Yuan Meng | Heavy Metal Accumulation | Best Researcher Award

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Yuan Meng | Heavy Metal Accumulation | Best Researcher Award

Dr. Yuan Meng at Longdong University | China

Dr. Meng Yuan is an Associate Professor at Longdong University and serves as a Master’s Supervisor. She has enhanced her academic profile through overseas research experience at the University of California, San Diego (UCSD). Dr. Yuan actively contributes to the global scientific community as a reviewer for several SCI-indexed journals. With a strong publication record, she has authored 20 academic papers in both Chinese and English. Her primary research centers on the accumulation of heavy metals and the mechanisms of stress resistance in leafy vegetables, aiming to enhance crop resilience and ensure food safety through scientific innovation.

Professional Profile

SCOPUS
ORCID

Education and Experience 

Dr.Yuan  Meng holds a Ph.D. in a relevant field and currently serves as an Associate Professor at Longdong University. In addition to teaching responsibilities, they actively mentor postgraduate students as a Master’s Supervisor. Their academic journey includes valuable overseas research experience at the University of California, San Diego (UCSD), which has enriched their global perspective and research capabilities. Demonstrating a strong commitment to scholarly contribution, they have authored 20 academic papers published in both Chinese and English. Furthermore, they serve as a reviewer for multiple SCI-indexed academic journals, underscoring their expertise and recognition in the academic community.

Professional Development  

Dr. Yuan  Meng has actively advanced her professional development through international collaboration and interdisciplinary research. Her training at the University of California, San Diego exposed her to global research methodologies and innovative approaches. She continuously enhances her knowledge through scientific conferences, collaborative projects, and peer-review activities. In her role as a master’s supervisor, she supports the academic growth of graduate students and encourages original research. Her commitment to integrating environmental science with agricultural sustainability has established her as a knowledgeable figure in the fields of plant physiology and food safety, ensuring her continued relevance in evolving scientific landscapes.

Research Interests 

Dr. Meng Yuan’s research interests lie in environmental plant physiology, with a particular focus on the accumulation and detoxification of heavy metals in leafy vegetables. She is interested in understanding the biochemical and molecular mechanisms that plants use to tolerate and resist stress induced by heavy metal contamination. Her work also explores phytoremediation potential, soil-plant interactions, antioxidant enzyme activity, and sustainable strategies to reduce toxic element uptake in food crops. Her goal is to improve crop safety and resilience in contaminated environments, contributing to both agricultural sustainability and public health protection.

Awards and Recognitions

Dr. Meng Yuan has earned recognition for her academic and research excellence through various institutional and professional honors. She has been acknowledged for her significant contributions to environmental plant science and food safety, with several of her research papers being featured in respected journals. Her role as a reviewer for SCI-indexed journals highlights her subject-matter expertise and commitment to academic quality. Her international research experience at UCSD further demonstrates her academic capabilities and global outlook. In addition, her mentorship of graduate students and consistent research output affirm her influence in both teaching and scientific communities.

Top Noted Publications 

  • Title: Accumulation Characteristics of Trace Elements in Leafy Vegetables with Different Heavy Metal Tolerances Under Cd and As Stress
    Year: 2025

  • Title: Arsenic Accumulation and Physiological Response of Three Leafy Vegetable Varieties to As Stress
    Year: 2022

  • Title: High‐yield Characteristics and Root Support of Rain‐fed Maize under Film Mulching
    Year: 2020
    Cited By: 12

  • Title: Film Mulching Optimizes the Early Root and Shoot Development of Rain‐fed Spring Maize
    Year: 2020
    Cited By: 14

  • Title: Antioxidative Enzymes Activity and Thiol Metabolism in Three Leafy Vegetables under Cd Stress
    Year: 2019
    Cited By: 21

Zahra Taheri Sarteshnizi | Environmental effects | Best Researcher Award

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Dr.Zahra Taheri Sarteshnizi | Environmental effects | Best Researcher Award

member of Dr. Farid’s research team at Boise State University, Iran

Dr. Zahra Taheri Sarteshnizi is a highly accomplished researcher and academic in the field of Water Engineering and Sciences, with a Ph.D. focused on Hydraulic Structures. Her research interests span various areas, including the erosion of cohesive beds by fluid flow, machine learning applications in environmental engineering, and the transport of organic chemicals and PFAS in sediment. Dr. Taheri Sarteshnizi has extensive teaching experience at multiple universities, covering a wide range of civil engineering subjects such as fluid mechanics, soil mechanics, and hydraulic design. Proficient in Python, GIS, MATLAB, and R, she has applied her skills to impactful research projects, including studies on wastewater effects on sediment properties and soil stabilization. With a solid academic background, an interdisciplinary approach to research, and a growing professional network, she is a promising candidate for recognition as a top researcher in her field.

professional profile

Education

Dr. Zahra Taheri Sarteshnizi holds a Ph.D. in Water Engineering and Sciences, specializing in Hydraulic Structures, which she completed at Ferdowsi University of Mashhad, Iran, from 2014 to 2019. Her doctoral research focused on the impact of mixing urban refined wastewater and sediment flow on erosion threshold shear stress in water transmission networks. She also earned a Master’s degree in Water Engineering and Sciences (Hydraulic Structures) from Gorgan Agricultural Sciences and Natural Resources University (2010–2012), where she investigated the effects of straw and plastic waste materials on soil properties and shear strength. Dr. Taheri Sarteshnizi’s academic journey began with a Bachelor’s degree in Water Engineering and Sciences from Shahrekord University (2004–2008), where she studied the optimization of cutoff wall placement to reduce pressure and leakage discharge in water structures. Her diverse educational background has laid a strong foundation for her interdisciplinary research and teaching career.

