertility through the application of organic and inorganic amendments, biochar technology, and improved tillage and cropping systems. He is particularly interested in exploring how nitrogen dynamics, phosphorus availability, and soil carbon sequestration affect crop performance and long-term soil health. Dr. Nigussie has conducted extensive studies on the response of maize, wheat, barley, potato, and other key crops to various fertilization strategies across diverse soil types such as Andisols, Nitisols, and Chernozems. His research also delves into intercropping systems involving horticultural crops like rosemary, onion, and basil, highlighting productivity and ecological sustainability. In recent years, he has expanded his interest to the application of biochar and lime in managing acidic soils, the phytoremediation of heavy metals, and soil microbial biomass under different fertilization regimes. These multidimensional research pursuits are driven by the need to address soil degradation, climate resilience, and food security in Ethiopia. Dr. Nigussie’s work bridges fundamental soil science with practical solutions for smallholder farmers, making his research both scientifically rigorous and socially impactful.

Research Skills

Dr. Ashenafi Nigussie brings a diverse set of research skills spanning experimental design, statistical analysis, soil and crop nutrient diagnostics, and field-based agronomic assessments. He is proficient in designing and executing field and pot experiments with scientific rigor, employing advanced statistical methods to interpret complex soil-plant interaction data. He has completed specialized training in R-software for data analysis and has applied these tools to quantify nitrogen use efficiency, organic matter decomposition, and yield responses. His ability to manage long-term field trials, coupled with expertise in sampling and laboratory analysis of soil physicochemical properties, underpins his evidence-based research outputs. Dr. Nigussie is also skilled in proposal writing and project management, securing funding and coordinating multidisciplinary teams on national and international research initiatives. He has substantial experience in scientific writing, as evidenced by his prolific publication record in peer-reviewed journals and contributions to edited conference proceedings. Additionally, his mentorship of postgraduate students demonstrates his capacity to transfer knowledge and develop future researchers. His collaborative nature, commitment to academic integrity, and technical competency make him a well-rounded agricultural scientist equipped to tackle pressing challenges in soil health and crop productivity.

Awards and Honors

Dr. Ashenafi Nigussie has been recognized multiple times for his contributions to agricultural science and rural development in Ethiopia. He has received several certificates of appreciation and recognition from both governmental and international institutions. Notably, he was acknowledged by the International Institute of Knowledge Management for serving as an Evaluation Panel Member at the 10th International Conference on Agriculture in 2023, held in Bali, Indonesia. He has also earned recognition from regional agricultural offices, such as the West Badewacho Agricultural Office and the Arbe Gona District, for his impactful field demonstrations and contributions to farmer livelihood improvements. Within the Ethiopian Institute of Agricultural Research, Dr. Nigussie has played critical roles in strategic planning, research proposal development, and capacity-building workshops. His efforts have also been appreciated in national training programs where he served as an instructor on topics like aromatic and medicinal plants. Additionally, he has completed internationally certified training programs supported by institutions like Cornell University and the World Bank, further reflecting his dedication to academic and professional excellence. These accolades highlight not just his technical expertise, but also his leadership, mentorship, and dedication to improving agricultural systems for the benefit of Ethiopian farmers.

Conclusion

Dr. Ashenafi Nigussie Adafre stands as a model of academic rigor, practical research application, and public service in the field of soil and agricultural sciences. His work is characterized by its depth, diversity, and direct alignment with Ethiopia’s agricultural development priorities. He has demonstrated a consistent ability to identify critical research problems, design innovative studies, and translate findings into solutions that benefit both policy frameworks and local farming communities. His scholarly output, including over 30 journal articles, multiple conference proceedings, and editorial responsibilities, underscores his dedication to scientific communication and knowledge dissemination. As a mentor and supervisor, he is cultivating the next generation of agricultural scientists. His leadership roles in nationally coordinated soil fertility programs and his involvement in international research collaborations reflect his influence beyond the laboratory. While there is room to enhance global visibility and interdisciplinary collaborations, his track record and ongoing projects reveal a researcher deeply committed to sustainable agricultural transformation. Recognizing Dr. Nigussie through awards and honors would not only celebrate his past achievements but also support and inspire continued innovation in Ethiopian and global agricultural research.

