Mingshi Yue | Agronomy | Research Excellence Award

Published on by Botany Scientist

Assist. Prof. Dr. Mingshi Yue | Agronomy | Research Excellence Award

Mister at Linyi University | China

Assist. Prof. Dr. Mingshi Yue is an associate professor in the School of Mathematics and Statistics at Linyi University, holding advanced degrees from East China Normal University, with strong academic and research expertise in operations management, group decision analysis, and marketing, contributing scholarly insights to interdisciplinary decision science, applied optimization, and quantitative modeling for management and business research.

Citation Metrics (Scopus)

30

20

10

0

Citations
25

Documents
6

h-index
3

🟦 Citations    🟥 Documents    🟩 h-index


View Scopus Profile      View Orcid Profile

Featured Publications

Scopus-indexed research article on operations management and decision analysis
– Indexed in Scopus

Peer-reviewed study on group decision-making models and analytical methods
– Scopus Indexed Journal

Quantitative research contribution in supply chain coordination and information sharing
– International Journal

Applied mathematical modeling research supporting marketing and operational decisions
– Scopus Indexed

 

Zhang Li | Agronomy | Research Excellence Award

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Ms. Zhang Li | Agronomy | Research Excellence Award

College of Animal Science, Xinjiang Agricultural University and Institute of Animal Husbandry, Xinjiang Academy of Animal Sciences | China

Ms. Zhang Li is a Master’s Candidate at the College of Animal Science, Xinjiang Agricultural University, jointly affiliated with the Institute of Animal Husbandry, Xinjiang Academy of Animal Science, specializing in Animal Genetics, Breeding and Reproduction with a strong research focus on gene-edited livestock improvement and molecular mechanisms governing growth and development in Chinese Merino sheep (Xinjiang type); she has actively contributed as a core member to several major national and autonomous region-level scientific and technological programs including high-impact initiatives on efficient sheep breeding technologies, precision breeding strategies for cattle and sheep, and the establishment of advanced in vitro embryo production systems supporting the creation of gene-edited sheep; she is proficient in CRISPR/Cas9 gene editing, RNA-seq transcriptome analysis, and RT-qPCR validation and has applied these technologies to investigate the regulatory pathways associated with MSTN gene knockout, leading to the identification of differentially expressed genes and key molecular regulators influencing body weight, body measurements, and muscle development; her first-author publication in a leading Q1 SCI-indexed journal presents significant insights into the effects of MSTN gene editing on growth performance and muscle transcriptomic profiles in Chinese Merino sheep, contributing valuable knowledge to the field of molecular breeding; she has collaborated closely with the Xinjiang Academy of Animal Science on gene-edited sheep growth performance evaluation and played a role in the development of the Xinjiang Uygur Autonomous Region Sheep Engineering Research Center; her work supports regional livestock improvement programs and provides a scientific foundation for enhancing productivity, genetic advancement, and sustainable development within the sheep industry, positioning her as a promising young researcher in animal genetics and molecular breeding.

Profile : Orcid 

Featured Publications : 

Zhang, L., Li, P., Wang, X., Kong, M., Wu, W., & Zheng, W. (n.d.). Effects of MSTN gene knockout on growth performance and muscle transcriptome in Chinese Merino sheep (Xinjiang type). Animals. Advance online publication.

Guoping Zhang | Agronomy | Editorial Board Member

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Prof. Guoping Zhang | Agronomy | Editorial Board Member

Professor at Zhejiang University | China

Prof. Guoping Zhang is a distinguished Professor in the Department of Agronomy at Zhejiang University, China, recognized internationally for his extensive contributions to crop stress physiology, barley germplasm improvement, and molecular mechanisms underlying plant responses to abiotic and heavy metal stresses. After obtaining his bachelor’s, master’s, and doctoral degrees from Zhejiang Agricultural University and Zhejiang University, he advanced through academic positions from Assistant Lecturer to full Professor, establishing a strong research legacy in plant molecular physiology and genetic improvement. His primary research areas encompass the identification and development of barley germplasm tolerant to salinity, drought, and acid soils, alongside investigations into nutrient-use efficiency and the molecular and physiological determinants of heavy metal accumulation and phytoremediation in crops. Over his career, he has completed more than thirty competitive research projects, including multiple national natural science foundation grants, and has authored over three hundred sixty publications in leading peer-reviewed journals such as Nature, Plant Physiology, Environmental and Experimental Botany, Advanced Science, and the Proceedings of the National Academy of Sciences, accumulating over fifteen thousand citations and a highly influential h-index above sixty. He has contributed seminal findings on sodium transporters, microRNA regulation under salt stress, transcriptomic and alternative splicing responses during salinity adaptation, trypsin-family gene control of tillering and leaf morphology, negative regulatory roles of HKT and calmodulin-related genes in salt tolerance, and multi-omics insights into wild barley adaptation mechanisms. Beyond research, he has served in major international academic roles, including chairing the International Barley Genetics Symposium organizing committee and holding editorial responsibilities for key journals in agronomy, plant physiology, and integrated agricultural sciences, solidifying his standing as a global leader in stress biology and barley genetics.

Profile : Scopus 

Featured Publications : 

An integrated analysis of transcriptome and metabolome reveals aerenchyma-mediated antioxidant defense and energy metabolism conferring high waterlogging tolerance in sea barley. (Open access). Plant Stress.

Interactions of arsenic and phosphorus in their uptake and transportation in plants: Advances and prospective research on the mechanisms and approaches for alleviating arsenic stress. (Review, Open access).

Plant secondary metabolites—Central regulators against abiotic and biotic stresses. (Review, Open access).

Utilization of antagonistic interactions between micronutrients and cadmium (Cd) to alleviate Cd toxicity and accumulation in crops. (Review, Open access).

A comprehensive analytical method ‘Regulatome’ revealed a novel pathway for aerenchyma formation under waterlogging in wheat. Physiologia Plantarum.

A barley pan-transcriptome reveals layers of genotype-dependent transcriptional complexity. Nature Genetics.