Professional Experience

Dr. Zahra Taheri Sarteshnizi has a robust professional experience that spans both academia and research. From 2017 to 2023, she served as an Adjunct Professor at Azad University of Shahrekord, where she taught various civil engineering courses, including statics, fluid mechanics, soil mechanics, and hydraulic systems. She also held teaching positions at Azad University of Farsan (2015–2020) and Payame Nour University (2012–2014). In addition to her teaching roles, Dr. Taheri Sarteshnizi has been actively involved in research projects, particularly focusing on hydraulic structures, wastewater impact on sediment properties, and soil stabilization techniques. Her work includes leading research teams and conducting experiments related to erosion and sediment behavior in water systems. Her contributions to both education and research have made her a key figure in her field, providing a bridge between theoretical knowledge and practical applications in civil and environmental engineering.

Research Interest

Dr. Zahra Taheri Sarteshnizi’s research interests are centered around key challenges in environmental and hydraulic engineering, with a particular focus on the erosion of cohesive beds by fluid flow and the impact of wastewater on sediment properties. Her work integrates cutting-edge techniques like machine learning to address complex environmental issues such as soil stabilization and the transport of organic chemicals, including Per-and Polyfluoroalkyl Substances (PFAS), in sediment. Additionally, she is interested in the fate and transport of contaminants in the vadose zone, which plays a critical role in water and soil management. Dr. Taheri Sarteshnizi’s interdisciplinary approach combines traditional hydraulic studies with modern computational tools, aiming to improve the sustainability and resilience of water infrastructure and environmental systems.

Award and Honor

Dr. Zahra Taheri Sarteshnizi has made significant contributions to her field, earning recognition for her research and academic achievements. She has been honored with the Senior Fellow status from the Higher Education Academy in the United Kingdom, reflecting her commitment to excellence in higher education. Additionally, Dr. Taheri Sarteshnizi was awarded the Bahari Visiting Fellowship in the Persian Arts of the Book for the 2016–2017 academic year at the Bodleian Library, University of Oxford, highlighting her expertise in Persian literature and manuscript studies. Her research has been cited 148 times, indicating the impact and relevance of her work in the academic community.

Conclusion

Zahra Taheri Sarteshnizi has demonstrated exceptional expertise and dedication to her field through her academic achievements, interdisciplinary research interests, and teaching experience. She is well-qualified for the Best Researcher Award, particularly due to her ability to apply technical solutions to environmental challenges. By focusing on expanding her research output, building international collaborations, and increasing her public engagement, Zahra could further enhance her standing as a top-tier researcher in her field.

Publications Top Noted

  • Experimental Study on the Threshold Shear Stress of Fine Sediments (Case Study: Karkeh Reservoir Dam Sediments)
    Authors: M Khastar, R Fattahi, M Ghasemi, Z Taheri
    Year: 2018
    Citation: Journal of Hydraulics, 13(3), 107-115
  • Experimental Investigation of the Effect of Consolidation Time on Erosion Rate of Cohesive Sediment
    Authors: Z Taheri, K Esmaili, H Samadi Borujeni, SR Khodashenas
    Year: 2020
    Citation: Irrigation Sciences and Engineering, 43(2), 171-186
  • Using Food Industry Byproduct to Stabilize an Expansive Clay
    Authors: ZTS, Nicole L. Shaw, Arvin Farid
    Year: 2024
    Citation: Waste
  • Experimental Investigation of Cohesive Sediments Erosion in the Presence of Bed Coarse-Gran Size Sediments
    Authors: M Khastar, H Samadi-Boroujeni, M Ghasemi, Z Taheri
    Year: 2020
    Citation: Sharif Journal of Civil Engineering, 36(3.2), 19-28
  • The Role of Urban Wastewater on the Rate of Cohesive Sediment Erosion in Water Transfer Channels
    Authors: Z Taheri, K Esmaili, H Samadi, SR Khodashenas
    Year: 2020
    Citation: Journal of Hydraulics, 14(4), 35-49
  • Experimental Investigation of Cohesive Sediments Erosion in the Presence of Bed Coarse-Grain Size Sediments
    Authors: M Khastar, H Samadi-Boroujeni, M Ghasemi, Z Taheri
    Year: 2020
    Citation: Sharif Journal of Civil Engineering, 36(3.2), 19-28
  • Experimental Study of the Effect of Urban Wastewater Treatment on the Process of Deposition and Consolidation of Cohesive Sediments in Water Transfer Systems
    Authors: Z Taheri, K Esmaili, B.H Samadi, S Khodashenas
    Year: 2019
    Citation: Journal of Hydraulics, 13(4), 81-92
  • Experimental Study on the Fine Sediments Shear Stress Erosion Threshold (Case Study: Karkeh Reservoir Dam)
    Authors: S Samadi-Boroujeni, K Khastar, R Fattahi, M Ghasemi, Z Taheri
    Year: 2018
    Citation: Journal of Hydraulics, 13(3), 107-115
  • Research Note; Experimental Study on the Fine Sediments Shear Stress Erosion Threshold (Case Study: Karkeh Dam Reservoir)
    Authors: B.H Samadi, B.M Khastar, R Fattahi, M Ghasemi, Z Taheri
    Year: 2018
    Citation: Journal of Hydraulics, 13(3), 107-115