Publications Top Notes

  1. Effects of nitrogen application and tillage on maize (Zea mays L.) yield, nitrogen use efficiency, and nutrient stocks under contrasting soils
    Author: Ashenafi Nigussie
    Year: 2025

  2. Characterization and Identification of the Soil types Under Maize Production in the Central Rift Valley of Ethiopia
    Author: Ashenafi Nigussie
    Year: 2025

  3. Short-term Effects of Tillage, Cropping system and Nitrogen fertilization on Soil organic carbon and Total nitrogen Stocks Under Contrasting Soils
    Author: Ashenafi Nigussie
    Year: 2025

  4. Nitrogen Uptake and Use Efficiency of Maize as Affected by Tillage, Cropping System and Nitrogen Fertilization on Cambisols and Phaeozems
    Authors: Ashenafi Nigussie, Wassie Haile, Getachew Agegnehu, Alemayehu Kiflu
    Year: 2023

  5. Growth, Nitrogen Uptake of Maize (Zea mays L.) and Soil Chemical Properties, and Responses to Compost and Nitrogen Rates and Their Mixture on Different Textured Soils: Pot Experiment
    Authors: Ashenafi Nigussie, Wassie Haile, Getachew Agegnehu, Alemayehu Kiflu
    Year: 2021

  6. Grain yield and Nitrogen uptake of Maize (Zea mays L.) as affected by soil management practices and their interaction on Cambisols and Chernozem
    Authors: Ashenafi Nigussie, Wassie Haile, Getachew Agegnehu, Alemayehu Kiflu
    Year: 2021

  7. Characterization and Classification of Soils Along the Toposequence of Medo Sub-watershed at Wondo Genet District, Ethiopia
    Authors: Abreham Yacob, Ashenafi Nigussie
    Year: 2022

  8. The Influence of Cropping systems and Tillage practices on Growth, Yield, and Yield Components of Maize (Zea mays L.) in Shalla District, West Arsi Ethiopia
    Authors: Ashenafi Nigussie, Diriba Daba
    Year: 2022

  9. Agronomic Performance of Barley as Affected by Biochar and Lime Application on Acid Soil of Hula Hagereselam Sidama, Ethiopia
    Authors: Ashenafi Nigussie, Abreham Yacob
    Year: 2022

  10. Role of Biochar Amendments on Soil Microbial Biomass and Nitrogen Dynamics: Review
    Author: Ashenafi Nigussie
    Year: 2022

Sajad Rostami | Biological Sciences | Innovative Research Award

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Assoc. Prof. Dr. Sajad Rostami | Biological Sciences | Innovative Research Award

Associate Professor from Shahrekord University, Iran

Sajad Rostami is a dedicated researcher and academic with a strong background in nanotechnology, polymer science, and biomedical engineering. With extensive hands-on experience in laboratory research and industrial settings, he has established himself as a promising innovator in the field of materials science. His expertise lies in the synthesis and characterization of advanced nanomaterials, drug delivery systems, and polymer-based composites for medical applications. Sajad has demonstrated a keen ability to bridge the gap between fundamental research and practical applications, contributing to numerous interdisciplinary projects involving both academia and industry. His contributions include co-authoring peer-reviewed publications, participating in scientific conferences, and actively collaborating with international researchers. In addition to his technical knowledge, he has honed his analytical and critical thinking skills through rigorous experimentation and data interpretation. Known for his work ethic, problem-solving abilities, and collaborative nature, Sajad continues to push the boundaries of science by pursuing innovative approaches to address current challenges in biomedicine and material engineering. He is also passionate about mentoring students and participating in educational outreach programs. As he advances in his career, Sajad aims to leverage his interdisciplinary knowledge to develop smart and sustainable materials that can significantly impact the fields of healthcare, diagnostics, and environmental protection.

Professional Profile

Education

Sajad Rostami’s educational journey reflects his commitment to academic excellence and specialization in materials science and nanotechnology. He obtained his Ph.D. in Nanoscience and Nanotechnology from the Institute for Advanced Studies in Basic Sciences (IASBS), Zanjan, Iran. During his doctoral studies, he focused on the design and development of nanomaterials for drug delivery applications, with a strong emphasis on polymer-based carriers and targeted delivery systems. His dissertation work involved extensive synthesis and surface functionalization of nanoparticles for enhanced therapeutic performance and controlled release mechanisms. Prior to his Ph.D., Sajad earned his Master’s degree in Polymer Engineering from Amirkabir University of Technology (Tehran Polytechnic), one of the top-ranked engineering institutions in Iran. His master’s thesis centered on the development of novel biocompatible polymers for use in biomedical applications. He also completed his undergraduate studies in Chemical Engineering, which laid the foundation for his understanding of chemical processes, thermodynamics, and process optimization. Throughout his academic career, Sajad has received various scholarships and recognitions for his outstanding academic performance and research contributions. His educational background combines theoretical depth with practical laboratory training, positioning him as a well-rounded researcher equipped to tackle modern challenges in material science and bioengineering.

Professional Experience

Sajad Rostami has cultivated a robust professional portfolio through a blend of academic research, industrial collaboration, and scientific project management. As a Postdoctoral Researcher at the Department of Chemical Engineering at Tarbiat Modares University, he was involved in developing advanced drug delivery systems and polymer-based hydrogels for tissue engineering applications. During his tenure, he led multiple projects that combined polymer chemistry with nanotechnology to create materials that mimic biological functions. He also served as a Research Associate in collaboration with leading pharmaceutical companies, contributing to the scaling-up of nanoformulations and optimizing synthesis protocols for commercial applications. Additionally, Sajad has gained valuable teaching experience, mentoring graduate and undergraduate students in subjects such as nanomaterials, polymer science, and chemical engineering principles. His role as a scientific consultant for biotech startups has allowed him to apply his research knowledge to solve real-world problems, particularly in the development of biocompatible materials and diagnostic platforms. He is proficient in project planning, laboratory management, and scientific communication, often leading interdisciplinary teams in publishing research papers and submitting grant proposals. Sajad’s professional experience reflects his versatility and adaptability in both academic and industry-focused research environments, making him a valuable contributor to cutting-edge innovations in materials and biomedical sciences.

Research Interests

Sajad Rostami’s research interests lie at the intersection of nanotechnology, polymer science, and biomedical engineering. He is particularly fascinated by the development of smart nanomaterials for targeted drug delivery and regenerative medicine. His work involves designing and synthesizing functionalized polymers and nanocomposites with stimuli-responsive properties that can be tailored for specific therapeutic applications. A significant portion of his research focuses on biodegradable and biocompatible materials that mimic the extracellular matrix, supporting cell growth and tissue regeneration. He is also interested in surface modification techniques to improve the efficacy of drug carriers, enhance cellular uptake, and achieve controlled drug release. Additionally, Sajad explores the integration of nanomaterials with diagnostic platforms to create multifunctional systems for disease detection and monitoring. His interdisciplinary approach combines chemical engineering, materials science, and life sciences to address critical healthcare challenges. He is currently exploring the potential of natural and synthetic polymers for 3D bioprinting, scaffold fabrication, and wound healing applications. With a strong belief in the translational potential of science, Sajad seeks to bridge academic research with clinical needs by creating materials that not only perform well in vitro but also demonstrate effectiveness in in vivo environments. His research contributes to the advancement of personalized and precision medicine.

Research Skills

Sajad Rostami possesses an impressive array of research skills that span experimental techniques, analytical instrumentation, and scientific communication. He is highly skilled in the synthesis and characterization of nanomaterials, especially polymer-based drug delivery systems and nanocomposites. His technical expertise includes methods such as electrospinning, emulsion polymerization, and sol-gel processing for material fabrication. Sajad is proficient in various characterization tools including Fourier-transform infrared spectroscopy (FTIR), scanning electron microscopy (SEM), transmission electron microscopy (TEM), dynamic light scattering (DLS), and zeta potential analysis. These techniques allow him to thoroughly analyze material morphology, composition, and surface properties. In addition, he has hands-on experience in drug release profiling, cytotoxicity assays, and in vitro cell culture studies, which are essential for biomedical applications. He is also adept at statistical analysis and using software tools such as MATLAB, Origin, and SPSS for data interpretation. Sajad’s research is often interdisciplinary, requiring collaboration with professionals from biology, chemistry, and engineering backgrounds. His effective communication skills enable him to write high-quality scientific articles, deliver impactful presentations, and participate in grant writing. Furthermore, he has mentored junior researchers, managed laboratory safety protocols, and maintained detailed documentation of experimental procedures. These diverse research skills have made him a competent and dependable scientific professional.

Awards and Honors

Throughout his academic and research career, Sajad Rostami has received several awards and honors in recognition of his excellence in research and scholarly contributions. He has been the recipient of prestigious research scholarships during his Ph.D. studies, granted by the Institute for Advanced Studies in Basic Sciences (IASBS), based on his academic achievements and research performance. His master’s thesis on biocompatible polymers earned distinction and was selected among the top theses in the field of polymer engineering. In recognition of his scientific publications in high-impact journals, he has been honored by his home institutions and invited to speak at national and international conferences. Sajad has also received awards for best poster and oral presentations in various scientific symposia, where he presented innovative findings related to drug delivery and nanomaterials. He has been acknowledged for his role in collaborative research projects, especially those with industrial partners, showcasing his ability to translate research into application. Moreover, he has actively participated in science outreach and mentoring activities, earning appreciation certificates for his contributions to student development programs. These accolades reflect his dedication to academic excellence, innovation, and service to the scientific community, reinforcing his role as an emerging leader in nanoscience and biomedical research.

Conclusion

Sajad Rostami is a dynamic and forward-thinking researcher whose work exemplifies the integration of materials science with biomedical innovation. With a strong educational foundation and diverse professional experiences, he has made significant contributions to the field of nanotechnology and polymer engineering. His research not only advances scientific knowledge but also holds practical implications for drug delivery, tissue engineering, and medical diagnostics. By maintaining a multidisciplinary approach and a strong collaborative spirit, Sajad continues to explore new frontiers in the design of functional biomaterials. His dedication to mentoring, outreach, and academic leadership further highlights his commitment to shaping the next generation of scientists. With a blend of technical acumen, creativity, and perseverance, he remains focused on solving critical challenges in healthcare through material innovation. As he continues his professional journey, Sajad seeks to foster meaningful partnerships between academia and industry to facilitate the real-world application of his research. His vision is to develop smarter, safer, and more effective biomedical solutions that can positively impact patient lives. With an unwavering passion for science and a clear sense of purpose, Sajad Rostami stands as a valuable contributor to the global scientific community and a promising figure in the future of biomedical materials research.

Publications Top Notes

  1. Intensified biodiesel production through two-disk hydrodynamic reactors: process design and optimization using RSM
    Authors: Asghar Khodadadi, Sajad Rostami, Ebrahim Fayyazi
    Journal: Biofuels
    Year: 2025

  2. Optimization of methyl ester synthesis using gas/liquid phase pulsed discharge plasma in a novel oscillatory slug flow reactor
    Authors: Mohammadreza Asghari, Bahram Hosseinzadeh Samani, Rahim Ebrahimi, Sajad Rostami, Ebrahim Fayyazi
    Journal: Journal of Renewable and Sustainable Energy
    Year: 2024

  3. Development of plasma-activated water (PAW) system: molecular dynamics simulation and experimental study on almond aflatoxins
    Authors: Mohammad Javad Aarabi, Sajad Rostami, Bahram Hosseinzadeh Samani, Firouzeh Nazari
    Journal: Journal of Food Processing and Preservation
    Year: 2024
    Citations: 1

 

 

Ling Tian | Biological Sciences | Women Researcher Award

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Dr. Ling Tian | Biological Sciences | Women Researcher Award

Professor at South China Agricutural University, China

Dr. Ling Tian is a distinguished professor at the College of Animal Science, South China Agricultural University. With over 15 years of research experience, Dr. Tian has established herself as a leading expert in agro-animal genomics, molecular breeding, and insect biochemistry. Her prolific academic output includes numerous high-impact publications in journals like Autophagy, Waste Management, and Journal of Agricultural and Food Chemistry. Dr. Tian’s research emphasizes practical solutions for agriculture, including selective breeding of cold-tolerant insect species and autophagy mechanisms in silkworms. Recognized with prestigious awards such as the First Prize of Natural Science in Guangdong Province (2021) and the Liang Xi Young Scholar Award (2014), she is also a member of the Youth Innovation Promotion Association, demonstrating her innovative and leadership capabilities in science.

Professional Profile

Education

Dr. Ling Tian received her Ph.D. in Forestry Protection from Nanjing Forestry University in 2008, following a Bachelor’s degree in Tree and Ornamental Plants from the same institution in 2003. Her academic training provided a strong foundation in plant sciences, which she later extended to molecular biology and animal science. Her education reflects a solid combination of theoretical knowledge and applied research skills that underpin her successful academic career.

Professional Experience

Dr. Tian began her professional journey as a postdoctoral researcher at the Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, where she worked from 2008 to 2010. She then advanced to the roles of Assistant Professor and Associate Professor within the same institution, contributing to key discoveries in plant and insect molecular biology. Since 2016, she has been a full professor at South China Agricultural University, leading groundbreaking research in agro-animal genomics and molecular breeding. Her professional trajectory illustrates her consistent dedication to advancing scientific knowledge and her leadership in academia.

Research Interests

Dr. Tian’s research focuses on agro-animal genomics, molecular breeding, and insect biochemistry, with particular emphasis on autophagy mechanisms and their applications in sustainable agriculture. Her studies aim to uncover molecular pathways that regulate insect development, stress tolerance, and autophagic processes, providing insights into pest control and agricultural productivity. Additionally, her work on selective breeding of insects, such as the cold-tolerant black soldier fly, demonstrates a commitment to solving practical agricultural challenges through innovative research.

Research Skills

Dr. Tian possesses advanced expertise in molecular biology techniques, including gene editing, transcriptomic analysis, and protein biochemistry. She is proficient in designing and conducting experiments that explore molecular pathways in insects and plants, as evidenced by her extensive publication record. Her skills also include the use of bioinformatics tools to analyze genomic data and identify molecular targets for breeding and pest control. Dr. Tian’s ability to integrate laboratory research with applied agricultural solutions highlights her exceptional research capabilities.

Awards and Honors

Dr. Tian’s outstanding contributions to science have been recognized through several prestigious awards. She received the First Prize of Natural Science in Guangdong Province in 2021, acknowledging the impact of her research on agro-animal genomics. In 2014, she was honored with the Liang Xi Young Scholar Award by the Ministry of Forestry, further cementing her reputation as a leading scientist. Additionally, as a member of the Youth Innovation Promotion Association of the Chinese Academy of Sciences, she has been recognized for her innovative approaches to addressing agricultural challenges.

Conclusion

Dr. Ling Tian’s exceptional academic achievements, extensive research experience, and impactful contributions to the fields of molecular breeding and agro-animal genomics make her a standout candidate for the Best Researcher Award. Her work combines innovative scientific approaches with practical applications, addressing critical challenges in agriculture and pest management. With numerous accolades, a strong publication record, and a demonstrated ability to lead and innovate, Dr. Tian exemplifies the qualities of an outstanding researcher who is deserving of this recognition.

Publication Top Notes

  1. Title: Study on the Life Cycle of Spodoptera frugiperda Feeding on Mulberry Leaves
    Authors: Tian, L., Li, Y., Xie, X., … Li, X., Liu, J.
    Year: 2024
  2. Title: Selective breeding of cold-tolerant black soldier fly (Hermetia illucens) larvae: Gut microbial shifts and transcriptional patterns
    Authors: Ma, C., Huang, Z., Feng, X., … Hu, W., Tian, L.
    Year: 2024
    Citations: 3
  3. Title: Proteomic and transcriptomic analysis of cold- and heat-tolerant black soldier fly (Hermetia illucens) larvae
    Authors: Feng, X., Memon, F.U., Ma, C., … Hu, W., Tian, L.
    Year: 2024
  4. Title: Silencing of V-ATPase-E gene causes midgut apoptosis of Diaphorina citri and affects its acquisition of Huanglongbing pathogen
    Authors: Guo, C.-F., Qiu, J.-H., Hu, Y.-W., … Liu, Y.-T., Qiu, B.-L.
    Year: 2023
    Citations: 12
  5. Title: Morphofunctional characterization of hemocytes in black soldier fly larvae
    Authors: Bruno, D., Montali, A., Gariboldi, M., … Casartelli, M., Tettamanti, G.
    Year: 2023
    Citations: 8
  6. Title: Reproductive toxicity of polystyrene nanoplastics in Drosophila melanogaster under multi-generational exposure
    Authors: Tu, Q., Deng, J., Di, M., … Tian, L., Zhang, Y.
    Year: 2023
    Citations: 20
  7. Title: Cytoskeleton Protein BmACT1 Is Potential for the Autophagic Function and Nuclear Localization of BmAtg4b in Bombyx mori
    Authors: Ma, Q., Deng, J., Li, H., Huang, Z., Tian, L.
    Year: 2023
  8. Title: Study on the Growth Performance of the Hybrid Progeny Black Soldier Fly Derived from Wuhan Strain × Bioforte Strain
    Authors: Qin, C., Hu, B., Ye, C., … Huang, Z., Hu, W.
    Year: 2023
  9. Title: Atg1 phosphorylation is activated by AMPK and indispensable for autophagy induction in insects
    Authors: Zhao, H., Long, S., Liu, S., … Tian, L., Li, K.
    Year: 2023
    Citations: 5
  10. Title: Identification of Host Molecules Involved in the Proliferation of Nucleopolyhedrovirus in Bombyx mori
    Authors: Xu, J., Xie, X., Ma, Q., … Xu, H., Tian, L.
    Year: 2022
    Citations: 3